/* * driver.c -- generic driver for mail fetch method protocols * * Copyright 1996 by Eric S. Raymond * All rights reserved. * For license terms, see the file COPYING in this directory. */ #include #include #include #include #include #include #if defined(STDC_HEADERS) #include #endif #if defined(HAVE_UNISTD_H) #include #endif #if defined(HAVE_STDARG_H) #include #else #include #endif #if defined(HAVE_ALLOCA_H) #include #endif #include #include #ifdef HAVE_GETHOSTBYNAME #include #include "mx.h" #endif /* HAVE_GETHOSTBYNAME */ #ifdef KERBEROS_V4 #include #include #include #include #endif /* KERBEROS_V4 */ #include "socket.h" #include "fetchmail.h" #include "socket.h" #include "smtp.h" /* BSD portability hack...I know, this is an ugly place to put it */ #if !defined(SIGCHLD) && defined(SIGCLD) #define SIGCHLD SIGCLD #endif #define SMTP_PORT 25 /* standard SMTP service port */ extern char *strstr(); /* needed on sysV68 R3V7.1. */ int batchlimit; /* how often to tear down the delivery connection */ int fetchlimit; /* how often to tear down the server connection */ int batchcount; /* count of messages sent in current batch */ int peek_capable; /* can we peek for better error recovery? */ static const struct method *protocol; static jmp_buf restart; char tag[TAGLEN]; static int tagnum; #define GENSYM (sprintf(tag, "a%04d", ++tagnum), tag) static char *shroud; /* string to shroud in debug output, if non-NULL */ static int mytimeout; /* value of nonreponse timeout */ static void vtalarm(int timeleft) /* reset the nonresponse-timeout */ { struct itimerval ntimeout; ntimeout.it_interval.tv_sec = ntimeout.it_interval.tv_usec = 0; ntimeout.it_value.tv_sec = timeleft; ntimeout.it_value.tv_usec = 0; setitimer(ITIMER_VIRTUAL, &ntimeout, (struct itimerval *)NULL); } static void vtalarm_handler (int signal) /* handle server-timeout SIGVTALARM signal */ { longjmp(restart, 1); } #ifdef HAVE_RES_SEARCH #define MX_RETRIES 3 static int is_host_alias(const char *name, struct query *ctl) /* determine whether name is a DNS alias of the hostname */ { struct hostent *he; struct mxentry *mxp, *mxrecords; /* * The first two checks are optimizations that will catch a good * many cases. (1) check against the hostname the user * specified. Odds are good this will either be the mailserver's * FQDN or a suffix of it with the mailserver's domain's default * host name omitted. Then check the rest of the `also known as' * cache accumulated by previous DNS checks. This cache is primed * by the aka list option. * * (2) check against the mailserver's FQDN, in case * it's not the same as the declared hostname. * * Either of these on a mail address is definitive. Only if the * name doesn't match either is it time to call the bind library. * If this happens odds are good we're looking at an MX name. */ if (str_in_list(&ctl->server.lead_server->names, name)) return(TRUE); else if (strcmp(name, ctl->server.canonical_name) == 0) return(TRUE); else if (ctl->server.no_dns) return(FALSE); /* * We know DNS service was up at the beginning of this poll cycle. * If it's down, our nameserver has crashed. We don't want to try * delivering the current message or anything else from this * mailbox until it's back up. */ else if ((he = gethostbyname(name)) != (struct hostent *)NULL) { if (strcmp(ctl->server.canonical_name, he->h_name) == 0) goto match; else return(FALSE); } else switch (h_errno) { case HOST_NOT_FOUND: /* specified host is unknown */ case NO_ADDRESS: /* valid, but does not have an IP address */ break; case NO_RECOVERY: /* non-recoverable name server error */ case TRY_AGAIN: /* temporary error on authoritative server */ default: if (outlevel != O_SILENT) putchar('\n'); /* terminate the progress message */ error(0, 0, "nameserver failure while looking for `%s' during poll of %s.", name, ctl->server.names->id); ctl->errcount++; longjmp(restart, 2); /* try again next poll cycle */ break; } /* * We're only here if DNS was OK but the gethostbyname() failed * with a HOST_NOT_FOUND or NO_ADDRESS error. * Search for a name match on MX records pointing to the server. */ h_errno = 0; if ((mxrecords = getmxrecords(name)) == (struct mxentry *)NULL) { switch (h_errno) { case HOST_NOT_FOUND: /* specified host is unknown */ case NO_ADDRESS: /* valid, but does not have an IP address */ return(FALSE); break; case NO_RECOVERY: /* non-recoverable name server error */ case TRY_AGAIN: /* temporary error on authoritative server */ default: error(0, 0, "nameserver failure while looking for `%s' during poll of %s.", name, ctl->server.names->id); ctl->errcount++; longjmp(restart, 2); /* try again next poll cycle */ break; } } else { for (mxp = mxrecords; mxp->name; mxp++) if (strcmp(ctl->server.canonical_name, mxp->name) == 0) goto match; return(FALSE); match:; } /* add this name to relevant server's `also known as' list */ save_str(&ctl->server.lead_server->names, -1, name); return(TRUE); } static void map_name(name, ctl, xmit_names) /* add given name to xmit_names if it matches declared localnames */ const char *name; /* name to map */ struct query *ctl; /* list of permissible aliases */ struct idlist **xmit_names; /* list of recipient names parsed out */ { const char *lname; lname = idpair_find(&ctl->localnames, name); if (!lname && ctl->wildcard) lname = name; if (lname != (char *)NULL) { if (outlevel == O_VERBOSE) error(0, 0, "mapped %s to local %s", name, lname); save_str(xmit_names, -1, lname); } } void find_server_names(hdr, ctl, xmit_names) /* parse names out of a RFC822 header into an ID list */ const char *hdr; /* RFC822 header in question */ struct query *ctl; /* list of permissible aliases */ struct idlist **xmit_names; /* list of recipient names parsed out */ { if (hdr == (char *)NULL) return; else { char *cp, *lname; if ((cp = nxtaddr(hdr)) != (char *)NULL) do { char *atsign; if ((atsign = strchr(cp, '@'))) { struct idlist *idp; /* * Does a trailing segment of the hostname match something * on the localdomains list? If so, save the whole name * and keep going. */ for (idp = ctl->server.localdomains; idp; idp = idp->next) { char *rhs; rhs = atsign + 1 + (strlen(atsign) - strlen(idp->id)); if ((rhs[-1] == '.' || rhs[-1] == '@') && strcmp(rhs, idp->id) == 0) { if (outlevel == O_VERBOSE) error(0, 0, "passed through %s matching %s", cp, idp->id); save_str(xmit_names, -1, cp); continue; } } /* * Check to see if the right-hand part is an alias * or MX equivalent of the mailserver. If it's * not, skip this name. If it is, we'll keep * going and try to find a mapping to a client name. */ if (!is_host_alias(atsign+1, ctl)) continue; atsign[0] = '\0'; } map_name(cp, ctl, xmit_names); } while ((cp = nxtaddr((char *)NULL)) != (char *)NULL); } } char *parse_received(struct query *ctl, char *bufp) /* try to extract */ { char *ok; static char rbuf[HOSTLEN + USERNAMELEN + 4]; /* * Try to extract the real envelope addressee. We look here * specifically for the mailserver's Received line. * Note: this will only work for sendmail, or an MTA that * shares sendmail's convention for embedding the envelope * address in the Received line. Sendmail itself only * does this when the mail has a single recipient. */ if ((ok = strstr(bufp, "by ")) == (char *)NULL) ok = (char *)NULL; else { char *sp, *tp; /* extract space-delimited token after "by " */ tp = rbuf; for (sp = ok + 3; !isspace(*sp); sp++) *tp++ = *sp; *tp = '\0'; /* * If it's a DNS name of the mail server, look for the * recipient name after a following "for". Otherwise * punt. */ if (is_host_alias(rbuf, ctl)) ok = strstr(sp, "for "); else ok = (char *)NULL; } if (ok != 0) { char *sp, *tp; tp = rbuf; sp = ok + 4; if (*sp == '<') sp++; while (*sp && *sp != '>' && *sp != '@' && *sp != ';') if (!isspace(*sp)) *tp++ = *sp++; else { /* uh oh -- whitespace here can't be right! */ ok = (char *)NULL; break; } *tp = '\0'; } if (!ok) return(NULL); else { if (outlevel == O_VERBOSE) error(0, 0, "found Received address `%s'", rbuf); return(rbuf); } } #endif /* HAVE_RES_SEARCH */ static FILE *smtp_open(struct query *ctl) /* try to open a socket to the appropriate SMTP server for this query */ { struct query *lead; lead = ctl->lead_smtp; /* go to the SMTP leader for this query */ /* maybe it's time to close the socket in order to force delivery */ if (batchlimit && lead->smtp_sockfp && batchcount++ == batchlimit) { fclose(lead->smtp_sockfp); lead->smtp_sockfp = (FILE *)NULL; batchcount = 0; } /* if no socket to this host is already set up, try to open ESMTP */ if (lead->smtp_sockfp == (FILE *)NULL) { if ((lead->smtp_sockfp = SockOpen(lead->smtphost, SMTP_PORT)) == (FILE *)NULL) return((FILE *)NULL); else if (SMTP_ok(lead->smtp_sockfp) != SM_OK || SMTP_ehlo(lead->smtp_sockfp, ctl->server.names->id, &lead->server.esmtp_options) != SM_OK) { /* * RFC 1869 warns that some listeners hang up on a failed EHLO, * so it's safest not to assume the socket will still be good. */ fclose(lead->smtp_sockfp); lead->smtp_sockfp = (FILE *)NULL; } } /* if opening for ESMTP failed, try SMTP */ if (lead->smtp_sockfp == (FILE *)NULL) { if ((lead->smtp_sockfp = SockOpen(lead->smtphost, SMTP_PORT)) == (FILE *)NULL) return((FILE *)NULL); else if (SMTP_ok(lead->smtp_sockfp) != SM_OK || SMTP_helo(lead->smtp_sockfp, ctl->server.names->id) != SM_OK) { fclose(lead->smtp_sockfp); lead->smtp_sockfp = (FILE *)NULL; } } return(lead->smtp_sockfp); } static int gen_readmsg(sockfp, len, delimited, ctl, realname) /* read message content and ship to SMTP or MDA */ FILE *sockfp; /* to which the server is connected */ long len; /* length of message */ int delimited; /* does the protocol use a message delimiter? */ struct query *ctl; /* query control record */ char *realname; /* real name of host */ { char buf [MSGBUFSIZE+1]; char *bufp, *headers, *fromhdr,*tohdr,*cchdr,*bcchdr,*received_for,*envto; char *fromptr, *toptr, *ctthdr; int n, oldlen, ch; int inheaders, sizeticker, delete_ok; FILE *sinkfp; RETSIGTYPE (*sigchld)(); #ifdef HAVE_GETHOSTBYNAME char rbuf[HOSTLEN + USERNAMELEN + 4]; #endif /* HAVE_GETHOSTBYNAME */ /* read the message content from the server */ inheaders = delete_ok = TRUE; headers = fromhdr = tohdr = cchdr = bcchdr = received_for = envto = ctthdr = NULL; sizeticker = 0; oldlen = 0; while (delimited || len > 0) { buf[0] = '\0'; do { if (!SockGets(buf+strlen(buf), sizeof(buf)-strlen(buf)-1, sockfp)) return(PS_SOCKET); vtalarm(ctl->server.timeout); } while /* we may need to grab RFC822 continuations */ (inheaders && (ch = SockPeek(sockfp)) == ' ' || ch == '\t'); /* write the message size dots */ if ((n = strlen(buf)) > 0) { sizeticker += n; while (sizeticker >= SIZETICKER) { if (outlevel > O_SILENT) error_build("."); sizeticker -= SIZETICKER; } } len -= n; bufp = buf; if (buf[0] == '\r' && buf[1] == '\n') inheaders = FALSE; if (delimited && *bufp == '.') { if (bufp[1] == '\r' && bufp[2] == '\n') break; /* end of message */ } if (inheaders) { if (!ctl->no_rewrite) reply_hack(bufp, realname); if (!headers) { oldlen = strlen(bufp); headers = xmalloc(oldlen + 1); (void) strcpy(headers, bufp); bufp = headers; } else { int newlen; newlen = oldlen + strlen(bufp); headers = realloc(headers, newlen + 1); if (headers == NULL) return(PS_IOERR); strcpy(headers + oldlen, bufp); bufp = headers + oldlen; oldlen = newlen; } if (!fromhdr && !strncasecmp("From:", bufp, 5)) fromhdr = bufp; else if (!fromhdr && !strncasecmp("Resent-From:", bufp, 12)) fromhdr = bufp; else if (!fromhdr && !strncasecmp("Apparently-From:", bufp, 16)) fromhdr = bufp; else if (!strncasecmp("To:", bufp, 3)) tohdr = bufp; else if (!envto && !strncasecmp("Apparently-To:", bufp, 14)) envto = bufp; else if (!envto && !strncasecmp(ctl->server.envelope, bufp, 14)) envto = bufp; else if (!strncasecmp("Cc:", bufp, 3)) cchdr = bufp; else if (!strncasecmp("Bcc:", bufp, 4)) bcchdr = bufp; else if (!strncasecmp("Content-Transfer-Encoding:", bufp, 26)) ctthdr = bufp; #ifdef HAVE_RES_SEARCH else if (MULTIDROP(ctl) && !strncasecmp("Received:", bufp, 9)) received_for = parse_received(ctl, bufp); #endif /* HAVE_RES_SEARCH */ if (len > 0) continue; } /* if (inheaders) */ if (headers && (!inheaders || len == 0)) /* at end of headers now */ { char *cp; struct idlist *idp, *xmit_names; int good_addresses, bad_addresses; #ifdef HAVE_RES_SEARCH int no_local_matches = FALSE; #endif /* HAVE_RES_SEARCH */ /* cons up a list of local recipients */ xmit_names = (struct idlist *)NULL; bad_addresses = good_addresses = 0; #ifdef HAVE_RES_SEARCH /* is this a multidrop box? */ if (MULTIDROP(ctl)) { if (envto) /* We have the actual envelope addressee */ find_server_names(envto, ctl, &xmit_names); else if (received_for) /* * We have the Received for addressee. * It has to be a mailserver address, or we * wouldn't have got here. */ map_name(received_for, ctl, &xmit_names); else { /* * We haven't extracted the envelope address. * So check all the header addresses. */ find_server_names(tohdr, ctl, &xmit_names); find_server_names(cchdr, ctl, &xmit_names); find_server_names(bcchdr, ctl, &xmit_names); } if (!xmit_names) { no_local_matches = TRUE; save_str(&xmit_names, -1, user); if (outlevel == O_VERBOSE) error(0, 0, "no local matches, forwarding to %s", user); } } else /* it's a single-drop box, use first localname */ #endif /* HAVE_RES_SEARCH */ save_str(&xmit_names, -1, ctl->localnames->id); /* time to address the message */ if (ctl->mda) /* we have a declared MDA */ { int length = 0; char *names, *cmd; /* * We go through this in order to be able to handle very * long lists of users and (re)implement %s. */ for (idp = xmit_names; idp; idp = idp->next) length += (strlen(idp->id) + 1); names = (char *)alloca(length); names[0] = '\0'; for (idp = xmit_names; idp; idp = idp->next) { strcat(names, idp->id); strcat(names, " "); } cmd = (char *)alloca(strlen(ctl->mda) + length); sprintf(cmd, ctl->mda, names); if (outlevel == O_VERBOSE) error(0, 0, "about to deliver with: %s", cmd); #ifdef HAVE_SETEUID /* * Arrange to run with user's permissions if we're root. * This will initialize the ownership of any files the * MDA creates properly. (The seteuid call is available * under all BSDs and Linux) */ seteuid(ctl->uid); #endif /* HAVE_SETEUID */ sinkfp = popen(cmd, "w"); #ifdef HAVE_SETEUID /* this will fail quietly if we didn't start as root */ seteuid(0); #endif /* HAVE_SETEUID */ if (!sinkfp) { error(0, 0, "MDA open failed"); return(PS_IOERR); } sigchld = signal(SIGCHLD, SIG_DFL); } else { char *ap, *ctt, options[MSGBUFSIZE]; int smtperr; /* build a connection to the SMTP listener */ if (!ctl->mda && ((sinkfp = smtp_open(ctl)) == NULL)) { free_str_list(&xmit_names); error(0, 0, "SMTP connect failed"); return(PS_SMTP); } /* * Compute ESMTP options. It's a kluge to use nxtaddr() * here because the contents of the Content-Transfer-Encoding * headers isn't semantically an address. But it has the * desired tokenizing effect. */ options[0] = '\0'; if ((ctl->server.esmtp_options & ESMTP_8BITMIME) && ctthdr && (ctt = nxtaddr(ctthdr)) && (!strcasecmp(ctt,"7BIT")||!strcasecmp(ctt,"8BIT"))) sprintf(options, " BODY=%s", ctt); if ((ctl->server.esmtp_options & ESMTP_SIZE) && !delimited) sprintf(options + strlen(options), " SIZE=%d", len); /* * Try to get the SMTP listener to take the header * From address as MAIL FROM (this makes the logging * nicer). If it won't, fall back on the calling-user * ID. This won't affect replies, which use the header * From address anyway. */ if (!fromhdr || !(ap = nxtaddr(fromhdr))) ap = user; if (SMTP_from(sinkfp, ap, options) != SM_OK) { int smtperr = atoi(smtp_response); if (smtperr >= 400) error(0, 0, "SMTP error: %s", smtp_response); /* * There'a one problem with this flow of control; * there's no way to avoid reading the whole message * off the server, even if the MAIL FROM response * tells us that it's just to be discarded. We could * fix this under IMAP by reading headers first, then * trying to issue the MAIL FROM, and *then* reading * the body...but POP3 can't do this. */ switch (smtperr) { case 571: /* unsolicited email refused */ /* * SMTP listener explicitly refuses to deliver * mail coming from this address, probably due * to an anti-spam domain exclusion. Respect * this. Don't try to ship the message, and * don't prevent it from being deleted. */ sinkfp = (FILE *)NULL; goto skiptext; case 452: /* insufficient system storage */ /* * Temporary out-of-queue-space condition on the * ESMTP server. Don't try to ship the message, * and suppress deletion so it can be retried on * a future retrieval cycle. */ delete_ok = FALSE; sinkfp = (FILE *)NULL; SMTP_rset(sockfp); /* required by RFC1870 */ goto skiptext; case 552: /* message exceeds fixed maximum message size */ /* * Permanent no-go condition on the * ESMTP server. Don't try to ship the message, * and allow it to be deleted. */ sinkfp = (FILE *)NULL; SMTP_rset(sockfp); /* required by RFC1870 */ goto skiptext; default: /* retry with invoking user's address */ if (SMTP_from(sinkfp, user, options) != SM_OK) { error(0,0,"SMTP error: %s", smtp_response); return(PS_SMTP); /* should never happen */ } } } /* now list the recipient addressees */ for (idp = xmit_names; idp; idp = idp->next) if (SMTP_rcpt(sinkfp, idp->id) == SM_OK) good_addresses++; else { bad_addresses++; idp->val.num = 0; error(0, 0, "SMTP listener doesn't like recipient address `%s'", idp->id); } if (!good_addresses && SMTP_rcpt(sinkfp, user) != SM_OK) { error(0, 0, "can't even send to calling user!"); return(PS_SMTP); } /* tell it we're ready to send data */ SMTP_data(sinkfp); skiptext:; } /* write all the headers */ if (ctl->mda) n = fwrite(headers, 1, oldlen, sinkfp); else if (sinkfp) n = SockWrite(headers, 1, oldlen, sinkfp); if (n < 0) { free(headers); headers = NULL; error(0, errno, "writing RFC822 headers"); if (ctl->mda) { pclose(sinkfp); signal(SIGCHLD, sigchld); } return(PS_IOERR); } else if (outlevel == O_VERBOSE) fputs("#", stderr); free(headers); headers = NULL; /* write error notifications */ #ifdef HAVE_RES_SEARCH if (no_local_matches || bad_addresses) #else if (bad_addresses) #endif /* HAVE_RES_SEARCH */ { int errlen = 0; char errhd[USERNAMELEN + POPBUFSIZE], *errmsg; errmsg = errhd; (void) strcpy(errhd, "X-Fetchmail-Warning: "); #ifdef HAVE_RES_SEARCH if (no_local_matches) { strcat(errhd, "no recipient addresses matched declared local names"); if (bad_addresses) strcat(errhd, "; "); } #endif /* HAVE_RES_SEARCH */ if (bad_addresses) { strcat(errhd, "SMTP listener rejected local recipient addresses: "); errlen = strlen(errhd); for (idp = xmit_names; idp; idp = idp->next) if (!idp->val.num) errlen += strlen(idp->id) + 2; errmsg = alloca(errlen+3); (void) strcpy(errmsg, errhd); for (idp = xmit_names; idp; idp = idp->next) if (!idp->val.num) { strcat(errmsg, idp->id); if (idp->next) strcat(errmsg, ", "); } } strcat(errmsg, "\n"); /* ship out the error line */ if (ctl->mda) fwrite(errmsg, 1, strlen(errmsg), sinkfp); else if (sinkfp) SockWrite(errmsg, 1, strlen(errmsg), sinkfp); } free_str_list(&xmit_names); } /* else if (headers) */ /* output a crlf if zero length message body */ if (!len && inheaders) { if (ctl->mda[0]) fputs("\r\n", sinkfp); else if (sinkfp) SockWrite("\r\n", 1, 2, sinkfp); continue; } /* following code is executed on non-header lines only */ /* SMTP byte-stuffing */ if (*bufp == '.') if (ctl->mda) fputs(".", sinkfp); else if (sinkfp) SockWrite(bufp, 1, 1, sinkfp); /* ship out the text line */ if (ctl->mda) n = fwrite(bufp, 1, strlen(bufp), sinkfp); else if (sinkfp) n = SockWrite(bufp, 1, strlen(bufp), sinkfp); if (n < 0) { error(0, errno, "writing message text"); if (ctl->mda) { pclose(sinkfp); signal(SIGCHLD, sigchld); } return(PS_IOERR); } else if (outlevel == O_VERBOSE) fputc('*', stderr); } if (outlevel == O_VERBOSE) fputc('\n', stderr); if (ctl->mda) { int rc; /* close the delivery pipe, we'll reopen before next message */ rc = pclose(sinkfp); signal(SIGCHLD, sigchld); if (rc) { error(0, 0, "MDA exited abnormally or returned nonzero status"); return(PS_IOERR); } } else if (sinkfp) { /* write message terminator */ if (SMTP_eom(sinkfp) != SM_OK) { error(0, 0, "SMTP listener refused delivery"); return(PS_TRANSIENT); } } return(delete_ok ? PS_SUCCESS : PS_TRANSIENT); } #ifdef KERBEROS_V4 int kerberos_auth (socket, canonical) /* authenticate to the server host using Kerberos V4 */ int socket; /* socket to server host */ const char *canonical; /* server name */ { char * host_primary; KTEXT ticket; MSG_DAT msg_data; CREDENTIALS cred; Key_schedule schedule; int rem; ticket = ((KTEXT) (malloc (sizeof (KTEXT_ST)))); rem = (krb_sendauth (0L, socket, ticket, "pop", canonical, ((char *) (krb_realmofhost (canonical))), ((unsigned long) 0), (&msg_data), (&cred), (schedule), ((struct sockaddr_in *) 0), ((struct sockaddr_in *) 0), "KPOPV0.1")); free (ticket); if (rem != KSUCCESS) { error(0, 0, "kerberos error %s", (krb_get_err_text (rem))); return (PS_ERROR); } return (0); } #endif /* KERBEROS_V4 */ int do_protocol(ctl, proto) /* retrieve messages from server using given protocol method table */ struct query *ctl; /* parsed options with merged-in defaults */ const struct method *proto; /* protocol method table */ { int ok, js, pst; char *msg, *sp, *cp, realname[HOSTLEN]; void (*sigsave)(); #ifndef KERBEROS_V4 if (ctl->server.authenticate == A_KERBEROS) { error(0, 0, "Kerberos support not linked."); return(PS_ERROR); } #endif /* KERBEROS_V4 */ /* lacking methods, there are some options that may fail */ if (!proto->is_old) { /* check for unsupported options */ if (ctl->flush) { error(0, 0, "Option --flush is not supported with %s", proto->name); return(PS_SYNTAX); } else if (ctl->fetchall) { error(0, 0, "Option --all is not supported with %s", proto->name); return(PS_SYNTAX); } } if (!proto->getsizes && ctl->limit) { error(0, 0, "Option --limit is not supported with %s", proto->name); return(PS_SYNTAX); } protocol = proto; tagnum = 0; tag[0] = '\0'; /* nuke any tag hanging out from previous query */ ok = 0; error_init(poll_interval == 0 && !logfile); /* set up the server-nonresponse timeout */ sigsave = signal(SIGVTALRM, vtalarm_handler); vtalarm(mytimeout = ctl->server.timeout); if ((js = setjmp(restart)) == 1) { error(0, 0, "timeout after %d seconds waiting for %s.", ctl->server.timeout, ctl->server.names->id); ok = PS_ERROR; } else if (js == 2) { /* error message printed at point of longjmp */ ok = PS_ERROR; } else { char buf [POPBUFSIZE+1]; int *msgsizes, len, num, count, new, deletions = 0; FILE *sockfp; /* execute pre-initialization command, if any */ if (ctl->preconnect && (ok = system(ctl->preconnect))) { sprintf(buf, "pre-connection command failed with status %d", ok); error(0, 0, buf); ok = PS_SYNTAX; goto closeUp; } /* open a socket to the mail server */ if (!(sockfp = SockOpen(ctl->server.names->id, ctl->server.port ? ctl->server.port : protocol->port))) { #ifndef EHOSTUNREACH #define EHOSTUNREACH (-1) #endif if (errno != EHOSTUNREACH) error(0, errno, "connecting to host"); ok = PS_SOCKET; goto closeUp; } #ifdef KERBEROS_V4 if (ctl->authenticate == A_KERBEROS) { ok = kerberos_auth(fileno(sockfp), ctl->server.canonical_name); if (ok != 0) goto cleanUp; vtalarm(ctl->server.timeout); } #endif /* KERBEROS_V4 */ /* accept greeting message from mail server */ ok = (protocol->parse_response)(sockfp, buf); if (ok != 0) goto cleanUp; vtalarm(ctl->server.timeout); /* * Try to parse the host's actual name out of the greeting * message. We do this so that the progress messages will * make sense even if the connection is indirected through * ssh. *Do* use this for hacking reply headers, but *don't* * use it for error logging, as the names in the log should * correlate directly back to rc file entries. * * This assumes that the first space-delimited token found * that contains at least two dots (with the characters on * each side of the dot alphanumeric to exclude version * numbers) is the hostname. The hostname candidate may not * contain @ -- if it does it's probably a mailserver * maintainer's name. If no such token is found, fall back on * the .fetchmailrc id. */ pst = 0; for (cp = buf; *cp; cp++) { switch (pst) { case 0: /* skip to end of current token */ if (*cp == ' ') pst = 1; break; case 1: /* look for blank-delimited token */ if (*cp != ' ') { sp = cp; pst = 2; } break; case 2: /* look for first dot */ if (*cp == '@') pst = 0; else if (*cp == ' ') pst = 1; else if (*cp == '.' && isalpha(cp[1]) && isalpha(cp[-1])) pst = 3; break; case 3: /* look for second dot */ if (*cp == '@') pst = 0; else if (*cp == ' ') pst = 1; else if (*cp == '.' && isalpha(cp[1]) && isalpha(cp[-1])) pst = 4; break; case 4: /* look for trailing space */ if (*cp == '@') pst = 0; else if (*cp == ' ') { pst = 5; goto done; } break; } } done: if (pst == 5) { char *tp = realname; while (sp < cp) *tp++ = *sp++; *tp = '\0'; } else strcpy(realname, ctl->server.names->id); /* try to get authorized to fetch mail */ shroud = ctl->password; ok = (protocol->getauth)(sockfp, ctl, buf); shroud = (char *)NULL; if (ok == PS_ERROR) ok = PS_AUTHFAIL; if (ok != 0) goto cleanUp; vtalarm(ctl->server.timeout); /* compute number of messages and number of new messages waiting */ ok = (protocol->getrange)(sockfp, ctl, &count, &new); if (ok != 0) goto cleanUp; vtalarm(ctl->server.timeout); /* show user how many messages we downloaded */ if (outlevel > O_SILENT) if (count == 0) error(0, 0, "No mail from %s@%s", ctl->remotename, realname); else { if (new != -1 && (count - new) > 0) error(0, 0, "%d message%s (%d seen) from %s@%s.", count, count > 1 ? "s" : "", count-new, ctl->remotename, realname); else error(0, 0, "%d message%s from %s@%s.", count, count > 1 ? "s" : "", ctl->remotename, realname); } /* we may need to get sizes in order to check message limits */ msgsizes = (int *)NULL; if (!ctl->fetchall && proto->getsizes && ctl->limit) { msgsizes = (int *)alloca(sizeof(int) * count); ok = (proto->getsizes)(sockfp, count, msgsizes); if (ok != 0) goto cleanUp; vtalarm(ctl->server.timeout); } if (check_only) { if (new == -1 || ctl->fetchall) new = count; ok = ((new > 0) ? PS_SUCCESS : PS_NOMAIL); goto cleanUp; } else if (count > 0) { /* * What forces this code is that in POP3 and IMAP2BIS you can't * fetch a message without having it marked `seen'. In IMAP4, * on the other hand, you can (peek_capable is set to convey * this). * * The result of being unable to peek is that if there's * any kind of transient error (DNS lookup failure, or * sendmail refusing delivery due to process-table limits) * the message will be marked "seen" on the server without * having been delivered. This is not a big problem if * fetchmail is running in foreground, because the user * will see a "skipped" message when it next runs and get * clued in. * * But in daemon mode this leads to the message being silently * ignored forever. This is not acceptable. * * We compensate for this by checking the error count from the * previous pass and forcing all messages to be considered new * if it's nonzero. */ int force_retrieval = !peek_capable && (ctl->errcount > 0); ctl->errcount = 0; /* read, forward, and delete messages */ for (num = 1; num <= count; num++) { int toolarge = msgsizes && (msgsizes[num-1] > ctl->limit); int fetch_it = ctl->fetchall || (!toolarge && (force_retrieval || !(protocol->is_old && (protocol->is_old)(sockfp,ctl,num)))); int suppress_delete = FALSE; /* we may want to reject this message if it's old */ if (!fetch_it) { if (outlevel > O_SILENT) { error_build("skipping message %d", num); if (toolarge) error_build(" (oversized, %d bytes)", msgsizes[num-1]); } } else { /* request a message */ ok = (protocol->fetch)(sockfp, ctl, num, &len); if (ok != 0) goto cleanUp; vtalarm(ctl->server.timeout); if (outlevel > O_SILENT) { error_build("reading message %d", num); if (len > 0) error_build(" (%d bytes)", len); if (outlevel == O_VERBOSE) error_complete(0, 0, ""); else error_build(" "); } /* read the message and ship it to the output sink */ ok = gen_readmsg(sockfp, len, protocol->delimited, ctl, realname); if (ok == PS_TRANSIENT) suppress_delete = TRUE; else if (ok) goto cleanUp; vtalarm(ctl->server.timeout); /* tell the server we got it OK and resynchronize */ if (protocol->trail) { ok = (protocol->trail)(sockfp, ctl, num); if (ok != 0) goto cleanUp; vtalarm(ctl->server.timeout); } } /* * At this point in flow of control, either we've bombed * on a protocol error or had delivery refused by the SMTP * server (unlikely -- I've never seen it) or we've seen * `accepted for delivery' and the message is shipped. * It's safe to mark the message seen and delete it on the * server now. */ /* maybe we delete this message now? */ if (protocol->delete && !suppress_delete && (fetch_it ? !ctl->keep : ctl->flush)) { deletions++; if (outlevel > O_SILENT) error_complete(0, 0, " flushed"); ok = (protocol->delete)(sockfp, ctl, num); if (ok != 0) goto cleanUp; vtalarm(ctl->server.timeout); delete_str(&ctl->newsaved, num); } else if (outlevel > O_SILENT) error_complete(0, 0, " not flushed"); /* perhaps this as many as we're ready to handle */ if (ctl->fetchlimit && ctl->fetchlimit <= num) break; } ok = gen_transact(sockfp, protocol->exit_cmd); if (ok == 0) ok = PS_SUCCESS; vtalarm(0); fclose(sockfp); goto closeUp; } else { ok = gen_transact(sockfp, protocol->exit_cmd); if (ok == 0) ok = PS_NOMAIL; vtalarm(0); fclose(sockfp); goto closeUp; } cleanUp: vtalarm(ctl->server.timeout); if (ok != 0 && ok != PS_SOCKET) gen_transact(sockfp, protocol->exit_cmd); vtalarm(0); fclose(sockfp); } switch (ok) { case PS_SOCKET: msg = "socket"; break; case PS_AUTHFAIL: msg = "authorization"; break; case PS_SYNTAX: msg = "missing or bad RFC822 header"; break; case PS_IOERR: msg = "MDA"; break; case PS_ERROR: msg = "client/server synchronization"; break; case PS_PROTOCOL: msg = "client/server protocol"; break; case PS_SMTP: msg = "SMTP transaction"; break; case PS_UNDEFINED: error(0, 0, "undefined"); break; } if (ok==PS_SOCKET || ok==PS_AUTHFAIL || ok==PS_SYNTAX || ok==PS_IOERR || ok==PS_ERROR || ok==PS_PROTOCOL || ok==PS_SMTP) error(0, 0, "%s error while fetching from %s", msg, ctl->server.names->id); closeUp: signal(SIGVTALRM, sigsave); return(ok); } #if defined(HAVE_STDARG_H) void gen_send(FILE *sockfp, char *fmt, ... ) /* assemble command in printf(3) style and send to the server */ #else void gen_send(sockfp, fmt, va_alist) /* assemble command in printf(3) style and send to the server */ FILE *sockfp; /* socket to which server is connected */ const char *fmt; /* printf-style format */ va_dcl #endif { char buf [POPBUFSIZE+1]; va_list ap; if (protocol->tagged) (void) sprintf(buf, "%s ", GENSYM); else buf[0] = '\0'; #if defined(HAVE_STDARG_H) va_start(ap, fmt) ; #else va_start(ap); #endif vsprintf(buf + strlen(buf), fmt, ap); va_end(ap); strcat(buf, "\r\n"); SockWrite(buf, 1, strlen(buf), sockfp); if (outlevel == O_VERBOSE) { char *cp; if (shroud && (cp = strstr(buf, shroud))) memset(cp, '*', strlen(shroud)); buf[strlen(buf)-1] = '\0'; error(0, 0, "%s> %s", protocol->name, buf); } } #if defined(HAVE_STDARG_H) int gen_transact(FILE *sockfp, char *fmt, ... ) /* assemble command in printf(3) style, send to server, accept a response */ #else int gen_transact(sockfp, fmt, va_alist) /* assemble command in printf(3) style, send to server, accept a response */ FILE *sockfp; /* socket to which server is connected */ const char *fmt; /* printf-style format */ va_dcl #endif { int ok; char buf [POPBUFSIZE+1]; va_list ap; if (protocol->tagged) (void) sprintf(buf, "%s ", GENSYM); else buf[0] = '\0'; #if defined(HAVE_STDARG_H) va_start(ap, fmt) ; #else va_start(ap); #endif vsprintf(buf + strlen(buf), fmt, ap); va_end(ap); strcat(buf, "\r\n"); SockWrite(buf, 1, strlen(buf), sockfp); if (outlevel == O_VERBOSE) { char *cp; if (shroud && (cp = strstr(buf, shroud))) memset(cp, '*', strlen(shroud)); buf[strlen(buf)-1] = '\0'; error(0, 0, "%s> %s", protocol->name, buf); } /* we presume this does its own response echoing */ ok = (protocol->parse_response)(sockfp, buf); vtalarm(mytimeout); return(ok); } /* driver.c ends here */