/* * Copyright (c) 1983 Eric P. Allman * Copyright (c) 1988 Regents of the University of California. * All rights reserved. * * %sccs.include.redist.c% */ #ifndef lint static char sccsid[] = "@(#)parseaddr.c 5.21 (Berkeley) 07/12/92"; #endif /* not lint */ # include "sendmail.h" /* ** PARSEADDR -- Parse an address ** ** Parses an address and breaks it up into three parts: a ** net to transmit the message on, the host to transmit it ** to, and a user on that host. These are loaded into an ** ADDRESS header with the values squirreled away if necessary. ** The "user" part may not be a real user; the process may ** just reoccur on that machine. For example, on a machine ** with an arpanet connection, the address ** csvax.bill@berkeley ** will break up to a "user" of 'csvax.bill' and a host ** of 'berkeley' -- to be transmitted over the arpanet. ** ** Parameters: ** addr -- the address to parse. ** a -- a pointer to the address descriptor buffer. ** If NULL, a header will be created. ** copyf -- determines what shall be copied: ** -1 -- don't copy anything. The printname ** (q_paddr) is just addr, and the ** user & host are allocated internally ** to parse. ** 0 -- copy out the parsed user & host, but ** don't copy the printname. ** +1 -- copy everything. ** delim -- the character to terminate the address, passed ** to prescan. ** e -- the envelope that will contain this address. ** ** Returns: ** A pointer to the address descriptor header (`a' if ** `a' is non-NULL). ** NULL on error. ** ** Side Effects: ** none */ /* following delimiters are inherent to the internal algorithms */ # define DELIMCHARS "\001()<>,;\\\"\r\n" /* word delimiters */ ADDRESS * parseaddr(addr, a, copyf, delim, e) char *addr; register ADDRESS *a; int copyf; char delim; register ENVELOPE *e; { register char **pvp; char pvpbuf[PSBUFSIZE]; extern char **prescan(); extern ADDRESS *buildaddr(); /* ** Initialize and prescan address. */ e->e_to = addr; if (tTd(20, 1)) printf("\n--parseaddr(%s)\n", addr); pvp = prescan(addr, delim, pvpbuf); if (pvp == NULL) return (NULL); /* ** Apply rewriting rules. ** Ruleset 0 does basic parsing. It must resolve. */ rewrite(pvp, 3); rewrite(pvp, 0); /* ** See if we resolved to a real mailer. */ if (pvp[0][0] != CANONNET) { setstat(EX_USAGE); usrerr("cannot resolve name"); return (NULL); } /* ** Build canonical address from pvp. */ a = buildaddr(pvp, a); if (a == NULL) return (NULL); /* ** Make local copies of the host & user and then ** transport them out. */ allocaddr(a, copyf, addr); /* ** Compute return value. */ if (tTd(20, 1)) { printf("parseaddr-->"); printaddr(a, FALSE); } return (a); } /* ** ALLOCADDR -- do local allocations of address on demand. ** ** Also lowercases the host name if requested. ** ** Parameters: ** a -- the address to reallocate. ** copyf -- the copy flag (see parseaddr for description). ** paddr -- the printname of the address. ** ** Returns: ** none. ** ** Side Effects: ** Copies portions of a into local buffers as requested. */ allocaddr(a, copyf, paddr) register ADDRESS *a; int copyf; char *paddr; { register MAILER *m = a->q_mailer; if (copyf > 0 && paddr != NULL) { extern char *DelimChar; char savec = *DelimChar; *DelimChar = '\0'; a->q_paddr = newstr(paddr); *DelimChar = savec; } else a->q_paddr = paddr; if (a->q_user == NULL) a->q_user = ""; if (a->q_host == NULL) a->q_host = ""; if (copyf >= 0) { a->q_host = newstr(a->q_host); if (a->q_user != a->q_paddr) a->q_user = newstr(a->q_user); } if (a->q_paddr == NULL) a->q_paddr = a->q_user; /* ** Convert host name to lower case if requested. ** User name will be done later. */ if (!bitnset(M_HST_UPPER, m->m_flags)) makelower(a->q_host); } /* ** LOWERADDR -- map UPPER->lower case on addresses as requested. ** ** Parameters: ** a -- address to be mapped. ** ** Returns: ** none. ** ** Side Effects: ** none. */ loweraddr(a) register ADDRESS *a; { register MAILER *m = a->q_mailer; if (!bitnset(M_USR_UPPER, m->m_flags)) makelower(a->q_user); } /* ** PRESCAN -- Prescan name and make it canonical ** ** Scans a name and turns it into a set of tokens. This process ** deletes blanks and comments (in parentheses). ** ** This routine knows about quoted strings and angle brackets. ** ** There are certain subtleties to this routine. The one that ** comes to mind now is that backslashes on the ends of names ** are silently stripped off; this is intentional. The problem ** is that some versions of sndmsg (like at LBL) set the kill ** character to something other than @ when reading addresses; ** so people type "csvax.eric\@berkeley" -- which screws up the ** berknet mailer. ** ** Parameters: ** addr -- the name to chomp. ** delim -- the delimiter for the address, normally ** '\0' or ','; \0 is accepted in any case. ** If '\t' then we are reading the .cf file. ** pvpbuf -- place to put the saved text -- note that ** the pointers are static. ** ** Returns: ** A pointer to a vector of tokens. ** NULL on error. ** ** Side Effects: ** sets DelimChar to point to the character matching 'delim'. */ /* states and character types */ # define OPR 0 /* operator */ # define ATM 1 /* atom */ # define QST 2 /* in quoted string */ # define SPC 3 /* chewing up spaces */ # define ONE 4 /* pick up one character */ # define NSTATES 5 /* number of states */ # define TYPE 017 /* mask to select state type */ /* meta bits for table */ # define M 020 /* meta character; don't pass through */ # define B 040 /* cause a break */ # define MB M|B /* meta-break */ static short StateTab[NSTATES][NSTATES] = { /* oldst chtype> OPR ATM QST SPC ONE */ /*OPR*/ OPR|B, ATM|B, QST|B, SPC|MB, ONE|B, /*ATM*/ OPR|B, ATM, QST|B, SPC|MB, ONE|B, /*QST*/ QST, QST, OPR, QST, QST, /*SPC*/ OPR, ATM, QST, SPC|M, ONE, /*ONE*/ OPR, OPR, OPR, OPR, OPR, }; # define NOCHAR -1 /* signal nothing in lookahead token */ char *DelimChar; /* set to point to the delimiter */ char ** prescan(addr, delim, pvpbuf) char *addr; char delim; char pvpbuf[]; { register char *p; register char *q; register int c; char **avp; bool bslashmode; int cmntcnt; int anglecnt; char *tok; int state; int newstate; static char *av[MAXATOM+1]; extern int errno; /* make sure error messages don't have garbage on them */ errno = 0; q = pvpbuf; bslashmode = FALSE; cmntcnt = 0; anglecnt = 0; avp = av; state = ATM; c = NOCHAR; p = addr; if (tTd(22, 45)) { printf("prescan: "); xputs(p); (void) putchar('\n'); } do { /* read a token */ tok = q; for (;;) { /* store away any old lookahead character */ if (c != NOCHAR) { /* see if there is room */ if (q >= &pvpbuf[PSBUFSIZE - 5]) { usrerr("Address too long"); DelimChar = p; return (NULL); } /* squirrel it away */ *q++ = c; } /* read a new input character */ c = *p++; if (c == '\0') break; if (tTd(22, 101)) printf("c=%c, s=%d; ", c, state); /* chew up special characters */ *q = '\0'; if (bslashmode) { /* kludge \! for naive users */ if (c != '!') *q++ = '\\'; bslashmode = FALSE; continue; } if (c == '\\') { bslashmode = TRUE; c = NOCHAR; continue; } else if (state == QST) { /* do nothing, just avoid next clauses */ } else if (c == '(') { cmntcnt++; c = NOCHAR; } else if (c == ')') { if (cmntcnt <= 0) { usrerr("Unbalanced ')'"); DelimChar = p; return (NULL); } else cmntcnt--; } else if (cmntcnt > 0) c = NOCHAR; else if (c == '<') anglecnt++; else if (c == '>') { if (anglecnt <= 0) { usrerr("Unbalanced '>'"); DelimChar = p; return (NULL); } anglecnt--; } else if (delim == ' ' && isspace(c)) c = ' '; if (c == NOCHAR) continue; /* see if this is end of input */ if (c == delim && anglecnt <= 0 && state != QST) break; newstate = StateTab[state][toktype(c)]; if (tTd(22, 101)) printf("ns=%02o\n", newstate); state = newstate & TYPE; if (bitset(M, newstate)) c = NOCHAR; if (bitset(B, newstate)) break; } /* new token */ if (tok != q) { *q++ = '\0'; if (tTd(22, 36)) { printf("tok="); xputs(tok); (void) putchar('\n'); } if (avp >= &av[MAXATOM]) { syserr("prescan: too many tokens"); DelimChar = p; return (NULL); } *avp++ = tok; } } while (c != '\0' && (c != delim || anglecnt > 0)); *avp = NULL; DelimChar = --p; if (cmntcnt > 0) usrerr("Unbalanced '('"); else if (anglecnt > 0) usrerr("Unbalanced '<'"); else if (state == QST) usrerr("Unbalanced '\"'"); else if (av[0] != NULL) return (av); return (NULL); } /* ** TOKTYPE -- return token type ** ** Parameters: ** c -- the character in question. ** ** Returns: ** Its type. ** ** Side Effects: ** none. */ toktype(c) register char c; { static char buf[50]; static bool firstime = TRUE; if (firstime) { firstime = FALSE; expand("\001o", buf, &buf[sizeof buf - 1], CurEnv); (void) strcat(buf, DELIMCHARS); } if (c == MATCHCLASS || c == MATCHREPL || c == MATCHNCLASS) return (ONE); if (c == '"') return (QST); if (!isascii(c)) return (ATM); if (isspace(c) || c == ')') return (SPC); if (iscntrl(c) || index(buf, c) != NULL) return (OPR); return (ATM); } /* ** REWRITE -- apply rewrite rules to token vector. ** ** This routine is an ordered production system. Each rewrite ** rule has a LHS (called the pattern) and a RHS (called the ** rewrite); 'rwr' points the the current rewrite rule. ** ** For each rewrite rule, 'avp' points the address vector we ** are trying to match against, and 'pvp' points to the pattern. ** If pvp points to a special match value (MATCHZANY, MATCHANY, ** MATCHONE, MATCHCLASS, MATCHNCLASS) then the address in avp ** matched is saved away in the match vector (pointed to by 'mvp'). ** ** When a match between avp & pvp does not match, we try to ** back out. If we back up over MATCHONE, MATCHCLASS, or MATCHNCLASS ** we must also back out the match in mvp. If we reach a ** MATCHANY or MATCHZANY we just extend the match and start ** over again. ** ** When we finally match, we rewrite the address vector ** and try over again. ** ** Parameters: ** pvp -- pointer to token vector. ** ** Returns: ** none. ** ** Side Effects: ** pvp is modified. */ struct match { char **first; /* first token matched */ char **last; /* last token matched */ }; # define MAXMATCH 9 /* max params per rewrite */ rewrite(pvp, ruleset) char **pvp; int ruleset; { register char *ap; /* address pointer */ register char *rp; /* rewrite pointer */ register char **avp; /* address vector pointer */ register char **rvp; /* rewrite vector pointer */ register struct match *mlp; /* cur ptr into mlist */ register struct rewrite *rwr; /* pointer to current rewrite rule */ struct match mlist[MAXMATCH]; /* stores match on LHS */ char *npvp[MAXATOM+1]; /* temporary space for rebuild */ if (OpMode == MD_TEST || tTd(21, 2)) { printf("rewrite: ruleset %2d input:", ruleset); printav(pvp); } if (pvp == NULL) return; /* ** Run through the list of rewrite rules, applying ** any that match. */ for (rwr = RewriteRules[ruleset]; rwr != NULL; ) { int loopcount = 0; if (tTd(21, 12)) { printf("-----trying rule:"); printav(rwr->r_lhs); } /* try to match on this rule */ mlp = mlist; rvp = rwr->r_lhs; avp = pvp; while ((ap = *avp) != NULL || *rvp != NULL) { if (++loopcount > 100) { syserr("Infinite loop in ruleset %d", ruleset); break; } rp = *rvp; if (tTd(21, 35)) { printf("operator="); xputs(ap); printf(", token="); xputs(rp); printf("\n"); } if (rp == NULL) { /* end-of-pattern before end-of-address */ goto backup; } if (ap == NULL && *rp != MATCHZANY) { /* end-of-input */ break; } switch (*rp) { register STAB *s; case MATCHCLASS: case MATCHNCLASS: /* match any token in (not in) a class */ s = stab(ap, ST_CLASS, ST_FIND); if (s == NULL || !bitnset(rp[1], s->s_class)) { if (*rp == MATCHCLASS) goto backup; } else if (*rp == MATCHNCLASS) goto backup; /* explicit fall-through */ case MATCHONE: case MATCHANY: /* match exactly one token */ mlp->first = avp; mlp->last = avp++; mlp++; break; case MATCHZANY: /* match zero or more tokens */ mlp->first = avp; mlp->last = avp - 1; mlp++; break; default: /* must have exact match */ if (strcasecmp(rp, ap)) goto backup; avp++; break; } /* successful match on this token */ rvp++; continue; backup: /* match failed -- back up */ while (--rvp >= rwr->r_lhs) { rp = *rvp; if (*rp == MATCHANY || *rp == MATCHZANY) { /* extend binding and continue */ avp = ++mlp[-1].last; avp++; rvp++; break; } avp--; if (*rp == MATCHONE || *rp == MATCHCLASS || *rp == MATCHNCLASS) { /* back out binding */ mlp--; } } if (rvp < rwr->r_lhs) { /* total failure to match */ break; } } /* ** See if we successfully matched */ if (rvp < rwr->r_lhs || *rvp != NULL) { if (tTd(21, 10)) printf("----- rule fails\n"); rwr = rwr->r_next; continue; } rvp = rwr->r_rhs; if (tTd(21, 12)) { printf("-----rule matches:"); printav(rvp); } rp = *rvp; if (*rp == CANONUSER) { rvp++; rwr = rwr->r_next; } else if (*rp == CANONHOST) { rvp++; rwr = NULL; } else if (*rp == CANONNET) rwr = NULL; /* substitute */ for (avp = npvp; *rvp != NULL; rvp++) { register struct match *m; register char **pp; rp = *rvp; if (*rp == MATCHREPL) { /* substitute from LHS */ m = &mlist[rp[1] - '1']; if (m >= mlp) { syserr("rewrite: ruleset %d: replacement out of bounds", ruleset); return; } if (tTd(21, 15)) { printf("$%c:", rp[1]); pp = m->first; while (pp <= m->last) { printf(" %x=\"", *pp); (void) fflush(stdout); printf("%s\"", *pp++); } printf("\n"); } pp = m->first; while (pp <= m->last) { if (avp >= &npvp[MAXATOM]) { syserr("rewrite: expansion too long"); return; } *avp++ = *pp++; } } else { /* vanilla replacement */ if (avp >= &npvp[MAXATOM]) { toolong: syserr("rewrite: expansion too long"); return; } *avp++ = rp; } } *avp++ = NULL; /* ** Check for any hostname/keyword lookups. */ for (rvp = npvp; *rvp != NULL; rvp++) { char **hbrvp; char **xpvp; int trsize; char *olddelimchar; char *replac; int endtoken; STAB *map; char *mapname; char **key_rvp; char **arg_rvp; char **default_rvp; char buf[MAXNAME + 1]; char *pvpb1[MAXATOM + 1]; char pvpbuf[PSBUFSIZE]; extern char *DelimChar; if (**rvp != HOSTBEGIN && **rvp != LOOKUPBEGIN) continue; /* ** Got a hostname/keyword lookup. ** ** This could be optimized fairly easily. */ hbrvp = rvp; arg_rvp = default_rvp = NULL; if (**rvp == HOSTBEGIN) { endtoken = HOSTEND; mapname = "host"; } else { endtoken = LOOKUPEND; mapname = *++rvp; } map = stab(mapname, ST_MAP, ST_FIND); if (map == NULL) syserr("rewrite: map %s not found", mapname); /* extract the match part */ key_rvp = ++rvp; while (*rvp != NULL && **rvp != endtoken) { switch (**rvp) { case CANONHOST: *rvp++ = NULL; arg_rvp = rvp; break; case CANONUSER: *rvp++ = NULL; default_rvp = rvp; break; default: rvp++; break; } } if (*rvp != NULL) *rvp++ = NULL; /* save the remainder of the input string */ trsize = (int) (avp - rvp + 1) * sizeof *rvp; bcopy((char *) rvp, (char *) pvpb1, trsize); /* look it up */ cataddr(key_rvp, buf, sizeof buf); if (map != NULL && bitset(MF_VALID, map->s_map.map_flags)) replac = (*map->s_map.map_class->map_lookup)(buf, sizeof buf - 1, arg_rvp); else replac = NULL; /* if no replacement, use default */ if (replac == NULL) { if (default_rvp != NULL) xpvp = default_rvp; else xpvp = key_rvp; } else { /* scan the new replacement */ olddelimchar = DelimChar; xpvp = prescan(replac, '\0', pvpbuf); DelimChar = olddelimchar; if (xpvp == NULL) { syserr("rewrite: cannot prescan map value: %s", replac); return; } } /* append it to the token list */ for (avp = hbrvp; *xpvp != NULL; xpvp++) { *avp++ = newstr(*xpvp); if (avp >= &npvp[MAXATOM]) goto toolong; } /* restore the old trailing information */ for (xpvp = pvpb1; (*avp++ = *xpvp++) != NULL; ) if (avp >= &npvp[MAXATOM]) goto toolong; break; } /* ** Check for subroutine calls. */ if (*npvp != NULL && **npvp == CALLSUBR) { bcopy((char *) &npvp[2], (char *) pvp, (int) (avp - npvp - 2) * sizeof *avp); if (tTd(21, 3)) printf("-----callsubr %s\n", npvp[1]); rewrite(pvp, atoi(npvp[1])); } else { bcopy((char *) npvp, (char *) pvp, (int) (avp - npvp) * sizeof *avp); } if (tTd(21, 4)) { printf("rewritten as:"); printav(pvp); } } if (OpMode == MD_TEST || tTd(21, 2)) { printf("rewrite: ruleset %2d returns:", ruleset); printav(pvp); } } /* ** BUILDADDR -- build address from token vector. ** ** Parameters: ** tv -- token vector. ** a -- pointer to address descriptor to fill. ** If NULL, one will be allocated. ** ** Returns: ** NULL if there was an error. ** 'a' otherwise. ** ** Side Effects: ** fills in 'a' */ ADDRESS * buildaddr(tv, a) register char **tv; register ADDRESS *a; { static char buf[MAXNAME]; struct mailer **mp; register struct mailer *m; if (a == NULL) a = (ADDRESS *) xalloc(sizeof *a); bzero((char *) a, sizeof *a); /* figure out what net/mailer to use */ if (**tv != CANONNET) { syserr("buildaddr: no net"); return (NULL); } tv++; if (!strcasecmp(*tv, "error")) { if (**++tv == CANONHOST) { setstat(atoi(*++tv)); tv++; } if (**tv != CANONUSER) syserr("buildaddr: error: no user"); buf[0] = '\0'; while (*++tv != NULL) { if (buf[0] != '\0') (void) strcat(buf, " "); (void) strcat(buf, *tv); } usrerr(buf); return (NULL); } for (mp = Mailer; (m = *mp++) != NULL; ) { if (!strcasecmp(m->m_name, *tv)) break; } if (m == NULL) { syserr("buildaddr: unknown mailer %s", *tv); return (NULL); } a->q_mailer = m; /* figure out what host (if any) */ tv++; if (!bitnset(M_LOCAL, m->m_flags)) { if (**tv++ != CANONHOST) { syserr("buildaddr: no host"); return (NULL); } buf[0] = '\0'; while (*tv != NULL && **tv != CANONUSER) (void) strcat(buf, *tv++); a->q_host = newstr(buf); } else a->q_host = NULL; /* figure out the user */ if (*tv == NULL || **tv != CANONUSER) { syserr("buildaddr: no user"); return (NULL); } if (m == LocalMailer && tv[1] != NULL && strcmp(tv[1], "@") == 0) { tv++; a->q_flags |= QNOTREMOTE; } /* rewrite according recipient mailer rewriting rules */ rewrite(++tv, 2); if (m->m_r_rwset > 0) rewrite(tv, m->m_r_rwset); rewrite(tv, 4); /* save the result for the command line/RCPT argument */ cataddr(tv, buf, sizeof buf); a->q_user = buf; return (a); } /* ** CATADDR -- concatenate pieces of addresses (putting in subs) ** ** Parameters: ** pvp -- parameter vector to rebuild. ** buf -- buffer to build the string into. ** sz -- size of buf. ** ** Returns: ** none. ** ** Side Effects: ** Destroys buf. */ cataddr(pvp, buf, sz) char **pvp; char *buf; register int sz; { bool oatomtok = FALSE; bool natomtok = FALSE; register int i; register char *p; if (pvp == NULL) { (void) strcpy(buf, ""); return; } p = buf; sz -= 2; while (*pvp != NULL && (i = strlen(*pvp)) < sz) { natomtok = (toktype(**pvp) == ATM); if (oatomtok && natomtok) *p++ = SpaceSub; (void) strcpy(p, *pvp); oatomtok = natomtok; p += i; sz -= i + 1; pvp++; } *p = '\0'; } /* ** SAMEADDR -- Determine if two addresses are the same ** ** This is not just a straight comparison -- if the mailer doesn't ** care about the host we just ignore it, etc. ** ** Parameters: ** a, b -- pointers to the internal forms to compare. ** ** Returns: ** TRUE -- they represent the same mailbox. ** FALSE -- they don't. ** ** Side Effects: ** none. */ bool sameaddr(a, b) register ADDRESS *a; register ADDRESS *b; { /* if they don't have the same mailer, forget it */ if (a->q_mailer != b->q_mailer) return (FALSE); /* if the user isn't the same, we can drop out */ if (strcmp(a->q_user, b->q_user) != 0) return (FALSE); /* if the mailer ignores hosts, we have succeeded! */ if (bitnset(M_LOCAL, a->q_mailer->m_flags)) return (TRUE); /* otherwise compare hosts (but be careful for NULL ptrs) */ if (a->q_host == NULL || b->q_host == NULL) return (FALSE); if (strcmp(a->q_host, b->q_host) != 0) return (FALSE); return (TRUE); } /* ** PRINTADDR -- print address (for debugging) ** ** Parameters: ** a -- the address to print ** follow -- follow the q_next chain. ** ** Returns: ** none. ** ** Side Effects: ** none. */ printaddr(a, follow) register ADDRESS *a; bool follow; { bool first = TRUE; while (a != NULL) { first = FALSE; printf("%x=", a); (void) fflush(stdout); printf("%s: mailer %d (%s), host `%s', user `%s', ruser `%s'\n", a->q_paddr, a->q_mailer->m_mno, a->q_mailer->m_name, a->q_host, a->q_user, a->q_ruser? a->q_ruser: ""); printf("\tnext=%x, flags=%o, alias %x\n", a->q_next, a->q_flags, a->q_alias); printf("\thome=\"%s\", fullname=\"%s\"\n", a->q_home, a->q_fullname); if (!follow) return; a = a->q_next; } if (first) printf("[NULL]\n"); } /* ** REMOTENAME -- return the name relative to the current mailer ** ** Parameters: ** name -- the name to translate. ** m -- the mailer that we want to do rewriting relative ** to. ** senderaddress -- if set, uses the sender rewriting rules ** rather than the recipient rewriting rules. ** canonical -- if set, strip out any comment information, ** etc. ** ** Returns: ** the text string representing this address relative to ** the receiving mailer. ** ** Side Effects: ** none. ** ** Warnings: ** The text string returned is tucked away locally; ** copy it if you intend to save it. */ char * remotename(name, m, senderaddress, canonical, e) char *name; struct mailer *m; bool senderaddress; bool canonical; register ENVELOPE *e; { register char **pvp; char *fancy; extern char *macvalue(); char *oldg = macvalue('g', e); static char buf[MAXNAME]; char lbuf[MAXNAME]; char pvpbuf[PSBUFSIZE]; extern char **prescan(); extern char *crackaddr(); if (tTd(12, 1)) printf("remotename(%s)\n", name); /* don't do anything if we are tagging it as special */ if ((senderaddress ? m->m_s_rwset : m->m_r_rwset) < 0) return (name); /* ** Do a heuristic crack of this name to extract any comment info. ** This will leave the name as a comment and a $g macro. */ if (canonical) fancy = "\001g"; else fancy = crackaddr(name); /* ** Turn the name into canonical form. ** Normally this will be RFC 822 style, i.e., "user@domain". ** If this only resolves to "user", and the "C" flag is ** specified in the sending mailer, then the sender's ** domain will be appended. */ pvp = prescan(name, '\0', pvpbuf); if (pvp == NULL) return (name); rewrite(pvp, 3); if (e->e_fromdomain != NULL) { /* append from domain to this address */ register char **pxp = pvp; /* see if there is an "@domain" in the current name */ while (*pxp != NULL && strcmp(*pxp, "@") != 0) pxp++; if (*pxp == NULL) { /* no.... append the "@domain" from the sender */ register char **qxq = e->e_fromdomain; while ((*pxp++ = *qxq++) != NULL) continue; rewrite(pvp, 3); } } /* ** Do more specific rewriting. ** Rewrite using ruleset 1 or 2 depending on whether this is ** a sender address or not. ** Then run it through any receiving-mailer-specific rulesets. */ if (senderaddress) { rewrite(pvp, 1); if (m->m_s_rwset > 0) rewrite(pvp, m->m_s_rwset); } else { rewrite(pvp, 2); if (m->m_r_rwset > 0) rewrite(pvp, m->m_r_rwset); } /* ** Do any final sanitation the address may require. ** This will normally be used to turn internal forms ** (e.g., user@host.LOCAL) into external form. This ** may be used as a default to the above rules. */ rewrite(pvp, 4); /* ** Now restore the comment information we had at the beginning. */ cataddr(pvp, lbuf, sizeof lbuf); define('g', lbuf, e); expand(fancy, buf, &buf[sizeof buf - 1], e); define('g', oldg, e); if (tTd(12, 1)) printf("remotename => `%s'\n", buf); return (buf); } /* ** MAPLOCALUSER -- run local username through ruleset 5 for final redirection ** ** Parameters: ** a -- the address to map (but just the user name part). ** sendq -- the sendq in which to install any replacement ** addresses. ** ** Returns: ** none. */ maplocaluser(a, sendq, e) register ADDRESS *a; ADDRESS **sendq; ENVELOPE *e; { register char **pvp; register ADDRESS *a1 = NULL; char pvpbuf[PSBUFSIZE]; if (tTd(29, 1)) { printf("maplocaluser: "); printaddr(a, FALSE); } pvp = prescan(a->q_user, '\0', pvpbuf); if (pvp == NULL) return; rewrite(pvp, 5); if (pvp[0] == NULL || pvp[0][0] != CANONNET) return; /* if non-null, mailer destination specified -- has it changed? */ a1 = buildaddr(pvp, NULL); if (a1 == NULL || sameaddr(a, a1)) return; /* mark old address as dead; insert new address */ a->q_flags |= QDONTSEND; a1->q_alias = a; allocaddr(a1, 1, NULL); (void) recipient(a1, sendq, e); }