This directory contains the source files for libmilter.
The sendmail Mail Filter API (Milter) is designed to allow third-party
programs access to mail messages as they are being processed in order to
filter meta-information and content.
This README file describes the steps needed to compile and run a filter,
through reference to a sample filter which is attached at the end of this
file. It is necessary to first build libmilter.a, which can be done by
issuing the './Build' command in SRCDIR/libmilter .
NOTE: Both libmilter and the callouts in sendmail are marked as an FFR (For
Future Release). If you intend to use them in 8.11.X, you must compiled
both libmilter and sendmail with -D_FFR_MILTER defined. You can do this by
adding the following to your devtools/Site/site.config.m4 file:
dnl Milter
APPENDDEF(`conf_sendmail_ENVDEF', `-D_FFR_MILTER=1')
APPENDDEF(`conf_libmilter_ENVDEF', `-D_FFR_MILTER=1')
You will also need to define _FFR_MILTER when building your .cf file using
m4.
+-------------------+
| BUILDING A FILTER |
+-------------------+
The following command presumes that the sample code from the end of this
README is saved to a file named 'sample.c' and built in the local platform-
specific build subdirectory (SRCDIR/obj.*/libmilter).
cc -I../../sendmail -I../../include -o sample sample.c libmilter.a ../libsmutil/libsmutil.a -pthread
It is recommended that you build your filters in a location outside of
the sendmail source tree. Modify the compiler include references (-I)
and the library locations accordingly. Also, some operating systems may
require additional libraries. For example, SunOS 5.X requires '-lresolv
-lsocket -lnsl'. Depending on your OS you may need a library instead
of the option -pthread, e.g., -lpthread.
Filters must be thread-safe! Many operating systems now provide support for
POSIX threads in the standard C libraries. The compiler flag to link with
threading support differs according to the compiler and linker used. Check
the Makefile in your appropriate obj.*/libmilter build subdirectory if you
are unsure of the local flag used.
Note that since filters use threads, it may be necessary to alter per
process limits in your filter. For example, you might look at using
setrlimit() to increase the number of open file descriptors if your filter
is going to be busy.
+----------------------------------------+
| SPECIFYING FILTERS IN SENDMAIL CONFIGS |
+----------------------------------------+
Filters are specified with a key letter ``X'' (for ``eXternal'').
For example:
Xfilter1, S=local:/var/run/f1.sock, F=R
Xfilter2, S=inet6:999@localhost, F=T, T=S:1s;R:1s;E:5m
Xfilter3, S=inet:3333@localhost
specifies three filters. Filters can be specified in your .mc file using
the following:
INPUT_MAIL_FILTER(`filter1', `S=local:/var/run/f1.sock, F=R')
INPUT_MAIL_FILTER(`filter2', `S=inet6:999@localhost, F=T, T=S:1s;R:1s;E:5m')
INPUT_MAIL_FILTER(`filter3', `S=inet:3333@localhost')
The first attaches to a Unix-domain socket in the /var/run directory; the
second uses an IPv6 socket on port 999 of localhost, and the third uses an
IPv4 socket on port 3333 of localhost. The current flags (F=) are:
R Reject connection if filter unavailable
T Temporary fail connection if filter unavailable
If neither F=R nor F=T is specified, the message is passed through sendmail
as if the filter were not present.
Finally, you can override the default timeouts used by sendmail when
talking to the filters using the T= equate. There are three fields inside
of the T= equate:
Letter Meaning
S Timeout for sending information from the MTA to a filter
R Timeout for reading reply from the filter
E Overall timeout between sending end-of-message to filter
and waiting for the final acknowledgment
Note the separator between each is a ';' as a ',' already separates equates
and therefore can't separate timeouts. The default values (if not set in the config) are:
T=S:10s;R:10s;E:5m
where 's' is seconds and 'm' is minutes.
Which filters are invoked and their sequencing is handled by the
InputMailFilters option. Note: if InputMailFilters is not defined no filters
will be used.
O InputMailFilters=filter1, filter2, filter3
This is is set automatically according to the order of the
INPUT_MAIL_FILTER commands in your .mc file. Alternatively, you can
reset its value by setting confINPUT_MAIL_FILTERS in your .mc file.
This options causes the three filters to be called in the same order
they were specified. It allows for possible future filtering on output
(although this is not intended for this release).
Also note that a filter can be defined without adding it to the input
filter list by using MAIL_FILTER() instead of INPUT_MAIL_FILTER() in your
.mc file.
To test sendmail with the sample filter, the following might be added (in
the appropriate locations) to your .mc file:
INPUT_MAIL_FILTER(`sample', `S=local:/var/run/f1.sock')
+------------------+
| TESTING A FILTER |
+------------------+
Once you have compiled a filter, modified your .mc file and restarted
the sendmail process, you will want to test that the filter performs as
intended.
The sample filter takes one argument -p, which indicates the local port
on which to create a listening socket for the filter. Maintaining
consistency with the suggested options for sendmail.cf, this would be the
UNIX domain socket located in /var/run/f1.sock.
% ./sample -p local:/var/run/f1.sock
If the sample filter returns immediately to a command line, there was either
an error with your command or a problem creating the specified socket.
Further logging can be captured through the syslogd daemon. Using the
'netstat -a' command can ensure that your filter process is listening on
the appropriate local socket.
Email messages must be injected via SMTP to be filtered. There are two
simple means of doing this; either using the 'sendmail -bs' command, or
by telnetting to port 25 of the machine configured for milter. Once
connected via one of these options, the session can be continued through
the use of standard SMTP commands.
% sendmail -bs
220 test.sendmail.com ESMTP Sendmail 8.11.0/8.11.0; Tue, 10 Nov 1970 13:05:23 -0500 (EST)
HELO localhost
250 test.sendmail.com Hello testy@localhost, pleased to meet you
MAIL From:<testy>
250 2.1.0 <testy>... Sender ok
RCPT To:<root>
250 2.1.5 <root>... Recipient ok
DATA
354 Enter mail, end with "." on a line by itself
From: testy@test.sendmail.com
To: root@test.sendmail.com
Subject: testing sample filter
Sample body
.
250 2.0.0 dB73Zxi25236 Message accepted for delivery
QUIT
221 2.0.0 test.sendmail.com closing connection
In the above example, the lines beginning with numbers are output by the
mail server, and those without are your input. If everything is working
properly, you will find a file in /tmp by the name of msg.XXXXXXXX (where
the Xs represent any combination of letters and numbers). This file should
contain the message body and headers from the test email entered above.
If the sample filter did not log your test email, there are a number of
methods to narrow down the source of the problem. Check your system
logs written by syslogd and see if there are any pertinent lines. You
may need to reconfigure syslogd to capture all relevant data. Additionally,
the logging level of sendmail can be raised with the LogLevel option.
See the sendmail(8) manual page for more information.
+--------------------------+
| SOURCE FOR SAMPLE FILTER |
+--------------------------+
Note that the filter below may not be thread safe on some operating
systems. You should check your system man pages for the functions used
below to verify the functions are thread safe.
/* A trivial filter that logs all email to a file. */
#include <sys/types.h>
#include <stdio.h>
#include <stdlib.h>
#include <string.h>
#include <sysexits.h>
#include <unistd.h>
#include "libmilter/mfapi.h"
typedef int bool;
#ifndef FALSE
# define FALSE 0
#endif /* ! FALSE*/
#ifndef TRUE
# define TRUE 1
#endif /* ! TRUE*/
struct mlfiPriv
{
char *mlfi_fname;
FILE *mlfi_fp;
};
#define MLFIPRIV ((struct mlfiPriv *) smfi_getpriv(ctx))
extern sfsistat mlfi_cleanup(SMFICTX *, bool);
sfsistat
mlfi_envfrom(ctx, envfrom)
SMFICTX *ctx;
char **envfrom;
{
struct mlfiPriv *priv;
int fd = -1;
/* allocate some private memory */
priv = malloc(sizeof *priv);
if (priv == NULL)
{
/* can't accept this message right now */
return SMFIS_TEMPFAIL;
}
memset(priv, '\0', sizeof *priv);
/* open a file to store this message */
priv->mlfi_fname = strdup("/tmp/msg.XXXXXXXX");
if (priv->mlfi_fname == NULL)
{
free(priv);
return SMFIS_TEMPFAIL;
}
if ((fd = mkstemp(priv->mlfi_fname)) < 0 ||
(priv->mlfi_fp = fdopen(fd, "w+")) == NULL)
{
if (fd >= 0)
(void) close(fd);
free(priv->mlfi_fname);
free(priv);
return SMFIS_TEMPFAIL;
}
/* save the private data */
smfi_setpriv(ctx, priv);
/* continue processing */
return SMFIS_CONTINUE;
}
sfsistat
mlfi_header(ctx, headerf, headerv)
SMFICTX *ctx;
char *headerf;
char *headerv;
{
/* write the header to the log file */
fprintf(MLFIPRIV->mlfi_fp, "%s: %s\r\n", headerf, headerv);
/* continue processing */
return SMFIS_CONTINUE;
}
sfsistat
mlfi_eoh(ctx)
SMFICTX *ctx;
{
/* output the blank line between the header and the body */
fprintf(MLFIPRIV->mlfi_fp, "\r\n");
/* continue processing */
return SMFIS_CONTINUE;
}
sfsistat
mlfi_body(ctx, bodyp, bodylen)
SMFICTX *ctx;
u_char *bodyp;
size_t bodylen;
{
/* output body block to log file */
if (fwrite(bodyp, bodylen, 1, MLFIPRIV->mlfi_fp) <= 0)
{
/* write failed */
(void) mlfi_cleanup(ctx, FALSE);
return SMFIS_TEMPFAIL;
}
/* continue processing */
return SMFIS_CONTINUE;
}
sfsistat
mlfi_eom(ctx)
SMFICTX *ctx;
{
return mlfi_cleanup(ctx, TRUE);
}
sfsistat
mlfi_close(ctx)
SMFICTX *ctx;
{
return SMFIS_ACCEPT;
}
sfsistat
mlfi_abort(ctx)
SMFICTX *ctx;
{
return mlfi_cleanup(ctx, FALSE);
}
sfsistat
mlfi_cleanup(ctx, ok)
SMFICTX *ctx;
bool ok;
{
sfsistat rstat = SMFIS_CONTINUE;
struct mlfiPriv *priv = MLFIPRIV;
char *p;
char host[512];
char hbuf[1024];
if (priv == NULL)
return rstat;
/* close the archive file */
if (priv->mlfi_fp != NULL && fclose(priv->mlfi_fp) == EOF)
{
/* failed; we have to wait until later */
rstat = SMFIS_TEMPFAIL;
(void) unlink(priv->mlfi_fname);
}
else if (ok)
{
/* add a header to the message announcing our presence */
if (gethostname(host, sizeof host) < 0)
strlcpy(host, "localhost", sizeof host);
p = strrchr(priv->mlfi_fname, '/');
if (p == NULL)
p = priv->mlfi_fname;
else
p++;
snprintf(hbuf, sizeof hbuf, "%s@%s", p, host);
smfi_addheader(ctx, "X-Archived", hbuf);
}
else
{
/* message was aborted -- delete the archive file */
(void) unlink(priv->mlfi_fname);
}
/* release private memory */
free(priv->mlfi_fname);
free(priv);
smfi_setpriv(ctx, NULL);
/* return status */
return rstat;
}
struct smfiDesc smfilter =
{
"SampleFilter", /* filter name */
SMFI_VERSION, /* version code -- do not change */
SMFIF_ADDHDRS, /* flags */
NULL, /* connection info filter */
NULL, /* SMTP HELO command filter */
mlfi_envfrom, /* envelope sender filter */
NULL, /* envelope recipient filter */
mlfi_header, /* header filter */
mlfi_eoh, /* end of header */
mlfi_body, /* body block filter */
mlfi_eom, /* end of message */
mlfi_abort, /* message aborted */
mlfi_close /* connection cleanup */
};
int
main(argc, argv)
int argc;
char *argv[];
{
int c;
const char *args = "p:";
/* Process command line options */
while ((c = getopt(argc, argv, args)) != -1)
{
switch (c)
{
case 'p':
if (optarg == NULL || *optarg == '\0')
{
(void) fprintf(stderr, "Illegal conn: %s\n",
optarg);
exit(EX_USAGE);
}
(void) smfi_setconn(optarg);
break;
}
}
if (smfi_register(smfilter) == MI_FAILURE)
{
fprintf(stderr, "smfi_register failed\n");
exit(EX_UNAVAILABLE);
}
return smfi_main();
}
/* eof */
$Revision: 8.9.2.1.2.17 $, Last updated $Date: 2001/04/11 18:32:58 $