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/*************************************************
* Exim - an Internet mail transport agent *
*************************************************/
/* Copyright (c) University of Cambridge 1995 - 2018 */
/* Copyright (c) The Exim Maintainers 2020 */
/* See the file NOTICE for conditions of use and distribution. */
/* General functions concerned with transportation, and generic options for all
transports. */
#include "exim.h"
/* Generic options for transports, all of which live inside transport_instance
data blocks and which therefore have the opt_public flag set. Note that there
are other options living inside this structure which can be set only from
certain transports. */
#define LOFF(field) OPT_OFF(transport_instance, field)
optionlist optionlist_transports[] = {
/* name type value */
{ "*expand_group", opt_stringptr|opt_hidden|opt_public,
LOFF(expand_gid) },
{ "*expand_user", opt_stringptr|opt_hidden|opt_public,
LOFF(expand_uid) },
{ "*headers_rewrite_flags", opt_int|opt_public|opt_hidden,
LOFF(rewrite_existflags) },
{ "*headers_rewrite_rules", opt_void|opt_public|opt_hidden,
LOFF(rewrite_rules) },
{ "*set_group", opt_bool|opt_hidden|opt_public,
LOFF(gid_set) },
{ "*set_user", opt_bool|opt_hidden|opt_public,
LOFF(uid_set) },
{ "body_only", opt_bool|opt_public,
LOFF(body_only) },
{ "current_directory", opt_stringptr|opt_public,
LOFF(current_dir) },
{ "debug_print", opt_stringptr | opt_public,
LOFF(debug_string) },
{ "delivery_date_add", opt_bool|opt_public,
LOFF(delivery_date_add) },
{ "disable_logging", opt_bool|opt_public,
LOFF(disable_logging) },
{ "driver", opt_stringptr|opt_public,
LOFF(driver_name) },
{ "envelope_to_add", opt_bool|opt_public,
LOFF(envelope_to_add) },
#ifndef DISABLE_EVENT
{ "event_action", opt_stringptr | opt_public,
LOFF(event_action) },
#endif
{ "group", opt_expand_gid|opt_public,
LOFF(gid) },
{ "headers_add", opt_stringptr|opt_public|opt_rep_str,
LOFF(add_headers) },
{ "headers_only", opt_bool|opt_public,
LOFF(headers_only) },
{ "headers_remove", opt_stringptr|opt_public|opt_rep_str,
LOFF(remove_headers) },
{ "headers_rewrite", opt_rewrite|opt_public,
LOFF(headers_rewrite) },
{ "home_directory", opt_stringptr|opt_public,
LOFF(home_dir) },
{ "initgroups", opt_bool|opt_public,
LOFF(initgroups) },
{ "max_parallel", opt_stringptr|opt_public,
LOFF(max_parallel) },
{ "message_size_limit", opt_stringptr|opt_public,
LOFF(message_size_limit) },
{ "rcpt_include_affixes", opt_bool|opt_public,
LOFF(rcpt_include_affixes) },
{ "retry_use_local_part", opt_bool|opt_public,
LOFF(retry_use_local_part) },
{ "return_path", opt_stringptr|opt_public,
LOFF(return_path) },
{ "return_path_add", opt_bool|opt_public,
LOFF(return_path_add) },
{ "shadow_condition", opt_stringptr|opt_public,
LOFF(shadow_condition) },
{ "shadow_transport", opt_stringptr|opt_public,
LOFF(shadow) },
{ "transport_filter", opt_stringptr|opt_public,
LOFF(filter_command) },
{ "transport_filter_timeout", opt_time|opt_public,
LOFF(filter_timeout) },
{ "user", opt_expand_uid|opt_public,
LOFF(uid) }
};
int optionlist_transports_size = nelem(optionlist_transports);
#ifdef MACRO_PREDEF
# include "macro_predef.h"
void
options_transports(void)
{
uschar buf[64];
options_from_list(optionlist_transports, nelem(optionlist_transports), US"TRANSPORTS", NULL);
for (transport_info * ti = transports_available; ti->driver_name[0]; ti++)
{
spf(buf, sizeof(buf), US"_DRIVER_TRANSPORT_%T", ti->driver_name);
builtin_macro_create(buf);
options_from_list(ti->options, (unsigned)*ti->options_count, US"TRANSPORT", ti->driver_name);
}
}
#else /*!MACRO_PREDEF*/
/* Structure for keeping list of addresses that have been added to
Envelope-To:, in order to avoid duplication. */
struct aci {
struct aci *next;
address_item *ptr;
};
/* Static data for write_chunk() */
static uschar *chunk_ptr; /* chunk pointer */
static uschar *nl_check; /* string to look for at line start */
static int nl_check_length; /* length of same */
static uschar *nl_escape; /* string to insert */
static int nl_escape_length; /* length of same */
static int nl_partial_match; /* length matched at chunk end */
/*************************************************
* Initialize transport list *
*************************************************/
/* Read the transports section of the configuration file, and set up a chain of
transport instances according to its contents. Each transport has generic
options and may also have its own private options. This function is only ever
called when transports == NULL. We use generic code in readconf to do most of
the work. */
void
transport_init(void)
{
readconf_driver_init(US"transport",
(driver_instance **)(&transports), /* chain anchor */
(driver_info *)transports_available, /* available drivers */
sizeof(transport_info), /* size of info block */
&transport_defaults, /* default values for generic options */
sizeof(transport_instance), /* size of instance block */
optionlist_transports, /* generic options */
optionlist_transports_size);
/* Now scan the configured transports and check inconsistencies. A shadow
transport is permitted only for local transports. */
for (transport_instance * t = transports; t; t = t->next)
{
if (!t->info->local && t->shadow)
log_write(0, LOG_PANIC_DIE|LOG_CONFIG,
"shadow transport not allowed on non-local transport %s", t->name);
if (t->body_only && t->headers_only)
log_write(0, LOG_PANIC_DIE|LOG_CONFIG,
"%s transport: body_only and headers_only are mutually exclusive",
t->name);
}
}
/*************************************************
* Write block of data *
*************************************************/
static int
tpt_write(int fd, uschar * block, int len, BOOL more, int options)
{
return
#ifndef DISABLE_TLS
tls_out.active.sock == fd
? tls_write(tls_out.active.tls_ctx, block, len, more) :
#endif
#ifdef MSG_MORE
more && !(options & topt_not_socket) ? send(fd, block, len, MSG_MORE) :
#endif
write(fd, block, len);
}
/* Subroutine called by write_chunk() and at the end of the message actually
to write a data block. Also called directly by some transports to write
additional data to the file descriptor (e.g. prefix, suffix).
If a transport wants data transfers to be timed, it sets a non-zero value in
transport_write_timeout. A non-zero transport_write_timeout causes a timer to
be set for each block of data written from here. If time runs out, then write()
fails and provokes an error return. The caller can then inspect sigalrm_seen to
check for a timeout.
On some systems, if a quota is exceeded during the write, the yield is the
number of bytes written rather than an immediate error code. This also happens
on some systems in other cases, for example a pipe that goes away because the
other end's process terminates (Linux). On other systems, (e.g. Solaris 2) you
get the error codes the first time.
The write() function is also interruptible; the Solaris 2.6 man page says:
If write() is interrupted by a signal before it writes any
data, it will return -1 with errno set to EINTR.
If write() is interrupted by a signal after it successfully
writes some data, it will return the number of bytes written.
To handle these cases, we want to restart the write() to output the remainder
of the data after a non-negative return from write(), except after a timeout.
In the error cases (EDQUOT, EPIPE) no bytes get written the second time, and a
proper error then occurs. In principle, after an interruption, the second
write() could suffer the same fate, but we do not want to continue for
evermore, so stick a maximum repetition count on the loop to act as a
longstop.
Arguments:
tctx transport context: file descriptor or string to write to
block block of bytes to write
len number of bytes to write
more further data expected soon
Returns: TRUE on success, FALSE on failure (with errno preserved);
transport_count is incremented by the number of bytes written
*/
static BOOL
transport_write_block_fd(transport_ctx * tctx, uschar * block, int len, BOOL more)
{
int rc, save_errno;
int local_timeout = transport_write_timeout;
int connretry = 1;
int fd = tctx->u.fd;
/* This loop is for handling incomplete writes and other retries. In most
normal cases, it is only ever executed once. */
for (int i = 0; i < 100; i++)
{
DEBUG(D_transport)
debug_printf("writing data block fd=%d size=%d timeout=%d%s\n",
fd, len, local_timeout, more ? " (more expected)" : "");
/* When doing TCP Fast Open we may get this far before the 3-way handshake
is complete, and write returns ENOTCONN. Detect that, wait for the socket
to become writable, and retry once only. */
for(;;)
{
fd_set fds;
/* This code makes use of alarm() in order to implement the timeout. This
isn't a very tidy way of doing things. Using non-blocking I/O with select()
provides a neater approach. However, I don't know how to do this when TLS is
in use. */
if (transport_write_timeout <= 0) /* No timeout wanted */
{
rc = tpt_write(fd, block, len, more, tctx->options);
save_errno = errno;
}
else /* Timeout wanted. */
{
sigalrm_seen = FALSE;
ALARM(local_timeout);
rc = tpt_write(fd, block, len, more, tctx->options);
save_errno = errno;
local_timeout = ALARM_CLR(0);
if (sigalrm_seen)
{
errno = ETIMEDOUT;
return FALSE;
}
}
if (rc >= 0 || errno != ENOTCONN || connretry <= 0)
break;
FD_ZERO(&fds); FD_SET(fd, &fds);
select(fd+1, NULL, &fds, NULL, NULL); /* could set timout? */
connretry--;
}
/* Hopefully, the most common case is success, so test that first. */
if (rc == len) { transport_count += len; return TRUE; }
/* A non-negative return code is an incomplete write. Try again for the rest
of the block. If we have exactly hit the timeout, give up. */
if (rc >= 0)
{
len -= rc;
block += rc;
transport_count += rc;
DEBUG(D_transport) debug_printf("write incomplete (%d)\n", rc);
goto CHECK_TIMEOUT; /* A few lines below */
}
/* A negative return code with an EINTR error is another form of
incomplete write, zero bytes having been written */
if (save_errno == EINTR)
{
DEBUG(D_transport)
debug_printf("write interrupted before anything written\n");
goto CHECK_TIMEOUT; /* A few lines below */
}
/* A response of EAGAIN from write() is likely only in the case of writing
to a FIFO that is not swallowing the data as fast as Exim is writing it. */
if (save_errno == EAGAIN)
{
DEBUG(D_transport)
debug_printf("write temporarily locked out, waiting 1 sec\n");
sleep(1);
/* Before continuing to try another write, check that we haven't run out of
time. */
CHECK_TIMEOUT:
if (transport_write_timeout > 0 && local_timeout <= 0)
{
errno = ETIMEDOUT;
return FALSE;
}
continue;
}
/* Otherwise there's been an error */
DEBUG(D_transport) debug_printf("writing error %d: %s\n", save_errno,
strerror(save_errno));
errno = save_errno;
return FALSE;
}
/* We've tried and tried and tried but still failed */
errno = ERRNO_WRITEINCOMPLETE;
return FALSE;
}
BOOL
transport_write_block(transport_ctx * tctx, uschar *block, int len, BOOL more)
{
if (!(tctx->options & topt_output_string))
return transport_write_block_fd(tctx, block, len, more);
/* Write to expanding-string. NOTE: not NUL-terminated */
if (!tctx->u.msg)
tctx->u.msg = string_get(1024);
tctx->u.msg = string_catn(tctx->u.msg, block, len);
return TRUE;
}
/*************************************************
* Write formatted string *
*************************************************/
/* This is called by various transports. It is a convenience function.
Arguments:
fd file descriptor
format string format
... arguments for format
Returns: the yield of transport_write_block()
*/
BOOL
transport_write_string(int fd, const char *format, ...)
{
transport_ctx tctx = {{0}};
gstring gs = { .size = big_buffer_size, .ptr = 0, .s = big_buffer };
va_list ap;
/* Use taint-unchecked routines for writing into big_buffer, trusting
that the result will never be expanded. */
va_start(ap, format);
if (!string_vformat(&gs, SVFMT_TAINT_NOCHK, format, ap))
log_write(0, LOG_MAIN|LOG_PANIC_DIE, "overlong formatted string in transport");
va_end(ap);
tctx.u.fd = fd;
return transport_write_block(&tctx, gs.s, gs.ptr, FALSE);
}
void
transport_write_reset(int options)
{
if (!(options & topt_continuation)) chunk_ptr = deliver_out_buffer;
nl_partial_match = -1;
nl_check_length = nl_escape_length = 0;
}
/*************************************************
* Write character chunk *
*************************************************/
/* Subroutine used by transport_write_message() to scan character chunks for
newlines and act appropriately. The object is to minimise the number of writes.
The output byte stream is buffered up in deliver_out_buffer, which is written
only when it gets full, thus minimizing write operations and TCP packets.
Static data is used to handle the case when the last character of the previous
chunk was NL, or matched part of the data that has to be escaped.
Arguments:
tctx transport context - processing to be done during output,
and file descriptor to write to
chunk pointer to data to write
len length of data to write
In addition, the static nl_xxx variables must be set as required.
Returns: TRUE on success, FALSE on failure (with errno preserved)
*/
BOOL
write_chunk(transport_ctx * tctx, uschar *chunk, int len)
{
uschar *start = chunk;
uschar *end = chunk + len;
int mlen = DELIVER_OUT_BUFFER_SIZE - nl_escape_length - 2;
/* The assumption is made that the check string will never stretch over move
than one chunk since the only time there are partial matches is when copying
the body in large buffers. There is always enough room in the buffer for an
escape string, since the loop below ensures this for each character it
processes, and it won't have stuck in the escape string if it left a partial
match. */
if (nl_partial_match >= 0)
{
if (nl_check_length > 0 && len >= nl_check_length &&
Ustrncmp(start, nl_check + nl_partial_match,
nl_check_length - nl_partial_match) == 0)
{
Ustrncpy(chunk_ptr, nl_escape, nl_escape_length);
chunk_ptr += nl_escape_length;
start += nl_check_length - nl_partial_match;
}
/* The partial match was a false one. Insert the characters carried over
from the previous chunk. */
else if (nl_partial_match > 0)
{
Ustrncpy(chunk_ptr, nl_check, nl_partial_match);
chunk_ptr += nl_partial_match;
}
nl_partial_match = -1;
}
/* Now process the characters in the chunk. Whenever we hit a newline we check
for possible escaping. The code for the non-NL route should be as fast as
possible. */
for (uschar * ptr = start; ptr < end; ptr++)
{
int ch, len;
/* Flush the buffer if it has reached the threshold - we want to leave enough
room for the next uschar, plus a possible extra CR for an LF, plus the escape
string. */
if ((len = chunk_ptr - deliver_out_buffer) > mlen)
{
DEBUG(D_transport) debug_printf("flushing headers buffer\n");
/* If CHUNKING, prefix with BDAT (size) NON-LAST. Also, reap responses
from previous SMTP commands. */
if (tctx->options & topt_use_bdat && tctx->chunk_cb)
{
if ( tctx->chunk_cb(tctx, (unsigned)len, 0) != OK
|| !transport_write_block(tctx, deliver_out_buffer, len, FALSE)
|| tctx->chunk_cb(tctx, 0, tc_reap_prev) != OK
)
return FALSE;
}
else
if (!transport_write_block(tctx, deliver_out_buffer, len, FALSE))
return FALSE;
chunk_ptr = deliver_out_buffer;
}
/* Remove CR before NL if required */
if ( *ptr == '\r' && ptr[1] == '\n'
&& !(tctx->options & topt_use_crlf)
&& f.spool_file_wireformat
)
ptr++;
if ((ch = *ptr) == '\n')
{
int left = end - ptr - 1; /* count of chars left after NL */
/* Insert CR before NL if required */
if (tctx->options & topt_use_crlf && !f.spool_file_wireformat)
*chunk_ptr++ = '\r';
*chunk_ptr++ = '\n';
transport_newlines++;
/* The check_string test (formerly "from hack") replaces the specific
string at the start of a line with an escape string (e.g. "From " becomes
">From " or "." becomes "..". It is a case-sensitive test. The length
check above ensures there is always enough room to insert this string. */
if (nl_check_length > 0)
{
if (left >= nl_check_length &&
Ustrncmp(ptr+1, nl_check, nl_check_length) == 0)
{
Ustrncpy(chunk_ptr, nl_escape, nl_escape_length);
chunk_ptr += nl_escape_length;
ptr += nl_check_length;
}
/* Handle the case when there isn't enough left to match the whole
check string, but there may be a partial match. We remember how many
characters matched, and finish processing this chunk. */
else if (left <= 0) nl_partial_match = 0;
else if (Ustrncmp(ptr+1, nl_check, left) == 0)
{
nl_partial_match = left;
ptr = end;
}
}
}
/* Not a NL character */
else *chunk_ptr++ = ch;
}
return TRUE;
}
/*************************************************
* Generate address for RCPT TO *
*************************************************/
/* This function puts together an address for RCPT to, using the caseful
version of the local part and the caseful version of the domain. If there is no
prefix or suffix, or if affixes are to be retained, we can just use the
original address. Otherwise, if there is a prefix but no suffix we can use a
pointer into the original address. If there is a suffix, however, we have to
build a new string.
Arguments:
addr the address item
include_affixes TRUE if affixes are to be included
Returns: a string
*/
uschar *
transport_rcpt_address(address_item *addr, BOOL include_affixes)
{
uschar *at;
int plen, slen;
if (include_affixes)
{
setflag(addr, af_include_affixes); /* Affects logged => line */
return addr->address;
}
if (!addr->suffix)
{
if (!addr->prefix) return addr->address;
return addr->address + Ustrlen(addr->prefix);
}
at = Ustrrchr(addr->address, '@');
plen = addr->prefix ? Ustrlen(addr->prefix) : 0;
slen = Ustrlen(addr->suffix);
return string_sprintf("%.*s@%s", (int)(at - addr->address - plen - slen),
addr->address + plen, at + 1);
}
/*************************************************
* Output Envelope-To: address & scan duplicates *
*************************************************/
/* This function is called from internal_transport_write_message() below, when
generating an Envelope-To: header line. It checks for duplicates of the given
address and its ancestors. When one is found, this function calls itself
recursively, to output the envelope address of the duplicate.
We want to avoid duplication in the list, which can arise for example when
A->B,C and then both B and C alias to D. This can also happen when there are
unseen drivers in use. So a list of addresses that have been output is kept in
the plist variable.
It is also possible to have loops in the address ancestry/duplication graph,
for example if there are two top level addresses A and B and we have A->B,C and
B->A. To break the loop, we use a list of processed addresses in the dlist
variable.
After handling duplication, this function outputs the progenitor of the given
address.
Arguments:
p the address we are interested in
pplist address of anchor of the list of addresses not to output
pdlist address of anchor of the list of processed addresses
first TRUE if this is the first address; set it FALSE afterwards
tctx transport context - processing to be done during output
and the file descriptor to write to
Returns: FALSE if writing failed
*/
static BOOL
write_env_to(address_item *p, struct aci **pplist, struct aci **pdlist,
BOOL *first, transport_ctx * tctx)
{
address_item *pp;
struct aci *ppp;
/* Do nothing if we have already handled this address. If not, remember it
so that we don't handle it again. */
for (ppp = *pdlist; ppp; ppp = ppp->next) if (p == ppp->ptr) return TRUE;
ppp = store_get(sizeof(struct aci), FALSE);
ppp->next = *pdlist;
*pdlist = ppp;
ppp->ptr = p;
/* Now scan up the ancestry, checking for duplicates at each generation. */
for (pp = p;; pp = pp->parent)
{
address_item *dup;
for (dup = addr_duplicate; dup; dup = dup->next)
if (dup->dupof == pp) /* a dup of our address */
if (!write_env_to(dup, pplist, pdlist, first, tctx))
return FALSE;
if (!pp->parent) break;
}
/* Check to see if we have already output the progenitor. */
for (ppp = *pplist; ppp; ppp = ppp->next) if (pp == ppp->ptr) break;
if (ppp) return TRUE;
/* Remember what we have output, and output it. */
ppp = store_get(sizeof(struct aci), FALSE);
ppp->next = *pplist;
*pplist = ppp;
ppp->ptr = pp;
if (!*first && !write_chunk(tctx, US",\n ", 3)) return FALSE;
*first = FALSE;
return write_chunk(tctx, pp->address, Ustrlen(pp->address));
}
/* Add/remove/rewrite headers, and send them plus the empty-line separator.
Globals:
header_list
Arguments:
addr (chain of) addresses (for extra headers), or NULL;
only the first address is used
tctx transport context
sendfn function for output (transport or verify)
Returns: TRUE on success; FALSE on failure.
*/
BOOL
transport_headers_send(transport_ctx * tctx,
BOOL (*sendfn)(transport_ctx * tctx, uschar * s, int len))
{
const uschar *list;
transport_instance * tblock = tctx ? tctx->tblock : NULL;
address_item * addr = tctx ? tctx->addr : NULL;
/* Then the message's headers. Don't write any that are flagged as "old";
that means they were rewritten, or are a record of envelope rewriting, or
were removed (e.g. Bcc). If remove_headers is not null, skip any headers that
match any entries therein. It is a colon-sep list; expand the items
separately and squash any empty ones.
Then check addr->prop.remove_headers too, provided that addr is not NULL. */
for (header_line * h = header_list; h; h = h->next) if (h->type != htype_old)
{
BOOL include_header = TRUE;
list = tblock ? tblock->remove_headers : NULL;
for (int i = 0; i < 2; i++) /* For remove_headers && addr->prop.remove_headers */
{
if (list)
{
int sep = ':'; /* This is specified as a colon-separated list */
uschar *s, *ss;
while ((s = string_nextinlist(&list, &sep, NULL, 0)))
{
int len;
if (i == 0)
if (!(s = expand_string(s)) && !f.expand_string_forcedfail)
{
errno = ERRNO_CHHEADER_FAIL;
return FALSE;
}
len = s ? Ustrlen(s) : 0;
if (len && s[len-1] == '*') /* trailing glob */
{
if (strncmpic(h->text, s, len-1) == 0) break;
}
else
{
if (strncmpic(h->text, s, len) != 0) continue;
ss = h->text + len;
while (*ss == ' ' || *ss == '\t') ss++;
if (*ss == ':') break;
}
}
if (s) { include_header = FALSE; break; }
}
if (addr) list = addr->prop.remove_headers;
}
/* If this header is to be output, try to rewrite it if there are rewriting
rules. */
if (include_header)
{
if (tblock && tblock->rewrite_rules)
{
rmark reset_point = store_mark();
header_line *hh;
if ((hh = rewrite_header(h, NULL, NULL, tblock->rewrite_rules,
tblock->rewrite_existflags, FALSE)))
{
if (!sendfn(tctx, hh->text, hh->slen)) return FALSE;
store_reset(reset_point);
continue; /* With the next header line */
}
}
/* Either no rewriting rules, or it didn't get rewritten */
if (!sendfn(tctx, h->text, h->slen)) return FALSE;
}
/* Header removed */
else
DEBUG(D_transport) debug_printf("removed header line:\n%s---\n", h->text);
}
/* Add on any address-specific headers. If there are multiple addresses,
they will all have the same headers in order to be batched. The headers
are chained in reverse order of adding (so several addresses from the
same alias might share some of them) but we want to output them in the
opposite order. This is a bit tedious, but there shouldn't be very many
of them. We just walk the list twice, reversing the pointers each time,
but on the second time, write out the items.
Headers added to an address by a router are guaranteed to end with a newline.
*/
if (addr)
{
header_line *hprev = addr->prop.extra_headers;
header_line *hnext, * h;
for (int i = 0; i < 2; i++)
for (h = hprev, hprev = NULL; h; h = hnext)
{
hnext = h->next;
h->next = hprev;
hprev = h;
if (i == 1)
{
if (!sendfn(tctx, h->text, h->slen)) return FALSE;
DEBUG(D_transport)
debug_printf("added header line(s):\n%s---\n", h->text);
}
}
}
/* If a string containing additional headers exists it is a newline-sep
list. Expand each item and write out the result. This is done last so that
if it (deliberately or accidentally) isn't in header format, it won't mess
up any other headers. An empty string or a forced expansion failure are
noops. An added header string from a transport may not end with a newline;
add one if it does not. */
if (tblock && (list = CUS tblock->add_headers))
{
int sep = '\n';
uschar * s;
while ((s = string_nextinlist(&list, &sep, NULL, 0)))
if ((s = expand_string(s)))
{
int len = Ustrlen(s);
if (len > 0)
{
if (!sendfn(tctx, s, len)) return FALSE;
if (s[len-1] != '\n' && !sendfn(tctx, US"\n", 1))
return FALSE;
DEBUG(D_transport)
{
debug_printf("added header line:\n%s", s);
if (s[len-1] != '\n') debug_printf("\n");
debug_printf("---\n");
}
}
}
else if (!f.expand_string_forcedfail)
{ errno = ERRNO_CHHEADER_FAIL; return FALSE; }
}
/* Separate headers from body with a blank line */
return sendfn(tctx, US"\n", 1);
}
/*************************************************
* Write the message *
*************************************************/
/* This function writes the message to the given file descriptor. The headers
are in the in-store data structure, and the rest of the message is in the open
file descriptor deliver_datafile. Make sure we start it at the beginning.
. If add_return_path is TRUE, a "return-path:" header is added to the message,
containing the envelope sender's address.
. If add_envelope_to is TRUE, a "envelope-to:" header is added to the message,
giving the top-level envelope address that caused this delivery to happen.
. If add_delivery_date is TRUE, a "delivery-date:" header is added to the
message. It gives the time and date that delivery took place.
. If check_string is not null, the start of each line is checked for that
string. If it is found, it is replaced by escape_string. This used to be
the "from hack" for files, and "smtp_dots" for escaping SMTP dots.
. If use_crlf is true, newlines are turned into CRLF (SMTP output).
The yield is TRUE if all went well, and FALSE if not. Exit *immediately* after
any writing or reading error, leaving the code in errno intact. Error exits
can include timeouts for certain transports, which are requested by setting
transport_write_timeout non-zero.
Arguments:
tctx
(fd, msg) Either and fd, to write the message to,
or a string: if null write message to allocated space
otherwire take content as headers.
addr (chain of) addresses (for extra headers), or NULL;
only the first address is used
tblock optional transport instance block (NULL signifies NULL/0):
add_headers a string containing one or more headers to add; it is
expanded, and must be in correct RFC 822 format as
it is transmitted verbatim; NULL => no additions,
and so does empty string or forced expansion fail
remove_headers a colon-separated list of headers to remove, or NULL
rewrite_rules chain of header rewriting rules
rewrite_existflags flags for the rewriting rules
options bit-wise options:
add_return_path if TRUE, add a "return-path" header
add_envelope_to if TRUE, add a "envelope-to" header
add_delivery_date if TRUE, add a "delivery-date" header
use_crlf if TRUE, turn NL into CR LF
end_dot if TRUE, send a terminating "." line at the end
no_headers if TRUE, omit the headers
no_body if TRUE, omit the body
check_string a string to check for at the start of lines, or NULL
escape_string a string to insert in front of any check string
size_limit if > 0, this is a limit to the size of message written;
it is used when returning messages to their senders,
and is approximate rather than exact, owing to chunk
buffering
Returns: TRUE on success; FALSE (with errno) on failure.
In addition, the global variable transport_count
is incremented by the number of bytes written.
*/
static BOOL
internal_transport_write_message(transport_ctx * tctx, int size_limit)
{
int len, size = 0;
/* Initialize pointer in output buffer. */
transport_write_reset(tctx->options);
/* Set up the data for start-of-line data checking and escaping */
if (tctx->check_string && tctx->escape_string)
{
nl_check = tctx->check_string;
nl_check_length = Ustrlen(nl_check);
nl_escape = tctx->escape_string;
nl_escape_length = Ustrlen(nl_escape);
}
/* Whether the escaping mechanism is applied to headers or not is controlled by
an option (set for SMTP, not otherwise). Negate the length if not wanted till
after the headers. */
if (!(tctx->options & topt_escape_headers))
nl_check_length = -nl_check_length;
/* Write the headers if required, including any that have to be added. If there
are header rewriting rules, apply them. The datasource is not the -D spoolfile
so temporarily hide the global that adjusts for its format. */
if (!(tctx->options & topt_no_headers))
{
BOOL save_wireformat = f.spool_file_wireformat;
f.spool_file_wireformat = FALSE;
/* Add return-path: if requested. */
if (tctx->options & topt_add_return_path)
{
int n;
uschar * s = string_sprintf("Return-path: <%.*s>\n%n",
EXIM_EMAILADDR_MAX, return_path, &n);
if (!write_chunk(tctx, s, n)) goto bad;
}
/* Add envelope-to: if requested */
if (tctx->options & topt_add_envelope_to)
{
BOOL first = TRUE;
struct aci *plist = NULL;
struct aci *dlist = NULL;
rmark reset_point = store_mark();
if (!write_chunk(tctx, US"Envelope-to: ", 13)) goto bad;
/* Pick up from all the addresses. The plist and dlist variables are
anchors for lists of addresses already handled; they have to be defined at
this level because write_env_to() calls itself recursively. */
for (address_item * p = tctx->addr; p; p = p->next)
if (!write_env_to(p, &plist, &dlist, &first, tctx))
goto bad;
/* Add a final newline and reset the store used for tracking duplicates */
if (!write_chunk(tctx, US"\n", 1)) goto bad;
store_reset(reset_point);
}
/* Add delivery-date: if requested. */
if (tctx->options & topt_add_delivery_date)
{
uschar * s = tod_stamp(tod_full);
if ( !write_chunk(tctx, US"Delivery-date: ", 15)
|| !write_chunk(tctx, s, Ustrlen(s))
|| !write_chunk(tctx, US"\n", 1)) goto bad;
}
/* Then the message's headers. Don't write any that are flagged as "old";
that means they were rewritten, or are a record of envelope rewriting, or
were removed (e.g. Bcc). If remove_headers is not null, skip any headers that
match any entries therein. Then check addr->prop.remove_headers too, provided that
addr is not NULL. */
if (!transport_headers_send(tctx, &write_chunk))
{
bad:
f.spool_file_wireformat = save_wireformat;
return FALSE;
}
f.spool_file_wireformat = save_wireformat;
}
/* When doing RFC3030 CHUNKING output, work out how much data would be in a
last-BDAT, consisting of the current write_chunk() output buffer fill
(optimally, all of the headers - but it does not matter if we already had to
flush that buffer with non-last BDAT prependix) plus the amount of body data
(as expanded for CRLF lines). Then create and write BDAT(s), and ensure
that further use of write_chunk() will not prepend BDATs.
The first BDAT written will also first flush any outstanding MAIL and RCPT
commands which were buffered thans to PIPELINING.
Commands go out (using a send()) from a different buffer to data (using a
write()). They might not end up in the same TCP segment, which is
suboptimal. */
if (tctx->options & topt_use_bdat)
{
off_t fsize;
int hsize;
if ((hsize = chunk_ptr - deliver_out_buffer) < 0)
hsize = 0;
if (!(tctx->options & topt_no_body))
{
if ((fsize = lseek(deliver_datafile, 0, SEEK_END)) < 0) return FALSE;
fsize -= SPOOL_DATA_START_OFFSET;
if (size_limit > 0 && fsize > size_limit)
fsize = size_limit;
size = hsize + fsize;
if (tctx->options & topt_use_crlf && !f.spool_file_wireformat)
size += body_linecount; /* account for CRLF-expansion */
/* With topt_use_bdat we never do dot-stuffing; no need to
account for any expansion due to that. */
}
/* If the message is large, emit first a non-LAST chunk with just the
headers, and reap the command responses. This lets us error out early
on RCPT rejects rather than sending megabytes of data. Include headers
on the assumption they are cheap enough and some clever implementations
might errorcheck them too, on-the-fly, and reject that chunk. */
if (size > DELIVER_OUT_BUFFER_SIZE && hsize > 0)
{
DEBUG(D_transport)
debug_printf("sending small initial BDAT; hsize=%d\n", hsize);
if ( tctx->chunk_cb(tctx, hsize, 0) != OK
|| !transport_write_block(tctx, deliver_out_buffer, hsize, FALSE)
|| tctx->chunk_cb(tctx, 0, tc_reap_prev) != OK
)
return FALSE;
chunk_ptr = deliver_out_buffer;
size -= hsize;
}
/* Emit a LAST datachunk command, and unmark the context for further
BDAT commands. */
if (tctx->chunk_cb(tctx, size, tc_chunk_last) != OK)
return FALSE;
tctx->options &= ~topt_use_bdat;
}
/* If the body is required, ensure that the data for check strings (formerly
the "from hack") is enabled by negating the length if necessary. (It will be
negative in cases where it isn't to apply to the headers). Then ensure the body
is positioned at the start of its file (following the message id), then write
it, applying the size limit if required. */
/* If we have a wireformat -D file (CRNL lines, non-dotstuffed, no ending dot)
and we want to send a body without dotstuffing or ending-dot, in-clear,
then we can just dump it using sendfile.
This should get used for CHUNKING output and also for writing the -K file for
dkim signing, when we had CHUNKING input. */
#ifdef OS_SENDFILE
if ( f.spool_file_wireformat
&& !(tctx->options & (topt_no_body | topt_end_dot))
&& !nl_check_length
&& tls_out.active.sock != tctx->u.fd
)
{
ssize_t copied = 0;
off_t offset = SPOOL_DATA_START_OFFSET;
/* Write out any header data in the buffer */
if ((len = chunk_ptr - deliver_out_buffer) > 0)
{
if (!transport_write_block(tctx, deliver_out_buffer, len, TRUE))
return FALSE;
size -= len;
}
DEBUG(D_transport) debug_printf("using sendfile for body\n");
while(size > 0)
{
if ((copied = os_sendfile(tctx->u.fd, deliver_datafile, &offset, size)) <= 0) break;
size -= copied;
}
return copied >= 0;
}
#else
DEBUG(D_transport) debug_printf("cannot use sendfile for body: no support\n");
#endif
DEBUG(D_transport)
if (!(tctx->options & topt_no_body))
debug_printf("cannot use sendfile for body: %s\n",
!f.spool_file_wireformat ? "spoolfile not wireformat"
: tctx->options & topt_end_dot ? "terminating dot wanted"
: nl_check_length ? "dot- or From-stuffing wanted"
: "TLS output wanted");
if (!(tctx->options & topt_no_body))
{
unsigned long size = size_limit > 0 ? size_limit : ULONG_MAX;
nl_check_length = abs(nl_check_length);
nl_partial_match = 0;
if (lseek(deliver_datafile, SPOOL_DATA_START_OFFSET, SEEK_SET) < 0)
return FALSE;
while ( (len = MIN(DELIVER_IN_BUFFER_SIZE, size)) > 0
&& (len = read(deliver_datafile, deliver_in_buffer, len)) > 0)
{
if (!write_chunk(tctx, deliver_in_buffer, len))
return FALSE;
size -= len;
}
/* A read error on the body will have left len == -1 and errno set. */
if (len != 0) return FALSE;
}
/* Finished with the check string, and spool-format consideration */
nl_check_length = nl_escape_length = 0;
f.spool_file_wireformat = FALSE;
/* If requested, add a terminating "." line (SMTP output). */
if (tctx->options & topt_end_dot && !write_chunk(tctx, US".\n", 2))
return FALSE;
/* Write out any remaining data in the buffer before returning. */
return (len = chunk_ptr - deliver_out_buffer) <= 0 ||
transport_write_block(tctx, deliver_out_buffer, len, FALSE);
}
/*************************************************
* External interface to write the message *
*************************************************/
/* If there is no filtering required, call the internal function above to do
the real work, passing over all the arguments from this function. Otherwise,
set up a filtering process, fork another process to call the internal function
to write to the filter, and in this process just suck from the filter and write
down the fd in the transport context. At the end, tidy up the pipes and the
processes.
Arguments: as for internal_transport_write_message() above
Returns: TRUE on success; FALSE (with errno) for any failure
transport_count is incremented by the number of bytes written
*/
BOOL
transport_write_message(transport_ctx * tctx, int size_limit)
{
BOOL last_filter_was_NL = TRUE;
BOOL save_spool_file_wireformat = f.spool_file_wireformat;
BOOL yield;
int rc, len, fd_read, fd_write, save_errno;
int pfd[2] = {-1, -1};
pid_t filter_pid, write_pid;
f.transport_filter_timed_out = FALSE;
/* If there is no filter command set up, call the internal function that does
the actual work, passing it the incoming fd, and return its result. */
if ( !transport_filter_argv
|| !*transport_filter_argv
|| !**transport_filter_argv
)
return internal_transport_write_message(tctx, size_limit);
/* Otherwise the message must be written to a filter process and read back
before being written to the incoming fd. First set up the special processing to
be done during the copying. */
nl_partial_match = -1;
if (tctx->check_string && tctx->escape_string)
{
nl_check = tctx->check_string;
nl_check_length = Ustrlen(nl_check);
nl_escape = tctx->escape_string;
nl_escape_length = Ustrlen(nl_escape);
}
else nl_check_length = nl_escape_length = 0;
/* Start up a subprocess to run the command. Ensure that our main fd will
be closed when the subprocess execs, but remove the flag afterwards.
(Otherwise, if this is a TCP/IP socket, it can't get passed on to another
process to deliver another message.) We get back stdin/stdout file descriptors.
If the process creation failed, give an error return. */
fd_read = -1;
fd_write = -1;
save_errno = 0;
yield = FALSE;
write_pid = (pid_t)(-1);
{
int bits = fcntl(tctx->u.fd, F_GETFD);
(void) fcntl(tctx->u.fd, F_SETFD, bits | FD_CLOEXEC);
filter_pid = child_open(USS transport_filter_argv, NULL, 077,
&fd_write, &fd_read, FALSE, US"transport-filter");
(void) fcntl(tctx->u.fd, F_SETFD, bits & ~FD_CLOEXEC);
}
if (filter_pid < 0) goto TIDY_UP; /* errno set */
DEBUG(D_transport)
debug_printf("process %d running as transport filter: fd_write=%d fd_read=%d\n",
(int)filter_pid, fd_write, fd_read);
/* Fork subprocess to write the message to the filter, and return the result
via a(nother) pipe. While writing to the filter, we do not do the CRLF,
smtp dots, or check string processing. */
if (pipe(pfd) != 0) goto TIDY_UP; /* errno set */
if ((write_pid = exim_fork(US"tpt-filter-writer")) == 0)
{
BOOL rc;
(void)close(fd_read);
(void)close(pfd[pipe_read]);
nl_check_length = nl_escape_length = 0;
tctx->u.fd = fd_write;
tctx->check_string = tctx->escape_string = NULL;
tctx->options &= ~(topt_use_crlf | topt_end_dot | topt_use_bdat);
rc = internal_transport_write_message(tctx, size_limit);
save_errno = errno;
if ( write(pfd[pipe_write], (void *)&rc, sizeof(BOOL))
!= sizeof(BOOL)
|| write(pfd[pipe_write], (void *)&save_errno, sizeof(int))
!= sizeof(int)
|| write(pfd[pipe_write], (void *)&tctx->addr->more_errno, sizeof(int))
!= sizeof(int)
|| write(pfd[pipe_write], (void *)&tctx->addr->delivery_time, sizeof(struct timeval))
!= sizeof(struct timeval)
)
rc = FALSE; /* compiler quietening */
exim_underbar_exit(EXIT_SUCCESS);
}
save_errno = errno;
/* Parent process: close our copy of the writing subprocess' pipes. */
(void)close(pfd[pipe_write]);
(void)close(fd_write);
fd_write = -1;
/* Writing process creation failed */
if (write_pid < 0)
{
errno = save_errno; /* restore */
goto TIDY_UP;
}
/* When testing, let the subprocess get going */
testharness_pause_ms(250);
DEBUG(D_transport)
debug_printf("process %d writing to transport filter\n", (int)write_pid);
/* Copy the message from the filter to the output fd. A read error leaves len
== -1 and errno set. We need to apply a timeout to the read, to cope with
the case when the filter gets stuck, but it can be quite a long one. The
default is 5m, but this is now configurable. */
DEBUG(D_transport) debug_printf("copying from the filter\n");
/* Copy the output of the filter, remembering if the last character was NL. If
no data is returned, that counts as "ended with NL" (default setting of the
variable is TRUE). The output should always be unix-format as we converted
any wireformat source on writing input to the filter. */
f.spool_file_wireformat = FALSE;
chunk_ptr = deliver_out_buffer;
for (;;)
{
sigalrm_seen = FALSE;
ALARM(transport_filter_timeout);
len = read(fd_read, deliver_in_buffer, DELIVER_IN_BUFFER_SIZE);
ALARM_CLR(0);
if (sigalrm_seen)
{
DEBUG(D_transport) debug_printf("timed out reading from filter\n");
errno = ETIMEDOUT;
f.transport_filter_timed_out = TRUE;
goto TIDY_UP;
}
/* If the read was successful, write the block down the original fd,
remembering whether it ends in \n or not. */
if (len > 0)
{
if (!write_chunk(tctx, deliver_in_buffer, len)) goto TIDY_UP;
last_filter_was_NL = (deliver_in_buffer[len-1] == '\n');
}
/* Otherwise, break the loop. If we have hit EOF, set yield = TRUE. */
else
{
if (len == 0) yield = TRUE;
break;
}
}
/* Tidying up code. If yield = FALSE there has been an error and errno is set
to something. Ensure the pipes are all closed and the processes are removed. If
there has been an error, kill the processes before waiting for them, just to be
sure. Also apply a paranoia timeout. */
TIDY_UP:
f.spool_file_wireformat = save_spool_file_wireformat;
save_errno = errno;
(void)close(fd_read);
if (fd_write > 0) (void)close(fd_write);
if (!yield)
{
if (filter_pid > 0) kill(filter_pid, SIGKILL);
if (write_pid > 0) kill(write_pid, SIGKILL);
}
/* Wait for the filter process to complete. */
DEBUG(D_transport) debug_printf("waiting for filter process\n");
if (filter_pid > 0 && (rc = child_close(filter_pid, 30)) != 0 && yield)
{
yield = FALSE;
save_errno = ERRNO_FILTER_FAIL;
tctx->addr->more_errno = rc;
DEBUG(D_transport) debug_printf("filter process returned %d\n", rc);
}
/* Wait for the writing process to complete. If it ends successfully,
read the results from its pipe, provided we haven't already had a filter
process failure. */
DEBUG(D_transport) debug_printf("waiting for writing process\n");
if (write_pid > 0)
{
rc = child_close(write_pid, 30);
if (yield)
if (rc == 0)
{
BOOL ok;
if (read(pfd[pipe_read], (void *)&ok, sizeof(BOOL)) != sizeof(BOOL))
{
DEBUG(D_transport)
debug_printf("pipe read from writing process: %s\n", strerror(errno));
save_errno = ERRNO_FILTER_FAIL;
yield = FALSE;
}
else if (!ok)
{
int dummy = read(pfd[pipe_read], (void *)&save_errno, sizeof(int));
dummy = read(pfd[pipe_read], (void *)&tctx->addr->more_errno, sizeof(int));
dummy = read(pfd[pipe_read], (void *)&tctx->addr->delivery_time, sizeof(struct timeval));
dummy = dummy; /* compiler quietening */
yield = FALSE;
}
}
else
{
yield = FALSE;
save_errno = ERRNO_FILTER_FAIL;
tctx->addr->more_errno = rc;
DEBUG(D_transport) debug_printf("writing process returned %d\n", rc);
}
}
(void)close(pfd[pipe_read]);
/* If there have been no problems we can now add the terminating "." if this is
SMTP output, turning off escaping beforehand. If the last character from the
filter was not NL, insert a NL to make the SMTP protocol work. */
if (yield)
{
nl_check_length = nl_escape_length = 0;
f.spool_file_wireformat = FALSE;
if ( tctx->options & topt_end_dot
&& ( last_filter_was_NL
? !write_chunk(tctx, US".\n", 2)
: !write_chunk(tctx, US"\n.\n", 3)
) )
yield = FALSE;
/* Write out any remaining data in the buffer. */
else
yield = (len = chunk_ptr - deliver_out_buffer) <= 0
|| transport_write_block(tctx, deliver_out_buffer, len, FALSE);
}
else
errno = save_errno; /* From some earlier error */
DEBUG(D_transport)
{
debug_printf("end of filtering transport writing: yield=%d\n", yield);
if (!yield)
debug_printf(" errno=%d more_errno=%d\n", errno, tctx->addr->more_errno);
}
return yield;
}
/*************************************************
* Update waiting database *
*************************************************/
/* This is called when an address is deferred by remote transports that are
capable of sending more than one message over one connection. A database is
maintained for each transport, keeping track of which messages are waiting for
which hosts. The transport can then consult this when eventually a successful
delivery happens, and if it finds that another message is waiting for the same
host, it can fire up a new process to deal with it using the same connection.
The database records are keyed by host name. They can get full if there are
lots of messages waiting, and so there is a continuation mechanism for them.
Each record contains a list of message ids, packed end to end without any
zeros. Each one is MESSAGE_ID_LENGTH bytes long. The count field says how many
in this record, and the sequence field says if there are any other records for
this host. If the sequence field is 0, there are none. If it is 1, then another
record with the name <hostname>:0 exists; if it is 2, then two other records
with sequence numbers 0 and 1 exist, and so on.
Currently, an exhaustive search of all continuation records has to be done to
determine whether to add a message id to a given record. This shouldn't be
too bad except in extreme cases. I can't figure out a *simple* way of doing
better.
Old records should eventually get swept up by the exim_tidydb utility.
Arguments:
hostlist list of hosts that this message could be sent to
tpname name of the transport
Returns: nothing
*/
void
transport_update_waiting(host_item *hostlist, uschar *tpname)
{
const uschar *prevname = US"";
open_db dbblock;
open_db *dbm_file;
DEBUG(D_transport) debug_printf("updating wait-%s database\n", tpname);
/* Open the database for this transport */
if (!(dbm_file = dbfn_open(string_sprintf("wait-%.200s", tpname),
O_RDWR, &dbblock, TRUE, TRUE)))
return;
/* Scan the list of hosts for which this message is waiting, and ensure
that the message id is in each host record. */
for (host_item * host = hostlist; host; host = host->next)
{
BOOL already = FALSE;
dbdata_wait *host_record;
int host_length;
uschar buffer[256];
/* Skip if this is the same host as we just processed; otherwise remember
the name for next time. */
if (Ustrcmp(prevname, host->name) == 0) continue;
prevname = host->name;
/* Look up the host record; if there isn't one, make an empty one. */
if (!(host_record = dbfn_read(dbm_file, host->name)))
{
host_record = store_get(sizeof(dbdata_wait) + MESSAGE_ID_LENGTH, FALSE);
host_record->count = host_record->sequence = 0;
}
/* Compute the current length */
host_length = host_record->count * MESSAGE_ID_LENGTH;
/* Search the record to see if the current message is already in it. */
for (uschar * s = host_record->text; s < host_record->text + host_length;
s += MESSAGE_ID_LENGTH)
if (Ustrncmp(s, message_id, MESSAGE_ID_LENGTH) == 0)
{ already = TRUE; break; }
/* If we haven't found this message in the main record, search any
continuation records that exist. */
for (int i = host_record->sequence - 1; i >= 0 && !already; i--)
{
dbdata_wait *cont;
sprintf(CS buffer, "%.200s:%d", host->name, i);
if ((cont = dbfn_read(dbm_file, buffer)))
{
int clen = cont->count * MESSAGE_ID_LENGTH;
for (uschar * s = cont->text; s < cont->text + clen; s += MESSAGE_ID_LENGTH)
if (Ustrncmp(s, message_id, MESSAGE_ID_LENGTH) == 0)
{ already = TRUE; break; }
}
}
/* If this message is already in a record, no need to update. */
if (already)
{
DEBUG(D_transport) debug_printf("already listed for %s\n", host->name);
continue;
}
/* If this record is full, write it out with a new name constructed
from the sequence number, increase the sequence number, and empty
the record. If we're doing a two-phase queue run initial phase, ping the
daemon to consider running a delivery on this host. */
if (host_record->count >= WAIT_NAME_MAX)
{
sprintf(CS buffer, "%.200s:%d", host->name, host_record->sequence);
dbfn_write(dbm_file, buffer, host_record, sizeof(dbdata_wait) + host_length);
#ifdef EXPERIMENTAL_QUEUE_RAMP
if (f.queue_2stage && queue_fast_ramp && !queue_run_in_order)
queue_notify_daemon(message_id);
#endif
host_record->sequence++;
host_record->count = 0;
host_length = 0;
}
/* If this record is not full, increase the size of the record to
allow for one new message id. */
else
{
dbdata_wait *newr =
store_get(sizeof(dbdata_wait) + host_length + MESSAGE_ID_LENGTH, FALSE);
memcpy(newr, host_record, sizeof(dbdata_wait) + host_length);
host_record = newr;
}
/* Now add the new name on the end */
memcpy(host_record->text + host_length, message_id, MESSAGE_ID_LENGTH);
host_record->count++;
host_length += MESSAGE_ID_LENGTH;
/* Update the database */
dbfn_write(dbm_file, host->name, host_record, sizeof(dbdata_wait) + host_length);
DEBUG(D_transport) debug_printf("added to list for %s\n", host->name);
}
/* All now done */
dbfn_close(dbm_file);
}
/*************************************************
* Test for waiting messages *
*************************************************/
/* This function is called by a remote transport which uses the previous
function to remember which messages are waiting for which remote hosts. It's
called after a successful delivery and its job is to check whether there is
another message waiting for the same host. However, it doesn't do this if the
current continue sequence is greater than the maximum supplied as an argument,
or greater than the global connection_max_messages, which, if set, overrides.
Arguments:
transport_name name of the transport
hostname name of the host
local_message_max maximum number of messages down one connection
as set by the caller transport
new_message_id set to the message id of a waiting message
more set TRUE if there are yet more messages waiting
oicf_func function to call to validate if it is ok to send
to this message_id from the current instance.
oicf_data opaque data for oicf_func
Returns: TRUE if new_message_id set; FALSE otherwise
*/
typedef struct msgq_s
{
uschar message_id [MESSAGE_ID_LENGTH + 1];
BOOL bKeep;
} msgq_t;
BOOL
transport_check_waiting(const uschar *transport_name, const uschar *hostname,
int local_message_max, uschar *new_message_id, BOOL *more, oicf oicf_func, void *oicf_data)
{
dbdata_wait *host_record;
int host_length;
open_db dbblock;
open_db *dbm_file;
int i;
struct stat statbuf;
*more = FALSE;
DEBUG(D_transport)
{
debug_printf("transport_check_waiting entered\n");
debug_printf(" sequence=%d local_max=%d global_max=%d\n",
continue_sequence, local_message_max, connection_max_messages);
acl_level++;
}
/* Do nothing if we have hit the maximum number that can be send down one
connection. */
if (connection_max_messages >= 0) local_message_max = connection_max_messages;
if (local_message_max > 0 && continue_sequence >= local_message_max)
{
DEBUG(D_transport)
debug_printf_indent("max messages for one connection reached: returning\n");
goto retfalse;
}
/* Open the waiting information database. */
if (!(dbm_file = dbfn_open(string_sprintf("wait-%.200s", transport_name),
O_RDWR, &dbblock, TRUE, TRUE)))
goto retfalse;
/* See if there is a record for this host; if not, there's nothing to do. */
if (!(host_record = dbfn_read(dbm_file, hostname)))
{
dbfn_close(dbm_file);
DEBUG(D_transport) debug_printf_indent("no messages waiting for %s\n", hostname);
goto retfalse;
}
/* If the data in the record looks corrupt, just log something and
don't try to use it. */
if (host_record->count > WAIT_NAME_MAX)
{
dbfn_close(dbm_file);
log_write(0, LOG_MAIN|LOG_PANIC, "smtp-wait database entry for %s has bad "
"count=%d (max=%d)", hostname, host_record->count, WAIT_NAME_MAX);
goto retfalse;
}
/* Scan the message ids in the record from the end towards the beginning,
until one is found for which a spool file actually exists. If the record gets
emptied, delete it and continue with any continuation records that may exist.
*/
/* For Bug 1141, I refactored this major portion of the routine, it is risky
but the 1 off will remain without it. This code now allows me to SKIP over
a message I do not want to send out on this run. */
host_length = host_record->count * MESSAGE_ID_LENGTH;
while (1)
{
msgq_t *msgq;
int msgq_count = 0;
int msgq_actual = 0;
BOOL bFound = FALSE;
BOOL bContinuation = FALSE;
/* create an array to read entire message queue into memory for processing */
msgq = store_get(sizeof(msgq_t) * host_record->count, FALSE);
msgq_count = host_record->count;
msgq_actual = msgq_count;
for (i = 0; i < host_record->count; ++i)
{
msgq[i].bKeep = TRUE;
Ustrncpy_nt(msgq[i].message_id, host_record->text + (i * MESSAGE_ID_LENGTH),
MESSAGE_ID_LENGTH);
msgq[i].message_id[MESSAGE_ID_LENGTH] = 0;
}
/* first thing remove current message id if it exists */
/*XXX but what if it has un-sent addrs? */
for (i = 0; i < msgq_count; ++i)
if (Ustrcmp(msgq[i].message_id, message_id) == 0)
{
msgq[i].bKeep = FALSE;
break;
}
/* now find the next acceptable message_id */
for (i = msgq_count - 1; i >= 0; --i) if (msgq[i].bKeep)
{
uschar subdir[2];
uschar * mid = msgq[i].message_id;
set_subdir_str(subdir, mid, 0);
if (Ustat(spool_fname(US"input", subdir, mid, US"-D"), &statbuf) != 0)
msgq[i].bKeep = FALSE;
else if (!oicf_func || oicf_func(mid, oicf_data))
{
Ustrcpy_nt(new_message_id, mid);
msgq[i].bKeep = FALSE;
bFound = TRUE;
break;
}
}
/* re-count */
for (msgq_actual = 0, i = 0; i < msgq_count; ++i)
if (msgq[i].bKeep)
msgq_actual++;
/* reassemble the host record, based on removed message ids, from in
memory queue */
if (msgq_actual <= 0)
{
host_length = 0;
host_record->count = 0;
}
else
{
host_length = msgq_actual * MESSAGE_ID_LENGTH;
host_record->count = msgq_actual;
if (msgq_actual < msgq_count)
{
int new_count;
for (new_count = 0, i = 0; i < msgq_count; ++i)
if (msgq[i].bKeep)
Ustrncpy(&host_record->text[new_count++ * MESSAGE_ID_LENGTH],
msgq[i].message_id, MESSAGE_ID_LENGTH);
host_record->text[new_count * MESSAGE_ID_LENGTH] = 0;
}
}
/* Check for a continuation record. */
while (host_length <= 0)
{
dbdata_wait * newr = NULL;
uschar buffer[256];
/* Search for a continuation */
for (int i = host_record->sequence - 1; i >= 0 && !newr; i--)
{
sprintf(CS buffer, "%.200s:%d", hostname, i);
newr = dbfn_read(dbm_file, buffer);
}
/* If no continuation, delete the current and break the loop */
if (!newr)
{
dbfn_delete(dbm_file, hostname);
break;
}
/* Else replace the current with the continuation */
dbfn_delete(dbm_file, buffer);
host_record = newr;
host_length = host_record->count * MESSAGE_ID_LENGTH;
bContinuation = TRUE;
}
if (bFound) /* Usual exit from main loop */
break;
/* If host_length <= 0 we have emptied a record and not found a good message,
and there are no continuation records. Otherwise there is a continuation
record to process. */
if (host_length <= 0)
{
dbfn_close(dbm_file);
DEBUG(D_transport) debug_printf_indent("waiting messages already delivered\n");
goto retfalse;
}
/* we were not able to find an acceptable message, nor was there a
* continuation record. So bug out, outer logic will clean this up.
*/
if (!bContinuation)
{
Ustrcpy(new_message_id, message_id);
dbfn_close(dbm_file);
goto retfalse;
}
} /* we need to process a continuation record */
/* Control gets here when an existing message has been encountered; its
id is in new_message_id, and host_length is the revised length of the
host record. If it is zero, the record has been removed. Update the
record if required, close the database, and return TRUE. */
if (host_length > 0)
{
host_record->count = host_length/MESSAGE_ID_LENGTH;
dbfn_write(dbm_file, hostname, host_record, (int)sizeof(dbdata_wait) + host_length);
*more = TRUE;
}
dbfn_close(dbm_file);
DEBUG(D_transport) {acl_level--; debug_printf("transport_check_waiting: TRUE\n"); }
return TRUE;
retfalse:
DEBUG(D_transport) {acl_level--; debug_printf("transport_check_waiting: FALSE\n"); }
return FALSE;
}
/*************************************************
* Deliver waiting message down same socket *
*************************************************/
/* Just the regain-root-privilege exec portion */
void
transport_do_pass_socket(const uschar *transport_name, const uschar *hostname,
const uschar *hostaddress, uschar *id, int socket_fd)
{
int i = 22;
const uschar **argv;
/* Set up the calling arguments; use the standard function for the basics,
but we have a number of extras that may be added. */
argv = CUSS child_exec_exim(CEE_RETURN_ARGV, TRUE, &i, FALSE, 0);
if (f.smtp_authenticated) argv[i++] = US"-MCA";
if (smtp_peer_options & OPTION_CHUNKING) argv[i++] = US"-MCK";
if (smtp_peer_options & OPTION_DSN) argv[i++] = US"-MCD";
if (smtp_peer_options & OPTION_PIPE) argv[i++] = US"-MCP";
if (smtp_peer_options & OPTION_SIZE) argv[i++] = US"-MCS";
#ifndef DISABLE_TLS
if (smtp_peer_options & OPTION_TLS)
if (tls_out.active.sock >= 0 || continue_proxy_cipher)
{
argv[i++] = US"-MCt";
argv[i++] = sending_ip_address;
argv[i++] = string_sprintf("%d", sending_port);
argv[i++] = tls_out.active.sock >= 0 ? tls_out.cipher : continue_proxy_cipher;
if (tls_out.sni)
{
argv[i++] =
#ifdef SUPPORT_DANE
tls_out.dane_verified ? US"-MCr" :
#endif
US"-MCs";
argv[i++] = tls_out.sni;
}
}
else
argv[i++] = US"-MCT";
#endif
if (queue_run_pid != (pid_t)0)
{
argv[i++] = US"-MCQ";
argv[i++] = string_sprintf("%d", queue_run_pid);
argv[i++] = string_sprintf("%d", queue_run_pipe);
}
argv[i++] = US"-MC";
argv[i++] = US transport_name;
argv[i++] = US hostname;
argv[i++] = US hostaddress;
argv[i++] = string_sprintf("%d", continue_sequence + 1);
argv[i++] = id;
argv[i++] = NULL;
/* Arrange for the channel to be on stdin. */
if (socket_fd != 0)
{
(void)dup2(socket_fd, 0);
(void)close(socket_fd);
}
DEBUG(D_exec) debug_print_argv(argv);
exim_nullstd(); /* Ensure std{out,err} exist */
execv(CS argv[0], (char *const *)argv);
DEBUG(D_any) debug_printf("execv failed: %s\n", strerror(errno));
_exit(errno); /* Note: must be _exit(), NOT exit() */
}
/* Fork a new exim process to deliver the message, and do a re-exec, both to
get a clean delivery process, and to regain root privilege in cases where it
has been given away.
Arguments:
transport_name to pass to the new process
hostname ditto
hostaddress ditto
id the new message to process
socket_fd the connected socket
Returns: FALSE if fork fails; TRUE otherwise
*/
BOOL
transport_pass_socket(const uschar *transport_name, const uschar *hostname,
const uschar *hostaddress, uschar *id, int socket_fd)
{
pid_t pid;
int status;
DEBUG(D_transport) debug_printf("transport_pass_socket entered\n");
if ((pid = exim_fork(US"continued-transport-interproc")) == 0)
{
/* Disconnect entirely from the parent process. If we are running in the
test harness, wait for a bit to allow the previous process time to finish,
write the log, etc., so that the output is always in the same order for
automatic comparison. */
if ((pid = exim_fork(US"continued-transport")) != 0)
_exit(EXIT_SUCCESS);
testharness_pause_ms(1000);
transport_do_pass_socket(transport_name, hostname, hostaddress,
id, socket_fd);
}
/* If the process creation succeeded, wait for the first-level child, which
immediately exits, leaving the second level process entirely disconnected from
this one. */
if (pid > 0)
{
int rc;
while ((rc = wait(&status)) != pid && (rc >= 0 || errno != ECHILD));
return TRUE;
}
else
{
DEBUG(D_transport) debug_printf("transport_pass_socket failed to fork: %s\n",
strerror(errno));
return FALSE;
}
}
/*************************************************
* Set up direct (non-shell) command *
*************************************************/
/* This function is called when a command line is to be parsed and executed
directly, without the use of /bin/sh. It is called by the pipe transport,
the queryprogram router, and also from the main delivery code when setting up a
transport filter process. The code for ETRN also makes use of this; in that
case, no addresses are passed.
Arguments:
argvptr pointer to anchor for argv vector
cmd points to the command string (modified IN PLACE)
expand_arguments true if expansion is to occur
expand_failed error value to set if expansion fails; not relevant if
addr == NULL
addr chain of addresses, or NULL
etext text for use in error messages
errptr where to put error message if addr is NULL;
otherwise it is put in the first address
Returns: TRUE if all went well; otherwise an error will be
set in the first address and FALSE returned
*/
BOOL
transport_set_up_command(const uschar ***argvptr, uschar *cmd,
BOOL expand_arguments, int expand_failed, address_item *addr,
uschar *etext, uschar **errptr)
{
const uschar **argv;
uschar *s, *ss;
int address_count = 0;
int argcount = 0;
int max_args;
/* Get store in which to build an argument list. Count the number of addresses
supplied, and allow for that many arguments, plus an additional 60, which
should be enough for anybody. Multiple addresses happen only when the local
delivery batch option is set. */
for (address_item * ad = addr; ad; ad = ad->next) address_count++;
max_args = address_count + 60;
*argvptr = argv = store_get((max_args+1)*sizeof(uschar *), FALSE);
/* Split the command up into arguments terminated by white space. Lose
trailing space at the start and end. Double-quoted arguments can contain \\ and
\" escapes and so can be handled by the standard function; single-quoted
arguments are verbatim. Copy each argument into a new string. */
s = cmd;
while (isspace(*s)) s++;
for (; *s != 0 && argcount < max_args; argcount++)
{
if (*s == '\'')
{
ss = s + 1;
while (*ss != 0 && *ss != '\'') ss++;
argv[argcount] = ss = store_get(ss - s++, is_tainted(cmd));
while (*s != 0 && *s != '\'') *ss++ = *s++;
if (*s != 0) s++;
*ss++ = 0;
}
else
argv[argcount] = string_dequote(CUSS &s);
while (isspace(*s)) s++;
}
argv[argcount] = US 0;
/* If *s != 0 we have run out of argument slots. */
if (*s != 0)
{
uschar *msg = string_sprintf("Too many arguments in command \"%s\" in "
"%s", cmd, etext);
if (addr != NULL)
{
addr->transport_return = FAIL;
addr->message = msg;
}
else *errptr = msg;
return FALSE;
}
/* Expand each individual argument if required. Expansion happens for pipes set
up in filter files and with directly-supplied commands. It does not happen if
the pipe comes from a traditional .forward file. A failing expansion is a big
disaster if the command came from Exim's configuration; if it came from a user
it is just a normal failure. The expand_failed value is used as the error value
to cater for these two cases.
An argument consisting just of the text "$pipe_addresses" is treated specially.
It is not passed to the general expansion function. Instead, it is replaced by
a number of arguments, one for each address. This avoids problems with shell
metacharacters and spaces in addresses.
If the parent of the top address has an original part of "system-filter", this
pipe was set up by the system filter, and we can permit the expansion of
$recipients. */
DEBUG(D_transport)
{
debug_printf("direct command:\n");
for (int i = 0; argv[i]; i++)
debug_printf(" argv[%d] = '%s'\n", i, string_printing(argv[i]));
}
if (expand_arguments)
{
BOOL allow_dollar_recipients = addr != NULL &&
addr->parent != NULL &&
Ustrcmp(addr->parent->address, "system-filter") == 0;
for (int i = 0; argv[i] != US 0; i++)
{
/* Handle special fudge for passing an address list */
if (addr != NULL &&
(Ustrcmp(argv[i], "$pipe_addresses") == 0 ||
Ustrcmp(argv[i], "${pipe_addresses}") == 0))
{
int additional;
if (argcount + address_count - 1 > max_args)
{
addr->transport_return = FAIL;
addr->message = string_sprintf("Too many arguments to command \"%s\" "
"in %s", cmd, etext);
return FALSE;
}
additional = address_count - 1;
if (additional > 0)
memmove(argv + i + 1 + additional, argv + i + 1,
(argcount - i)*sizeof(uschar *));
for (address_item * ad = addr; ad; ad = ad->next)
{
argv[i++] = ad->address;
argcount++;
}
/* Subtract one since we replace $pipe_addresses */
argcount--;
i--;
}
/* Handle special case of $address_pipe when af_force_command is set */
else if (addr != NULL && testflag(addr,af_force_command) &&
(Ustrcmp(argv[i], "$address_pipe") == 0 ||
Ustrcmp(argv[i], "${address_pipe}") == 0))
{
int address_pipe_argcount = 0;
int address_pipe_max_args;
uschar **address_pipe_argv;
BOOL tainted;
/* We can never have more then the argv we will be loading into */
address_pipe_max_args = max_args - argcount + 1;
DEBUG(D_transport)
debug_printf("address_pipe_max_args=%d\n", address_pipe_max_args);
/* We allocate an additional for (uschar *)0 */
address_pipe_argv = store_get((address_pipe_max_args+1)*sizeof(uschar *), FALSE);
/* +1 because addr->local_part[0] == '|' since af_force_command is set */
s = expand_string(addr->local_part + 1);
tainted = is_tainted(s);
if (s == NULL || *s == '\0')
{
addr->transport_return = FAIL;
addr->message = string_sprintf("Expansion of \"%s\" "
"from command \"%s\" in %s failed: %s",
(addr->local_part + 1), cmd, etext, expand_string_message);
return FALSE;
}
while (isspace(*s)) s++; /* strip leading space */
while (*s != 0 && address_pipe_argcount < address_pipe_max_args)
{
if (*s == '\'')
{
ss = s + 1;
while (*ss != 0 && *ss != '\'') ss++;
address_pipe_argv[address_pipe_argcount++] = ss = store_get(ss - s++, tainted);
while (*s != 0 && *s != '\'') *ss++ = *s++;
if (*s != 0) s++;
*ss++ = 0;
}
else address_pipe_argv[address_pipe_argcount++] =
string_copy(string_dequote(CUSS &s));
while (isspace(*s)) s++; /* strip space after arg */
}
address_pipe_argv[address_pipe_argcount] = US 0;
/* If *s != 0 we have run out of argument slots. */
if (*s != 0)
{
uschar *msg = string_sprintf("Too many arguments in $address_pipe "
"\"%s\" in %s", addr->local_part + 1, etext);
if (addr != NULL)
{
addr->transport_return = FAIL;
addr->message = msg;
}
else *errptr = msg;
return FALSE;
}
/* address_pipe_argcount - 1
* because we are replacing $address_pipe in the argument list
* with the first thing it expands to */
if (argcount + address_pipe_argcount - 1 > max_args)
{
addr->transport_return = FAIL;
addr->message = string_sprintf("Too many arguments to command "
"\"%s\" after expanding $address_pipe in %s", cmd, etext);
return FALSE;
}
/* If we are not just able to replace the slot that contained
* $address_pipe (address_pipe_argcount == 1)
* We have to move the existing argv by address_pipe_argcount - 1
* Visually if address_pipe_argcount == 2:
* [argv 0][argv 1][argv 2($address_pipe)][argv 3][0]
* [argv 0][argv 1][ap_arg0][ap_arg1][old argv 3][0]
*/
if (address_pipe_argcount > 1)
memmove(
/* current position + additional args */
argv + i + address_pipe_argcount,
/* current position + 1 (for the (uschar *)0 at the end) */
argv + i + 1,
/* -1 for the (uschar *)0 at the end)*/
(argcount - i)*sizeof(uschar *)
);
/* Now we fill in the slots we just moved argv out of
* [argv 0][argv 1][argv 2=pipeargv[0]][argv 3=pipeargv[1]][old argv 3][0]
*/
for (int address_pipe_i = 0;
address_pipe_argv[address_pipe_i] != US 0;
address_pipe_i++)
{
argv[i++] = address_pipe_argv[address_pipe_i];
argcount++;
}
/* Subtract one since we replace $address_pipe */
argcount--;
i--;
}
/* Handle normal expansion string */
else
{
const uschar *expanded_arg;
f.enable_dollar_recipients = allow_dollar_recipients;
expanded_arg = expand_cstring(argv[i]);
f.enable_dollar_recipients = FALSE;
if (!expanded_arg)
{
uschar *msg = string_sprintf("Expansion of \"%s\" "
"from command \"%s\" in %s failed: %s",
argv[i], cmd, etext, expand_string_message);
if (addr)
{
addr->transport_return = expand_failed;
addr->message = msg;
}
else *errptr = msg;
return FALSE;
}
argv[i] = expanded_arg;
}
}
DEBUG(D_transport)
{
debug_printf("direct command after expansion:\n");
for (int i = 0; argv[i] != US 0; i++)
debug_printf(" argv[%d] = %s\n", i, string_printing(argv[i]));
}
}
return TRUE;
}
#endif /*!MACRO_PREDEF*/
/* vi: aw ai sw=2
*/
/* End of transport.c */
|