/* * driver.c -- generic driver for mail fetch method protocols * * Copyright 1997 by Eric S. Raymond * For license terms, see the file COPYING in this directory. */ #include "config.h" #include #include #include #include #include #ifdef HAVE_MEMORY_H #include #endif /* HAVE_MEMORY_H */ #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_SYS_ITIMER_H) #include #endif #include #include #ifdef HAVE_NET_SOCKET_H #include #endif #ifdef HAVE_RES_SEARCH #include #include "mx.h" #endif /* HAVE_RES_SEARCH */ #ifdef KERBEROS_V4 #ifdef KERBEROS_V5 #include #include #else #if defined (__bsdi__) #include /* order of includes matters */ #include #define krb_get_err_text(e) (krb_err_txt[e]) #else #if defined(__NetBSD__) || defined(__FreeBSD__) || defined(__linux__) #define krb_get_err_text(e) (krb_err_txt[e]) #include #include #else #include #include #endif /* ! defined (__FreeBSD__) */ #endif /* ! defined (__bsdi__) */ #endif /* KERBEROS_V5 */ #include #include #endif /* KERBEROS_V4 */ #ifdef KERBEROS_V5 #include #include #endif /* KERBEROS_V5 */ #include "i18n.h" #include "socket.h" #include "fetchmail.h" #include "tunable.h" /* throw types for runtime errors */ #define THROW_TIMEOUT 1 /* server timed out */ #define THROW_SIGPIPE 2 /* SIGPIPE on stream socket */ #ifndef strstr /* glibc-2.1 declares this as a macro */ extern char *strstr(); /* needed on sysV68 R3V7.1. */ #endif /* strstr */ int batchcount; /* count of messages sent in current batch */ flag peek_capable; /* can we peek for better error recovery? */ int pass; /* how many times have we re-polled? */ int stage; /* where are we? */ int phase; /* where are we, for error-logging purposes? */ int mytimeout; /* value of nonreponse timeout */ static const struct method *protocol; static jmp_buf restart; char tag[TAGLEN]; static int tagnum; #define GENSYM (sprintf(tag, "A%04d", ++tagnum % TAGMOD), tag) static char shroud[PASSWORDLEN]; /* string to shroud in debug output */ static int timeoutcount; /* count consecutive timeouts */ static int msglen; /* actual message length */ void set_timeout(int timeleft) /* reset the nonresponse-timeout */ { #if !defined(__EMX__) && !defined(__BEOS__) struct itimerval ntimeout; if (timeleft == 0) timeoutcount = 0; 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_REAL, &ntimeout, (struct itimerval *)NULL); #endif } static void timeout_handler (int signal) /* handle SIGALRM signal indicating a server timeout */ { timeoutcount++; longjmp(restart, THROW_TIMEOUT); } static void sigpipe_handler (int signal) /* handle SIGPIPE signal indicating a broken stream socket */ { longjmp(restart, THROW_SIGPIPE); } static int accept_count, reject_count; static void map_name(const char *name, struct query *ctl, struct idlist **xmit_names) /* add given name to xmit_names if it matches declared localnames */ /* name: name to map */ /* ctl: list of permissible aliases */ /* xmit_names: list of recipient names parsed out */ { const char *lname; int off = 0; lname = idpair_find(&ctl->localnames, name+off); if (!lname && ctl->wildcard) lname = name+off; if (lname != (char *)NULL) { if (outlevel >= O_DEBUG) report(stdout, _("mapped %s to local %s\n"), name, lname); save_str(xmit_names, lname, XMIT_ACCEPT); accept_count++; } } static void find_server_names(const char *hdr, struct query *ctl, struct idlist **xmit_names) /* parse names out of a RFC822 header into an ID list */ /* hdr: RFC822 header in question */ /* ctl: list of permissible aliases */ /* xmit_names: list of recipient names parsed out */ { if (hdr == (char *)NULL) return; else { char *cp; for (cp = nxtaddr(hdr); cp != NULL; cp = nxtaddr(NULL)) { char *atsign; /* * If the name of the user begins with a qmail virtual * domain prefix, ignore the prefix. Doing this here * means qvirtual will work either with ordinary name * mapping or with a localdomains option. */ if (ctl->server.qvirtual) { int sl = strlen(ctl->server.qvirtual); if (!strncasecmp(cp, ctl->server.qvirtual, sl)) cp += sl; } 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 + (strlen(atsign) - strlen(idp->id)); if (rhs > atsign && (rhs[-1] == '.' || rhs[-1] == '@') && strcasecmp(rhs, idp->id) == 0) { if (outlevel >= O_DEBUG) report(stdout, _("passed through %s matching %s\n"), cp, idp->id); save_str(xmit_names, cp, XMIT_ACCEPT); accept_count++; goto nomap; } } /* if we matched a local domain, idp != NULL */ if (!idp) { /* * 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)) { save_str(xmit_names, cp, XMIT_REJECT); reject_count++; continue; } } atsign[0] = '\0'; map_name(cp, ctl, xmit_names); nomap:; } } } } /* * Return zero on a syntactically invalid address, nz on a valid one. * * This used to be strchr(a, '.'), but it turns out that lines like this * * Received: from punt-1.mail.demon.net by mailstore for markb@ordern.com * id 938765929:10:27223:2; Fri, 01 Oct 99 08:18:49 GMT * * are not uncommon. So now we just check that the following token is * not itself an email address. */ #define VALID_ADDRESS(a) !strchr(a, '@') static char *parse_received(struct query *ctl, char *bufp) /* try to extract real address from the Received line */ /* If a valid Received: line is found, we return the full address in * a buffer which can be parsed from nxtaddr(). This is to ansure that * the local domain part of the address can be passed along in * find_server_names() if it contains one. * Note: We should return a dummy header containing the address * which makes nxtaddr() behave correctly. */ { char *base, *ok = (char *)NULL; 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 (outlevel >= O_DEBUG) report(stdout, _("analyzing Received line:\n%s"), bufp); /* search for whitepace-surrounded "by" followed by valid address */ for (base = bufp; ; base = ok + 2) { if (!(ok = strstr(base, "by"))) break; else if (!isspace(ok[-1]) || !isspace(ok[2])) continue; else { char *sp, *tp; /* extract space-delimited token after "by" */ for (sp = ok + 2; isspace(*sp); sp++) continue; tp = rbuf; for (; !isspace(*sp); sp++) *tp++ = *sp; *tp = '\0'; /* look for valid address */ if (VALID_ADDRESS(rbuf)) break; else ok = sp - 1; /* arrange to skip this token */ } } if (ok) { /* * 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)) { if (outlevel >= O_DEBUG) report(stdout, _("line accepted, %s is an alias of the mailserver\n"), rbuf); } else { if (outlevel >= O_DEBUG) report(stdout, _("line rejected, %s is not an alias of the mailserver\n"), rbuf); return(NULL); } /* search for whitepace-surrounded "for" followed by xxxx@yyyy */ for (base = ok + 4 + strlen(rbuf); ; base = ok + 2) { if (!(ok = strstr(base, "for"))) break; else if (!isspace(ok[-1]) || !isspace(ok[3])) continue; else { char *sp, *tp; /* extract space-delimited token after "for" */ for (sp = ok + 3; isspace(*sp); sp++) continue; tp = rbuf; for (; !isspace(*sp); sp++) *tp++ = *sp; *tp = '\0'; if (strchr(rbuf, '@')) break; else ok = sp - 1; /* arrange to skip this token */ } } if (ok) { flag want_gt = FALSE; char *sp, *tp; /* char after "for" could be space or a continuation newline */ for (sp = ok + 4; isspace(*sp); sp++) continue; tp = rbuf; *tp++ = ':'; /* Here is the hack. This is to be friends */ *tp++ = ' '; /* with nxtaddr()... */ if (*sp == '<') { want_gt = TRUE; sp++; } while (*sp == '@') /* skip routes */ while (*sp && *sp++ != ':') continue; while (*sp && (want_gt ? (*sp != '>') : !isspace(*sp)) && *sp != ';') if (!isspace(*sp)) *tp++ = *sp++; else { /* uh oh -- whitespace here can't be right! */ ok = (char *)NULL; break; } *tp++ = '\n'; *tp = '\0'; if (strlen(rbuf) <= 3) /* apparently nothing has been found */ ok = NULL; } else ok = (char *)NULL; } if (!ok) { if (outlevel >= O_DEBUG) report(stdout, _("no Received address found\n")); return(NULL); } else { if (outlevel >= O_DEBUG) { char *lf = rbuf + strlen(rbuf)-1; *lf = '\0'; if (outlevel >= O_DEBUG) report(stdout, _("found Received address `%s'\n"), rbuf+2); *lf = '\n'; } return(rbuf); } } /* shared by readheaders and readbody */ static int sizeticker; static struct msgblk msgblk; #define EMPTYLINE(s) ((s)[0] == '\r' && (s)[1] == '\n' && (s)[2] == '\0') static int readheaders(int sock, long fetchlen, long reallen, struct query *ctl, int num) /* read message headers and ship to SMTP or MDA */ /* sock: to which the server is connected */ /* fetchlen: length of message according to fetch response */ /* reallen: length of message according to getsizes */ /* ctl: query control record */ /* num: index of message */ { struct addrblk { int offset; struct addrblk *next; }; struct addrblk *to_addrchain = NULL; struct addrblk **to_chainptr = &to_addrchain; struct addrblk *resent_to_addrchain = NULL; struct addrblk **resent_to_chainptr = &resent_to_addrchain; char buf[MSGBUFSIZE+1]; int from_offs, reply_to_offs, resent_from_offs; int app_from_offs, sender_offs, resent_sender_offs; int env_offs; char *received_for, *rcv, *cp, *delivered_to; int n, linelen, oldlen, ch, remaining, skipcount; struct idlist *idp; flag no_local_matches = FALSE; flag headers_ok, has_nuls; int olderrs, good_addresses, bad_addresses; sizeticker = 0; has_nuls = headers_ok = FALSE; msgblk.return_path[0] = '\0'; olderrs = ctl->errcount; /* read message headers */ msgblk.reallen = reallen; /* * We used to free the header block unconditionally at the end of * readheaders, but it turns out that if close_sink() hits an error * condition the code for sending bouncemail will actually look * at the freed storage and coredump... */ if (msgblk.headers) free(msgblk.headers); msgblk.headers = received_for = delivered_to = NULL; from_offs = reply_to_offs = resent_from_offs = app_from_offs = sender_offs = resent_sender_offs = env_offs = -1; oldlen = 0; msglen = 0; skipcount = 0; ctl->mimemsg = 0; for (remaining = fetchlen; remaining > 0 || protocol->delimited; remaining -= linelen) { char *line; line = xmalloc(sizeof(buf)); linelen = 0; line[0] = '\0'; do { set_timeout(mytimeout); if ((n = SockRead(sock, buf, sizeof(buf)-1)) == -1) { set_timeout(0); free(line); free(msgblk.headers); msgblk.headers = NULL; return(PS_SOCKET); } set_timeout(0); linelen += n; msglen += n; /* lines may not be properly CRLF terminated; fix this for qmail */ if (ctl->forcecr) { cp = buf + strlen(buf) - 1; if (*cp == '\n' && (cp == buf || cp[-1] != '\r')) { *cp++ = '\r'; *cp++ = '\n'; *cp++ = '\0'; } } /* * Decode MIME encoded headers. We MUST do this before * looking at the Content-Type / Content-Transfer-Encoding * headers (RFC 2046). */ if (ctl->mimedecode) UnMimeHeader(buf); line = (char *) realloc(line, strlen(line) + strlen(buf) +1); strcat(line, buf); /* check for end of headers */ if (EMPTYLINE(line)) { headers_ok = TRUE; has_nuls = (linelen != strlen(line)); free(line); goto process_headers; } /* * Check for end of message immediately. If one of your folders * has been mangled, the delimiter may occur directly after the * header. */ if (protocol->delimited && line[0] == '.' && EMPTYLINE(line+1)) { free(line); has_nuls = (linelen != strlen(line)); goto process_headers; } /* * At least one brain-dead website (netmind.com) is known to * send out robotmail that's missing the RFC822 delimiter blank * line before the body! Without this check fetchmail segfaults. * With it, we treat such messages as though they had the missing * blank line. */ if (!isspace(line[0]) && !strchr(line, ':')) { headers_ok = TRUE; free(line); has_nuls = (linelen != strlen(line)); goto process_headers; } /* check for RFC822 continuations */ set_timeout(mytimeout); ch = SockPeek(sock); set_timeout(0); } while (ch == ' ' || ch == '\t'); /* continuation to next line? */ /* write the message size dots */ if ((outlevel > O_SILENT && outlevel < O_VERBOSE) && linelen > 0) { sizeticker += linelen; while (sizeticker >= SIZETICKER) { if ((!run.use_syslog && !isafile(1)) || run.showdots) { fputc('.', stdout); fflush(stdout); } sizeticker -= SIZETICKER; } } /* we see an ordinary (non-header, non-message-delimiter line */ has_nuls = (linelen != strlen(line)); /* * When mail delivered to a multidrop mailbox on the server is * addressed to multiple people on the client machine, there * will be one copy left in the box for each recipient. Thus, * if the mail is addressed to N people, each recipient will * get N copies. This is bad when N > 1. * * Foil this by suppressing all but one copy of a message with * a given Message-ID. The accept_count test ensures that * multiple pieces of email with the same Message-ID, each * with a *single* addressee (the N == 1 case), won't be * suppressed. * * Note: This implementation only catches runs of successive * messages with the same ID, but that should be good * enough. A more general implementation would have to store * ever-growing lists of seen message-IDs; in a long-running * daemon this would turn into a memory leak even if the * implementation were perfect. * * Don't mess with this code casually. It would be way too easy * to break it in a way that blackholed mail. Better to pass * the occasional duplicate than to do that... */ if (MULTIDROP(ctl) && !strncasecmp(line, "Message-ID:", 11)) { if (ctl->lastid && !strcasecmp(ctl->lastid, line)) { if (accept_count > 1) return(PS_REFUSED); } else { if (ctl->lastid) free(ctl->lastid); ctl->lastid = strdup(line); } } /* * The University of Washington IMAP server (the reference * implementation of IMAP4 written by Mark Crispin) relies * on being able to keep base-UID information in a special * message at the head of the mailbox. This message should * neither be deleted nor forwarded. */ #ifdef POP2_ENABLE /* * We disable this check under POP2 because there's no way to * prevent deletion of the message. So at least we ought to * forward it to the user so he or she will have some clue * that things have gone awry. */ #if INET6_ENABLE if (strncmp(protocol->service, "pop2", 4)) #else /* INET6_ENABLE */ if (protocol->port != 109) #endif /* INET6_ENABLE */ #endif /* POP2_ENABLE */ if (num == 1 && !strncasecmp(line, "X-IMAP:", 7)) { free(line); free(msgblk.headers); msgblk.headers = NULL; return(PS_RETAINED); } /* * This code prevents fetchmail from becoming an accessory after * the fact to upstream sendmails with the `E' option on. It also * copes with certain brain-dead POP servers (like NT's) that pass * through Unix from_ lines. * * Either of these bugs can result in a non-RFC822 line at the * beginning of the headers. If fetchmail just passes it * through, the client listener may think the message has *no* * headers (since the first) line it sees doesn't look * RFC822-conformant) and fake up a set. * * What the user would see in this case is bogus (synthesized) * headers, followed by a blank line, followed by the >From, * followed by the real headers, followed by a blank line, * followed by text. * * We forestall this lossage by tossing anything that looks * like an escaped or passed-through From_ line in headers. * These aren't RFC822 so our conscience is clear... */ if (!strncasecmp(line, ">From ", 6) || !strncasecmp(line, "From ", 5)) { free(line); continue; } /* * We remove all Delivered-To: headers. * * This is to avoid false mail loops messages when delivering * local messages to and from a Postfix/qmail mailserver. * * Should be controlled by an option */ if (ctl->dropdelivered && !strncasecmp(line, "Delivered-To:", 13)) { if (delivered_to) free(line); else delivered_to = line; continue; } /* * If we see a Status line, it may have been inserted by an MUA * on the mail host, or it may have been inserted by the server * program after the headers in the transaction stream. This * can actually hose some new-mail notifiers such as xbuffy, * which assumes any Status line came from a *local* MDA and * therefore indicates that the message has been seen. * * Some buggy POP servers (including at least the 3.3(20) * version of the one distributed with IMAP) insert empty * Status lines in the transaction stream; we'll chuck those * unconditionally. Nonempty ones get chucked if the user * turns on the dropstatus flag. */ { char *cp; if (!strncasecmp(line, "Status:", 7)) cp = line + 7; else if (!strncasecmp(line, "X-Mozilla-Status:", 17)) cp = line + 17; else cp = NULL; if (cp) { while (*cp && isspace(*cp)) cp++; if (!*cp || ctl->dropstatus) { free(line); continue; } } } if (ctl->rewrite) line = reply_hack(line, ctl->server.truename); /* * OK, this is messy. If we're forwarding by SMTP, it's the * SMTP-receiver's job (according to RFC821, page 22, section * 4.1.1) to generate a Return-Path line on final delivery. * The trouble is, we've already got one because the * mailserver's SMTP thought *it* was responsible for final * delivery. * * Stash away the contents of Return-Path (as modified by reply_hack) * for use in generating MAIL FROM later on, then prevent the header * from being saved with the others. In effect, we strip it off here. * * If the SMTP server conforms to the standards, and fetchmail gets the * envelope sender from the Return-Path, the new Return-Path should be * exactly the same as the original one. * * We do *not* want to ignore empty Return-Path headers. These should * be passed through as a way of indicating that a message should * not trigger bounces if delivery fails. What we *do* need to do is * make sure we never try to rewrite such a blank Return-Path. We * handle this with a check for <> in the rewrite logic above. */ if (!strncasecmp("Return-Path:", line, 12) && (cp = nxtaddr(line))) { strcpy(msgblk.return_path, cp); if (!ctl->mda) { free(line); continue; } } if (!msgblk.headers) { oldlen = strlen(line); msgblk.headers = xmalloc(oldlen + 1); (void) strcpy(msgblk.headers, line); free(line); line = msgblk.headers; } else { char *newhdrs; int newlen; newlen = oldlen + strlen(line); newhdrs = (char *) realloc(msgblk.headers, newlen + 1); if (newhdrs == NULL) { free(line); return(PS_IOERR); } msgblk.headers = newhdrs; strcpy(msgblk.headers + oldlen, line); free(line); line = msgblk.headers + oldlen; oldlen = newlen; } if (!strncasecmp("From:", line, 5)) from_offs = (line - msgblk.headers); else if (!strncasecmp("Reply-To:", line, 9)) reply_to_offs = (line - msgblk.headers); else if (!strncasecmp("Resent-From:", line, 12)) resent_from_offs = (line - msgblk.headers); else if (!strncasecmp("Apparently-From:", line, 16)) app_from_offs = (line - msgblk.headers); else if (!strncasecmp("Sender:", line, 7)) sender_offs = (line - msgblk.headers); else if (!strncasecmp("Resent-Sender:", line, 14)) resent_sender_offs = (line - msgblk.headers); #ifdef __UNUSED__ else if (!strncasecmp("Message-Id:", line, 11)) { if (ctl->server.uidl) { char id[IDLEN+1]; line[IDLEN+12] = 0; /* prevent stack overflow */ sscanf(line+12, "%s", id); if (!str_find( &ctl->newsaved, num)) { struct idlist *new = save_str(&ctl->newsaved,id,UID_SEEN); new->val.status.num = num; } } } #endif /* __UNUSED__ */ else if (!MULTIDROP(ctl)) continue; else if (!strncasecmp("To:", line, 3) || !strncasecmp("Cc:", line, 3) || !strncasecmp("Bcc:", line, 4) || !strncasecmp("Apparently-To:", line, 14)) { *to_chainptr = xmalloc(sizeof(struct addrblk)); (*to_chainptr)->offset = (line - msgblk.headers); to_chainptr = &(*to_chainptr)->next; *to_chainptr = NULL; } else if (!strncasecmp("Resent-To:", line, 10) || !strncasecmp("Resent-Cc:", line, 10) || !strncasecmp("Resent-Bcc:", line, 11)) { *resent_to_chainptr = xmalloc(sizeof(struct addrblk)); (*resent_to_chainptr)->offset = (line - msgblk.headers); resent_to_chainptr = &(*resent_to_chainptr)->next; *resent_to_chainptr = NULL; } else if (ctl->server.envelope != STRING_DISABLED) { if (ctl->server.envelope && strcasecmp(ctl->server.envelope, "Received")) { if (env_offs == -1 && !strncasecmp(ctl->server.envelope, line, strlen(ctl->server.envelope))) { if (skipcount++ != ctl->server.envskip) continue; env_offs = (line - msgblk.headers); } } else if (!received_for && !strncasecmp("Received:", line, 9)) { if (skipcount++ != ctl->server.envskip) continue; received_for = parse_received(ctl, line); } } } process_headers: /* * We want to detect this early in case there are so few headers that the * dispatch logic barfs. */ if (!headers_ok) { if (outlevel > O_SILENT) report(stdout, _("message delimiter found while scanning headers\n")); } /* * Hack time. If the first line of the message was blank, with no headers * (this happens occasionally due to bad gatewaying software) cons up * a set of fake headers. * * If you modify the fake header template below, be sure you don't * make either From or To address @-less, otherwise the reply_hack * logic will do bad things. */ if (msgblk.headers == (char *)NULL) { #ifdef HAVE_SNPRINTF snprintf(buf, sizeof(buf), #else sprintf(buf, #endif /* HAVE_SNPRINTF */ "From: FETCHMAIL-DAEMON\r\nTo: %s@%s\r\nSubject: Headerless mail from %s's mailbox on %s\r\n", user, fetchmailhost, ctl->remotename, ctl->server.truename); msgblk.headers = xstrdup(buf); } /* * We can now process message headers before reading the text. * In fact we have to, as this will tell us where to forward to. */ /* Check for MIME headers indicating possible 8-bit data */ ctl->mimemsg = MimeBodyType(msgblk.headers, ctl->mimedecode); #ifdef SDPS_ENABLE if (ctl->server.sdps && sdps_envfrom) { /* We have the real envelope return-path, stored out of band by * SDPS - that's more accurate than any header is going to be. */ strcpy(msgblk.return_path, sdps_envfrom); free(sdps_envfrom); } else #endif /* SDPS_ENABLE */ /* * If there is a Return-Path address on the message, this was * almost certainly the MAIL FROM address given the originating * sendmail. This is the best thing to use for logging the * message origin (it sets up the right behavior for bounces and * mailing lists). Otherwise, fall down to the next available * envelope address (which is the most probable real sender). * *** The order is important! *** * This is especially useful when receiving mailing list * messages in multidrop mode. if a local address doesn't * exist, the bounce message won't be returned blindly to the * author or to the list itself but rather to the list manager * (ex: specified by "Sender:") which is much less annoying. This * is true for most mailing list packages. */ if( !msgblk.return_path[0] ){ char *ap = NULL; if (resent_sender_offs >= 0 && (ap = nxtaddr(msgblk.headers + resent_sender_offs))); else if (sender_offs >= 0 && (ap = nxtaddr(msgblk.headers + sender_offs))); else if (resent_from_offs >= 0 && (ap = nxtaddr(msgblk.headers + resent_from_offs))); else if (from_offs >= 0 && (ap = nxtaddr(msgblk.headers + from_offs))); else if (reply_to_offs >= 0 && (ap = nxtaddr(msgblk.headers + reply_to_offs))); else if (app_from_offs >= 0 && (ap = nxtaddr(msgblk.headers + app_from_offs))); if (ap) strcpy( msgblk.return_path, ap ); } /* cons up a list of local recipients */ msgblk.recipients = (struct idlist *)NULL; accept_count = reject_count = 0; /* is this a multidrop box? */ if (MULTIDROP(ctl)) { #ifdef SDPS_ENABLE if (ctl->server.sdps && sdps_envto) { /* We have the real envelope recipient, stored out of band by * SDPS - that's more accurate than any header is going to be. */ find_server_names(sdps_envto, ctl, &msgblk.recipients); free(sdps_envto); } else #endif /* SDPS_ENABLE */ if (env_offs > -1) /* We have the actual envelope addressee */ find_server_names(msgblk.headers + env_offs, ctl, &msgblk.recipients); else if (delivered_to && ctl->server.envelope != STRING_DISABLED && ctl->server.envelope && !strcasecmp(ctl->server.envelope, "Delivered-To")) { find_server_names(delivered_to, ctl, &msgblk.recipients); free(delivered_to); } else if (received_for) /* * We have the Received for addressee. * It has to be a mailserver address, or we * wouldn't have got here. * We use find_server_names() to let local * hostnames go through. */ find_server_names(received_for, ctl, &msgblk.recipients); else { /* * We haven't extracted the envelope address. * So check all the "Resent-To" header addresses if * they exist. If and only if they don't, consider * the "To" addresses. */ register struct addrblk *nextptr; if (resent_to_addrchain) { /* delete the "To" chain and substitute it * with the "Resent-To" list */ while (to_addrchain) { nextptr = to_addrchain->next; free(to_addrchain); to_addrchain = nextptr; } to_addrchain = resent_to_addrchain; resent_to_addrchain = NULL; } /* now look for remaining adresses */ while (to_addrchain) { find_server_names(msgblk.headers+to_addrchain->offset, ctl, &msgblk.recipients); nextptr = to_addrchain->next; free(to_addrchain); to_addrchain = nextptr; } } if (!accept_count) { no_local_matches = TRUE; save_str(&msgblk.recipients, run.postmaster, XMIT_ACCEPT); if (outlevel >= O_DEBUG) report(stdout, _("no local matches, forwarding to %s\n"), run.postmaster); } } else /* it's a single-drop box, use first localname */ save_str(&msgblk.recipients, ctl->localnames->id, XMIT_ACCEPT); /* * Time to either address the message or decide we can't deliver it yet. */ if (ctl->errcount > olderrs) /* there were DNS errors above */ { if (outlevel >= O_DEBUG) report(stdout, _("forwarding and deletion suppressed due to DNS errors\n")); free(msgblk.headers); msgblk.headers = NULL; free_str_list(&msgblk.recipients); return(PS_TRANSIENT); } else { /* set up stuffline() so we can deliver the message body through it */ if ((n = open_sink(ctl, &msgblk, &good_addresses, &bad_addresses)) != PS_SUCCESS) { free(msgblk.headers); msgblk.headers = NULL; free_str_list(&msgblk.recipients); return(n); } } n = 0; /* * Some server/sendmail combinations cause problems when our * synthetic Received line is before the From header. Cope * with this... */ if ((rcv = strstr(msgblk.headers, "Received:")) == (char *)NULL) rcv = msgblk.headers; /* handle ">Received:" lines too */ while (rcv > msgblk.headers && rcv[-1] != '\n') rcv--; if (rcv > msgblk.headers) { char c = *rcv; *rcv = '\0'; n = stuffline(ctl, msgblk.headers); *rcv = c; } if (!run.invisible && n != -1) { /* utter any per-message Received information we need here */ if (ctl->server.trueaddr) { sprintf(buf, "Received: from %s [%u.%u.%u.%u]\r\n", ctl->server.truename, (unsigned char)ctl->server.trueaddr[0], (unsigned char)ctl->server.trueaddr[1], (unsigned char)ctl->server.trueaddr[2], (unsigned char)ctl->server.trueaddr[3]); } else { sprintf(buf, "Received: from %s\r\n", ctl->server.truename); } n = stuffline(ctl, buf); if (n != -1) { /* * This header is technically invalid under RFC822. * POP3, IMAP, etc. are not legal mail-parameter values. * * We used to include ctl->remotename in this log line, * but this can be secure information that would be bad * to reveal. */ sprintf(buf, "\tby %s with %s (fetchmail-%s)\r\n", fetchmailhost, protocol->name, VERSION); n = stuffline(ctl, buf); if (n != -1) { buf[0] = '\t'; if (good_addresses == 0) { sprintf(buf+1, "for %s@%s (by default); ", user, ctl->destaddr); } else if (good_addresses == 1) { for (idp = msgblk.recipients; idp; idp = idp->next) if (idp->val.status.mark == XMIT_ACCEPT) break; /* only report first address */ if (strchr(idp->id, '@')) sprintf(buf+1, "for %s", idp->id); else /* * This could be a bit misleading, as destaddr is * the forwarding host rather than the actual * destination. Most of the time they coincide. */ sprintf(buf+1, "for %s@%s", idp->id, ctl->destaddr); sprintf(buf+strlen(buf), " (%s); ", MULTIDROP(ctl) ? "multi-drop" : "single-drop"); } else buf[1] = '\0'; strcat(buf, rfc822timestamp()); strcat(buf, "\r\n"); n = stuffline(ctl, buf); } } } if (n != -1) n = stuffline(ctl, rcv); /* ship out rest of msgblk.headers */ if (n == -1) { report(stdout, _("writing RFC822 msgblk.headers\n")); release_sink(ctl); free(msgblk.headers); msgblk.headers = NULL; free_str_list(&msgblk.recipients); return(PS_IOERR); } else if ((run.poll_interval == 0 || nodetach) && outlevel >= O_VERBOSE && !isafile(2)) fputs("#", stderr); /* write error notifications */ if (no_local_matches || has_nuls || bad_addresses) { int errlen = 0; char errhd[USERNAMELEN + POPBUFSIZE], *errmsg; errmsg = errhd; (void) strcpy(errhd, "X-Fetchmail-Warning: "); if (no_local_matches) { if (reject_count != 1) strcat(errhd, _("no recipient addresses matched declared local names")); else { for (idp = msgblk.recipients; idp; idp = idp->next) if (idp->val.status.mark == XMIT_REJECT) break; sprintf(errhd+strlen(errhd), _("recipient address %s didn't match any local name"), idp->id); } } if (has_nuls) { if (errhd[sizeof("X-Fetchmail-Warning: ")]) strcat(errhd, "; "); strcat(errhd, _("message has embedded NULs")); } if (bad_addresses) { if (errhd[sizeof("X-Fetchmail-Warning: ")]) strcat(errhd, "; "); strcat(errhd, _("SMTP listener rejected local recipient addresses: ")); errlen = strlen(errhd); for (idp = msgblk.recipients; idp; idp = idp->next) if (idp->val.status.mark == XMIT_RCPTBAD) errlen += strlen(idp->id) + 2; xalloca(errmsg, char *, errlen+3); (void) strcpy(errmsg, errhd); for (idp = msgblk.recipients; idp; idp = idp->next) if (idp->val.status.mark == XMIT_RCPTBAD) { strcat(errmsg, idp->id); if (idp->next) strcat(errmsg, ", "); } } strcat(errmsg, "\r\n"); /* ship out the error line */ stuffline(ctl, errmsg); } /* issue the delimiter line */ cp = buf; *cp++ = '\r'; *cp++ = '\n'; *cp++ = '\0'; stuffline(ctl, buf); /* free(msgblk.headers); */ free_str_list(&msgblk.recipients); return(headers_ok ? PS_SUCCESS : PS_TRUNCATED); } static int readbody(int sock, struct query *ctl, flag forward, int len) /* read and dispose of a message body presented on sock */ /* ctl: query control record */ /* sock: to which the server is connected */ /* len: length of message */ /* forward: TRUE to forward */ { int linelen; unsigned char buf[MSGBUFSIZE+4]; unsigned char *inbufp = buf; flag issoftline = FALSE; /* * Pass through the text lines in the body. * * Yes, this wants to be ||, not &&. The problem is that in the most * important delimited protocol, POP3, the length is not reliable. * As usual, the problem is Microsoft brain damage; see FAQ item S2. * So, for delimited protocols we need to ignore the length here and * instead drop out of the loop with a break statement when we see * the message delimiter. */ while (protocol->delimited || len > 0) { set_timeout(mytimeout); if ((linelen = SockRead(sock, inbufp, sizeof(buf)-4-(inbufp-buf)))==-1) { set_timeout(0); release_sink(ctl); return(PS_SOCKET); } set_timeout(0); /* write the message size dots */ if (linelen > 0) { sizeticker += linelen; while (sizeticker >= SIZETICKER) { if (outlevel > O_SILENT && (((run.poll_interval == 0 || nodetach) && !isafile(1)) || run.showdots)) { fputc('.', stdout); fflush(stdout); } sizeticker -= SIZETICKER; } } len -= linelen; /* check for end of message */ if (protocol->delimited && *inbufp == '.') { if (inbufp[1] == '\r' && inbufp[2] == '\n' && inbufp[3] == '\0') break; else if (inbufp[1] == '\n' && inbufp[2] == '\0') break; else msglen--; /* subtract the size of the dot escape */ } msglen += linelen; if (ctl->mimedecode && (ctl->mimemsg & MSG_NEEDS_DECODE)) { issoftline = UnMimeBodyline(&inbufp, protocol->delimited, issoftline); if (issoftline && (sizeof(buf)-1-(inbufp-buf) < 200)) { /* * Soft linebreak, but less than 200 bytes left in * input buffer. Rather than doing a buffer overrun, * ignore the soft linebreak, NL-terminate data and * deliver what we have now. * (Who writes lines longer than 2K anyway?) */ *inbufp = '\n'; *(inbufp+1) = '\0'; issoftline = 0; } } /* ship out the text line */ if (forward && (!issoftline)) { int n; inbufp = buf; /* guard against very long lines */ buf[MSGBUFSIZE+1] = '\r'; buf[MSGBUFSIZE+2] = '\n'; buf[MSGBUFSIZE+3] = '\0'; n = stuffline(ctl, buf); if (n < 0) { report(stdout, _("writing message text\n")); release_sink(ctl); return(PS_IOERR); } else if (outlevel >= O_VERBOSE && !isafile(1)) { fputc('*', stdout); fflush(stdout); } } } return(PS_SUCCESS); } #ifdef KERBEROS_V4 int kerberos_auth (socket, canonical, principal) /* authenticate to the server host using Kerberos V4 */ int socket; /* socket to server host */ char *canonical; /* server name */ char *principal; { char * host_primary; KTEXT ticket; MSG_DAT msg_data; CREDENTIALS cred; Key_schedule schedule; int rem; char * prin_copy = (char *) NULL; char * prin = (char *) NULL; char * inst = (char *) NULL; char * realm = (char *) NULL; if (principal != (char *)NULL && *principal) { char *cp; prin = prin_copy = xstrdup(principal); for (cp = prin_copy; *cp && *cp != '.'; ++cp) ; if (*cp) { *cp++ = '\0'; inst = cp; while (*cp && *cp != '@') ++cp; if (*cp) { *cp++ = '\0'; realm = cp; } } } xalloca(ticket, KTEXT, sizeof (KTEXT_ST)); rem = (krb_sendauth (0L, socket, ticket, prin ? prin : "pop", inst ? inst : canonical, realm ? realm : ((char *) (krb_realmofhost (canonical))), ((unsigned long) 0), (&msg_data), (&cred), (schedule), ((struct sockaddr_in *) 0), ((struct sockaddr_in *) 0), "KPOPV0.1")); if (prin_copy) { free(prin_copy); } if (rem != KSUCCESS) { report(stderr, _("kerberos error %s\n"), (krb_get_err_text (rem))); return (PS_AUTHFAIL); } return (0); } #endif /* KERBEROS_V4 */ #ifdef KERBEROS_V5 static int kerberos5_auth(socket, canonical) /* authenticate to the server host using Kerberos V5 */ int socket; /* socket to server host */ const char *canonical; /* server name */ { krb5_error_code retval; krb5_context context; krb5_ccache ccdef; krb5_principal client = NULL, server = NULL; krb5_error *err_ret = NULL; krb5_auth_context auth_context = NULL; krb5_init_context(&context); krb5_init_ets(context); krb5_auth_con_init(context, &auth_context); if (retval = krb5_cc_default(context, &ccdef)) { report(stderr, "krb5_cc_default: %s\n", error_message(retval)); return(PS_ERROR); } if (retval = krb5_cc_get_principal(context, ccdef, &client)) { report(stderr, "krb5_cc_get_principal: %s\n", error_message(retval)); return(PS_ERROR); } if (retval = krb5_sname_to_principal(context, canonical, "pop", KRB5_NT_UNKNOWN, &server)) { report(stderr, "krb5_sname_to_principal: %s\n", error_message(retval)); return(PS_ERROR); } retval = krb5_sendauth(context, &auth_context, (krb5_pointer) &socket, "KPOPV1.0", client, server, AP_OPTS_MUTUAL_REQUIRED, NULL, /* no data to checksum */ 0, /* no creds, use ccache instead */ ccdef, &err_ret, 0, NULL); /* don't need reply */ krb5_free_principal(context, server); krb5_free_principal(context, client); krb5_auth_con_free(context, auth_context); if (retval) { #ifdef HEIMDAL if (err_ret && err_ret->e_text) { report(stderr, _("krb5_sendauth: %s [server says '%*s'] \n"), error_message(retval), err_ret->e_text); #else if (err_ret && err_ret->text.length) { report(stderr, _("krb5_sendauth: %s [server says '%*s'] \n"), error_message(retval), err_ret->text.length, err_ret->text.data); #endif krb5_free_error(context, err_ret); } else report(stderr, "krb5_sendauth: %s\n", error_message(retval)); return(PS_ERROR); } return 0; } #endif /* KERBEROS_V5 */ static void clean_skipped_list(struct idlist **skipped_list) /* struct "idlist" contains no "prev" ptr; we must remove unused items first */ { struct idlist *current=NULL, *prev=NULL, *tmp=NULL, *head=NULL; prev = current = head = *skipped_list; if (!head) return; do { /* if item has no reference, remove it */ if (current && current->val.status.mark == 0) { if (current == head) /* remove first item (head) */ { head = current->next; if (current->id) free(current->id); free(current); prev = current = head; } else /* remove middle/last item */ { tmp = current->next; prev->next = tmp; if (current->id) free(current->id); free(current); current = tmp; } } else /* skip this item */ { prev = current; current = current->next; } } while(current); *skipped_list = head; } static void send_size_warnings(struct query *ctl) /* send warning mail with skipped msg; reset msg count when user notified */ { int size, nbr; int msg_to_send = FALSE; struct idlist *head=NULL, *current=NULL; int max_warning_poll_count; head = ctl->skipped; if (!head) return; /* don't start a notification message unless we need to */ for (current = head; current; current = current->next) if (current->val.status.num == 0 && current->val.status.mark) msg_to_send = TRUE; if (!msg_to_send) return; /* * There's no good way to recover if we can't send notification mail, * but it's not a disaster, either, since the skipped mail will not * be deleted. */ if (open_warning_by_mail(ctl, (struct msgblk *)NULL)) return; stuff_warning(ctl, _("Subject: Fetchmail oversized-messages warning.\r\n" "\r\n" "The following oversized messages remain on the mail server %s:"), ctl->server.pollname); if (run.poll_interval == 0) max_warning_poll_count = 0; else max_warning_poll_count = ctl->warnings/run.poll_interval; /* parse list of skipped msg, adding items to the mail */ for (current = head; current; current = current->next) { if (current->val.status.num == 0 && current->val.status.mark) { nbr = current->val.status.mark; size = atoi(current->id); stuff_warning(ctl, _("\t%d msg %d octets long skipped by fetchmail.\r\n"), nbr, size); } current->val.status.num++; current->val.status.mark = 0; if (current->val.status.num >= max_warning_poll_count) current->val.status.num = 0; } close_warning_by_mail(ctl, (struct msgblk *)NULL); } static int do_session(ctl, proto, maxfetch) /* 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 */ const int maxfetch; /* maximum number of messages to fetch */ { int js; #ifdef HAVE_VOLATILE volatile int ok, mailserver_socket = -1; /* pacifies -Wall */ #else int ok, mailserver_socket = -1; #endif /* HAVE_VOLATILE */ const char *msg; void (*pipesave)(int); void (*alrmsave)(int); struct idlist *current=NULL, *tmp=NULL; protocol = proto; ctl->server.base_protocol = protocol; pass = 0; tagnum = 0; tag[0] = '\0'; /* nuke any tag hanging out from previous query */ ok = 0; /* set up the server-nonresponse timeout */ alrmsave = signal(SIGALRM, timeout_handler); mytimeout = ctl->server.timeout; /* set up the broken-pipe timeout */ pipesave = signal(SIGPIPE, sigpipe_handler); if ((js = setjmp(restart))) { #ifdef HAVE_SIGPROCMASK /* * Don't rely on setjmp() to restore the blocked-signal mask. * It does this under BSD but is required not to under POSIX. * * If your Unix doesn't have sigprocmask, better hope it has * BSD-like behavior. Otherwise you may see fetchmail get * permanently wedged after a second timeout on a bad read, * because alarm signals were blocked after the first. */ sigset_t allsigs; sigfillset(&allsigs); sigprocmask(SIG_UNBLOCK, &allsigs, NULL); #endif /* HAVE_SIGPROCMASK */ if (js == THROW_SIGPIPE) { signal(SIGPIPE, SIG_IGN); report(stdout, _("SIGPIPE thrown from an MDA or a stream socket error\n")); ok = PS_SOCKET; goto cleanUp; } else if (js == THROW_TIMEOUT) { if (phase == OPEN_WAIT) report(stdout, _("timeout after %d seconds waiting to connect to server %s.\n"), ctl->server.timeout, ctl->server.pollname); else if (phase == SERVER_WAIT) report(stdout, _("timeout after %d seconds waiting for server %s.\n"), ctl->server.timeout, ctl->server.pollname); else if (phase == FORWARDING_WAIT) report(stdout, _("timeout after %d seconds waiting for %s.\n"), ctl->server.timeout, ctl->mda ? "MDA" : "SMTP"); else if (phase == LISTENER_WAIT) report(stdout, _("timeout after %d seconds waiting for listener to respond.\n"), ctl->server.timeout); else report(stdout, _("timeout after %d seconds.\n"), ctl->server.timeout); /* * If we've exceeded our threshold for consecutive timeouts, * try to notify the user, then mark the connection wedged. * Don't do this if the connection can idle, though; idle * timeouts just mean the frequency of mail is low. */ if (timeoutcount > MAX_TIMEOUTS && !open_warning_by_mail(ctl, (struct msgblk *)NULL)) { stuff_warning(ctl, _("Subject: fetchmail sees repeated timeouts\r\n")); stuff_warning(ctl, _("Fetchmail saw more than %d timeouts while attempting to get mail from %s@%s.\r\n"), MAX_TIMEOUTS, ctl->remotename, ctl->server.truename); stuff_warning(ctl, _("This could mean that your mailserver is stuck, or that your SMTP\r\n" \ "server is wedged, or that your mailbox file on the server has been\r\n" \ "corrupted by a server error. You can run `fetchmail -v -v' to\r\n" \ "diagnose the problem.\r\n\r\n" \ "Fetchmail won't poll this mailbox again until you restart it.\r\n")); close_warning_by_mail(ctl, (struct msgblk *)NULL); ctl->wedged = TRUE; } ok = PS_ERROR; } /* try to clean up all streams */ release_sink(ctl); if (ctl->smtp_socket != -1) SockClose(ctl->smtp_socket); if (mailserver_socket != -1) SockClose(mailserver_socket); } else { char buf[MSGBUFSIZE+1], *realhost; int len, num, count, new, bytes, deletions = 0, *msgsizes = NULL; #if INET6_ENABLE int fetches, dispatches, oldphase; #else /* INET6_ENABLE */ int port, fetches, dispatches, oldphase; #endif /* INET6_ENABLE */ struct idlist *idp; /* execute pre-initialization command, if any */ if (ctl->preconnect && (ok = system(ctl->preconnect))) { report(stderr, _("pre-connection command failed with status %d\n"), ok); ok = PS_SYNTAX; goto closeUp; } /* open a socket to the mail server */ oldphase = phase; phase = OPEN_WAIT; set_timeout(mytimeout); #if !INET6_ENABLE #ifdef SSL_ENABLE port = ctl->server.port ? ctl->server.port : ( ctl->use_ssl ? protocol->sslport : protocol->port ); #else port = ctl->server.port ? ctl->server.port : protocol->port; #endif #endif /* !INET6_ENABLE */ realhost = ctl->server.via ? ctl->server.via : ctl->server.pollname; /* allow time for the port to be set up if we have a plugin */ if (ctl->server.plugin) (void)sleep(1); #if INET6_ENABLE if ((mailserver_socket = SockOpen(realhost, ctl->server.service ? ctl->server.service : ( ctl->use_ssl ? protocol->sslservice : protocol->service ), ctl->server.netsec, ctl->server.plugin)) == -1) #else /* INET6_ENABLE */ if ((mailserver_socket = SockOpen(realhost, port, NULL, ctl->server.plugin)) == -1) #endif /* INET6_ENABLE */ { char errbuf[BUFSIZ]; #if !INET6_ENABLE int err_no = errno; #ifdef HAVE_RES_SEARCH if (err_no != 0 && h_errno != 0) report(stderr, _("fetchmail: internal inconsistency\n")); #endif /* * Avoid generating a bogus error every poll cycle when we're * in daemon mode but the connection to the outside world * is down. */ if (!((err_no == EHOSTUNREACH || err_no == ENETUNREACH) && run.poll_interval)) { report_build(stderr, _("fetchmail: %s connection to %s failed"), protocol->name, ctl->server.pollname); #ifdef HAVE_RES_SEARCH if (h_errno != 0) { if (h_errno == HOST_NOT_FOUND) strcpy(errbuf, _("host is unknown.")); #ifndef __BEOS__ else if (h_errno == NO_ADDRESS) strcpy(errbuf, _("name is valid but has no IP address.")); #endif else if (h_errno == NO_RECOVERY) strcpy(errbuf, _("unrecoverable name server error.")); else if (h_errno == TRY_AGAIN) strcpy(errbuf, _("temporary name server error.")); else sprintf(errbuf, _("unknown DNS error %d."), h_errno); } else #endif /* HAVE_RES_SEARCH */ strcpy(errbuf, strerror(err_no)); report_complete(stderr, ": %s\n", errbuf); #ifdef __UNUSED /* * Don't use this. It was an attempt to address Debian bug * #47143 (Notify user by mail when pop server nonexistent). * Trouble is, that doesn't work; you trip over the case * where your SLIP or PPP link is down... */ /* warn the system administrator */ if (open_warning_by_mail(ctl, (struct msgblk *)NULL) == 0) { stuff_warning(ctl, _("Subject: Fetchmail unreachable-server warning.\r\n" "\r\n" "Fetchmail could not reach the mail server %s:") ctl->server.pollname); stuff_warning(ctl, errbuf, ctl->server.pollname); close_warning_by_mail(ctl, (struct msgblk *)NULL); } #endif } #endif /* INET6_ENABLE */ ok = PS_SOCKET; set_timeout(0); phase = oldphase; goto closeUp; } set_timeout(0); phase = oldphase; #ifdef SSL_ENABLE /* perform initial SSL handshake on open connection */ /* Note: We pass the realhost name over for certificate verification. We may want to make this configurable */ if (ctl->use_ssl && SSLOpen(mailserver_socket,ctl->sslkey,ctl->sslcert,realhost) == -1) { report(stderr, _("SSL connection failed.\n")); goto closeUp; } #endif #ifdef KERBEROS_V4 if (ctl->server.preauthenticate == A_KERBEROS_V4) { set_timeout(mytimeout); ok = kerberos_auth(mailserver_socket, ctl->server.truename, ctl->server.principal); set_timeout(0); if (ok != 0) goto cleanUp; } #endif /* KERBEROS_V4 */ #ifdef KERBEROS_V5 if (ctl->server.preauthenticate == A_KERBEROS_V5) { set_timeout(mytimeout); ok = kerberos5_auth(mailserver_socket, ctl->server.truename); set_timeout(0); if (ok != 0) goto cleanUp; } #endif /* KERBEROS_V5 */ /* accept greeting message from mail server */ ok = (protocol->parse_response)(mailserver_socket, buf); if (ok != 0) goto cleanUp; /* try to get authorized to fetch mail */ stage = STAGE_GETAUTH; if (protocol->getauth) { if (protocol->password_canonify) (protocol->password_canonify)(shroud, ctl->password, PASSWORDLEN); else strcpy(shroud, ctl->password); ok = (protocol->getauth)(mailserver_socket, ctl, buf); if (ok != 0) { if (ok == PS_LOCKBUSY) report(stderr, _("Lock-busy error on %s@%s\n"), ctl->remotename, ctl->server.truename); else if (ok == PS_AUTHFAIL) { report(stderr, _("Authorization failure on %s@%s\n"), ctl->remotename, ctl->server.truename); /* * If we're running in background, try to mail the * calling user a heads-up about the authentication * failure once it looks like this isn't a fluke * due to the server being temporarily inaccessible. * When we get third failure, we notify the user. After * that, once we get authorization we let the user know * service is restored. */ if (run.poll_interval && ++ctl->authfailcount == 3 && !open_warning_by_mail(ctl, (struct msgblk *)NULL)) { stuff_warning(ctl, _("Subject: fetchmail authentication failed\r\n")); stuff_warning(ctl, _("Fetchmail could not get mail from %s@%s.\r\n"), ctl->remotename, ctl->server.truename); stuff_warning(ctl, _("\ The attempt to get authorization failed.\r\n\ This probably means your password is invalid, but some servers have\r\n\ other failure modes that fetchmail cannot distinguish from this\r\n\ because they don't send useful error messages on login failure.\r\n\ \r\n\ The fetchmail daemon will continue running and attempt to connect\r\n\ at each cycle. No future notifications will be sent until service\r\n\ is restored.")); close_warning_by_mail(ctl, (struct msgblk *)NULL); } } else report(stderr, _("Unknown login or authentication error on %s@%s\n"), ctl->remotename, ctl->server.truename); goto cleanUp; } else { if (ctl->authfailcount >= 3) { report(stderr, _("Authorization OK on %s@%s\n"), ctl->remotename, ctl->server.truename); if (!open_warning_by_mail(ctl, (struct msgblk *)NULL)) { stuff_warning(ctl, _("Subject: fetchmail authentication OK\r\n")); stuff_warning(ctl, _("Fetchmail was able to log into %s@%s.\r\n"), ctl->remotename, ctl->server.truename); stuff_warning(ctl, _("Service has been restored.\r\n")); close_warning_by_mail(ctl, (struct msgblk *)NULL); } ctl->authfailcount = 0; } } } ctl->errcount = fetches = 0; /* now iterate over each folder selected */ for (idp = ctl->mailboxes; idp; idp = idp->next) { pass = 0; do { dispatches = 0; ++pass; /* reset timeout, in case we did an IDLE */ mytimeout = ctl->server.timeout; if (outlevel >= O_DEBUG) { if (idp->id) report(stdout, _("selecting or re-polling folder %s\n"), idp->id); else report(stdout, _("selecting or re-polling default folder\n")); } /* compute # of messages and number of new messages waiting */ stage = STAGE_GETRANGE; ok = (protocol->getrange)(mailserver_socket, ctl, idp->id, &count, &new, &bytes); if (ok != 0) goto cleanUp; /* show user how many messages we downloaded */ if (idp->id) (void) sprintf(buf, _("%s at %s (folder %s)"), ctl->remotename, ctl->server.truename, idp->id); else (void) sprintf(buf, _("%s at %s"), ctl->remotename, ctl->server.truename); if (outlevel > O_SILENT) { if (count == -1) /* only used for ETRN */ report(stdout, _("Polling %s\n"), ctl->server.truename); else if (count != 0) { if (new != -1 && (count - new) > 0) report_build(stdout, _("%d %s (%d seen) for %s"), count, count > 1 ? _("messages") : _("message"), count-new, buf); else report_build(stdout, _("%d %s for %s"), count, count > 1 ? _("messages") : _("message"), buf); if (bytes == -1) report_complete(stdout, ".\n"); else report_complete(stdout, _(" (%d octets).\n"), bytes); } else { /* these are pointless in normal daemon mode */ if (pass == 1 && (run.poll_interval == 0 || outlevel >= O_VERBOSE)) report(stdout, _("No mail for %s\n"), buf); } } /* very important, this is where we leave the do loop */ if (count == 0) break; if (check_only) { if (new == -1 || ctl->fetchall) new = count; fetches = new; /* set error status ccorrectly */ /* * There used to be a `got noerror' here, but this * prevneted checking of multiple folders. This * comment is a reminder in case I introduced some * subtle bug by removing it... */ } else if (count > 0) { flag force_retrieval; /* * What forces this code is that in POP2 and * IMAP2bis you can't fetch a message without * having it marked `seen'. In POP3 and IMAP4, on the * other hand, you can (peek_capable is set by * each driver module to convey this; it's not a * method constant because of the difference between * IMAP2bis and IMAP4, and because POP3 doesn't peek * if fetchall is on). * * 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. */ force_retrieval = !peek_capable && (ctl->errcount > 0); /* * We need the size of each message before it's * loaded in order to pass it to the ESMTP SIZE * option. If the protocol has a getsizes method, * we presume this means it doesn't get reliable * sizes from message fetch responses. */ if (proto->getsizes) { int i; xalloca(msgsizes, int *, sizeof(int) * count); for (i = 0; i < count; i++) msgsizes[i] = -1; stage = STAGE_GETSIZES; ok = (proto->getsizes)(mailserver_socket, count, msgsizes); if (ok != 0) goto cleanUp; if (bytes == -1) { bytes = 0; for (i = 0; i < count; i++) bytes += msgsizes[i]; } } /* read, forward, and delete messages */ stage = STAGE_FETCH; for (num = 1; num <= count; num++) { flag toolarge = NUM_NONZERO(ctl->limit) && msgsizes && (msgsizes[num-1] > ctl->limit); flag oldmsg = (!new) || (protocol->is_old && (protocol->is_old)(mailserver_socket,ctl,num)); flag fetch_it = !toolarge && (ctl->fetchall || force_retrieval || !oldmsg); flag suppress_delete = FALSE; flag suppress_forward = FALSE; flag suppress_readbody = FALSE; flag retained = FALSE; /* * This check copes with Post Office/NT's * annoying habit of randomly prepending bogus * LIST items of length -1. Patrick Audley * tells us: LIST shows a * size of -1, RETR and TOP return "-ERR * System error - couldn't open message", and * DELE succeeds but doesn't actually delete * the message. */ if (msgsizes && msgsizes[num-1] == -1) { if (outlevel >= O_VERBOSE) report(stdout, _("Skipping message %d, length -1\n"), num); continue; } /* * We may want to reject this message if it's old * or oversized, and we're not forcing retrieval. */ if (!fetch_it) { if (outlevel > O_SILENT) { report_build(stdout, _("skipping message %d (%d octets)"), num, msgsizes[num-1]); if (toolarge && !check_only) { char size[32]; int cnt; /* convert sz to string */ sprintf(size, "%d", msgsizes[num-1]); /* build a list of skipped messages * val.id = size of msg (string cnvt) * val.status.num = warning_poll_count * val.status.mask = nbr of msg this size */ current = ctl->skipped; /* initialise warning_poll_count to the * current value so that all new msg will * be included in the next mail */ cnt = current? current->val.status.num : 0; /* if entry exists, increment the count */ if (current && str_in_list(¤t, size, FALSE)) { for ( ; current; current = current->next) { if (strcmp(current->id, size) == 0) { current->val.status.mark++; break; } } } /* otherwise, create a new entry */ /* initialise with current poll count */ else { tmp = save_str(&ctl->skipped, size, 1); tmp->val.status.num = cnt; } report_build(stdout, _(" (oversized, %d octets)"), msgsizes[num-1]); } } } else { flag wholesize = !protocol->fetch_body; /* request a message */ ok = (protocol->fetch_headers)(mailserver_socket,ctl,num, &len); if (ok != 0) goto cleanUp; /* -1 means we didn't see a size in the response */ if (len == -1 && msgsizes) { len = msgsizes[num - 1]; wholesize = TRUE; } if (outlevel > O_SILENT) { report_build(stdout, _("reading message %d of %d"), num,count); if (len > 0) report_build(stdout, _(" (%d %soctets)"), len, wholesize ? "" : _("header ")); if (outlevel >= O_VERBOSE) report_complete(stdout, "\n"); else report_complete(stdout, " "); } /* * Read the message headers and ship them to the * output sink. */ ok = readheaders(mailserver_socket, len, msgsizes[num-1], ctl, num); if (ok == PS_RETAINED) suppress_forward = retained = TRUE; else if (ok == PS_TRANSIENT) suppress_delete = suppress_forward = TRUE; else if (ok == PS_REFUSED) suppress_forward = TRUE; else if (ok == PS_TRUNCATED) suppress_readbody = TRUE; else if (ok) goto cleanUp; /* * If we're using IMAP4 or something else that * can fetch headers separately from bodies, * it's time to request the body now. This * fetch may be skipped if we got an anti-spam * or other PS_REFUSED error response during * readheaders. */ if (protocol->fetch_body && !suppress_readbody) { if (outlevel >= O_VERBOSE && !isafile(1)) { fputc('\n', stdout); fflush(stdout); } if ((ok = (protocol->trail)(mailserver_socket, ctl, num))) goto cleanUp; len = 0; if (!suppress_forward) { if ((ok=(protocol->fetch_body)(mailserver_socket,ctl,num,&len))) goto cleanUp; /* * Work around a bug in Novell's * broken GroupWise IMAP server; * its body FETCH response is missing * the required length for the data * string. This violates RFC2060. */ if (len == -1) len = msgsizes[num-1] - msglen; if (outlevel > O_SILENT && !wholesize) report_complete(stdout, _(" (%d body octets) "), len); } } /* process the body now */ if (len > 0) { if (suppress_readbody) { /* When readheaders returns PS_TRUNCATED, the body (which has no content has already been read by readheaders, so we say readbody returned PS_SUCCESS */ ok = PS_SUCCESS; } else { ok = readbody(mailserver_socket, ctl, !suppress_forward, len); } if (ok == PS_TRANSIENT) suppress_delete = suppress_forward = TRUE; else if (ok) goto cleanUp; /* tell server we got it OK and resynchronize */ if (protocol->trail) { if (outlevel >= O_VERBOSE && !isafile(1)) { fputc('\n', stdout); fflush(stdout); } ok = (protocol->trail)(mailserver_socket, ctl, num); if (ok != 0) goto cleanUp; } } /* count # messages forwarded on this pass */ if (!suppress_forward) dispatches++; /* * Check to see if the numbers matched? * * Yes, some servers foo this up horribly. * All IMAP servers seem to get it right, and * so does Eudora QPOP at least in 2.xx * versions. * * Microsoft Exchange gets it completely * wrong, reporting compressed rather than * actual sizes (so the actual length of * message is longer than the reported size). * Another fine example of Microsoft brain death! * * Some older POP servers, like the old UCB * POP server and the pre-QPOP QUALCOMM * versions, report a longer size in the LIST * response than actually gets shipped up. * It's unclear what is going on here, as the * QUALCOMM server (at least) seems to be * reporting the on-disk size correctly. */ if (msgsizes && msglen != msgsizes[num-1]) { if (outlevel >= O_DEBUG) report(stdout, _("message %d was not the expected length (%d actual != %d expected)\n"), num, msglen, msgsizes[num-1]); } /* end-of-message processing starts here */ if (!close_sink(ctl, &msgblk, !suppress_forward)) { ctl->errcount++; suppress_delete = TRUE; } fetches++; } /* * 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. */ /* tell the UID code we've seen this */ if (ctl->newsaved) { struct idlist *sdp; for (sdp = ctl->newsaved; sdp; sdp = sdp->next) if ((sdp->val.status.num == num) && (!toolarge || oldmsg)) sdp->val.status.mark = UID_SEEN; } /* maybe we delete this message now? */ if (retained) { if (outlevel > O_SILENT) report(stdout, _(" retained\n")); } else if (protocol->delete && !suppress_delete && (fetch_it ? !ctl->keep : ctl->flush)) { deletions++; if (outlevel > O_SILENT) report_complete(stdout, _(" flushed\n")); ok = (protocol->delete)(mailserver_socket, ctl, num); if (ok != 0) goto cleanUp; #ifdef POP3_ENABLE delete_str(&ctl->newsaved, num); #endif /* POP3_ENABLE */ } else if (outlevel > O_SILENT) report_complete(stdout, _(" not flushed\n")); /* perhaps this as many as we're ready to handle */ if (maxfetch && maxfetch <= fetches && fetches < count) { report(stdout, _("fetchlimit %d reached; %d messages left on server\n"), maxfetch, count - fetches); ok = PS_MAXFETCH; goto cleanUp; } } if (!check_only && ctl->skipped && run.poll_interval > 0 && !nodetach) { clean_skipped_list(&ctl->skipped); send_size_warnings(ctl); } } } while /* * Only re-poll if we either had some actual forwards and * either allowed deletions and had no errors. * Otherwise it is far too easy to get into infinite loops. */ (dispatches && protocol->retry && !ctl->keep && !ctl->errcount); } /* no_error: */ /* ordinary termination with no errors -- officially log out */ ok = (protocol->logout_cmd)(mailserver_socket, ctl); /* * Hmmmm...arguably this would be incorrect if we had fetches but * no dispatches (due to oversized messages, etc.) */ if (ok == 0) ok = (fetches > 0) ? PS_SUCCESS : PS_NOMAIL; SockClose(mailserver_socket); goto closeUp; cleanUp: /* we only get here on error */ if (ok != 0 && ok != PS_SOCKET) { stage = STAGE_LOGOUT; (protocol->logout_cmd)(mailserver_socket, ctl); } SockClose(mailserver_socket); } msg = (const char *)NULL; /* sacrifice to -Wall */ switch (ok) { case PS_SOCKET: msg = _("socket"); 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_LOCKBUSY: msg = _("lock busy on server"); break; case PS_SMTP: msg = _("SMTP transaction"); break; case PS_DNS: msg = _("DNS lookup"); break; case PS_UNDEFINED: report(stderr, _("undefined error\n")); break; } /* no report on PS_MAXFETCH or PS_UNDEFINED or PS_AUTHFAIL */ if (ok==PS_SOCKET || ok==PS_SYNTAX || ok==PS_IOERR || ok==PS_ERROR || ok==PS_PROTOCOL || ok==PS_LOCKBUSY || ok==PS_SMTP || ok==PS_DNS) report(stderr, _("%s error while fetching from %s\n"), msg, ctl->server.pollname); closeUp: /* execute post-initialization command, if any */ if (ctl->postconnect && (ok = system(ctl->postconnect))) { report(stderr, _("post-connection command failed with status %d\n"), ok); if (ok == PS_SUCCESS) ok = PS_SYNTAX; } signal(SIGALRM, alrmsave); signal(SIGPIPE, pipesave); return(ok); } 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; #ifndef KERBEROS_V4 if (ctl->server.preauthenticate == A_KERBEROS_V4) { report(stderr, _("Kerberos V4 support not linked.\n")); return(PS_ERROR); } #endif /* KERBEROS_V4 */ #ifndef KERBEROS_V5 if (ctl->server.preauthenticate == A_KERBEROS_V5) { report(stderr, _("Kerberos V5 support not linked.\n")); return(PS_ERROR); } #endif /* KERBEROS_V5 */ /* lacking methods, there are some options that may fail */ if (!proto->is_old) { /* check for unsupported options */ if (ctl->flush) { report(stderr, _("Option --flush is not supported with %s\n"), proto->name); return(PS_SYNTAX); } else if (ctl->fetchall) { report(stderr, _("Option --all is not supported with %s\n"), proto->name); return(PS_SYNTAX); } } if (!proto->getsizes && NUM_SPECIFIED(ctl->limit)) { report(stderr, _("Option --limit is not supported with %s\n"), proto->name); return(PS_SYNTAX); } /* * If no expunge limit or we do expunges within the driver, * then just do one session, passing in any fetchlimit. */ if (proto->retry || !NUM_SPECIFIED(ctl->expunge)) return(do_session(ctl, proto, NUM_VALUE_OUT(ctl->fetchlimit))); /* * There's an expunge limit, and it isn't handled in the driver itself. * OK; do multiple sessions, each fetching a limited # of messages. * Stop if the total count of retrieved messages exceeds ctl->fetchlimit * (if it was nonzero). */ else { int totalcount = 0; int lockouts = 0; int expunge = NUM_VALUE_OUT(ctl->expunge); int fetchlimit = NUM_VALUE_OUT(ctl->fetchlimit); do { ok = do_session(ctl, proto, expunge); totalcount += expunge; if (NUM_SPECIFIED(ctl->fetchlimit) && totalcount >= fetchlimit) break; if (ok != PS_LOCKBUSY) lockouts = 0; else if (lockouts >= MAX_LOCKOUTS) break; else /* ok == PS_LOCKBUSY */ { /* * Allow time for the server lock to release. if we * don't do this, we'll often hit a locked-mailbox * condition and fail. */ lockouts++; sleep(3); } } while (ok == PS_MAXFETCH || ok == PS_LOCKBUSY); return(ok); } } #if defined(HAVE_STDARG_H) void gen_send(int sock, const char *fmt, ... ) #else void gen_send(sock, fmt, va_alist) int sock; /* socket to which server is connected */ const char *fmt; /* printf-style format */ va_dcl #endif /* assemble command in printf(3) style and send to the server */ { char buf [MSGBUFSIZE+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 #ifdef HAVE_VSNPRINTF vsnprintf(buf + strlen(buf), sizeof(buf), fmt, ap); #else vsprintf(buf + strlen(buf), fmt, ap); #endif va_end(ap); strcat(buf, "\r\n"); SockWrite(sock, buf, strlen(buf)); if (outlevel >= O_MONITOR) { char *cp; if (shroud && shroud[0] && (cp = strstr(buf, shroud))) { char *sp; sp = cp + strlen(shroud); *cp++ = '*'; while (*sp) *cp++ = *sp++; *cp = '\0'; } buf[strlen(buf)-2] = '\0'; report(stdout, "%s> %s\n", protocol->name, buf); } } int gen_recv(sock, buf, size) /* get one line of input from the server */ int sock; /* socket to which server is connected */ char *buf; /* buffer to receive input */ int size; /* length of buffer */ { int oldphase = phase; /* we don't have to be re-entrant */ phase = SERVER_WAIT; set_timeout(mytimeout); if (SockRead(sock, buf, size) == -1) { set_timeout(0); phase = oldphase; return(PS_SOCKET); } else { set_timeout(0); if (buf[strlen(buf)-1] == '\n') buf[strlen(buf)-1] = '\0'; if (buf[strlen(buf)-1] == '\r') buf[strlen(buf)-1] = '\0'; if (outlevel >= O_MONITOR) report(stdout, "%s< %s\n", protocol->name, buf); phase = oldphase; return(PS_SUCCESS); } } #if defined(HAVE_STDARG_H) int gen_transact(int sock, const char *fmt, ... ) #else int gen_transact(int sock, fmt, va_alist) int sock; /* socket to which server is connected */ const char *fmt; /* printf-style format */ va_dcl #endif /* assemble command in printf(3) style, send to server, accept a response */ { int ok; char buf [MSGBUFSIZE+1]; va_list ap; int oldphase = phase; /* we don't have to be re-entrant */ phase = SERVER_WAIT; 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 #ifdef HAVE_VSNPRINTF vsnprintf(buf + strlen(buf), sizeof(buf), fmt, ap); #else vsprintf(buf + strlen(buf), fmt, ap); #endif va_end(ap); strcat(buf, "\r\n"); SockWrite(sock, buf, strlen(buf)); if (outlevel >= O_MONITOR) { char *cp; if (shroud && shroud[0] && (cp = strstr(buf, shroud))) { char *sp; sp = cp + strlen(shroud); *cp++ = '*'; while (*sp) *cp++ = *sp++; *cp = '\0'; } buf[strlen(buf)-1] = '\0'; report(stdout, "%s> %s\n", protocol->name, buf); } /* we presume this does its own response echoing */ ok = (protocol->parse_response)(sock, buf); phase = oldphase; return(ok); } /* driver.c ends here */