/* * Copyright (c) 1983 Eric P. Allman * Copyright (c) 1988, 1993 * The Regents of the University of California. All rights reserved. * * %sccs.include.redist.c% */ #include #include "sendmail.h" #ifndef lint #ifdef DAEMON static char sccsid[] = "@(#)daemon.c 8.39 (Berkeley) 03/13/94 (with daemon mode)"; #else static char sccsid[] = "@(#)daemon.c 8.39 (Berkeley) 03/13/94 (without daemon mode)"; #endif #endif /* not lint */ #ifdef DAEMON # include # include #if NAMED_BIND # include # include #endif /* ** DAEMON.C -- routines to use when running as a daemon. ** ** This entire file is highly dependent on the 4.2 BSD ** interprocess communication primitives. No attempt has ** been made to make this file portable to Version 7, ** Version 6, MPX files, etc. If you should try such a ** thing yourself, I recommend chucking the entire file ** and starting from scratch. Basic semantics are: ** ** getrequests() ** Opens a port and initiates a connection. ** Returns in a child. Must set InChannel and ** OutChannel appropriately. ** clrdaemon() ** Close any open files associated with getting ** the connection; this is used when running the queue, ** etc., to avoid having extra file descriptors during ** the queue run and to avoid confusing the network ** code (if it cares). ** makeconnection(host, port, outfile, infile, usesecureport) ** Make a connection to the named host on the given ** port. Set *outfile and *infile to the files ** appropriate for communication. Returns zero on ** success, else an exit status describing the ** error. ** host_map_lookup(map, hbuf, avp, pstat) ** Convert the entry in hbuf into a canonical form. */ /* ** GETREQUESTS -- open mail IPC port and get requests. ** ** Parameters: ** none. ** ** Returns: ** none. ** ** Side Effects: ** Waits until some interesting activity occurs. When ** it does, a child is created to process it, and the ** parent waits for completion. Return from this ** routine is always in the child. The file pointers ** "InChannel" and "OutChannel" should be set to point ** to the communication channel. */ int DaemonSocket = -1; /* fd describing socket */ SOCKADDR DaemonAddr; /* socket for incoming */ int ListenQueueSize = 10; /* size of listen queue */ int TcpRcvBufferSize = 0; /* size of TCP receive buffer */ int TcpSndBufferSize = 0; /* size of TCP send buffer */ getrequests() { int t; int on = 1; bool refusingconnections = TRUE; FILE *pidf; int socksize; extern void reapchild(); /* ** Set up the address for the mailer. */ if (DaemonAddr.sin.sin_family == 0) DaemonAddr.sin.sin_family = AF_INET; if (DaemonAddr.sin.sin_addr.s_addr == 0) DaemonAddr.sin.sin_addr.s_addr = INADDR_ANY; if (DaemonAddr.sin.sin_port == 0) { register struct servent *sp; sp = getservbyname("smtp", "tcp"); if (sp == NULL) { syserr("554 service \"smtp\" unknown"); DaemonAddr.sin.sin_port = htons(25); } else DaemonAddr.sin.sin_port = sp->s_port; } /* ** Try to actually open the connection. */ if (tTd(15, 1)) printf("getrequests: port 0x%x\n", DaemonAddr.sin.sin_port); /* get a socket for the SMTP connection */ DaemonSocket = socket(DaemonAddr.sa.sa_family, SOCK_STREAM, 0); if (DaemonSocket < 0) { /* probably another daemon already */ syserr("getrequests: can't create socket"); severe: # ifdef LOG if (LogLevel > 0) syslog(LOG_ALERT, "problem creating SMTP socket"); # endif /* LOG */ finis(); } /* turn on network debugging? */ if (tTd(15, 101)) (void) setsockopt(DaemonSocket, SOL_SOCKET, SO_DEBUG, (char *)&on, sizeof on); (void) setsockopt(DaemonSocket, SOL_SOCKET, SO_REUSEADDR, (char *)&on, sizeof on); (void) setsockopt(DaemonSocket, SOL_SOCKET, SO_KEEPALIVE, (char *)&on, sizeof on); #ifdef SO_RCVBUF if (TcpRcvBufferSize > 0) { if (setsockopt(DaemonSocket, SOL_SOCKET, SO_RCVBUF, (char *) &TcpRcvBufferSize, sizeof(TcpRcvBufferSize)) < 0) syserr("getrequests: setsockopt(SO_RCVBUF)"); } #endif switch (DaemonAddr.sa.sa_family) { # ifdef NETINET case AF_INET: socksize = sizeof DaemonAddr.sin; break; # endif # ifdef NETISO case AF_ISO: socksize = sizeof DaemonAddr.siso; break; # endif default: socksize = sizeof DaemonAddr; break; } if (bind(DaemonSocket, &DaemonAddr.sa, socksize) < 0) { syserr("getrequests: cannot bind"); (void) close(DaemonSocket); goto severe; } (void) setsignal(SIGCHLD, reapchild); /* write the pid to the log file for posterity */ pidf = fopen(PidFile, "w"); if (pidf != NULL) { extern char *CommandLineArgs; /* write the process id on line 1 */ fprintf(pidf, "%d\n", getpid()); /* line 2 contains all command line flags */ fprintf(pidf, "%s\n", CommandLineArgs); /* flush and close */ fclose(pidf); } if (tTd(15, 1)) printf("getrequests: %d\n", DaemonSocket); for (;;) { register int pid; auto int lotherend; extern bool refuseconnections(); /* see if we are rejecting connections */ CurrentLA = getla(); if (refuseconnections()) { if (!refusingconnections) { /* don't queue so peer will fail quickly */ (void) listen(DaemonSocket, 0); refusingconnections = TRUE; } setproctitle("rejecting connections: load average: %d", CurrentLA); sleep(5); continue; } if (refusingconnections) { /* start listening again */ if (listen(DaemonSocket, ListenQueueSize) < 0) { syserr("getrequests: cannot listen"); (void) close(DaemonSocket); goto severe; } setproctitle("accepting connections"); refusingconnections = FALSE; } /* wait for a connection */ do { errno = 0; lotherend = socksize; t = accept(DaemonSocket, (struct sockaddr *)&RealHostAddr, &lotherend); } while (t < 0 && errno == EINTR); if (t < 0) { syserr("getrequests: accept"); sleep(5); continue; } /* ** Create a subprocess to process the mail. */ if (tTd(15, 2)) printf("getrequests: forking (fd = %d)\n", t); pid = fork(); if (pid < 0) { syserr("daemon: cannot fork"); sleep(10); (void) close(t); continue; } if (pid == 0) { char *p; extern char *hostnamebyanyaddr(); /* ** CHILD -- return to caller. ** Collect verified idea of sending host. ** Verify calling user id if possible here. */ (void) setsignal(SIGCHLD, SIG_DFL); DisConnected = FALSE; setproctitle("startup with %s", anynet_ntoa(&RealHostAddr)); /* determine host name */ p = hostnamebyanyaddr(&RealHostAddr); RealHostName = newstr(p); setproctitle("startup with %s", p); #ifdef LOG if (LogLevel > 11) { /* log connection information */ syslog(LOG_INFO, "connect from %s (%s)", RealHostName, anynet_ntoa(&RealHostAddr)); } #endif (void) close(DaemonSocket); if ((InChannel = fdopen(t, "r")) == NULL || (t = dup(t)) < 0 || (OutChannel = fdopen(t, "w")) == NULL) { syserr("cannot open SMTP server channel, fd=%d", t); exit(0); } /* should we check for illegal connection here? XXX */ #ifdef XLA if (!xla_host_ok(RealHostName)) { message("421 Too many SMTP sessions for this host"); exit(0); } #endif if (tTd(15, 2)) printf("getreq: returning\n"); return; } /* close the port so that others will hang (for a while) */ (void) close(t); } /*NOTREACHED*/ } /* ** CLRDAEMON -- reset the daemon connection ** ** Parameters: ** none. ** ** Returns: ** none. ** ** Side Effects: ** releases any resources used by the passive daemon. */ clrdaemon() { if (DaemonSocket >= 0) (void) close(DaemonSocket); DaemonSocket = -1; } /* ** SETDAEMONOPTIONS -- set options for running the daemon ** ** Parameters: ** p -- the options line. ** ** Returns: ** none. */ setdaemonoptions(p) register char *p; { if (DaemonAddr.sa.sa_family == AF_UNSPEC) DaemonAddr.sa.sa_family = AF_INET; while (p != NULL) { register char *f; register char *v; while (isascii(*p) && isspace(*p)) p++; if (*p == '\0') break; f = p; p = strchr(p, ','); if (p != NULL) *p++ = '\0'; v = strchr(f, '='); if (v == NULL) continue; while (isascii(*++v) && isspace(*v)) continue; switch (*f) { case 'F': /* address family */ if (isascii(*v) && isdigit(*v)) DaemonAddr.sa.sa_family = atoi(v); #ifdef NETINET else if (strcasecmp(v, "inet") == 0) DaemonAddr.sa.sa_family = AF_INET; #endif #ifdef NETISO else if (strcasecmp(v, "iso") == 0) DaemonAddr.sa.sa_family = AF_ISO; #endif #ifdef NETNS else if (strcasecmp(v, "ns") == 0) DaemonAddr.sa.sa_family = AF_NS; #endif #ifdef NETX25 else if (strcasecmp(v, "x.25") == 0) DaemonAddr.sa.sa_family = AF_CCITT; #endif else syserr("554 Unknown address family %s in Family=option", v); break; case 'A': /* address */ switch (DaemonAddr.sa.sa_family) { #ifdef NETINET case AF_INET: if (isascii(*v) && isdigit(*v)) DaemonAddr.sin.sin_addr.s_addr = inet_network(v); else { register struct netent *np; np = getnetbyname(v); if (np == NULL) syserr("554 network \"%s\" unknown", v); else DaemonAddr.sin.sin_addr.s_addr = np->n_net; } break; #endif default: syserr("554 Address= option unsupported for family %d", DaemonAddr.sa.sa_family); break; } break; case 'P': /* port */ switch (DaemonAddr.sa.sa_family) { short port; #ifdef NETINET case AF_INET: if (isascii(*v) && isdigit(*v)) DaemonAddr.sin.sin_port = htons(atoi(v)); else { register struct servent *sp; sp = getservbyname(v, "tcp"); if (sp == NULL) syserr("554 service \"%s\" unknown", v); else DaemonAddr.sin.sin_port = sp->s_port; } break; #endif #ifdef NETISO case AF_ISO: /* assume two byte transport selector */ if (isascii(*v) && isdigit(*v)) port = htons(atoi(v)); else { register struct servent *sp; sp = getservbyname(v, "tcp"); if (sp == NULL) syserr("554 service \"%s\" unknown", v); else port = sp->s_port; } bcopy((char *) &port, TSEL(&DaemonAddr.siso), 2); break; #endif default: syserr("554 Port= option unsupported for family %d", DaemonAddr.sa.sa_family); break; } break; case 'L': /* listen queue size */ ListenQueueSize = atoi(v); break; case 'S': /* send buffer size */ TcpSndBufferSize = atoi(v); break; case 'R': /* receive buffer size */ TcpRcvBufferSize = atoi(v); break; } } } /* ** MAKECONNECTION -- make a connection to an SMTP socket on another machine. ** ** Parameters: ** host -- the name of the host. ** port -- the port number to connect to. ** mci -- a pointer to the mail connection information ** structure to be filled in. ** usesecureport -- if set, use a low numbered (reserved) ** port to provide some rudimentary authentication. ** ** Returns: ** An exit code telling whether the connection could be ** made and if not why not. ** ** Side Effects: ** none. */ SOCKADDR CurHostAddr; /* address of current host */ int makeconnection(host, port, mci, usesecureport) char *host; u_short port; register MCI *mci; bool usesecureport; { register int i, s; register struct hostent *hp = (struct hostent *)NULL; SOCKADDR addr; int sav_errno; int addrlen; #if NAMED_BIND extern int h_errno; #endif /* ** Set up the address for the mailer. ** Accept "[a.b.c.d]" syntax for host name. */ #if NAMED_BIND h_errno = 0; #endif errno = 0; bzero(&CurHostAddr, sizeof CurHostAddr); SmtpPhase = mci->mci_phase = "initial connection"; CurHostName = host; if (host[0] == '[') { long hid; register char *p = strchr(host, ']'); if (p != NULL) { *p = '\0'; #ifdef NETINET hid = inet_addr(&host[1]); if (hid == -1) #endif { /* try it as a host name (avoid MX lookup) */ hp = gethostbyname(&host[1]); if (hp == NULL && p[-1] == '.') { p[-1] = '\0'; hp = gethostbyname(&host[1]); p[-1] = '.'; } *p = ']'; goto gothostent; } *p = ']'; } if (p == NULL) { usrerr("553 Invalid numeric domain spec \"%s\"", host); return (EX_NOHOST); } #ifdef NETINET addr.sin.sin_family = AF_INET; /*XXX*/ addr.sin.sin_addr.s_addr = hid; #endif } else { register char *p = &host[strlen(host) - 1]; hp = gethostbyname(host); if (hp == NULL && *p == '.') { *p = '\0'; hp = gethostbyname(host); *p = '.'; } gothostent: if (hp == NULL) { #if NAMED_BIND if (errno == ETIMEDOUT || h_errno == TRY_AGAIN) return (EX_TEMPFAIL); /* if name server is specified, assume temp fail */ if (errno == ECONNREFUSED && UseNameServer) return (EX_TEMPFAIL); #endif return (EX_NOHOST); } addr.sa.sa_family = hp->h_addrtype; switch (hp->h_addrtype) { #ifdef NETINET case AF_INET: bcopy(hp->h_addr, &addr.sin.sin_addr, sizeof addr.sin.sin_addr); break; #endif default: bcopy(hp->h_addr, addr.sa.sa_data, hp->h_length); break; } i = 1; } /* ** Determine the port number. */ if (port != 0) port = htons(port); else { register struct servent *sp = getservbyname("smtp", "tcp"); if (sp == NULL) { syserr("554 makeconnection: service \"smtp\" unknown"); port = htons(25); } else port = sp->s_port; } switch (addr.sa.sa_family) { #ifdef NETINET case AF_INET: addr.sin.sin_port = port; addrlen = sizeof (struct sockaddr_in); break; #endif #ifdef NETISO case AF_ISO: /* assume two byte transport selector */ bcopy((char *) &port, TSEL((struct sockaddr_iso *) &addr), 2); addrlen = sizeof (struct sockaddr_iso); break; #endif default: syserr("Can't connect to address family %d", addr.sa.sa_family); return (EX_NOHOST); } /* ** Try to actually open the connection. */ #ifdef XLA /* if too many connections, don't bother trying */ if (!xla_noqueue_ok(host)) return EX_TEMPFAIL; #endif for (;;) { if (tTd(16, 1)) printf("makeconnection (%s [%s])\n", host, anynet_ntoa(&addr)); /* save for logging */ CurHostAddr = addr; if (usesecureport) { int rport = IPPORT_RESERVED - 1; s = rresvport(&rport); } else { s = socket(AF_INET, SOCK_STREAM, 0); } if (s < 0) { sav_errno = errno; syserr("makeconnection: no socket"); goto failure; } #ifdef SO_SNDBUF if (TcpSndBufferSize > 0) { if (setsockopt(s, SOL_SOCKET, SO_SNDBUF, (char *) &TcpSndBufferSize, sizeof(TcpSndBufferSize)) < 0) syserr("makeconnection: setsockopt(SO_SNDBUF)"); } #endif if (tTd(16, 1)) printf("makeconnection: fd=%d\n", s); /* turn on network debugging? */ if (tTd(16, 101)) { int on = 1; (void) setsockopt(DaemonSocket, SOL_SOCKET, SO_DEBUG, (char *)&on, sizeof on); } if (CurEnv->e_xfp != NULL) (void) fflush(CurEnv->e_xfp); /* for debugging */ errno = 0; /* for debugging */ if (connect(s, (struct sockaddr *) &addr, addrlen) >= 0) break; /* couldn't connect.... figure out why */ sav_errno = errno; (void) close(s); if (hp && hp->h_addr_list[i]) { if (tTd(16, 1)) printf("Connect failed (%s); trying new address....\n", errstring(sav_errno)); switch (addr.sa.sa_family) { #ifdef NETINET case AF_INET: bcopy(hp->h_addr_list[i++], &addr.sin.sin_addr, sizeof addr.sin.sin_addr); break; #endif default: bcopy(hp->h_addr_list[i++], addr.sa.sa_data, hp->h_length); break; } continue; } /* failure, decide if temporary or not */ failure: #ifdef XLA xla_host_end(host); #endif if (transienterror(sav_errno)) return EX_TEMPFAIL; else { message("%s", errstring(sav_errno)); return (EX_UNAVAILABLE); } } /* connection ok, put it into canonical form */ if ((mci->mci_out = fdopen(s, "w")) == NULL || (s = dup(s)) < 0 || (mci->mci_in = fdopen(s, "r")) == NULL) { syserr("cannot open SMTP client channel, fd=%d", s); return EX_TEMPFAIL; } return (EX_OK); } /* ** MYHOSTNAME -- return the name of this host. ** ** Parameters: ** hostbuf -- a place to return the name of this host. ** size -- the size of hostbuf. ** ** Returns: ** A list of aliases for this host. ** ** Side Effects: ** Adds numeric codes to $=w. */ char ** myhostname(hostbuf, size) char hostbuf[]; int size; { register struct hostent *hp; extern struct hostent *gethostbyname(); if (gethostname(hostbuf, size) < 0) { (void) strcpy(hostbuf, "localhost"); } hp = gethostbyname(hostbuf); if (hp != NULL) { (void) strncpy(hostbuf, hp->h_name, size - 1); hostbuf[size - 1] = '\0'; if (hp->h_addrtype == AF_INET && hp->h_length == 4) { register int i; for (i = 0; hp->h_addr_list[i] != NULL; i++) { char ipbuf[100]; sprintf(ipbuf, "[%s]", inet_ntoa(*((struct in_addr *) hp->h_addr_list[i]))); setclass('w', ipbuf); } } return (hp->h_aliases); } else return (NULL); } /* ** GETAUTHINFO -- get the real host name asociated with a file descriptor ** ** Uses RFC1413 protocol to try to get info from the other end. ** ** Parameters: ** fd -- the descriptor ** ** Returns: ** The user@host information associated with this descriptor. */ #if IDENTPROTO static jmp_buf CtxAuthTimeout; static authtimeout() { longjmp(CtxAuthTimeout, 1); } #endif char * getauthinfo(fd) int fd; { SOCKADDR fa; int falen; register char *p; #if IDENTPROTO SOCKADDR la; int lalen; register struct servent *sp; int s; int i; EVENT *ev; #endif static char hbuf[MAXNAME * 2 + 2]; extern char *hostnamebyanyaddr(); extern char RealUserName[]; /* main.c */ falen = sizeof fa; if (getpeername(fd, &fa.sa, &falen) < 0 || falen <= 0 || fa.sa.sa_family == 0) { (void) sprintf(hbuf, "%s@localhost", RealUserName); if (tTd(9, 1)) printf("getauthinfo: %s\n", hbuf); return hbuf; } #if IDENTPROTO if (TimeOuts.to_ident == 0) goto noident; lalen = sizeof la; if (fa.sa.sa_family != AF_INET || getsockname(fd, &la.sa, &lalen) < 0 || lalen <= 0 || la.sa.sa_family != AF_INET) { /* no ident info */ goto noident; } /* create ident query */ (void) sprintf(hbuf, "%d,%d\r\n", ntohs(fa.sin.sin_port), ntohs(la.sin.sin_port)); /* create local address */ la.sin.sin_port = 0; /* create foreign address */ sp = getservbyname("auth", "tcp"); if (sp != NULL) fa.sin.sin_port = sp->s_port; else fa.sin.sin_port = htons(113); s = -1; if (setjmp(CtxAuthTimeout) != 0) { if (s >= 0) (void) close(s); goto noident; } /* put a timeout around the whole thing */ ev = setevent(TimeOuts.to_ident, authtimeout, 0); /* connect to foreign IDENT server using same address as SMTP socket */ s = socket(AF_INET, SOCK_STREAM, 0); if (s < 0) { clrevent(ev); goto noident; } if (bind(s, &la.sa, sizeof la.sin) < 0 || connect(s, &fa.sa, sizeof fa.sin) < 0) { goto closeident; } if (tTd(9, 10)) printf("getauthinfo: sent %s", hbuf); /* send query */ if (write(s, hbuf, strlen(hbuf)) < 0) goto closeident; /* get result */ i = read(s, hbuf, sizeof hbuf); (void) close(s); clrevent(ev); if (i <= 0) goto noident; if (hbuf[--i] == '\n' && hbuf[--i] == '\r') i--; hbuf[++i] = '\0'; if (tTd(9, 3)) printf("getauthinfo: got %s\n", hbuf); /* parse result */ p = strchr(hbuf, ':'); if (p == NULL) { /* malformed response */ goto noident; } while (isascii(*++p) && isspace(*p)) continue; if (strncasecmp(p, "userid", 6) != 0) { /* presumably an error string */ goto noident; } p += 6; while (isascii(*p) && isspace(*p)) p++; if (*p++ != ':') { /* either useridxx or malformed response */ goto noident; } /* p now points to the OSTYPE field */ p = strchr(p, ':'); if (p == NULL) { /* malformed response */ goto noident; } /* 1413 says don't do this -- but it's broken otherwise */ while (isascii(*++p) && isspace(*p)) continue; /* p now points to the authenticated name */ (void) sprintf(hbuf, "%s@%s", p, RealHostName == NULL ? "localhost" : RealHostName); goto finish; closeident: (void) close(s); clrevent(ev); #endif /* IDENTPROTO */ noident: if (RealHostName == NULL) { if (tTd(9, 1)) printf("getauthinfo: NULL\n"); return NULL; } (void) strcpy(hbuf, RealHostName); finish: if (RealHostName != NULL && RealHostName[0] != '[') { p = &hbuf[strlen(hbuf)]; (void) sprintf(p, " [%s]", anynet_ntoa(&RealHostAddr)); } if (tTd(9, 1)) printf("getauthinfo: %s\n", hbuf); return hbuf; } /* ** HOST_MAP_LOOKUP -- turn a hostname into canonical form ** ** Parameters: ** map -- a pointer to this map (unused). ** name -- the (presumably unqualified) hostname. ** av -- unused -- for compatibility with other mapping ** functions. ** statp -- an exit status (out parameter) -- set to ** EX_TEMPFAIL if the name server is unavailable. ** ** Returns: ** The mapping, if found. ** NULL if no mapping found. ** ** Side Effects: ** Looks up the host specified in hbuf. If it is not ** the canonical name for that host, return the canonical ** name. */ char * host_map_lookup(map, name, av, statp) MAP *map; char *name; char **av; int *statp; { register struct hostent *hp; u_long in_addr; char *cp; int i; register STAB *s; char hbuf[MAXNAME]; extern struct hostent *gethostbyaddr(); #if NAMED_BIND extern int h_errno; #endif /* ** See if we have already looked up this name. If so, just ** return it. */ s = stab(name, ST_NAMECANON, ST_ENTER); if (bitset(NCF_VALID, s->s_namecanon.nc_flags)) { if (tTd(9, 1)) printf("host_map_lookup(%s) => CACHE %s\n", name, s->s_namecanon.nc_cname); errno = s->s_namecanon.nc_errno; #if NAMED_BIND h_errno = s->s_namecanon.nc_herrno; #endif *statp = s->s_namecanon.nc_stat; if (CurEnv->e_message == NULL && *statp == EX_TEMPFAIL) { sprintf(hbuf, "%s: Name server timeout", shortenstring(name, 33)); CurEnv->e_message = newstr(hbuf); } return s->s_namecanon.nc_cname; } /* ** If first character is a bracket, then it is an address ** lookup. Address is copied into a temporary buffer to ** strip the brackets and to preserve name if address is ** unknown. */ if (*name != '[') { extern bool getcanonname(); if (tTd(9, 1)) printf("host_map_lookup(%s) => ", name); s->s_namecanon.nc_flags |= NCF_VALID; /* will be soon */ (void) strcpy(hbuf, name); if (getcanonname(hbuf, sizeof hbuf - 1, TRUE)) { if (tTd(9, 1)) printf("%s\n", hbuf); cp = map_rewrite(map, hbuf, strlen(hbuf), av); s->s_namecanon.nc_cname = newstr(cp); return cp; } else { register struct hostent *hp; s->s_namecanon.nc_errno = errno; #if NAMED_BIND s->s_namecanon.nc_herrno = h_errno; if (tTd(9, 1)) printf("FAIL (%d)\n", h_errno); switch (h_errno) { case TRY_AGAIN: if (UseNameServer) { sprintf(hbuf, "%s: Name server timeout", shortenstring(name, 33)); message("%s", hbuf); if (CurEnv->e_message == NULL) CurEnv->e_message = newstr(hbuf); } *statp = EX_TEMPFAIL; break; case HOST_NOT_FOUND: *statp = EX_NOHOST; break; case NO_RECOVERY: *statp = EX_SOFTWARE; break; default: *statp = EX_UNAVAILABLE; break; } #else if (tTd(9, 1)) printf("FAIL\n"); *statp = EX_NOHOST; #endif s->s_namecanon.nc_stat = *statp; if (*statp != EX_TEMPFAIL || UseNameServer) return NULL; /* ** Try to look it up in /etc/hosts */ hp = gethostbyname(name); if (hp == NULL) { /* no dice there either */ s->s_namecanon.nc_stat = *statp = EX_NOHOST; return NULL; } s->s_namecanon.nc_stat = *statp = EX_OK; cp = map_rewrite(map, hp->h_name, strlen(hp->h_name), av); s->s_namecanon.nc_cname = newstr(cp); return cp; } } if ((cp = strchr(name, ']')) == NULL) return (NULL); *cp = '\0'; in_addr = inet_addr(&name[1]); /* nope -- ask the name server */ hp = gethostbyaddr((char *)&in_addr, sizeof(struct in_addr), AF_INET); s->s_namecanon.nc_errno = errno; #if NAMED_BIND s->s_namecanon.nc_herrno = h_errno; #endif s->s_namecanon.nc_flags |= NCF_VALID; /* will be soon */ if (hp == NULL) { s->s_namecanon.nc_stat = *statp = EX_NOHOST; return (NULL); } /* found a match -- copy out */ cp = map_rewrite(map, hp->h_name, strlen(hp->h_name), av); s->s_namecanon.nc_stat = *statp = EX_OK; s->s_namecanon.nc_cname = newstr(cp); return cp; } /* ** ANYNET_NTOA -- convert a network address to printable form. ** ** Parameters: ** sap -- a pointer to a sockaddr structure. ** ** Returns: ** A printable version of that sockaddr. */ char * anynet_ntoa(sap) register SOCKADDR *sap; { register char *bp; register char *ap; int l; static char buf[100]; /* check for null/zero family */ if (sap == NULL) return "NULLADDR"; if (sap->sa.sa_family == 0) return "0"; switch (sap->sa.sa_family) { #ifdef MAYBENEXTRELEASE /*** UNTESTED *** UNTESTED *** UNTESTED ***/ #ifdef NETUNIX case AF_UNIX: if (sap->sunix.sun_path[0] != '\0') sprintf(buf, "[UNIX: %.64s]", sap->sunix.sun_path); else sprintf(buf, "[UNIX: localhost]"); return buf; #endif #endif #ifdef NETINET case AF_INET: return inet_ntoa(((struct sockaddr_in *) sap)->sin_addr); #endif default: /* this case is only to ensure syntactic correctness */ break; } /* unknown family -- just dump bytes */ (void) sprintf(buf, "Family %d: ", sap->sa.sa_family); bp = &buf[strlen(buf)]; ap = sap->sa.sa_data; for (l = sizeof sap->sa.sa_data; --l >= 0; ) { (void) sprintf(bp, "%02x:", *ap++ & 0377); bp += 3; } *--bp = '\0'; return buf; } /* ** HOSTNAMEBYANYADDR -- return name of host based on address ** ** Parameters: ** sap -- SOCKADDR pointer ** ** Returns: ** text representation of host name. ** ** Side Effects: ** none. */ char * hostnamebyanyaddr(sap) register SOCKADDR *sap; { register struct hostent *hp; int saveretry; #if NAMED_BIND /* shorten name server timeout to avoid higher level timeouts */ saveretry = _res.retry; _res.retry = 3; #endif /* NAMED_BIND */ switch (sap->sa.sa_family) { #ifdef NETINET case AF_INET: hp = gethostbyaddr((char *) &sap->sin.sin_addr, sizeof sap->sin.sin_addr, AF_INET); break; #endif #ifdef NETISO case AF_ISO: hp = gethostbyaddr((char *) &sap->siso.siso_addr, sizeof sap->siso.siso_addr, AF_ISO); break; #endif #ifdef MAYBENEXTRELEASE /*** UNTESTED *** UNTESTED *** UNTESTED ***/ case AF_UNIX: hp = NULL; break; #endif default: hp = gethostbyaddr(sap->sa.sa_data, sizeof sap->sa.sa_data, sap->sa.sa_family); break; } #if NAMED_BIND _res.retry = saveretry; #endif /* NAMED_BIND */ if (hp != NULL) return hp->h_name; else { /* produce a dotted quad */ static char buf[512]; (void) sprintf(buf, "[%s]", anynet_ntoa(sap)); return buf; } } # else /* DAEMON */ /* code for systems without sophisticated networking */ /* ** MYHOSTNAME -- stub version for case of no daemon code. ** ** Can't convert to upper case here because might be a UUCP name. ** ** Mark, you can change this to be anything you want...... */ char ** myhostname(hostbuf, size) char hostbuf[]; int size; { register FILE *f; hostbuf[0] = '\0'; f = fopen("/usr/include/whoami", "r"); if (f != NULL) { (void) fgets(hostbuf, size, f); fixcrlf(hostbuf, TRUE); (void) fclose(f); } return (NULL); } /* ** GETAUTHINFO -- get the real host name asociated with a file descriptor ** ** Parameters: ** fd -- the descriptor ** ** Returns: ** The host name associated with this descriptor, if it can ** be determined. ** NULL otherwise. ** ** Side Effects: ** none */ char * getauthinfo(fd) int fd; { return NULL; } /* ** MAPHOSTNAME -- turn a hostname into canonical form ** ** Parameters: ** map -- a pointer to the database map. ** name -- a buffer containing a hostname. ** avp -- a pointer to a (cf file defined) argument vector. ** statp -- an exit status (out parameter). ** ** Returns: ** mapped host name ** FALSE otherwise. ** ** Side Effects: ** Looks up the host specified in name. If it is not ** the canonical name for that host, replace it with ** the canonical name. If the name is unknown, or it ** is already the canonical name, leave it unchanged. */ /*ARGSUSED*/ char * host_map_lookup(map, name, avp, statp) MAP *map; char *name; char **avp; char *statp; { register struct hostent *hp; hp = gethostbyname(name); if (hp != NULL) return hp->h_name; *statp = EX_NOHOST; return NULL; } #endif /* DAEMON */