/* * Copyright (c) 1983, 1995-1997 Eric P. Allman * Copyright (c) 1988, 1993 * The Regents of the University of California. All rights reserved. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions * are met: * 1. Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * 2. Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in the * documentation and/or other materials provided with the distribution. * 3. All advertising materials mentioning features or use of this software * must display the following acknowledgement: * This product includes software developed by the University of * California, Berkeley and its contributors. * 4. Neither the name of the University nor the names of its contributors * may be used to endorse or promote products derived from this software * without specific prior written permission. * * THIS SOFTWARE IS PROVIDED BY THE REGENTS AND CONTRIBUTORS ``AS IS'' AND * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE * ARE DISCLAIMED. IN NO EVENT SHALL THE REGENTS OR CONTRIBUTORS BE LIABLE * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS * OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF * SUCH DAMAGE. */ #ifndef lint static char sccsid[] = "@(#)conf.c 8.379 (Berkeley) 10/20/97"; #endif /* not lint */ # include "sendmail.h" # include "pathnames.h" # include # include /* ** CONF.C -- Sendmail Configuration Tables. ** ** Defines the configuration of this installation. ** ** Configuration Variables: ** HdrInfo -- a table describing well-known header fields. ** Each entry has the field name and some flags, ** which are described in sendmail.h. ** ** Notes: ** I have tried to put almost all the reasonable ** configuration information into the configuration ** file read at runtime. My intent is that anything ** here is a function of the version of UNIX you ** are running, or is really static -- for example ** the headers are a superset of widely used ** protocols. If you find yourself playing with ** this file too much, you may be making a mistake! */ /* ** Header info table ** Final (null) entry contains the flags used for any other field. ** ** Not all of these are actually handled specially by sendmail ** at this time. They are included as placeholders, to let ** you know that "someday" I intend to have sendmail do ** something with them. */ struct hdrinfo HdrInfo[] = { /* originator fields, most to least significant */ { "resent-sender", H_FROM|H_RESENT }, { "resent-from", H_FROM|H_RESENT }, { "resent-reply-to", H_FROM|H_RESENT }, { "sender", H_FROM }, { "from", H_FROM }, { "reply-to", H_FROM }, { "errors-to", H_FROM|H_ERRORSTO }, { "full-name", H_ACHECK }, { "return-receipt-to", H_RECEIPTTO }, /* destination fields */ { "to", H_RCPT }, { "resent-to", H_RCPT|H_RESENT }, { "cc", H_RCPT }, { "resent-cc", H_RCPT|H_RESENT }, { "bcc", H_RCPT|H_BCC }, { "resent-bcc", H_RCPT|H_BCC|H_RESENT }, { "apparently-to", H_RCPT }, /* message identification and control */ { "message-id", 0 }, { "resent-message-id", H_RESENT }, { "message", H_EOH }, { "text", H_EOH }, /* date fields */ { "date", 0 }, { "resent-date", H_RESENT }, /* trace fields */ { "received", H_TRACE|H_FORCE }, { "x400-received", H_TRACE|H_FORCE }, { "via", H_TRACE|H_FORCE }, { "mail-from", H_TRACE|H_FORCE }, /* miscellaneous fields */ { "comments", H_FORCE|H_ENCODABLE }, { "return-path", H_FORCE|H_ACHECK }, { "content-transfer-encoding", H_CTE }, { "content-type", H_CTYPE }, { "content-length", H_ACHECK }, { "subject", H_ENCODABLE }, { NULL, 0 } }; /* ** Privacy values */ struct prival PrivacyValues[] = { { "public", PRIV_PUBLIC }, { "needmailhelo", PRIV_NEEDMAILHELO }, { "needexpnhelo", PRIV_NEEDEXPNHELO }, { "needvrfyhelo", PRIV_NEEDVRFYHELO }, { "noexpn", PRIV_NOEXPN }, { "novrfy", PRIV_NOVRFY }, { "restrictmailq", PRIV_RESTRICTMAILQ }, { "restrictqrun", PRIV_RESTRICTQRUN }, #if _FFR_PRIVACY_NOETRN { "noetrn", PRIV_NOETRN }, #endif { "authwarnings", PRIV_AUTHWARNINGS }, { "noreceipts", PRIV_NORECEIPTS }, { "goaway", PRIV_GOAWAY }, { NULL, 0 } }; /* ** Miscellaneous stuff. */ int DtableSize = 50; /* max open files; reset in 4.2bsd */ /* ** SETDEFAULTS -- set default values ** ** Because of the way freezing is done, these must be initialized ** using direct code. ** ** Parameters: ** e -- the default envelope. ** ** Returns: ** none. ** ** Side Effects: ** Initializes a bunch of global variables to their ** default values. */ #define MINUTES * 60 #define HOURS * 60 MINUTES #define DAYS * 24 HOURS #ifndef _PATH_VARTMP # define _PATH_VARTMP "/usr/tmp/" #endif #ifndef MAXRULERECURSION # define MAXRULERECURSION 50 /* max ruleset recursion depth */ #endif void setdefaults(e) register ENVELOPE *e; { int i; char buf[MAXNAME]; extern void inittimeouts(); extern void setdefuser(); extern void setupmaps(); extern void setupmailers(); extern void setupheaders(); SpaceSub = ' '; /* option B */ QueueLA = 8; /* option x */ RefuseLA = 12; /* option X */ WkRecipFact = 30000L; /* option y */ WkClassFact = 1800L; /* option z */ WkTimeFact = 90000L; /* option Z */ QueueFactor = WkRecipFact * 20; /* option q */ FileMode = (RealUid != geteuid()) ? 0644 : 0600; /* option F */ DefUid = 1; /* option u */ DefGid = 1; /* option g */ CheckpointInterval = 10; /* option C */ MaxHopCount = 25; /* option h */ e->e_sendmode = SM_FORK; /* option d */ e->e_errormode = EM_PRINT; /* option e */ SevenBitInput = FALSE; /* option 7 */ MaxMciCache = 1; /* option k */ MciCacheTimeout = 5 MINUTES; /* option K */ LogLevel = 9; /* option L */ inittimeouts(NULL); /* option r */ PrivacyFlags = 0; /* option p */ #if MIME8TO7 MimeMode = MM_CVTMIME|MM_PASS8BIT; /* option 8 */ #else MimeMode = MM_PASS8BIT; #endif for (i = 0; i < MAXTOCLASS; i++) { TimeOuts.to_q_return[i] = 5 DAYS; /* option T */ TimeOuts.to_q_warning[i] = 0; /* option T */ } ServiceSwitchFile = "/etc/service.switch"; ServiceCacheMaxAge = (time_t) 10; HostsFile = _PATH_HOSTS; PidFile = newstr(_PATH_SENDMAILPID); MustQuoteChars = "@,;:\\()[].'"; MciInfoTimeout = 30 MINUTES; MaxRuleRecursion = MAXRULERECURSION; MaxAliasRecursion = 10; MaxMacroRecursion = 10; ColonOkInAddr = TRUE; DontLockReadFiles = TRUE; DoubleBounceAddr = "postmaster"; snprintf(buf, sizeof buf, "%s%sdead.letter", _PATH_VARTMP, _PATH_VARTMP[sizeof _PATH_VARTMP - 2] == '/' ? "" : "/"); DeadLetterDrop = newstr(buf); setdefuser(); setupmaps(); setupmailers(); setupheaders(); } /* ** SETDEFUSER -- set/reset DefUser using DefUid (for initgroups()) */ void setdefuser() { struct passwd *defpwent; static char defuserbuf[40]; DefUser = defuserbuf; defpwent = sm_getpwuid(DefUid); snprintf(defuserbuf, sizeof defuserbuf, "%s", defpwent == NULL ? "nobody" : defpwent->pw_name); } /* ** SETUPMAILERS -- initialize default mailers */ void setupmailers() { char buf[100]; extern void makemailer(); strcpy(buf, "prog, P=/bin/sh, F=lsoDq9, T=DNS/RFC822/X-Unix, A=sh -c \201u"); makemailer(buf); strcpy(buf, "*file*, P=[FILE], F=lsDFMPEouq9, T=DNS/RFC822/X-Unix, A=FILE \201u"); makemailer(buf); strcpy(buf, "*include*, P=/dev/null, F=su, A=INCLUDE \201u"); makemailer(buf); } /* ** SETUPMAPS -- set up map classes */ #define MAPDEF(name, ext, flags, parse, open, close, lookup, store) \ { \ extern bool parse __P((MAP *, char *)); \ extern bool open __P((MAP *, int)); \ extern void close __P((MAP *)); \ extern char *lookup __P((MAP *, char *, char **, int *)); \ extern void store __P((MAP *, char *, char *)); \ s = stab(name, ST_MAPCLASS, ST_ENTER); \ s->s_mapclass.map_cname = name; \ s->s_mapclass.map_ext = ext; \ s->s_mapclass.map_cflags = flags; \ s->s_mapclass.map_parse = parse; \ s->s_mapclass.map_open = open; \ s->s_mapclass.map_close = close; \ s->s_mapclass.map_lookup = lookup; \ s->s_mapclass.map_store = store; \ } void setupmaps() { register STAB *s; #ifdef NEWDB MAPDEF("hash", ".db", MCF_ALIASOK|MCF_REBUILDABLE, map_parseargs, hash_map_open, db_map_close, db_map_lookup, db_map_store); MAPDEF("btree", ".db", MCF_ALIASOK|MCF_REBUILDABLE, map_parseargs, bt_map_open, db_map_close, db_map_lookup, db_map_store); #endif #ifdef NDBM MAPDEF("dbm", ".dir", MCF_ALIASOK|MCF_REBUILDABLE, map_parseargs, ndbm_map_open, ndbm_map_close, ndbm_map_lookup, ndbm_map_store); #endif #ifdef NIS MAPDEF("nis", NULL, MCF_ALIASOK, map_parseargs, nis_map_open, null_map_close, nis_map_lookup, null_map_store); #endif #ifdef NISPLUS MAPDEF("nisplus", NULL, MCF_ALIASOK, map_parseargs, nisplus_map_open, null_map_close, nisplus_map_lookup, null_map_store); #endif #ifdef LDAPMAP MAPDEF("ldapx", NULL, 0, ldap_map_parseargs, ldap_map_open, ldap_map_close, ldap_map_lookup, null_map_store); #endif #ifdef HESIOD MAPDEF("hesiod", NULL, MCF_ALIASOK|MCF_ALIASONLY, map_parseargs, hes_map_open, null_map_close, hes_map_lookup, null_map_store); #endif #if NETINFO MAPDEF("netinfo", NULL, MCF_ALIASOK, map_parseargs, ni_map_open, null_map_close, ni_map_lookup, null_map_store); #endif #if 0 MAPDEF("dns", NULL, 0, dns_map_init, null_map_open, null_map_close, dns_map_lookup, null_map_store); #endif #if NAMED_BIND /* best MX DNS lookup */ MAPDEF("bestmx", NULL, MCF_OPTFILE, map_parseargs, null_map_open, null_map_close, bestmx_map_lookup, null_map_store); #endif MAPDEF("host", NULL, 0, host_map_init, null_map_open, null_map_close, host_map_lookup, null_map_store); MAPDEF("text", NULL, MCF_ALIASOK, map_parseargs, text_map_open, null_map_close, text_map_lookup, null_map_store); MAPDEF("stab", NULL, MCF_ALIASOK|MCF_ALIASONLY, map_parseargs, stab_map_open, null_map_close, stab_map_lookup, stab_map_store); MAPDEF("implicit", NULL, MCF_ALIASOK|MCF_ALIASONLY|MCF_REBUILDABLE, map_parseargs, impl_map_open, impl_map_close, impl_map_lookup, impl_map_store); /* access to system passwd file */ MAPDEF("user", NULL, MCF_OPTFILE, map_parseargs, user_map_open, null_map_close, user_map_lookup, null_map_store); /* dequote map */ MAPDEF("dequote", NULL, 0, dequote_init, null_map_open, null_map_close, dequote_map, null_map_store); #if USERDB /* user database */ MAPDEF("userdb", ".db", 0, map_parseargs, null_map_open, null_map_close, udb_map_lookup, null_map_store); #endif /* arbitrary programs */ MAPDEF("program", NULL, MCF_ALIASOK, map_parseargs, null_map_open, null_map_close, prog_map_lookup, null_map_store); /* sequenced maps */ MAPDEF("sequence", NULL, MCF_ALIASOK, seq_map_parse, null_map_open, null_map_close, seq_map_lookup, seq_map_store); /* switched interface to sequenced maps */ MAPDEF("switch", NULL, MCF_ALIASOK, map_parseargs, switch_map_open, null_map_close, seq_map_lookup, seq_map_store); /* null map lookup -- really for internal use only */ MAPDEF("null", NULL, MCF_ALIASOK|MCF_OPTFILE, map_parseargs, null_map_open, null_map_close, null_map_lookup, null_map_store); #if _FFR_SYSLOG_MAP /* syslog map -- logs information to syslog */ MAPDEF("syslog", NULL, 0, syslog_map_parseargs, null_map_open, null_map_close, syslog_map_lookup, null_map_store); #endif } #undef MAPDEF /* ** INITHOSTMAPS -- initial host-dependent maps ** ** This should act as an interface to any local service switch ** provided by the host operating system. ** ** Parameters: ** none ** ** Returns: ** none ** ** Side Effects: ** Should define maps "host" and "users" as necessary ** for this OS. If they are not defined, they will get ** a default value later. It should check to make sure ** they are not defined first, since it's possible that ** the config file has provided an override. */ void inithostmaps() { register int i; int nmaps; char *maptype[MAXMAPSTACK]; short mapreturn[MAXMAPACTIONS]; char buf[MAXLINE]; /* ** Set up default hosts maps. */ #if 0 nmaps = switch_map_find("hosts", maptype, mapreturn); for (i = 0; i < nmaps; i++) { if (strcmp(maptype[i], "files") == 0 && stab("hosts.files", ST_MAP, ST_FIND) == NULL) { strcpy(buf, "hosts.files text -k 0 -v 1 /etc/hosts"); (void) makemapentry(buf); } #if NAMED_BIND else if (strcmp(maptype[i], "dns") == 0 && stab("hosts.dns", ST_MAP, ST_FIND) == NULL) { strcpy(buf, "hosts.dns dns A"); (void) makemapentry(buf); } #endif #ifdef NISPLUS else if (strcmp(maptype[i], "nisplus") == 0 && stab("hosts.nisplus", ST_MAP, ST_FIND) == NULL) { strcpy(buf, "hosts.nisplus nisplus -k name -v address -d hosts.org_dir"); (void) makemapentry(buf); } #endif #ifdef NIS else if (strcmp(maptype[i], "nis") == 0 && stab("hosts.nis", ST_MAP, ST_FIND) == NULL) { strcpy(buf, "hosts.nis nis -d -k 0 -v 1 hosts.byname"); (void) makemapentry(buf); } #endif #if NETINFO else if (strcmp(maptype[i], "netinfo") == 0) && stab("hosts.netinfo", ST_MAP, ST_FIND) == NULL) { strcpy(buf, "hosts.netinfo netinfo -v name /machines"); (void) makemapentry(buf); } #endif } #endif /* ** Make sure we have a host map. */ if (stab("host", ST_MAP, ST_FIND) == NULL) { /* user didn't initialize: set up host map */ strcpy(buf, "host host"); #if NAMED_BIND if (ConfigLevel >= 2) strcat(buf, " -a."); #endif (void) makemapentry(buf); } /* ** Set up default aliases maps */ nmaps = switch_map_find("aliases", maptype, mapreturn); for (i = 0; i < nmaps; i++) { if (strcmp(maptype[i], "files") == 0 && stab("aliases.files", ST_MAP, ST_FIND) == NULL) { strcpy(buf, "aliases.files null"); (void) makemapentry(buf); } #ifdef NISPLUS else if (strcmp(maptype[i], "nisplus") == 0 && stab("aliases.nisplus", ST_MAP, ST_FIND) == NULL) { strcpy(buf, "aliases.nisplus nisplus -kalias -vexpansion -d mail_aliases.org_dir"); (void) makemapentry(buf); } #endif #ifdef NIS else if (strcmp(maptype[i], "nis") == 0 && stab("aliases.nis", ST_MAP, ST_FIND) == NULL) { strcpy(buf, "aliases.nis nis -d mail.aliases"); (void) makemapentry(buf); } #endif #ifdef NETINFO else if (strcmp(maptype[i], "netinfo") == 0 && stab("aliases.netinfo", ST_MAP, ST_FIND) == NULL) { strcpy(buf, "aliases.netinfo netinfo -z, /aliases"); (void) makemapentry(buf); } #endif #ifdef HESIOD else if (strcmp(maptype[i], "hesiod") == 0 && stab("aliases.hesiod", ST_MAP, ST_FIND) == NULL) { strcpy(buf, "aliases.hesiod hesiod aliases"); (void) makemapentry(buf); } #endif } if (stab("aliases", ST_MAP, ST_FIND) == NULL) { strcpy(buf, "aliases switch aliases"); (void) makemapentry(buf); } #if 0 /* "user" map class is a better choice */ /* ** Set up default users maps. */ nmaps = switch_map_find("passwd", maptype, mapreturn); for (i = 0; i < nmaps; i++) { if (strcmp(maptype[i], "files") == 0 && stab("users.files", ST_MAP, ST_FIND) == NULL) { strcpy(buf, "users.files text -m -z: -k0 -v6 /etc/passwd"); (void) makemapentry(buf); } #ifdef NISPLUS else if (strcmp(maptype[i], "nisplus") == 0 && stab("users.nisplus", ST_MAP, ST_FIND) == NULL) { strcpy(buf, "users.nisplus nisplus -m -kname -vhome -d passwd.org_dir"); (void) makemapentry(buf); } #endif #ifdef NIS else if (strcmp(maptype[i], "nis") == 0 && stab("users.nis", ST_MAP, ST_FIND) == NULL) { strcpy(buf, "users.nis nis -m -d passwd.byname"); (void) makemapentry(buf); } #endif #ifdef HESIOD else if (strcmp(maptype[i], "hesiod") == 0) && stab("users.hesiod", ST_MAP, ST_FIND) == NULL) { strcpy(buf, "users.hesiod hesiod"); (void) makemapentry(buf); } #endif } if (stab("users", ST_MAP, ST_FIND) == NULL) { strcpy(buf, "users switch -m passwd"); (void) makemapentry(buf); } #endif } /* ** SWITCH_MAP_FIND -- find the list of types associated with a map ** ** This is the system-dependent interface to the service switch. ** ** Parameters: ** service -- the name of the service of interest. ** maptype -- an out-array of strings containing the types ** of access to use for this service. There can ** be at most MAXMAPSTACK types for a single service. ** mapreturn -- an out-array of return information bitmaps ** for the map. ** ** Returns: ** The number of map types filled in, or -1 for failure. */ #if defined(SOLARIS) || (defined(sony_news) && defined(__svr4)) # define _USE_SUN_NSSWITCH_ #endif #ifdef _USE_SUN_NSSWITCH_ # include #endif #if defined(ultrix) || (defined(__osf__) && defined(__alpha)) # define _USE_DEC_SVC_CONF_ #endif #ifdef _USE_DEC_SVC_CONF_ # include #endif int switch_map_find(service, maptype, mapreturn) char *service; char *maptype[MAXMAPSTACK]; short mapreturn[MAXMAPACTIONS]; { int svcno; #ifdef _USE_SUN_NSSWITCH_ struct __nsw_switchconfig *nsw_conf; enum __nsw_parse_err pserr; struct __nsw_lookup *lk; static struct __nsw_lookup lkp0 = { "files", {1, 0, 0, 0}, NULL, NULL }; static struct __nsw_switchconfig lkp_default = { 0, "sendmail", 3, &lkp0 }; for (svcno = 0; svcno < MAXMAPACTIONS; svcno++) mapreturn[svcno] = 0; if ((nsw_conf = __nsw_getconfig(service, &pserr)) == NULL) lk = lkp_default.lookups; else lk = nsw_conf->lookups; svcno = 0; while (lk != NULL) { maptype[svcno] = lk->service_name; if (lk->actions[__NSW_NOTFOUND] == __NSW_RETURN) mapreturn[MA_NOTFOUND] |= 1 << svcno; if (lk->actions[__NSW_TRYAGAIN] == __NSW_RETURN) mapreturn[MA_TRYAGAIN] |= 1 << svcno; if (lk->actions[__NSW_UNAVAIL] == __NSW_RETURN) mapreturn[MA_TRYAGAIN] |= 1 << svcno; svcno++; lk = lk->next; } return svcno; #endif #ifdef _USE_DEC_SVC_CONF_ struct svcinfo *svcinfo; int svc; for (svcno = 0; svcno < MAXMAPACTIONS; svcno++) mapreturn[svcno] = 0; svcinfo = getsvc(); if (svcinfo == NULL) goto punt; if (strcmp(service, "hosts") == 0) svc = SVC_HOSTS; else if (strcmp(service, "aliases") == 0) svc = SVC_ALIASES; else if (strcmp(service, "passwd") == 0) svc = SVC_PASSWD; else return -1; for (svcno = 0; svcno < SVC_PATHSIZE; svcno++) { switch (svcinfo->svcpath[svc][svcno]) { case SVC_LOCAL: maptype[svcno] = "files"; break; case SVC_YP: maptype[svcno] = "nis"; break; case SVC_BIND: maptype[svcno] = "dns"; break; #ifdef SVC_HESIOD case SVC_HESIOD: maptype[svcno] = "hesiod"; break; #endif case SVC_LAST: return svcno; } } return svcno; #endif #if !defined(_USE_SUN_NSSWITCH_) && !defined(_USE_DEC_SVC_CONF_) /* ** Fall-back mechanism. */ STAB *st; time_t now = curtime(); for (svcno = 0; svcno < MAXMAPACTIONS; svcno++) mapreturn[svcno] = 0; if ((now - ServiceCacheTime) > (time_t) ServiceCacheMaxAge) { /* (re)read service switch */ register FILE *fp; if (ConfigFileRead) ServiceCacheTime = now; fp = fopen(ServiceSwitchFile, "r"); if (fp != NULL) { char buf[MAXLINE]; while (fgets(buf, sizeof buf, fp) != NULL) { register char *p; p = strpbrk(buf, "#\n"); if (p != NULL) *p = '\0'; p = strpbrk(buf, " \t"); if (p != NULL) *p++ = '\0'; if (buf[0] == '\0') continue; while (isspace(*p)) p++; if (*p == '\0') continue; /* ** Find/allocate space for this service entry. ** Space for all of the service strings ** are allocated at once. This means ** that we only have to free the first ** one to free all of them. */ st = stab(buf, ST_SERVICE, ST_ENTER); if (st->s_service[0] != NULL) free((void *) st->s_service[0]); p = newstr(p); for (svcno = 0; svcno < MAXMAPSTACK; ) { if (*p == '\0') break; st->s_service[svcno++] = p; p = strpbrk(p, " \t"); if (p == NULL) break; *p++ = '\0'; while (isspace(*p)) p++; } if (svcno < MAXMAPSTACK) st->s_service[svcno] = NULL; } fclose(fp); } } /* look up entry in cache */ st = stab(service, ST_SERVICE, ST_FIND); if (st != NULL && st->s_service[0] != NULL) { /* extract data */ svcno = 0; while (svcno < MAXMAPSTACK) { maptype[svcno] = st->s_service[svcno]; if (maptype[svcno++] == NULL) break; } return --svcno; } #endif /* if the service file doesn't work, use an absolute fallback */ punt: for (svcno = 0; svcno < MAXMAPACTIONS; svcno++) mapreturn[svcno] = 0; svcno = 0; if (strcmp(service, "aliases") == 0) { maptype[svcno++] = "files"; #ifdef AUTO_NIS_ALIASES # ifdef NISPLUS maptype[svcno++] = "nisplus"; # endif # ifdef NIS maptype[svcno++] = "nis"; # endif #endif return svcno; } if (strcmp(service, "hosts") == 0) { # if NAMED_BIND maptype[svcno++] = "dns"; # else # if defined(sun) && !defined(BSD) && !defined(_USE_SUN_NSSWITCH_) /* SunOS */ maptype[svcno++] = "nis"; # endif # endif maptype[svcno++] = "files"; return svcno; } return -1; } /* ** USERNAME -- return the user id of the logged in user. ** ** Parameters: ** none. ** ** Returns: ** The login name of the logged in user. ** ** Side Effects: ** none. ** ** Notes: ** The return value is statically allocated. */ char * username() { static char *myname = NULL; extern char *getlogin(); register struct passwd *pw; /* cache the result */ if (myname == NULL) { myname = getlogin(); if (myname == NULL || myname[0] == '\0') { pw = sm_getpwuid(RealUid); if (pw != NULL) myname = newstr(pw->pw_name); } else { uid_t uid = RealUid; myname = newstr(myname); if ((pw = sm_getpwnam(myname)) == NULL || (uid != 0 && uid != pw->pw_uid)) { pw = sm_getpwuid(uid); if (pw != NULL) myname = newstr(pw->pw_name); } } if (myname == NULL || myname[0] == '\0') { syserr("554 Who are you?"); myname = "postmaster"; } } return (myname); } /* ** TTYPATH -- Get the path of the user's tty ** ** Returns the pathname of the user's tty. Returns NULL if ** the user is not logged in or if s/he has write permission ** denied. ** ** Parameters: ** none ** ** Returns: ** pathname of the user's tty. ** NULL if not logged in or write permission denied. ** ** Side Effects: ** none. ** ** WARNING: ** Return value is in a local buffer. ** ** Called By: ** savemail */ char * ttypath() { struct stat stbuf; register char *pathn; extern char *ttyname(); extern char *getlogin(); /* compute the pathname of the controlling tty */ if ((pathn = ttyname(2)) == NULL && (pathn = ttyname(1)) == NULL && (pathn = ttyname(0)) == NULL) { errno = 0; return (NULL); } /* see if we have write permission */ if (stat(pathn, &stbuf) < 0 || !bitset(02, stbuf.st_mode)) { errno = 0; return (NULL); } /* see if the user is logged in */ if (getlogin() == NULL) return (NULL); /* looks good */ return (pathn); } /* ** CHECKCOMPAT -- check for From and To person compatible. ** ** This routine can be supplied on a per-installation basis ** to determine whether a person is allowed to send a message. ** This allows restriction of certain types of internet ** forwarding or registration of users. ** ** If the hosts are found to be incompatible, an error ** message should be given using "usrerr" and an EX_ code ** should be returned. You can also set to->q_status to ** a DSN-style status code. ** ** EF_NO_BODY_RETN can be set in e->e_flags to suppress the ** body during the return-to-sender function; this should be done ** on huge messages. This bit may already be set by the ESMTP ** protocol. ** ** Parameters: ** to -- the person being sent to. ** ** Returns: ** an exit status ** ** Side Effects: ** none (unless you include the usrerr stuff) */ int checkcompat(to, e) register ADDRESS *to; register ENVELOPE *e; { # ifdef lint if (to == NULL) to++; # endif /* lint */ if (tTd(49, 1)) printf("checkcompat(to=%s, from=%s)\n", to->q_paddr, e->e_from.q_paddr); # ifdef EXAMPLE_CODE /* this code is intended as an example only */ register STAB *s; s = stab("arpa", ST_MAILER, ST_FIND); if (s != NULL && strcmp(e->e_from.q_mailer->m_name, "local") != 0 && to->q_mailer == s->s_mailer) { usrerr("553 No ARPA mail through this machine: see your system administration"); /* e->e_flags |= EF_NO_BODY_RETN; to supress body on return */ to->q_status = "5.7.1"; return (EX_UNAVAILABLE); } # endif /* EXAMPLE_CODE */ return (EX_OK); } /* ** SETSIGNAL -- set a signal handler ** ** This is essentially old BSD "signal(3)". */ sigfunc_t setsignal(sig, handler) int sig; sigfunc_t handler; { #if defined(SYS5SIGNALS) || defined(BSD4_3) # ifdef BSD4_3 return signal(sig, handler); # else return sigset(sig, handler); # endif #else struct sigaction n, o; bzero(&n, sizeof n); # if USE_SA_SIGACTION n.sa_sigaction = (void(*)(int, siginfo_t *, void *)) handler; n.sa_flags = SA_RESTART|SA_SIGINFO; # else n.sa_handler = handler; # ifdef SA_RESTART n.sa_flags = SA_RESTART; # endif # endif if (sigaction(sig, &n, &o) < 0) return SIG_ERR; return o.sa_handler; #endif } /* ** BLOCKSIGNAL -- hold a signal to prevent delivery ** ** Parameters: ** sig -- the signal to block. ** ** Returns: ** 1 signal was previously blocked ** 0 signal was not previously blocked ** -1 on failure. */ int blocksignal(sig) int sig; { #ifdef BSD4_3 # ifndef sigmask # define sigmask(s) (1 << ((s) - 1)) # endif return (sigblock(sigmask(sig)) & sigmask(sig)) != 0; #else # ifdef ALTOS_SYSTEM_V sigfunc_t handler; handler = sigset(sig, SIG_HOLD); if (handler == SIG_ERR) return -1; else return handler == SIG_HOLD; # else sigset_t sset, oset; sigemptyset(&sset); sigaddset(&sset, sig); if (sigprocmask(SIG_BLOCK, &sset, &oset) < 0) return -1; else return sigismember(&oset, sig); # endif #endif } /* ** RELEASESIGNAL -- release a held signal ** ** Parameters: ** sig -- the signal to release. ** ** Returns: ** 1 signal was previously blocked ** 0 signal was not previously blocked ** -1 on failure. */ int releasesignal(sig) int sig; { #ifdef BSD4_3 return (sigsetmask(sigblock(0) & ~sigmask(sig)) & sigmask(sig)) != 0; #else # ifdef ALTOS_SYSTEM_V sigfunc_t handler; handler = sigset(sig, SIG_HOLD); if (sigrelse(sig) < 0) return -1; else return handler == SIG_HOLD; # else sigset_t sset, oset; sigemptyset(&sset); sigaddset(&sset, sig); if (sigprocmask(SIG_UNBLOCK, &sset, &oset) < 0) return -1; else return sigismember(&oset, sig); # endif #endif } /* ** HOLDSIGS -- arrange to hold all signals ** ** Parameters: ** none. ** ** Returns: ** none. ** ** Side Effects: ** Arranges that signals are held. */ void holdsigs() { } /* ** RLSESIGS -- arrange to release all signals ** ** This undoes the effect of holdsigs. ** ** Parameters: ** none. ** ** Returns: ** none. ** ** Side Effects: ** Arranges that signals are released. */ void rlsesigs() { } /* ** INIT_MD -- do machine dependent initializations ** ** Systems that have global modes that should be set should do ** them here rather than in main. */ #ifdef _AUX_SOURCE # include #endif #if SHARE_V1 # include #endif void init_md(argc, argv) int argc; char **argv; { #ifdef _AUX_SOURCE setcompat(getcompat() | COMPAT_BSDPROT); #endif #ifdef SUN_EXTENSIONS init_md_sun(); #endif #if _CONVEX_SOURCE /* keep gethostby*() from stripping the local domain name */ set_domain_trim_off(); #endif #if SECUREWARE || defined(_SCO_unix_) set_auth_parameters(argc, argv); # ifdef _SCO_unix_ /* ** This is required for highest security levels (the kernel ** won't let it call set*uid() or run setuid binaries without ** it). It may be necessary on other SECUREWARE systems. */ if (getluid() == -1) setluid(0); # endif #endif #ifdef VENDOR_DEFAULT VendorCode = VENDOR_DEFAULT; #else VendorCode = VENDOR_BERKELEY; #endif } /* ** INIT_VENDOR_MACROS -- vendor-dependent macro initializations ** ** Called once, on startup. ** ** Parameters: ** e -- the global envelope. ** ** Returns: ** none. ** ** Side Effects: ** vendor-dependent. */ void init_vendor_macros(e) register ENVELOPE *e; { } /* ** GETLA -- get the current load average ** ** This code stolen from la.c. ** ** Parameters: ** none. ** ** Returns: ** The current load average as an integer. ** ** Side Effects: ** none. */ /* try to guess what style of load average we have */ #define LA_ZERO 1 /* always return load average as zero */ #define LA_INT 2 /* read kmem for avenrun; interpret as long */ #define LA_FLOAT 3 /* read kmem for avenrun; interpret as float */ #define LA_SUBR 4 /* call getloadavg */ #define LA_MACH 5 /* MACH load averages (as on NeXT boxes) */ #define LA_SHORT 6 /* read kmem for avenrun; interpret as short */ #define LA_PROCSTR 7 /* read string ("1.17") from /proc/loadavg */ #define LA_READKSYM 8 /* SVR4: use MIOC_READKSYM ioctl call */ #define LA_DGUX 9 /* special DGUX implementation */ #define LA_HPUX 10 /* special HPUX implementation */ #define LA_IRIX6 11 /* special IRIX 6.2 implementation */ #define LA_KSTAT 12 /* special Solaris kstat(3k) implementation */ #define LA_DEVSHORT 13 /* read short from a device */ #define LA_ALPHAOSF 14 /* Digital UNIX (OSF/1 on Alpha) table() call */ /* do guesses based on general OS type */ #ifndef LA_TYPE # define LA_TYPE LA_ZERO #endif #ifndef FSHIFT # if defined(unixpc) # define FSHIFT 5 # endif # if defined(__alpha) || defined(IRIX) # define FSHIFT 10 # endif #endif #ifndef FSHIFT # define FSHIFT 8 #endif #ifndef FSCALE # define FSCALE (1 << FSHIFT) #endif #ifndef LA_AVENRUN # ifdef SYSTEM5 # define LA_AVENRUN "avenrun" # else # define LA_AVENRUN "_avenrun" # endif #endif /* _PATH_KMEM should be defined in */ #ifndef _PATH_KMEM # define _PATH_KMEM "/dev/kmem" #endif #if (LA_TYPE == LA_INT) || (LA_TYPE == LA_FLOAT) || (LA_TYPE == LA_SHORT) #include #ifdef IRIX64 # define nlist nlist64 #endif /* _PATH_UNIX should be defined in */ #ifndef _PATH_UNIX # if defined(SYSTEM5) # define _PATH_UNIX "/unix" # else # define _PATH_UNIX "/vmunix" # endif #endif #ifdef _AUX_SOURCE struct nlist Nl[2]; #else struct nlist Nl[] = { { LA_AVENRUN }, { 0 }, }; #endif #define X_AVENRUN 0 int getla() { static int kmem = -1; #if LA_TYPE == LA_INT long avenrun[3]; #else # if LA_TYPE == LA_SHORT short avenrun[3]; # else double avenrun[3]; # endif #endif extern int errno; extern off_t lseek(); if (kmem < 0) { #ifdef _AUX_SOURCE strcpy(Nl[X_AVENRUN].n_name, LA_AVENRUN); Nl[1].n_name[0] = '\0'; #endif #if defined(_AIX3) || defined(_AIX4) if (knlist(Nl, 1, sizeof Nl[0]) < 0) #else if (nlist(_PATH_UNIX, Nl) < 0) #endif { if (tTd(3, 1)) printf("getla: nlist(%s): %s\n", _PATH_UNIX, errstring(errno)); return (-1); } if (Nl[X_AVENRUN].n_value == 0) { if (tTd(3, 1)) printf("getla: nlist(%s, %s) ==> 0\n", _PATH_UNIX, LA_AVENRUN); return (-1); } #ifdef NAMELISTMASK Nl[X_AVENRUN].n_value &= NAMELISTMASK; #endif kmem = open(_PATH_KMEM, 0, 0); if (kmem < 0) { if (tTd(3, 1)) printf("getla: open(/dev/kmem): %s\n", errstring(errno)); return (-1); } (void) fcntl(kmem, F_SETFD, 1); } if (tTd(3, 20)) printf("getla: symbol address = %#lx\n", (u_long) Nl[X_AVENRUN].n_value); if (lseek(kmem, (off_t) Nl[X_AVENRUN].n_value, SEEK_SET) == -1 || read(kmem, (char *) avenrun, sizeof(avenrun)) < sizeof(avenrun)) { /* thank you Ian */ if (tTd(3, 1)) printf("getla: lseek or read: %s\n", errstring(errno)); return (-1); } # if (LA_TYPE == LA_INT) || (LA_TYPE == LA_SHORT) if (tTd(3, 5)) { # if LA_TYPE == LA_SHORT printf("getla: avenrun = %d", avenrun[0]); if (tTd(3, 15)) printf(", %d, %d", avenrun[1], avenrun[2]); # else printf("getla: avenrun = %ld", avenrun[0]); if (tTd(3, 15)) printf(", %ld, %ld", avenrun[1], avenrun[2]); # endif printf("\n"); } if (tTd(3, 1)) printf("getla: %d\n", (int) (avenrun[0] + FSCALE/2) >> FSHIFT); return ((int) (avenrun[0] + FSCALE/2) >> FSHIFT); # else /* LA_TYPE == LA_FLOAT */ if (tTd(3, 5)) { printf("getla: avenrun = %g", avenrun[0]); if (tTd(3, 15)) printf(", %g, %g", avenrun[1], avenrun[2]); printf("\n"); } if (tTd(3, 1)) printf("getla: %d\n", (int) (avenrun[0] +0.5)); return ((int) (avenrun[0] + 0.5)); # endif } #endif /* LA_TYPE == LA_INT or LA_SHORT or LA_FLOAT */ #if LA_TYPE == LA_READKSYM # include getla() { static int kmem = -1; long avenrun[3]; extern int errno; struct mioc_rksym mirk; if (kmem < 0) { kmem = open("/dev/kmem", 0, 0); if (kmem < 0) { if (tTd(3, 1)) printf("getla: open(/dev/kmem): %s\n", errstring(errno)); return (-1); } (void) fcntl(kmem, F_SETFD, 1); } mirk.mirk_symname = LA_AVENRUN; mirk.mirk_buf = avenrun; mirk.mirk_buflen = sizeof(avenrun); if (ioctl(kmem, MIOC_READKSYM, &mirk) < 0) { if (tTd(3, 1)) printf("getla: ioctl(MIOC_READKSYM) failed: %s\n", errstring(errno)); return -1; } if (tTd(3, 5)) { printf("getla: avenrun = %d", avenrun[0]); if (tTd(3, 15)) printf(", %d, %d", avenrun[1], avenrun[2]); printf("\n"); } if (tTd(3, 1)) printf("getla: %d\n", (int) (avenrun[0] + FSCALE/2) >> FSHIFT); return ((int) (avenrun[0] + FSCALE/2) >> FSHIFT); } #endif /* LA_TYPE == LA_READKSYM */ #if LA_TYPE == LA_DGUX # include int getla() { struct dg_sys_info_load_info load_info; dg_sys_info((long *)&load_info, DG_SYS_INFO_LOAD_INFO_TYPE, DG_SYS_INFO_LOAD_VERSION_0); if (tTd(3, 1)) printf("getla: %d\n", (int) (load_info.one_minute + 0.5)); return((int) (load_info.one_minute + 0.5)); } #endif /* LA_TYPE == LA_DGUX */ #if LA_TYPE == LA_HPUX /* forward declarations to keep gcc from complaining */ struct pst_dynamic; struct pst_status; struct pst_static; struct pst_vminfo; struct pst_diskinfo; struct pst_processor; struct pst_lv; struct pst_swapinfo; # include # include int getla() { struct pst_dynamic pstd; if (pstat_getdynamic(&pstd, sizeof(struct pst_dynamic), (size_t) 1, 0) == -1) return 0; if (tTd(3, 1)) printf("getla: %d\n", (int) (pstd.psd_avg_1_min + 0.5)); return (int) (pstd.psd_avg_1_min + 0.5); } #endif /* LA_TYPE == LA_HPUX */ #if LA_TYPE == LA_SUBR int getla() { double avenrun[3]; if (getloadavg(avenrun, sizeof(avenrun) / sizeof(avenrun[0])) < 0) { if (tTd(3, 1)) perror("getla: getloadavg failed:"); return (-1); } if (tTd(3, 1)) printf("getla: %d\n", (int) (avenrun[0] +0.5)); return ((int) (avenrun[0] + 0.5)); } #endif /* LA_TYPE == LA_SUBR */ #if LA_TYPE == LA_MACH /* ** This has been tested on NEXTSTEP release 2.1/3.X. */ #if defined(NX_CURRENT_COMPILER_RELEASE) && NX_CURRENT_COMPILER_RELEASE > NX_COMPILER_RELEASE_3_0 # include #else # include #endif int getla() { processor_set_t default_set; kern_return_t error; unsigned int info_count; struct processor_set_basic_info info; host_t host; error = processor_set_default(host_self(), &default_set); if (error != KERN_SUCCESS) { if (tTd(3, 1)) perror("getla: processor_set_default failed:"); return -1; } info_count = PROCESSOR_SET_BASIC_INFO_COUNT; if (processor_set_info(default_set, PROCESSOR_SET_BASIC_INFO, &host, (processor_set_info_t)&info, &info_count) != KERN_SUCCESS) { if (tTd(3, 1)) perror("getla: processor_set_info failed:"); return -1; } if (tTd(3, 1)) printf("getla: %d\n", (int) (info.load_average + (LOAD_SCALE / 2)) / LOAD_SCALE); return (int) (info.load_average + (LOAD_SCALE / 2)) / LOAD_SCALE; } #endif /* LA_TYPE == LA_MACH */ #if LA_TYPE == LA_PROCSTR /* ** Read /proc/loadavg for the load average. This is assumed to be ** in a format like "0.15 0.12 0.06". ** ** Initially intended for Linux. This has been in the kernel ** since at least 0.99.15. */ # ifndef _PATH_LOADAVG # define _PATH_LOADAVG "/proc/loadavg" # endif int getla() { double avenrun; register int result; FILE *fp; fp = fopen(_PATH_LOADAVG, "r"); if (fp == NULL) { if (tTd(3, 1)) printf("getla: fopen(%s): %s\n", _PATH_LOADAVG, errstring(errno)); return -1; } result = fscanf(fp, "%lf", &avenrun); fclose(fp); if (result != 1) { if (tTd(3, 1)) printf("getla: fscanf() = %d: %s\n", result, errstring(errno)); return -1; } if (tTd(3, 1)) printf("getla(): %.2f\n", avenrun); return ((int) (avenrun + 0.5)); } #endif /* LA_TYPE == LA_PROCSTR */ #if LA_TYPE == LA_IRIX6 #include #include #include #define X_AVENRUN 0 struct nlist Nl32[] = { { LA_AVENRUN }, { 0 }, }; struct nlist64 Nl64[] = { { LA_AVENRUN }, { 0 }, }; int getla(void) { static int kmem = -1; static enum { getla_none, getla_32, getla_64 } kernel_type = getla_none; uint32_t avenrun[3]; if (kernel_type == getla_none) { /* Try 32 bit kernel ... */ errno = 0; if (nlist(_PATH_UNIX, Nl32) == 0) { if (tTd(3, 20)) printf("getla: Kernel is 32bit\n"); if (Nl32[X_AVENRUN].n_value == 0) { if (tTd(3, 1)) printf("getla: nlist(%s, %s) ==> 0\n", _PATH_UNIX, LA_AVENRUN); } else kernel_type = getla_32; } else if (errno != 0) { if (tTd(3, 1)) printf("getla: nlist(%s): %s\n", _PATH_UNIX, errstring(errno)); } else { if (tTd(3, 20)) printf("getla: Kernel is not 32bit\n"); } /* Try 64 bit kernel ... */ errno = 0; if (nlist64(_PATH_UNIX, Nl64) == 0) { if (tTd(3, 20)) printf("getla: Kernel is 64bit\n"); if (Nl64[X_AVENRUN].n_value == 0) { if (tTd(3, 1)) printf("getla: nlist(%s, %s) ==> 0\n", _PATH_UNIX, LA_AVENRUN); } else kernel_type = getla_64; } else if (errno != 0) { if (tTd(3, 1)) printf("getla: nlist64(%s): %s\n", _PATH_UNIX, errstring(errno)); } else { if (tTd(3, 20)) printf("getla: Kernel is not 64bit\n"); } } if (kernel_type == getla_none) { if (tTd(3, 1)) printf("getla: Failed to determine kernel type\n"); return -1; } if (kmem < 0) { kmem = open(_PATH_KMEM, 0, 0); if (kmem < 0) { if (tTd(3, 1)) printf("getla: open(/dev/kmem): %s\n", errstring(errno)); return -1; } (void) fcntl(kmem, F_SETFD, 1); } switch (kernel_type) { case getla_none: return -1; case getla_32: if (lseek(kmem, (off_t) Nl32[X_AVENRUN].n_value, SEEK_SET) == -1 || read(kmem, (char *) avenrun, sizeof(avenrun)) < sizeof(avenrun)) { if (tTd(3, 1)) printf("getla: lseek or read: %s\n", errstring(errno)); return -1; } break; case getla_64: /* Using of lseek64 is perhaps overkill ... */ if (lseek64(kmem, (off64_t) Nl64[X_AVENRUN].n_value, SEEK_SET) == -1 || read(kmem, (char *) avenrun, sizeof(avenrun)) < sizeof(avenrun)) { if (tTd(3, 1)) printf("getla: lseek64 or read: %s\n", errstring(errno)); return -1; } break; } if (tTd(3, 5)) { printf("getla: avenrun = %ld", (long int) avenrun[0]); if (tTd(3, 15)) printf(", %ld, %ld", (long int)avenrun[1], (long int)avenrun[2]); printf("\n"); } if (tTd(3, 1)) printf("getla: %d\n", (int) (avenrun[0] + FSCALE/2) >> FSHIFT); return ((int) (avenrun[0] + FSCALE/2) >> FSHIFT); } #endif #if LA_TYPE == LA_KSTAT #include int getla() { static kstat_ctl_t *kc = NULL; static kstat_t *ksp = NULL; kstat_named_t *ksn; int la; if (kc == NULL) /* if not initialized before */ kc = kstat_open(); if (kc == NULL) { if (tTd(3, 1)) printf("getla: kstat_open(): %s\n", errstring(errno)); return -1; } if (ksp == NULL) ksp = kstat_lookup(kc, "unix", 0, "system_misc"); if (ksp == NULL) { if (tTd(3, 1)) printf("getla: kstat_lookup(): %s\n", errstring(errno)); return -1; } if (kstat_read(kc, ksp, NULL) < 0) { if (tTd(3, 1)) printf("getla: kstat_read(): %s\n", errstring(errno)); return -1; } ksn = (kstat_named_t *) kstat_data_lookup(ksp, "avenrun_1min"); la = ((double)ksn->value.ul + FSCALE/2) / FSCALE; /* kstat_close(kc); /o do not close for fast access */ return la; } #endif /* LA_TYPE == LA_KSTAT */ #if LA_TYPE == LA_DEVSHORT /* ** Read /dev/table/avenrun for the load average. This should contain ** three shorts for the 1, 5, and 15 minute loads. We only read the ** first, since that's all we care about. ** ** Intended for SCO OpenServer 5. */ # ifndef _PATH_AVENRUN # define _PATH_AVENRUN "/dev/table/avenrun" # endif int getla() { static int afd = -1; short avenrun; int loadav; int r; errno = EBADF; if (afd == -1 || lseek(afd, 0L, SEEK_SET) == -1) { if (errno != EBADF) return -1; afd = open(_PATH_AVENRUN, O_RDONLY|O_SYNC); if (afd < 0) { sm_syslog(LOG_ERR, NOQID, "can't open %s: %m", _PATH_AVENRUN); return -1; } } r = read(afd, &avenrun, sizeof avenrun); if (tTd(3, 5)) printf("getla: avenrun = %d\n", avenrun); loadav = (int) (avenrun + FSCALE/2) >> FSHIFT; if (tTd(3, 1)) printf("getla: %d\n", loadav); return loadav; } #endif /* LA_TYPE == LA_DEVSHORT */ #if LA_TYPE == LA_ALPHAOSF # include int getla() { int ave = 0; struct tbl_loadavg tab; if (table(TBL_LOADAVG, 0, &tab, 1, sizeof(tab)) == -1) { if (tTd(3, 1)) printf("getla: table %s\n", errstring(errno)); return (-1); } if (tTd(3, 1)) printf("getla: scale = %d\n", tab.tl_lscale); if (tab.tl_lscale) ave = (tab.tl_avenrun.l[0] + (tab.tl_lscale/2)) / tab.tl_lscale; else ave = (int) (tab.tl_avenrun.d[0] + 0.5); if (tTd(3, 1)) printf("getla: %d\n", ave); return ave; } #endif #if LA_TYPE == LA_ZERO int getla() { if (tTd(3, 1)) printf("getla: ZERO\n"); return (0); } #endif /* LA_TYPE == LA_ZERO */ /* * Copyright 1989 Massachusetts Institute of Technology * * Permission to use, copy, modify, distribute, and sell this software and its * documentation for any purpose is hereby granted without fee, provided that * the above copyright notice appear in all copies and that both that * copyright notice and this permission notice appear in supporting * documentation, and that the name of M.I.T. not be used in advertising or * publicity pertaining to distribution of the software without specific, * written prior permission. M.I.T. makes no representations about the * suitability of this software for any purpose. It is provided "as is" * without express or implied warranty. * * M.I.T. DISCLAIMS ALL WARRANTIES WITH REGARD TO THIS SOFTWARE, INCLUDING ALL * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS, IN NO EVENT SHALL M.I.T. * BE LIABLE FOR ANY SPECIAL, INDIRECT OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES * WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS, WHETHER IN AN ACTION * OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION, ARISING OUT OF OR IN * CONNECTION WITH THE USE OR PERFORMANCE OF THIS SOFTWARE. * * Authors: Many and varied... */ /* Non Apollo stuff removed by Don Lewis 11/15/93 */ #ifdef apollo # undef volatile # include /* ARGSUSED */ int getloadavg( call_data ) caddr_t call_data; /* pointer to (double) return value */ { double *avenrun = (double *) call_data; int i; status_$t st; long loadav[3]; proc1_$get_loadav(loadav, &st); *avenrun = loadav[0] / (double) (1 << 16); return(0); } # endif /* apollo */ /* ** SHOULDQUEUE -- should this message be queued or sent? ** ** Compares the message cost to the load average to decide. ** ** Parameters: ** pri -- the priority of the message in question. ** ctime -- the message creation time. ** ** Returns: ** TRUE -- if this message should be queued up for the ** time being. ** FALSE -- if the load is low enough to send this message. ** ** Side Effects: ** none. */ extern int get_num_procs_online __P((void)); bool shouldqueue(pri, ctime) long pri; time_t ctime; { bool rval; int queuela = QueueLA * get_num_procs_online(); if (tTd(3, 30)) printf("shouldqueue: CurrentLA=%d, pri=%ld: ", CurrentLA, pri); if (CurrentLA < queuela) { if (tTd(3, 30)) printf("FALSE (CurrentLA < QueueLA)\n"); return (FALSE); } #if 0 /* this code is reported to cause oscillation around RefuseLA */ if (CurrentLA >= RefuseLA && QueueLA < RefuseLA) { if (tTd(3, 30)) printf("TRUE (CurrentLA >= RefuseLA)\n"); return (TRUE); } #endif rval = pri > (QueueFactor / (CurrentLA - queuela + 1)); if (tTd(3, 30)) printf("%s (by calculation)\n", rval ? "TRUE" : "FALSE"); return rval; } /* ** REFUSECONNECTIONS -- decide if connections should be refused ** ** Parameters: ** port -- port number (for error messages only) ** ** Returns: ** TRUE if incoming SMTP connections should be refused ** (for now). ** FALSE if we should accept new work. ** ** Side Effects: ** Sets process title when it is rejecting connections. */ bool refuseconnections(port) int port; { int refusela = RefuseLA * get_num_procs_online(); time_t now; static time_t lastconn = (time_t) 0; static int conncnt = 0; extern bool enoughdiskspace(); #ifdef XLA if (!xla_smtp_ok()) return TRUE; #endif now = curtime(); if (now != lastconn) { lastconn = now; conncnt = 0; } else if (conncnt++ > ConnRateThrottle && ConnRateThrottle > 0) { /* sleep to flatten out connection load */ setproctitle("deferring connections on port %d: %d per second", port, ConnRateThrottle); if (LogLevel >= 14) sm_syslog(LOG_INFO, NOQID, "deferring connections on port %d: %d per second", port, ConnRateThrottle); sleep(1); } CurrentLA = getla(); if (CurrentLA >= refusela) { setproctitle("rejecting connections on port %d: load average: %d", port, CurrentLA); if (LogLevel >= 14) sm_syslog(LOG_INFO, NOQID, "rejecting connections on port %d: load average: %d", port, CurrentLA); return TRUE; } if (!enoughdiskspace(MinBlocksFree + 1)) { setproctitle("rejecting connections on port %d: min free: %d", port, MinBlocksFree); if (LogLevel >= 14) sm_syslog(LOG_INFO, NOQID, "rejecting connections on port %d: min free: %d", port, MinBlocksFree); return TRUE; } if (MaxChildren > 0 && CurChildren >= MaxChildren) { extern void proc_list_probe __P((void)); proc_list_probe(); if (CurChildren >= MaxChildren) { setproctitle("rejecting connections on port %d: %d children, max %d", port, CurChildren, MaxChildren); if (LogLevel >= 14) sm_syslog(LOG_INFO, NOQID, "rejecting connections on port %d: %d children, max %d", port, CurChildren, MaxChildren); return TRUE; } } return FALSE; } /* ** SETPROCTITLE -- set process title for ps ** ** Parameters: ** fmt -- a printf style format string. ** a, b, c -- possible parameters to fmt. ** ** Returns: ** none. ** ** Side Effects: ** Clobbers argv of our main procedure so ps(1) will ** display the title. */ #define SPT_NONE 0 /* don't use it at all */ #define SPT_REUSEARGV 1 /* cover argv with title information */ #define SPT_BUILTIN 2 /* use libc builtin */ #define SPT_PSTAT 3 /* use pstat(PSTAT_SETCMD, ...) */ #define SPT_PSSTRINGS 4 /* use PS_STRINGS->... */ #define SPT_SYSMIPS 5 /* use sysmips() supported by NEWS-OS 6 */ #define SPT_SCO 6 /* write kernel u. area */ #define SPT_CHANGEARGV 7 /* write our own strings into argv[] */ #ifndef SPT_TYPE # define SPT_TYPE SPT_REUSEARGV #endif #if SPT_TYPE != SPT_NONE && SPT_TYPE != SPT_BUILTIN # if SPT_TYPE == SPT_PSTAT # include # endif # if SPT_TYPE == SPT_PSSTRINGS # include # include # ifndef PS_STRINGS /* hmmmm.... apparently not available after all */ # undef SPT_TYPE # define SPT_TYPE SPT_REUSEARGV # else # ifndef NKPDE /* FreeBSD 2.0 */ # define NKPDE 63 typedef unsigned int *pt_entry_t; # endif # endif # endif # if SPT_TYPE == SPT_PSSTRINGS || SPT_TYPE == SPT_CHANGEARGV # define SETPROC_STATIC static # else # define SETPROC_STATIC # endif # if SPT_TYPE == SPT_SYSMIPS # include # include # endif # if SPT_TYPE == SPT_SCO # include # include # include # include # if PSARGSZ > MAXLINE # define SPT_BUFSIZE PSARGSZ # endif # endif # ifndef SPT_PADCHAR # define SPT_PADCHAR ' ' # endif # ifndef SPT_BUFSIZE # define SPT_BUFSIZE MAXLINE # endif #endif /* SPT_TYPE != SPT_NONE && SPT_TYPE != SPT_BUILTIN */ /* ** Pointers for setproctitle. ** This allows "ps" listings to give more useful information. */ char **Argv = NULL; /* pointer to argument vector */ char *LastArgv = NULL; /* end of argv */ void initsetproctitle(argc, argv, envp) int argc; char **argv; char **envp; { register int i, envpsize = 0; extern char **environ; /* ** Move the environment so setproctitle can use the space at ** the top of memory. */ for (i = 0; envp[i] != NULL; i++) envpsize += strlen(envp[i]) + 1; environ = (char **) xalloc(sizeof (char *) * (i + 1)); for (i = 0; envp[i] != NULL; i++) environ[i] = newstr(envp[i]); environ[i] = NULL; /* ** Save start and extent of argv for setproctitle. */ Argv = argv; /* ** Find the last environment variable within sendmail's ** process memory area. */ while (i > 0 && (envp[i - 1] < argv[0] || envp[i - 1] > (argv[argc - 1] + strlen(argv[argc - 1]) + 1 + envpsize))) i--; if (i > 0) LastArgv = envp[i - 1] + strlen(envp[i - 1]); else LastArgv = argv[argc - 1] + strlen(argv[argc - 1]); } #if SPT_TYPE != SPT_BUILTIN /*VARARGS1*/ void # ifdef __STDC__ setproctitle(const char *fmt, ...) # else setproctitle(fmt, va_alist) const char *fmt; va_dcl # endif { # if SPT_TYPE != SPT_NONE register char *p; register int i; SETPROC_STATIC char buf[SPT_BUFSIZE]; VA_LOCAL_DECL # if SPT_TYPE == SPT_PSTAT union pstun pst; # endif # if SPT_TYPE == SPT_SCO off_t seek_off; static int kmem = -1; static int kmempid = -1; struct user u; # endif p = buf; /* print sendmail: heading for grep */ (void) strcpy(p, "sendmail: "); p += strlen(p); /* print the argument string */ VA_START(fmt); (void) vsnprintf(p, SPACELEFT(buf, p), fmt, ap); VA_END; i = strlen(buf); # if SPT_TYPE == SPT_PSTAT pst.pst_command = buf; pstat(PSTAT_SETCMD, pst, i, 0, 0); # endif # if SPT_TYPE == SPT_PSSTRINGS PS_STRINGS->ps_nargvstr = 1; PS_STRINGS->ps_argvstr = buf; # endif # if SPT_TYPE == SPT_SYSMIPS sysmips(SONY_SYSNEWS, NEWS_SETPSARGS, buf); # endif # if SPT_TYPE == SPT_SCO if (kmem < 0 || kmempid != getpid()) { if (kmem >= 0) close(kmem); kmem = open(_PATH_KMEM, O_RDWR, 0); if (kmem < 0) return; (void) fcntl(kmem, F_SETFD, 1); kmempid = getpid(); } buf[PSARGSZ - 1] = '\0'; seek_off = UVUBLK + (off_t) u.u_psargs - (off_t) &u; if (lseek(kmem, (off_t) seek_off, SEEK_SET) == seek_off) (void) write(kmem, buf, PSARGSZ); # endif # if SPT_TYPE == SPT_REUSEARGV if (i > LastArgv - Argv[0] - 2) { i = LastArgv - Argv[0] - 2; buf[i] = '\0'; } (void) strcpy(Argv[0], buf); p = &Argv[0][i]; while (p < LastArgv) *p++ = SPT_PADCHAR; Argv[1] = NULL; # endif # if SPT_TYPE == SPT_CHANGEARGV Argv[0] = buf; Argv[1] = 0; # endif # endif /* SPT_TYPE != SPT_NONE */ } #endif /* SPT_TYPE != SPT_BUILTIN */ /* ** WAITFOR -- wait for a particular process id. ** ** Parameters: ** pid -- process id to wait for. ** ** Returns: ** status of pid. ** -1 if pid never shows up. ** ** Side Effects: ** none. */ int waitfor(pid) pid_t pid; { #ifdef WAITUNION union wait st; #else auto int st; #endif pid_t i; #if defined(ISC_UNIX) || defined(_SCO_unix_) int savesig; #endif do { errno = 0; #if defined(ISC_UNIX) || defined(_SCO_unix_) savesig = releasesignal(SIGCHLD); #endif i = wait(&st); #if defined(ISC_UNIX) || defined(_SCO_unix_) if (savesig > 0) blocksignal(SIGCHLD); #endif if (i > 0) proc_list_drop(i); } while ((i >= 0 || errno == EINTR) && i != pid); if (i < 0) return -1; #ifdef WAITUNION return st.w_status; #else return st; #endif } /* ** REAPCHILD -- pick up the body of my child, lest it become a zombie ** ** Parameters: ** sig -- the signal that got us here (unused). ** ** Returns: ** none. ** ** Side Effects: ** Picks up extant zombies. */ SIGFUNC_DECL reapchild(sig) int sig; { int olderrno = errno; pid_t pid; # ifdef HASWAITPID auto int status; int count; count = 0; while ((pid = waitpid(-1, &status, WNOHANG)) > 0) { if (count++ > 1000) { if (LogLevel > 0) sm_syslog(LOG_ALERT, NOQID, "reapchild: waitpid loop: pid=%d, status=%x", pid, status); break; } proc_list_drop(pid); } # else # ifdef WNOHANG union wait status; while ((pid = wait3(&status, WNOHANG, (struct rusage *) NULL)) > 0) proc_list_drop(pid); # else /* WNOHANG */ auto int status; /* ** Catch one zombie -- we will be re-invoked (we hope) if there ** are more. Unreliable signals probably break this, but this ** is the "old system" situation -- waitpid or wait3 are to be ** strongly preferred. */ if ((pid = wait(&status)) > 0) proc_list_drop(pid); # endif /* WNOHANG */ # endif # ifdef SYS5SIGNALS (void) setsignal(SIGCHLD, reapchild); # endif errno = olderrno; return SIGFUNC_RETURN; } /* ** PUTENV -- emulation of putenv() in terms of setenv() ** ** Not needed on Posix-compliant systems. ** This doesn't have full Posix semantics, but it's good enough ** for sendmail. ** ** Parameter: ** env -- the environment to put. ** ** Returns: ** none. */ #ifdef NEEDPUTENV # if NEEDPUTENV == 2 /* no setenv(3) call available */ int putenv(str) char *str; { char **current; int matchlen, envlen=0; char *tmp; char **newenv; static int first=1; extern char **environ; /* * find out how much of str to match when searching * for a string to replace. */ if ((tmp = strchr(str, '=')) == NULL || tmp == str) matchlen = strlen(str); else matchlen = (int) (tmp - str); ++matchlen; /* * Search for an existing string in the environment and find the * length of environ. If found, replace and exit. */ for (current=environ; *current; current++) { ++envlen; if (strncmp(str, *current, matchlen) == 0) { /* found it, now insert the new version */ *current = (char *)str; return(0); } } /* * There wasn't already a slot so add space for a new slot. * If this is our first time through, use malloc(), else realloc(). */ if (first) { newenv = (char **) malloc(sizeof(char *) * (envlen + 2)); if (newenv == NULL) return(-1); first=0; (void) memcpy(newenv, environ, sizeof(char *) * envlen); } else { newenv = (char **) realloc((char *)environ, sizeof(char *) * (envlen + 2)); if (newenv == NULL) return(-1); } /* actually add in the new entry */ environ = newenv; environ[envlen] = (char *)str; environ[envlen+1] = NULL; return(0); } #else /* implement putenv() in terms of setenv() */ int putenv(env) char *env; { char *p; int l; char nbuf[100]; p = strchr(env, '='); if (p == NULL) return 0; l = p - env; if (l > sizeof nbuf - 1) l = sizeof nbuf - 1; bcopy(env, nbuf, l); nbuf[l] = '\0'; return setenv(nbuf, ++p, 1); } # endif #endif /* ** UNSETENV -- remove a variable from the environment ** ** Not needed on newer systems. ** ** Parameters: ** name -- the string name of the environment variable to be ** deleted from the current environment. ** ** Returns: ** none. ** ** Globals: ** environ -- a pointer to the current environment. ** ** Side Effects: ** Modifies environ. */ #ifndef HASUNSETENV void unsetenv(name) char *name; { extern char **environ; register char **pp; int len = strlen(name); for (pp = environ; *pp != NULL; pp++) { if (strncmp(name, *pp, len) == 0 && ((*pp)[len] == '=' || (*pp)[len] == '\0')) break; } for (; *pp != NULL; pp++) *pp = pp[1]; } #endif /* ** GETDTABLESIZE -- return number of file descriptors ** ** Only on non-BSD systems ** ** Parameters: ** none ** ** Returns: ** size of file descriptor table ** ** Side Effects: ** none */ #ifdef SOLARIS # include #endif int getdtsize() { #ifdef RLIMIT_NOFILE struct rlimit rl; if (getrlimit(RLIMIT_NOFILE, &rl) >= 0) return rl.rlim_cur; #endif # ifdef HASGETDTABLESIZE return getdtablesize(); # else # ifdef _SC_OPEN_MAX return sysconf(_SC_OPEN_MAX); # else return NOFILE; # endif # endif } /* ** UNAME -- get the UUCP name of this system. */ #ifndef HASUNAME int uname(name) struct utsname *name; { FILE *file; char *n; name->nodename[0] = '\0'; /* try /etc/whoami -- one line with the node name */ if ((file = fopen("/etc/whoami", "r")) != NULL) { (void) fgets(name->nodename, NODE_LENGTH + 1, file); (void) fclose(file); n = strchr(name->nodename, '\n'); if (n != NULL) *n = '\0'; if (name->nodename[0] != '\0') return (0); } /* try /usr/include/whoami.h -- has a #define somewhere */ if ((file = fopen("/usr/include/whoami.h", "r")) != NULL) { char buf[MAXLINE]; while (fgets(buf, MAXLINE, file) != NULL) if (sscanf(buf, "#define sysname \"%*[^\"]\"", NODE_LENGTH, name->nodename) > 0) break; (void) fclose(file); if (name->nodename[0] != '\0') return (0); } #ifdef TRUST_POPEN /* ** Popen is known to have security holes. */ /* try uuname -l to return local name */ if ((file = popen("uuname -l", "r")) != NULL) { (void) fgets(name, NODE_LENGTH + 1, file); (void) pclose(file); n = strchr(name, '\n'); if (n != NULL) *n = '\0'; if (name->nodename[0] != '\0') return (0); } #endif return (-1); } #endif /* HASUNAME */ /* ** INITGROUPS -- initialize groups ** ** Stub implementation for System V style systems */ #ifndef HASINITGROUPS initgroups(name, basegid) char *name; int basegid; { return 0; } #endif /* ** SETSID -- set session id (for non-POSIX systems) */ #ifndef HASSETSID pid_t setsid __P ((void)) { #ifdef TIOCNOTTY int fd; fd = open("/dev/tty", O_RDWR, 0); if (fd >= 0) { (void) ioctl(fd, (int) TIOCNOTTY, (char *) 0); (void) close(fd); } #endif /* TIOCNOTTY */ # ifdef SYS5SETPGRP return setpgrp(); # else return setpgid(0, getpid()); # endif } #endif /* ** FSYNC -- dummy fsync */ #ifdef NEEDFSYNC fsync(fd) int fd; { # ifdef O_SYNC return fcntl(fd, F_SETFL, O_SYNC); # else /* nothing we can do */ return 0; # endif } #endif /* ** DGUX_INET_ADDR -- inet_addr for DG/UX ** ** Data General DG/UX version of inet_addr returns a struct in_addr ** instead of a long. This patches things. Only needed on versions ** prior to 5.4.3. */ #ifdef DGUX_5_4_2 #undef inet_addr long dgux_inet_addr(host) char *host; { struct in_addr haddr; haddr = inet_addr(host); return haddr.s_addr; } #endif /* ** GETOPT -- for old systems or systems with bogus implementations */ #ifdef NEEDGETOPT /* * Copyright (c) 1985 Regents of the University of California. * All rights reserved. The Berkeley software License Agreement * specifies the terms and conditions for redistribution. */ /* ** this version hacked to add `atend' flag to allow state machine ** to reset if invoked by the program to scan args for a 2nd time */ #if defined(LIBC_SCCS) && !defined(lint) static char sccsid[] = "@(#)getopt.c 4.3 (Berkeley) 3/9/86"; #endif /* LIBC_SCCS and not lint */ #include /* * get option letter from argument vector */ #ifdef _CONVEX_SOURCE extern int optind, opterr, optopt; extern char *optarg; #else int opterr = 1; /* if error message should be printed */ int optind = 1; /* index into parent argv vector */ int optopt = 0; /* character checked for validity */ char *optarg = NULL; /* argument associated with option */ #endif #define BADCH (int)'?' #define EMSG "" #define tell(s) if (opterr) {fputs(*nargv,stderr);fputs(s,stderr); \ fputc(optopt,stderr);fputc('\n',stderr);return(BADCH);} int getopt(nargc,nargv,ostr) int nargc; char *const *nargv; const char *ostr; { static char *place = EMSG; /* option letter processing */ static char atend = 0; register char *oli = NULL; /* option letter list index */ if (atend) { atend = 0; place = EMSG; } if(!*place) { /* update scanning pointer */ if (optind >= nargc || *(place = nargv[optind]) != '-' || !*++place) { atend++; return -1; } if (*place == '-') { /* found "--" */ ++optind; atend++; return -1; } } /* option letter okay? */ if ((optopt = (int)*place++) == (int)':' || !(oli = strchr(ostr,optopt))) { if (!*place) ++optind; tell(": illegal option -- "); } if (oli && *++oli != ':') { /* don't need argument */ optarg = NULL; if (!*place) ++optind; } else { /* need an argument */ if (*place) optarg = place; /* no white space */ else if (nargc <= ++optind) { /* no arg */ place = EMSG; tell(": option requires an argument -- "); } else optarg = nargv[optind]; /* white space */ place = EMSG; ++optind; } return(optopt); /* dump back option letter */ } #endif /* ** VFPRINTF, VSPRINTF -- for old 4.3 BSD systems missing a real version */ #ifdef NEEDVPRINTF #define MAXARG 16 vfprintf(fp, fmt, ap) FILE *fp; char *fmt; char **ap; { char *bp[MAXARG]; int i = 0; while (*ap && i < MAXARG) bp[i++] = *ap++; fprintf(fp, fmt, bp[0], bp[1], bp[2], bp[3], bp[4], bp[5], bp[6], bp[7], bp[8], bp[9], bp[10], bp[11], bp[12], bp[13], bp[14], bp[15]); } vsprintf(s, fmt, ap) char *s; char *fmt; char **ap; { char *bp[MAXARG]; int i = 0; while (*ap && i < MAXARG) bp[i++] = *ap++; sprintf(s, fmt, bp[0], bp[1], bp[2], bp[3], bp[4], bp[5], bp[6], bp[7], bp[8], bp[9], bp[10], bp[11], bp[12], bp[13], bp[14], bp[15]); } #endif /* ** SNPRINTF, VSNPRINT -- counted versions of printf ** ** These versions have been grabbed off the net. They have been ** cleaned up to compile properly and support for .precision and ** %lx has been added. */ /************************************************************** * Original: * Patrick Powell Tue Apr 11 09:48:21 PDT 1995 * A bombproof version of doprnt (sm_dopr) included. * Sigh. This sort of thing is always nasty do deal with. Note that * the version here does not include floating point... * * snprintf() is used instead of sprintf() as it does limit checks * for string length. This covers a nasty loophole. * * The other functions are there to prevent NULL pointers from * causing nast effects. **************************************************************/ static void sm_dopr(); static char *DoprEnd; static int SnprfOverflow; #if !HASSNPRINTF /* VARARGS3 */ int # ifdef __STDC__ snprintf(char *str, size_t count, const char *fmt, ...) # else snprintf(str, count, fmt, va_alist) char *str; size_t count; const char *fmt; va_dcl #endif { int len; VA_LOCAL_DECL VA_START(fmt); len = vsnprintf(str, count, fmt, ap); VA_END; return len; } # ifndef luna2 int vsnprintf(str, count, fmt, args) char *str; size_t count; const char *fmt; va_list args; { str[0] = 0; DoprEnd = str + count - 1; SnprfOverflow = 0; sm_dopr( str, fmt, args ); if (count > 0) DoprEnd[0] = 0; if (SnprfOverflow && tTd(57, 2)) printf("\nvsnprintf overflow, len = %d, str = %s", count, shortenstring(str, 203)); return strlen(str); } # endif /* !luna2 */ #endif /* !HASSNPRINTF */ /* * sm_dopr(): poor man's version of doprintf */ static void fmtstr __P((char *value, int ljust, int len, int zpad, int maxwidth)); static void fmtnum __P((long value, int base, int dosign, int ljust, int len, int zpad)); static void dostr __P(( char * , int )); static char *output; static void dopr_outch __P(( int c )); static int SyslogErrno; static void sm_dopr( buffer, format, args ) char *buffer; const char *format; va_list args; { int ch; long value; int longflag = 0; int pointflag = 0; int maxwidth = 0; char *strvalue; int ljust; int len; int zpad; # if !HASSTRERROR && !defined(ERRLIST_PREDEFINED) extern char *sys_errlist[]; extern int sys_nerr; # endif output = buffer; while( (ch = *format++) ){ switch( ch ){ case '%': ljust = len = zpad = maxwidth = 0; longflag = pointflag = 0; nextch: ch = *format++; switch( ch ){ case 0: dostr( "**end of format**" , 0); return; case '-': ljust = 1; goto nextch; case '0': /* set zero padding if len not set */ if(len==0 && !pointflag) zpad = '0'; case '1': case '2': case '3': case '4': case '5': case '6': case '7': case '8': case '9': if (pointflag) maxwidth = maxwidth*10 + ch - '0'; else len = len*10 + ch - '0'; goto nextch; case '*': if (pointflag) maxwidth = va_arg( args, int ); else len = va_arg( args, int ); goto nextch; case '.': pointflag = 1; goto nextch; case 'l': longflag = 1; goto nextch; case 'u': case 'U': /*fmtnum(value,base,dosign,ljust,len,zpad) */ if( longflag ){ value = va_arg( args, long ); } else { value = va_arg( args, int ); } fmtnum( value, 10,0, ljust, len, zpad ); break; case 'o': case 'O': /*fmtnum(value,base,dosign,ljust,len,zpad) */ if( longflag ){ value = va_arg( args, long ); } else { value = va_arg( args, int ); } fmtnum( value, 8,0, ljust, len, zpad ); break; case 'd': case 'D': if( longflag ){ value = va_arg( args, long ); } else { value = va_arg( args, int ); } fmtnum( value, 10,1, ljust, len, zpad ); break; case 'x': if( longflag ){ value = va_arg( args, long ); } else { value = va_arg( args, int ); } fmtnum( value, 16,0, ljust, len, zpad ); break; case 'X': if( longflag ){ value = va_arg( args, long ); } else { value = va_arg( args, int ); } fmtnum( value,-16,0, ljust, len, zpad ); break; case 's': strvalue = va_arg( args, char *); if (maxwidth > 0 || !pointflag) { if (pointflag && len > maxwidth) len = maxwidth; /* Adjust padding */ fmtstr( strvalue,ljust,len,zpad, maxwidth); } break; case 'c': ch = va_arg( args, int ); dopr_outch( ch ); break; case 'm': #if HASSTRERROR dostr(strerror(SyslogErrno), 0); #else if (SyslogErrno < 0 || SyslogErrno > sys_nerr) { dostr("Error ", 0); fmtnum(SyslogErrno, 10, 0, 0, 0, 0); } else dostr(sys_errlist[SyslogErrno], 0); #endif break; case '%': dopr_outch( ch ); continue; default: dostr( "???????" , 0); } break; default: dopr_outch( ch ); break; } } *output = 0; } static void fmtstr( value, ljust, len, zpad, maxwidth ) char *value; int ljust, len, zpad, maxwidth; { int padlen, strlen; /* amount to pad */ if( value == 0 ){ value = ""; } for( strlen = 0; value[strlen]; ++ strlen ); /* strlen */ if (strlen > maxwidth && maxwidth) strlen = maxwidth; padlen = len - strlen; if( padlen < 0 ) padlen = 0; if( ljust ) padlen = -padlen; while( padlen > 0 ) { dopr_outch( ' ' ); --padlen; } dostr( value, maxwidth ); while( padlen < 0 ) { dopr_outch( ' ' ); ++padlen; } } static void fmtnum( value, base, dosign, ljust, len, zpad ) long value; int base, dosign, ljust, len, zpad; { int signvalue = 0; unsigned long uvalue; char convert[20]; int place = 0; int padlen = 0; /* amount to pad */ int caps = 0; /* DEBUGP(("value 0x%x, base %d, dosign %d, ljust %d, len %d, zpad %d\n", value, base, dosign, ljust, len, zpad )); */ uvalue = value; if( dosign ){ if( value < 0 ) { signvalue = '-'; uvalue = -value; } } if( base < 0 ){ caps = 1; base = -base; } do{ convert[place++] = (caps? "0123456789ABCDEF":"0123456789abcdef") [uvalue % (unsigned)base ]; uvalue = (uvalue / (unsigned)base ); }while(uvalue); convert[place] = 0; padlen = len - place; if( padlen < 0 ) padlen = 0; if( ljust ) padlen = -padlen; /* DEBUGP(( "str '%s', place %d, sign %c, padlen %d\n", convert,place,signvalue,padlen)); */ if( zpad && padlen > 0 ){ if( signvalue ){ dopr_outch( signvalue ); --padlen; signvalue = 0; } while( padlen > 0 ){ dopr_outch( zpad ); --padlen; } } while( padlen > 0 ) { dopr_outch( ' ' ); --padlen; } if( signvalue ) dopr_outch( signvalue ); while( place > 0 ) dopr_outch( convert[--place] ); while( padlen < 0 ){ dopr_outch( ' ' ); ++padlen; } } static void dostr( str , cut) char *str; int cut; { if (cut) { while(*str && cut-- > 0) dopr_outch(*str++); } else { while(*str) dopr_outch(*str++); } } static void dopr_outch( c ) int c; { #if 0 if( iscntrl(c) && c != '\n' && c != '\t' ){ c = '@' + (c & 0x1F); if( DoprEnd == 0 || output < DoprEnd ) *output++ = '^'; } #endif if( DoprEnd == 0 || output < DoprEnd ) *output++ = c; else SnprfOverflow++; } /* ** USERSHELLOK -- tell if a user's shell is ok for unrestricted use ** ** Parameters: ** user -- the name of the user we are checking. ** shell -- the user's shell from /etc/passwd ** ** Returns: ** TRUE -- if it is ok to use this for unrestricted access. ** FALSE -- if the shell is restricted. */ #if !HASGETUSERSHELL # ifndef _PATH_SHELLS # define _PATH_SHELLS "/etc/shells" # endif # if defined(_AIX3) || defined(_AIX4) # include # include # endif char *DefaultUserShells[] = { "/bin/sh", /* standard shell */ "/usr/bin/sh", "/bin/csh", /* C shell */ "/usr/bin/csh", #ifdef __hpux # ifdef V4FS "/usr/bin/rsh", /* restricted Bourne shell */ "/usr/bin/ksh", /* Korn shell */ "/usr/bin/rksh", /* restricted Korn shell */ "/usr/bin/pam", "/usr/bin/keysh", /* key shell (extended Korn shell) */ "/usr/bin/posix/sh", # else "/bin/rsh", /* restricted Bourne shell */ "/bin/ksh", /* Korn shell */ "/bin/rksh", /* restricted Korn shell */ "/bin/pam", "/usr/bin/keysh", /* key shell (extended Korn shell) */ "/bin/posix/sh", # endif #endif #if defined(_AIX3) || defined(_AIX4) "/bin/ksh", /* Korn shell */ "/usr/bin/ksh", "/bin/tsh", /* trusted shell */ "/usr/bin/tsh", "/bin/bsh", /* Bourne shell */ "/usr/bin/bsh", #endif #ifdef __svr4__ "/bin/ksh", /* Korn shell */ "/usr/bin/ksh", #endif NULL }; #endif #define WILDCARD_SHELL "/SENDMAIL/ANY/SHELL/" bool usershellok(user, shell) char *user; char *shell; { #if HASGETUSERSHELL register char *p; extern char *getusershell(); if (shell == NULL || shell[0] == '\0' || wordinclass(user, 't') || ConfigLevel <= 1) return TRUE; setusershell(); while ((p = getusershell()) != NULL) if (strcmp(p, shell) == 0 || strcmp(p, WILDCARD_SHELL) == 0) break; endusershell(); return p != NULL; #else # if USEGETCONFATTR auto char *v; # endif register FILE *shellf; char buf[MAXLINE]; if (shell == NULL || shell[0] == '\0' || wordinclass(user, 't')) return TRUE; # if USEGETCONFATTR /* ** Naturally IBM has a "better" idea..... ** ** What a crock. This interface isn't documented, it is ** considered part of the security library (-ls), and it ** only works if you are running as root (since the list ** of valid shells is obviously a source of great concern). ** I recommend that you do NOT define USEGETCONFATTR, ** especially since you are going to have to set up an ** /etc/shells anyhow to handle the cases where getconfattr ** fails. */ if (getconfattr(SC_SYS_LOGIN, SC_SHELLS, &v, SEC_LIST) == 0 && v != NULL) { while (*v != '\0') { if (strcmp(v, shell) == 0 || strcmp(v, WILDCARD_SHELL) == 0) return TRUE; v += strlen(v) + 1; } return FALSE; } # endif shellf = fopen(_PATH_SHELLS, "r"); if (shellf == NULL) { /* no /etc/shells; see if it is one of the std shells */ char **d; for (d = DefaultUserShells; *d != NULL; d++) { if (strcmp(shell, *d) == 0) return TRUE; } return FALSE; } while (fgets(buf, sizeof buf, shellf) != NULL) { register char *p, *q; p = buf; while (*p != '\0' && *p != '#' && *p != '/') p++; if (*p == '#' || *p == '\0') continue; q = p; while (*p != '\0' && *p != '#' && !isspace(*p)) p++; *p = '\0'; if (strcmp(shell, q) == 0 || strcmp(WILDCARD_SHELL, q) == 0) { fclose(shellf); return TRUE; } } fclose(shellf); return FALSE; #endif } /* ** FREEDISKSPACE -- see how much free space is on the queue filesystem ** ** Only implemented if you have statfs. ** ** Parameters: ** dir -- the directory in question. ** bsize -- a variable into which the filesystem ** block size is stored. ** ** Returns: ** The number of bytes free on the queue filesystem. ** -1 if the statfs call fails. ** ** Side effects: ** Puts the filesystem block size into bsize. */ /* statfs types */ #define SFS_NONE 0 /* no statfs implementation */ #define SFS_USTAT 1 /* use ustat */ #define SFS_4ARGS 2 /* use four-argument statfs call */ #define SFS_VFS 3 /* use implementation */ #define SFS_MOUNT 4 /* use implementation */ #define SFS_STATFS 5 /* use implementation */ #define SFS_STATVFS 6 /* use implementation */ #ifndef SFS_TYPE # define SFS_TYPE SFS_NONE #endif #if SFS_TYPE == SFS_USTAT # include #endif #if SFS_TYPE == SFS_4ARGS || SFS_TYPE == SFS_STATFS # include #endif #if SFS_TYPE == SFS_VFS # include #endif #if SFS_TYPE == SFS_MOUNT # include #endif #if SFS_TYPE == SFS_STATVFS # include #endif long freediskspace(dir, bsize) char *dir; long *bsize; { #if SFS_TYPE != SFS_NONE # if SFS_TYPE == SFS_USTAT struct ustat fs; struct stat statbuf; # define FSBLOCKSIZE DEV_BSIZE # define SFS_BAVAIL f_tfree # else # if defined(ultrix) struct fs_data fs; # define SFS_BAVAIL fd_bfreen # define FSBLOCKSIZE 1024L # else # if SFS_TYPE == SFS_STATVFS struct statvfs fs; # define FSBLOCKSIZE fs.f_frsize # else struct statfs fs; # define FSBLOCKSIZE fs.f_bsize # endif # endif # endif # ifndef SFS_BAVAIL # define SFS_BAVAIL f_bavail # endif # if SFS_TYPE == SFS_USTAT if (stat(dir, &statbuf) == 0 && ustat(statbuf.st_dev, &fs) == 0) # else # if SFS_TYPE == SFS_4ARGS if (statfs(dir, &fs, sizeof fs, 0) == 0) # else # if SFS_TYPE == SFS_STATVFS if (statvfs(dir, &fs) == 0) # else # if defined(ultrix) if (statfs(dir, &fs) > 0) # else if (statfs(dir, &fs) == 0) # endif # endif # endif # endif { if (bsize != NULL) *bsize = FSBLOCKSIZE; if (fs.SFS_BAVAIL <= 0) return 0; else return fs.SFS_BAVAIL; } #endif return (-1); } /* ** ENOUGHDISKSPACE -- is there enough free space on the queue fs? ** ** Only implemented if you have statfs. ** ** Parameters: ** msize -- the size to check against. If zero, we don't yet ** know how big the message will be, so just check for ** a "reasonable" amount. ** ** Returns: ** TRUE if there is enough space. ** FALSE otherwise. */ bool enoughdiskspace(msize) long msize; { long bfree, bsize; if (MinBlocksFree <= 0 && msize <= 0) { if (tTd(4, 80)) printf("enoughdiskspace: no threshold\n"); return TRUE; } if ((bfree = freediskspace(QueueDir, &bsize)) >= 0) { if (tTd(4, 80)) printf("enoughdiskspace: bavail=%ld, need=%ld\n", bfree, msize); /* convert msize to block count */ msize = msize / bsize + 1; if (MinBlocksFree >= 0) msize += MinBlocksFree; if (bfree < msize) { if (LogLevel > 0) sm_syslog(LOG_ALERT, CurEnv->e_id, "low on space (have %ld, %s needs %ld in %s)", bfree, CurHostName == NULL ? "SMTP-DAEMON" : CurHostName, msize, QueueDir); return FALSE; } } else if (tTd(4, 80)) printf("enoughdiskspace failure: min=%ld, need=%ld: %s\n", MinBlocksFree, msize, errstring(errno)); return TRUE; } /* ** TRANSIENTERROR -- tell if an error code indicates a transient failure ** ** This looks at an errno value and tells if this is likely to ** go away if retried later. ** ** Parameters: ** err -- the errno code to classify. ** ** Returns: ** TRUE if this is probably transient. ** FALSE otherwise. */ bool transienterror(err) int err; { switch (err) { case EIO: /* I/O error */ case ENXIO: /* Device not configured */ case EAGAIN: /* Resource temporarily unavailable */ case ENOMEM: /* Cannot allocate memory */ case ENODEV: /* Operation not supported by device */ case ENFILE: /* Too many open files in system */ case EMFILE: /* Too many open files */ case ENOSPC: /* No space left on device */ #ifdef ETIMEDOUT case ETIMEDOUT: /* Connection timed out */ #endif #ifdef ESTALE case ESTALE: /* Stale NFS file handle */ #endif #ifdef ENETDOWN case ENETDOWN: /* Network is down */ #endif #ifdef ENETUNREACH case ENETUNREACH: /* Network is unreachable */ #endif #ifdef ENETRESET case ENETRESET: /* Network dropped connection on reset */ #endif #ifdef ECONNABORTED case ECONNABORTED: /* Software caused connection abort */ #endif #ifdef ECONNRESET case ECONNRESET: /* Connection reset by peer */ #endif #ifdef ENOBUFS case ENOBUFS: /* No buffer space available */ #endif #ifdef ESHUTDOWN case ESHUTDOWN: /* Can't send after socket shutdown */ #endif #ifdef ECONNREFUSED case ECONNREFUSED: /* Connection refused */ #endif #ifdef EHOSTDOWN case EHOSTDOWN: /* Host is down */ #endif #ifdef EHOSTUNREACH case EHOSTUNREACH: /* No route to host */ #endif #ifdef EDQUOT case EDQUOT: /* Disc quota exceeded */ #endif #ifdef EPROCLIM case EPROCLIM: /* Too many processes */ #endif #ifdef EUSERS case EUSERS: /* Too many users */ #endif #ifdef EDEADLK case EDEADLK: /* Resource deadlock avoided */ #endif #ifdef EISCONN case EISCONN: /* Socket already connected */ #endif #ifdef EINPROGRESS case EINPROGRESS: /* Operation now in progress */ #endif #ifdef EALREADY case EALREADY: /* Operation already in progress */ #endif #ifdef EADDRINUSE case EADDRINUSE: /* Address already in use */ #endif #ifdef EADDRNOTAVAIL case EADDRNOTAVAIL: /* Can't assign requested address */ #endif #ifdef ETXTBSY case ETXTBSY: /* (Apollo) file locked */ #endif #if defined(ENOSR) && (!defined(ENOBUFS) || (ENOBUFS != ENOSR)) case ENOSR: /* Out of streams resources */ #endif case E_SM_OPENTIMEOUT: /* PSEUDO: open timed out */ return TRUE; } /* nope, must be permanent */ return FALSE; } /* ** LOCKFILE -- lock a file using flock or (shudder) fcntl locking ** ** Parameters: ** fd -- the file descriptor of the file. ** filename -- the file name (for error messages). ** ext -- the filename extension. ** type -- type of the lock. Bits can be: ** LOCK_EX -- exclusive lock. ** LOCK_NB -- non-blocking. ** ** Returns: ** TRUE if the lock was acquired. ** FALSE otherwise. */ bool lockfile(fd, filename, ext, type) int fd; char *filename; char *ext; int type; { int i; # if !HASFLOCK int action; struct flock lfd; if (ext == NULL) ext = ""; bzero(&lfd, sizeof lfd); if (bitset(LOCK_UN, type)) lfd.l_type = F_UNLCK; else if (bitset(LOCK_EX, type)) lfd.l_type = F_WRLCK; else lfd.l_type = F_RDLCK; if (bitset(LOCK_NB, type)) action = F_SETLK; else action = F_SETLKW; if (tTd(55, 60)) printf("lockfile(%s%s, action=%d, type=%d): ", filename, ext, action, lfd.l_type); while ((i = fcntl(fd, action, &lfd)) < 0 && errno == EINTR) continue; if (i >= 0) { if (tTd(55, 60)) printf("SUCCESS\n"); return TRUE; } if (tTd(55, 60)) printf("(%s) ", errstring(errno)); /* ** On SunOS, if you are testing using -oQ/tmp/mqueue or ** -oA/tmp/aliases or anything like that, and /tmp is mounted ** as type "tmp" (that is, served from swap space), the ** previous fcntl will fail with "Invalid argument" errors. ** Since this is fairly common during testing, we will assume ** that this indicates that the lock is successfully grabbed. */ if (errno == EINVAL) { if (tTd(55, 60)) printf("SUCCESS\n"); return TRUE; } if (!bitset(LOCK_NB, type) || (errno != EACCES && errno != EAGAIN)) { int omode = -1; # ifdef F_GETFL int oerrno = errno; (void) fcntl(fd, F_GETFL, &omode); errno = oerrno; # endif syserr("cannot lockf(%s%s, fd=%d, type=%o, omode=%o, euid=%d)", filename, ext, fd, type, omode, geteuid()); dumpfd(fd, TRUE, TRUE); } # else if (ext == NULL) ext = ""; if (tTd(55, 60)) printf("lockfile(%s%s, type=%o): ", filename, ext, type); while ((i = flock(fd, type)) < 0 && errno == EINTR) continue; if (i >= 0) { if (tTd(55, 60)) printf("SUCCESS\n"); return TRUE; } if (tTd(55, 60)) printf("(%s) ", errstring(errno)); if (!bitset(LOCK_NB, type) || errno != EWOULDBLOCK) { int omode = -1; # ifdef F_GETFL int oerrno = errno; (void) fcntl(fd, F_GETFL, &omode); errno = oerrno; # endif syserr("cannot flock(%s%s, fd=%d, type=%o, omode=%o, euid=%d)", filename, ext, fd, type, omode, geteuid()); dumpfd(fd, TRUE, TRUE); } # endif if (tTd(55, 60)) printf("FAIL\n"); return FALSE; } /* ** CHOWNSAFE -- tell if chown is "safe" (executable only by root) ** ** Unfortunately, given that we can't predict other systems on which ** a remote mounted (NFS) filesystem will be mounted, the answer is ** almost always that this is unsafe. ** ** Note also that many operating systems have non-compliant ** implementations of the _POSIX_CHOWN_RESTRICTED variable and the ** fpathconf() routine. According to IEEE 1003.1-1990, if ** _POSIX_CHOWN_RESTRICTED is defined and not equal to -1, then ** no non-root process can give away the file. However, vendors ** don't take NFS into account, so a comfortable value of ** _POSIX_CHOWN_RESTRICTED tells us nothing. ** ** Also, some systems (e.g., IRIX 6.2) return 1 from fpathconf() ** even on files where chown is not restricted. Many systems get ** this wrong on NFS-based filesystems (that is, they say that chown ** is restricted [safe] on NFS filesystems where it may not be, since ** other systems can access the same filesystem and do file giveaway; ** only the NFS server knows for sure!) Hence, it is important to ** get the value of SAFENFSPATHCONF correct -- it should be defined ** _only_ after testing (see test/t_pathconf.c) a system on an unsafe ** NFS-based filesystem to ensure that you can get meaningful results. ** If in doubt, assume unsafe! ** ** You may also need to tweak IS_SAFE_CHOWN -- it should be a ** condition indicating whether the return from pathconf indicates ** that chown is safe (typically either > 0 or >= 0 -- there isn't ** even any agreement about whether a zero return means that a file ** is or is not safe). It defaults to "> 0". ** ** If the parent directory is safe (writable only by owner back ** to the root) then we can relax slightly and trust fpathconf ** in more circumstances. This is really a crock -- if this is an ** NFS mounted filesystem then we really know nothing about the ** underlying implementation. However, most systems pessimize and ** return an error (EINVAL or EOPNOTSUPP) on NFS filesystems, which ** we interpret as unsafe, as we should. Thus, this heuristic gets ** us into a possible problem only on systems that have a broken ** pathconf implementation and which are also poorly configured ** (have :include: files in group- or world-writable directories). ** ** Parameters: ** fd -- the file descriptor to check. ** safedir -- set if the parent directory is safe. ** ** Returns: ** TRUE -- if the chown(2) operation is "safe" -- that is, ** only root can chown the file to an arbitrary user. ** FALSE -- if an arbitrary user can give away a file. */ #ifndef IS_SAFE_CHOWN # define IS_SAFE_CHOWN > 0 #endif bool chownsafe(fd, safedir) int fd; bool safedir; { #if (!defined(_POSIX_CHOWN_RESTRICTED) || _POSIX_CHOWN_RESTRICTED != -1) && \ (defined(_PC_CHOWN_RESTRICTED) || defined(_GNU_TYPES_H)) int rval; /* give the system administrator a chance to override */ if (ChownAlwaysSafe) return TRUE; /* ** Some systems (e.g., SunOS) seem to have the call and the ** #define _PC_CHOWN_RESTRICTED, but don't actually implement ** the call. This heuristic checks for that. */ errno = 0; rval = fpathconf(fd, _PC_CHOWN_RESTRICTED); # if SAFENFSPATHCONF return errno == 0 && rval IS_SAFE_CHOWN; # else return safedir && errno == 0 && rval IS_SAFE_CHOWN; # endif #else return ChownAlwaysSafe; #endif } /* ** RESETLIMITS -- reset system controlled resource limits ** ** This is to avoid denial-of-service attacks ** ** Parameters: ** none ** ** Returns: ** none */ #if HASSETRLIMIT # ifdef RLIMIT_NEEDS_SYS_TIME_H # include # endif # include #endif #ifndef FD_SETSIZE # define FD_SETSIZE 256 #endif void resetlimits() { #if HASSETRLIMIT struct rlimit lim; lim.rlim_cur = lim.rlim_max = RLIM_INFINITY; (void) setrlimit(RLIMIT_CPU, &lim); (void) setrlimit(RLIMIT_FSIZE, &lim); # ifdef RLIMIT_NOFILE lim.rlim_cur = lim.rlim_max = FD_SETSIZE; (void) setrlimit(RLIMIT_NOFILE, &lim); # endif #else # if HASULIMIT (void) ulimit(2, 0x3fffff); (void) ulimit(4, FD_SETSIZE); # endif #endif errno = 0; } /* ** GETCFNAME -- return the name of the .cf file. ** ** Some systems (e.g., NeXT) determine this dynamically. */ char * getcfname() { if (ConfFile != NULL) return ConfFile; #if NETINFO { extern char *ni_propval(); char *cflocation; cflocation = ni_propval("/locations", NULL, "sendmail", "sendmail.cf", '\0'); if (cflocation != NULL) return cflocation; } #endif return _PATH_SENDMAILCF; } /* ** SETVENDOR -- process vendor code from V configuration line ** ** Parameters: ** vendor -- string representation of vendor. ** ** Returns: ** TRUE -- if ok. ** FALSE -- if vendor code could not be processed. ** ** Side Effects: ** It is reasonable to set mode flags here to tweak ** processing in other parts of the code if necessary. ** For example, if you are a vendor that uses $%y to ** indicate YP lookups, you could enable that here. */ bool setvendor(vendor) char *vendor; { if (strcasecmp(vendor, "Berkeley") == 0) { VendorCode = VENDOR_BERKELEY; return TRUE; } /* add vendor extensions here */ #ifdef SUN_EXTENSIONS if (strcasecmp(vendor, "Sun") == 0) { VendorCode = VENDOR_SUN; return TRUE; } #endif return FALSE; } /* ** VENDOR_PRE_DEFAULTS, VENDOR_POST_DEFAULTS -- set vendor-specific defaults ** ** Vendor_pre_defaults is called before reading the configuration ** file; vendor_post_defaults is called immediately after. ** ** Parameters: ** e -- the global environment to initialize. ** ** Returns: ** none. */ #if SHARE_V1 int DefShareUid; /* default share uid to run as -- unused??? */ #endif void vendor_pre_defaults(e) ENVELOPE *e; { #if SHARE_V1 /* OTHERUID is defined in shares.h, do not be alarmed */ DefShareUid = OTHERUID; #endif #if defined(SUN_EXTENSIONS) && defined(SUN_DEFAULT_VALUES) sun_pre_defaults(e); #endif #ifdef apollo /* stupid domain/os can't even open /etc/sendmail.cf without this */ setuserenv("ISP", NULL); setuserenv("SYSTYPE", NULL); #endif } void vendor_post_defaults(e) ENVELOPE *e; { #if defined(SUN_EXTENSIONS) && defined(SUN_DEFAULT_VALUES) sun_post_defaults(e); #endif } /* ** VENDOR_DAEMON_SETUP -- special vendor setup needed for daemon mode */ void vendor_daemon_setup(e) ENVELOPE *e; { #if SECUREWARE if (getluid() != -1) { usrerr("Daemon cannot have LUID"); exit(EX_USAGE); } #endif /* SECUREWARE */ } /* ** VENDOR_SET_UID -- do setup for setting a user id ** ** This is called when we are still root. ** ** Parameters: ** uid -- the uid we are about to become. ** ** Returns: ** none. */ void vendor_set_uid(uid) UID_T uid; { /* ** We need to setup the share groups (lnodes) ** and and auditing inforation (luid's) ** before we loose our ``root''ness. */ #if SHARE_V1 if (setupshares(uid, syserr) != 0) syserr("Unable to set up shares"); #endif #if SECUREWARE (void) setup_secure(uid); #endif } /* ** VALIDATE_CONNECTION -- check connection for rationality ** ** If the connection is rejected, this routine should log an ** appropriate message -- but should never issue any SMTP protocol. ** ** Parameters: ** sap -- a pointer to a SOCKADDR naming the peer. ** hostname -- the name corresponding to sap. ** e -- the current envelope. ** ** Returns: ** TRUE -- if the connection should be accepted. ** FALSE -- if it should be rejected. */ #if TCPWRAPPERS # include /* tcpwrappers does no logging, but you still have to declare these -- ugh */ int allow_severity = LOG_INFO; int deny_severity = LOG_NOTICE; #endif #if DAEMON bool validate_connection(sap, hostname, e) SOCKADDR *sap; char *hostname; ENVELOPE *e; { if (tTd(48, 3)) printf("validate_connection(%s, %s)\n", hostname, anynet_ntoa(sap)); if (rscheck("check_relay", hostname, anynet_ntoa(sap), e) != EX_OK) { if (tTd(48, 4)) printf(" ... validate_connection: BAD (rscheck)\n"); return FALSE; } #if TCPWRAPPERS if (!hosts_ctl("sendmail", hostname, anynet_ntoa(sap), STRING_UNKNOWN)) { if (tTd(48, 4)) printf(" ... validate_connection: BAD (tcpwrappers)\n"); if (LogLevel >= 4) sm_syslog(LOG_NOTICE, NOQID, "tcpwrappers (%s, %s) rejection", hostname, anynet_ntoa(sap)); return FALSE; } #endif if (tTd(48, 4)) printf(" ... validate_connection: OK\n"); return TRUE; } #endif /* ** STRTOL -- convert string to long integer ** ** For systems that don't have it in the C library. ** ** This is taken verbatim from the 4.4-Lite C library. */ #ifdef NEEDSTRTOL #if defined(LIBC_SCCS) && !defined(lint) static char sccsid[] = "@(#)strtol.c 8.1 (Berkeley) 6/4/93"; #endif /* LIBC_SCCS and not lint */ #include /* * Convert a string to a long integer. * * Ignores `locale' stuff. Assumes that the upper and lower case * alphabets and digits are each contiguous. */ long strtol(nptr, endptr, base) const char *nptr; char **endptr; register int base; { register const char *s = nptr; register unsigned long acc; register int c; register unsigned long cutoff; register int neg = 0, any, cutlim; /* * Skip white space and pick up leading +/- sign if any. * If base is 0, allow 0x for hex and 0 for octal, else * assume decimal; if base is already 16, allow 0x. */ do { c = *s++; } while (isspace(c)); if (c == '-') { neg = 1; c = *s++; } else if (c == '+') c = *s++; if ((base == 0 || base == 16) && c == '0' && (*s == 'x' || *s == 'X')) { c = s[1]; s += 2; base = 16; } if (base == 0) base = c == '0' ? 8 : 10; /* * Compute the cutoff value between legal numbers and illegal * numbers. That is the largest legal value, divided by the * base. An input number that is greater than this value, if * followed by a legal input character, is too big. One that * is equal to this value may be valid or not; the limit * between valid and invalid numbers is then based on the last * digit. For instance, if the range for longs is * [-2147483648..2147483647] and the input base is 10, * cutoff will be set to 214748364 and cutlim to either * 7 (neg==0) or 8 (neg==1), meaning that if we have accumulated * a value > 214748364, or equal but the next digit is > 7 (or 8), * the number is too big, and we will return a range error. * * Set any if any `digits' consumed; make it negative to indicate * overflow. */ cutoff = neg ? -(unsigned long)LONG_MIN : LONG_MAX; cutlim = cutoff % (unsigned long)base; cutoff /= (unsigned long)base; for (acc = 0, any = 0;; c = *s++) { if (isdigit(c)) c -= '0'; else if (isalpha(c)) c -= isupper(c) ? 'A' - 10 : 'a' - 10; else break; if (c >= base) break; if (any < 0 || acc > cutoff || acc == cutoff && c > cutlim) any = -1; else { any = 1; acc *= base; acc += c; } } if (any < 0) { acc = neg ? LONG_MIN : LONG_MAX; errno = ERANGE; } else if (neg) acc = -acc; if (endptr != 0) *endptr = (char *)(any ? s - 1 : nptr); return (acc); } #endif /* ** STRSTR -- find first substring in string ** ** Parameters: ** big -- the big (full) string. ** little -- the little (sub) string. ** ** Returns: ** A pointer to the first instance of little in big. ** big if little is the null string. ** NULL if little is not contained in big. */ #ifdef NEEDSTRSTR char * strstr(big, little) char *big; char *little; { register char *p = big; int l; if (*little == '\0') return big; l = strlen(little); while ((p = strchr(p, *little)) != NULL) { if (strncmp(p, little, l) == 0) return p; p++; } return NULL; } #endif /* ** SM_GETHOSTBY{NAME,ADDR} -- compatibility routines for gethostbyXXX ** ** Some operating systems have wierd problems with the gethostbyXXX ** routines. For example, Solaris versions at least through 2.3 ** don't properly deliver a canonical h_name field. This tries to ** work around these problems. */ struct hostent * sm_gethostbyname(name) char *name; { struct hostent *h; #if (SOLARIS > 10000 && SOLARIS < 20400) || (defined(SOLARIS) && SOLARIS < 204) || (defined(sony_news) && defined(__svr4)) # if SOLARIS == 20300 || SOLARIS == 203 static struct hostent hp; static char buf[1000]; extern struct hostent *_switch_gethostbyname_r(); if (tTd(61, 10)) printf("_switch_gethostbyname_r(%s)... ", name); h = _switch_gethostbyname_r(name, &hp, buf, sizeof(buf), &h_errno); # else extern struct hostent *__switch_gethostbyname(); if (tTd(61, 10)) printf("__switch_gethostbyname(%s)... ", name); h = __switch_gethostbyname(name); # endif #else int nmaps; char *maptype[MAXMAPSTACK]; short mapreturn[MAXMAPACTIONS]; char hbuf[MAXNAME]; if (tTd(61, 10)) printf("gethostbyname(%s)... ", name); h = gethostbyname(name); if (h == NULL) { if (tTd(61, 10)) printf("failure\n"); nmaps = switch_map_find("hosts", maptype, mapreturn); while (--nmaps >= 0) if (strcmp(maptype[nmaps], "nis") == 0 || strcmp(maptype[nmaps], "files") == 0) break; if (nmaps >= 0) { /* try short name */ if (strlen(name) > (SIZE_T) sizeof hbuf - 1) return NULL; strcpy(hbuf, name); shorten_hostname(hbuf); /* if it hasn't been shortened, there's no point */ if (strcmp(hbuf, name) != 0) { if (tTd(61, 10)) printf("gethostbyname(%s)... ", hbuf); h = gethostbyname(hbuf); } } } #endif if (tTd(61, 10)) { if (h == NULL) printf("failure\n"); else printf("%s\n", h->h_name); } return h; } struct hostent * sm_gethostbyaddr(addr, len, type) char *addr; int len; int type; { #if (SOLARIS > 10000 && SOLARIS < 20400) || (defined(SOLARIS) && SOLARIS < 204) # if SOLARIS == 20300 || SOLARIS == 203 static struct hostent hp; static char buf[1000]; extern struct hostent *_switch_gethostbyaddr_r(); return _switch_gethostbyaddr_r(addr, len, type, &hp, buf, sizeof(buf), &h_errno); # else extern struct hostent *__switch_gethostbyaddr(); return __switch_gethostbyaddr(addr, len, type); # endif #else return gethostbyaddr(addr, len, type); #endif } /* ** SM_GETPW{NAM,UID} -- wrapper for getpwnam and getpwuid */ struct passwd * sm_getpwnam(user) char *user; { #ifdef _AIX4 extern struct passwd *_getpwnam_shadow(const char *, const int); return _getpwnam_shadow(user, 0); #else return getpwnam(user); #endif } struct passwd * sm_getpwuid(uid) UID_T uid; { #if defined(_AIX4) && 0 extern struct passwd *_getpwuid_shadow(const int, const int); return _getpwuid_shadow(uid,0); #else return getpwuid(uid); #endif } /* ** SECUREWARE_SETUP_SECURE -- Convex SecureWare setup ** ** Set up the trusted computing environment for C2 level security ** under SecureWare. ** ** Parameters: ** uid -- uid of the user to initialize in the TCB ** ** Returns: ** none ** ** Side Effects: ** Initialized the user in the trusted computing base */ #if SECUREWARE # include # include void secureware_setup_secure(uid) UID_T uid; { int rc; if (getluid() != -1) return; if ((rc = set_secure_info(uid)) != SSI_GOOD_RETURN) { switch (rc) { case SSI_NO_PRPW_ENTRY: syserr("No protected passwd entry, uid = %d", uid); break; case SSI_LOCKED: syserr("Account has been disabled, uid = %d", uid); break; case SSI_RETIRED: syserr("Account has been retired, uid = %d", uid); break; case SSI_BAD_SET_LUID: syserr("Could not set LUID, uid = %d", uid); break; case SSI_BAD_SET_PRIVS: syserr("Could not set kernel privs, uid = %d", uid); default: syserr("Unknown return code (%d) from set_secure_info(%d)", rc, uid); break; } exit(EX_NOPERM); } } #endif /* SECUREWARE */ /* ** LOAD_IF_NAMES -- load interface-specific names into $=w ** ** Parameters: ** none. ** ** Returns: ** none. ** ** Side Effects: ** Loads $=w with the names of all the interfaces. */ #if defined(SIOCGIFCONF) && !SIOCGIFCONF_IS_BROKEN struct rtentry; struct mbuf; # include # ifndef SUNOS403 # include # endif # include #endif void load_if_names() { #if defined(SIOCGIFCONF) && !SIOCGIFCONF_IS_BROKEN int s; int i; struct ifconf ifc; int numifs; s = socket(AF_INET, SOCK_DGRAM, 0); if (s == -1) return; /* get the list of known IP address from the kernel */ # if defined(SIOCGIFNUM) && !SIOCGIFNUM_IS_BROKEN if (ioctl(s, SIOCGIFNUM, (char *) &numifs) < 0) { /* can't get number of interfaces -- fall back */ if (tTd(0, 4)) printf("SIOCGIFNUM failed: %s\n", errstring(errno)); numifs = -1; } else if (tTd(0, 42)) printf("system has %d interfaces\n", numifs); if (numifs < 0) # endif numifs = 512; if (numifs <= 0) { close(s); return; } ifc.ifc_len = numifs * sizeof (struct ifreq); ifc.ifc_buf = xalloc(ifc.ifc_len); if (ioctl(s, SIOCGIFCONF, (char *)&ifc) < 0) { if (tTd(0, 4)) printf("SIOGIFCONF failed: %s\n", errstring(errno)); close(s); return; } /* scan the list of IP address */ if (tTd(0, 40)) printf("scanning for interface specific names, ifc_len=%d\n", ifc.ifc_len); for (i = 0; i < ifc.ifc_len; ) { struct ifreq *ifr = (struct ifreq *) &ifc.ifc_buf[i]; struct sockaddr *sa = &ifr->ifr_addr; struct in_addr ia; struct hostent *hp; #ifdef SIOCGIFFLAGS struct ifreq ifrf; #endif char ip_addr[256]; extern char *inet_ntoa(); #ifdef BSD4_4_SOCKADDR if (sa->sa_len > sizeof ifr->ifr_addr) i += sizeof ifr->ifr_name + sa->sa_len; else #endif i += sizeof *ifr; if (tTd(0, 20)) printf("%s\n", anynet_ntoa((SOCKADDR *) sa)); if (ifr->ifr_addr.sa_family != AF_INET) continue; #ifdef SIOCGIFFLAGS bzero(&ifrf, sizeof(struct ifreq)); strncpy(ifrf.ifr_name, ifr->ifr_name, sizeof(ifrf.ifr_name)); ioctl(s, SIOCGIFFLAGS, (char *) &ifrf); if (tTd(0, 41)) printf("\tflags: %x\n", ifrf.ifr_flags); # define IFRFREF ifrf #else # define IFRFREF (*ifr) #endif if (!bitset(IFF_UP, IFRFREF.ifr_flags)) continue; /* extract IP address from the list*/ ia = (((struct sockaddr_in *) sa)->sin_addr); if (ia.s_addr == INADDR_ANY || ia.s_addr == INADDR_NONE) { message("WARNING: interface %s is UP with %s address", ifr->ifr_name, inet_ntoa(ia)); continue; } /* save IP address in text from */ (void) snprintf(ip_addr, sizeof ip_addr, "[%.*s]", sizeof ip_addr - 3, inet_ntoa(ia)); if (!wordinclass(ip_addr, 'w')) { setclass('w', ip_addr); if (tTd(0, 4)) printf("\ta.k.a.: %s\n", ip_addr); } /* skip "loopback" interface "lo" */ if (bitset(IFF_LOOPBACK, IFRFREF.ifr_flags)) continue; /* lookup name with IP address */ hp = sm_gethostbyaddr((char *) &ia, sizeof(ia), AF_INET); if (hp == NULL) { if (LogLevel > 3) sm_syslog(LOG_WARNING, NOQID, "gethostbyaddr(%.100s) failed: %d\n", inet_ntoa(ia), #if NAMED_BIND h_errno); #else -1); #endif continue; } /* save its cname */ if (!wordinclass((char *) hp->h_name, 'w')) { setclass('w', (char *) hp->h_name); if (tTd(0, 4)) printf("\ta.k.a.: %s\n", hp->h_name); } /* save all it aliases name */ while (*hp->h_aliases) { if (!wordinclass(*hp->h_aliases, 'w')) { setclass('w', *hp->h_aliases); if (tTd(0, 4)) printf("\ta.k.a.: %s\n", *hp->h_aliases); } hp->h_aliases++; } } free(ifc.ifc_buf); close(s); # undef IFRFREF #endif } /* ** GET_NUM_PROCS_ONLINE -- return the number of processors currently online ** ** Parameters: ** none. ** ** Returns: ** The number of processors online. */ int get_num_procs_online() { int nproc = 0; #if _FFR_SCALE_LA_BY_NUM_PROCS #ifdef _SC_NPROCESSORS_ONLN nproc = (int) sysconf(_SC_NPROCESSORS_ONLN); #endif #endif if (nproc <= 0) nproc = 1; return nproc; } /* ** SM_SYSLOG -- syslog wrapper to keep messages under SYSLOG_BUFSIZE ** ** Parameters: ** level -- syslog level ** id -- envelope ID or NULL (NOQUEUE) ** fmt -- format string ** arg... -- arguments as implied by fmt. ** ** Returns: ** none */ /* VARARGS3 */ void # ifdef __STDC__ sm_syslog(int level, const char *id, const char *fmt, ...) # else sm_syslog(level, id, fmt, va_alist) int level; const char *id; const char *fmt; va_dcl #endif { static char *buf = NULL; static size_t bufsize = MAXLINE; char *begin, *end; int seq = 1; int idlen; extern int SnprfOverflow; VA_LOCAL_DECL SyslogErrno = errno; if (id == NULL) { id = "NOQUEUE"; idlen = 9; } else if (strcmp(id, NOQID) == 0) { id = ""; idlen = 0; } else idlen = strlen(id + 2); bufalloc: if (buf == NULL) buf = (char *) xalloc(sizeof(char) * bufsize); /* do a virtual vsnprintf into buf */ VA_START(fmt); buf[0] = 0; DoprEnd = buf + bufsize - 1; SnprfOverflow = 0; sm_dopr(buf, fmt, ap); *DoprEnd = '\0'; VA_END; /* end of virtual vsnprintf */ if (SnprfOverflow) { /* String too small, redo with correct size */ bufsize += SnprfOverflow + 1; free(buf); buf = NULL; goto bufalloc; } if ((strlen(buf) + idlen + 1) < SYSLOG_BUFSIZE) { #if LOG if (*id == '\0') syslog(level, "%s", buf); else syslog(level, "%s: %s", id, buf); #else /*XXX should do something more sensible */ if (*id == '\0') fprintf(stderr, "%s\n", buf); else fprintf(stderr, "%s: %s\n", id, buf); #endif return; } begin = buf; while (*begin != '\0' && (strlen(begin) + idlen + 5) > SYSLOG_BUFSIZE) { char save; if (seq == 999) { /* Too many messages */ break; } end = begin + SYSLOG_BUFSIZE - idlen - 12; while (end > begin) { /* Break on comma or space */ if (*end == ',' || *end == ' ') { end++; /* Include separator */ break; } end--; } /* No separator, break midstring... */ if (end == begin) end = begin + SYSLOG_BUFSIZE - idlen - 12; save = *end; *end = 0; #if LOG syslog(level, "%s[%d]: %s ...", id, seq++, begin); #else fprintf(stderr, "%s[%d]: %s ...\n", id, seq++, begin); #endif *end = save; begin = end; } if (seq == 999) #if LOG syslog(level, "%s[%d]: log terminated, too many parts", id, seq); #else fprintf(stderr, "%s[%d]: log terminated, too many parts\n", id, seq); #endif else if (*begin != '\0') #if LOG syslog(level, "%s[%d]: %s", id, seq, begin); #else fprintf(stderr, "%s[%d]: %s\n", id, seq, begin); #endif } /* ** HARD_SYSLOG -- call syslog repeatedly until it works ** ** Needed on HP-UX, which apparently doesn't guarantee that ** syslog succeeds during interrupt handlers. */ #ifdef __hpux # define MAXSYSLOGTRIES 100 # undef syslog # ifdef V4FS # define XCNST const # define CAST (const char *) # else # define XCNST # define CAST # endif void # ifdef __STDC__ hard_syslog(int pri, XCNST char *msg, ...) # else hard_syslog(pri, msg, va_alist) int pri; XCNST char *msg; va_dcl # endif { int i; char buf[SYSLOG_BUFSIZE]; VA_LOCAL_DECL; VA_START(msg); vsnprintf(buf, sizeof buf, msg, ap); VA_END; for (i = MAXSYSLOGTRIES; --i >= 0 && syslog(pri, CAST "%s", buf) < 0; ) continue; } # undef CAST #endif /* ** LOCAL_HOSTNAME_LENGTH ** ** This is required to get sendmail to compile against BIND 4.9.x ** on Ultrix. */ #if defined(ultrix) && NAMED_BIND # include # if __RES >= 19931104 && __RES < 19950621 int local_hostname_length(hostname) char *hostname; { int len_host, len_domain; if (!*_res.defdname) res_init(); len_host = strlen(hostname); len_domain = strlen(_res.defdname); if (len_host > len_domain && (strcasecmp(hostname + len_host - len_domain,_res.defdname) == 0) && hostname[len_host - len_domain - 1] == '.') return len_host - len_domain - 1; else return 0; } # endif #endif /* ** Compile-Time options */ char *CompileOptions[] = { #if HESIOD "HESIOD", #endif #if HES_GETMAILHOST "HES_GETMAILHOST", #endif #if LDAPMAP "LDAPMAP", #endif #if LOG "LOG", #endif #if MATCHGECOS "MATCHGECOS", #endif #if MIME7TO8 "MIME7TO8", #endif #if MIME8TO7 "MIME8TO7", #endif #if NAMED_BIND "NAMED_BIND", #endif #if NDBM "NDBM", #endif #if NETINET "NETINET", #endif #if NETINFO "NETINFO", #endif #if NETISO "NETISO", #endif #if NETNS "NETNS", #endif #if NETUNIX "NETUNIX", #endif #if NETX25 "NETX25", #endif #if NEWDB "NEWDB", #endif #if NIS "NIS", #endif #if NISPLUS "NISPLUS", #endif #if QUEUE "QUEUE", #endif #if SCANF "SCANF", #endif #if SMTP "SMTP", #endif #if SMTPDEBUG "SMTPDEBUG", #endif #if SUID_ROOT_FILES_OK "SUID_ROOT_FILES_OK", #endif #if TCPWRAPPERS "TCPWRAPPERS", #endif #if USERDB "USERDB", #endif #if XDEBUG "XDEBUG", #endif #if XLA "XLA", #endif NULL }; /* ** OS compile options. */ char *OsCompileOptions[] = { #if BOGUS_O_EXCL "BOGUS_O_EXCL", #endif #if HASFCHMOD "HASFCHMOD", #endif #if HASFLOCK "HASFLOCK", #endif #if HASGETDTABLESIZE "HASGETDTABLESIZE", #endif #if HASGETUSERSHELL "HASGETUSERSHELL", #endif #if HASINITGROUPS "HASINITGROUPS", #endif #if HASLSTAT "HASLSTAT", #endif #if HASSETREUID "HASSETREUID", #endif #if HASSETRLIMIT "HASSETRLIMIT", #endif #if HASSETSID "HASSETSID", #endif #if HASSETUSERCONTEXT "HASSETUSERCONTEXT", #endif #if HASSETVBUF "HASSETVBUF", #endif #if HASSNPRINTF "HASSNPRINTF", #endif #if HAS_ST_GEN "HAS_ST_GEN", #endif #if HASSTRERROR "HASSTRERROR", #endif #if HASULIMIT "HASULIMIT", #endif #if HASUNAME "HASUNAME", #endif #if HASUNSETENV "HASUNSETENV", #endif #if HASWAITPID "HASWAITPID", #endif #if IDENTPROTO "IDENTPROTO", #endif #if IP_SRCROUTE "IP_SRCROUTE", #endif #if O_EXLOCK && HASFLOCK && !BOGUS_O_EXCL "LOCK_ON_OPEN", #endif #if NEEDFSYNC "NEEDFSYNC", #endif #if NOFTRUNCATE "NOFTRUNCATE", #endif #if RLIMIT_NEEDS_SYS_TIME_H "RLIMIT_NEEDS_SYS_TIME_H", #endif #if SAFENFSPATHCONF "SAFENFSPATHCONF", #endif #if SECUREWARE "SECUREWARE", #endif #if SHARE_V1 "SHARE_V1", #endif #if SIOCGIFCONF_IS_BROKEN "SIOCGIFCONF_IS_BROKEN", #endif #if SIOCGIFNUM_IS_BROKEN "SIOCGIFNUM_IS_BROKEN", #endif #if SYS5SETPGRP "SYS5SETPGRP", #endif #if SYSTEM5 "SYSTEM5", #endif #if USE_SA_SIGACTION "USE_SA_SIGACTION", #endif #if USE_SIGLONGJMP "USE_SIGLONGJMP", #endif #if USESETEUID "USESETEUID", #endif NULL };