/*
* Copyright (c) 1998-2006 Proofpoint, Inc. and its suppliers.
* All rights reserved.
* Copyright (c) 1983, 1995-1997 Eric P. Allman. All rights reserved.
* Copyright (c) 1988, 1993
* The Regents of the University of California. All rights reserved.
*
* By using this file, you agree to the terms and conditions set
* forth in the LICENSE file which can be found at the top level of
* the sendmail distribution.
*
*/
#include <sendmail.h>
SM_RCSID("@(#)$Id: parseaddr.c,v 8.407 2013-11-22 20:51:56 ca Exp $")
#include <sm/sendmail.h>
#include "map.h"
static void allocaddr __P((ADDRESS *, int, char *, ENVELOPE *));
static int callsubr __P((char**, int, ENVELOPE *));
static char *map_lookup __P((STAB *, char *, char **, int *, ENVELOPE *));
static ADDRESS *buildaddr __P((char **, ADDRESS *, int, ENVELOPE *));
static bool hasctrlchar __P((register char *, bool, bool));
/* replacement for illegal characters in addresses */
#define BAD_CHAR_REPLACEMENT '?'
/*
** 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, an address will be created.
** flags -- describe detail for parsing. See RF_ definitions
** in sendmail.h.
** delim -- the character to terminate the address, passed
** to prescan.
** delimptr -- if non-NULL, set to the location of the
** delim character that was found.
** e -- the envelope that will contain this address.
** isrcpt -- true if the address denotes a recipient; false
** indicates a sender.
**
** Returns:
** A pointer to the address descriptor header (`a' if
** `a' is non-NULL).
** NULL on error.
**
** Side Effects:
** e->e_to = addr
*/
/* following delimiters are inherent to the internal algorithms */
#define DELIMCHARS "()<>,;\r\n" /* default word delimiters */
ADDRESS *
parseaddr(addr, a, flags, delim, delimptr, e, isrcpt)
char *addr;
register ADDRESS *a;
int flags;
int delim;
char **delimptr;
register ENVELOPE *e;
bool isrcpt;
{
char **pvp;
auto char *delimptrbuf;
bool qup;
char pvpbuf[PSBUFSIZE];
/*
** Initialize and prescan address.
*/
e->e_to = addr;
if (tTd(20, 1))
sm_dprintf("\n--parseaddr(%s)\n", addr);
if (delimptr == NULL)
delimptr = &delimptrbuf;
pvp = prescan(addr, delim, pvpbuf, sizeof(pvpbuf), delimptr,
ExtTokenTab, false);
if (pvp == NULL)
{
if (tTd(20, 1))
sm_dprintf("parseaddr-->NULL\n");
return NULL;
}
if (invalidaddr(addr, delim == '\0' ? NULL : *delimptr, isrcpt))
{
if (tTd(20, 1))
sm_dprintf("parseaddr-->bad address\n");
return NULL;
}
/*
** Save addr if we are going to have to.
**
** We have to do this early because there is a chance that
** the map lookups in the rewriting rules could clobber
** static memory somewhere.
*/
if (bitset(RF_COPYPADDR, flags) && addr != NULL)
{
char savec = **delimptr;
if (savec != '\0')
**delimptr = '\0';
e->e_to = addr = sm_rpool_strdup_x(e->e_rpool, addr);
if (savec != '\0')
**delimptr = savec;
}
/*
** Apply rewriting rules.
** Ruleset 0 does basic parsing. It must resolve.
*/
qup = false;
if (REWRITE(pvp, 3, e) == EX_TEMPFAIL)
qup = true;
if (REWRITE(pvp, 0, e) == EX_TEMPFAIL)
qup = true;
/*
** Build canonical address from pvp.
*/
a = buildaddr(pvp, a, flags, e);
if (hasctrlchar(a->q_user, isrcpt, true))
{
if (tTd(20, 1))
sm_dprintf("parseaddr-->bad q_user\n");
/*
** Just mark the address as bad so DSNs work.
** hasctrlchar() has to make sure that the address
** has been sanitized, e.g., shortened.
*/
a->q_state = QS_BADADDR;
}
/*
** Make local copies of the host & user and then
** transport them out.
*/
allocaddr(a, flags, addr, e);
if (QS_IS_BADADDR(a->q_state))
{
/* weed out bad characters in the printable address too */
(void) hasctrlchar(a->q_paddr, isrcpt, false);
return a;
}
/*
** Select a queue directory for recipient addresses.
** This is done here and in split_across_queue_groups(),
** but the latter applies to addresses after aliasing,
** and only if splitting is done.
*/
if ((a->q_qgrp == NOAQGRP || a->q_qgrp == ENVQGRP) &&
!bitset(RF_SENDERADDR|RF_HEADERADDR|RF_RM_ADDR, flags) &&
OpMode != MD_INITALIAS)
{
int r;
/* call ruleset which should return a queue group name */
r = rscap(RS_QUEUEGROUP, a->q_user, NULL, e, &pvp, pvpbuf,
sizeof(pvpbuf));
if (r == EX_OK &&
pvp != NULL && pvp[0] != NULL &&
(pvp[0][0] & 0377) == CANONNET &&
pvp[1] != NULL && pvp[1][0] != '\0')
{
r = name2qid(pvp[1]);
if (r == NOQGRP && LogLevel > 10)
sm_syslog(LOG_INFO, NOQID,
"can't find queue group name %s, selection ignored",
pvp[1]);
if (tTd(20, 4) && r != NOQGRP)
sm_syslog(LOG_INFO, NOQID,
"queue group name %s -> %d",
pvp[1], r);
a->q_qgrp = r == NOQGRP ? ENVQGRP : r;
}
}
/*
** If there was a parsing failure, mark it for queueing.
*/
if (qup && OpMode != MD_INITALIAS)
{
char *msg = "Transient parse error -- message queued for future delivery";
if (e->e_sendmode == SM_DEFER)
msg = "Deferring message until queue run";
if (tTd(20, 1))
sm_dprintf("parseaddr: queueing message\n");
message(msg);
if (e->e_message == NULL && e->e_sendmode != SM_DEFER)
e->e_message = sm_rpool_strdup_x(e->e_rpool, msg);
a->q_state = QS_QUEUEUP;
a->q_status = "4.4.3";
}
/*
** Compute return value.
*/
if (tTd(20, 1))
{
sm_dprintf("parseaddr-->");
printaddr(sm_debug_file(), a, false);
}
return a;
}
/*
** INVALIDADDR -- check for address containing characters used for macros
**
** Parameters:
** addr -- the address to check.
** note: this is the complete address (including display part)
** delimptr -- if non-NULL: end of address to check, i.e.,
** a pointer in the address string.
** isrcpt -- true iff the address is for a recipient.
**
** Returns:
** true -- if the address has characters that are reservered
** for macros or is too long.
** false -- otherwise.
*/
bool
invalidaddr(addr, delimptr, isrcpt)
register char *addr;
char *delimptr;
bool isrcpt;
{
bool result = false;
char savedelim = '\0';
char *b = addr;
int len = 0;
if (delimptr != NULL)
{
/* delimptr points to the end of the address to test */
savedelim = *delimptr;
if (savedelim != '\0') /* if that isn't '\0' already: */
*delimptr = '\0'; /* set it */
}
for (; *addr != '\0'; addr++)
{
if (!EightBitAddrOK && (*addr & 0340) == 0200)
{
setstat(EX_USAGE);
result = true;
*addr = BAD_CHAR_REPLACEMENT;
}
if (++len > MAXNAME - 1)
{
char saved = *addr;
*addr = '\0';
usrerr("553 5.1.0 Address \"%s\" too long (%d bytes max)",
b, MAXNAME - 1);
*addr = saved;
result = true;
goto delim;
}
}
if (result)
{
if (isrcpt)
usrerr("501 5.1.3 8-bit character in mailbox address \"%s\"",
b);
else
usrerr("501 5.1.7 8-bit character in mailbox address \"%s\"",
b);
}
delim:
if (delimptr != NULL && savedelim != '\0')
*delimptr = savedelim; /* restore old character at delimptr */
return result;
}
/*
** HASCTRLCHAR -- check for address containing meta-characters
**
** Checks that the address contains no meta-characters, and contains
** no "non-printable" characters unless they are quoted or escaped.
** Quoted or escaped characters are literals.
**
** Parameters:
** addr -- the address to check.
** isrcpt -- true if the address is for a recipient; false
** indicates a from.
** complain -- true if an error should issued if the address
** is invalid and should be "repaired".
**
** Returns:
** true -- if the address has any "weird" characters or
** non-printable characters or if a quote is unbalanced.
** false -- otherwise.
*/
static bool
hasctrlchar(addr, isrcpt, complain)
register char *addr;
bool isrcpt, complain;
{
bool quoted = false;
int len = 0;
char *result = NULL;
char *b = addr;
if (addr == NULL)
return false;
for (; *addr != '\0'; addr++)
{
if (++len > MAXNAME - 1)
{
if (complain)
{
(void) shorten_rfc822_string(b, MAXNAME - 1);
usrerr("553 5.1.0 Address \"%s\" too long (%d bytes max)",
b, MAXNAME - 1);
return true;
}
result = "too long";
}
if (!EightBitAddrOK && !quoted && (*addr < 32 || *addr == 127))
{
result = "non-printable character";
*addr = BAD_CHAR_REPLACEMENT;
continue;
}
if (*addr == '"')
quoted = !quoted;
else if (*addr == '\\')
{
/* XXX Generic problem: no '\0' in strings. */
if (*++addr == '\0')
{
result = "trailing \\ character";
*--addr = BAD_CHAR_REPLACEMENT;
break;
}
}
if (!EightBitAddrOK && (*addr & 0340) == 0200)
{
setstat(EX_USAGE);
result = "8-bit character";
*addr = BAD_CHAR_REPLACEMENT;
continue;
}
}
if (quoted)
result = "unbalanced quote"; /* unbalanced quote */
if (result != NULL && complain)
{
if (isrcpt)
usrerr("501 5.1.3 Syntax error in mailbox address \"%s\" (%s)",
b, result);
else
usrerr("501 5.1.7 Syntax error in mailbox address \"%s\" (%s)",
b, result);
}
return result != NULL;
}
/*
** ALLOCADDR -- do local allocations of address on demand.
**
** Also lowercases the host name if requested.
**
** Parameters:
** a -- the address to reallocate.
** flags -- the copy flag (see RF_ definitions in sendmail.h
** for a description).
** paddr -- the printname of the address.
** e -- envelope
**
** Returns:
** none.
**
** Side Effects:
** Copies portions of a into local buffers as requested.
*/
static void
allocaddr(a, flags, paddr, e)
register ADDRESS *a;
int flags;
char *paddr;
ENVELOPE *e;
{
if (tTd(24, 4))
sm_dprintf("allocaddr(flags=%x, paddr=%s)\n", flags, paddr);
a->q_paddr = paddr;
if (a->q_user == NULL)
a->q_user = "";
if (a->q_host == NULL)
a->q_host = "";
if (bitset(RF_COPYPARSE, flags))
{
a->q_host = sm_rpool_strdup_x(e->e_rpool, a->q_host);
if (a->q_user != a->q_paddr)
a->q_user = sm_rpool_strdup_x(e->e_rpool, a->q_user);
}
if (a->q_paddr == NULL)
a->q_paddr = sm_rpool_strdup_x(e->e_rpool, a->q_user);
a->q_qgrp = NOAQGRP;
}
/*
** 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) (if the token type
** for left paren is SPC).
**
** 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.
** pvpbsize -- size of pvpbuf.
** delimptr -- if non-NULL, set to the location of the
** terminating delimiter.
** toktab -- if set, a token table to use for parsing.
** If NULL, use the default table.
** ignore -- if true, ignore unbalanced addresses
**
** Returns:
** A pointer to a vector of tokens.
** NULL on error.
*/
/* 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 ILL 5 /* illegal character */
#define NSTATES 6 /* 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 ILL */
/*OPR*/ { OPR|B, ATM|B, QST|B, SPC|MB, ONE|B, ILL|MB },
/*ATM*/ { OPR|B, ATM, QST|B, SPC|MB, ONE|B, ILL|MB },
/*QST*/ { QST, QST, OPR, QST, QST, QST },
/*SPC*/ { OPR, ATM, QST, SPC|M, ONE, ILL|MB },
/*ONE*/ { OPR, OPR, OPR, OPR, OPR, ILL|MB },
/*ILL*/ { OPR|B, ATM|B, QST|B, SPC|MB, ONE|B, ILL|M }
};
/* these all get modified with the OperatorChars */
/* token type table for external strings */
unsigned char ExtTokenTab[256] =
{
/* nul soh stx etx eot enq ack bel bs ht nl vt np cr so si */
ATM,ATM,ATM,ATM,ATM,ATM,ATM,ATM, ATM,SPC,SPC,SPC,SPC,SPC,ATM,ATM,
/* dle dc1 dc2 dc3 dc4 nak syn etb can em sub esc fs gs rs us */
ATM,ATM,ATM,ATM,ATM,ATM,ATM,ATM, ATM,ATM,ATM,ATM,ATM,ATM,ATM,ATM,
/* sp ! " # $ % & ' ( ) * + , - . / */
SPC,ATM,QST,ATM,ATM,ATM,ATM,ATM, SPC,SPC,ATM,ATM,ATM,ATM,ATM,ATM,
/* 0 1 2 3 4 5 6 7 8 9 : ; < = > ? */
ATM,ATM,ATM,ATM,ATM,ATM,ATM,ATM, ATM,ATM,ATM,ATM,ATM,ATM,ATM,ATM,
/* @ A B C D E F G H I J K L M N O */
ATM,ATM,ATM,ATM,ATM,ATM,ATM,ATM, ATM,ATM,ATM,ATM,ATM,ATM,ATM,ATM,
/* P Q R S T U V W X Y Z [ \ ] ^ _ */
ATM,ATM,ATM,ATM,ATM,ATM,ATM,ATM, ATM,ATM,ATM,ATM,ATM,ATM,ATM,ATM,
/* ` a b c d e f g h i j k l m n o */
ATM,ATM,ATM,ATM,ATM,ATM,ATM,ATM, ATM,ATM,ATM,ATM,ATM,ATM,ATM,ATM,
/* p q r s t u v w x y z { | } ~ del */
ATM,ATM,ATM,ATM,ATM,ATM,ATM,ATM, ATM,ATM,ATM,ATM,ATM,ATM,ATM,ATM,
/* nul soh stx etx eot enq ack bel bs ht nl vt np cr so si */
ATM,ATM,ATM,ATM,ATM,ATM,ATM,ATM, ATM,ATM,ATM,ATM,ATM,ATM,ATM,ATM,
/* dle dc1 dc2 dc3 dc4 nak syn etb can em sub esc fs gs rs us */
ATM,ATM,ATM,ATM,ATM,ATM,ATM,ATM, ATM,ATM,ATM,ATM,ATM,ATM,ATM,ATM,
/* sp ! " # $ % & ' ( ) * + , - . / */
ATM,ATM,ATM,ATM,ATM,ATM,ATM,ATM, ATM,ATM,ATM,ATM,ATM,ATM,ATM,ATM,
/* 0 1 2 3 4 5 6 7 8 9 : ; < = > ? */
ATM,ATM,ATM,ATM,ATM,ATM,ATM,ATM, ATM,ATM,ATM,ATM,ATM,ATM,ATM,ATM,
/* @ A B C D E F G H I J K L M N O */
ATM,ATM,ATM,ATM,ATM,ATM,ATM,ATM, ATM,ATM,ATM,ATM,ATM,ATM,ATM,ATM,
/* P Q R S T U V W X Y Z [ \ ] ^ _ */
ATM,ATM,ATM,ATM,ATM,ATM,ATM,ATM, ATM,ATM,ATM,ATM,ATM,ATM,ATM,ATM,
/* ` a b c d e f g h i j k l m n o */
ATM,ATM,ATM,ATM,ATM,ATM,ATM,ATM, ATM,ATM,ATM,ATM,ATM,ATM,ATM,ATM,
/* p q r s t u v w x y z { | } ~ del */
ATM,ATM,ATM,ATM,ATM,ATM,ATM,ATM, ATM,ATM,ATM,ATM,ATM,ATM,ATM,ATM
};
/* token type table for internal strings */
unsigned char IntTokenTab[256] =
{
/* nul soh stx etx eot enq ack bel bs ht nl vt np cr so si */
ATM,ATM,ATM,ATM,ATM,ATM,ATM,ATM, ATM,SPC,SPC,SPC,SPC,SPC,ATM,ATM,
/* dle dc1 dc2 dc3 dc4 nak syn etb can em sub esc fs gs rs us */
ATM,ATM,ATM,ATM,ATM,ATM,ATM,ATM, ATM,ATM,ATM,ATM,ATM,ATM,ATM,ATM,
/* sp ! " # $ % & ' ( ) * + , - . / */
SPC,ATM,QST,ATM,ATM,ATM,ATM,ATM, SPC,SPC,ATM,ATM,ATM,ATM,ATM,ATM,
/* 0 1 2 3 4 5 6 7 8 9 : ; < = > ? */
ATM,ATM,ATM,ATM,ATM,ATM,ATM,ATM, ATM,ATM,ATM,ATM,ATM,ATM,ATM,ATM,
/* @ A B C D E F G H I J K L M N O */
ATM,ATM,ATM,ATM,ATM,ATM,ATM,ATM, ATM,ATM,ATM,ATM,ATM,ATM,ATM,ATM,
/* P Q R S T U V W X Y Z [ \ ] ^ _ */
ATM,ATM,ATM,ATM,ATM,ATM,ATM,ATM, ATM,ATM,ATM,ATM,ATM,ATM,ATM,ATM,
/* ` a b c d e f g h i j k l m n o */
ATM,ATM,ATM,ATM,ATM,ATM,ATM,ATM, ATM,ATM,ATM,ATM,ATM,ATM,ATM,ATM,
/* p q r s t u v w x y z { | } ~ del */
ATM,ATM,ATM,ATM,ATM,ATM,ATM,ATM, ATM,ATM,ATM,ATM,ATM,ATM,ATM,ATM,
/* nul soh stx etx eot enq ack bel bs ht nl vt np cr so si */
OPR,OPR,ONE,OPR,OPR,OPR,OPR,OPR, OPR,OPR,OPR,OPR,OPR,OPR,OPR,OPR,
/* dle dc1 dc2 dc3 dc4 nak syn etb can em sub esc fs gs rs us */
OPR,OPR,OPR,ONE,ONE,ONE,OPR,OPR, OPR,OPR,OPR,OPR,OPR,OPR,OPR,OPR,
/* sp ! " # $ % & ' ( ) * + , - . / */
ATM,ATM,ATM,ATM,ATM,ATM,ATM,ATM, ATM,ATM,ATM,ATM,ATM,ATM,ATM,ATM,
/* 0 1 2 3 4 5 6 7 8 9 : ; < = > ? */
ATM,ATM,ATM,ATM,ATM,ATM,ATM,ATM, ATM,ATM,ATM,ATM,ATM,ATM,ATM,ATM,
/* @ A B C D E F G H I J K L M N O */
ATM,ATM,ATM,ATM,ATM,ATM,ATM,ATM, ATM,ATM,ATM,ATM,ATM,ATM,ATM,ATM,
/* P Q R S T U V W X Y Z [ \ ] ^ _ */
ATM,ATM,ATM,ATM,ATM,ATM,ATM,ATM, ATM,ATM,ATM,ATM,ATM,ATM,ATM,ATM,
/* ` a b c d e f g h i j k l m n o */
ATM,ATM,ATM,ATM,ATM,ATM,ATM,ATM, ATM,ATM,ATM,ATM,ATM,ATM,ATM,ATM,
/* p q r s t u v w x y z { | } ~ del */
ATM,ATM,ATM,ATM,ATM,ATM,ATM,ATM, ATM,ATM,ATM,ATM,ATM,ATM,ATM,ONE
};
/* token type table for MIME parsing */
unsigned char MimeTokenTab[256] =
{
/* nul soh stx etx eot enq ack bel bs ht nl vt np cr so si */
ILL,ILL,ILL,ILL,ILL,ILL,ILL,ILL, ILL,SPC,SPC,SPC,SPC,SPC,ILL,ILL,
/* dle dc1 dc2 dc3 dc4 nak syn etb can em sub esc fs gs rs us */
ILL,ILL,ILL,ILL,ILL,ILL,ILL,ILL, ILL,ILL,ILL,ILL,ILL,ILL,ILL,ILL,
/* sp ! " # $ % & ' ( ) * + , - . / */
SPC,ATM,QST,ATM,ATM,ATM,ATM,ATM, SPC,SPC,ATM,ATM,OPR,ATM,ATM,OPR,
/* 0 1 2 3 4 5 6 7 8 9 : ; < = > ? */
ATM,ATM,ATM,ATM,ATM,ATM,ATM,ATM, ATM,ATM,OPR,OPR,OPR,OPR,OPR,OPR,
/* @ A B C D E F G H I J K L M N O */
OPR,ATM,ATM,ATM,ATM,ATM,ATM,ATM, ATM,ATM,ATM,ATM,ATM,ATM,ATM,ATM,
/* P Q R S T U V W X Y Z [ \ ] ^ _ */
ATM,ATM,ATM,ATM,ATM,ATM,ATM,ATM, ATM,ATM,ATM,OPR,OPR,OPR,ATM,ATM,
/* ` a b c d e f g h i j k l m n o */
ATM,ATM,ATM,ATM,ATM,ATM,ATM,ATM, ATM,ATM,ATM,ATM,ATM,ATM,ATM,ATM,
/* p q r s t u v w x y z { | } ~ del */
ATM,ATM,ATM,ATM,ATM,ATM,ATM,ATM, ATM,ATM,ATM,ATM,ATM,ATM,ATM,ATM,
/* nul soh stx etx eot enq ack bel bs ht nl vt np cr so si */
ILL,ILL,ILL,ILL,ILL,ILL,ILL,ILL, ILL,ILL,ILL,ILL,ILL,ILL,ILL,ILL,
/* dle dc1 dc2 dc3 dc4 nak syn etb can em sub esc fs gs rs us */
ILL,ILL,ILL,ILL,ILL,ILL,ILL,ILL, ILL,ILL,ILL,ILL,ILL,ILL,ILL,ILL,
/* sp ! " # $ % & ' ( ) * + , - . / */
ILL,ILL,ILL,ILL,ILL,ILL,ILL,ILL, ILL,ILL,ILL,ILL,ILL,ILL,ILL,ILL,
/* 0 1 2 3 4 5 6 7 8 9 : ; < = > ? */
ILL,ILL,ILL,ILL,ILL,ILL,ILL,ILL, ILL,ILL,ILL,ILL,ILL,ILL,ILL,ILL,
/* @ A B C D E F G H I J K L M N O */
ILL,ILL,ILL,ILL,ILL,ILL,ILL,ILL, ILL,ILL,ILL,ILL,ILL,ILL,ILL,ILL,
/* P Q R S T U V W X Y Z [ \ ] ^ _ */
ILL,ILL,ILL,ILL,ILL,ILL,ILL,ILL, ILL,ILL,ILL,ILL,ILL,ILL,ILL,ILL,
/* ` a b c d e f g h i j k l m n o */
ILL,ILL,ILL,ILL,ILL,ILL,ILL,ILL, ILL,ILL,ILL,ILL,ILL,ILL,ILL,ILL,
/* p q r s t u v w x y z { | } ~ del */
ILL,ILL,ILL,ILL,ILL,ILL,ILL,ILL, ILL,ILL,ILL,ILL,ILL,ILL,ILL,ONE
};
/* token type table: don't strip comments */
unsigned char TokTypeNoC[256] =
{
/* nul soh stx etx eot enq ack bel bs ht nl vt np cr so si */
ATM,ATM,ATM,ATM,ATM,ATM,ATM,ATM, ATM,SPC,SPC,SPC,SPC,SPC,ATM,ATM,
/* dle dc1 dc2 dc3 dc4 nak syn etb can em sub esc fs gs rs us */
ATM,ATM,ATM,ATM,ATM,ATM,ATM,ATM, ATM,ATM,ATM,ATM,ATM,ATM,ATM,ATM,
/* sp ! " # $ % & ' ( ) * + , - . / */
SPC,ATM,QST,ATM,ATM,ATM,ATM,ATM, OPR,OPR,ATM,ATM,ATM,ATM,ATM,ATM,
/* 0 1 2 3 4 5 6 7 8 9 : ; < = > ? */
ATM,ATM,ATM,ATM,ATM,ATM,ATM,ATM, ATM,ATM,ATM,ATM,ATM,ATM,ATM,ATM,
/* @ A B C D E F G H I J K L M N O */
ATM,ATM,ATM,ATM,ATM,ATM,ATM,ATM, ATM,ATM,ATM,ATM,ATM,ATM,ATM,ATM,
/* P Q R S T U V W X Y Z [ \ ] ^ _ */
ATM,ATM,ATM,ATM,ATM,ATM,ATM,ATM, ATM,ATM,ATM,ATM,ATM,ATM,ATM,ATM,
/* ` a b c d e f g h i j k l m n o */
ATM,ATM,ATM,ATM,ATM,ATM,ATM,ATM, ATM,ATM,ATM,ATM,ATM,ATM,ATM,ATM,
/* p q r s t u v w x y z { | } ~ del */
ATM,ATM,ATM,ATM,ATM,ATM,ATM,ATM, ATM,ATM,ATM,ATM,ATM,ATM,ATM,ATM,
/* nul soh stx etx eot enq ack bel bs ht nl vt np cr so si */
OPR,OPR,ONE,OPR,OPR,OPR,OPR,OPR, OPR,OPR,OPR,OPR,OPR,OPR,OPR,OPR,
/* dle dc1 dc2 dc3 dc4 nak syn etb can em sub esc fs gs rs us */
OPR,OPR,OPR,ONE,ONE,ONE,OPR,OPR, OPR,OPR,OPR,OPR,OPR,OPR,OPR,OPR,
/* sp ! " # $ % & ' ( ) * + , - . / */
ATM,ATM,ATM,ATM,ATM,ATM,ATM,ATM, ATM,ATM,ATM,ATM,ATM,ATM,ATM,ATM,
/* 0 1 2 3 4 5 6 7 8 9 : ; < = > ? */
ATM,ATM,ATM,ATM,ATM,ATM,ATM,ATM, ATM,ATM,ATM,ATM,ATM,ATM,ATM,ATM,
/* @ A B C D E F G H I J K L M N O */
ATM,ATM,ATM,ATM,ATM,ATM,ATM,ATM, ATM,ATM,ATM,ATM,ATM,ATM,ATM,ATM,
/* P Q R S T U V W X Y Z [ \ ] ^ _ */
ATM,ATM,ATM,ATM,ATM,ATM,ATM,ATM, ATM,ATM,ATM,ATM,ATM,ATM,ATM,ATM,
/* ` a b c d e f g h i j k l m n o */
ATM,ATM,ATM,ATM,ATM,ATM,ATM,ATM, ATM,ATM,ATM,ATM,ATM,ATM,ATM,ATM,
/* p q r s t u v w x y z { | } ~ del */
ATM,ATM,ATM,ATM,ATM,ATM,ATM,ATM, ATM,ATM,ATM,ATM,ATM,ATM,ATM,ONE
};
#define NOCHAR (-1) /* signal nothing in lookahead token */
char **
prescan(addr, delim, pvpbuf, pvpbsize, delimptr, toktab, ignore)
char *addr;
int delim;
char pvpbuf[];
int pvpbsize;
char **delimptr;
unsigned char *toktab;
bool ignore;
{
register char *p;
register char *q;
register int c;
char **avp;
bool bslashmode;
bool route_syntax;
int cmntcnt;
int anglecnt;
char *tok;
int state;
int newstate;
char *saveto = CurEnv->e_to;
static char *av[MAXATOM + 1];
static bool firsttime = true;
if (firsttime)
{
/* initialize the token type table */
char obuf[50];
firsttime = false;
if (OperatorChars == NULL)
{
if (ConfigLevel < 7)
OperatorChars = macvalue('o', CurEnv);
if (OperatorChars == NULL)
OperatorChars = ".:@[]";
}
expand(OperatorChars, obuf, sizeof(obuf) - sizeof(DELIMCHARS),
CurEnv);
(void) sm_strlcat(obuf, DELIMCHARS, sizeof(obuf));
for (p = obuf; *p != '\0'; p++)
{
if (IntTokenTab[*p & 0xff] == ATM)
IntTokenTab[*p & 0xff] = OPR;
if (ExtTokenTab[*p & 0xff] == ATM)
ExtTokenTab[*p & 0xff] = OPR;
if (TokTypeNoC[*p & 0xff] == ATM)
TokTypeNoC[*p & 0xff] = OPR;
}
}
if (toktab == NULL)
toktab = ExtTokenTab;
/* make sure error messages don't have garbage on them */
errno = 0;
q = pvpbuf;
bslashmode = false;
route_syntax = false;
cmntcnt = 0;
anglecnt = 0;
avp = av;
state = ATM;
c = NOCHAR;
p = addr;
CurEnv->e_to = p;
if (tTd(22, 11))
{
sm_dprintf("prescan: ");
xputs(sm_debug_file(), p);
sm_dprintf("\n");
}
do
{
/* read a token */
tok = q;
for (;;)
{
/* store away any old lookahead character */
if (c != NOCHAR && !bslashmode)
{
/* see if there is room */
if (q >= &pvpbuf[pvpbsize - 5])
{
addrtoolong:
usrerr("553 5.1.1 Address too long");
if (strlen(addr) > MAXNAME)
addr[MAXNAME] = '\0';
returnnull:
if (delimptr != NULL)
{
if (p > addr)
--p;
*delimptr = p;
}
CurEnv->e_to = saveto;
return NULL;
}
/* squirrel it away */
#if !ALLOW_255
if ((char) c == (char) -1 && !tTd(82, 101) &&
!EightBitAddrOK)
c &= 0x7f;
#endif /* !ALLOW_255 */
*q++ = c;
}
/* read a new input character */
c = (*p++) & 0x00ff;
if (c == '\0')
{
/* diagnose and patch up bad syntax */
if (ignore)
break;
else if (state == QST)
{
usrerr("553 Unbalanced '\"'");
c = '"';
}
else if (cmntcnt > 0)
{
usrerr("553 Unbalanced '('");
c = ')';
}
else if (anglecnt > 0)
{
c = '>';
usrerr("553 Unbalanced '<'");
}
else
break;
p--;
}
else if (c == delim && cmntcnt <= 0 && state != QST)
{
if (anglecnt <= 0)
break;
/* special case for better error management */
if (delim == ',' && !route_syntax && !ignore)
{
usrerr("553 Unbalanced '<'");
c = '>';
p--;
}
}
if (tTd(22, 101))
sm_dprintf("c=%c, s=%d; ", c, state);
/* chew up special characters */
*q = '\0';
if (bslashmode)
{
bslashmode = false;
/* kludge \! for naive users */
if (cmntcnt > 0)
{
c = NOCHAR;
continue;
}
else if (c != '!' || state == QST)
{
/* see if there is room */
if (q >= &pvpbuf[pvpbsize - 5])
goto addrtoolong;
*q++ = '\\';
continue;
}
}
if (c == '\\')
{
bslashmode = true;
}
else if (state == QST)
{
/* EMPTY */
/* do nothing, just avoid next clauses */
}
else if (c == '(' && toktab['('] == SPC)
{
cmntcnt++;
c = NOCHAR;
}
else if (c == ')' && toktab['('] == SPC)
{
if (cmntcnt <= 0)
{
if (!ignore)
{
usrerr("553 Unbalanced ')'");
c = NOCHAR;
}
}
else
cmntcnt--;
}
else if (cmntcnt > 0)
{
c = NOCHAR;
}
else if (c == '<')
{
char *ptr = p;
anglecnt++;
while (isascii(*ptr) && isspace(*ptr))
ptr++;
if (*ptr == '@')
route_syntax = true;
}
else if (c == '>')
{
if (anglecnt <= 0)
{
if (!ignore)
{
usrerr("553 Unbalanced '>'");
c = NOCHAR;
}
}
else
anglecnt--;
route_syntax = false;
}
else if (delim == ' ' && isascii(c) && 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][toktab[c & 0xff]];
if (tTd(22, 101))
sm_dprintf("ns=%02o\n", newstate);
state = newstate & TYPE;
if (state == ILL)
{
if (isascii(c) && isprint(c))
usrerr("553 Illegal character %c", c);
else
usrerr("553 Illegal character 0x%02x",
c & 0x0ff);
}
if (bitset(M, newstate))
c = NOCHAR;
if (bitset(B, newstate))
break;
}
/* new token */
if (tok != q)
{
/* see if there is room */
if (q >= &pvpbuf[pvpbsize - 5])
goto addrtoolong;
*q++ = '\0';
if (tTd(22, 36))
{
sm_dprintf("tok=");
xputs(sm_debug_file(), tok);
sm_dprintf("\n");
}
if (avp >= &av[MAXATOM])
{
usrerr("553 5.1.0 prescan: too many tokens");
goto returnnull;
}
if (q - tok > MAXNAME)
{
usrerr("553 5.1.0 prescan: token too long");
goto returnnull;
}
*avp++ = tok;
}
} while (c != '\0' && (c != delim || anglecnt > 0));
*avp = NULL;
if (delimptr != NULL)
{
if (p > addr)
p--;
*delimptr = p;
}
if (tTd(22, 12))
{
sm_dprintf("prescan==>");
printav(sm_debug_file(), av);
}
CurEnv->e_to = saveto;
if (av[0] == NULL)
{
if (tTd(22, 1))
sm_dprintf("prescan: null leading token\n");
return NULL;
}
return av;
}
/*
** 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.
** ruleset -- the ruleset to use for rewriting.
** reclevel -- recursion level (to catch loops).
** e -- the current envelope.
** maxatom -- maximum length of buffer (usually MAXATOM)
**
** Returns:
** A status code. If EX_TEMPFAIL, higher level code should
** attempt recovery.
**
** Side Effects:
** pvp is modified.
*/
struct match
{
char **match_first; /* first token matched */
char **match_last; /* last token matched */
char **match_pattern; /* pointer to pattern */
};
int
rewrite(pvp, ruleset, reclevel, e, maxatom)
char **pvp;
int ruleset;
int reclevel;
register ENVELOPE *e;
int maxatom;
{
register char *ap; /* address pointer */
register char *rp; /* rewrite pointer */
register char *rulename; /* ruleset name */
register char *prefix;
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 */
int ruleno; /* current rule number */
int rstat = EX_OK; /* return status */
int loopcount;
struct match mlist[MAXMATCH]; /* stores match on LHS */
char *npvp[MAXATOM + 1]; /* temporary space for rebuild */
char buf[MAXLINE];
char name[6];
/*
** mlp will not exceed mlist[] because readcf enforces
** the upper limit of entries when reading rulesets.
*/
if (ruleset < 0 || ruleset >= MAXRWSETS)
{
syserr("554 5.3.5 rewrite: illegal ruleset number %d", ruleset);
return EX_CONFIG;
}
rulename = RuleSetNames[ruleset];
if (rulename == NULL)
{
(void) sm_snprintf(name, sizeof(name), "%d", ruleset);
rulename = name;
}
if (OpMode == MD_TEST)
prefix = "";
else
prefix = "rewrite: ruleset ";
if (OpMode == MD_TEST)
{
(void) sm_io_fprintf(smioout, SM_TIME_DEFAULT,
"%s%-16.16s input:", prefix, rulename);
printav(smioout, pvp);
}
else if (tTd(21, 1))
{
sm_dprintf("%s%-16.16s input:", prefix, rulename);
printav(sm_debug_file(), pvp);
}
if (reclevel++ > MaxRuleRecursion)
{
syserr("rewrite: excessive recursion (max %d), ruleset %s",
MaxRuleRecursion, rulename);
return EX_CONFIG;
}
if (pvp == NULL)
return EX_USAGE;
if (maxatom <= 0)
return EX_USAGE;
/*
** Run through the list of rewrite rules, applying
** any that match.
*/
ruleno = 1;
loopcount = 0;
for (rwr = RewriteRules[ruleset]; rwr != NULL; )
{
int status;
/* if already canonical, quit now */
if (pvp[0] != NULL && (pvp[0][0] & 0377) == CANONNET)
break;
if (tTd(21, 12))
{
if (tTd(21, 15))
sm_dprintf("-----trying rule (line %d):",
rwr->r_line);
else
sm_dprintf("-----trying rule:");
printav(sm_debug_file(), rwr->r_lhs);
}
/* try to match on this rule */
mlp = mlist;
rvp = rwr->r_lhs;
avp = pvp;
if (++loopcount > 100)
{
syserr("554 5.3.5 Infinite loop in ruleset %s, rule %d",
rulename, ruleno);
if (tTd(21, 1))
{
sm_dprintf("workspace: ");
printav(sm_debug_file(), pvp);
}
break;
}
while ((ap = *avp) != NULL || *rvp != NULL)
{
rp = *rvp;
if (tTd(21, 35))
{
sm_dprintf("ADVANCE rp=");
xputs(sm_debug_file(), rp);
sm_dprintf(", ap=");
xputs(sm_debug_file(), ap);
sm_dprintf("\n");
}
if (rp == NULL)
{
/* end-of-pattern before end-of-address */
goto backup;
}
if (ap == NULL &&
(rp[0] & 0377) != MATCHZANY &&
(rp[0] & 0377) != MATCHZERO)
{
/* end-of-input with patterns left */
goto backup;
}
switch (rp[0] & 0377)
{
case MATCHCLASS:
/* match any phrase in a class */
mlp->match_pattern = rvp;
mlp->match_first = avp;
extendclass:
ap = *avp;
if (ap == NULL)
goto backup;
mlp->match_last = avp++;
cataddr(mlp->match_first, mlp->match_last,
buf, sizeof(buf), '\0', true);
if (!wordinclass(buf, rp[1]))
{
if (tTd(21, 36))
{
sm_dprintf("EXTEND rp=");
xputs(sm_debug_file(), rp);
sm_dprintf(", ap=");
xputs(sm_debug_file(), ap);
sm_dprintf("\n");
}
goto extendclass;
}
if (tTd(21, 36))
sm_dprintf("CLMATCH\n");
mlp++;
break;
case MATCHNCLASS:
/* match any token not in a class */
if (wordinclass(ap, rp[1]))
goto backup;
/* FALLTHROUGH */
case MATCHONE:
case MATCHANY:
/* match exactly one token */
mlp->match_pattern = rvp;
mlp->match_first = avp;
mlp->match_last = avp++;
mlp++;
break;
case MATCHZANY:
/* match zero or more tokens */
mlp->match_pattern = rvp;
mlp->match_first = avp;
mlp->match_last = avp - 1;
mlp++;
break;
case MATCHZERO:
/* match zero tokens */
break;
case MACRODEXPAND:
/*
** Match against run-time macro.
** This algorithm is broken for the
** general case (no recursive macros,
** improper tokenization) but should
** work for the usual cases.
*/
ap = macvalue(rp[1], e);
mlp->match_first = avp;
if (tTd(21, 2))
sm_dprintf("rewrite: LHS $&{%s} => \"%s\"\n",
macname(rp[1]),
ap == NULL ? "(NULL)" : ap);
if (ap == NULL)
break;
while (*ap != '\0')
{
if (*avp == NULL ||
sm_strncasecmp(ap, *avp,
strlen(*avp)) != 0)
{
/* no match */
avp = mlp->match_first;
goto backup;
}
ap += strlen(*avp++);
}
/* match */
break;
default:
/* must have exact match */
if (sm_strcasecmp(rp, ap))
goto backup;
avp++;
break;
}
/* successful match on this token */
rvp++;
continue;
backup:
/* match failed -- back up */
while (--mlp >= mlist)
{
rvp = mlp->match_pattern;
rp = *rvp;
avp = mlp->match_last + 1;
ap = *avp;
if (tTd(21, 36))
{
sm_dprintf("BACKUP rp=");
xputs(sm_debug_file(), rp);
sm_dprintf(", ap=");
xputs(sm_debug_file(), ap);
sm_dprintf("\n");
}
if (ap == NULL)
{
/* run off the end -- back up again */
continue;
}
if ((rp[0] & 0377) == MATCHANY ||
(rp[0] & 0377) == MATCHZANY)
{
/* extend binding and continue */
mlp->match_last = avp++;
rvp++;
mlp++;
break;
}
if ((rp[0] & 0377) == MATCHCLASS)
{
/* extend binding and try again */
mlp->match_last = avp;
goto extendclass;
}
}
if (mlp < mlist)
{
/* total failure to match */
break;
}
}
/*
** See if we successfully matched
*/
if (mlp < mlist || *rvp != NULL)
{
if (tTd(21, 10))
sm_dprintf("----- rule fails\n");
rwr = rwr->r_next;
ruleno++;
loopcount = 0;
continue;
}
rvp = rwr->r_rhs;
if (tTd(21, 12))
{
sm_dprintf("-----rule matches:");
printav(sm_debug_file(), rvp);
}
rp = *rvp;
if (rp != NULL)
{
if ((rp[0] & 0377) == CANONUSER)
{
rvp++;
rwr = rwr->r_next;
ruleno++;
loopcount = 0;
}
else if ((rp[0] & 0377) == CANONHOST)
{
rvp++;
rwr = NULL;
}
}
/* substitute */
for (avp = npvp; *rvp != NULL; rvp++)
{
register struct match *m;
register char **pp;
rp = *rvp;
if ((rp[0] & 0377) == MATCHREPL)
{
/* substitute from LHS */
m = &mlist[rp[1] - '1'];
if (m < mlist || m >= mlp)
{
syserr("554 5.3.5 rewrite: ruleset %s: replacement $%c out of bounds",
rulename, rp[1]);
return EX_CONFIG;
}
if (tTd(21, 15))
{
sm_dprintf("$%c:", rp[1]);
pp = m->match_first;
while (pp <= m->match_last)
{
sm_dprintf(" %p=\"", *pp);
sm_dflush();
sm_dprintf("%s\"", *pp++);
}
sm_dprintf("\n");
}
pp = m->match_first;
while (pp <= m->match_last)
{
if (avp >= &npvp[maxatom])
goto toolong;
*avp++ = *pp++;
}
}
else
{
/* some sort of replacement */
if (avp >= &npvp[maxatom])
{
toolong:
syserr("554 5.3.0 rewrite: expansion too long");
if (LogLevel > 9)
sm_syslog(LOG_ERR, e->e_id,
"rewrite: expansion too long, ruleset=%s, ruleno=%d",
rulename, ruleno);
return EX_DATAERR;
}
if ((rp[0] & 0377) != MACRODEXPAND)
{
/* vanilla replacement from RHS */
*avp++ = rp;
}
else
{
/* $&{x} replacement */
char *mval = macvalue(rp[1], e);
char **xpvp;
size_t trsize = 0;
static size_t pvpb1_size = 0;
static char **pvpb1 = NULL;
char pvpbuf[PSBUFSIZE];
if (tTd(21, 2))
sm_dprintf("rewrite: RHS $&{%s} => \"%s\"\n",
macname(rp[1]),
mval == NULL ? "(NULL)" : mval);
if (mval == NULL || *mval == '\0')
continue;
/* save the remainder of the input */
for (xpvp = pvp; *xpvp != NULL; xpvp++)
trsize += sizeof(*xpvp);
if (trsize > pvpb1_size)
{
if (pvpb1 != NULL)
sm_free(pvpb1);
pvpb1 = (char **)
sm_pmalloc_x(trsize);
pvpb1_size = trsize;
}
memmove((char *) pvpb1,
(char *) pvp,
trsize);
/* scan the new replacement */
xpvp = prescan(mval, '\0', pvpbuf,
sizeof(pvpbuf), NULL,
NULL, false);
if (xpvp == NULL)
{
/* prescan pre-printed error */
return EX_DATAERR;
}
/* insert it into the output stream */
while (*xpvp != NULL)
{
if (tTd(21, 19))
sm_dprintf(" ... %s\n",
*xpvp);
*avp++ = sm_rpool_strdup_x(
e->e_rpool, *xpvp);
if (avp >= &npvp[maxatom])
goto toolong;
xpvp++;
}
if (tTd(21, 19))
sm_dprintf(" ... DONE\n");
/* restore the old trailing input */
memmove((char *) pvp,
(char *) pvpb1,
trsize);
}
}
}
*avp++ = NULL;
/*
** Check for any hostname/keyword lookups.
*/
for (rvp = npvp; *rvp != NULL; rvp++)
{
char **hbrvp;
char **xpvp;
size_t trsize;
char *replac;
int endtoken;
bool external;
STAB *map;
char *mapname;
char **key_rvp;
char **arg_rvp;
char **default_rvp;
char cbuf[MAXKEY];
char *pvpb1[MAXATOM + 1];
char *argvect[MAX_MAP_ARGS];
char pvpbuf[PSBUFSIZE];
char *nullpvp[1];
hbrvp = rvp;
if ((rvp[0][0] & 0377) == HOSTBEGIN)
{
endtoken = HOSTEND;
mapname = "host";
}
else if ((rvp[0][0] & 0377) == LOOKUPBEGIN)
{
endtoken = LOOKUPEND;
mapname = *++rvp;
if (mapname == NULL)
{
syserr("554 5.3.0 rewrite: missing mapname");
/* NOTREACHED */
SM_ASSERT(0);
}
}
else
continue;
/*
** Got a hostname/keyword lookup.
**
** This could be optimized fairly easily.
*/
map = stab(mapname, ST_MAP, ST_FIND);
if (map == NULL)
syserr("554 5.3.0 rewrite: map %s not found",
mapname);
/* extract the match part */
key_rvp = ++rvp;
if (key_rvp == NULL)
{
syserr("554 5.3.0 rewrite: missing key for map %s",
mapname);
/* NOTREACHED */
SM_ASSERT(0);
}
default_rvp = NULL;
arg_rvp = argvect;
xpvp = NULL;
replac = pvpbuf;
while (*rvp != NULL && ((rvp[0][0] & 0377) != endtoken))
{
int nodetype = rvp[0][0] & 0377;
if (nodetype != CANONHOST &&
nodetype != CANONUSER)
{
rvp++;
continue;
}
*rvp++ = NULL;
if (xpvp != NULL)
{
cataddr(xpvp, NULL, replac,
&pvpbuf[sizeof(pvpbuf)] - replac,
'\0', false);
if (arg_rvp <
&argvect[MAX_MAP_ARGS - 1])
*++arg_rvp = replac;
replac += strlen(replac) + 1;
xpvp = NULL;
}
switch (nodetype)
{
case CANONHOST:
xpvp = rvp;
break;
case CANONUSER:
default_rvp = rvp;
break;
}
}
if (*rvp != NULL)
*rvp++ = NULL;
if (xpvp != NULL)
{
cataddr(xpvp, NULL, replac,
&pvpbuf[sizeof(pvpbuf)] - replac,
'\0', false);
if (arg_rvp < &argvect[MAX_MAP_ARGS - 1])
*++arg_rvp = replac;
}
if (arg_rvp >= &argvect[MAX_MAP_ARGS - 1])
argvect[MAX_MAP_ARGS - 1] = NULL;
else
*++arg_rvp = NULL;
/* save the remainder of the input string */
trsize = (avp - rvp + 1) * sizeof(*rvp);
memmove((char *) pvpb1, (char *) rvp, trsize);
/* look it up */
cataddr(key_rvp, NULL, cbuf, sizeof(cbuf),
map == NULL ? '\0' : map->s_map.map_spacesub,
true);
argvect[0] = cbuf;
replac = map_lookup(map, cbuf, argvect, &rstat, e);
external = replac != NULL;
/* if no replacement, use default */
if (replac == NULL && default_rvp != NULL)
{
/* create the default */
cataddr(default_rvp, NULL, cbuf, sizeof(cbuf),
'\0', false);
replac = cbuf;
}
if (replac == NULL)
{
xpvp = key_rvp;
}
else if (*replac == '\0')
{
/* null replacement */
nullpvp[0] = NULL;
xpvp = nullpvp;
}
else
{
/* scan the new replacement */
xpvp = prescan(replac, '\0', pvpbuf,
sizeof(pvpbuf), NULL,
external ? NULL : IntTokenTab,
false);
if (xpvp == NULL)
{
/* prescan already printed error */
return EX_DATAERR;
}
}
/* append it to the token list */
for (avp = hbrvp; *xpvp != NULL; xpvp++)
{
*avp++ = sm_rpool_strdup_x(e->e_rpool, *xpvp);
if (avp >= &npvp[maxatom])
goto toolong;
}
/* restore the old trailing information */
rvp = avp - 1;
for (xpvp = pvpb1; (*avp++ = *xpvp++) != NULL; )
if (avp >= &npvp[maxatom])
goto toolong;
}
/*
** Check for subroutine calls.
*/
status = callsubr(npvp, reclevel, e);
if (rstat == EX_OK || status == EX_TEMPFAIL)
rstat = status;
/* copy vector back into original space. */
for (avp = npvp; *avp++ != NULL;)
continue;
memmove((char *) pvp, (char *) npvp,
(int) (avp - npvp) * sizeof(*avp));
if (tTd(21, 4))
{
sm_dprintf("rewritten as:");
printav(sm_debug_file(), pvp);
}
}
if (OpMode == MD_TEST)
{
(void) sm_io_fprintf(smioout, SM_TIME_DEFAULT,
"%s%-16.16s returns:", prefix, rulename);
printav(smioout, pvp);
}
else if (tTd(21, 1))
{
sm_dprintf("%s%-16.16s returns:", prefix, rulename);
printav(sm_debug_file(), pvp);
}
return rstat;
}
/*
** CALLSUBR -- call subroutines in rewrite vector
**
** Parameters:
** pvp -- pointer to token vector.
** reclevel -- the current recursion level.
** e -- the current envelope.
**
** Returns:
** The status from the subroutine call.
**
** Side Effects:
** pvp is modified.
*/
static int
callsubr(pvp, reclevel, e)
char **pvp;
int reclevel;
ENVELOPE *e;
{
char **avp;
register int i;
int subr, j;
int nsubr;
int status;
int rstat = EX_OK;
#define MAX_SUBR 16
int subrnumber[MAX_SUBR];
int subrindex[MAX_SUBR];
nsubr = 0;
/*
** Look for subroutine calls in pvp, collect them into subr*[]
** We will perform the calls in the next loop, because we will
** call the "last" subroutine first to avoid recursive calls
** and too much copying.
*/
for (avp = pvp, j = 0; *avp != NULL; avp++, j++)
{
if ((avp[0][0] & 0377) == CALLSUBR && avp[1] != NULL)
{
stripquotes(avp[1]);
subr = strtorwset(avp[1], NULL, ST_FIND);
if (subr < 0)
{
syserr("554 5.3.5 Unknown ruleset %s", avp[1]);
return EX_CONFIG;
}
/*
** XXX instead of doing this we could optimize
** the rules after reading them: just remove
** calls to empty rulesets
*/
/* subroutine is an empty ruleset? don't call it */
if (RewriteRules[subr] == NULL)
{
if (tTd(21, 3))
sm_dprintf("-----skip subr %s (%d)\n",
avp[1], subr);
for (i = 2; avp[i] != NULL; i++)
avp[i - 2] = avp[i];
avp[i - 2] = NULL;
continue;
}
if (++nsubr >= MAX_SUBR)
{
syserr("554 5.3.0 Too many subroutine calls (%d max)",
MAX_SUBR);
return EX_CONFIG;
}
subrnumber[nsubr] = subr;
subrindex[nsubr] = j;
}
}
/*
** Perform the actual subroutines calls, "last" one first, i.e.,
** go from the right to the left through all calls,
** do the rewriting in place.
*/
for (; nsubr > 0; nsubr--)
{
subr = subrnumber[nsubr];
avp = pvp + subrindex[nsubr];
/* remove the subroutine call and name */
for (i = 2; avp[i] != NULL; i++)
avp[i - 2] = avp[i];
avp[i - 2] = NULL;
/*
** Now we need to call the ruleset specified for
** the subroutine. We can do this in place since
** we call the "last" subroutine first.
*/
status = rewrite(avp, subr, reclevel, e,
MAXATOM - subrindex[nsubr]);
if (status != EX_OK && status != EX_TEMPFAIL)
return status;
if (rstat == EX_OK || status == EX_TEMPFAIL)
rstat = status;
}
return rstat;
}
/*
** MAP_LOOKUP -- do lookup in map
**
** Parameters:
** smap -- the map to use for the lookup.
** key -- the key to look up.
** argvect -- arguments to pass to the map lookup.
** pstat -- a pointer to an integer in which to store the
** status from the lookup.
** e -- the current envelope.
**
** Returns:
** The result of the lookup.
** NULL -- if there was no data for the given key.
*/
static char *
map_lookup(smap, key, argvect, pstat, e)
STAB *smap;
char key[];
char **argvect;
int *pstat;
ENVELOPE *e;
{
auto int status = EX_OK;
MAP *map;
char *replac;
if (smap == NULL)
return NULL;
map = &smap->s_map;
DYNOPENMAP(map);
if (e->e_sendmode == SM_DEFER &&
bitset(MF_DEFER, map->map_mflags))
{
/* don't do any map lookups */
if (tTd(60, 1))
sm_dprintf("map_lookup(%s, %s) => DEFERRED\n",
smap->s_name, key);
*pstat = EX_TEMPFAIL;
return NULL;
}
if (!bitset(MF_KEEPQUOTES, map->map_mflags))
stripquotes(key);
if (tTd(60, 1))
{
sm_dprintf("map_lookup(%s, ", smap->s_name);
xputs(sm_debug_file(), key);
if (tTd(60, 5))
{
int i;
for (i = 0; argvect[i] != NULL; i++)
sm_dprintf(", %%%d=%s", i, argvect[i]);
}
sm_dprintf(") => ");
}
replac = (*map->map_class->map_lookup)(map, key, argvect, &status);
if (tTd(60, 1))
sm_dprintf("%s (%d)\n",
replac != NULL ? replac : "NOT FOUND",
status);
/* should recover if status == EX_TEMPFAIL */
if (status == EX_TEMPFAIL && !bitset(MF_NODEFER, map->map_mflags))
{
*pstat = EX_TEMPFAIL;
if (tTd(60, 1))
sm_dprintf("map_lookup(%s, %s) tempfail: errno=%d\n",
smap->s_name, key, errno);
if (e->e_message == NULL)
{
char mbuf[320];
(void) sm_snprintf(mbuf, sizeof(mbuf),
"%.80s map: lookup (%s): deferred",
smap->s_name,
shortenstring(key, MAXSHORTSTR));
e->e_message = sm_rpool_strdup_x(e->e_rpool, mbuf);
}
}
if (status == EX_TEMPFAIL && map->map_tapp != NULL)
{
size_t i = strlen(key) + strlen(map->map_tapp) + 1;
static char *rwbuf = NULL;
static size_t rwbuflen = 0;
if (i > rwbuflen)
{
if (rwbuf != NULL)
sm_free(rwbuf);
rwbuflen = i;
rwbuf = (char *) sm_pmalloc_x(rwbuflen);
}
(void) sm_strlcpyn(rwbuf, rwbuflen, 2, key, map->map_tapp);
if (tTd(60, 4))
sm_dprintf("map_lookup tempfail: returning \"%s\"\n",
rwbuf);
return rwbuf;
}
return replac;
}
/*
** INITERRMAILERS -- initialize error and discard mailers
**
** Parameters:
** none.
**
** Returns:
** none.
**
** Side Effects:
** initializes error and discard mailers.
*/
static MAILER discardmailer;
static MAILER errormailer;
static char *discardargv[] = { "DISCARD", NULL };
static char *errorargv[] = { "ERROR", NULL };
void
initerrmailers()
{
if (discardmailer.m_name == NULL)
{
/* initialize the discard mailer */
discardmailer.m_name = "*discard*";
discardmailer.m_mailer = "DISCARD";
discardmailer.m_argv = discardargv;
}
if (errormailer.m_name == NULL)
{
/* initialize the bogus mailer */
errormailer.m_name = "*error*";
errormailer.m_mailer = "ERROR";
errormailer.m_argv = errorargv;
}
}
/*
** BUILDADDR -- build address from token vector.
**
** Parameters:
** tv -- token vector.
** a -- pointer to address descriptor to fill.
** If NULL, one will be allocated.
** flags -- info regarding whether this is a sender or
** a recipient.
** e -- the current envelope.
**
** Returns:
** NULL if there was an error.
** 'a' otherwise.
**
** Side Effects:
** fills in 'a'
*/
static struct errcodes
{
char *ec_name; /* name of error code */
int ec_code; /* numeric code */
} ErrorCodes[] =
{
{ "usage", EX_USAGE },
{ "nouser", EX_NOUSER },
{ "nohost", EX_NOHOST },
{ "unavailable", EX_UNAVAILABLE },
{ "software", EX_SOFTWARE },
{ "tempfail", EX_TEMPFAIL },
{ "protocol", EX_PROTOCOL },
{ "config", EX_CONFIG },
{ NULL, EX_UNAVAILABLE }
};
static ADDRESS *
buildaddr(tv, a, flags, e)
register char **tv;
register ADDRESS *a;
int flags;
register ENVELOPE *e;
{
bool tempfail = false;
int maxatom;
struct mailer **mp;
register struct mailer *m;
register char *p;
char *mname;
char **hostp;
char hbuf[MAXNAME + 1];
static char ubuf[MAXNAME + 2];
if (tTd(24, 5))
{
sm_dprintf("buildaddr, flags=%x, tv=", flags);
printav(sm_debug_file(), tv);
}
maxatom = MAXATOM;
if (a == NULL)
a = (ADDRESS *) sm_rpool_malloc_x(e->e_rpool, sizeof(*a));
memset((char *) a, '\0', sizeof(*a));
hbuf[0] = '\0';
/* set up default error return flags */
a->q_flags |= DefaultNotify;
/* figure out what net/mailer to use */
if (*tv == NULL || (**tv & 0377) != CANONNET)
{
syserr("554 5.3.5 buildaddr: no mailer in parsed address");
badaddr:
/*
** ExitStat may have been set by an earlier map open
** failure (to a permanent error (EX_OSERR) in syserr())
** so we also need to check if this particular $#error
** return wanted a 4XX failure.
**
** XXX the real fix is probably to set ExitStat correctly,
** i.e., to EX_TEMPFAIL if the map open is just a temporary
** error.
*/
if (ExitStat == EX_TEMPFAIL || tempfail)
a->q_state = QS_QUEUEUP;
else
{
a->q_state = QS_BADADDR;
a->q_mailer = &errormailer;
}
return a;
}
mname = *++tv;
--maxatom;
/* extract host and user portions */
if (*++tv != NULL && (**tv & 0377) == CANONHOST)
{
hostp = ++tv;
--maxatom;
}
else
hostp = NULL;
--maxatom;
while (*tv != NULL && (**tv & 0377) != CANONUSER)
{
tv++;
--maxatom;
}
if (*tv == NULL)
{
syserr("554 5.3.5 buildaddr: no user");
goto badaddr;
}
if (tv == hostp)
hostp = NULL;
else if (hostp != NULL)
cataddr(hostp, tv - 1, hbuf, sizeof(hbuf), '\0', false);
cataddr(++tv, NULL, ubuf, sizeof(ubuf), ' ', false);
--maxatom;
/* save away the host name */
if (sm_strcasecmp(mname, "error") == 0)
{
/* Set up triplet for use by -bv */
a->q_mailer = &errormailer;
a->q_user = sm_rpool_strdup_x(e->e_rpool, ubuf);
/* XXX wrong place? */
if (hostp != NULL)
{
register struct errcodes *ep;
a->q_host = sm_rpool_strdup_x(e->e_rpool, hbuf);
if (strchr(hbuf, '.') != NULL)
{
a->q_status = sm_rpool_strdup_x(e->e_rpool,
hbuf);
setstat(dsntoexitstat(hbuf));
}
else if (isascii(hbuf[0]) && isdigit(hbuf[0]))
{
setstat(atoi(hbuf));
}
else
{
for (ep = ErrorCodes; ep->ec_name != NULL; ep++)
if (sm_strcasecmp(ep->ec_name, hbuf) == 0)
break;
setstat(ep->ec_code);
}
}
else
{
a->q_host = NULL;
setstat(EX_UNAVAILABLE);
}
stripquotes(ubuf);
if (ISSMTPCODE(ubuf) && ubuf[3] == ' ')
{
char fmt[16];
int off;
if ((off = isenhsc(ubuf + 4, ' ')) > 0)
{
ubuf[off + 4] = '\0';
off += 5;
}
else
{
off = 4;
ubuf[3] = '\0';
}
(void) sm_strlcpyn(fmt, sizeof(fmt), 2, ubuf, " %s");
if (off > 4)
usrerr(fmt, ubuf + off);
else if (isenhsc(hbuf, '\0') > 0)
usrerrenh(hbuf, fmt, ubuf + off);
else
usrerr(fmt, ubuf + off);
/* XXX ubuf[off - 1] = ' '; */
if (ubuf[0] == '4')
tempfail = true;
}
else
{
usrerr("553 5.3.0 %s", ubuf);
}
goto badaddr;
}
for (mp = Mailer; (m = *mp++) != NULL; )
{
if (sm_strcasecmp(m->m_name, mname) == 0)
break;
}
if (m == NULL)
{
syserr("554 5.3.5 buildaddr: unknown mailer %s", mname);
goto badaddr;
}
a->q_mailer = m;
/* figure out what host (if any) */
if (hostp == NULL)
{
if (!bitnset(M_LOCALMAILER, m->m_flags))
{
syserr("554 5.3.5 buildaddr: no host");
goto badaddr;
}
a->q_host = NULL;
}
else
a->q_host = sm_rpool_strdup_x(e->e_rpool, hbuf);
/* figure out the user */
p = ubuf;
if (bitnset(M_CHECKUDB, m->m_flags) && *p == '@')
{
p++;
tv++;
--maxatom;
a->q_flags |= QNOTREMOTE;
}
/* do special mapping for local mailer */
if (*p == '"')
p++;
if (*p == '|' && bitnset(M_CHECKPROG, m->m_flags))
a->q_mailer = m = ProgMailer;
else if (*p == '/' && bitnset(M_CHECKFILE, m->m_flags))
a->q_mailer = m = FileMailer;
else if (*p == ':' && bitnset(M_CHECKINCLUDE, m->m_flags))
{
/* may be :include: */
stripquotes(ubuf);
if (sm_strncasecmp(ubuf, ":include:", 9) == 0)
{
/* if :include:, don't need further rewriting */
a->q_mailer = m = InclMailer;
a->q_user = sm_rpool_strdup_x(e->e_rpool, &ubuf[9]);
return a;
}
}
/* rewrite according recipient mailer rewriting rules */
macdefine(&e->e_macro, A_PERM, 'h', a->q_host);
if (ConfigLevel >= 10 ||
!bitset(RF_SENDERADDR|RF_HEADERADDR, flags))
{
/* sender addresses done later */
(void) rewrite(tv, 2, 0, e, maxatom);
if (m->m_re_rwset > 0)
(void) rewrite(tv, m->m_re_rwset, 0, e, maxatom);
}
(void) rewrite(tv, 4, 0, e, maxatom);
/* save the result for the command line/RCPT argument */
cataddr(tv, NULL, ubuf, sizeof(ubuf), '\0', true);
a->q_user = sm_rpool_strdup_x(e->e_rpool, ubuf);
/*
** Do mapping to lower case as requested by mailer
*/
if (a->q_host != NULL && !bitnset(M_HST_UPPER, m->m_flags))
makelower(a->q_host);
if (!bitnset(M_USR_UPPER, m->m_flags))
makelower(a->q_user);
if (tTd(24, 6))
{
sm_dprintf("buildaddr => ");
printaddr(sm_debug_file(), a, false);
}
return a;
}
/*
** CATADDR -- concatenate pieces of addresses (putting in <LWSP> subs)
**
** Parameters:
** pvp -- parameter vector to rebuild.
** evp -- last parameter to include. Can be NULL to
** use entire pvp.
** buf -- buffer to build the string into.
** sz -- size of buf.
** spacesub -- the space separator character;
** '\0': SpaceSub.
** NOSPACESEP: no separator
** external -- convert to external form?
** (no metacharacters; METAQUOTEs removed, see below)
**
** Returns:
** none.
**
** Side Effects:
** Destroys buf.
**
** Notes:
** There are two formats for strings: internal and external.
** The external format is just an eight-bit clean string (no
** null bytes, everything else OK). The internal format can
** include sendmail metacharacters. The special character
** METAQUOTE essentially quotes the character following, stripping
** it of all special semantics.
**
** The cataddr routine needs to be aware of whether it is producing
** an internal or external form as output (it only takes internal
** form as input).
**
** The parseaddr routine has a similar issue on input, but that
** is flagged on the basis of which token table is passed in.
*/
void
cataddr(pvp, evp, buf, sz, spacesub, external)
char **pvp;
char **evp;
char *buf;
register int sz;
int spacesub;
bool external;
{
bool oatomtok, natomtok;
char *p;
oatomtok = natomtok = false;
if (tTd(59, 14))
{
sm_dprintf("cataddr(%d) <==", external);
printav(sm_debug_file(), pvp);
}
if (sz <= 0)
return;
if (spacesub == '\0')
spacesub = SpaceSub;
if (pvp == NULL)
{
*buf = '\0';
return;
}
p = buf;
sz -= 2;
while (*pvp != NULL && sz > 0)
{
char *q;
natomtok = (IntTokenTab[**pvp & 0xff] == ATM);
if (oatomtok && natomtok && spacesub != NOSPACESEP)
{
*p++ = spacesub;
if (--sz <= 0)
break;
}
for (q = *pvp; *q != '\0'; )
{
int c;
if (--sz <= 0)
break;
*p++ = c = *q++;
/*
** If the current character (c) is METAQUOTE and we
** want the "external" form and the next character
** is not NUL, then overwrite METAQUOTE with that
** character (i.e., METAQUOTE ch is changed to
** ch). p[-1] is used because p is advanced (above).
*/
if ((c & 0377) == METAQUOTE && external && *q != '\0')
p[-1] = *q++;
}
if (sz <= 0)
break;
oatomtok = natomtok;
if (pvp++ == evp)
break;
}
#if 0
/*
** Silently truncate long strings: even though this doesn't
** seem like a good idea it is necessary because header checks
** send the whole header value to rscheck() and hence rewrite().
** The latter however sometimes uses a "short" buffer (e.g.,
** cbuf[MAXNAME + 1]) to call cataddr() which then triggers this
** error function. One possible fix to the problem is to pass
** flags to rscheck() and rewrite() to distinguish the various
** calls and only trigger the error if necessary. For now just
** undo the change from 8.13.0.
*/
if (sz <= 0)
usrerr("cataddr: string too long");
#endif
*p = '\0';
if (tTd(59, 14))
sm_dprintf(" cataddr => %s\n", str2prt(buf));
}
/*
** 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;
{
register ADDRESS *ca, *cb;
/* if they don't have the same mailer, forget it */
if (a->q_mailer != b->q_mailer)
return false;
/*
** Addresses resolving to error mailer
** should not be considered identical
*/
if (a->q_mailer == &errormailer)
return false;
/* if the user isn't the same, we can drop out */
if (strcmp(a->q_user, b->q_user) != 0)
return false;
/* do the required flags match? */
if (!ADDR_FLAGS_MATCH(a, b))
return false;
/* if we have good uids for both but they differ, these are different */
if (a->q_mailer == ProgMailer)
{
ca = getctladdr(a);
cb = getctladdr(b);
if (ca != NULL && cb != NULL &&
bitset(QGOODUID, ca->q_flags & cb->q_flags) &&
ca->q_uid != cb->q_uid)
return false;
}
/* otherwise compare hosts (but be careful for NULL ptrs) */
if (a->q_host == b->q_host)
{
/* probably both null pointers */
return true;
}
if (a->q_host == NULL || b->q_host == NULL)
{
/* only one is a null pointer */
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.
*/
struct qflags
{
char *qf_name;
unsigned long qf_bit;
};
/* :'a,.s;^#define \(Q[A-Z]*\) .*; { "\1", \1 },; */
static struct qflags AddressFlags[] =
{
{ "QGOODUID", QGOODUID },
{ "QPRIMARY", QPRIMARY },
{ "QNOTREMOTE", QNOTREMOTE },
{ "QSELFREF", QSELFREF },
{ "QBOGUSSHELL", QBOGUSSHELL },
{ "QUNSAFEADDR", QUNSAFEADDR },
{ "QPINGONSUCCESS", QPINGONSUCCESS },
{ "QPINGONFAILURE", QPINGONFAILURE },
{ "QPINGONDELAY", QPINGONDELAY },
{ "QHASNOTIFY", QHASNOTIFY },
{ "QRELAYED", QRELAYED },
{ "QEXPANDED", QEXPANDED },
{ "QDELIVERED", QDELIVERED },
{ "QDELAYED", QDELAYED },
{ "QTHISPASS", QTHISPASS },
{ "QALIAS", QALIAS },
{ "QBYTRACE", QBYTRACE },
{ "QBYNDELAY", QBYNDELAY },
{ "QBYNRELAY", QBYNRELAY },
{ "QINTBCC", QINTBCC },
{ "QDYNMAILER", QDYNMAILER },
{ "QRCPTOK", QRCPTOK },
{ NULL, 0 }
};
void
printaddr(fp, a, follow)
SM_FILE_T *fp;
register ADDRESS *a;
bool follow;
{
register MAILER *m;
MAILER pseudomailer;
register struct qflags *qfp;
bool firstone;
if (a == NULL)
{
(void) sm_io_fprintf(fp, SM_TIME_DEFAULT, "[NULL]\n");
return;
}
while (a != NULL)
{
(void) sm_io_fprintf(fp, SM_TIME_DEFAULT, "%p=", a);
(void) sm_io_flush(fp, SM_TIME_DEFAULT);
/* find the mailer -- carefully */
m = a->q_mailer;
if (m == NULL)
{
m = &pseudomailer;
m->m_mno = -1;
m->m_name = "NULL";
}
(void) sm_io_fprintf(fp, SM_TIME_DEFAULT,
"%s:\n\tmailer %d (%s), host `%s'\n",
a->q_paddr == NULL ? "<null>" : a->q_paddr,
m->m_mno, m->m_name,
a->q_host == NULL ? "<null>" : a->q_host);
(void) sm_io_fprintf(fp, SM_TIME_DEFAULT,
"\tuser `%s', ruser `%s'\n",
a->q_user,
a->q_ruser == NULL ? "<null>" : a->q_ruser);
(void) sm_io_fprintf(fp, SM_TIME_DEFAULT, "\tstate=");
switch (a->q_state)
{
case QS_OK:
(void) sm_io_fprintf(fp, SM_TIME_DEFAULT, "OK");
break;
case QS_DONTSEND:
(void) sm_io_fprintf(fp, SM_TIME_DEFAULT,
"DONTSEND");
break;
case QS_BADADDR:
(void) sm_io_fprintf(fp, SM_TIME_DEFAULT,
"BADADDR");
break;
case QS_QUEUEUP:
(void) sm_io_fprintf(fp, SM_TIME_DEFAULT,
"QUEUEUP");
break;
case QS_RETRY:
(void) sm_io_fprintf(fp, SM_TIME_DEFAULT, "RETRY");
break;
case QS_SENT:
(void) sm_io_fprintf(fp, SM_TIME_DEFAULT, "SENT");
break;
case QS_VERIFIED:
(void) sm_io_fprintf(fp, SM_TIME_DEFAULT,
"VERIFIED");
break;
case QS_EXPANDED:
(void) sm_io_fprintf(fp, SM_TIME_DEFAULT,
"EXPANDED");
break;
case QS_SENDER:
(void) sm_io_fprintf(fp, SM_TIME_DEFAULT,
"SENDER");
break;
case QS_CLONED:
(void) sm_io_fprintf(fp, SM_TIME_DEFAULT,
"CLONED");
break;
case QS_DISCARDED:
(void) sm_io_fprintf(fp, SM_TIME_DEFAULT,
"DISCARDED");
break;
case QS_REPLACED:
(void) sm_io_fprintf(fp, SM_TIME_DEFAULT,
"REPLACED");
break;
case QS_REMOVED:
(void) sm_io_fprintf(fp, SM_TIME_DEFAULT,
"REMOVED");
break;
case QS_DUPLICATE:
(void) sm_io_fprintf(fp, SM_TIME_DEFAULT,
"DUPLICATE");
break;
case QS_INCLUDED:
(void) sm_io_fprintf(fp, SM_TIME_DEFAULT,
"INCLUDED");
break;
default:
(void) sm_io_fprintf(fp, SM_TIME_DEFAULT,
"%d", a->q_state);
break;
}
(void) sm_io_fprintf(fp, SM_TIME_DEFAULT,
", next=%p, alias %p, uid %d, gid %d\n",
a->q_next, a->q_alias,
(int) a->q_uid, (int) a->q_gid);
(void) sm_io_fprintf(fp, SM_TIME_DEFAULT, "\tflags=%lx<",
a->q_flags);
firstone = true;
for (qfp = AddressFlags; qfp->qf_name != NULL; qfp++)
{
if (!bitset(qfp->qf_bit, a->q_flags))
continue;
if (!firstone)
(void) sm_io_fprintf(fp, SM_TIME_DEFAULT,
",");
firstone = false;
(void) sm_io_fprintf(fp, SM_TIME_DEFAULT, "%s",
qfp->qf_name);
}
(void) sm_io_fprintf(fp, SM_TIME_DEFAULT, ">\n");
(void) sm_io_fprintf(fp, SM_TIME_DEFAULT,
"\towner=%s, home=\"%s\", fullname=\"%s\"\n",
a->q_owner == NULL ? "(none)" : a->q_owner,
a->q_home == NULL ? "(none)" : a->q_home,
a->q_fullname == NULL ? "(none)" : a->q_fullname);
(void) sm_io_fprintf(fp, SM_TIME_DEFAULT,
"\torcpt=\"%s\", statmta=%s, status=%s\n",
a->q_orcpt == NULL ? "(none)" : a->q_orcpt,
a->q_statmta == NULL ? "(none)" : a->q_statmta,
a->q_status == NULL ? "(none)" : a->q_status);
(void) sm_io_fprintf(fp, SM_TIME_DEFAULT,
"\tfinalrcpt=\"%s\"\n",
a->q_finalrcpt == NULL ? "(none)" : a->q_finalrcpt);
(void) sm_io_fprintf(fp, SM_TIME_DEFAULT,
"\trstatus=\"%s\"\n",
a->q_rstatus == NULL ? "(none)" : a->q_rstatus);
(void) sm_io_fprintf(fp, SM_TIME_DEFAULT,
"\tstatdate=%s\n",
a->q_statdate == 0 ? "(none)" : ctime(&a->q_statdate));
if (!follow)
return;
a = a->q_next;
}
}
/*
** EMPTYADDR -- return true if this address is empty (``<>'')
**
** Parameters:
** a -- pointer to the address
**
** Returns:
** true -- if this address is "empty" (i.e., no one should
** ever generate replies to it.
** false -- if it is a "regular" (read: replyable) address.
*/
bool
emptyaddr(a)
register ADDRESS *a;
{
return a->q_paddr == NULL || strcmp(a->q_paddr, "<>") == 0 ||
a->q_user == NULL || strcmp(a->q_user, "<>") == 0;
}
/*
** 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.
** flags -- fine tune operations.
** pstat -- pointer to status word.
** e -- the current envelope.
**
** 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, flags, pstat, e)
char *name;
struct mailer *m;
int flags;
int *pstat;
register ENVELOPE *e;
{
register char **pvp;
char *SM_NONVOLATILE fancy;
char *oldg;
int rwset;
static char buf[MAXNAME + 1];
char lbuf[MAXNAME + 1];
char pvpbuf[PSBUFSIZE];
char addrtype[4];
if (tTd(12, 1))
{
sm_dprintf("remotename(");
xputs(sm_debug_file(), name);
sm_dprintf(")\n");
}
/* don't do anything if we are tagging it as special */
if (bitset(RF_SENDERADDR, flags))
{
rwset = bitset(RF_HEADERADDR, flags) ? m->m_sh_rwset
: m->m_se_rwset;
addrtype[2] = 's';
}
else
{
rwset = bitset(RF_HEADERADDR, flags) ? m->m_rh_rwset
: m->m_re_rwset;
addrtype[2] = 'r';
}
if (rwset < 0)
return name;
addrtype[1] = ' ';
addrtype[3] = '\0';
addrtype[0] = bitset(RF_HEADERADDR, flags) ? 'h' : 'e';
macdefine(&e->e_macro, A_TEMP, macid("{addr_type}"), addrtype);
/*
** 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 (bitset(RF_CANONICAL, flags) || bitnset(M_NOCOMMENT, m->m_flags))
fancy = "\201g";
else
fancy = crackaddr(name, e);
/*
** 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, sizeof(pvpbuf), NULL, NULL, false);
if (pvp == NULL)
return name;
if (REWRITE(pvp, 3, e) == EX_TEMPFAIL)
*pstat = EX_TEMPFAIL;
if (bitset(RF_ADDDOMAIN, flags) && e->e_fromdomain != NULL)
{
/* append from domain to this address */
register char **pxp = pvp;
int l = MAXATOM; /* size of buffer for pvp */
/* see if there is an "@domain" in the current name */
while (*pxp != NULL && strcmp(*pxp, "@") != 0)
{
pxp++;
--l;
}
if (*pxp == NULL)
{
/* no.... append the "@domain" from the sender */
register char **qxq = e->e_fromdomain;
while ((*pxp++ = *qxq++) != NULL)
{
if (--l <= 0)
{
*--pxp = NULL;
usrerr("553 5.1.0 remotename: too many tokens");
*pstat = EX_UNAVAILABLE;
break;
}
}
if (REWRITE(pvp, 3, e) == EX_TEMPFAIL)
*pstat = EX_TEMPFAIL;
}
}
/*
** 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 (bitset(RF_SENDERADDR, flags))
{
if (REWRITE(pvp, 1, e) == EX_TEMPFAIL)
*pstat = EX_TEMPFAIL;
}
else
{
if (REWRITE(pvp, 2, e) == EX_TEMPFAIL)
*pstat = EX_TEMPFAIL;
}
if (rwset > 0)
{
if (REWRITE(pvp, rwset, e) == EX_TEMPFAIL)
*pstat = EX_TEMPFAIL;
}
/*
** 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.
*/
if (REWRITE(pvp, 4, e) == EX_TEMPFAIL)
*pstat = EX_TEMPFAIL;
/*
** Now restore the comment information we had at the beginning.
*/
cataddr(pvp, NULL, lbuf, sizeof(lbuf), '\0', false);
oldg = macget(&e->e_macro, 'g');
macset(&e->e_macro, 'g', lbuf);
SM_TRY
/* need to make sure route-addrs have <angle brackets> */
if (bitset(RF_CANONICAL, flags) && lbuf[0] == '@')
expand("<\201g>", buf, sizeof(buf), e);
else
expand(fancy, buf, sizeof(buf), e);
SM_FINALLY
macset(&e->e_macro, 'g', oldg);
SM_END_TRY
if (tTd(12, 1))
{
sm_dprintf("remotename => `");
xputs(sm_debug_file(), buf);
sm_dprintf("', stat=%d\n", *pstat);
}
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.
** aliaslevel -- the alias nesting depth.
** e -- the envelope.
**
** Returns:
** none.
*/
#define Q_COPYFLAGS (QPRIMARY|QBOGUSSHELL|QUNSAFEADDR|\
Q_PINGFLAGS|QHASNOTIFY|\
QRELAYED|QEXPANDED|QDELIVERED|QDELAYED|\
QBYTRACE|QBYNDELAY|QBYNRELAY)
void
maplocaluser(a, sendq, aliaslevel, e)
register ADDRESS *a;
ADDRESS **sendq;
int aliaslevel;
ENVELOPE *e;
{
register char **pvp;
register ADDRESS *SM_NONVOLATILE a1 = NULL;
char pvpbuf[PSBUFSIZE];
if (tTd(29, 1))
{
sm_dprintf("maplocaluser: ");
printaddr(sm_debug_file(), a, false);
}
pvp = prescan(a->q_user, '\0', pvpbuf, sizeof(pvpbuf), NULL, NULL,
false);
if (pvp == NULL)
{
if (tTd(29, 9))
sm_dprintf("maplocaluser: cannot prescan %s\n",
a->q_user);
return;
}
macdefine(&e->e_macro, A_PERM, 'h', a->q_host);
macdefine(&e->e_macro, A_PERM, 'u', a->q_user);
macdefine(&e->e_macro, A_PERM, 'z', a->q_home);
macdefine(&e->e_macro, A_PERM, macid("{addr_type}"), "e r");
if (REWRITE(pvp, 5, e) == EX_TEMPFAIL)
{
if (tTd(29, 9))
sm_dprintf("maplocaluser: rewrite tempfail\n");
a->q_state = QS_QUEUEUP;
a->q_status = "4.4.3";
return;
}
if (pvp[0] == NULL || (pvp[0][0] & 0377) != CANONNET)
{
if (tTd(29, 9))
sm_dprintf("maplocaluser: doesn't resolve\n");
return;
}
SM_TRY
a1 = buildaddr(pvp, NULL, 0, e);
SM_EXCEPT(exc, "E:mta.quickabort")
/*
** mark address as bad, S5 returned an error
** and we gave that back to the SMTP client.
*/
a->q_state = QS_DONTSEND;
sm_exc_raisenew_x(&EtypeQuickAbort, 2);
SM_END_TRY
/* if non-null, mailer destination specified -- has it changed? */
if (a1 == NULL || sameaddr(a, a1))
{
if (tTd(29, 9))
sm_dprintf("maplocaluser: address unchanged\n");
return;
}
/* make new address take on flags and print attributes of old */
a1->q_flags &= ~Q_COPYFLAGS;
a1->q_flags |= a->q_flags & Q_COPYFLAGS;
a1->q_paddr = sm_rpool_strdup_x(e->e_rpool, a->q_paddr);
a1->q_finalrcpt = a->q_finalrcpt;
a1->q_orcpt = a->q_orcpt;
/* mark old address as dead; insert new address */
a->q_state = QS_REPLACED;
if (tTd(29, 5))
{
sm_dprintf("maplocaluser: QS_REPLACED ");
printaddr(sm_debug_file(), a, false);
}
a1->q_alias = a;
allocaddr(a1, RF_COPYALL, sm_rpool_strdup_x(e->e_rpool, a->q_paddr), e);
(void) recipient(a1, sendq, aliaslevel, e);
}
/*
** DEQUOTE_INIT -- initialize dequote map
**
** Parameters:
** map -- the internal map structure.
** args -- arguments.
**
** Returns:
** true.
*/
bool
dequote_init(map, args)
MAP *map;
char *args;
{
register char *p = args;
/* there is no check whether there is really an argument */
map->map_mflags |= MF_KEEPQUOTES;
for (;;)
{
while (isascii(*p) && isspace(*p))
p++;
if (*p != '-')
break;
switch (*++p)
{
case 'a':
map->map_app = ++p;
break;
case 'D':
map->map_mflags |= MF_DEFER;
break;
case 'S':
case 's':
map->map_spacesub = *++p;
break;
}
while (*p != '\0' && !(isascii(*p) && isspace(*p)))
p++;
if (*p != '\0')
*p = '\0';
}
if (map->map_app != NULL)
map->map_app = newstr(map->map_app);
return true;
}
/*
** DEQUOTE_MAP -- unquote an address
**
** Parameters:
** map -- the internal map structure (ignored).
** name -- the name to dequote.
** av -- arguments (ignored).
** statp -- pointer to status out-parameter.
**
** Returns:
** NULL -- if there were no quotes, or if the resulting
** unquoted buffer would not be acceptable to prescan.
** else -- The dequoted buffer.
*/
/* ARGSUSED2 */
char *
dequote_map(map, name, av, statp)
MAP *map;
char *name;
char **av;
int *statp;
{
register char *p;
register char *q;
register char c;
int anglecnt = 0;
int cmntcnt = 0;
int quotecnt = 0;
int spacecnt = 0;
bool quotemode = false;
bool bslashmode = false;
char spacesub = map->map_spacesub;
for (p = q = name; (c = *p++) != '\0'; )
{
if (bslashmode)
{
bslashmode = false;
*q++ = c;
continue;
}
if (c == ' ' && spacesub != '\0')
c = spacesub;
switch (c)
{
case '\\':
bslashmode = true;
break;
case '(':
cmntcnt++;
break;
case ')':
if (cmntcnt-- <= 0)
return NULL;
break;
case ' ':
case '\t':
spacecnt++;
break;
}
if (cmntcnt > 0)
{
*q++ = c;
continue;
}
switch (c)
{
case '"':
quotemode = !quotemode;
quotecnt++;
continue;
case '<':
anglecnt++;
break;
case '>':
if (anglecnt-- <= 0)
return NULL;
break;
}
*q++ = c;
}
if (anglecnt != 0 || cmntcnt != 0 || bslashmode ||
quotemode || quotecnt <= 0 || spacecnt != 0)
return NULL;
*q++ = '\0';
return map_rewrite(map, name, strlen(name), NULL);
}
/*
** RSCHECK -- check string(s) for validity using rewriting sets
**
** Parameters:
** rwset -- the rewriting set to use.
** p1 -- the first string to check.
** p2 -- the second string to check -- may be null.
** e -- the current envelope.
** flags -- control some behavior, see RSF_ in sendmail.h
** logl -- logging level.
** host -- NULL or relay host.
** logid -- id for sm_syslog.
** addr -- if not NULL and ruleset returns $#error:
** store mailer triple here.
** addrstr -- if not NULL and ruleset does not return $#:
** address string
**
** Returns:
** EX_OK -- if the rwset doesn't resolve to $#error
** else -- the failure status (message printed)
*/
int
rscheck(rwset, p1, p2, e, flags, logl, host, logid, addr, addrstr)
char *rwset;
char *p1;
char *p2;
ENVELOPE *e;
int flags;
int logl;
char *host;
char *logid;
ADDRESS *addr;
char **addrstr;
{
char *volatile buf;
size_t bufsize;
int saveexitstat;
int volatile rstat = EX_OK;
char **pvp;
int rsno;
bool volatile discard = false;
bool saveQuickAbort = QuickAbort;
bool saveSuprErrs = SuprErrs;
bool quarantine = false;
char ubuf[BUFSIZ * 2];
char buf0[MAXLINE];
char pvpbuf[PSBUFSIZE];
extern char MsgBuf[];
if (tTd(48, 2))
sm_dprintf("rscheck(%s, %s, %s)\n", rwset, p1,
p2 == NULL ? "(NULL)" : p2);
rsno = strtorwset(rwset, NULL, ST_FIND);
if (rsno < 0)
return EX_OK;
if (p2 != NULL)
{
bufsize = strlen(p1) + strlen(p2) + 2;
if (bufsize > sizeof(buf0))
buf = sm_malloc_x(bufsize);
else
{
buf = buf0;
bufsize = sizeof(buf0);
}
(void) sm_snprintf(buf, bufsize, "%s%c%s", p1, CONDELSE, p2);
}
else
{
bufsize = strlen(p1) + 1;
if (bufsize > sizeof(buf0))
buf = sm_malloc_x(bufsize);
else
{
buf = buf0;
bufsize = sizeof(buf0);
}
(void) sm_strlcpy(buf, p1, bufsize);
}
SM_TRY
{
SuprErrs = true;
QuickAbort = false;
pvp = prescan(buf, '\0', pvpbuf, sizeof(pvpbuf), NULL,
bitset(RSF_RMCOMM, flags) ?
IntTokenTab : TokTypeNoC,
bitset(RSF_RMCOMM, flags) ? false : true);
SuprErrs = saveSuprErrs;
if (pvp == NULL)
{
if (tTd(48, 2))
sm_dprintf("rscheck: cannot prescan input\n");
/*
syserr("rscheck: cannot prescan input: \"%s\"",
shortenstring(buf, MAXSHORTSTR));
rstat = EX_DATAERR;
*/
goto finis;
}
if (bitset(RSF_UNSTRUCTURED, flags))
SuprErrs = true;
(void) REWRITE(pvp, rsno, e);
if (bitset(RSF_UNSTRUCTURED, flags))
SuprErrs = saveSuprErrs;
if (pvp[0] != NULL && (pvp[0][0] & 0377) != CANONNET &&
bitset(RSF_ADDR, flags) && addrstr != NULL)
{
cataddr(&(pvp[0]), NULL, ubuf, sizeof(ubuf),
bitset(RSF_STRING, flags) ? NOSPACESEP : ' ',
true);
*addrstr = sm_rpool_strdup_x(e->e_rpool, ubuf);
goto finis;
}
if (pvp[0] == NULL || (pvp[0][0] & 0377) != CANONNET ||
pvp[1] == NULL || (strcmp(pvp[1], "error") != 0 &&
strcmp(pvp[1], "discard") != 0))
{
goto finis;
}
if (strcmp(pvp[1], "discard") == 0)
{
if (tTd(48, 2))
sm_dprintf("rscheck: discard mailer selected\n");
e->e_flags |= EF_DISCARD;
discard = true;
}
else if (strcmp(pvp[1], "error") == 0 &&
pvp[2] != NULL && (pvp[2][0] & 0377) == CANONHOST &&
pvp[3] != NULL && strcmp(pvp[3], "quarantine") == 0)
{
if (pvp[4] == NULL ||
(pvp[4][0] & 0377) != CANONUSER ||
pvp[5] == NULL)
e->e_quarmsg = sm_rpool_strdup_x(e->e_rpool,
rwset);
else
{
cataddr(&(pvp[5]), NULL, ubuf,
sizeof(ubuf), ' ', true);
e->e_quarmsg = sm_rpool_strdup_x(e->e_rpool,
ubuf);
}
macdefine(&e->e_macro, A_PERM,
macid("{quarantine}"), e->e_quarmsg);
quarantine = true;
}
else
{
auto ADDRESS a1;
int savelogusrerrs = LogUsrErrs;
static bool logged = false;
/* got an error -- process it */
saveexitstat = ExitStat;
LogUsrErrs = false;
(void) buildaddr(pvp, &a1, 0, e);
if (addr != NULL)
{
addr->q_mailer = a1.q_mailer;
addr->q_user = a1.q_user;
addr->q_host = a1.q_host;
}
LogUsrErrs = savelogusrerrs;
rstat = ExitStat;
ExitStat = saveexitstat;
if (!logged)
{
if (bitset(RSF_COUNT, flags))
markstats(e, &a1, STATS_REJECT);
logged = true;
}
}
if (LogLevel > logl)
{
char *relay;
char *p;
char lbuf[MAXLINE];
p = lbuf;
if (p2 != NULL)
{
(void) sm_snprintf(p, SPACELEFT(lbuf, p),
", arg2=%s",
p2);
p += strlen(p);
}
if (host != NULL)
relay = host;
else
relay = macvalue('_', e);
if (relay != NULL)
{
(void) sm_snprintf(p, SPACELEFT(lbuf, p),
", relay=%s", relay);
p += strlen(p);
}
*p = '\0';
if (discard)
sm_syslog(LOG_NOTICE, logid,
"ruleset=%s, arg1=%s%s, discard",
rwset, p1, lbuf);
else if (quarantine)
sm_syslog(LOG_NOTICE, logid,
"ruleset=%s, arg1=%s%s, quarantine=%s",
rwset, p1, lbuf, ubuf);
else
sm_syslog(LOG_NOTICE, logid,
"ruleset=%s, arg1=%s%s, reject=%s",
rwset, p1, lbuf, MsgBuf);
}
finis: ;
}
SM_FINALLY
{
/* clean up */
if (buf != buf0)
sm_free(buf);
QuickAbort = saveQuickAbort;
}
SM_END_TRY
setstat(rstat);
/* rulesets don't set errno */
errno = 0;
if (rstat != EX_OK && QuickAbort)
sm_exc_raisenew_x(&EtypeQuickAbort, 2);
return rstat;
}
/*
** RSCAP -- call rewriting set to return capabilities
**
** Parameters:
** rwset -- the rewriting set to use.
** p1 -- the first string to check.
** p2 -- the second string to check -- may be null.
** e -- the current envelope.
** pvp -- pointer to token vector.
** pvpbuf -- buffer space.
** size -- size of buffer space.
**
** Returns:
** EX_UNAVAILABLE -- ruleset doesn't exist.
** EX_DATAERR -- prescan() failed.
** EX_OK -- rewrite() was successful.
** else -- return status from rewrite().
*/
int
rscap(rwset, p1, p2, e, pvp, pvpbuf, size)
char *rwset;
char *p1;
char *p2;
ENVELOPE *e;
char ***pvp;
char *pvpbuf;
int size;
{
char *volatile buf;
size_t bufsize;
int volatile rstat = EX_OK;
int rsno;
bool saveQuickAbort = QuickAbort;
bool saveSuprErrs = SuprErrs;
char buf0[MAXLINE];
extern char MsgBuf[];
if (tTd(48, 2))
sm_dprintf("rscap(%s, %s, %s)\n", rwset, p1,
p2 == NULL ? "(NULL)" : p2);
SM_REQUIRE(pvp != NULL);
rsno = strtorwset(rwset, NULL, ST_FIND);
if (rsno < 0)
return EX_UNAVAILABLE;
if (p2 != NULL)
{
bufsize = strlen(p1) + strlen(p2) + 2;
if (bufsize > sizeof(buf0))
buf = sm_malloc_x(bufsize);
else
{
buf = buf0;
bufsize = sizeof(buf0);
}
(void) sm_snprintf(buf, bufsize, "%s%c%s", p1, CONDELSE, p2);
}
else
{
bufsize = strlen(p1) + 1;
if (bufsize > sizeof(buf0))
buf = sm_malloc_x(bufsize);
else
{
buf = buf0;
bufsize = sizeof(buf0);
}
(void) sm_strlcpy(buf, p1, bufsize);
}
SM_TRY
{
SuprErrs = true;
QuickAbort = false;
*pvp = prescan(buf, '\0', pvpbuf, size, NULL, IntTokenTab,
false);
if (*pvp != NULL)
rstat = rewrite(*pvp, rsno, 0, e, size);
else
{
if (tTd(48, 2))
sm_dprintf("rscap: cannot prescan input\n");
rstat = EX_DATAERR;
}
}
SM_FINALLY
{
/* clean up */
if (buf != buf0)
sm_free(buf);
SuprErrs = saveSuprErrs;
QuickAbort = saveQuickAbort;
/* prevent information leak, this may contain rewrite error */
MsgBuf[0] = '\0';
}
SM_END_TRY
return rstat;
}