/* ** Sendmail ** Copyright (c) 1983 Eric P. Allman ** Berkeley, California ** ** Copyright (c) 1983 Regents of the University of California. ** All rights reserved. The Berkeley software License Agreement ** specifies the terms and conditions for redistribution. */ # include # include # include # include "sendmail.h" # ifndef SMTP # ifndef lint static char SccsId[] = "@(#)usersmtp.c 5.7 (Berkeley) 4/2/86 (no SMTP)"; # endif not lint # else SMTP # ifndef lint static char SccsId[] = "@(#)usersmtp.c 5.7 (Berkeley) 4/2/86"; # endif not lint /* ** USERSMTP -- run SMTP protocol from the user end. ** ** This protocol is described in RFC821. */ #define REPLYTYPE(r) ((r) / 100) /* first digit of reply code */ #define REPLYCLASS(r) (((r) / 10) % 10) /* second digit of reply code */ #define SMTPCLOSING 421 /* "Service Shutting Down" */ char SmtpMsgBuffer[MAXLINE]; /* buffer for commands */ char SmtpReplyBuffer[MAXLINE]; /* buffer for replies */ char SmtpError[MAXLINE] = ""; /* save failure error messages */ FILE *SmtpOut; /* output file */ FILE *SmtpIn; /* input file */ int SmtpPid; /* pid of mailer */ /* following represents the state of the SMTP connection */ int SmtpState; /* connection state, see below */ #define SMTP_CLOSED 0 /* connection is closed */ #define SMTP_OPEN 1 /* connection is open for business */ #define SMTP_SSD 2 /* service shutting down */ /* ** SMTPINIT -- initialize SMTP. ** ** Opens the connection and sends the initial protocol. ** ** Parameters: ** m -- mailer to create connection to. ** pvp -- pointer to parameter vector to pass to ** the mailer. ** ** Returns: ** appropriate exit status -- EX_OK on success. ** If not EX_OK, it should close the connection. ** ** Side Effects: ** creates connection and sends initial protocol. */ jmp_buf CtxGreeting; smtpinit(m, pvp) struct mailer *m; char **pvp; { register int r; EVENT *gte; char buf[MAXNAME]; extern greettimeout(); /* ** Open the connection to the mailer. */ #ifdef DEBUG if (SmtpState == SMTP_OPEN) syserr("smtpinit: already open"); #endif DEBUG SmtpIn = SmtpOut = NULL; SmtpState = SMTP_CLOSED; SmtpError[0] = '\0'; SmtpPhase = "user open"; SmtpPid = openmailer(m, pvp, (ADDRESS *) NULL, TRUE, &SmtpOut, &SmtpIn); if (SmtpPid < 0) { # ifdef DEBUG if (tTd(18, 1)) printf("smtpinit: cannot open %s: stat %d errno %d\n", pvp[0], ExitStat, errno); # endif DEBUG if (CurEnv->e_xfp != NULL) { register char *p; extern char *errstring(); extern char *statstring(); if (errno == 0) { p = statstring(ExitStat); fprintf(CurEnv->e_xfp, "%.3s %s.%s... %s\n", p, pvp[1], m->m_name, p); } else { fprintf(CurEnv->e_xfp, "421 %s.%s... Deferred: %s\n", pvp[1], m->m_name, errstring(errno)); } } return (ExitStat); } SmtpState = SMTP_OPEN; /* ** Get the greeting message. ** This should appear spontaneously. Give it five minutes to ** happen. */ if (setjmp(CtxGreeting) != 0) goto tempfail; gte = setevent((time_t) 300, greettimeout, 0); SmtpPhase = "greeting wait"; r = reply(m); clrevent(gte); if (r < 0 || REPLYTYPE(r) != 2) goto tempfail; /* ** Send the HELO command. ** My mother taught me to always introduce myself. */ smtpmessage("HELO %s", m, MyHostName); SmtpPhase = "HELO wait"; r = reply(m); if (r < 0) goto tempfail; else if (REPLYTYPE(r) == 5) goto unavailable; else if (REPLYTYPE(r) != 2) goto tempfail; /* ** If this is expected to be another sendmail, send some internal ** commands. */ if (bitnset(M_INTERNAL, m->m_flags)) { /* tell it to be verbose */ smtpmessage("VERB", m); r = reply(m); if (r < 0) goto tempfail; /* tell it we will be sending one transaction only */ smtpmessage("ONEX", m); r = reply(m); if (r < 0) goto tempfail; } /* ** Send the MAIL command. ** Designates the sender. */ expand("\001g", buf, &buf[sizeof buf - 1], CurEnv); if (CurEnv->e_from.q_mailer == LocalMailer || !bitnset(M_FROMPATH, m->m_flags)) { smtpmessage("MAIL From:<%s>", m, buf); } else { smtpmessage("MAIL From:<@%s%c%s>", m, MyHostName, buf[0] == '@' ? ',' : ':', buf); } SmtpPhase = "MAIL wait"; r = reply(m); if (r < 0 || REPLYTYPE(r) == 4) goto tempfail; else if (r == 250) return (EX_OK); else if (r == 552) goto unavailable; /* protocol error -- close up */ smtpquit(m); return (EX_PROTOCOL); /* signal a temporary failure */ tempfail: smtpquit(m); return (EX_TEMPFAIL); /* signal service unavailable */ unavailable: smtpquit(m); return (EX_UNAVAILABLE); } static greettimeout() { /* timeout reading the greeting message */ longjmp(CtxGreeting, 1); } /* ** SMTPRCPT -- designate recipient. ** ** Parameters: ** to -- address of recipient. ** m -- the mailer we are sending to. ** ** Returns: ** exit status corresponding to recipient status. ** ** Side Effects: ** Sends the mail via SMTP. */ smtprcpt(to, m) ADDRESS *to; register MAILER *m; { register int r; extern char *remotename(); smtpmessage("RCPT To:<%s>", m, remotename(to->q_user, m, FALSE, TRUE)); SmtpPhase = "RCPT wait"; r = reply(m); if (r < 0 || REPLYTYPE(r) == 4) return (EX_TEMPFAIL); else if (REPLYTYPE(r) == 2) return (EX_OK); else if (r == 550 || r == 551 || r == 553) return (EX_NOUSER); else if (r == 552 || r == 554) return (EX_UNAVAILABLE); return (EX_PROTOCOL); } /* ** SMTPDATA -- send the data and clean up the transaction. ** ** Parameters: ** m -- mailer being sent to. ** e -- the envelope for this message. ** ** Returns: ** exit status corresponding to DATA command. ** ** Side Effects: ** none. */ smtpdata(m, e) struct mailer *m; register ENVELOPE *e; { register int r; /* ** Send the data. ** First send the command and check that it is ok. ** Then send the data. ** Follow it up with a dot to terminate. ** Finally get the results of the transaction. */ /* send the command and check ok to proceed */ smtpmessage("DATA", m); SmtpPhase = "DATA wait"; r = reply(m); if (r < 0 || REPLYTYPE(r) == 4) return (EX_TEMPFAIL); else if (r == 554) return (EX_UNAVAILABLE); else if (r != 354) return (EX_PROTOCOL); /* now output the actual message */ (*e->e_puthdr)(SmtpOut, m, CurEnv); putline("\n", SmtpOut, m); (*e->e_putbody)(SmtpOut, m, CurEnv); /* terminate the message */ fprintf(SmtpOut, ".%s", m->m_eol); if (Verbose && !HoldErrs) nmessage(Arpa_Info, ">>> ."); /* check for the results of the transaction */ SmtpPhase = "result wait"; r = reply(m); if (r < 0 || REPLYTYPE(r) == 4) return (EX_TEMPFAIL); else if (r == 250) return (EX_OK); else if (r == 552 || r == 554) return (EX_UNAVAILABLE); return (EX_PROTOCOL); } /* ** SMTPQUIT -- close the SMTP connection. ** ** Parameters: ** m -- a pointer to the mailer. ** ** Returns: ** none. ** ** Side Effects: ** sends the final protocol and closes the connection. */ smtpquit(m) register MAILER *m; { int i; /* if the connection is already closed, don't bother */ if (SmtpIn == NULL) return; /* send the quit message if not a forced quit */ if (SmtpState == SMTP_OPEN || SmtpState == SMTP_SSD) { smtpmessage("QUIT", m); (void) reply(m); if (SmtpState == SMTP_CLOSED) return; } /* now actually close the connection */ (void) fclose(SmtpIn); (void) fclose(SmtpOut); SmtpIn = SmtpOut = NULL; SmtpState = SMTP_CLOSED; /* and pick up the zombie */ i = endmailer(SmtpPid, m->m_argv[0]); if (i != EX_OK) syserr("smtpquit %s: stat %d", m->m_argv[0], i); } /* ** REPLY -- read arpanet reply ** ** Parameters: ** m -- the mailer we are reading the reply from. ** ** Returns: ** reply code it reads. ** ** Side Effects: ** flushes the mail file. */ reply(m) MAILER *m; { (void) fflush(SmtpOut); if (tTd(18, 1)) printf("reply\n"); /* ** Read the input line, being careful not to hang. */ for (;;) { register int r; register char *p; /* actually do the read */ if (CurEnv->e_xfp != NULL) (void) fflush(CurEnv->e_xfp); /* for debugging */ /* if we are in the process of closing just give the code */ if (SmtpState == SMTP_CLOSED) return (SMTPCLOSING); /* get the line from the other side */ p = sfgets(SmtpReplyBuffer, sizeof SmtpReplyBuffer, SmtpIn); if (p == NULL) { extern char MsgBuf[]; /* err.c */ extern char Arpa_TSyserr[]; /* conf.c */ /* if the remote end closed early, fake an error */ if (errno == 0) # ifdef ECONNRESET errno = ECONNRESET; # else ECONNRESET errno = EPIPE; # endif ECONNRESET message(Arpa_TSyserr, "reply: read error"); # ifdef DEBUG /* if debugging, pause so we can see state */ if (tTd(18, 100)) pause(); # endif DEBUG # ifdef LOG syslog(LOG_ERR, "%s", &MsgBuf[4]); # endif LOG SmtpState = SMTP_CLOSED; smtpquit(m); return (-1); } fixcrlf(SmtpReplyBuffer, TRUE); if (CurEnv->e_xfp != NULL && index("45", SmtpReplyBuffer[0]) != NULL) { /* serious error -- log the previous command */ if (SmtpMsgBuffer[0] != '\0') fprintf(CurEnv->e_xfp, ">>> %s\n", SmtpMsgBuffer); SmtpMsgBuffer[0] = '\0'; /* now log the message as from the other side */ fprintf(CurEnv->e_xfp, "<<< %s\n", SmtpReplyBuffer); } /* display the input for verbose mode */ if (Verbose && !HoldErrs) nmessage(Arpa_Info, "%s", SmtpReplyBuffer); /* if continuation is required, we can go on */ if (SmtpReplyBuffer[3] == '-' || !isdigit(SmtpReplyBuffer[0])) continue; /* decode the reply code */ r = atoi(SmtpReplyBuffer); /* extra semantics: 0xx codes are "informational" */ if (r < 100) continue; /* reply code 421 is "Service Shutting Down" */ if (r == SMTPCLOSING && SmtpState != SMTP_SSD) { /* send the quit protocol */ SmtpState = SMTP_SSD; smtpquit(m); } /* save temporary failure messages for posterity */ if (SmtpReplyBuffer[0] == '4' && SmtpError[0] == '\0') (void) strcpy(SmtpError, &SmtpReplyBuffer[4]); return (r); } } /* ** SMTPMESSAGE -- send message to server ** ** Parameters: ** f -- format ** m -- the mailer to control formatting. ** a, b, c -- parameters ** ** Returns: ** none. ** ** Side Effects: ** writes message to SmtpOut. */ /*VARARGS1*/ smtpmessage(f, m, a, b, c) char *f; MAILER *m; { (void) sprintf(SmtpMsgBuffer, f, a, b, c); if (tTd(18, 1) || (Verbose && !HoldErrs)) nmessage(Arpa_Info, ">>> %s", SmtpMsgBuffer); if (SmtpOut != NULL) fprintf(SmtpOut, "%s%s", SmtpMsgBuffer, m->m_eol); } # endif SMTP