/************************************************* * Exim - an Internet mail transport agent * *************************************************/ /* Copyright (c) University of Cambridge 1995 - 2018 */ /* See the file NOTICE for conditions of use and distribution. */ /* Functions concerned with verifying things. The original code for callout caching was contributed by Kevin Fleming (but I hacked it around a bit). */ #include "exim.h" #include "transports/smtp.h" #define CUTTHROUGH_CMD_TIMEOUT 30 /* timeout for cutthrough-routing calls */ #define CUTTHROUGH_DATA_TIMEOUT 60 /* timeout for cutthrough-routing calls */ static smtp_context ctctx; uschar ctbuffer[8192]; /* Structure for caching DNSBL lookups */ typedef struct dnsbl_cache_block { time_t expiry; dns_address *rhs; uschar *text; int rc; BOOL text_set; } dnsbl_cache_block; /* Anchor for DNSBL cache */ static tree_node *dnsbl_cache = NULL; /* Bits for match_type in one_check_dnsbl() */ #define MT_NOT 1 #define MT_ALL 2 static uschar cutthrough_response(client_conn_ctx *, char, uschar **, int); /************************************************* * Retrieve a callout cache record * *************************************************/ /* If a record exists, check whether it has expired. Arguments: dbm_file an open hints file key the record key type "address" or "domain" positive_expire expire time for positive records negative_expire expire time for negative records Returns: the cache record if a non-expired one exists, else NULL */ static dbdata_callout_cache * get_callout_cache_record(open_db *dbm_file, const uschar *key, uschar *type, int positive_expire, int negative_expire) { BOOL negative; int length, expire; time_t now; dbdata_callout_cache *cache_record; if (!(cache_record = dbfn_read_with_length(dbm_file, key, &length))) { HDEBUG(D_verify) debug_printf("callout cache: no %s record found for %s\n", type, key); return NULL; } /* We treat a record as "negative" if its result field is not positive, or if it is a domain record and the postmaster field is negative. */ negative = cache_record->result != ccache_accept || (type[0] == 'd' && cache_record->postmaster_result == ccache_reject); expire = negative? negative_expire : positive_expire; now = time(NULL); if (now - cache_record->time_stamp > expire) { HDEBUG(D_verify) debug_printf("callout cache: %s record expired for %s\n", type, key); return NULL; } /* If this is a non-reject domain record, check for the obsolete format version that doesn't have the postmaster and random timestamps, by looking at the length. If so, copy it to a new-style block, replicating the record's timestamp. Then check the additional timestamps. (There's no point wasting effort if connections are rejected.) */ if (type[0] == 'd' && cache_record->result != ccache_reject) { if (length == sizeof(dbdata_callout_cache_obs)) { dbdata_callout_cache *new = store_get(sizeof(dbdata_callout_cache)); memcpy(new, cache_record, length); new->postmaster_stamp = new->random_stamp = new->time_stamp; cache_record = new; } if (now - cache_record->postmaster_stamp > expire) cache_record->postmaster_result = ccache_unknown; if (now - cache_record->random_stamp > expire) cache_record->random_result = ccache_unknown; } HDEBUG(D_verify) debug_printf("callout cache: found %s record for %s\n", type, key); return cache_record; } /* Check the callout cache. Options * pm_mailfrom may be modified by cache partial results. Return: TRUE if result found */ static BOOL cached_callout_lookup(address_item * addr, uschar * address_key, uschar * from_address, int * opt_ptr, uschar ** pm_ptr, int * yield, uschar ** failure_ptr, dbdata_callout_cache * new_domain_record, int * old_domain_res) { int options = *opt_ptr; open_db dbblock; open_db *dbm_file = NULL; /* Open the callout cache database, it it exists, for reading only at this stage, unless caching has been disabled. */ if (options & vopt_callout_no_cache) { HDEBUG(D_verify) debug_printf("callout cache: disabled by no_cache\n"); } else if (!(dbm_file = dbfn_open(US"callout", O_RDWR, &dbblock, FALSE))) { HDEBUG(D_verify) debug_printf("callout cache: not available\n"); } else { /* If a cache database is available see if we can avoid the need to do an actual callout by making use of previously-obtained data. */ dbdata_callout_cache_address * cache_address_record; dbdata_callout_cache * cache_record = get_callout_cache_record(dbm_file, addr->domain, US"domain", callout_cache_domain_positive_expire, callout_cache_domain_negative_expire); /* If an unexpired cache record was found for this domain, see if the callout process can be short-circuited. */ if (cache_record) { /* In most cases, if an early command (up to and including MAIL FROM:<>) was rejected, there is no point carrying on. The callout fails. However, if we are doing a recipient verification with use_sender or use_postmaster set, a previous failure of MAIL FROM:<> doesn't count, because this time we will be using a non-empty sender. We have to remember this situation so as not to disturb the cached domain value if this whole verification succeeds (we don't want it turning into "accept"). */ *old_domain_res = cache_record->result; if ( cache_record->result == ccache_reject || *from_address == 0 && cache_record->result == ccache_reject_mfnull) { HDEBUG(D_verify) debug_printf("callout cache: domain gave initial rejection, or " "does not accept HELO or MAIL FROM:<>\n"); setflag(addr, af_verify_nsfail); addr->user_message = US"(result of an earlier callout reused)."; *yield = FAIL; *failure_ptr = US"mail"; dbfn_close(dbm_file); return TRUE; } /* If a previous check on a "random" local part was accepted, we assume that the server does not do any checking on local parts. There is therefore no point in doing the callout, because it will always be successful. If a random check previously failed, arrange not to do it again, but preserve the data in the new record. If a random check is required but hasn't been done, skip the remaining cache processing. */ if (options & vopt_callout_random) switch(cache_record->random_result) { case ccache_accept: HDEBUG(D_verify) debug_printf("callout cache: domain accepts random addresses\n"); *failure_ptr = US"random"; dbfn_close(dbm_file); return TRUE; /* Default yield is OK */ case ccache_reject: HDEBUG(D_verify) debug_printf("callout cache: domain rejects random addresses\n"); *opt_ptr = options & ~vopt_callout_random; new_domain_record->random_result = ccache_reject; new_domain_record->random_stamp = cache_record->random_stamp; break; default: HDEBUG(D_verify) debug_printf("callout cache: need to check random address handling " "(not cached or cache expired)\n"); dbfn_close(dbm_file); return FALSE; } /* If a postmaster check is requested, but there was a previous failure, there is again no point in carrying on. If a postmaster check is required, but has not been done before, we are going to have to do a callout, so skip remaining cache processing. */ if (*pm_ptr) { if (cache_record->postmaster_result == ccache_reject) { setflag(addr, af_verify_pmfail); HDEBUG(D_verify) debug_printf("callout cache: domain does not accept " "RCPT TO:\n"); *yield = FAIL; *failure_ptr = US"postmaster"; setflag(addr, af_verify_pmfail); addr->user_message = US"(result of earlier verification reused)."; dbfn_close(dbm_file); return TRUE; } if (cache_record->postmaster_result == ccache_unknown) { HDEBUG(D_verify) debug_printf("callout cache: need to check RCPT " "TO: (not cached or cache expired)\n"); dbfn_close(dbm_file); return FALSE; } /* If cache says OK, set pm_mailfrom NULL to prevent a redundant postmaster check if the address itself has to be checked. Also ensure that the value in the cache record is preserved (with its old timestamp). */ HDEBUG(D_verify) debug_printf("callout cache: domain accepts RCPT " "TO:\n"); *pm_ptr = NULL; new_domain_record->postmaster_result = ccache_accept; new_domain_record->postmaster_stamp = cache_record->postmaster_stamp; } } /* We can't give a result based on information about the domain. See if there is an unexpired cache record for this specific address (combined with the sender address if we are doing a recipient callout with a non-empty sender). */ if (!(cache_address_record = (dbdata_callout_cache_address *) get_callout_cache_record(dbm_file, address_key, US"address", callout_cache_positive_expire, callout_cache_negative_expire))) { dbfn_close(dbm_file); return FALSE; } if (cache_address_record->result == ccache_accept) { HDEBUG(D_verify) debug_printf("callout cache: address record is positive\n"); } else { HDEBUG(D_verify) debug_printf("callout cache: address record is negative\n"); addr->user_message = US"Previous (cached) callout verification failure"; *failure_ptr = US"recipient"; *yield = FAIL; } /* Close the cache database while we actually do the callout for real. */ dbfn_close(dbm_file); return TRUE; } return FALSE; } /* Write results to callout cache */ static void cache_callout_write(dbdata_callout_cache * dom_rec, const uschar * domain, int done, dbdata_callout_cache_address * addr_rec, uschar * address_key) { open_db dbblock; open_db *dbm_file = NULL; /* If we get here with done == TRUE, a successful callout happened, and yield will be set OK or FAIL according to the response to the RCPT command. Otherwise, we looped through the hosts but couldn't complete the business. However, there may be domain-specific information to cache in both cases. The value of the result field in the new_domain record is ccache_unknown if there was an error before or with MAIL FROM:, and errno was not zero, implying some kind of I/O error. We don't want to write the cache in that case. Otherwise the value is ccache_accept, ccache_reject, or ccache_reject_mfnull. */ if (dom_rec->result != ccache_unknown) if (!(dbm_file = dbfn_open(US"callout", O_RDWR|O_CREAT, &dbblock, FALSE))) { HDEBUG(D_verify) debug_printf("callout cache: not available\n"); } else { (void)dbfn_write(dbm_file, domain, dom_rec, (int)sizeof(dbdata_callout_cache)); HDEBUG(D_verify) debug_printf("wrote callout cache domain record for %s:\n" " result=%d postmaster=%d random=%d\n", domain, dom_rec->result, dom_rec->postmaster_result, dom_rec->random_result); } /* If a definite result was obtained for the callout, cache it unless caching is disabled. */ if (done && addr_rec->result != ccache_unknown) { if (!dbm_file) dbm_file = dbfn_open(US"callout", O_RDWR|O_CREAT, &dbblock, FALSE); if (!dbm_file) { HDEBUG(D_verify) debug_printf("no callout cache available\n"); } else { (void)dbfn_write(dbm_file, address_key, addr_rec, (int)sizeof(dbdata_callout_cache_address)); HDEBUG(D_verify) debug_printf("wrote %s callout cache address record for %s\n", addr_rec->result == ccache_accept ? "positive" : "negative", address_key); } } if (dbm_file) dbfn_close(dbm_file); } /* Cutthrough-multi. If the existing cached cutthrough connection matches the one we would make for a subsequent recipient, use it. Send the RCPT TO and check the result, nonpipelined as it may be wanted immediately for recipient-verification. It seems simpler to deal with this case separately from the main callout loop. We will need to remember it has sent, or not, so that rcpt-acl tail code can do it there for the non-rcpt-verify case. For this we keep an addresscount. Return: TRUE for a definitive result for the recipient */ static int cutthrough_multi(address_item * addr, host_item * host_list, transport_feedback * tf, int * yield) { BOOL done = FALSE; host_item * host; if (addr->transport == cutthrough.addr.transport) for (host = host_list; host; host = host->next) if (Ustrcmp(host->address, cutthrough.host.address) == 0) { int host_af; uschar *interface = NULL; /* Outgoing interface to use; NULL => any */ int port = 25; deliver_host = host->name; deliver_host_address = host->address; deliver_host_port = host->port; deliver_domain = addr->domain; transport_name = addr->transport->name; host_af = Ustrchr(host->address, ':') ? AF_INET6 : AF_INET; if ( !smtp_get_interface(tf->interface, host_af, addr, &interface, US"callout") || !smtp_get_port(tf->port, addr, &port, US"callout") ) log_write(0, LOG_MAIN|LOG_PANIC, "<%s>: %s", addr->address, addr->message); smtp_port_for_connect(host, port); if ( ( interface == cutthrough.interface || ( interface && cutthrough.interface && Ustrcmp(interface, cutthrough.interface) == 0 ) ) && host->port == cutthrough.host.port ) { uschar * resp = NULL; /* Match! Send the RCPT TO, set done from the response */ done = smtp_write_command(&ctctx, SCMD_FLUSH, "RCPT TO:<%.1000s>\r\n", transport_rcpt_address(addr, addr->transport->rcpt_include_affixes)) >= 0 && cutthrough_response(&cutthrough.cctx, '2', &resp, CUTTHROUGH_DATA_TIMEOUT) == '2'; /* This would go horribly wrong if a callout fail was ignored by ACL. We punt by abandoning cutthrough on a reject, like the first-rcpt does. */ if (done) { address_item * na = store_get(sizeof(address_item)); *na = cutthrough.addr; cutthrough.addr = *addr; cutthrough.addr.host_used = &cutthrough.host; cutthrough.addr.next = na; cutthrough.nrcpt++; } else { cancel_cutthrough_connection(TRUE, US"recipient rejected"); if (!resp || errno == ETIMEDOUT) { HDEBUG(D_verify) debug_printf("SMTP timeout\n"); } else if (errno == 0) { if (*resp == 0) Ustrcpy(resp, US"connection dropped"); addr->message = string_sprintf("response to \"%s\" was: %s", big_buffer, string_printing(resp)); addr->user_message = string_sprintf("Callout verification failed:\n%s", resp); /* Hard rejection ends the process */ if (resp[0] == '5') /* Address rejected */ { *yield = FAIL; done = TRUE; } } } } break; /* host_list */ } if (!done) cancel_cutthrough_connection(TRUE, US"incompatible connection"); return done; } /************************************************* * Do callout verification for an address * *************************************************/ /* This function is called from verify_address() when the address has routed to a host list, and a callout has been requested. Callouts are expensive; that is why a cache is used to improve the efficiency. Arguments: addr the address that's been routed host_list the list of hosts to try tf the transport feedback block ifstring "interface" option from transport, or NULL portstring "port" option from transport, or NULL protocolstring "protocol" option from transport, or NULL callout the per-command callout timeout callout_overall the overall callout timeout (if < 0 use 4*callout) callout_connect the callout connection timeout (if < 0 use callout) options the verification options - these bits are used: vopt_is_recipient => this is a recipient address vopt_callout_no_cache => don't use callout cache vopt_callout_fullpm => if postmaster check, do full one vopt_callout_random => do the "random" thing vopt_callout_recipsender => use real sender for recipient vopt_callout_recippmaster => use postmaster for recipient vopt_callout_hold => lazy close connection se_mailfrom MAIL FROM address for sender verify; NULL => "" pm_mailfrom if non-NULL, do the postmaster check with this sender Returns: OK/FAIL/DEFER */ static int do_callout(address_item *addr, host_item *host_list, transport_feedback *tf, int callout, int callout_overall, int callout_connect, int options, uschar *se_mailfrom, uschar *pm_mailfrom) { int yield = OK; int old_domain_cache_result = ccache_accept; BOOL done = FALSE; uschar *address_key; uschar *from_address; uschar *random_local_part = NULL; const uschar *save_deliver_domain = deliver_domain; uschar **failure_ptr = options & vopt_is_recipient ? &recipient_verify_failure : &sender_verify_failure; dbdata_callout_cache new_domain_record; dbdata_callout_cache_address new_address_record; time_t callout_start_time; new_domain_record.result = ccache_unknown; new_domain_record.postmaster_result = ccache_unknown; new_domain_record.random_result = ccache_unknown; memset(&new_address_record, 0, sizeof(new_address_record)); /* For a recipient callout, the key used for the address cache record must include the sender address if we are using the real sender in the callout, because that may influence the result of the callout. */ if (options & vopt_is_recipient) if (options & vopt_callout_recipsender) { from_address = sender_address; address_key = string_sprintf("%s/<%s>", addr->address, sender_address); if (cutthrough.delivery) options |= vopt_callout_no_cache; } else if (options & vopt_callout_recippmaster) { from_address = string_sprintf("postmaster@%s", qualify_domain_sender); address_key = string_sprintf("%s/", addr->address, qualify_domain_sender); } else { from_address = US""; address_key = addr->address; } /* For a sender callout, we must adjust the key if the mailfrom address is not empty. */ else { from_address = se_mailfrom ? se_mailfrom : US""; address_key = *from_address ? string_sprintf("%s/<%s>", addr->address, from_address) : addr->address; } if (cached_callout_lookup(addr, address_key, from_address, &options, &pm_mailfrom, &yield, failure_ptr, &new_domain_record, &old_domain_cache_result)) { cancel_cutthrough_connection(TRUE, US"cache-hit"); goto END_CALLOUT; } if (!addr->transport) { HDEBUG(D_verify) debug_printf("cannot callout via null transport\n"); } else if (Ustrcmp(addr->transport->driver_name, "smtp") != 0) log_write(0, LOG_MAIN|LOG_PANIC|LOG_CONFIG_FOR, "callout transport '%s': %s is non-smtp", addr->transport->name, addr->transport->driver_name); else { smtp_transport_options_block *ob = (smtp_transport_options_block *)addr->transport->options_block; host_item * host; /* The information wasn't available in the cache, so we have to do a real callout and save the result in the cache for next time, unless no_cache is set, or unless we have a previously cached negative random result. If we are to test with a random local part, ensure that such a local part is available. If not, log the fact, but carry on without randomising. */ if (options & vopt_callout_random && callout_random_local_part) if (!(random_local_part = expand_string(callout_random_local_part))) log_write(0, LOG_MAIN|LOG_PANIC, "failed to expand " "callout_random_local_part: %s", expand_string_message); /* Default the connect and overall callout timeouts if not set, and record the time we are starting so that we can enforce it. */ if (callout_overall < 0) callout_overall = 4 * callout; if (callout_connect < 0) callout_connect = callout; callout_start_time = time(NULL); /* Before doing a real callout, if this is an SMTP connection, flush the SMTP output because a callout might take some time. When PIPELINING is active and there are many recipients, the total time for doing lots of callouts can add up and cause the client to time out. So in this case we forgo the PIPELINING optimization. */ if (smtp_out && !f.disable_callout_flush) mac_smtp_fflush(); clearflag(addr, af_verify_pmfail); /* postmaster callout flag */ clearflag(addr, af_verify_nsfail); /* null sender callout flag */ /* cutthrough-multi: if a nonfirst rcpt has the same routing as the first, and we are holding a cutthrough conn open, we can just append the rcpt to that conn for verification purposes (and later delivery also). Simplest coding means skipping this whole loop and doing the append separately. */ /* Can we re-use an open cutthrough connection? */ if ( cutthrough.cctx.sock >= 0 && (options & (vopt_callout_recipsender | vopt_callout_recippmaster)) == vopt_callout_recipsender && !random_local_part && !pm_mailfrom ) done = cutthrough_multi(addr, host_list, tf, &yield); /* If we did not use a cached connection, make connections to the hosts and do real callouts. The list of hosts is passed in as an argument. */ for (host = host_list; host && !done; host = host->next) { int host_af; int port = 25; uschar *interface = NULL; /* Outgoing interface to use; NULL => any */ smtp_context sx; if (!host->address) { DEBUG(D_verify) debug_printf("no IP address for host name %s: skipping\n", host->name); continue; } /* Check the overall callout timeout */ if (time(NULL) - callout_start_time >= callout_overall) { HDEBUG(D_verify) debug_printf("overall timeout for callout exceeded\n"); break; } /* Set IPv4 or IPv6 */ host_af = Ustrchr(host->address, ':') ? AF_INET6 : AF_INET; /* Expand and interpret the interface and port strings. The latter will not be used if there is a host-specific port (e.g. from a manualroute router). This has to be delayed till now, because they may expand differently for different hosts. If there's a failure, log it, but carry on with the defaults. */ deliver_host = host->name; deliver_host_address = host->address; deliver_host_port = host->port; deliver_domain = addr->domain; transport_name = addr->transport->name; if ( !smtp_get_interface(tf->interface, host_af, addr, &interface, US"callout") || !smtp_get_port(tf->port, addr, &port, US"callout") ) log_write(0, LOG_MAIN|LOG_PANIC, "<%s>: %s", addr->address, addr->message); sx.addrlist = addr; sx.conn_args.host = host; sx.conn_args.host_af = host_af, sx.port = port; sx.conn_args.interface = interface; sx.helo_data = tf->helo_data; sx.conn_args.tblock = addr->transport; sx.verify = TRUE; tls_retry_connection: /* Set the address state so that errors are recorded in it */ addr->transport_return = PENDING_DEFER; ob->connect_timeout = callout_connect; ob->command_timeout = callout; /* Get the channel set up ready for a message (MAIL FROM being the next SMTP command to send. If we tried TLS but it failed, try again without if permitted */ yield = smtp_setup_conn(&sx, FALSE); #ifdef SUPPORT_TLS if ( yield == DEFER && addr->basic_errno == ERRNO_TLSFAILURE && ob->tls_tempfail_tryclear && verify_check_given_host(CUSS &ob->hosts_require_tls, host) != OK ) { log_write(0, LOG_MAIN, "%s: callout unencrypted to %s [%s] (not in hosts_require_tls)", addr->message, host->name, host->address); addr->transport_return = PENDING_DEFER; yield = smtp_setup_conn(&sx, TRUE); } #endif if (yield != OK) { errno = addr->basic_errno; transport_name = NULL; deliver_host = deliver_host_address = NULL; deliver_domain = save_deliver_domain; /* Failure to accept HELO is cached; this blocks the whole domain for all senders. I/O errors and defer responses are not cached. */ if (yield == FAIL && (errno == 0 || errno == ERRNO_SMTPCLOSED)) { setflag(addr, af_verify_nsfail); new_domain_record.result = ccache_reject; done = TRUE; } else done = FALSE; goto no_conn; } /* If we needed to authenticate, smtp_setup_conn() did that. Copy the AUTH info for logging */ addr->authenticator = client_authenticator; addr->auth_id = client_authenticated_id; sx.from_addr = from_address; sx.first_addr = sx.sync_addr = addr; sx.ok = FALSE; /*XXX these 3 last might not be needed for verify? */ sx.send_rset = TRUE; sx.completed_addr = FALSE; new_domain_record.result = old_domain_cache_result == ccache_reject_mfnull ? ccache_reject_mfnull : ccache_accept; /* Do the random local part check first. Temporarily replace the recipient with the "random" value */ if (random_local_part) { uschar * main_address = addr->address; const uschar * rcpt_domain = addr->domain; #ifdef SUPPORT_I18N uschar * errstr = NULL; if ( testflag(addr, af_utf8_downcvt) && (rcpt_domain = string_domain_utf8_to_alabel(rcpt_domain, &errstr), errstr) ) { addr->message = errstr; errno = ERRNO_EXPANDFAIL; setflag(addr, af_verify_nsfail); done = FALSE; rcpt_domain = US""; /*XXX errorhandling! */ } #endif /* This would be ok for 1st rcpt of a cutthrough (the case handled here; subsequents are done in cutthrough_multi()), but no way to handle a subsequent because of the RSET vaporising the MAIL FROM. So refuse to support any. Most cutthrough use will not involve random_local_part, so no loss. */ cancel_cutthrough_connection(TRUE, US"random-recipient"); addr->address = string_sprintf("%s@%.1000s", random_local_part, rcpt_domain); done = FALSE; /* If accepted, we aren't going to do any further tests below. Otherwise, cache a real negative response, and get back to the right state to send RCPT. Unless there's some problem such as a dropped connection, we expect to succeed, because the commands succeeded above. However, some servers drop the connection after responding to an invalid recipient, so on (any) error we drop and remake the connection. XXX We don't care about that for postmaster_full. Should we? XXX could we add another flag to the context, and have the common code emit the RSET too? Even pipelined after the RCPT... Then the main-verify call could use it if there's to be a subsequent postmaster-verify. The sync_responses() would need to be taught about it and we'd need another return code filtering out to here. Avoid using a SIZE option on the MAIL for all random-rcpt checks. */ sx.avoid_option = OPTION_SIZE; /* Remember when we last did a random test */ new_domain_record.random_stamp = time(NULL); if (smtp_write_mail_and_rcpt_cmds(&sx, &yield) == 0) switch(addr->transport_return) { case PENDING_OK: /* random was accepted, unfortunately */ new_domain_record.random_result = ccache_accept; yield = OK; /* Only usable verify result we can return */ done = TRUE; *failure_ptr = US"random"; goto no_conn; case FAIL: /* rejected: the preferred result */ new_domain_record.random_result = ccache_reject; sx.avoid_option = 0; /* Between each check, issue RSET, because some servers accept only one recipient after MAIL FROM:<>. XXX We don't care about that for postmaster_full. Should we? */ if ((done = smtp_write_command(&sx, SCMD_FLUSH, "RSET\r\n") >= 0 && smtp_read_response(&sx, sx.buffer, sizeof(sx.buffer), '2', callout))) break; HDEBUG(D_acl|D_v) debug_printf_indent("problem after random/rset/mfrom; reopen conn\n"); random_local_part = NULL; #ifdef SUPPORT_TLS tls_close(sx.cctx.tls_ctx, TLS_SHUTDOWN_NOWAIT); #endif HDEBUG(D_transport|D_acl|D_v) debug_printf_indent(" SMTP(close)>>\n"); (void)close(sx.cctx.sock); sx.cctx.sock = -1; #ifndef DISABLE_EVENT (void) event_raise(addr->transport->event_action, US"tcp:close", NULL); #endif addr->address = main_address; addr->transport_return = PENDING_DEFER; sx.first_addr = sx.sync_addr = addr; sx.ok = FALSE; sx.send_rset = TRUE; sx.completed_addr = FALSE; goto tls_retry_connection; case DEFER: /* 4xx response to random */ break; /* Just to be clear. ccache_unknown, !done. */ } /* Re-setup for main verify, or for the error message when failing */ addr->address = main_address; addr->transport_return = PENDING_DEFER; sx.first_addr = sx.sync_addr = addr; sx.ok = FALSE; sx.send_rset = TRUE; sx.completed_addr = FALSE; } else done = TRUE; /* Main verify. For rcpt-verify use SIZE if we know it and we're not cacheing; for sndr-verify never use it. */ if (done) { if (!(options & vopt_is_recipient && options & vopt_callout_no_cache)) sx.avoid_option = OPTION_SIZE; done = FALSE; switch(smtp_write_mail_and_rcpt_cmds(&sx, &yield)) { case 0: switch(addr->transport_return) /* ok so far */ { case PENDING_OK: done = TRUE; new_address_record.result = ccache_accept; break; case FAIL: done = TRUE; yield = FAIL; *failure_ptr = US"recipient"; new_address_record.result = ccache_reject; break; default: break; } break; case -1: /* MAIL response error */ *failure_ptr = US"mail"; if (errno == 0 && sx.buffer[0] == '5') { setflag(addr, af_verify_nsfail); if (from_address[0] == 0) new_domain_record.result = ccache_reject_mfnull; } break; /* non-MAIL read i/o error */ /* non-MAIL response timeout */ /* internal error; channel still usable */ default: break; /* transmit failed */ } } addr->auth_sndr = client_authenticated_sender; deliver_host = deliver_host_address = NULL; deliver_domain = save_deliver_domain; /* Do postmaster check if requested; if a full check is required, we check for RCPT TO: (no domain) in accordance with RFC 821. */ if (done && pm_mailfrom) { /* Could possibly shift before main verify, just above, and be ok for cutthrough. But no way to handle a subsequent rcpt, so just refuse any */ cancel_cutthrough_connection(TRUE, US"postmaster verify"); HDEBUG(D_acl|D_v) debug_printf_indent("Cutthrough cancelled by presence of postmaster verify\n"); done = smtp_write_command(&sx, SCMD_FLUSH, "RSET\r\n") >= 0 && smtp_read_response(&sx, sx.buffer, sizeof(sx.buffer), '2', callout); if (done) { uschar * main_address = addr->address; /*XXX oops, affixes */ addr->address = string_sprintf("postmaster@%.1000s", addr->domain); addr->transport_return = PENDING_DEFER; sx.from_addr = pm_mailfrom; sx.first_addr = sx.sync_addr = addr; sx.ok = FALSE; sx.send_rset = TRUE; sx.completed_addr = FALSE; sx.avoid_option = OPTION_SIZE; if( smtp_write_mail_and_rcpt_cmds(&sx, &yield) == 0 && addr->transport_return == PENDING_OK ) done = TRUE; else done = (options & vopt_callout_fullpm) != 0 && smtp_write_command(&sx, SCMD_FLUSH, "RCPT TO:\r\n") >= 0 && smtp_read_response(&sx, sx.buffer, sizeof(sx.buffer), '2', callout); /* Sort out the cache record */ new_domain_record.postmaster_stamp = time(NULL); if (done) new_domain_record.postmaster_result = ccache_accept; else if (errno == 0 && sx.buffer[0] == '5') { *failure_ptr = US"postmaster"; setflag(addr, af_verify_pmfail); new_domain_record.postmaster_result = ccache_reject; } addr->address = main_address; } } /* For any failure of the main check, other than a negative response, we just close the connection and carry on. We can identify a negative response by the fact that errno is zero. For I/O errors it will be non-zero Set up different error texts for logging and for sending back to the caller as an SMTP response. Log in all cases, using a one-line format. For sender callouts, give a full response to the caller, but for recipient callouts, don't give the IP address because this may be an internal host whose identity is not to be widely broadcast. */ no_conn: switch(errno) { case ETIMEDOUT: HDEBUG(D_verify) debug_printf("SMTP timeout\n"); sx.send_quit = FALSE; break; #ifdef SUPPORT_I18N case ERRNO_UTF8_FWD: { extern int acl_where; /* src/acl.c */ errno = 0; addr->message = string_sprintf( "response to \"EHLO\" did not include SMTPUTF8"); addr->user_message = acl_where == ACL_WHERE_RCPT ? US"533 no support for internationalised mailbox name" : US"550 mailbox unavailable"; yield = FAIL; done = TRUE; } break; #endif #if defined(SUPPORT_TLS) && defined(EXPERIMENTAL_REQUIRETLS) case ERRNO_REQUIRETLS: addr->user_message = US"530 5.7.4 REQUIRETLS support required"; yield = FAIL; done = TRUE; break; #endif case ECONNREFUSED: sx.send_quit = FALSE; break; case 0: if (*sx.buffer == 0) Ustrcpy(sx.buffer, US"connection dropped"); /*XXX test here is ugly; seem to have a split of responsibility for building this message. Need to rationalise. Where is it done before here, and when not? Not == 5xx resp to MAIL on main-verify */ if (!addr->message) addr->message = string_sprintf("response to \"%s\" was: %s", big_buffer, string_printing(sx.buffer)); addr->user_message = options & vopt_is_recipient ? string_sprintf("Callout verification failed:\n%s", sx.buffer) : string_sprintf("Called: %s\nSent: %s\nResponse: %s", host->address, big_buffer, sx.buffer); /* Hard rejection ends the process */ if (sx.buffer[0] == '5') /* Address rejected */ { yield = FAIL; done = TRUE; } break; } /* End the SMTP conversation and close the connection. */ /* Cutthrough - on a successful connect and recipient-verify with use-sender and we are 1st rcpt and have no cutthrough conn so far here is where we want to leave the conn open. Ditto for a lazy-close verify. */ if (cutthrough.delivery) { if (addr->transport->filter_command) { cutthrough.delivery= FALSE; HDEBUG(D_acl|D_v) debug_printf("Cutthrough cancelled by presence of transport filter\n"); } #ifndef DISABLE_DKIM if (ob->dkim.dkim_domain) { cutthrough.delivery= FALSE; HDEBUG(D_acl|D_v) debug_printf("Cutthrough cancelled by presence of DKIM signing\n"); } #endif #ifdef EXPERIMENTAL_ARC if (ob->arc_sign) { cutthrough.delivery= FALSE; HDEBUG(D_acl|D_v) debug_printf("Cutthrough cancelled by presence of ARC signing\n"); } #endif } if ( (cutthrough.delivery || options & vopt_callout_hold) && rcpt_count == 1 && done && yield == OK && (options & (vopt_callout_recipsender|vopt_callout_recippmaster|vopt_success_on_redirect)) == vopt_callout_recipsender && !random_local_part && !pm_mailfrom && cutthrough.cctx.sock < 0 && !sx.lmtp ) { address_item * parent, * caddr; HDEBUG(D_acl|D_v) debug_printf_indent("holding verify callout open for %s\n", cutthrough.delivery ? "cutthrough delivery" : "potential further verifies and delivery"); cutthrough.callout_hold_only = !cutthrough.delivery; cutthrough.is_tls = tls_out.active.sock >= 0; /* We assume no buffer in use in the outblock */ cutthrough.cctx = sx.cctx; cutthrough.nrcpt = 1; cutthrough.transport = addr->transport->name; cutthrough.interface = interface; cutthrough.snd_port = sending_port; cutthrough.peer_options = smtp_peer_options; cutthrough.host = *host; { int oldpool = store_pool; store_pool = POOL_PERM; cutthrough.snd_ip = string_copy(sending_ip_address); cutthrough.host.name = string_copy(host->name); cutthrough.host.address = string_copy(host->address); store_pool = oldpool; } /* Save the address_item and parent chain for later logging */ cutthrough.addr = *addr; cutthrough.addr.next = NULL; cutthrough.addr.host_used = &cutthrough.host; for (caddr = &cutthrough.addr, parent = addr->parent; parent; caddr = caddr->parent, parent = parent->parent) *(caddr->parent = store_get(sizeof(address_item))) = *parent; ctctx.outblock.buffer = ctbuffer; ctctx.outblock.buffersize = sizeof(ctbuffer); ctctx.outblock.ptr = ctbuffer; /* ctctx.outblock.cmd_count = 0; ctctx.outblock.authenticating = FALSE; */ ctctx.outblock.cctx = &cutthrough.cctx; } else { /* Ensure no cutthrough on multiple verifies that were incompatible */ if (options & vopt_callout_recipsender) cancel_cutthrough_connection(TRUE, US"not usable for cutthrough"); if (sx.send_quit) { (void) smtp_write_command(&sx, SCMD_FLUSH, "QUIT\r\n"); /* Wait a short time for response, and discard it */ smtp_read_response(&sx, sx.buffer, sizeof(sx.buffer), '2', 1); } if (sx.cctx.sock >= 0) { #ifdef SUPPORT_TLS if (sx.cctx.tls_ctx) { tls_close(sx.cctx.tls_ctx, TLS_SHUTDOWN_NOWAIT); sx.cctx.tls_ctx = NULL; } #endif HDEBUG(D_transport|D_acl|D_v) debug_printf_indent(" SMTP(close)>>\n"); (void)close(sx.cctx.sock); sx.cctx.sock = -1; #ifndef DISABLE_EVENT (void) event_raise(addr->transport->event_action, US"tcp:close", NULL); #endif } } if (!done || yield != OK) addr->message = string_sprintf("%s [%s] : %s", host->name, host->address, addr->message); } /* Loop through all hosts, while !done */ } /* If we get here with done == TRUE, a successful callout happened, and yield will be set OK or FAIL according to the response to the RCPT command. Otherwise, we looped through the hosts but couldn't complete the business. However, there may be domain-specific information to cache in both cases. */ if (!(options & vopt_callout_no_cache)) cache_callout_write(&new_domain_record, addr->domain, done, &new_address_record, address_key); /* Failure to connect to any host, or any response other than 2xx or 5xx is a temporary error. If there was only one host, and a response was received, leave it alone if supplying details. Otherwise, give a generic response. */ if (!done) { uschar * dullmsg = string_sprintf("Could not complete %s verify callout", options & vopt_is_recipient ? "recipient" : "sender"); yield = DEFER; addr->message = host_list->next || !addr->message ? dullmsg : string_sprintf("%s: %s", dullmsg, addr->message); addr->user_message = smtp_return_error_details ? string_sprintf("%s for <%s>.\n" "The mail server(s) for the domain may be temporarily unreachable, or\n" "they may be permanently unreachable from this server. In the latter case,\n%s", dullmsg, addr->address, options & vopt_is_recipient ? "the address will never be accepted." : "you need to change the address or create an MX record for its domain\n" "if it is supposed to be generally accessible from the Internet.\n" "Talk to your mail administrator for details.") : dullmsg; /* Force a specific error code */ addr->basic_errno = ERRNO_CALLOUTDEFER; } /* Come here from within the cache-reading code on fast-track exit. */ END_CALLOUT: tls_modify_variables(&tls_in); return yield; } /* Called after recipient-acl to get a cutthrough connection open when one was requested and a recipient-verify wasn't subsequently done. */ int open_cutthrough_connection(address_item * addr) { address_item addr2; int rc; /* Use a recipient-verify-callout to set up the cutthrough connection. */ /* We must use a copy of the address for verification, because it might get rewritten. */ addr2 = *addr; HDEBUG(D_acl) debug_printf_indent("----------- %s cutthrough setup ------------\n", rcpt_count > 1 ? "more" : "start"); rc = verify_address(&addr2, NULL, vopt_is_recipient | vopt_callout_recipsender | vopt_callout_no_cache, CUTTHROUGH_CMD_TIMEOUT, -1, -1, NULL, NULL, NULL); addr->message = addr2.message; addr->user_message = addr2.user_message; HDEBUG(D_acl) debug_printf_indent("----------- end cutthrough setup ------------\n"); return rc; } /* Send given number of bytes from the buffer */ static BOOL cutthrough_send(int n) { if(cutthrough.cctx.sock < 0) return TRUE; if( #ifdef SUPPORT_TLS cutthrough.is_tls ? tls_write(cutthrough.cctx.tls_ctx, ctctx.outblock.buffer, n, FALSE) : #endif send(cutthrough.cctx.sock, ctctx.outblock.buffer, n, 0) > 0 ) { transport_count += n; ctctx.outblock.ptr= ctctx.outblock.buffer; return TRUE; } HDEBUG(D_transport|D_acl) debug_printf_indent("cutthrough_send failed: %s\n", strerror(errno)); return FALSE; } static BOOL _cutthrough_puts(uschar * cp, int n) { while(n--) { if(ctctx.outblock.ptr >= ctctx.outblock.buffer+ctctx.outblock.buffersize) if(!cutthrough_send(ctctx.outblock.buffersize)) return FALSE; *ctctx.outblock.ptr++ = *cp++; } return TRUE; } /* Buffered output of counted data block. Return boolean success */ static BOOL cutthrough_puts(uschar * cp, int n) { if (cutthrough.cctx.sock < 0) return TRUE; if (_cutthrough_puts(cp, n)) return TRUE; cancel_cutthrough_connection(TRUE, US"transmit failed"); return FALSE; } void cutthrough_data_puts(uschar * cp, int n) { if (cutthrough.delivery) (void) cutthrough_puts(cp, n); return; } static BOOL _cutthrough_flush_send(void) { int n = ctctx.outblock.ptr - ctctx.outblock.buffer; if(n>0) if(!cutthrough_send(n)) return FALSE; return TRUE; } /* Send out any bufferred output. Return boolean success. */ BOOL cutthrough_flush_send(void) { if (_cutthrough_flush_send()) return TRUE; cancel_cutthrough_connection(TRUE, US"transmit failed"); return FALSE; } static BOOL cutthrough_put_nl(void) { return cutthrough_puts(US"\r\n", 2); } void cutthrough_data_put_nl(void) { cutthrough_data_puts(US"\r\n", 2); } /* Get and check response from cutthrough target */ static uschar cutthrough_response(client_conn_ctx * cctx, char expect, uschar ** copy, int timeout) { smtp_context sx = {0}; uschar inbuffer[4096]; uschar responsebuffer[4096]; sx.inblock.buffer = inbuffer; sx.inblock.buffersize = sizeof(inbuffer); sx.inblock.ptr = inbuffer; sx.inblock.ptrend = inbuffer; sx.inblock.cctx = cctx; if(!smtp_read_response(&sx, responsebuffer, sizeof(responsebuffer), expect, timeout)) cancel_cutthrough_connection(TRUE, US"target timeout on read"); if(copy) { uschar * cp; *copy = cp = string_copy(responsebuffer); /* Trim the trailing end of line */ cp += Ustrlen(responsebuffer); if(cp > *copy && cp[-1] == '\n') *--cp = '\0'; if(cp > *copy && cp[-1] == '\r') *--cp = '\0'; } return responsebuffer[0]; } /* Negotiate dataphase with the cutthrough target, returning success boolean */ BOOL cutthrough_predata(void) { if(cutthrough.cctx.sock < 0 || cutthrough.callout_hold_only) return FALSE; HDEBUG(D_transport|D_acl|D_v) debug_printf_indent(" SMTP>> DATA\n"); cutthrough_puts(US"DATA\r\n", 6); cutthrough_flush_send(); /* Assume nothing buffered. If it was it gets ignored. */ return cutthrough_response(&cutthrough.cctx, '3', NULL, CUTTHROUGH_DATA_TIMEOUT) == '3'; } /* tctx arg only to match write_chunk() */ static BOOL cutthrough_write_chunk(transport_ctx * tctx, uschar * s, int len) { uschar * s2; while(s && (s2 = Ustrchr(s, '\n'))) { if(!cutthrough_puts(s, s2-s) || !cutthrough_put_nl()) return FALSE; s = s2+1; } return TRUE; } /* Buffered send of headers. Return success boolean. */ /* Expands newlines to wire format (CR,NL). */ /* Also sends header-terminating blank line. */ BOOL cutthrough_headers_send(void) { transport_ctx tctx; if(cutthrough.cctx.sock < 0 || cutthrough.callout_hold_only) return FALSE; /* We share a routine with the mainline transport to handle header add/remove/rewrites, but having a separate buffered-output function (for now) */ HDEBUG(D_acl) debug_printf_indent("----------- start cutthrough headers send -----------\n"); tctx.u.fd = cutthrough.cctx.sock; tctx.tblock = cutthrough.addr.transport; tctx.addr = &cutthrough.addr; tctx.check_string = US"."; tctx.escape_string = US".."; /*XXX check under spool_files_wireformat. Might be irrelevant */ tctx.options = topt_use_crlf; if (!transport_headers_send(&tctx, &cutthrough_write_chunk)) return FALSE; HDEBUG(D_acl) debug_printf_indent("----------- done cutthrough headers send ------------\n"); return TRUE; } static void close_cutthrough_connection(const uschar * why) { int fd = cutthrough.cctx.sock; if(fd >= 0) { /* We could be sending this after a bunch of data, but that is ok as the only way to cancel the transfer in dataphase is to drop the tcp conn before the final dot. */ client_conn_ctx tmp_ctx = cutthrough.cctx; ctctx.outblock.ptr = ctbuffer; HDEBUG(D_transport|D_acl|D_v) debug_printf_indent(" SMTP>> QUIT\n"); _cutthrough_puts(US"QUIT\r\n", 6); /* avoid recursion */ _cutthrough_flush_send(); cutthrough.cctx.sock = -1; /* avoid recursion via read timeout */ cutthrough.nrcpt = 0; /* permit re-cutthrough on subsequent message */ /* Wait a short time for response, and discard it */ cutthrough_response(&tmp_ctx, '2', NULL, 1); #ifdef SUPPORT_TLS if (cutthrough.is_tls) { tls_close(cutthrough.cctx.tls_ctx, TLS_SHUTDOWN_NOWAIT); cutthrough.cctx.tls_ctx = NULL; cutthrough.is_tls = FALSE; } #endif HDEBUG(D_transport|D_acl|D_v) debug_printf_indent(" SMTP(close)>>\n"); (void)close(fd); HDEBUG(D_acl) debug_printf_indent("----------- cutthrough shutdown (%s) ------------\n", why); } ctctx.outblock.ptr = ctbuffer; } void cancel_cutthrough_connection(BOOL close_noncutthrough_verifies, const uschar * why) { if (cutthrough.delivery || close_noncutthrough_verifies) close_cutthrough_connection(why); cutthrough.delivery = cutthrough.callout_hold_only = FALSE; } void release_cutthrough_connection(const uschar * why) { if (cutthrough.cctx.sock < 0) return; HDEBUG(D_acl) debug_printf_indent("release cutthrough conn: %s\n", why); cutthrough.cctx.sock = -1; cutthrough.cctx.tls_ctx = NULL; cutthrough.delivery = cutthrough.callout_hold_only = FALSE; } /* Have senders final-dot. Send one to cutthrough target, and grab the response. Log an OK response as a transmission. Close the connection. Return smtp response-class digit. */ uschar * cutthrough_finaldot(void) { uschar res; address_item * addr; HDEBUG(D_transport|D_acl|D_v) debug_printf_indent(" SMTP>> .\n"); /* Assume data finshed with new-line */ if( !cutthrough_puts(US".", 1) || !cutthrough_put_nl() || !cutthrough_flush_send() ) return cutthrough.addr.message; res = cutthrough_response(&cutthrough.cctx, '2', &cutthrough.addr.message, CUTTHROUGH_DATA_TIMEOUT); for (addr = &cutthrough.addr; addr; addr = addr->next) { addr->message = cutthrough.addr.message; switch(res) { case '2': delivery_log(LOG_MAIN, addr, (int)'>', NULL); close_cutthrough_connection(US"delivered"); break; case '4': delivery_log(LOG_MAIN, addr, 0, US"tmp-reject from cutthrough after DATA:"); break; case '5': delivery_log(LOG_MAIN|LOG_REJECT, addr, 0, US"rejected after DATA:"); break; default: break; } } return cutthrough.addr.message; } /************************************************* * Copy error to toplevel address * *************************************************/ /* This function is used when a verify fails or defers, to ensure that the failure or defer information is in the original toplevel address. This applies when an address is redirected to a single new address, and the failure or deferral happens to the child address. Arguments: vaddr the verify address item addr the final address item yield FAIL or DEFER Returns: the value of YIELD */ static int copy_error(address_item *vaddr, address_item *addr, int yield) { if (addr != vaddr) { vaddr->message = addr->message; vaddr->user_message = addr->user_message; vaddr->basic_errno = addr->basic_errno; vaddr->more_errno = addr->more_errno; vaddr->prop.address_data = addr->prop.address_data; copyflag(vaddr, addr, af_pass_message); } return yield; } /************************************************** * printf that automatically handles TLS if needed * ***************************************************/ /* This function is used by verify_address() as a substitute for all fprintf() calls; a direct fprintf() will not produce output in a TLS SMTP session, such as a response to an EXPN command. smtp_in.c makes smtp_printf available but that assumes that we always use the smtp_out FILE* when not using TLS or the ssl buffer when we are. Instead we take a FILE* parameter and check to see if that is smtp_out; if so, smtp_printf() with TLS support, otherwise regular fprintf(). Arguments: f the candidate FILE* to write to format format string ... optional arguments Returns: nothing */ static void PRINTF_FUNCTION(2,3) respond_printf(FILE *f, const char *format, ...) { va_list ap; va_start(ap, format); if (smtp_out && (f == smtp_out)) smtp_vprintf(format, FALSE, ap); else vfprintf(f, format, ap); va_end(ap); } /************************************************* * Verify an email address * *************************************************/ /* This function is used both for verification (-bv and at other times) and address testing (-bt), which is indicated by address_test_mode being set. Arguments: vaddr contains the address to verify; the next field in this block must be NULL f if not NULL, write the result to this file options various option bits: vopt_fake_sender => this sender verify is not for the real sender (it was verify=sender=xxxx or an address from a header line) - rewriting must not change sender_address vopt_is_recipient => this is a recipient address, otherwise it's a sender address - this affects qualification and rewriting and messages from callouts vopt_qualify => qualify an unqualified address; else error vopt_expn => called from SMTP EXPN command vopt_success_on_redirect => when a new address is generated the verification instantly succeeds These ones are used by do_callout() -- the options variable is passed to it. vopt_callout_fullpm => if postmaster check, do full one vopt_callout_no_cache => don't use callout cache vopt_callout_random => do the "random" thing vopt_callout_recipsender => use real sender for recipient vopt_callout_recippmaster => use postmaster for recipient callout if > 0, specifies that callout is required, and gives timeout for individual commands callout_overall if > 0, gives overall timeout for the callout function; if < 0, a default is used (see do_callout()) callout_connect the connection timeout for callouts se_mailfrom when callout is requested to verify a sender, use this in MAIL FROM; NULL => "" pm_mailfrom when callout is requested, if non-NULL, do the postmaster thing and use this as the sender address (may be "") routed if not NULL, set TRUE if routing succeeded, so we can distinguish between routing failed and callout failed Returns: OK address verified FAIL address failed to verify DEFER can't tell at present */ int verify_address(address_item * vaddr, FILE * fp, int options, int callout, int callout_overall, int callout_connect, uschar * se_mailfrom, uschar *pm_mailfrom, BOOL *routed) { BOOL allok = TRUE; BOOL full_info = fp ? debug_selector != 0 : FALSE; BOOL expn = (options & vopt_expn) != 0; BOOL success_on_redirect = (options & vopt_success_on_redirect) != 0; int i; int yield = OK; int verify_type = expn? v_expn : f.address_test_mode? v_none : options & vopt_is_recipient? v_recipient : v_sender; address_item *addr_list; address_item *addr_new = NULL; address_item *addr_remote = NULL; address_item *addr_local = NULL; address_item *addr_succeed = NULL; uschar **failure_ptr = options & vopt_is_recipient ? &recipient_verify_failure : &sender_verify_failure; uschar *ko_prefix, *cr; uschar *address = vaddr->address; uschar *save_sender; uschar null_sender[] = { 0 }; /* Ensure writeable memory */ /* Clear, just in case */ *failure_ptr = NULL; /* Set up a prefix and suffix for error message which allow us to use the same output statements both in EXPN mode (where an SMTP response is needed) and when debugging with an output file. */ if (expn) { ko_prefix = US"553 "; cr = US"\r"; } else ko_prefix = cr = US""; /* Add qualify domain if permitted; otherwise an unqualified address fails. */ if (parse_find_at(address) == NULL) { if (!(options & vopt_qualify)) { if (fp) respond_printf(fp, "%sA domain is required for \"%s\"%s\n", ko_prefix, address, cr); *failure_ptr = US"qualify"; return FAIL; } address = rewrite_address_qualify(address, options & vopt_is_recipient); } DEBUG(D_verify) { debug_printf(">>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>\n"); debug_printf("%s %s\n", f.address_test_mode? "Testing" : "Verifying", address); } /* Rewrite and report on it. Clear the domain and local part caches - these may have been set by domains and local part tests during an ACL. */ if (global_rewrite_rules) { uschar *old = address; address = rewrite_address(address, options & vopt_is_recipient, FALSE, global_rewrite_rules, rewrite_existflags); if (address != old) { for (i = 0; i < (MAX_NAMED_LIST * 2)/32; i++) vaddr->localpart_cache[i] = 0; for (i = 0; i < (MAX_NAMED_LIST * 2)/32; i++) vaddr->domain_cache[i] = 0; if (fp && !expn) fprintf(fp, "Address rewritten as: %s\n", address); } } /* If this is the real sender address, we must update sender_address at this point, because it may be referred to in the routers. */ if (!(options & (vopt_fake_sender|vopt_is_recipient))) sender_address = address; /* If the address was rewritten to <> no verification can be done, and we have to return OK. This rewriting is permitted only for sender addresses; for other addresses, such rewriting fails. */ if (!address[0]) return OK; /* Flip the legacy TLS-related variables over to the outbound set in case they're used in the context of a transport used by verification. Reset them at exit from this routine (so no returns allowed from here on). */ tls_modify_variables(&tls_out); /* Save a copy of the sender address for re-instating if we change it to <> while verifying a sender address (a nice bit of self-reference there). */ save_sender = sender_address; /* Observability variable for router/transport use */ verify_mode = options & vopt_is_recipient ? US"R" : US"S"; /* Update the address structure with the possibly qualified and rewritten address. Set it up as the starting address on the chain of new addresses. */ vaddr->address = address; addr_new = vaddr; /* We need a loop, because an address can generate new addresses. We must also cope with generated pipes and files at the top level. (See also the code and comment in deliver.c.) However, it is usually the case that the router for user's .forward files has its verify flag turned off. If an address generates more than one child, the loop is used only when full_info is set, and this can only be set locally. Remote enquiries just get information about the top level address, not anything that it generated. */ while (addr_new) { int rc; address_item *addr = addr_new; addr_new = addr->next; addr->next = NULL; DEBUG(D_verify) { debug_printf(">>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>\n"); debug_printf("Considering %s\n", addr->address); } /* Handle generated pipe, file or reply addresses. We don't get these when handling EXPN, as it does only one level of expansion. */ if (testflag(addr, af_pfr)) { allok = FALSE; if (fp) { BOOL allow; if (addr->address[0] == '>') { allow = testflag(addr, af_allow_reply); fprintf(fp, "%s -> mail %s", addr->parent->address, addr->address + 1); } else { allow = addr->address[0] == '|' ? testflag(addr, af_allow_pipe) : testflag(addr, af_allow_file); fprintf(fp, "%s -> %s", addr->parent->address, addr->address); } if (addr->basic_errno == ERRNO_BADTRANSPORT) fprintf(fp, "\n*** Error in setting up pipe, file, or autoreply:\n" "%s\n", addr->message); else if (allow) fprintf(fp, "\n transport = %s\n", addr->transport->name); else fprintf(fp, " *** forbidden ***\n"); } continue; } /* Just in case some router parameter refers to it. */ return_path = addr->prop.errors_address ? addr->prop.errors_address : sender_address; /* Split the address into domain and local part, handling the %-hack if necessary, and then route it. While routing a sender address, set $sender_address to <> because that is what it will be if we were trying to send a bounce to the sender. */ if (routed) *routed = FALSE; if ((rc = deliver_split_address(addr)) == OK) { if (!(options & vopt_is_recipient)) sender_address = null_sender; rc = route_address(addr, &addr_local, &addr_remote, &addr_new, &addr_succeed, verify_type); sender_address = save_sender; /* Put back the real sender */ } /* If routing an address succeeded, set the flag that remembers, for use when an ACL cached a sender verify (in case a callout fails). Then if routing set up a list of hosts or the transport has a host list, and the callout option is set, and we aren't in a host checking run, do the callout verification, and set another flag that notes that a callout happened. */ if (rc == OK) { if (routed) *routed = TRUE; if (callout > 0) { transport_instance * tp; host_item * host_list = addr->host_list; /* Make up some data for use in the case where there is no remote transport. */ transport_feedback tf = { .interface = NULL, /* interface (=> any) */ .port = US"smtp", .protocol = US"smtp", .hosts = NULL, .helo_data = US"$smtp_active_hostname", .hosts_override = FALSE, .hosts_randomize = FALSE, .gethostbyname = FALSE, .qualify_single = TRUE, .search_parents = FALSE }; /* If verification yielded a remote transport, we want to use that transport's options, so as to mimic what would happen if we were really sending a message to this address. */ if ((tp = addr->transport) && !tp->info->local) { (void)(tp->setup)(tp, addr, &tf, 0, 0, NULL); /* If the transport has hosts and the router does not, or if the transport is configured to override the router's hosts, we must build a host list of the transport's hosts, and find the IP addresses */ if (tf.hosts && (!host_list || tf.hosts_override)) { uschar *s; const uschar *save_deliver_domain = deliver_domain; uschar *save_deliver_localpart = deliver_localpart; host_list = NULL; /* Ignore the router's hosts */ deliver_domain = addr->domain; deliver_localpart = addr->local_part; s = expand_string(tf.hosts); deliver_domain = save_deliver_domain; deliver_localpart = save_deliver_localpart; if (!s) { log_write(0, LOG_MAIN|LOG_PANIC, "failed to expand list of hosts " "\"%s\" in %s transport for callout: %s", tf.hosts, tp->name, expand_string_message); } else { int flags; host_item *host, *nexthost; host_build_hostlist(&host_list, s, tf.hosts_randomize); /* Just ignore failures to find a host address. If we don't manage to find any addresses, the callout will defer. Note that more than one address may be found for a single host, which will result in additional host items being inserted into the chain. Hence we must save the next host first. */ flags = HOST_FIND_BY_A | HOST_FIND_BY_AAAA; if (tf.qualify_single) flags |= HOST_FIND_QUALIFY_SINGLE; if (tf.search_parents) flags |= HOST_FIND_SEARCH_PARENTS; for (host = host_list; host; host = nexthost) { nexthost = host->next; if (tf.gethostbyname || string_is_ip_address(host->name, NULL) != 0) (void)host_find_byname(host, NULL, flags, NULL, TRUE); else { const dnssec_domains * dsp = NULL; if (Ustrcmp(tp->driver_name, "smtp") == 0) { smtp_transport_options_block * ob = (smtp_transport_options_block *) tp->options_block; dsp = &ob->dnssec; } (void) host_find_bydns(host, NULL, flags, NULL, NULL, NULL, dsp, NULL, NULL); } } } } } /* Can only do a callout if we have at least one host! If the callout fails, it will have set ${sender,recipient}_verify_failure. */ if (host_list) { HDEBUG(D_verify) debug_printf("Attempting full verification using callout\n"); if (host_checking && !f.host_checking_callout) { HDEBUG(D_verify) debug_printf("... callout omitted by default when host testing\n" "(Use -bhc if you want the callouts to happen.)\n"); } else { #ifdef SUPPORT_TLS deliver_set_expansions(addr); #endif rc = do_callout(addr, host_list, &tf, callout, callout_overall, callout_connect, options, se_mailfrom, pm_mailfrom); #ifdef SUPPORT_TLS deliver_set_expansions(NULL); #endif } } else { HDEBUG(D_verify) debug_printf("Cannot do callout: neither router nor " "transport provided a host list, or transport is not smtp\n"); } } } /* Otherwise, any failure is a routing failure */ else *failure_ptr = US"route"; /* A router may return REROUTED if it has set up a child address as a result of a change of domain name (typically from widening). In this case we always want to continue to verify the new child. */ if (rc == REROUTED) continue; /* Handle hard failures */ if (rc == FAIL) { allok = FALSE; if (fp) { address_item *p = addr->parent; respond_printf(fp, "%s%s %s", ko_prefix, full_info ? addr->address : address, f.address_test_mode ? "is undeliverable" : "failed to verify"); if (!expn && f.admin_user) { if (addr->basic_errno > 0) respond_printf(fp, ": %s", strerror(addr->basic_errno)); if (addr->message) respond_printf(fp, ": %s", addr->message); } /* Show parents iff doing full info */ if (full_info) while (p) { respond_printf(fp, "%s\n <-- %s", cr, p->address); p = p->parent; } respond_printf(fp, "%s\n", cr); } cancel_cutthrough_connection(TRUE, US"routing hard fail"); if (!full_info) { yield = copy_error(vaddr, addr, FAIL); goto out; } yield = FAIL; } /* Soft failure */ else if (rc == DEFER) { allok = FALSE; if (fp) { address_item *p = addr->parent; respond_printf(fp, "%s%s cannot be resolved at this time", ko_prefix, full_info? addr->address : address); if (!expn && f.admin_user) { if (addr->basic_errno > 0) respond_printf(fp, ": %s", strerror(addr->basic_errno)); if (addr->message) respond_printf(fp, ": %s", addr->message); else if (addr->basic_errno <= 0) respond_printf(fp, ": unknown error"); } /* Show parents iff doing full info */ if (full_info) while (p) { respond_printf(fp, "%s\n <-- %s", cr, p->address); p = p->parent; } respond_printf(fp, "%s\n", cr); } cancel_cutthrough_connection(TRUE, US"routing soft fail"); if (!full_info) { yield = copy_error(vaddr, addr, DEFER); goto out; } if (yield == OK) yield = DEFER; } /* If we are handling EXPN, we do not want to continue to route beyond the top level (whose address is in "address"). */ else if (expn) { uschar *ok_prefix = US"250-"; if (!addr_new) if (!addr_local && !addr_remote) respond_printf(fp, "250 mail to <%s> is discarded\r\n", address); else respond_printf(fp, "250 <%s>\r\n", address); else do { address_item *addr2 = addr_new; addr_new = addr2->next; if (!addr_new) ok_prefix = US"250 "; respond_printf(fp, "%s<%s>\r\n", ok_prefix, addr2->address); } while (addr_new); yield = OK; goto out; } /* Successful routing other than EXPN. */ else { /* Handle successful routing when short info wanted. Otherwise continue for other (generated) addresses. Short info is the operational case. Full info can be requested only when debug_selector != 0 and a file is supplied. There is a conflict between the use of aliasing as an alternate email address, and as a sort of mailing list. If an alias turns the incoming address into just one address (e.g. J.Caesar->jc44) you may well want to carry on verifying the generated address to ensure it is valid when checking incoming mail. If aliasing generates multiple addresses, you probably don't want to do this. Exim therefore treats the generation of just a single new address as a special case, and continues on to verify the generated address. */ if ( !full_info /* Stop if short info wanted AND */ && ( ( !addr_new /* No new address OR */ || addr_new->next /* More than one new address OR */ || testflag(addr_new, af_pfr) /* New address is pfr */ ) || /* OR */ ( addr_new /* At least one new address AND */ && success_on_redirect /* success_on_redirect is set */ ) ) ) { if (fp) fprintf(fp, "%s %s\n", address, f.address_test_mode ? "is deliverable" : "verified"); /* If we have carried on to verify a child address, we want the value of $address_data to be that of the child */ vaddr->prop.address_data = addr->prop.address_data; /* If stopped because more than one new address, cannot cutthrough */ if (addr_new && addr_new->next) cancel_cutthrough_connection(TRUE, US"multiple addresses from routing"); yield = OK; goto out; } } } /* Loop for generated addresses */ /* Display the full results of the successful routing, including any generated addresses. Control gets here only when full_info is set, which requires fp not to be NULL, and this occurs only when a top-level verify is called with the debugging switch on. If there are no local and no remote addresses, and there were no pipes, files, or autoreplies, and there were no errors or deferments, the message is to be discarded, usually because of the use of :blackhole: in an alias file. */ if (allok && !addr_local && !addr_remote) { fprintf(fp, "mail to %s is discarded\n", address); goto out; } for (addr_list = addr_local, i = 0; i < 2; addr_list = addr_remote, i++) while (addr_list) { address_item *addr = addr_list; address_item *p = addr->parent; transport_instance * tp = addr->transport; addr_list = addr->next; fprintf(fp, "%s", CS addr->address); #ifdef EXPERIMENTAL_SRS if(addr->prop.srs_sender) fprintf(fp, " [srs = %s]", addr->prop.srs_sender); #endif /* If the address is a duplicate, show something about it. */ if (!testflag(addr, af_pfr)) { tree_node *tnode; if ((tnode = tree_search(tree_duplicates, addr->unique))) fprintf(fp, " [duplicate, would not be delivered]"); else tree_add_duplicate(addr->unique, addr); } /* Now show its parents */ for (p = addr->parent; p; p = p->parent) fprintf(fp, "\n <-- %s", p->address); fprintf(fp, "\n "); /* Show router, and transport */ fprintf(fp, "router = %s, transport = %s\n", addr->router->name, tp ? tp->name : US"unset"); /* Show any hosts that are set up by a router unless the transport is going to override them; fiddle a bit to get a nice format. */ if (addr->host_list && tp && !tp->overrides_hosts) { host_item *h; int maxlen = 0; int maxaddlen = 0; for (h = addr->host_list; h; h = h->next) { /* get max lengths of host names, addrs */ int len = Ustrlen(h->name); if (len > maxlen) maxlen = len; len = h->address ? Ustrlen(h->address) : 7; if (len > maxaddlen) maxaddlen = len; } for (h = addr->host_list; h; h = h->next) { fprintf(fp, " host %-*s ", maxlen, h->name); if (h->address) fprintf(fp, "[%s%-*c", h->address, maxaddlen+1 - Ustrlen(h->address), ']'); else if (tp->info->local) fprintf(fp, " %-*s ", maxaddlen, ""); /* Omit [unknown] for local */ else fprintf(fp, "[%s%-*c", "unknown", maxaddlen+1 - 7, ']'); if (h->mx >= 0) fprintf(fp, " MX=%d", h->mx); if (h->port != PORT_NONE) fprintf(fp, " port=%d", h->port); if (f.running_in_test_harness && h->dnssec == DS_YES) fputs(" AD", fp); if (h->status == hstatus_unusable) fputs(" ** unusable **", fp); fputc('\n', fp); } } } /* Yield will be DEFER or FAIL if any one address has, only for full_info (which is the -bv or -bt case). */ out: verify_mode = NULL; tls_modify_variables(&tls_in); return yield; } /************************************************* * Check headers for syntax errors * *************************************************/ /* This function checks those header lines that contain addresses, and verifies that all the addresses therein are 5322-syntactially correct. Arguments: msgptr where to put an error message Returns: OK FAIL */ int verify_check_headers(uschar **msgptr) { header_line *h; uschar *colon, *s; int yield = OK; for (h = header_list; h && yield == OK; h = h->next) { if (h->type != htype_from && h->type != htype_reply_to && h->type != htype_sender && h->type != htype_to && h->type != htype_cc && h->type != htype_bcc) continue; colon = Ustrchr(h->text, ':'); s = colon + 1; while (isspace(*s)) s++; /* Loop for multiple addresses in the header, enabling group syntax. Note that we have to reset this after the header has been scanned. */ f.parse_allow_group = TRUE; while (*s) { uschar *ss = parse_find_address_end(s, FALSE); uschar *recipient, *errmess; int terminator = *ss; int start, end, domain; /* Temporarily terminate the string at this point, and extract the operative address within, allowing group syntax. */ *ss = 0; recipient = parse_extract_address(s,&errmess,&start,&end,&domain,FALSE); *ss = terminator; /* Permit an unqualified address only if the message is local, or if the sending host is configured to be permitted to send them. */ if (recipient && !domain) { if (h->type == htype_from || h->type == htype_sender) { if (!f.allow_unqualified_sender) recipient = NULL; } else { if (!f.allow_unqualified_recipient) recipient = NULL; } if (recipient == NULL) errmess = US"unqualified address not permitted"; } /* It's an error if no address could be extracted, except for the special case of an empty address. */ if (!recipient && Ustrcmp(errmess, "empty address") != 0) { uschar *verb = US"is"; uschar *t = ss; uschar *tt = colon; int len; /* Arrange not to include any white space at the end in the error message or the header name. */ while (t > s && isspace(t[-1])) t--; while (tt > h->text && isspace(tt[-1])) tt--; /* Add the address that failed to the error message, since in a header with very many addresses it is sometimes hard to spot which one is at fault. However, limit the amount of address to quote - cases have been seen where, for example, a missing double quote in a humungous To: header creates an "address" that is longer than string_sprintf can handle. */ len = t - s; if (len > 1024) { len = 1024; verb = US"begins"; } /* deconst cast ok as we're passing a non-const to string_printing() */ *msgptr = US string_printing( string_sprintf("%s: failing address in \"%.*s:\" header %s: %.*s", errmess, (int)(tt - h->text), h->text, verb, len, s)); yield = FAIL; break; /* Out of address loop */ } /* Advance to the next address */ s = ss + (terminator ? 1 : 0); while (isspace(*s)) s++; } /* Next address */ f.parse_allow_group = FALSE; f.parse_found_group = FALSE; } /* Next header unless yield has been set FALSE */ return yield; } /************************************************* * Check header names for 8-bit characters * *************************************************/ /* This function checks for invalid characters in header names. See RFC 5322, 2.2. and RFC 6532, 3. Arguments: msgptr where to put an error message Returns: OK FAIL */ int verify_check_header_names_ascii(uschar **msgptr) { header_line *h; uschar *colon, *s; for (h = header_list; h; h = h->next) { colon = Ustrchr(h->text, ':'); for(s = h->text; s < colon; s++) if ((*s < 33) || (*s > 126)) { *msgptr = string_sprintf("Invalid character in header \"%.*s\" found", colon - h->text, h->text); return FAIL; } } return OK; } /************************************************* * Check for blind recipients * *************************************************/ /* This function checks that every (envelope) recipient is mentioned in either the To: or Cc: header lines, thus detecting blind carbon copies. There are two ways of scanning that could be used: either scan the header lines and tick off the recipients, or scan the recipients and check the header lines. The original proposed patch did the former, but I have chosen to do the latter, because (a) it requires no memory and (b) will use fewer resources when there are many addresses in To: and/or Cc: and only one or two envelope recipients. Arguments: none Returns: OK if there are no blind recipients FAIL if there is at least one blind recipient */ int verify_check_notblind(void) { int i; for (i = 0; i < recipients_count; i++) { header_line *h; BOOL found = FALSE; uschar *address = recipients_list[i].address; for (h = header_list; !found && h != NULL; h = h->next) { uschar *colon, *s; if (h->type != htype_to && h->type != htype_cc) continue; colon = Ustrchr(h->text, ':'); s = colon + 1; while (isspace(*s)) s++; /* Loop for multiple addresses in the header, enabling group syntax. Note that we have to reset this after the header has been scanned. */ f.parse_allow_group = TRUE; while (*s != 0) { uschar *ss = parse_find_address_end(s, FALSE); uschar *recipient,*errmess; int terminator = *ss; int start, end, domain; /* Temporarily terminate the string at this point, and extract the operative address within, allowing group syntax. */ *ss = 0; recipient = parse_extract_address(s,&errmess,&start,&end,&domain,FALSE); *ss = terminator; /* If we found a valid recipient that has a domain, compare it with the envelope recipient. Local parts are compared case-sensitively, domains case-insensitively. By comparing from the start with length "domain", we include the "@" at the end, which ensures that we are comparing the whole local part of each address. */ if (recipient != NULL && domain != 0) { found = Ustrncmp(recipient, address, domain) == 0 && strcmpic(recipient + domain, address + domain) == 0; if (found) break; } /* Advance to the next address */ s = ss + (terminator? 1:0); while (isspace(*s)) s++; } /* Next address */ f.parse_allow_group = FALSE; f.parse_found_group = FALSE; } /* Next header (if found is false) */ if (!found) return FAIL; } /* Next recipient */ return OK; } /************************************************* * Find if verified sender * *************************************************/ /* Usually, just a single address is verified as the sender of the message. However, Exim can be made to verify other addresses as well (often related in some way), and this is useful in some environments. There may therefore be a chain of such addresses that have previously been tested. This function finds whether a given address is on the chain. Arguments: the address to be verified Returns: pointer to an address item, or NULL */ address_item * verify_checked_sender(uschar *sender) { address_item *addr; for (addr = sender_verified_list; addr != NULL; addr = addr->next) if (Ustrcmp(sender, addr->address) == 0) break; return addr; } /************************************************* * Get valid header address * *************************************************/ /* Scan the originator headers of the message, looking for an address that verifies successfully. RFC 822 says: o The "Sender" field mailbox should be sent notices of any problems in transport or delivery of the original messages. If there is no "Sender" field, then the "From" field mailbox should be used. o If the "Reply-To" field exists, then the reply should go to the addresses indicated in that field and not to the address(es) indicated in the "From" field. So we check a Sender field if there is one, else a Reply_to field, else a From field. As some strange messages may have more than one of these fields, especially if they are resent- fields, check all of them if there is more than one. Arguments: user_msgptr points to where to put a user error message log_msgptr points to where to put a log error message callout timeout for callout check (passed to verify_address()) callout_overall overall callout timeout (ditto) callout_connect connect callout timeout (ditto) se_mailfrom mailfrom for verify; NULL => "" pm_mailfrom sender for pm callout check (passed to verify_address()) options callout options (passed to verify_address()) verrno where to put the address basic_errno If log_msgptr is set to something without setting user_msgptr, the caller normally uses log_msgptr for both things. Returns: result of the verification attempt: OK, FAIL, or DEFER; FAIL is given if no appropriate headers are found */ int verify_check_header_address(uschar **user_msgptr, uschar **log_msgptr, int callout, int callout_overall, int callout_connect, uschar *se_mailfrom, uschar *pm_mailfrom, int options, int *verrno) { static int header_types[] = { htype_sender, htype_reply_to, htype_from }; BOOL done = FALSE; int yield = FAIL; int i; for (i = 0; i < 3 && !done; i++) { header_line *h; for (h = header_list; h != NULL && !done; h = h->next) { int terminator, new_ok; uschar *s, *ss, *endname; if (h->type != header_types[i]) continue; s = endname = Ustrchr(h->text, ':') + 1; /* Scan the addresses in the header, enabling group syntax. Note that we have to reset this after the header has been scanned. */ f.parse_allow_group = TRUE; while (*s != 0) { address_item *vaddr; while (isspace(*s) || *s == ',') s++; if (*s == 0) break; /* End of header */ ss = parse_find_address_end(s, FALSE); /* The terminator is a comma or end of header, but there may be white space preceding it (including newline for the last address). Move back past any white space so we can check against any cached envelope sender address verifications. */ while (isspace(ss[-1])) ss--; terminator = *ss; *ss = 0; HDEBUG(D_verify) debug_printf("verifying %.*s header address %s\n", (int)(endname - h->text), h->text, s); /* See if we have already verified this address as an envelope sender, and if so, use the previous answer. */ vaddr = verify_checked_sender(s); if (vaddr != NULL && /* Previously checked */ (callout <= 0 || /* No callout needed; OR */ vaddr->special_action > 256)) /* Callout was done */ { new_ok = vaddr->special_action & 255; HDEBUG(D_verify) debug_printf("previously checked as envelope sender\n"); *ss = terminator; /* Restore shortened string */ } /* Otherwise we run the verification now. We must restore the shortened string before running the verification, so the headers are correct, in case there is any rewriting. */ else { int start, end, domain; uschar *address = parse_extract_address(s, log_msgptr, &start, &end, &domain, FALSE); *ss = terminator; /* If we found an empty address, just carry on with the next one, but kill the message. */ if (address == NULL && Ustrcmp(*log_msgptr, "empty address") == 0) { *log_msgptr = NULL; s = ss; continue; } /* If verification failed because of a syntax error, fail this function, and ensure that the failing address gets added to the error message. */ if (address == NULL) { new_ok = FAIL; while (ss > s && isspace(ss[-1])) ss--; *log_msgptr = string_sprintf("syntax error in '%.*s' header when " "scanning for sender: %s in \"%.*s\"", (int)(endname - h->text), h->text, *log_msgptr, (int)(ss - s), s); yield = FAIL; done = TRUE; break; } /* Else go ahead with the sender verification. But it isn't *the* sender of the message, so set vopt_fake_sender to stop sender_address being replaced after rewriting or qualification. */ else { vaddr = deliver_make_addr(address, FALSE); new_ok = verify_address(vaddr, NULL, options | vopt_fake_sender, callout, callout_overall, callout_connect, se_mailfrom, pm_mailfrom, NULL); } } /* We now have the result, either newly found, or cached. If we are giving out error details, set a specific user error. This means that the last of these will be returned to the user if all three fail. We do not set a log message - the generic one below will be used. */ if (new_ok != OK) { *verrno = vaddr->basic_errno; if (smtp_return_error_details) *user_msgptr = string_sprintf("Rejected after DATA: " "could not verify \"%.*s\" header address\n%s: %s", (int)(endname - h->text), h->text, vaddr->address, vaddr->message); } /* Success or defer */ if (new_ok == OK) { yield = OK; done = TRUE; break; } if (new_ok == DEFER) yield = DEFER; /* Move on to any more addresses in the header */ s = ss; } /* Next address */ f.parse_allow_group = FALSE; f.parse_found_group = FALSE; } /* Next header, unless done */ } /* Next header type unless done */ if (yield == FAIL && *log_msgptr == NULL) *log_msgptr = US"there is no valid sender in any header line"; if (yield == DEFER && *log_msgptr == NULL) *log_msgptr = US"all attempts to verify a sender in a header line deferred"; return yield; } /************************************************* * Get RFC 1413 identification * *************************************************/ /* Attempt to get an id from the sending machine via the RFC 1413 protocol. If the timeout is set to zero, then the query is not done. There may also be lists of hosts and nets which are exempt. To guard against malefactors sending non-printing characters which could, for example, disrupt a message's headers, make sure the string consists of printing characters only. Argument: port the port to connect to; usually this is IDENT_PORT (113), but when running in the test harness with -bh a different value is used. Returns: nothing Side effect: any received ident value is put in sender_ident (NULL otherwise) */ void verify_get_ident(int port) { client_conn_ctx ident_conn_ctx = {0}; int host_af, qlen; int received_sender_port, received_interface_port, n; uschar *p; blob early_data; uschar buffer[2048]; /* Default is no ident. Check whether we want to do an ident check for this host. */ sender_ident = NULL; if (rfc1413_query_timeout <= 0 || verify_check_host(&rfc1413_hosts) != OK) return; DEBUG(D_ident) debug_printf("doing ident callback\n"); /* Set up a connection to the ident port of the remote host. Bind the local end to the incoming interface address. If the sender host address is an IPv6 address, the incoming interface address will also be IPv6. */ host_af = Ustrchr(sender_host_address, ':') == NULL ? AF_INET : AF_INET6; if ((ident_conn_ctx.sock = ip_socket(SOCK_STREAM, host_af)) < 0) return; if (ip_bind(ident_conn_ctx.sock, host_af, interface_address, 0) < 0) { DEBUG(D_ident) debug_printf("bind socket for ident failed: %s\n", strerror(errno)); goto END_OFF; } /* Construct and send the query. */ qlen = snprintf(CS buffer, sizeof(buffer), "%d , %d\r\n", sender_host_port, interface_port); early_data.data = buffer; early_data.len = qlen; /*XXX we trust that the query is idempotent */ if (ip_connect(ident_conn_ctx.sock, host_af, sender_host_address, port, rfc1413_query_timeout, &early_data) < 0) { if (errno == ETIMEDOUT && LOGGING(ident_timeout)) log_write(0, LOG_MAIN, "ident connection to %s timed out", sender_host_address); else DEBUG(D_ident) debug_printf("ident connection to %s failed: %s\n", sender_host_address, strerror(errno)); goto END_OFF; } /* Read a response line. We put it into the rest of the buffer, using several recv() calls if necessary. */ p = buffer + qlen; for (;;) { uschar *pp; int count; int size = sizeof(buffer) - (p - buffer); if (size <= 0) goto END_OFF; /* Buffer filled without seeing \n. */ count = ip_recv(&ident_conn_ctx, p, size, rfc1413_query_timeout); if (count <= 0) goto END_OFF; /* Read error or EOF */ /* Scan what we just read, to see if we have reached the terminating \r\n. Be generous, and accept a plain \n terminator as well. The only illegal character is 0. */ for (pp = p; pp < p + count; pp++) { if (*pp == 0) goto END_OFF; /* Zero octet not allowed */ if (*pp == '\n') { if (pp[-1] == '\r') pp--; *pp = 0; goto GOT_DATA; /* Break out of both loops */ } } /* Reached the end of the data without finding \n. Let the loop continue to read some more, if there is room. */ p = pp; } GOT_DATA: /* We have received a line of data. Check it carefully. It must start with the same two port numbers that we sent, followed by data as defined by the RFC. For example, 12345 , 25 : USERID : UNIX :root However, the amount of white space may be different to what we sent. In the "osname" field there may be several sub-fields, comma separated. The data we actually want to save follows the third colon. Some systems put leading spaces in it - we discard those. */ if (sscanf(CS buffer + qlen, "%d , %d%n", &received_sender_port, &received_interface_port, &n) != 2 || received_sender_port != sender_host_port || received_interface_port != interface_port) goto END_OFF; p = buffer + qlen + n; while(isspace(*p)) p++; if (*p++ != ':') goto END_OFF; while(isspace(*p)) p++; if (Ustrncmp(p, "USERID", 6) != 0) goto END_OFF; p += 6; while(isspace(*p)) p++; if (*p++ != ':') goto END_OFF; while (*p != 0 && *p != ':') p++; if (*p++ == 0) goto END_OFF; while(isspace(*p)) p++; if (*p == 0) goto END_OFF; /* The rest of the line is the data we want. We turn it into printing characters when we save it, so that it cannot mess up the format of any logging or Received: lines into which it gets inserted. We keep a maximum of 127 characters. The deconst cast is ok as we fed a nonconst to string_printing() */ sender_ident = US string_printing(string_copyn(p, 127)); DEBUG(D_ident) debug_printf("sender_ident = %s\n", sender_ident); END_OFF: (void)close(ident_conn_ctx.sock); return; } /************************************************* * Match host to a single host-list item * *************************************************/ /* This function compares a host (name or address) against a single item from a host list. The host name gets looked up if it is needed and is not already known. The function is called from verify_check_this_host() via match_check_list(), which is why most of its arguments are in a single block. Arguments: arg the argument block (see below) ss the host-list item valueptr where to pass back looked up data, or NULL error for error message when returning ERROR The block contains: host_name (a) the host name, or (b) NULL, implying use sender_host_name and sender_host_aliases, looking them up if required, or (c) the empty string, meaning that only IP address matches are permitted host_address the host address host_ipv4 the IPv4 address taken from an IPv6 one Returns: OK matched FAIL did not match DEFER lookup deferred ERROR (a) failed to find the host name or IP address, or (b) unknown lookup type specified, or (c) host name encountered when only IP addresses are being matched */ int check_host(void *arg, const uschar *ss, const uschar **valueptr, uschar **error) { check_host_block *cb = (check_host_block *)arg; int mlen = -1; int maskoffset; BOOL iplookup = FALSE; BOOL isquery = FALSE; BOOL isiponly = cb->host_name != NULL && cb->host_name[0] == 0; const uschar *t; uschar *semicolon; uschar **aliases; /* Optimize for the special case when the pattern is "*". */ if (*ss == '*' && ss[1] == 0) return OK; /* If the pattern is empty, it matches only in the case when there is no host - this can occur in ACL checking for SMTP input using the -bs option. In this situation, the host address is the empty string. */ if (cb->host_address[0] == 0) return (*ss == 0)? OK : FAIL; if (*ss == 0) return FAIL; /* If the pattern is precisely "@" then match against the primary host name, provided that host name matching is permitted; if it's "@[]" match against the local host's IP addresses. */ if (*ss == '@') { if (ss[1] == 0) { if (isiponly) return ERROR; ss = primary_hostname; } else if (Ustrcmp(ss, "@[]") == 0) { ip_address_item *ip; for (ip = host_find_interfaces(); ip != NULL; ip = ip->next) if (Ustrcmp(ip->address, cb->host_address) == 0) return OK; return FAIL; } } /* If the pattern is an IP address, optionally followed by a bitmask count, do a (possibly masked) comparison with the current IP address. */ if (string_is_ip_address(ss, &maskoffset) != 0) return (host_is_in_net(cb->host_address, ss, maskoffset)? OK : FAIL); /* The pattern is not an IP address. A common error that people make is to omit one component of an IPv4 address, either by accident, or believing that, for example, 1.2.3/24 is the same as 1.2.3.0/24, or 1.2.3 is the same as 1.2.3.0, which it isn't. (Those applications that do accept 1.2.3 as an IP address interpret it as 1.2.0.3 because the final component becomes 16-bit - this is an ancient specification.) To aid in debugging these cases, we give a specific error if the pattern contains only digits and dots or contains a slash preceded only by digits and dots (a slash at the start indicates a file name and of course slashes may be present in lookups, but not preceded only by digits and dots). */ for (t = ss; isdigit(*t) || *t == '.'; t++); if (*t == 0 || (*t == '/' && t != ss)) { *error = US"malformed IPv4 address or address mask"; return ERROR; } /* See if there is a semicolon in the pattern */ semicolon = Ustrchr(ss, ';'); /* If we are doing an IP address only match, then all lookups must be IP address lookups, even if there is no "net-". */ if (isiponly) { iplookup = semicolon != NULL; } /* Otherwise, if the item is of the form net[n]-lookup; then it is a lookup on a masked IP network, in textual form. We obey this code even if we have already set iplookup, so as to skip over the "net-" prefix and to set the mask length. The net- stuff really only applies to single-key lookups where the key is implicit. For query-style lookups the key is specified in the query. From release 4.30, the use of net- for query style is no longer needed, but we retain it for backward compatibility. */ if (Ustrncmp(ss, "net", 3) == 0 && semicolon != NULL) { mlen = 0; for (t = ss + 3; isdigit(*t); t++) mlen = mlen * 10 + *t - '0'; if (mlen == 0 && t == ss+3) mlen = -1; /* No mask supplied */ iplookup = (*t++ == '-'); } else t = ss; /* Do the IP address lookup if that is indeed what we have */ if (iplookup) { int insize; int search_type; int incoming[4]; void *handle; uschar *filename, *key, *result; uschar buffer[64]; /* Find the search type */ search_type = search_findtype(t, semicolon - t); if (search_type < 0) log_write(0, LOG_MAIN|LOG_PANIC_DIE, "%s", search_error_message); /* Adjust parameters for the type of lookup. For a query-style lookup, there is no file name, and the "key" is just the query. For query-style with a file name, we have to fish the file off the start of the query. For a single-key lookup, the key is the current IP address, masked appropriately, and reconverted to text form, with the mask appended. For IPv6 addresses, specify dot separators instead of colons, except when the lookup type is "iplsearch". */ if (mac_islookup(search_type, lookup_absfilequery)) { filename = semicolon + 1; key = filename; while (*key != 0 && !isspace(*key)) key++; filename = string_copyn(filename, key - filename); while (isspace(*key)) key++; } else if (mac_islookup(search_type, lookup_querystyle)) { filename = NULL; key = semicolon + 1; } else /* Single-key style */ { int sep = (Ustrcmp(lookup_list[search_type]->name, "iplsearch") == 0)? ':' : '.'; insize = host_aton(cb->host_address, incoming); host_mask(insize, incoming, mlen); (void)host_nmtoa(insize, incoming, mlen, buffer, sep); key = buffer; filename = semicolon + 1; } /* Now do the actual lookup; note that there is no search_close() because of the caching arrangements. */ if (!(handle = search_open(filename, search_type, 0, NULL, NULL))) log_write(0, LOG_MAIN|LOG_PANIC_DIE, "%s", search_error_message); result = search_find(handle, filename, key, -1, NULL, 0, 0, NULL); if (valueptr) *valueptr = result; return result ? OK : f.search_find_defer ? DEFER: FAIL; } /* The pattern is not an IP address or network reference of any kind. That is, it is a host name pattern. If this is an IP only match, there's an error in the host list. */ if (isiponly) { *error = US"cannot match host name in match_ip list"; return ERROR; } /* Check the characters of the pattern to see if they comprise only letters, digits, full stops, and hyphens (the constituents of domain names). Allow underscores, as they are all too commonly found. Sigh. Also, if allow_utf8_domains is set, allow top-bit characters. */ for (t = ss; *t != 0; t++) if (!isalnum(*t) && *t != '.' && *t != '-' && *t != '_' && (!allow_utf8_domains || *t < 128)) break; /* If the pattern is a complete domain name, with no fancy characters, look up its IP address and match against that. Note that a multi-homed host will add items to the chain. */ if (*t == 0) { int rc; host_item h; h.next = NULL; h.name = ss; h.address = NULL; h.mx = MX_NONE; /* Using byname rather than bydns here means we cannot determine dnssec status. On the other hand it is unclear how that could be either propagated up or enforced. */ rc = host_find_byname(&h, NULL, HOST_FIND_QUALIFY_SINGLE, NULL, FALSE); if (rc == HOST_FOUND || rc == HOST_FOUND_LOCAL) { host_item *hh; for (hh = &h; hh != NULL; hh = hh->next) { if (host_is_in_net(hh->address, cb->host_address, 0)) return OK; } return FAIL; } if (rc == HOST_FIND_AGAIN) return DEFER; *error = string_sprintf("failed to find IP address for %s", ss); return ERROR; } /* Almost all subsequent comparisons require the host name, and can be done using the general string matching function. When this function is called for outgoing hosts, the name is always given explicitly. If it is NULL, it means we must use sender_host_name and its aliases, looking them up if necessary. */ if (cb->host_name != NULL) /* Explicit host name given */ return match_check_string(cb->host_name, ss, -1, TRUE, TRUE, TRUE, valueptr); /* Host name not given; in principle we need the sender host name and its aliases. However, for query-style lookups, we do not need the name if the query does not contain $sender_host_name. From release 4.23, a reference to $sender_host_name causes it to be looked up, so we don't need to do the lookup on spec. */ if ((semicolon = Ustrchr(ss, ';')) != NULL) { const uschar *affix; int partial, affixlen, starflags, id; *semicolon = 0; id = search_findtype_partial(ss, &partial, &affix, &affixlen, &starflags); *semicolon=';'; if (id < 0) /* Unknown lookup type */ { log_write(0, LOG_MAIN|LOG_PANIC, "%s in host list item \"%s\"", search_error_message, ss); return DEFER; } isquery = mac_islookup(id, lookup_querystyle|lookup_absfilequery); } if (isquery) { switch(match_check_string(US"", ss, -1, TRUE, TRUE, TRUE, valueptr)) { case OK: return OK; case DEFER: return DEFER; default: return FAIL; } } /* Not a query-style lookup; must ensure the host name is present, and then we do a check on the name and all its aliases. */ if (!sender_host_name) { HDEBUG(D_host_lookup) debug_printf("sender host name required, to match against %s\n", ss); if (host_lookup_failed || host_name_lookup() != OK) { *error = string_sprintf("failed to find host name for %s", sender_host_address);; return ERROR; } host_build_sender_fullhost(); } /* Match on the sender host name, using the general matching function */ switch(match_check_string(sender_host_name, ss, -1, TRUE, TRUE, TRUE, valueptr)) { case OK: return OK; case DEFER: return DEFER; } /* If there are aliases, try matching on them. */ aliases = sender_host_aliases; while (*aliases) switch(match_check_string(*aliases++, ss, -1, TRUE, TRUE, TRUE, valueptr)) { case OK: return OK; case DEFER: return DEFER; } return FAIL; } /************************************************* * Check a specific host matches a host list * *************************************************/ /* This function is passed a host list containing items in a number of different formats and the identity of a host. Its job is to determine whether the given host is in the set of hosts defined by the list. The host name is passed as a pointer so that it can be looked up if needed and not already known. This is commonly the case when called from verify_check_host() to check an incoming connection. When called from elsewhere the host name should usually be set. This function is now just a front end to match_check_list(), which runs common code for scanning a list. We pass it the check_host() function to perform a single test. Arguments: listptr pointer to the host list cache_bits pointer to cache for named lists, or NULL host_name the host name or NULL, implying use sender_host_name and sender_host_aliases, looking them up if required host_address the IP address valueptr if not NULL, data from a lookup is passed back here Returns: OK if the host is in the defined set FAIL if the host is not in the defined set, DEFER if a data lookup deferred (not a host lookup) If the host name was needed in order to make a comparison, and could not be determined from the IP address, the result is FAIL unless the item "+allow_unknown" was met earlier in the list, in which case OK is returned. */ int verify_check_this_host(const uschar **listptr, unsigned int *cache_bits, const uschar *host_name, const uschar *host_address, const uschar **valueptr) { int rc; unsigned int *local_cache_bits = cache_bits; const uschar *save_host_address = deliver_host_address; check_host_block cb = { .host_name = host_name, .host_address = host_address }; if (valueptr) *valueptr = NULL; /* If the host address starts off ::ffff: it is an IPv6 address in IPv4-compatible mode. Find the IPv4 part for checking against IPv4 addresses. */ cb.host_ipv4 = Ustrncmp(host_address, "::ffff:", 7) == 0 ? host_address + 7 : host_address; /* During the running of the check, put the IP address into $host_address. In the case of calls from the smtp transport, it will already be there. However, in other calls (e.g. when testing ignore_target_hosts), it won't. Just to be on the safe side, any existing setting is preserved, though as I write this (November 2004) I can't see any cases where it is actually needed. */ deliver_host_address = host_address; rc = match_check_list( listptr, /* the list */ 0, /* separator character */ &hostlist_anchor, /* anchor pointer */ &local_cache_bits, /* cache pointer */ check_host, /* function for testing */ &cb, /* argument for function */ MCL_HOST, /* type of check */ (host_address == sender_host_address)? US"host" : host_address, /* text for debugging */ valueptr); /* where to pass back data */ deliver_host_address = save_host_address; return rc; } /************************************************* * Check the given host item matches a list * *************************************************/ int verify_check_given_host(const uschar **listptr, const host_item *host) { return verify_check_this_host(listptr, NULL, host->name, host->address, NULL); } /************************************************* * Check the remote host matches a list * *************************************************/ /* This is a front end to verify_check_this_host(), created because checking the remote host is a common occurrence. With luck, a good compiler will spot the tail recursion and optimize it. If there's no host address, this is command-line SMTP input - check against an empty string for the address. Arguments: listptr pointer to the host list Returns: the yield of verify_check_this_host(), i.e. OK, FAIL, or DEFER */ int verify_check_host(uschar **listptr) { return verify_check_this_host(CUSS listptr, sender_host_cache, NULL, (sender_host_address == NULL)? US"" : sender_host_address, NULL); } /************************************************* * Invert an IP address * *************************************************/ /* Originally just used for DNS xBL lists, now also used for the reverse_ip expansion operator. Arguments: buffer where to put the answer address the address to invert */ void invert_address(uschar *buffer, uschar *address) { int bin[4]; uschar *bptr = buffer; /* If this is an IPv4 address mapped into IPv6 format, adjust the pointer to the IPv4 part only. */ if (Ustrncmp(address, "::ffff:", 7) == 0) address += 7; /* Handle IPv4 address: when HAVE_IPV6 is false, the result of host_aton() is always 1. */ if (host_aton(address, bin) == 1) { int i; int x = bin[0]; for (i = 0; i < 4; i++) { sprintf(CS bptr, "%d.", x & 255); while (*bptr) bptr++; x >>= 8; } } /* Handle IPv6 address. Actually, as far as I know, there are no IPv6 addresses in any DNS black lists, and the format in which they will be looked up is unknown. This is just a guess. */ #if HAVE_IPV6 else { int i, j; for (j = 3; j >= 0; j--) { int x = bin[j]; for (i = 0; i < 8; i++) { sprintf(CS bptr, "%x.", x & 15); while (*bptr) bptr++; x >>= 4; } } } #endif /* Remove trailing period -- this is needed so that both arbitrary dnsbl keydomains and inverted addresses may be combined with the same format string, "%s.%s" */ *(--bptr) = 0; } /************************************************* * Perform a single dnsbl lookup * *************************************************/ /* This function is called from verify_check_dnsbl() below. It is also called recursively from within itself when domain and domain_txt are different pointers, in order to get the TXT record from the alternate domain. Arguments: domain the outer dnsbl domain domain_txt alternate domain to lookup TXT record on success; when the same domain is to be used, domain_txt == domain (that is, the pointers must be identical, not just the text) keydomain the current keydomain (for debug message) prepend subdomain to lookup (like keydomain, but reversed if IP address) iplist the list of matching IP addresses, or NULL for "any" bitmask true if bitmask matching is wanted match_type condition for 'succeed' result 0 => Any RR in iplist (=) 1 => No RR in iplist (!=) 2 => All RRs in iplist (==) 3 => Some RRs not in iplist (!==) the two bits are defined as MT_NOT and MT_ALL defer_return what to return for a defer Returns: OK if lookup succeeded FAIL if not */ static int one_check_dnsbl(uschar *domain, uschar *domain_txt, uschar *keydomain, uschar *prepend, uschar *iplist, BOOL bitmask, int match_type, int defer_return) { dns_answer dnsa; dns_scan dnss; tree_node *t; dnsbl_cache_block *cb; int old_pool = store_pool; uschar query[256]; /* DNS domain max length */ /* Construct the specific query domainname */ if (!string_format(query, sizeof(query), "%s.%s", prepend, domain)) { log_write(0, LOG_MAIN|LOG_PANIC, "dnslist query is too long " "(ignored): %s...", query); return FAIL; } /* Look for this query in the cache. */ if ( (t = tree_search(dnsbl_cache, query)) && (cb = t->data.ptr)->expiry > time(NULL) ) /* Previous lookup was cached */ { HDEBUG(D_dnsbl) debug_printf("using result of previous DNS lookup\n"); } /* If not cached from a previous lookup, we must do a DNS lookup, and cache the result in permanent memory. */ else { uint ttl = 3600; store_pool = POOL_PERM; if (t) { HDEBUG(D_dnsbl) debug_printf("cached data found but past valid time; "); } else { /* Set up a tree entry to cache the lookup */ t = store_get(sizeof(tree_node) + Ustrlen(query)); Ustrcpy(t->name, query); t->data.ptr = cb = store_get(sizeof(dnsbl_cache_block)); (void)tree_insertnode(&dnsbl_cache, t); } /* Do the DNS lookup . */ HDEBUG(D_dnsbl) debug_printf("new DNS lookup for %s\n", query); cb->rc = dns_basic_lookup(&dnsa, query, T_A); cb->text_set = FALSE; cb->text = NULL; cb->rhs = NULL; /* If the lookup succeeded, cache the RHS address. The code allows for more than one address - this was for complete generality and the possible use of A6 records. However, A6 records are no longer supported. Leave the code here, just in case. Quite apart from one A6 RR generating multiple addresses, there are DNS lists that return more than one A record, so we must handle multiple addresses generated in that way as well. Mark the cache entry with the "now" plus the minimum of the address TTLs, or some suitably far-future time if none were found. */ if (cb->rc == DNS_SUCCEED) { dns_record *rr; dns_address **addrp = &(cb->rhs); for (rr = dns_next_rr(&dnsa, &dnss, RESET_ANSWERS); rr; rr = dns_next_rr(&dnsa, &dnss, RESET_NEXT)) if (rr->type == T_A) { dns_address *da = dns_address_from_rr(&dnsa, rr); if (da) { *addrp = da; while (da->next) da = da->next; addrp = &da->next; if (ttl > rr->ttl) ttl = rr->ttl; } } /* If we didn't find any A records, change the return code. This can happen when there is a CNAME record but there are no A records for what it points to. */ if (!cb->rhs) cb->rc = DNS_NODATA; } cb->expiry = time(NULL)+ttl; store_pool = old_pool; } /* We now have the result of the DNS lookup, either newly done, or cached from a previous call. If the lookup succeeded, check against the address list if there is one. This may be a positive equality list (introduced by "="), a negative equality list (introduced by "!="), a positive bitmask list (introduced by "&"), or a negative bitmask list (introduced by "!&").*/ if (cb->rc == DNS_SUCCEED) { dns_address *da = NULL; uschar *addlist = cb->rhs->address; /* For A and AAAA records, there may be multiple addresses from multiple records. For A6 records (currently not expected to be used) there may be multiple addresses from a single record. */ for (da = cb->rhs->next; da; da = da->next) addlist = string_sprintf("%s, %s", addlist, da->address); HDEBUG(D_dnsbl) debug_printf("DNS lookup for %s succeeded (yielding %s)\n", query, addlist); /* Address list check; this can be either for equality, or via a bitmask. In the latter case, all the bits must match. */ if (iplist) { for (da = cb->rhs; da; da = da->next) { int ipsep = ','; uschar ip[46]; const uschar *ptr = iplist; uschar *res; /* Handle exact matching */ if (!bitmask) { while ((res = string_nextinlist(&ptr, &ipsep, ip, sizeof(ip)))) if (Ustrcmp(CS da->address, ip) == 0) break; } /* Handle bitmask matching */ else { int address[4]; int mask = 0; /* At present, all known DNS blocking lists use A records, with IPv4 addresses on the RHS encoding the information they return. I wonder if this will linger on as the last vestige of IPv4 when IPv6 is ubiquitous? Anyway, for now we use paranoia code to completely ignore IPv6 addresses. The default mask is 0, which always matches. We change this only for IPv4 addresses in the list. */ if (host_aton(da->address, address) == 1) mask = address[0]; /* Scan the returned addresses, skipping any that are IPv6 */ while ((res = string_nextinlist(&ptr, &ipsep, ip, sizeof(ip)))) { if (host_aton(ip, address) != 1) continue; if ((address[0] & mask) == address[0]) break; } } /* If either (a) An IP address in an any ('=') list matched, or (b) No IP address in an all ('==') list matched then we're done searching. */ if (((match_type & MT_ALL) != 0) == (res == NULL)) break; } /* If da == NULL, either (a) No IP address in an any ('=') list matched, or (b) An IP address in an all ('==') list didn't match so behave as if the DNSBL lookup had not succeeded, i.e. the host is not on the list. */ if ((match_type == MT_NOT || match_type == MT_ALL) != (da == NULL)) { HDEBUG(D_dnsbl) { uschar *res = NULL; switch(match_type) { case 0: res = US"was no match"; break; case MT_NOT: res = US"was an exclude match"; break; case MT_ALL: res = US"was an IP address that did not match"; break; case MT_NOT|MT_ALL: res = US"were no IP addresses that did not match"; break; } debug_printf("=> but we are not accepting this block class because\n"); debug_printf("=> there %s for %s%c%s\n", res, ((match_type & MT_ALL) == 0)? "" : "=", bitmask? '&' : '=', iplist); } return FAIL; } } /* Either there was no IP list, or the record matched, implying that the domain is on the list. We now want to find a corresponding TXT record. If an alternate domain is specified for the TXT record, call this function recursively to look that up; this has the side effect of re-checking that there is indeed an A record at the alternate domain. */ if (domain_txt != domain) return one_check_dnsbl(domain_txt, domain_txt, keydomain, prepend, NULL, FALSE, match_type, defer_return); /* If there is no alternate domain, look up a TXT record in the main domain if it has not previously been cached. */ if (!cb->text_set) { cb->text_set = TRUE; if (dns_basic_lookup(&dnsa, query, T_TXT) == DNS_SUCCEED) { dns_record *rr; for (rr = dns_next_rr(&dnsa, &dnss, RESET_ANSWERS); rr; rr = dns_next_rr(&dnsa, &dnss, RESET_NEXT)) if (rr->type == T_TXT) break; if (rr) { int len = (rr->data)[0]; if (len > 511) len = 127; store_pool = POOL_PERM; cb->text = string_sprintf("%.*s", len, CUS (rr->data+1)); store_pool = old_pool; } } } dnslist_value = addlist; dnslist_text = cb->text; return OK; } /* There was a problem with the DNS lookup */ if (cb->rc != DNS_NOMATCH && cb->rc != DNS_NODATA) { log_write(L_dnslist_defer, LOG_MAIN, "DNS list lookup defer (probably timeout) for %s: %s", query, (defer_return == OK)? US"assumed in list" : (defer_return == FAIL)? US"assumed not in list" : US"returned DEFER"); return defer_return; } /* No entry was found in the DNS; continue for next domain */ HDEBUG(D_dnsbl) { debug_printf("DNS lookup for %s failed\n", query); debug_printf("=> that means %s is not listed at %s\n", keydomain, domain); } return FAIL; } /************************************************* * Check host against DNS black lists * *************************************************/ /* This function runs checks against a list of DNS black lists, until one matches. Each item on the list can be of the form domain=ip-address/key The domain is the right-most domain that is used for the query, for example, blackholes.mail-abuse.org. If the IP address is present, there is a match only if the DNS lookup returns a matching IP address. Several addresses may be given, comma-separated, for example: x.y.z=127.0.0.1,127.0.0.2. If no key is given, what is looked up in the domain is the inverted IP address of the current client host. If a key is given, it is used to construct the domain for the lookup. For example: dsn.rfc-ignorant.org/$sender_address_domain After finding a match in the DNS, the domain is placed in $dnslist_domain, and then we check for a TXT record for an error message, and if found, save its value in $dnslist_text. We also cache everything in a tree, to optimize multiple lookups. The TXT record is normally looked up in the same domain as the A record, but when many lists are combined in a single DNS domain, this will not be a very specific message. It is possible to specify a different domain for looking up TXT records; this is given before the main domain, comma-separated. For example: dnslists = http.dnsbl.sorbs.net,dnsbl.sorbs.net=127.0.0.2 : \ socks.dnsbl.sorbs.net,dnsbl.sorbs.net=127.0.0.3 The caching ensures that only one lookup in dnsbl.sorbs.net is done. Note: an address for testing RBL is 192.203.178.39 Note: an address for testing DUL is 192.203.178.4 Note: a domain for testing RFCI is example.tld.dsn.rfc-ignorant.org Arguments: where the acl type listptr the domain/address/data list log_msgptr log message on error Returns: OK successful lookup (i.e. the address is on the list), or lookup deferred after +include_unknown FAIL name not found, or no data found for the given type, or lookup deferred after +exclude_unknown (default) DEFER lookup failure, if +defer_unknown was set */ int verify_check_dnsbl(int where, const uschar ** listptr, uschar ** log_msgptr) { int sep = 0; int defer_return = FAIL; const uschar *list = *listptr; uschar *domain; uschar *s; uschar buffer[1024]; uschar revadd[128]; /* Long enough for IPv6 address */ /* Indicate that the inverted IP address is not yet set up */ revadd[0] = 0; /* In case this is the first time the DNS resolver is being used. */ dns_init(FALSE, FALSE, FALSE); /*XXX dnssec? */ /* Loop through all the domains supplied, until something matches */ while ((domain = string_nextinlist(&list, &sep, buffer, sizeof(buffer))) != NULL) { int rc; BOOL bitmask = FALSE; int match_type = 0; uschar *domain_txt; uschar *comma; uschar *iplist; uschar *key; HDEBUG(D_dnsbl) debug_printf("DNS list check: %s\n", domain); /* Deal with special values that change the behaviour on defer */ if (domain[0] == '+') { if (strcmpic(domain, US"+include_unknown") == 0) defer_return = OK; else if (strcmpic(domain, US"+exclude_unknown") == 0) defer_return = FAIL; else if (strcmpic(domain, US"+defer_unknown") == 0) defer_return = DEFER; else log_write(0, LOG_MAIN|LOG_PANIC, "unknown item in dnslist (ignored): %s", domain); continue; } /* See if there's explicit data to be looked up */ if ((key = Ustrchr(domain, '/'))) *key++ = 0; /* See if there's a list of addresses supplied after the domain name. This is introduced by an = or a & character; if preceded by = we require all matches and if preceded by ! we invert the result. */ if (!(iplist = Ustrchr(domain, '='))) { bitmask = TRUE; iplist = Ustrchr(domain, '&'); } if (iplist) /* Found either = or & */ { if (iplist > domain && iplist[-1] == '!') /* Handle preceding ! */ { match_type |= MT_NOT; iplist[-1] = 0; } *iplist++ = 0; /* Terminate domain, move on */ /* If we found = (bitmask == FALSE), check for == or =& */ if (!bitmask && (*iplist == '=' || *iplist == '&')) { bitmask = *iplist++ == '&'; match_type |= MT_ALL; } } /* If there is a comma in the domain, it indicates that a second domain for looking up TXT records is provided, before the main domain. Otherwise we must set domain_txt == domain. */ domain_txt = domain; comma = Ustrchr(domain, ','); if (comma != NULL) { *comma++ = 0; domain = comma; } /* Check that what we have left is a sensible domain name. There is no reason why these domains should in fact use the same syntax as hosts and email domains, but in practice they seem to. However, there is little point in actually causing an error here, because that would no doubt hold up incoming mail. Instead, I'll just log it. */ for (s = domain; *s != 0; s++) { if (!isalnum(*s) && *s != '-' && *s != '.' && *s != '_') { log_write(0, LOG_MAIN, "dnslists domain \"%s\" contains " "strange characters - is this right?", domain); break; } } /* Check the alternate domain if present */ if (domain_txt != domain) for (s = domain_txt; *s != 0; s++) { if (!isalnum(*s) && *s != '-' && *s != '.' && *s != '_') { log_write(0, LOG_MAIN, "dnslists domain \"%s\" contains " "strange characters - is this right?", domain_txt); break; } } /* If there is no key string, construct the query by adding the domain name onto the inverted host address, and perform a single DNS lookup. */ if (key == NULL) { if (where == ACL_WHERE_NOTSMTP_START || where == ACL_WHERE_NOTSMTP) { *log_msgptr = string_sprintf ("cannot test auto-keyed dnslists condition in %s ACL", acl_wherenames[where]); return ERROR; } if (sender_host_address == NULL) return FAIL; /* can never match */ if (revadd[0] == 0) invert_address(revadd, sender_host_address); rc = one_check_dnsbl(domain, domain_txt, sender_host_address, revadd, iplist, bitmask, match_type, defer_return); if (rc == OK) { dnslist_domain = string_copy(domain_txt); dnslist_matched = string_copy(sender_host_address); HDEBUG(D_dnsbl) debug_printf("=> that means %s is listed at %s\n", sender_host_address, dnslist_domain); } if (rc != FAIL) return rc; /* OK or DEFER */ } /* If there is a key string, it can be a list of domains or IP addresses to be concatenated with the main domain. */ else { int keysep = 0; BOOL defer = FALSE; uschar *keydomain; uschar keybuffer[256]; uschar keyrevadd[128]; while ((keydomain = string_nextinlist(CUSS &key, &keysep, keybuffer, sizeof(keybuffer))) != NULL) { uschar *prepend = keydomain; if (string_is_ip_address(keydomain, NULL) != 0) { invert_address(keyrevadd, keydomain); prepend = keyrevadd; } rc = one_check_dnsbl(domain, domain_txt, keydomain, prepend, iplist, bitmask, match_type, defer_return); if (rc == OK) { dnslist_domain = string_copy(domain_txt); dnslist_matched = string_copy(keydomain); HDEBUG(D_dnsbl) debug_printf("=> that means %s is listed at %s\n", keydomain, dnslist_domain); return OK; } /* If the lookup deferred, remember this fact. We keep trying the rest of the list to see if we get a useful result, and if we don't, we return DEFER at the end. */ if (rc == DEFER) defer = TRUE; } /* continue with next keystring domain/address */ if (defer) return DEFER; } } /* continue with next dnsdb outer domain */ return FAIL; } /* vi: aw ai sw=2 */ /* End of verify.c */