| Current File : //root/postfix-3.2.0/src/cleanup/cleanup_milter.c |
/*++
/* NAME
/* cleanup_milter 3
/* SUMMARY
/* external mail filter support
/* SYNOPSIS
/* #include <cleanup.h>
/*
/* void cleanup_milter_receive(state, count)
/* CLEANUP_STATE *state;
/* int count;
/*
/* void cleanup_milter_inspect(state, milters)
/* CLEANUP_STATE *state;
/* MILTERS *milters;
/*
/* cleanup_milter_emul_mail(state, milters, sender)
/* CLEANUP_STATE *state;
/* MILTERS *milters;
/* const char *sender;
/*
/* cleanup_milter_emul_rcpt(state, milters, recipient)
/* CLEANUP_STATE *state;
/* MILTERS *milters;
/* const char *recipient;
/*
/* cleanup_milter_emul_data(state, milters)
/* CLEANUP_STATE *state;
/* MILTERS *milters;
/* DESCRIPTION
/* This module implements support for Sendmail-style mail
/* filter (milter) applications, including in-place queue file
/* modification.
/*
/* cleanup_milter_receive() receives mail filter definitions,
/* typically from an smtpd(8) server process, and registers
/* local call-back functions for macro expansion and for queue
/* file modification.
/*
/* cleanup_milter_inspect() sends the current message headers
/* and body to the mail filters that were received with
/* cleanup_milter_receive(), or that are specified with the
/* cleanup_milters configuration parameter.
/*
/* cleanup_milter_emul_mail() emulates connect, helo and mail
/* events for mail that does not arrive via the smtpd(8) server.
/* The emulation pretends that mail arrives from localhost/127.0.0.1
/* via ESMTP. Milters can reject emulated connect, helo, mail
/* or data events, but not emulated rcpt events as described
/* next.
/*
/* cleanup_milter_emul_rcpt() emulates an rcpt event for mail
/* that does not arrive via the smtpd(8) server. This reports
/* a server configuration error condition when the milter
/* rejects an emulated rcpt event.
/*
/* cleanup_milter_emul_data() emulates a data event for mail
/* that does not arrive via the smtpd(8) server. It's OK for
/* milters to reject emulated data events.
/* SEE ALSO
/* milter(3) generic mail filter interface
/* DIAGNOSTICS
/* Fatal errors: memory allocation problem.
/* Panic: interface violation.
/* Warnings: I/O errors (state->errs is updated accordingly).
/* LICENSE
/* .ad
/* .fi
/* The Secure Mailer license must be distributed with this software.
/* AUTHOR(S)
/* Wietse Venema
/* IBM T.J. Watson Research
/* P.O. Box 704
/* Yorktown Heights, NY 10598, USA
/*
/* Wietse Venema
/* Google, Inc.
/* 111 8th Avenue
/* New York, NY 10011, USA
/*--*/
/* System library. */
#include <sys_defs.h>
#include <sys/socket.h> /* AF_INET */
#include <string.h>
#include <errno.h>
#ifdef STRCASECMP_IN_STRINGS_H
#include <strings.h>
#endif
/* Utility library. */
#include <msg.h>
#include <vstream.h>
#include <vstring.h>
#include <stringops.h>
#include <inet_proto.h>
/* Global library. */
#include <off_cvt.h>
#include <dsn_mask.h>
#include <rec_type.h>
#include <cleanup_user.h>
#include <record.h>
#include <rec_attr_map.h>
#include <mail_proto.h>
#include <mail_params.h>
#include <lex_822.h>
#include <is_header.h>
#include <quote_821_local.h>
#include <dsn_util.h>
#include <xtext.h>
/* Application-specific. */
#include <cleanup.h>
/*
* How Postfix 2.4 edits queue file information:
*
* Mail filter applications (Milters) can send modification requests after
* receiving the end of the message body. Postfix implements these
* modifications in the cleanup server, so that it can edit the queue file
* in place. This avoids the temporary files that would be needed when
* modifications were implemented in the SMTP server (Postfix normally does
* not store the whole message in main memory). Once a Milter is done
* editing, the queue file can be used as input for the next Milter, and so
* on. Finally, the cleanup server changes file permissions, calls fsync(),
* and waits for successful completion.
*
* To implement in-place queue file edits, we need to introduce surprisingly
* little change to the existing Postfix queue file structure. All we need
* is a way to mark a record as deleted, and to jump from one place in the
* queue file to another. We could implement deleted records with jumps, but
* marking is sometimes simpler.
*
* Postfix does not store queue files as plain text files. Instead all
* information is stored in records with an explicit type and length, for
* sender, recipient, arrival time, and so on. Even the content that makes
* up the message header and body is stored as records with explicit types
* and lengths. This organization makes it very easy to mark a record as
* deleted, and to introduce the pointer records that we will use to jump
* from one place in a queue file to another place.
*
* - Deleting a recipient is easiest - simply modify the record type into one
* that is skipped by the software that delivers mail. We won't try to reuse
* the deleted recipient for other purposes. When deleting a recipient, we
* may need to delete multiple recipient records that result from virtual
* alias expansion of the original recipient address.
*
* - Replacing a header record involves pointer records. A record is replaced
* by overwriting it with a forward pointer to space after the end of the
* queue file, putting the new record there, followed by a reverse pointer
* to the record that follows the replaced header. To simplify
* implementation we follow a short header record with a filler record so
* that we can always overwrite a header record with a pointer.
*
* N.B. This is a major difference with Postfix version 2.3, which needed
* complex code to save records that follow a short header, before it could
* overwrite a short header record. This code contained two of the three
* post-release bugs that were found with Postfix header editing.
*
* - Inserting a header record is like replacing one, except that we also
* relocate the record that is being overwritten by the forward pointer.
*
* - Deleting a message header is simplest when we replace it by a "skip"
* pointer to the information that follows the header. With a multi-line
* header we need to update only the first line.
*
* - Appending a recipient or header record involves pointer records as well.
* To make this convenient, the queue file already contains dummy pointer
* records at the locations where we want to append recipient or header
* content. To append, change the dummy pointer into a forward pointer to
* space after the end of a message, put the new recipient or header record
* there, followed by a reverse pointer to the record that follows the
* forward pointer.
*
* - To append another header or recipient record, replace the reverse pointer
* by a forward pointer to space after the end of a message, put the new
* record there, followed by the value of the reverse pointer that we
* replace. Thus, there is no one-to-one correspondence between forward and
* backward pointers. Instead, there can be multiple forward pointers for
* one reverse pointer.
*
* - When a mail filter wants to replace an entire body, we overwrite existing
* body records until we run out of space, and then write a pointer to space
* after the end of the queue file, followed by more body content. There may
* be multiple regions with body content; regions are connected by forward
* pointers, and the last region ends with a pointer to the marker that ends
* the message content segment. Body regions can be large and therefore they
* are reused to avoid wasting space. Sendmail mail filters currently do not
* replace individual body records, and that is a good thing.
*
* Making queue file modifications safe:
*
* Postfix queue files are segmented. The first segment is for envelope
* records, the second for message header and body content, and the third
* segment is for information that was extracted or generated from the
* message header or body content. Each segment is terminated by a marker
* record. For now we don't want to change their location. That is, we want
* to avoid moving the records that mark the start or end of a queue file
* segment.
*
* To ensure that we can always replace a header or body record by a pointer
* record, without having to relocate a marker record, the cleanup server
* places a dummy pointer record at the end of the recipients and at the end
* of the message header. To support message body modifications, a dummy
* pointer record is also placed at the end of the message content.
*
* With all these changes in queue file organization, REC_TYPE_END is no longer
* guaranteed to be the last record in a queue file. If an application were
* to read beyond the REC_TYPE_END marker, it would go into an infinite
* loop, because records after REC_TYPE_END alternate with reverse pointers
* to the middle of the queue file. For robustness, the record reading
* routine skips forward to the end-of-file position after reading the
* REC_TYPE_END marker.
*/
/*#define msg_verbose 2*/
static void cleanup_milter_set_error(CLEANUP_STATE *, int);
static const char *cleanup_add_rcpt_par(void *, const char *, const char *);
#define STR(x) vstring_str(x)
#define LEN(x) VSTRING_LEN(x)
/* cleanup_milter_hbc_log - log post-milter header/body_checks action */
static void cleanup_milter_hbc_log(void *context, const char *action,
const char *where, const char *line,
const char *optional_text)
{
const CLEANUP_STATE *state = (CLEANUP_STATE *) context;
const char *attr;
vstring_sprintf(state->temp1, "%s: milter-%s-%s: %s %.60s from %s[%s];",
state->queue_id, where, action, where, line,
state->client_name, state->client_addr);
if (state->sender)
vstring_sprintf_append(state->temp1, " from=<%s>", state->sender);
if (state->recip)
vstring_sprintf_append(state->temp1, " to=<%s>", state->recip);
if ((attr = nvtable_find(state->attr, MAIL_ATTR_LOG_PROTO_NAME)) != 0)
vstring_sprintf_append(state->temp1, " proto=%s", attr);
if ((attr = nvtable_find(state->attr, MAIL_ATTR_LOG_HELO_NAME)) != 0)
vstring_sprintf_append(state->temp1, " helo=<%s>", attr);
if (optional_text)
vstring_sprintf_append(state->temp1, ": %s", optional_text);
msg_info("%s", vstring_str(state->temp1));
}
/* cleanup_milter_header_prepend - prepend header to milter-generated header */
static void cleanup_milter_header_prepend(void *context, int rec_type,
const char *buf, ssize_t len, off_t offset)
{
/* XXX save prepended header to buffer. */
msg_warn("the milter_header/body_checks prepend action is not implemented");
}
/* cleanup_milter_hbc_extend - additional header/body_checks actions */
static char *cleanup_milter_hbc_extend(void *context, const char *command,
ssize_t cmd_len, const char *optional_text,
const char *where, const char *buf,
ssize_t buf_len, off_t offset)
{
CLEANUP_STATE *state = (CLEANUP_STATE *) context;
const char *map_class = VAR_MILT_HEAD_CHECKS; /* XXX */
#define STREQUAL(x,y,l) (strncasecmp((x), (y), (l)) == 0 && (y)[l] == 0)
/*
* These are currently our mutually-exclusive ways of not receiving mail:
* "reject" and "discard". Only these can be reported to the up-stream
* Postfix libmilter code, because sending any reply there causes Postfix
* libmilter to skip further "edit" requests. By way of safety net, each
* of these must also reset CLEANUP_FLAG_FILTER_ALL.
*/
#define CLEANUP_MILTER_REJECTING_OR_DISCARDING_MESSAGE(state) \
((state->flags & CLEANUP_FLAG_DISCARD) || (state->errs & CLEANUP_STAT_CONT))
/*
* We log all header/body-checks actions here, because we know the
* details of the message content that triggered the action. We report
* detail-free milter-reply values (reject/discard, stored in the
* milter_hbc_reply state member) to the Postfix libmilter code, so that
* Postfix libmilter can stop sending requests.
*
* We also set all applicable cleanup flags here, because there is no
* guarantee that Postfix libmilter will propagate our own milter-reply
* value to cleanup_milter_inspect() which calls cleanup_milter_apply().
* The latter translates responses from Milter applications into cleanup
* flags, and logs the response text. Postfix libmilter can convey only
* one milter-reply value per email message, and that reply may even come
* from outside Postfix.
*
* To suppress redundant logging, cleanup_milter_apply() does nothing when
* the milter-reply value matches the saved text in the milter_hbc_reply
* state member. As we remember only one milter-reply value, we can't
* report multiple milter-reply values per email message. We satisfy this
* constraint, because we already clear the CLEANUP_FLAG_FILTER_ALL flags
* to terminate further header inspection.
*/
if ((state->flags & CLEANUP_FLAG_FILTER_ALL) == 0)
return ((char *) buf);
if (STREQUAL(command, "BCC", cmd_len)) {
if (strchr(optional_text, '@') == 0) {
msg_warn("bad BCC address \"%s\" in %s map -- "
"need user@domain",
optional_text, VAR_MILT_HEAD_CHECKS);
} else {
cleanup_milter_hbc_log(context, "bcc", where, buf, optional_text);
/* Caller checks state error flags. */
(void) cleanup_add_rcpt_par(state, optional_text, "");
}
return ((char *) buf);
}
if (STREQUAL(command, "REJECT", cmd_len)) {
const CLEANUP_STAT_DETAIL *detail;
if (state->reason)
myfree(state->reason);
detail = cleanup_stat_detail(CLEANUP_STAT_CONT);
if (*optional_text) {
state->reason = dsn_prepend(detail->dsn, optional_text);
if (*state->reason != '4' && *state->reason != '5') {
msg_warn("bad DSN action in %s -- need 4.x.x or 5.x.x",
optional_text);
*state->reason = '4';
}
} else {
state->reason = dsn_prepend(detail->dsn, detail->text);
}
if (*state->reason == '4')
state->errs |= CLEANUP_STAT_DEFER;
else
state->errs |= CLEANUP_STAT_CONT;
state->flags &= ~CLEANUP_FLAG_FILTER_ALL;
cleanup_milter_hbc_log(context, "reject", where, buf, state->reason);
vstring_sprintf(state->milter_hbc_reply, "%d %s",
detail->smtp, state->reason);
STR(state->milter_hbc_reply)[0] = *state->reason;
return ((char *) buf);
}
if (STREQUAL(command, "FILTER", cmd_len)) {
if (*optional_text == 0) {
msg_warn("missing FILTER command argument in %s map", map_class);
} else if (strchr(optional_text, ':') == 0) {
msg_warn("bad FILTER command %s in %s -- "
"need transport:destination",
optional_text, map_class);
} else {
if (state->filter)
myfree(state->filter);
state->filter = mystrdup(optional_text);
cleanup_milter_hbc_log(context, "filter", where, buf,
optional_text);
}
return ((char *) buf);
}
if (STREQUAL(command, "DISCARD", cmd_len)) {
cleanup_milter_hbc_log(context, "discard", where, buf, optional_text);
vstring_strcpy(state->milter_hbc_reply, "D");
state->flags |= CLEANUP_FLAG_DISCARD;
state->flags &= ~CLEANUP_FLAG_FILTER_ALL;
return ((char *) buf);
}
if (STREQUAL(command, "HOLD", cmd_len)) {
if ((state->flags & (CLEANUP_FLAG_HOLD | CLEANUP_FLAG_DISCARD)) == 0) {
cleanup_milter_hbc_log(context, "hold", where, buf, optional_text);
state->flags |= CLEANUP_FLAG_HOLD;
}
return ((char *) buf);
}
if (STREQUAL(command, "REDIRECT", cmd_len)) {
if (strchr(optional_text, '@') == 0) {
msg_warn("bad REDIRECT target \"%s\" in %s map -- "
"need user@domain",
optional_text, map_class);
} else {
if (state->redirect)
myfree(state->redirect);
state->redirect = mystrdup(optional_text);
cleanup_milter_hbc_log(context, "redirect", where, buf,
optional_text);
state->flags &= ~CLEANUP_FLAG_FILTER_ALL;
}
return ((char *) buf);
}
return ((char *) HBC_CHECKS_STAT_UNKNOWN);
}
/* cleanup_milter_header_checks - inspect Milter-generated header */
static int cleanup_milter_header_checks(CLEANUP_STATE *state, VSTRING *buf)
{
char *ret;
/*
* Milter application "add/insert/replace header" requests happen at the
* end-of-message stage, therefore all the header operations are relative
* to the primary message header.
*/
ret = hbc_header_checks((void *) state, state->milter_hbc_checks,
MIME_HDR_PRIMARY, (HEADER_OPTS *) 0,
buf, (off_t) 0);
if (ret == 0) {
return (0);
} else if (ret == HBC_CHECKS_STAT_ERROR) {
msg_warn("%s: %s map lookup problem -- "
"message not accepted, try again later",
state->queue_id, VAR_MILT_HEAD_CHECKS);
state->errs |= CLEANUP_STAT_WRITE;
return (0);
} else {
if (ret != STR(buf)) {
vstring_strcpy(buf, ret);
myfree(ret);
}
return (1);
}
}
/* cleanup_milter_hbc_add_meta_records - add REDIRECT or FILTER meta records */
static void cleanup_milter_hbc_add_meta_records(CLEANUP_STATE *state)
{
const char *myname = "cleanup_milter_hbc_add_meta_records";
off_t reverse_ptr_offset;
off_t new_meta_offset;
/*
* Note: this code runs while the Milter infrastructure is being torn
* down. For this reason we handle all I/O errors here on the spot,
* instead of reporting them back through the Milter infrastructure.
*/
/*
* Sanity check.
*/
if (state->append_meta_pt_offset < 0)
msg_panic("%s: no meta append pointer location", myname);
if (state->append_meta_pt_target < 0)
msg_panic("%s: no meta append pointer target", myname);
/*
* Allocate space after the end of the queue file, and write the meta
* record(s), followed by a reverse pointer record that points to the
* target of the old "meta record append" pointer record. This reverse
* pointer record becomes the new "meta record append" pointer record.
* Although the new "meta record append" pointer record will never be
* used, we update it here to make the code more similar to other code
* that inserts/appends content, so that common code can be factored out
* later.
*/
if ((new_meta_offset = vstream_fseek(state->dst, (off_t) 0, SEEK_END)) < 0) {
cleanup_milter_set_error(state, errno);
return;
}
if (state->filter != 0)
cleanup_out_string(state, REC_TYPE_FILT, state->filter);
if (state->redirect != 0)
cleanup_out_string(state, REC_TYPE_RDR, state->redirect);
if ((reverse_ptr_offset = vstream_ftell(state->dst)) < 0) {
msg_warn("%s: vstream_ftell file %s: %m", myname, cleanup_path);
state->errs |= CLEANUP_STAT_WRITE;
return;
}
cleanup_out_format(state, REC_TYPE_PTR, REC_TYPE_PTR_FORMAT,
(long) state->append_meta_pt_target);
/*
* Pointer flipping: update the old "meta record append" pointer record
* value with the location of the new meta record.
*/
if (vstream_fseek(state->dst, state->append_meta_pt_offset, SEEK_SET) < 0) {
cleanup_milter_set_error(state, errno);
return;
}
cleanup_out_format(state, REC_TYPE_PTR, REC_TYPE_PTR_FORMAT,
(long) new_meta_offset);
/*
* Update the in-memory "meta append" pointer record location with the
* location of the reverse pointer record that follows the new meta
* record. The target of the "meta append" pointer record does not
* change; it's always the record that follows the dummy pointer record
* that was written while Postfix received the message.
*/
state->append_meta_pt_offset = reverse_ptr_offset;
/*
* Note: state->append_meta_pt_target never changes.
*/
}
/* cleanup_milter_header_checks_init - initialize post-Milter header checks */
static void cleanup_milter_header_checks_init(CLEANUP_STATE *state)
{
#define NO_NESTED_HDR_NAME ""
#define NO_NESTED_HDR_VALUE ""
#define NO_MIME_HDR_NAME ""
#define NO_MIME_HDR_VALUE ""
static /* XXX not const */ HBC_CALL_BACKS call_backs = {
cleanup_milter_hbc_log,
cleanup_milter_header_prepend,
cleanup_milter_hbc_extend,
};
state->milter_hbc_checks =
hbc_header_checks_create(VAR_MILT_HEAD_CHECKS, var_milt_head_checks,
NO_MIME_HDR_NAME, NO_MIME_HDR_VALUE,
NO_NESTED_HDR_NAME, NO_NESTED_HDR_VALUE,
&call_backs);
state->milter_hbc_reply = vstring_alloc(100);
if (state->filter)
myfree(state->filter);
state->filter = 0;
if (state->redirect)
myfree(state->redirect);
state->redirect = 0;
}
/* cleanup_milter_hbc_finish - finalize post-Milter header checks */
static void cleanup_milter_hbc_finish(CLEANUP_STATE *state)
{
if (state->milter_hbc_checks)
hbc_header_checks_free(state->milter_hbc_checks);
state->milter_hbc_checks = 0;
if (state->milter_hbc_reply)
vstring_free(state->milter_hbc_reply);
state->milter_hbc_reply = 0;
if (CLEANUP_OUT_OK(state)
&& !CLEANUP_MILTER_REJECTING_OR_DISCARDING_MESSAGE(state)
&& (state->filter || state->redirect))
cleanup_milter_hbc_add_meta_records(state);
}
/*
* Milter replies.
*/
#define CLEANUP_MILTER_SET_REASON(__state, __reason) do { \
if ((__state)->reason) \
myfree((__state)->reason); \
(__state)->reason = mystrdup(__reason); \
if ((__state)->smtp_reply) { \
myfree((__state)->smtp_reply); \
(__state)->smtp_reply = 0; \
} \
} while (0)
#define CLEANUP_MILTER_SET_SMTP_REPLY(__state, __smtp_reply) do { \
if ((__state)->reason) \
myfree((__state)->reason); \
(__state)->reason = mystrdup(__smtp_reply + 4); \
printable((__state)->reason, '_'); \
if ((__state)->smtp_reply) \
myfree((__state)->smtp_reply); \
(__state)->smtp_reply = mystrdup(__smtp_reply); \
} while (0)
/* cleanup_milter_set_error - set error flag from errno */
static void cleanup_milter_set_error(CLEANUP_STATE *state, int err)
{
if (err == EFBIG) {
msg_warn("%s: queue file size limit exceeded", state->queue_id);
state->errs |= CLEANUP_STAT_SIZE;
} else {
msg_warn("%s: write queue file: %m", state->queue_id);
state->errs |= CLEANUP_STAT_WRITE;
}
}
/* cleanup_milter_error - return dummy error description */
static const char *cleanup_milter_error(CLEANUP_STATE *state, int err)
{
const char *myname = "cleanup_milter_error";
const CLEANUP_STAT_DETAIL *dp;
/*
* For consistency with error reporting within the milter infrastructure,
* content manipulation routines return a null pointer on success, and an
* SMTP-like response on error.
*
* However, when cleanup_milter_apply() receives this error response from
* the milter infrastructure, it ignores the text since the appropriate
* cleanup error flags were already set by cleanup_milter_set_error().
*
* Specify a null error number when the "errno to error flag" mapping was
* already done elsewhere, possibly outside this module.
*/
if (err)
cleanup_milter_set_error(state, err);
else if (CLEANUP_OUT_OK(state))
msg_panic("%s: missing errno to error flag mapping", myname);
if (state->milter_err_text == 0)
state->milter_err_text = vstring_alloc(50);
dp = cleanup_stat_detail(state->errs);
return (STR(vstring_sprintf(state->milter_err_text,
"%d %s %s", dp->smtp, dp->dsn, dp->text)));
}
/* cleanup_add_header - append message header */
static const char *cleanup_add_header(void *context, const char *name,
const char *space,
const char *value)
{
const char *myname = "cleanup_add_header";
CLEANUP_STATE *state = (CLEANUP_STATE *) context;
VSTRING *buf;
off_t reverse_ptr_offset;
off_t new_hdr_offset;
/*
* To simplify implementation, the cleanup server writes a dummy "header
* append" pointer record after the last message header. We cache both
* the location and the target of the current "header append" pointer
* record.
*/
if (state->append_hdr_pt_offset < 0)
msg_panic("%s: no header append pointer location", myname);
if (state->append_hdr_pt_target < 0)
msg_panic("%s: no header append pointer target", myname);
/*
* Return early when Milter header checks request that this header record
* be dropped, or that the message is discarded. Note: CLEANUP_OUT_OK()
* tests CLEANUP_FLAG_DISCARD. We don't want to report the latter as an
* error.
*/
buf = vstring_alloc(100);
vstring_sprintf(buf, "%s:%s%s", name, space, value);
if (state->milter_hbc_checks) {
if (cleanup_milter_header_checks(state, buf) == 0
|| (state->flags & CLEANUP_FLAG_DISCARD)) {
vstring_free(buf);
return (0);
}
if (CLEANUP_OUT_OK(state) == 0) {
vstring_free(buf);
return (cleanup_milter_error(state, 0));
}
}
/*
* Allocate space after the end of the queue file, and write the header
* record(s), followed by a reverse pointer record that points to the
* target of the old "header append" pointer record. This reverse pointer
* record becomes the new "header append" pointer record.
*/
if ((new_hdr_offset = vstream_fseek(state->dst, (off_t) 0, SEEK_END)) < 0) {
msg_warn("%s: seek file %s: %m", myname, cleanup_path);
vstring_free(buf);
return (cleanup_milter_error(state, errno));
}
/* XXX emit prepended header, then clear it. */
cleanup_out_header(state, buf); /* Includes padding */
vstring_free(buf);
if ((reverse_ptr_offset = vstream_ftell(state->dst)) < 0) {
msg_warn("%s: vstream_ftell file %s: %m", myname, cleanup_path);
return (cleanup_milter_error(state, errno));
}
cleanup_out_format(state, REC_TYPE_PTR, REC_TYPE_PTR_FORMAT,
(long) state->append_hdr_pt_target);
/*
* Pointer flipping: update the old "header append" pointer record value
* with the location of the new header record.
*
* XXX To avoid unnecessary seek operations when the new header immediately
* follows the old append header pointer, write a null pointer or make
* the record reading loop smarter. Making vstream_fseek() smarter does
* not help, because it doesn't know if we're going to read or write
* after a write+seek sequence.
*/
if (vstream_fseek(state->dst, state->append_hdr_pt_offset, SEEK_SET) < 0) {
msg_warn("%s: seek file %s: %m", myname, cleanup_path);
return (cleanup_milter_error(state, errno));
}
cleanup_out_format(state, REC_TYPE_PTR, REC_TYPE_PTR_FORMAT,
(long) new_hdr_offset);
/*
* Update the in-memory "header append" pointer record location with the
* location of the reverse pointer record that follows the new header.
* The target of the "header append" pointer record does not change; it's
* always the record that follows the dummy pointer record that was
* written while Postfix received the message.
*/
state->append_hdr_pt_offset = reverse_ptr_offset;
/*
* In case of error while doing record output.
*/
return (CLEANUP_OUT_OK(state) == 0 ? cleanup_milter_error(state, 0) :
state->milter_hbc_reply && LEN(state->milter_hbc_reply) ?
STR(state->milter_hbc_reply) : 0);
/*
* Note: state->append_hdr_pt_target never changes.
*/
}
/* cleanup_find_header_start - find specific header instance */
static off_t cleanup_find_header_start(CLEANUP_STATE *state, ssize_t index,
const char *header_label,
VSTRING *buf,
int *prec_type,
int allow_ptr_backup,
int skip_headers)
{
const char *myname = "cleanup_find_header_start";
off_t curr_offset; /* offset after found record */
off_t ptr_offset; /* pointer to found record */
VSTRING *ptr_buf = 0;
int rec_type = REC_TYPE_ERROR;
int last_type;
ssize_t len;
int hdr_count = 0;
if (msg_verbose)
msg_info("%s: index %ld name \"%s\"",
myname, (long) index, header_label ? header_label : "(none)");
/*
* Sanity checks.
*/
if (index < 1)
msg_panic("%s: bad header index %ld", myname, (long) index);
/*
* Skip to the start of the message content, and read records until we
* either find the specified header, or until we hit the end of the
* headers.
*
* The index specifies the header instance: 1 is the first one. The header
* label specifies the header name. A null pointer matches any header.
*
* When the specified header is not found, the result value is -1.
*
* When the specified header is found, its first record is stored in the
* caller-provided read buffer, and the result value is the queue file
* offset of that record. The file read position is left at the start of
* the next (non-filler) queue file record, which can be the remainder of
* a multi-record header.
*
* When a header is found and allow_ptr_backup is non-zero, then the result
* is either the first record of that header, or it is the pointer record
* that points to the first record of that header. In the latter case,
* the file read position is undefined. Returning the pointer allows us
* to do some optimizations when inserting text multiple times at the
* same place.
*
* XXX We can't use the MIME processor here. It not only buffers up the
* input, it also reads the record that follows a complete header before
* it invokes the header call-back action. This complicates the way that
* we discover header offsets and boundaries. Worse is that the MIME
* processor is unaware that multi-record message headers can have PTR
* records in the middle.
*
* XXX The draw-back of not using the MIME processor is that we have to
* duplicate some of its logic here and in the routine that finds the end
* of the header record. To minimize the duplication we define an ugly
* macro that is used in all code that scans for header boundaries.
*
* XXX Sendmail compatibility (based on Sendmail 8.13.6 measurements).
*
* - When changing Received: header #1, we change the Received: header that
* follows our own one; a request to change Received: header #0 is
* silently treated as a request to change Received: header #1.
*
* - When changing Date: header #1, we change the first Date: header; a
* request to change Date: header #0 is silently treated as a request to
* change Date: header #1.
*
* Thus, header change requests are relative to the content as received,
* that is, the content after our own Received: header. They can affect
* only the headers that the MTA actually exposes to mail filter
* applications.
*
* - However, when inserting a header at position 0, the new header appears
* before our own Received: header, and when inserting at position 1, the
* new header appears after our own Received: header.
*
* Thus, header insert operations are relative to the content as delivered,
* that is, the content including our own Received: header.
*
* None of the above is applicable after a Milter inserts a header before
* our own Received: header. From then on, our own Received: header
* becomes just like other headers.
*/
#define CLEANUP_FIND_HEADER_NOTFOUND (-1)
#define CLEANUP_FIND_HEADER_IOERROR (-2)
#define CLEANUP_FIND_HEADER_RETURN(offs) do { \
if (ptr_buf) \
vstring_free(ptr_buf); \
return (offs); \
} while (0)
#define GET_NEXT_TEXT_OR_PTR_RECORD(rec_type, state, buf, curr_offset, quit) \
if ((rec_type = rec_get_raw(state->dst, buf, 0, REC_FLAG_NONE)) < 0) { \
msg_warn("%s: read file %s: %m", myname, cleanup_path); \
cleanup_milter_set_error(state, errno); \
do { quit; } while (0); \
} \
if (msg_verbose > 1) \
msg_info("%s: read: %ld: %.*s", myname, (long) curr_offset, \
LEN(buf) > 30 ? 30 : (int) LEN(buf), STR(buf)); \
if (rec_type == REC_TYPE_DTXT) \
continue; \
if (rec_type != REC_TYPE_NORM && rec_type != REC_TYPE_CONT \
&& rec_type != REC_TYPE_PTR) \
break;
/* End of hairy macros. */
if (vstream_fseek(state->dst, state->data_offset, SEEK_SET) < 0) {
msg_warn("%s: seek file %s: %m", myname, cleanup_path);
cleanup_milter_set_error(state, errno);
CLEANUP_FIND_HEADER_RETURN(CLEANUP_FIND_HEADER_IOERROR);
}
for (ptr_offset = 0, last_type = 0; /* void */ ; /* void */ ) {
if ((curr_offset = vstream_ftell(state->dst)) < 0) {
msg_warn("%s: vstream_ftell file %s: %m", myname, cleanup_path);
cleanup_milter_set_error(state, errno);
CLEANUP_FIND_HEADER_RETURN(CLEANUP_FIND_HEADER_IOERROR);
}
/* Don't follow the "append header" pointer. */
if (curr_offset == state->append_hdr_pt_offset)
break;
/* Caution: this macro terminates the loop at end-of-message. */
/* Don't do complex processing while breaking out of this loop. */
GET_NEXT_TEXT_OR_PTR_RECORD(rec_type, state, buf, curr_offset,
CLEANUP_FIND_HEADER_RETURN(CLEANUP_FIND_HEADER_IOERROR));
/* Caution: don't assume ptr->header. This may be header-ptr->body. */
if (rec_type == REC_TYPE_PTR) {
if (rec_goto(state->dst, STR(buf)) < 0) {
msg_warn("%s: read file %s: %m", myname, cleanup_path);
cleanup_milter_set_error(state, errno);
CLEANUP_FIND_HEADER_RETURN(CLEANUP_FIND_HEADER_IOERROR);
}
/* Save PTR record, in case it points to the start of a header. */
if (allow_ptr_backup) {
ptr_offset = curr_offset;
if (ptr_buf == 0)
ptr_buf = vstring_alloc(100);
vstring_strcpy(ptr_buf, STR(buf));
}
/* Don't update last_type; PTR can happen after REC_TYPE_CONT. */
continue;
}
/* The middle of a multi-record header. */
else if (last_type == REC_TYPE_CONT || IS_SPACE_TAB(STR(buf)[0])) {
/* Reset the saved PTR record and update last_type. */
}
/* No more message headers. */
else if ((len = is_header(STR(buf))) == 0) {
break;
}
/* This the start of a message header. */
else if (hdr_count++ < skip_headers)
/* Reset the saved PTR record and update last_type. */ ;
else if ((header_label == 0
|| (strncasecmp(header_label, STR(buf), len) == 0
&& (strlen(header_label) == len)))
&& --index == 0) {
/* If we have a saved PTR record, it points to start of header. */
break;
}
ptr_offset = 0;
last_type = rec_type;
}
/*
* In case of failure, return negative start position.
*/
if (index > 0) {
curr_offset = CLEANUP_FIND_HEADER_NOTFOUND;
} else {
/*
* Skip over short-header padding, so that the file read pointer is
* always positioned at the first non-padding record after the header
* record. Insist on padding after short a header record, so that a
* short header record can safely be overwritten by a pointer record.
*/
if (LEN(buf) < REC_TYPE_PTR_PAYL_SIZE) {
VSTRING *rbuf = (ptr_offset ? buf :
(ptr_buf ? ptr_buf :
(ptr_buf = vstring_alloc(100))));
int rval;
if ((rval = rec_get_raw(state->dst, rbuf, 0, REC_FLAG_NONE)) < 0) {
cleanup_milter_set_error(state, errno);
CLEANUP_FIND_HEADER_RETURN(CLEANUP_FIND_HEADER_IOERROR);
}
if (rval != REC_TYPE_DTXT)
msg_panic("%s: short header without padding", myname);
}
/*
* Optionally return a pointer to the message header, instead of the
* start of the message header itself. In that case the file read
* position is undefined (actually it is at the first non-padding
* record that follows the message header record).
*/
if (ptr_offset != 0) {
rec_type = REC_TYPE_PTR;
curr_offset = ptr_offset;
vstring_strcpy(buf, STR(ptr_buf));
}
*prec_type = rec_type;
}
if (msg_verbose)
msg_info("%s: index %ld name %s type %d offset %ld",
myname, (long) index, header_label ?
header_label : "(none)", rec_type, (long) curr_offset);
CLEANUP_FIND_HEADER_RETURN(curr_offset);
}
/* cleanup_find_header_end - find end of header */
static off_t cleanup_find_header_end(CLEANUP_STATE *state,
VSTRING *rec_buf,
int last_type)
{
const char *myname = "cleanup_find_header_end";
off_t read_offset;
int rec_type;
/*
* This routine is called immediately after cleanup_find_header_start().
* rec_buf is the cleanup_find_header_start() result record; last_type is
* the corresponding record type: REC_TYPE_PTR or REC_TYPE_NORM; the file
* read position is at the first non-padding record after the result
* header record.
*/
for (;;) {
if ((read_offset = vstream_ftell(state->dst)) < 0) {
msg_warn("%s: read file %s: %m", myname, cleanup_path);
cleanup_milter_error(state, errno);
return (-1);
}
/* Don't follow the "append header" pointer. */
if (read_offset == state->append_hdr_pt_offset)
break;
/* Caution: this macro terminates the loop at end-of-message. */
/* Don't do complex processing while breaking out of this loop. */
GET_NEXT_TEXT_OR_PTR_RECORD(rec_type, state, rec_buf, read_offset,
/* Warning and errno->error mapping are done elsewhere. */
return (-1));
if (rec_type == REC_TYPE_PTR) {
if (rec_goto(state->dst, STR(rec_buf)) < 0) {
msg_warn("%s: read file %s: %m", myname, cleanup_path);
cleanup_milter_error(state, errno);
return (-1);
}
/* Don't update last_type; PTR may follow REC_TYPE_CONT. */
continue;
}
/* Start of header or message body. */
if (last_type != REC_TYPE_CONT && !IS_SPACE_TAB(STR(rec_buf)[0]))
break;
last_type = rec_type;
}
return (read_offset);
}
/* cleanup_patch_header - patch new header into an existing header */
static const char *cleanup_patch_header(CLEANUP_STATE *state,
const char *new_hdr_name,
const char *hdr_space,
const char *new_hdr_value,
off_t old_rec_offset,
int old_rec_type,
VSTRING *old_rec_buf,
off_t next_offset)
{
const char *myname = "cleanup_patch_header";
VSTRING *buf = vstring_alloc(100);
off_t new_hdr_offset;
#define CLEANUP_PATCH_HEADER_RETURN(ret) do { \
vstring_free(buf); \
return (ret); \
} while (0)
if (msg_verbose)
msg_info("%s: \"%s\" \"%s\" at %ld",
myname, new_hdr_name, new_hdr_value, (long) old_rec_offset);
/*
* Allocate space after the end of the queue file for the new header and
* optionally save an existing record to make room for a forward pointer
* record. If the saved record was not a PTR record, follow the saved
* record by a reverse pointer record that points to the record after the
* original location of the saved record.
*
* We update the queue file in a safe manner: save the new header and the
* existing records after the end of the queue file, write the reverse
* pointer, and only then overwrite the saved records with the forward
* pointer to the new header.
*
* old_rec_offset, old_rec_type, and old_rec_buf specify the record that we
* are about to overwrite with a pointer record. If the record needs to
* be saved (i.e. old_rec_type > 0), the buffer contains the data content
* of exactly one PTR or text record.
*
* next_offset specifies the record that follows the to-be-overwritten
* record. It is ignored when the to-be-saved record is a pointer record.
*/
/*
* Return early when Milter header checks request that this header record
* be dropped.
*/
vstring_sprintf(buf, "%s:%s%s", new_hdr_name, hdr_space, new_hdr_value);
if (state->milter_hbc_checks
&& cleanup_milter_header_checks(state, buf) == 0)
CLEANUP_PATCH_HEADER_RETURN(0);
/*
* Write the new header to a new location after the end of the queue
* file.
*/
if ((new_hdr_offset = vstream_fseek(state->dst, (off_t) 0, SEEK_END)) < 0) {
msg_warn("%s: seek file %s: %m", myname, cleanup_path);
CLEANUP_PATCH_HEADER_RETURN(cleanup_milter_error(state, errno));
}
/* XXX emit prepended header, then clear it. */
cleanup_out_header(state, buf); /* Includes padding */
if (msg_verbose > 1)
msg_info("%s: %ld: write %.*s", myname, (long) new_hdr_offset,
LEN(buf) > 30 ? 30 : (int) LEN(buf), STR(buf));
/*
* Optionally, save the existing text record or pointer record that will
* be overwritten with the forward pointer. Pad a short saved record to
* ensure that it, too, can be overwritten by a pointer.
*/
if (old_rec_type > 0) {
CLEANUP_OUT_BUF(state, old_rec_type, old_rec_buf);
if (LEN(old_rec_buf) < REC_TYPE_PTR_PAYL_SIZE)
rec_pad(state->dst, REC_TYPE_DTXT,
REC_TYPE_PTR_PAYL_SIZE - LEN(old_rec_buf));
if (msg_verbose > 1)
msg_info("%s: write %.*s", myname, LEN(old_rec_buf) > 30 ?
30 : (int) LEN(old_rec_buf), STR(old_rec_buf));
}
/*
* If the saved record wasn't a PTR record, write the reverse pointer
* after the saved records. A reverse pointer value of -1 means we were
* confused about what we were going to save.
*/
if (old_rec_type != REC_TYPE_PTR) {
if (next_offset < 0)
msg_panic("%s: bad reverse pointer %ld",
myname, (long) next_offset);
cleanup_out_format(state, REC_TYPE_PTR, REC_TYPE_PTR_FORMAT,
(long) next_offset);
if (msg_verbose > 1)
msg_info("%s: write PTR %ld", myname, (long) next_offset);
}
/*
* Write the forward pointer over the old record. Generally, a pointer
* record will be shorter than a header record, so there will be a gap in
* the queue file before the next record. In other words, we must always
* follow pointer records otherwise we get out of sync with the data.
*/
if (vstream_fseek(state->dst, old_rec_offset, SEEK_SET) < 0) {
msg_warn("%s: seek file %s: %m", myname, cleanup_path);
CLEANUP_PATCH_HEADER_RETURN(cleanup_milter_error(state, errno));
}
cleanup_out_format(state, REC_TYPE_PTR, REC_TYPE_PTR_FORMAT,
(long) new_hdr_offset);
if (msg_verbose > 1)
msg_info("%s: %ld: write PTR %ld", myname, (long) old_rec_offset,
(long) new_hdr_offset);
/*
* In case of error while doing record output.
*/
CLEANUP_PATCH_HEADER_RETURN(
CLEANUP_OUT_OK(state) == 0 ? cleanup_milter_error(state, 0) :
state->milter_hbc_reply && LEN(state->milter_hbc_reply) ?
STR(state->milter_hbc_reply) : 0);
/*
* Note: state->append_hdr_pt_target never changes.
*/
}
/* cleanup_ins_header - insert message header */
static const char *cleanup_ins_header(void *context, ssize_t index,
const char *new_hdr_name,
const char *hdr_space,
const char *new_hdr_value)
{
const char *myname = "cleanup_ins_header";
CLEANUP_STATE *state = (CLEANUP_STATE *) context;
VSTRING *old_rec_buf = vstring_alloc(100);
off_t old_rec_offset;
int old_rec_type;
off_t next_offset;
const char *ret;
#define CLEANUP_INS_HEADER_RETURN(ret) do { \
vstring_free(old_rec_buf); \
return (ret); \
} while (0)
if (msg_verbose)
msg_info("%s: %ld \"%s\" \"%s\"",
myname, (long) index, new_hdr_name, new_hdr_value);
/*
* Look for a header at the specified position.
*
* The lookup result may be a pointer record. This allows us to make some
* optimization when multiple insert operations happen in the same place.
*
* Index 1 is the top-most header.
*/
#define NO_HEADER_NAME ((char *) 0)
#define ALLOW_PTR_BACKUP 1
#define SKIP_ONE_HEADER 1
#define DONT_SKIP_HEADERS 0
if (index < 1)
index = 1;
old_rec_offset = cleanup_find_header_start(state, index, NO_HEADER_NAME,
old_rec_buf, &old_rec_type,
ALLOW_PTR_BACKUP,
DONT_SKIP_HEADERS);
if (old_rec_offset == CLEANUP_FIND_HEADER_IOERROR)
/* Warning and errno->error mapping are done elsewhere. */
CLEANUP_INS_HEADER_RETURN(cleanup_milter_error(state, 0));
/*
* If the header does not exist, simply append the header to the linked
* list at the "header append" pointer record.
*/
if (old_rec_offset < 0)
CLEANUP_INS_HEADER_RETURN(cleanup_add_header(context, new_hdr_name,
hdr_space, new_hdr_value));
/*
* If the header does exist, save both the new and the existing header to
* new storage at the end of the queue file, and link the new storage
* with a forward and reverse pointer (don't write a reverse pointer if
* we are starting with a pointer record).
*/
if (old_rec_type == REC_TYPE_PTR) {
next_offset = -1;
} else {
if ((next_offset = vstream_ftell(state->dst)) < 0) {
msg_warn("%s: read file %s: %m", myname, cleanup_path);
CLEANUP_INS_HEADER_RETURN(cleanup_milter_error(state, errno));
}
}
ret = cleanup_patch_header(state, new_hdr_name, hdr_space, new_hdr_value,
old_rec_offset, old_rec_type,
old_rec_buf, next_offset);
CLEANUP_INS_HEADER_RETURN(ret);
}
/* cleanup_upd_header - modify or append message header */
static const char *cleanup_upd_header(void *context, ssize_t index,
const char *new_hdr_name,
const char *hdr_space,
const char *new_hdr_value)
{
const char *myname = "cleanup_upd_header";
CLEANUP_STATE *state = (CLEANUP_STATE *) context;
VSTRING *rec_buf;
off_t old_rec_offset;
off_t next_offset;
int last_type;
const char *ret;
if (msg_verbose)
msg_info("%s: %ld \"%s\" \"%s\"",
myname, (long) index, new_hdr_name, new_hdr_value);
/*
* Sanity check.
*/
if (*new_hdr_name == 0)
msg_panic("%s: null header name", myname);
/*
* Find the header that is being modified.
*
* The lookup result will never be a pointer record.
*
* Index 1 is the first matching header instance.
*
* XXX When a header is updated repeatedly we create jumps to jumps. To
* eliminate this, rewrite the loop below so that we can start with the
* pointer record that points to the header that's being edited.
*/
#define DONT_SAVE_RECORD 0
#define NO_PTR_BACKUP 0
#define CLEANUP_UPD_HEADER_RETURN(ret) do { \
vstring_free(rec_buf); \
return (ret); \
} while (0)
rec_buf = vstring_alloc(100);
old_rec_offset = cleanup_find_header_start(state, index, new_hdr_name,
rec_buf, &last_type,
NO_PTR_BACKUP,
SKIP_ONE_HEADER);
if (old_rec_offset == CLEANUP_FIND_HEADER_IOERROR)
/* Warning and errno->error mapping are done elsewhere. */
CLEANUP_UPD_HEADER_RETURN(cleanup_milter_error(state, 0));
/*
* If no old header is found, simply append the new header to the linked
* list at the "header append" pointer record.
*/
if (old_rec_offset < 0)
CLEANUP_UPD_HEADER_RETURN(cleanup_add_header(context, new_hdr_name,
hdr_space, new_hdr_value));
/*
* If the old header is found, find the end of the old header, save the
* new header to new storage at the end of the queue file, and link the
* new storage with a forward and reverse pointer.
*/
if ((next_offset = cleanup_find_header_end(state, rec_buf, last_type)) < 0)
/* Warning and errno->error mapping are done elsewhere. */
CLEANUP_UPD_HEADER_RETURN(cleanup_milter_error(state, 0));
ret = cleanup_patch_header(state, new_hdr_name, hdr_space, new_hdr_value,
old_rec_offset, DONT_SAVE_RECORD,
(VSTRING *) 0, next_offset);
CLEANUP_UPD_HEADER_RETURN(ret);
}
/* cleanup_del_header - delete message header */
static const char *cleanup_del_header(void *context, ssize_t index,
const char *hdr_name)
{
const char *myname = "cleanup_del_header";
CLEANUP_STATE *state = (CLEANUP_STATE *) context;
VSTRING *rec_buf;
off_t header_offset;
off_t next_offset;
int last_type;
if (msg_verbose)
msg_info("%s: %ld \"%s\"", myname, (long) index, hdr_name);
/*
* Sanity check.
*/
if (*hdr_name == 0)
msg_panic("%s: null header name", myname);
/*
* Find the header that is being deleted.
*
* The lookup result will never be a pointer record.
*
* Index 1 is the first matching header instance.
*/
#define CLEANUP_DEL_HEADER_RETURN(ret) do { \
vstring_free(rec_buf); \
return (ret); \
} while (0)
rec_buf = vstring_alloc(100);
header_offset = cleanup_find_header_start(state, index, hdr_name, rec_buf,
&last_type, NO_PTR_BACKUP,
SKIP_ONE_HEADER);
if (header_offset == CLEANUP_FIND_HEADER_IOERROR)
/* Warning and errno->error mapping are done elsewhere. */
CLEANUP_DEL_HEADER_RETURN(cleanup_milter_error(state, 0));
/*
* Overwrite the beginning of the header record with a pointer to the
* information that follows the header. We can't simply overwrite the
* header with cleanup_out_header() and a special record type, because
* there may be a PTR record in the middle of a multi-line header.
*/
if (header_offset > 0) {
if ((next_offset = cleanup_find_header_end(state, rec_buf, last_type)) < 0)
/* Warning and errno->error mapping are done elsewhere. */
CLEANUP_DEL_HEADER_RETURN(cleanup_milter_error(state, 0));
/* Mark the header as deleted. */
if (vstream_fseek(state->dst, header_offset, SEEK_SET) < 0) {
msg_warn("%s: seek file %s: %m", myname, cleanup_path);
CLEANUP_DEL_HEADER_RETURN(cleanup_milter_error(state, errno));
}
rec_fprintf(state->dst, REC_TYPE_PTR, REC_TYPE_PTR_FORMAT,
(long) next_offset);
}
vstring_free(rec_buf);
/*
* In case of error while doing record output.
*/
return (CLEANUP_OUT_OK(state) ? 0 : cleanup_milter_error(state, 0));
}
/* cleanup_chg_from - replace sender address, ignore ESMTP arguments */
static const char *cleanup_chg_from(void *context, const char *ext_from,
const char *esmtp_args)
{
const char *myname = "cleanup_chg_from";
CLEANUP_STATE *state = (CLEANUP_STATE *) context;
off_t new_sender_offset;
off_t after_sender_offs;
int addr_count;
TOK822 *tree;
TOK822 *tp;
VSTRING *int_sender_buf;
if (msg_verbose)
msg_info("%s: \"%s\" \"%s\"", myname, ext_from, esmtp_args);
if (esmtp_args[0])
msg_warn("%s: %s: ignoring ESMTP arguments \"%.100s\"",
state->queue_id, myname, esmtp_args);
/*
* The cleanup server remembers the location of the the original sender
* address record (offset in sender_pt_offset) and the file offset of the
* record that follows the sender address (offset in sender_pt_target).
* Short original sender records are padded, so that they can safely be
* overwritten with a pointer record to the new sender address record.
*/
if (state->sender_pt_offset < 0)
msg_panic("%s: no original sender record offset", myname);
if (state->sender_pt_target < 0)
msg_panic("%s: no post-sender record offset", myname);
/*
* Allocate space after the end of the queue file, and write the new
* sender record, followed by a reverse pointer record that points to the
* record that follows the original sender address record. No padding is
* needed for a "new" short sender record, since the record is not meant
* to be overwritten. When the "new" sender is replaced, we allocate a
* new record at the end of the queue file.
*
* We update the queue file in a safe manner: save the new sender after the
* end of the queue file, write the reverse pointer, and only then
* overwrite the old sender record with the forward pointer to the new
* sender.
*/
if ((new_sender_offset = vstream_fseek(state->dst, (off_t) 0, SEEK_END)) < 0) {
msg_warn("%s: seek file %s: %m", myname, cleanup_path);
return (cleanup_milter_error(state, errno));
}
/*
* Transform the address from external form to internal form. This also
* removes the enclosing <>, if present.
*
* XXX vstring_alloc() rejects zero-length requests.
*/
int_sender_buf = vstring_alloc(strlen(ext_from) + 1);
tree = tok822_parse(ext_from);
for (addr_count = 0, tp = tree; tp != 0; tp = tp->next) {
if (tp->type == TOK822_ADDR) {
if (addr_count == 0) {
tok822_internalize(int_sender_buf, tp->head, TOK822_STR_DEFL);
addr_count += 1;
} else {
msg_warn("%s: Milter request to add multi-sender: \"%s\"",
state->queue_id, ext_from);
break;
}
}
}
tok822_free_tree(tree);
after_sender_offs = cleanup_addr_sender(state, STR(int_sender_buf));
vstring_free(int_sender_buf);
cleanup_out_format(state, REC_TYPE_PTR, REC_TYPE_PTR_FORMAT,
(long) state->sender_pt_target);
state->sender_pt_target = after_sender_offs;
/*
* Overwrite the original sender record with the pointer to the new
* sender address record.
*/
if (vstream_fseek(state->dst, state->sender_pt_offset, SEEK_SET) < 0) {
msg_warn("%s: seek file %s: %m", myname, cleanup_path);
return (cleanup_milter_error(state, errno));
}
cleanup_out_format(state, REC_TYPE_PTR, REC_TYPE_PTR_FORMAT,
(long) new_sender_offset);
/*
* In case of error while doing record output.
*/
return (CLEANUP_OUT_OK(state) ? 0 : cleanup_milter_error(state, 0));
}
/* cleanup_add_rcpt_par - append recipient address, with ESMTP arguments */
static const char *cleanup_add_rcpt_par(void *context, const char *ext_rcpt,
const char *esmtp_args)
{
const char *myname = "cleanup_add_rcpt_par";
CLEANUP_STATE *state = (CLEANUP_STATE *) context;
off_t new_rcpt_offset;
off_t reverse_ptr_offset;
int addr_count;
TOK822 *tree;
TOK822 *tp;
VSTRING *int_rcpt_buf;
VSTRING *orcpt_buf = 0;
ARGV *esmtp_argv;
int dsn_notify = 0;
const char *dsn_orcpt_info = 0;
size_t type_len;
int i;
const char *arg;
const char *arg_val;
if (msg_verbose)
msg_info("%s: \"%s\" \"%s\"", myname, ext_rcpt, esmtp_args);
/*
* To simplify implementation, the cleanup server writes a dummy
* "recipient append" pointer record after the last recipient. We cache
* both the location and the target of the current "recipient append"
* pointer record.
*/
if (state->append_rcpt_pt_offset < 0)
msg_panic("%s: no recipient append pointer location", myname);
if (state->append_rcpt_pt_target < 0)
msg_panic("%s: no recipient append pointer target", myname);
/*
* Allocate space after the end of the queue file, and write the
* recipient record, followed by a reverse pointer record that points to
* the target of the old "recipient append" pointer record. This reverse
* pointer record becomes the new "recipient append" pointer record.
*
* We update the queue file in a safe manner: save the new recipient after
* the end of the queue file, write the reverse pointer, and only then
* overwrite the old "recipient append" pointer with the forward pointer
* to the new recipient.
*/
if ((new_rcpt_offset = vstream_fseek(state->dst, (off_t) 0, SEEK_END)) < 0) {
msg_warn("%s: seek file %s: %m", myname, cleanup_path);
return (cleanup_milter_error(state, errno));
}
/*
* Parse ESMTP parameters. XXX UTF8SMTP don't assume ORCPT is xtext.
*/
if (esmtp_args[0]) {
esmtp_argv = argv_split(esmtp_args, " ");
for (i = 0; i < esmtp_argv->argc; ++i) {
arg = esmtp_argv->argv[i];
if (strncasecmp(arg, "NOTIFY=", 7) == 0) { /* RFC 3461 */
if (dsn_notify || (dsn_notify = dsn_notify_mask(arg + 7)) == 0)
msg_warn("%s: Bad NOTIFY parameter from Milter or "
"header/body_checks: \"%.100s\"",
state->queue_id, arg);
} else if (strncasecmp(arg, "ORCPT=", 6) == 0) { /* RFC 3461 */
if (orcpt_buf == 0)
orcpt_buf = vstring_alloc(100);
if (dsn_orcpt_info
|| (type_len = strcspn(arg_val = arg + 6, ";")) == 0
|| (arg_val)[type_len] != ';'
|| xtext_unquote_append(vstring_sprintf(orcpt_buf,
"%.*s;", (int) type_len,
arg_val),
arg_val + type_len + 1) == 0) {
msg_warn("%s: Bad ORCPT parameter from Milter or "
"header/body_checks: \"%.100s\"",
state->queue_id, arg);
} else {
dsn_orcpt_info = STR(orcpt_buf);
}
} else {
msg_warn("%s: ignoring ESMTP argument from Milter or "
"header/body_checks: \"%.100s\"",
state->queue_id, arg);
}
}
argv_free(esmtp_argv);
}
/*
* Transform recipient from external form to internal form. This also
* removes the enclosing <>, if present.
*
* XXX vstring_alloc() rejects zero-length requests.
*/
int_rcpt_buf = vstring_alloc(strlen(ext_rcpt) + 1);
tree = tok822_parse(ext_rcpt);
for (addr_count = 0, tp = tree; tp != 0; tp = tp->next) {
if (tp->type == TOK822_ADDR) {
if (addr_count == 0) {
tok822_internalize(int_rcpt_buf, tp->head, TOK822_STR_DEFL);
addr_count += 1;
} else {
msg_warn("%s: Milter or header/body_checks request to "
"add multi-recipient: \"%s\"",
state->queue_id, ext_rcpt);
break;
}
}
}
tok822_free_tree(tree);
if (addr_count != 0)
cleanup_addr_bcc_dsn(state, STR(int_rcpt_buf), dsn_orcpt_info,
dsn_notify ? dsn_notify : DEF_DSN_NOTIFY);
else
msg_warn("%s: ignoring attempt from Milter to add null recipient",
state->queue_id);
vstring_free(int_rcpt_buf);
if (orcpt_buf)
vstring_free(orcpt_buf);
/*
* Don't update the queue file when we did not write a recipient record
* (malformed or duplicate BCC recipient).
*/
if (vstream_ftell(state->dst) == new_rcpt_offset)
return (CLEANUP_OUT_OK(state) ? 0 : cleanup_milter_error(state, 0));
/*
* Follow the recipient with a "reverse" pointer to the old recipient
* append target.
*/
if ((reverse_ptr_offset = vstream_ftell(state->dst)) < 0) {
msg_warn("%s: vstream_ftell file %s: %m", myname, cleanup_path);
return (cleanup_milter_error(state, errno));
}
cleanup_out_format(state, REC_TYPE_PTR, REC_TYPE_PTR_FORMAT,
(long) state->append_rcpt_pt_target);
/*
* Pointer flipping: update the old "recipient append" pointer record
* value to the location of the new recipient record.
*/
if (vstream_fseek(state->dst, state->append_rcpt_pt_offset, SEEK_SET) < 0) {
msg_warn("%s: seek file %s: %m", myname, cleanup_path);
return (cleanup_milter_error(state, errno));
}
cleanup_out_format(state, REC_TYPE_PTR, REC_TYPE_PTR_FORMAT,
(long) new_rcpt_offset);
/*
* Update the in-memory "recipient append" pointer record location with
* the location of the reverse pointer record that follows the new
* recipient. The target of the "recipient append" pointer record does
* not change; it's always the record that follows the dummy pointer
* record that was written while Postfix received the message.
*/
state->append_rcpt_pt_offset = reverse_ptr_offset;
/*
* In case of error while doing record output.
*/
return (CLEANUP_OUT_OK(state) ? 0 : cleanup_milter_error(state, 0));
}
/* cleanup_add_rcpt - append recipient address */
static const char *cleanup_add_rcpt(void *context, const char *ext_rcpt)
{
return (cleanup_add_rcpt_par(context, ext_rcpt, ""));
}
/* cleanup_del_rcpt - remove recipient and all its expansions */
static const char *cleanup_del_rcpt(void *context, const char *ext_rcpt)
{
const char *myname = "cleanup_del_rcpt";
CLEANUP_STATE *state = (CLEANUP_STATE *) context;
off_t curr_offset;
VSTRING *buf;
char *attr_name;
char *attr_value;
char *dsn_orcpt = 0; /* XXX for dup filter cleanup */
int dsn_notify = 0; /* XXX for dup filter cleanup */
char *orig_rcpt = 0;
char *start;
int rec_type;
int junk;
int count = 0;
TOK822 *tree;
TOK822 *tp;
VSTRING *int_rcpt_buf;
int addr_count;
if (msg_verbose)
msg_info("%s: \"%s\"", myname, ext_rcpt);
/*
* Virtual aliasing and other address rewriting happens after the mail
* filter sees the envelope address. Therefore we must delete all
* recipient records whose Postfix (not DSN) original recipient address
* matches the specified address.
*
* As the number of recipients may be very large we can't do an efficient
* two-pass implementation (collect record offsets first, then mark
* records as deleted). Instead we mark records as soon as we find them.
* This is less efficient because we do (seek-write-read) for each marked
* recipient, instead of (seek-write). It's unlikely that VSTREAMs will
* be made smart enough to eliminate unnecessary I/O with small seeks.
*
* XXX When Postfix original recipients are turned off, we have no option
* but to match against the expanded and rewritten recipient address.
*
* XXX Remove the (dsn_orcpt, dsn_notify, orcpt, recip) tuple from the
* duplicate recipient filter. This requires that we maintain reference
* counts.
*/
if (vstream_fseek(state->dst, 0L, SEEK_SET) < 0) {
msg_warn("%s: seek file %s: %m", myname, cleanup_path);
return (cleanup_milter_error(state, errno));
}
#define CLEANUP_DEL_RCPT_RETURN(ret) do { \
if (orig_rcpt != 0) \
myfree(orig_rcpt); \
if (dsn_orcpt != 0) \
myfree(dsn_orcpt); \
vstring_free(buf); \
vstring_free(int_rcpt_buf); \
return (ret); \
} while (0)
/*
* Transform recipient from external form to internal form. This also
* removes the enclosing <>, if present.
*
* XXX vstring_alloc() rejects zero-length requests.
*/
int_rcpt_buf = vstring_alloc(strlen(ext_rcpt) + 1);
tree = tok822_parse(ext_rcpt);
for (addr_count = 0, tp = tree; tp != 0; tp = tp->next) {
if (tp->type == TOK822_ADDR) {
if (addr_count == 0) {
tok822_internalize(int_rcpt_buf, tp->head, TOK822_STR_DEFL);
addr_count += 1;
} else {
msg_warn("%s: Milter request to drop multi-recipient: \"%s\"",
state->queue_id, ext_rcpt);
break;
}
}
}
tok822_free_tree(tree);
buf = vstring_alloc(100);
for (;;) {
if (CLEANUP_OUT_OK(state) == 0)
/* Warning and errno->error mapping are done elsewhere. */
CLEANUP_DEL_RCPT_RETURN(cleanup_milter_error(state, 0));
if ((curr_offset = vstream_ftell(state->dst)) < 0) {
msg_warn("%s: vstream_ftell file %s: %m", myname, cleanup_path);
CLEANUP_DEL_RCPT_RETURN(cleanup_milter_error(state, errno));
}
if ((rec_type = rec_get_raw(state->dst, buf, 0, REC_FLAG_NONE)) <= 0) {
msg_warn("%s: read file %s: %m", myname, cleanup_path);
CLEANUP_DEL_RCPT_RETURN(cleanup_milter_error(state, errno));
}
if (rec_type == REC_TYPE_END)
break;
/* Skip over message content. */
if (rec_type == REC_TYPE_MESG) {
if (vstream_fseek(state->dst, state->xtra_offset, SEEK_SET) < 0) {
msg_warn("%s: seek file %s: %m", myname, cleanup_path);
CLEANUP_DEL_RCPT_RETURN(cleanup_milter_error(state, errno));
}
continue;
}
start = STR(buf);
if (rec_type == REC_TYPE_PTR) {
if (rec_goto(state->dst, start) < 0) {
msg_warn("%s: seek file %s: %m", myname, cleanup_path);
CLEANUP_DEL_RCPT_RETURN(cleanup_milter_error(state, errno));
}
continue;
}
/* Map attribute names to pseudo record type. */
if (rec_type == REC_TYPE_ATTR) {
if (split_nameval(STR(buf), &attr_name, &attr_value) != 0
|| *attr_value == 0)
continue;
if ((junk = rec_attr_map(attr_name)) != 0) {
start = attr_value;
rec_type = junk;
}
}
switch (rec_type) {
case REC_TYPE_DSN_ORCPT: /* RCPT TO ORCPT parameter */
if (dsn_orcpt != 0) /* can't happen */
myfree(dsn_orcpt);
dsn_orcpt = mystrdup(start);
break;
case REC_TYPE_DSN_NOTIFY: /* RCPT TO NOTIFY parameter */
if (alldig(start) && (junk = atoi(start)) > 0
&& DSN_NOTIFY_OK(junk))
dsn_notify = junk;
else
dsn_notify = 0;
break;
case REC_TYPE_ORCP: /* unmodified RCPT TO address */
if (orig_rcpt != 0) /* can't happen */
myfree(orig_rcpt);
orig_rcpt = mystrdup(start);
break;
case REC_TYPE_RCPT: /* rewritten RCPT TO address */
if (strcmp(orig_rcpt ? orig_rcpt : start, STR(int_rcpt_buf)) == 0) {
if (vstream_fseek(state->dst, curr_offset, SEEK_SET) < 0) {
msg_warn("%s: seek file %s: %m", myname, cleanup_path);
CLEANUP_DEL_RCPT_RETURN(cleanup_milter_error(state, errno));
}
if (REC_PUT_BUF(state->dst, REC_TYPE_DRCP, buf) < 0) {
msg_warn("%s: write queue file: %m", state->queue_id);
CLEANUP_DEL_RCPT_RETURN(cleanup_milter_error(state, errno));
}
count++;
}
/* FALLTHROUGH */
case REC_TYPE_DRCP: /* canceled recipient */
case REC_TYPE_DONE: /* can't happen */
if (orig_rcpt != 0) {
myfree(orig_rcpt);
orig_rcpt = 0;
}
if (dsn_orcpt != 0) {
myfree(dsn_orcpt);
dsn_orcpt = 0;
}
dsn_notify = 0;
break;
}
}
if (msg_verbose)
msg_info("%s: deleted %d records for recipient \"%s\"",
myname, count, ext_rcpt);
CLEANUP_DEL_RCPT_RETURN(0);
}
/* cleanup_repl_body - replace message body */
static const char *cleanup_repl_body(void *context, int cmd, VSTRING *buf)
{
const char *myname = "cleanup_repl_body";
CLEANUP_STATE *state = (CLEANUP_STATE *) context;
static VSTRING empty;
/*
* XXX Sendmail compatibility: milters don't see the first body line, so
* don't expect they will send one.
*/
switch (cmd) {
case MILTER_BODY_LINE:
if (cleanup_body_edit_write(state, REC_TYPE_NORM, buf) < 0)
return (cleanup_milter_error(state, errno));
break;
case MILTER_BODY_START:
VSTRING_RESET(&empty);
if (cleanup_body_edit_start(state) < 0
|| cleanup_body_edit_write(state, REC_TYPE_NORM, &empty) < 0)
return (cleanup_milter_error(state, errno));
break;
case MILTER_BODY_END:
if (cleanup_body_edit_finish(state) < 0)
return (cleanup_milter_error(state, errno));
break;
default:
msg_panic("%s: bad command: %d", myname, cmd);
}
return (CLEANUP_OUT_OK(state) ? 0 : cleanup_milter_error(state, errno));
}
/* cleanup_milter_eval - expand macro */
static const char *cleanup_milter_eval(const char *name, void *ptr)
{
CLEANUP_STATE *state = (CLEANUP_STATE *) ptr;
/*
* Note: if we use XFORWARD attributes here, then consistency requires
* that we forward all Sendmail macros via XFORWARD.
*/
/*
* System macros.
*/
if (strcmp(name, S8_MAC_DAEMON_NAME) == 0)
return (var_milt_daemon_name);
if (strcmp(name, S8_MAC_V) == 0)
return (var_milt_v);
/*
* Connect macros.
*/
#ifndef CLIENT_ATTR_UNKNOWN
#define CLIENT_ATTR_UNKNOWN "unknown"
#define SERVER_ATTR_UNKNOWN "unknown"
#endif
if (strcmp(name, S8_MAC__) == 0) {
vstring_sprintf(state->temp1, "%s [%s]",
state->reverse_name, state->client_addr);
if (strcasecmp(state->client_name, state->reverse_name) != 0)
vstring_strcat(state->temp1, " (may be forged)");
return (STR(state->temp1));
}
if (strcmp(name, S8_MAC_J) == 0)
return (var_myhostname);
if (strcmp(name, S8_MAC_CLIENT_ADDR) == 0)
return (state->client_addr);
if (strcmp(name, S8_MAC_CLIENT_NAME) == 0)
return (state->client_name);
if (strcmp(name, S8_MAC_CLIENT_PORT) == 0)
return (state->client_port
&& strcmp(state->client_port, CLIENT_ATTR_UNKNOWN) ?
state->client_port : "0");
if (strcmp(name, S8_MAC_CLIENT_PTR) == 0)
return (state->reverse_name);
/* XXX S8_MAC_CLIENT_RES needs SMTPD_PEER_CODE_XXX from smtpd. */
if (strcmp(name, S8_MAC_DAEMON_ADDR) == 0)
return (state->server_addr);
if (strcmp(name, S8_MAC_DAEMON_PORT) == 0)
return (state->server_port
&& strcmp(state->server_port, SERVER_ATTR_UNKNOWN) ?
state->server_port : "0");
/*
* MAIL FROM macros.
*/
if (strcmp(name, S8_MAC_I) == 0)
return (state->queue_id);
#ifdef USE_SASL_AUTH
if (strcmp(name, S8_MAC_AUTH_TYPE) == 0)
return (nvtable_find(state->attr, MAIL_ATTR_SASL_METHOD));
if (strcmp(name, S8_MAC_AUTH_AUTHEN) == 0)
return (nvtable_find(state->attr, MAIL_ATTR_SASL_USERNAME));
if (strcmp(name, S8_MAC_AUTH_AUTHOR) == 0)
return (nvtable_find(state->attr, MAIL_ATTR_SASL_SENDER));
#endif
if (strcmp(name, S8_MAC_MAIL_ADDR) == 0)
return (state->milter_ext_from ? STR(state->milter_ext_from) : 0);
/*
* RCPT TO macros.
*/
if (strcmp(name, S8_MAC_RCPT_ADDR) == 0)
return (state->milter_ext_rcpt ? STR(state->milter_ext_rcpt) : 0);
return (0);
}
/* cleanup_milter_receive - receive milter instances */
void cleanup_milter_receive(CLEANUP_STATE *state, int count)
{
if (state->milters)
milter_free(state->milters);
state->milters = milter_receive(state->src, count);
if (state->milters == 0)
msg_fatal("cleanup_milter_receive: milter receive failed");
if (count <= 0)
return;
milter_macro_callback(state->milters, cleanup_milter_eval, (void *) state);
milter_edit_callback(state->milters,
cleanup_add_header, cleanup_upd_header,
cleanup_ins_header, cleanup_del_header,
cleanup_chg_from, cleanup_add_rcpt,
cleanup_add_rcpt_par, cleanup_del_rcpt,
cleanup_repl_body, (void *) state);
}
/* cleanup_milter_apply - apply Milter response, non-zero if rejecting */
static const char *cleanup_milter_apply(CLEANUP_STATE *state, const char *event,
const char *resp)
{
const char *myname = "cleanup_milter_apply";
const char *action;
const char *text;
const char *attr;
const char *ret = 0;
if (msg_verbose)
msg_info("%s: %s", myname, resp);
/*
* Don't process our own milter_header/body checks replies. See comments
* in cleanup_milter_hbc_extend().
*/
if (state->milter_hbc_reply &&
strcmp(resp, STR(state->milter_hbc_reply)) == 0)
return (0);
/*
* Don't process Milter replies that are redundant because header/body
* checks already decided that we will not receive the message; or Milter
* replies that would have conflicting effect with the outcome of
* header/body checks (for example, header_checks "discard" action
* followed by Milter "reject" reply). Logging both actions would look
* silly.
*/
if (CLEANUP_MILTER_REJECTING_OR_DISCARDING_MESSAGE(state)) {
if (msg_verbose)
msg_info("%s: ignoring redundant or conflicting milter reply: %s",
state->queue_id, resp);
return (0);
}
/*
* Sanity check.
*/
if (state->client_name == 0)
msg_panic("%s: missing client info initialization", myname);
/*
* We don't report errors that were already reported by the content
* editing call-back routines. See cleanup_milter_error() above.
*/
if (CLEANUP_OUT_OK(state) == 0)
return (0);
switch (resp[0]) {
case 'H':
/* XXX Should log the reason here. */
if (state->flags & CLEANUP_FLAG_HOLD)
return (0);
state->flags |= CLEANUP_FLAG_HOLD;
action = "milter-hold";
text = "milter triggers HOLD action";
break;
case 'D':
state->flags |= CLEANUP_FLAG_DISCARD;
action = "milter-discard";
text = "milter triggers DISCARD action";
break;
case 'S':
/* XXX Can this happen after end-of-message? */
state->flags |= CLEANUP_STAT_CONT;
action = "milter-reject";
text = cleanup_strerror(CLEANUP_STAT_CONT);
break;
/*
* Override permanent reject with temporary reject. This happens when
* the cleanup server has to bounce (hard reject) but is unable to
* store the message (soft reject). After a temporary reject we stop
* inspecting queue file records, so it can't be overruled by
* something else.
*
* CLEANUP_STAT_CONT and CLEANUP_STAT_DEFER both update the reason
* attribute, but CLEANUP_STAT_DEFER takes precedence. It terminates
* queue record processing, and prevents bounces from being sent.
*/
case '4':
CLEANUP_MILTER_SET_SMTP_REPLY(state, resp);
ret = state->reason;
state->errs |= CLEANUP_STAT_DEFER;
action = "milter-reject";
text = resp + 4;
break;
case '5':
CLEANUP_MILTER_SET_SMTP_REPLY(state, resp);
ret = state->reason;
state->errs |= CLEANUP_STAT_CONT;
action = "milter-reject";
text = resp + 4;
break;
default:
msg_panic("%s: unexpected mail filter reply: %s", myname, resp);
}
vstring_sprintf(state->temp1, "%s: %s: %s from %s[%s]: %s;",
state->queue_id, action, event, state->client_name,
state->client_addr, text);
if (state->sender)
vstring_sprintf_append(state->temp1, " from=<%s>", state->sender);
if (state->recip)
vstring_sprintf_append(state->temp1, " to=<%s>", state->recip);
if ((attr = nvtable_find(state->attr, MAIL_ATTR_LOG_PROTO_NAME)) != 0)
vstring_sprintf_append(state->temp1, " proto=%s", attr);
if ((attr = nvtable_find(state->attr, MAIL_ATTR_LOG_HELO_NAME)) != 0)
vstring_sprintf_append(state->temp1, " helo=<%s>", attr);
msg_info("%s", vstring_str(state->temp1));
return (ret);
}
/* cleanup_milter_client_init - initialize real or ersatz client info */
static void cleanup_milter_client_init(CLEANUP_STATE *state)
{
static INET_PROTO_INFO *proto_info;
const char *proto_attr;
/*
* Either the cleanup client specifies a name, address and protocol, or
* we have a local submission and pretend localhost/127.0.0.1/AF_INET.
*/
#define NO_CLIENT_PORT "0"
state->client_name = nvtable_find(state->attr, MAIL_ATTR_ACT_CLIENT_NAME);
state->reverse_name =
nvtable_find(state->attr, MAIL_ATTR_ACT_REVERSE_CLIENT_NAME);
state->client_addr = nvtable_find(state->attr, MAIL_ATTR_ACT_CLIENT_ADDR);
state->client_port = nvtable_find(state->attr, MAIL_ATTR_ACT_CLIENT_PORT);
proto_attr = nvtable_find(state->attr, MAIL_ATTR_ACT_CLIENT_AF);
state->server_addr = nvtable_find(state->attr, MAIL_ATTR_ACT_SERVER_ADDR);
state->server_port = nvtable_find(state->attr, MAIL_ATTR_ACT_SERVER_PORT);
if (state->client_name == 0 || state->client_addr == 0 || proto_attr == 0
|| !alldig(proto_attr)) {
state->client_name = "localhost";
#ifdef AF_INET6
if (proto_info == 0)
proto_info = inet_proto_info();
if (proto_info->sa_family_list[0] == PF_INET6) {
state->client_addr = "::1";
state->client_af = AF_INET6;
} else
#endif
{
state->client_addr = "127.0.0.1";
state->client_af = AF_INET;
}
state->server_addr = state->client_addr;
} else
state->client_af = atoi(proto_attr);
if (state->reverse_name == 0)
state->reverse_name = state->client_name;
/* Compatibility with pre-2.5 queue files. */
if (state->client_port == 0) {
state->client_port = NO_CLIENT_PORT;
state->server_port = state->client_port;
}
}
/* cleanup_milter_inspect - run message through mail filter */
void cleanup_milter_inspect(CLEANUP_STATE *state, MILTERS *milters)
{
const char *myname = "cleanup_milter";
const char *resp;
if (msg_verbose)
msg_info("enter %s", myname);
/*
* Initialize, in case we're called via smtpd(8).
*/
if (state->client_name == 0)
cleanup_milter_client_init(state);
/*
* Prologue: prepare for Milter header/body checks.
*/
if (*var_milt_head_checks)
cleanup_milter_header_checks_init(state);
/*
* Process mail filter replies. The reply format is verified by the mail
* filter library.
*/
if ((resp = milter_message(milters, state->handle->stream,
state->data_offset, state->auto_hdrs)) != 0)
cleanup_milter_apply(state, "END-OF-MESSAGE", resp);
/*
* Epilogue: finalize Milter header/body checks.
*/
if (*var_milt_head_checks)
cleanup_milter_hbc_finish(state);
if (msg_verbose)
msg_info("leave %s", myname);
}
/* cleanup_milter_emul_mail - emulate connect/ehlo/mail event */
void cleanup_milter_emul_mail(CLEANUP_STATE *state,
MILTERS *milters,
const char *addr)
{
const char *resp;
const char *helo;
const char *argv[2];
/*
* Per-connection initialization.
*/
milter_macro_callback(milters, cleanup_milter_eval, (void *) state);
milter_edit_callback(milters,
cleanup_add_header, cleanup_upd_header,
cleanup_ins_header, cleanup_del_header,
cleanup_chg_from, cleanup_add_rcpt,
cleanup_add_rcpt_par, cleanup_del_rcpt,
cleanup_repl_body, (void *) state);
if (state->client_name == 0)
cleanup_milter_client_init(state);
/*
* Emulate SMTP events.
*/
if ((resp = milter_conn_event(milters, state->client_name, state->client_addr,
state->client_port, state->client_af)) != 0) {
cleanup_milter_apply(state, "CONNECT", resp);
return;
}
#define PRETEND_ESMTP 1
if (CLEANUP_MILTER_OK(state)) {
if ((helo = nvtable_find(state->attr, MAIL_ATTR_ACT_HELO_NAME)) == 0)
helo = state->client_name;
if ((resp = milter_helo_event(milters, helo, PRETEND_ESMTP)) != 0) {
cleanup_milter_apply(state, "EHLO", resp);
return;
}
}
if (CLEANUP_MILTER_OK(state)) {
if (state->milter_ext_from == 0)
state->milter_ext_from = vstring_alloc(100);
/* Sendmail 8.13 does not externalize the null address. */
if (*addr)
quote_821_local(state->milter_ext_from, addr);
else
vstring_strcpy(state->milter_ext_from, addr);
argv[0] = STR(state->milter_ext_from);
argv[1] = 0;
if ((resp = milter_mail_event(milters, argv)) != 0) {
cleanup_milter_apply(state, "MAIL", resp);
return;
}
}
}
/* cleanup_milter_emul_rcpt - emulate rcpt event */
void cleanup_milter_emul_rcpt(CLEANUP_STATE *state,
MILTERS *milters,
const char *addr)
{
const char *myname = "cleanup_milter_emul_rcpt";
const char *resp;
const char *argv[2];
/*
* Sanity check.
*/
if (state->client_name == 0)
msg_panic("%s: missing client info initialization", myname);
/*
* CLEANUP_STAT_CONT and CLEANUP_STAT_DEFER both update the reason
* attribute, but CLEANUP_STAT_DEFER takes precedence. It terminates
* queue record processing, and prevents bounces from being sent.
*/
if (state->milter_ext_rcpt == 0)
state->milter_ext_rcpt = vstring_alloc(100);
/* Sendmail 8.13 does not externalize the null address. */
if (*addr)
quote_821_local(state->milter_ext_rcpt, addr);
else
vstring_strcpy(state->milter_ext_rcpt, addr);
argv[0] = STR(state->milter_ext_rcpt);
argv[1] = 0;
if ((resp = milter_rcpt_event(milters, MILTER_FLAG_NONE, argv)) != 0
&& cleanup_milter_apply(state, "RCPT", resp) != 0) {
msg_warn("%s: milter configuration error: can't reject recipient "
"in non-smtpd(8) submission", state->queue_id);
msg_warn("%s: message not accepted, try again later", state->queue_id);
CLEANUP_MILTER_SET_REASON(state, "4.3.5 Server configuration error");
state->errs |= CLEANUP_STAT_DEFER;
}
}
/* cleanup_milter_emul_data - emulate data event */
void cleanup_milter_emul_data(CLEANUP_STATE *state, MILTERS *milters)
{
const char *myname = "cleanup_milter_emul_data";
const char *resp;
/*
* Sanity check.
*/
if (state->client_name == 0)
msg_panic("%s: missing client info initialization", myname);
if ((resp = milter_data_event(milters)) != 0)
cleanup_milter_apply(state, "DATA", resp);
}
#ifdef TEST
/*
* Queue file editing driver for regression tests. In this case it is OK to
* report fatal errors after I/O errors.
*/
#include <stdio.h>
#include <msg_vstream.h>
#include <vstring_vstream.h>
#include <mail_addr.h>
#include <mail_version.h>
#undef msg_verbose
char *cleanup_path;
VSTRING *cleanup_trace_path;
VSTRING *cleanup_strip_chars;
int cleanup_comm_canon_flags;
MAPS *cleanup_comm_canon_maps;
int cleanup_ext_prop_mask;
ARGV *cleanup_masq_domains;
int cleanup_masq_flags;
MAPS *cleanup_rcpt_bcc_maps;
int cleanup_rcpt_canon_flags;
MAPS *cleanup_rcpt_canon_maps;
MAPS *cleanup_send_bcc_maps;
int cleanup_send_canon_flags;
MAPS *cleanup_send_canon_maps;
int var_dup_filter_limit = DEF_DUP_FILTER_LIMIT;
char *var_empty_addr = DEF_EMPTY_ADDR;
int var_enable_orcpt = DEF_ENABLE_ORCPT;
MAPS *cleanup_virt_alias_maps;
char *var_milt_daemon_name = "host.example.com";
char *var_milt_v = DEF_MILT_V;
MILTERS *cleanup_milters = (MILTERS *) ((char *) sizeof(*cleanup_milters));
char *var_milt_head_checks = "";
/* Dummies to satisfy unused external references. */
int cleanup_masquerade_internal(CLEANUP_STATE *state, VSTRING *addr, ARGV *masq_domains)
{
msg_panic("cleanup_masquerade_internal dummy");
}
int cleanup_rewrite_internal(const char *context, VSTRING *result,
const char *addr)
{
vstring_strcpy(result, addr);
return (0);
}
int cleanup_map11_internal(CLEANUP_STATE *state, VSTRING *addr,
MAPS *maps, int propagate)
{
msg_panic("cleanup_map11_internal dummy");
}
ARGV *cleanup_map1n_internal(CLEANUP_STATE *state, const char *addr,
MAPS *maps, int propagate)
{
msg_panic("cleanup_map1n_internal dummy");
}
void cleanup_envelope(CLEANUP_STATE *state, int type, const char *buf,
ssize_t len)
{
msg_panic("cleanup_envelope dummy");
}
static void usage(void)
{
msg_warn("usage:");
msg_warn(" verbose on|off");
msg_warn(" open pathname");
msg_warn(" close");
msg_warn(" add_header index name [value]");
msg_warn(" ins_header index name [value]");
msg_warn(" upd_header index name [value]");
msg_warn(" del_header index name");
msg_warn(" chg_from addr parameters");
msg_warn(" add_rcpt addr");
msg_warn(" add_rcpt_par addr parameters");
msg_warn(" del_rcpt addr");
msg_warn(" replbody pathname");
msg_warn(" header_checks type:name");
}
/* flatten_args - unparse partial command line */
static void flatten_args(VSTRING *buf, char **argv)
{
char **cpp;
VSTRING_RESET(buf);
for (cpp = argv; *cpp; cpp++) {
vstring_strcat(buf, *cpp);
if (cpp[1])
VSTRING_ADDCH(buf, ' ');
}
VSTRING_TERMINATE(buf);
}
/* open_queue_file - open an unedited queue file (all-zero dummy PTRs) */
static void open_queue_file(CLEANUP_STATE *state, const char *path)
{
VSTRING *buf = vstring_alloc(100);
off_t curr_offset;
int rec_type;
long msg_seg_len;
long data_offset;
long rcpt_count;
long qmgr_opts;
if (state->dst != 0) {
msg_warn("closing %s", cleanup_path);
vstream_fclose(state->dst);
state->dst = 0;
myfree(cleanup_path);
cleanup_path = 0;
}
if ((state->dst = vstream_fopen(path, O_RDWR, 0)) == 0) {
msg_warn("open %s: %m", path);
} else {
cleanup_path = mystrdup(path);
for (;;) {
if ((curr_offset = vstream_ftell(state->dst)) < 0)
msg_fatal("file %s: vstream_ftell: %m", cleanup_path);
if ((rec_type = rec_get_raw(state->dst, buf, 0, REC_FLAG_NONE)) < 0)
msg_fatal("file %s: missing SIZE or PTR record", cleanup_path);
if (rec_type == REC_TYPE_SIZE) {
if (sscanf(STR(buf), "%ld %ld %ld %ld",
&msg_seg_len, &data_offset,
&rcpt_count, &qmgr_opts) != 4)
msg_fatal("file %s: bad SIZE record: %s",
cleanup_path, STR(buf));
state->data_offset = data_offset;
state->xtra_offset = data_offset + msg_seg_len;
} else if (rec_type == REC_TYPE_FROM) {
state->sender_pt_offset = curr_offset;
if (LEN(buf) < REC_TYPE_PTR_PAYL_SIZE
&& rec_get_raw(state->dst, buf, 0, REC_FLAG_NONE) != REC_TYPE_PTR)
msg_fatal("file %s: missing PTR record after short sender",
cleanup_path);
if ((state->sender_pt_target = vstream_ftell(state->dst)) < 0)
msg_fatal("file %s: missing END record", cleanup_path);
} else if (rec_type == REC_TYPE_PTR) {
if (state->data_offset < 0)
msg_fatal("file %s: missing SIZE record", cleanup_path);
if (curr_offset < state->data_offset
|| curr_offset > state->xtra_offset) {
if (state->append_rcpt_pt_offset < 0) {
state->append_rcpt_pt_offset = curr_offset;
if (atol(STR(buf)) != 0)
msg_fatal("file %s: bad dummy recipient PTR record: %s",
cleanup_path, STR(buf));
if ((state->append_rcpt_pt_target =
vstream_ftell(state->dst)) < 0)
msg_fatal("file %s: vstream_ftell: %m", cleanup_path);
} else if (curr_offset > state->xtra_offset
&& state->append_meta_pt_offset < 0) {
state->append_meta_pt_offset = curr_offset;
if (atol(STR(buf)) != 0)
msg_fatal("file %s: bad dummy meta PTR record: %s",
cleanup_path, STR(buf));
if ((state->append_meta_pt_target =
vstream_ftell(state->dst)) < 0)
msg_fatal("file %s: vstream_ftell: %m", cleanup_path);
}
} else {
if (state->append_hdr_pt_offset < 0) {
state->append_hdr_pt_offset = curr_offset;
if (atol(STR(buf)) != 0)
msg_fatal("file %s: bad dummy header PTR record: %s",
cleanup_path, STR(buf));
if ((state->append_hdr_pt_target =
vstream_ftell(state->dst)) < 0)
msg_fatal("file %s: vstream_ftell: %m", cleanup_path);
}
}
}
if (state->append_rcpt_pt_offset > 0
&& state->append_hdr_pt_offset > 0
&& (rec_type == REC_TYPE_END
|| state->append_meta_pt_offset > 0))
break;
}
if (msg_verbose) {
msg_info("append_rcpt_pt_offset %ld append_rcpt_pt_target %ld",
(long) state->append_rcpt_pt_offset,
(long) state->append_rcpt_pt_target);
msg_info("append_hdr_pt_offset %ld append_hdr_pt_target %ld",
(long) state->append_hdr_pt_offset,
(long) state->append_hdr_pt_target);
}
}
vstring_free(buf);
}
static void close_queue_file(CLEANUP_STATE *state)
{
(void) vstream_fclose(state->dst);
state->dst = 0;
myfree(cleanup_path);
cleanup_path = 0;
}
int main(int unused_argc, char **argv)
{
VSTRING *inbuf = vstring_alloc(100);
VSTRING *arg_buf = vstring_alloc(100);
char *bufp;
int istty = isatty(vstream_fileno(VSTREAM_IN));
CLEANUP_STATE *state = cleanup_state_alloc((VSTREAM *) 0);
state->queue_id = mystrdup("NOQUEUE");
state->sender = mystrdup("sender");
state->recip = mystrdup("recipient");
state->client_name = "client_name";
state->client_addr = "client_addr";
state->flags |= CLEANUP_FLAG_FILTER_ALL;
msg_vstream_init(argv[0], VSTREAM_ERR);
var_line_limit = DEF_LINE_LIMIT;
var_header_limit = DEF_HEADER_LIMIT;
for (;;) {
ARGV *argv;
ssize_t index;
const char *resp = 0;
if (istty) {
vstream_printf("- ");
vstream_fflush(VSTREAM_OUT);
}
if (vstring_fgets_nonl(inbuf, VSTREAM_IN) == 0)
break;
bufp = vstring_str(inbuf);
if (!istty) {
vstream_printf("> %s\n", bufp);
vstream_fflush(VSTREAM_OUT);
}
if (*bufp == '#' || *bufp == 0 || allspace(bufp))
continue;
argv = argv_split(bufp, " ");
if (argv->argc == 0) {
msg_warn("missing command");
} else if (strcmp(argv->argv[0], "?") == 0) {
usage();
} else if (strcmp(argv->argv[0], "verbose") == 0) {
if (argv->argc != 2) {
msg_warn("bad verbose argument count: %ld", (long) argv->argc);
} else if (strcmp(argv->argv[1], "on") == 0) {
msg_verbose = 2;
} else if (strcmp(argv->argv[1], "off") == 0) {
msg_verbose = 0;
} else {
msg_warn("bad verbose argument");
}
} else if (strcmp(argv->argv[0], "open") == 0) {
if (state->dst != 0) {
msg_info("closing %s", VSTREAM_PATH(state->dst));
close_queue_file(state);
}
if (argv->argc != 2) {
msg_warn("bad open argument count: %ld", (long) argv->argc);
} else {
open_queue_file(state, argv->argv[1]);
}
} else if (state->dst == 0) {
msg_warn("no open queue file");
} else if (strcmp(argv->argv[0], "close") == 0) {
if (*var_milt_head_checks) {
cleanup_milter_hbc_finish(state);
myfree(var_milt_head_checks);
var_milt_head_checks = "";
}
close_queue_file(state);
} else if (state->milter_hbc_reply && LEN(state->milter_hbc_reply)) {
/* Postfix libmilter would skip further requests. */
msg_info("ignoring: %s %s %s", argv->argv[0],
argv->argc > 1 ? argv->argv[1] : "",
argv->argc > 2 ? argv->argv[2] : "");
} else if (strcmp(argv->argv[0], "add_header") == 0) {
if (argv->argc < 2) {
msg_warn("bad add_header argument count: %ld",
(long) argv->argc);
} else {
flatten_args(arg_buf, argv->argv + 2);
resp = cleanup_add_header(state, argv->argv[1], " ", STR(arg_buf));
}
} else if (strcmp(argv->argv[0], "ins_header") == 0) {
if (argv->argc < 3) {
msg_warn("bad ins_header argument count: %ld",
(long) argv->argc);
} else if ((index = atoi(argv->argv[1])) < 1) {
msg_warn("bad ins_header index value");
} else {
flatten_args(arg_buf, argv->argv + 3);
resp = cleanup_ins_header(state, index, argv->argv[2], " ", STR(arg_buf));
}
} else if (strcmp(argv->argv[0], "upd_header") == 0) {
if (argv->argc < 3) {
msg_warn("bad upd_header argument count: %ld",
(long) argv->argc);
} else if ((index = atoi(argv->argv[1])) < 1) {
msg_warn("bad upd_header index value");
} else {
flatten_args(arg_buf, argv->argv + 3);
resp = cleanup_upd_header(state, index, argv->argv[2], " ", STR(arg_buf));
}
} else if (strcmp(argv->argv[0], "del_header") == 0) {
if (argv->argc != 3) {
msg_warn("bad del_header argument count: %ld",
(long) argv->argc);
} else if ((index = atoi(argv->argv[1])) < 1) {
msg_warn("bad del_header index value");
} else {
cleanup_del_header(state, index, argv->argv[2]);
}
} else if (strcmp(argv->argv[0], "chg_from") == 0) {
if (argv->argc != 3) {
msg_warn("bad chg_from argument count: %ld", (long) argv->argc);
} else {
cleanup_chg_from(state, argv->argv[1], argv->argv[2]);
}
} else if (strcmp(argv->argv[0], "add_rcpt") == 0) {
if (argv->argc != 2) {
msg_warn("bad add_rcpt argument count: %ld", (long) argv->argc);
} else {
cleanup_add_rcpt(state, argv->argv[1]);
}
} else if (strcmp(argv->argv[0], "add_rcpt_par") == 0) {
if (argv->argc != 3) {
msg_warn("bad add_rcpt_par argument count: %ld",
(long) argv->argc);
} else {
cleanup_add_rcpt_par(state, argv->argv[1], argv->argv[2]);
}
} else if (strcmp(argv->argv[0], "del_rcpt") == 0) {
if (argv->argc != 2) {
msg_warn("bad del_rcpt argument count: %ld", (long) argv->argc);
} else {
cleanup_del_rcpt(state, argv->argv[1]);
}
} else if (strcmp(argv->argv[0], "replbody") == 0) {
if (argv->argc != 2) {
msg_warn("bad replbody argument count: %ld", (long) argv->argc);
} else {
VSTREAM *fp;
VSTRING *buf;
if ((fp = vstream_fopen(argv->argv[1], O_RDONLY, 0)) == 0) {
msg_warn("open %s file: %m", argv->argv[1]);
} else {
buf = vstring_alloc(100);
cleanup_repl_body(state, MILTER_BODY_START, buf);
while (vstring_get_nonl(buf, fp) != VSTREAM_EOF)
cleanup_repl_body(state, MILTER_BODY_LINE, buf);
cleanup_repl_body(state, MILTER_BODY_END, buf);
vstring_free(buf);
vstream_fclose(fp);
}
}
} else if (strcmp(argv->argv[0], "header_checks") == 0) {
if (argv->argc != 2) {
msg_warn("bad header_checks argument count: %ld",
(long) argv->argc);
} else if (*var_milt_head_checks) {
msg_warn("can't change header checks");
} else {
var_milt_head_checks = mystrdup(argv->argv[1]);
cleanup_milter_header_checks_init(state);
}
} else if (strcmp(argv->argv[0], "sender_bcc_maps") == 0) {
if (argv->argc != 2) {
msg_warn("bad sender_bcc_maps argument count: %ld",
(long) argv->argc);
} else {
if (cleanup_send_bcc_maps)
maps_free(cleanup_send_bcc_maps);
cleanup_send_bcc_maps =
maps_create("sender_bcc_maps", argv->argv[1],
DICT_FLAG_LOCK | DICT_FLAG_FOLD_FIX
| DICT_FLAG_UTF8_REQUEST);
state->flags |= CLEANUP_FLAG_BCC_OK;
var_rcpt_delim = "";
}
} else {
msg_warn("bad command: %s", argv->argv[0]);
}
argv_free(argv);
if (resp)
cleanup_milter_apply(state, "END-OF-MESSAGE", resp);
}
vstring_free(inbuf);
vstring_free(arg_buf);
if (state->append_meta_pt_offset >= 0) {
if (state->flags)
msg_info("flags = %s", cleanup_strflags(state->flags));
if (state->errs)
msg_info("errs = %s", cleanup_strerror(state->errs));
}
cleanup_state_free(state);
if (*var_milt_head_checks)
myfree(var_milt_head_checks);
return (0);
}
#endif