/************************************************* * Exim - an Internet mail transport agent * *************************************************/ /* SPF support. Copyright (c) Tom Kistner 2004 - 2014 License: GPL Copyright (c) The Exim Maintainers 2015 - 2020 */ /* Code for calling spf checks via libspf-alt. Called from acl.c. */ #include "exim.h" #ifdef SUPPORT_SPF /* must be kept in numeric order */ static spf_result_id spf_result_id_list[] = { /* name value */ { US"invalid", 0}, { US"neutral", 1 }, { US"pass", 2 }, { US"fail", 3 }, { US"softfail", 4 }, { US"none", 5 }, { US"temperror", 6 }, /* RFC 4408 defined */ { US"permerror", 7 } /* RFC 4408 defined */ }; SPF_server_t *spf_server = NULL; SPF_request_t *spf_request = NULL; SPF_response_t *spf_response = NULL; SPF_response_t *spf_response_2mx = NULL; SPF_dns_rr_t * spf_nxdomain = NULL; void spf_lib_version_report(FILE * fp) { int maj, min, patch; SPF_get_lib_version(&maj, &min, &patch); fprintf(fp, "Library version: spf2: Compile: %d.%d.%d\n", SPF_LIB_VERSION_MAJOR, SPF_LIB_VERSION_MINOR, SPF_LIB_VERSION_PATCH); fprintf(fp, " Runtime: %d.%d.%d\n", maj, min, patch); } static SPF_dns_rr_t * SPF_dns_exim_lookup(SPF_dns_server_t *spf_dns_server, const char *domain, ns_type rr_type, int should_cache) { dns_answer * dnsa = store_get_dns_answer(); dns_scan dnss; SPF_dns_rr_t * spfrr; unsigned found = 0; SPF_dns_rr_t srr = { .domain = CS domain, /* query information */ .domain_buf_len = 0, .rr_type = rr_type, .rr_buf_len = 0, /* answer information */ .rr_buf_num = 0, /* no free of s */ .utc_ttl = 0, .hook = NULL, /* misc information */ .source = spf_dns_server }; int dns_rc; DEBUG(D_receive) debug_printf("SPF_dns_exim_lookup '%s'\n", domain); /* Shortcircuit SPF RR lookups by returning NO_DATA. They were obsoleted by RFC 6686/7208 years ago. see bug #1294 */ if (rr_type == T_SPF) { HDEBUG(D_host_lookup) debug_printf("faking NO_DATA for SPF RR(99) lookup\n"); srr.herrno = NO_DATA; SPF_dns_rr_dup(&spfrr, &srr); return spfrr; } switch (dns_rc = dns_lookup(dnsa, US domain, rr_type, NULL)) { case DNS_SUCCEED: srr.herrno = NETDB_SUCCESS; break; case DNS_AGAIN: srr.herrno = TRY_AGAIN; break; case DNS_NOMATCH: srr.herrno = HOST_NOT_FOUND; break; case DNS_NODATA: srr.herrno = NO_DATA; break; case DNS_FAIL: default: srr.herrno = NO_RECOVERY; break; } for (dns_record * rr = dns_next_rr(dnsa, &dnss, RESET_ANSWERS); rr; rr = dns_next_rr(dnsa, &dnss, RESET_NEXT)) if (rr->type == rr_type) found++; if (found == 0) { SPF_dns_rr_dup(&spfrr, &srr); return spfrr; } srr.rr = store_malloc(sizeof(SPF_dns_rr_data_t) * found); found = 0; for (dns_record * rr = dns_next_rr(dnsa, &dnss, RESET_ANSWERS); rr; rr = dns_next_rr(dnsa, &dnss, RESET_NEXT)) if (rr->type == rr_type) { const uschar * s = rr->data; srr.ttl = rr->ttl; switch(rr_type) { case T_MX: s += 2; /* skip the MX precedence field */ case T_PTR: { uschar * buf = store_malloc(256); (void)dn_expand(dnsa->answer, dnsa->answer + dnsa->answerlen, s, (DN_EXPAND_ARG4_TYPE)buf, 256); s = buf; break; } case T_TXT: { gstring * g = NULL; uschar chunk_len; if (strncmpic(rr->data+1, US SPF_VER_STR, 6) != 0) { HDEBUG(D_host_lookup) debug_printf("not an spf record: %.*s\n", (int) s[0], s+1); continue; } for (int off = 0; off < rr->size; off += chunk_len) { if (!(chunk_len = s[off++])) break; g = string_catn(g, s+off, chunk_len); } if (!g) continue; gstring_release_unused(g); s = string_copy_malloc(string_from_gstring(g)); DEBUG(D_receive) debug_printf("SPF_dns_exim_lookup '%s'\n", s); break; } case T_A: case T_AAAA: default: { uschar * buf = store_malloc(dnsa->answerlen + 1); s = memcpy(buf, s, dnsa->answerlen + 1); break; } } srr.rr[found++] = (void *) s; } /* Did we filter out all TXT RRs? Return NO_DATA instead of SUCCESS with empty ANSWER section. */ if (!(srr.num_rr = found)) srr.herrno = NO_DATA; /* spfrr->rr must have been malloc()d for this */ SPF_dns_rr_dup(&spfrr, &srr); return spfrr; } SPF_dns_server_t * SPF_dns_exim_new(int debug) { SPF_dns_server_t * spf_dns_server = store_malloc(sizeof(SPF_dns_server_t)); DEBUG(D_receive) debug_printf("SPF_dns_exim_new\n"); memset(spf_dns_server, 0, sizeof(SPF_dns_server_t)); spf_dns_server->destroy = NULL; spf_dns_server->lookup = SPF_dns_exim_lookup; spf_dns_server->get_spf = NULL; spf_dns_server->get_exp = NULL; spf_dns_server->add_cache = NULL; spf_dns_server->layer_below = NULL; spf_dns_server->name = "exim"; spf_dns_server->debug = debug; /* XXX This might have to return NO_DATA sometimes. */ spf_nxdomain = SPF_dns_rr_new_init(spf_dns_server, "", ns_t_any, 24 * 60 * 60, HOST_NOT_FOUND); if (!spf_nxdomain) { free(spf_dns_server); return NULL; } return spf_dns_server; } /* Construct the SPF library stack. Return: Boolean success. */ BOOL spf_init(void) { SPF_dns_server_t * dc; int debug = 0; DEBUG(D_receive) debug = 1; /* We insert our own DNS access layer rather than letting the spf library do it, so that our dns access path is used for debug tracing and for the testsuite. */ if (!(dc = SPF_dns_exim_new(debug))) { DEBUG(D_receive) debug_printf("spf: SPF_dns_exim_new() failed\n"); return FALSE; } if (!(dc = SPF_dns_cache_new(dc, NULL, debug, 8))) { DEBUG(D_receive) debug_printf("spf: SPF_dns_cache_new() failed\n"); return FALSE; } if (!(spf_server = SPF_server_new_dns(dc, debug))) { DEBUG(D_receive) debug_printf("spf: SPF_server_new() failed.\n"); return FALSE; } /* Quick hack to override the outdated explanation URL. See https://www.mail-archive.com/mailop@mailop.org/msg08019.html */ SPF_server_set_explanation(spf_server, "Please%_see%_http://www.open-spf.org/Why?id=%{S}&ip=%{C}&receiver=%{R}", &spf_response); if (SPF_response_errcode(spf_response) != SPF_E_SUCCESS) log_write(0, LOG_MAIN|LOG_PANIC_DIE, "%s", SPF_strerror(SPF_response_errcode(spf_response))); return TRUE; } /* Set up a context that can be re-used for several messages on the same SMTP connection (that come from the same host with the same HELO string). Return: Boolean success */ BOOL spf_conn_init(uschar * spf_helo_domain, uschar * spf_remote_addr) { DEBUG(D_receive) debug_printf("spf_conn_init: %s %s\n", spf_helo_domain, spf_remote_addr); if (!spf_server && !spf_init()) return FALSE; if (SPF_server_set_rec_dom(spf_server, CS primary_hostname)) { DEBUG(D_receive) debug_printf("spf: SPF_server_set_rec_dom(\"%s\") failed.\n", primary_hostname); spf_server = NULL; return FALSE; } spf_request = SPF_request_new(spf_server); if ( SPF_request_set_ipv4_str(spf_request, CS spf_remote_addr) && SPF_request_set_ipv6_str(spf_request, CS spf_remote_addr) ) { DEBUG(D_receive) debug_printf("spf: SPF_request_set_ipv4_str() and " "SPF_request_set_ipv6_str() failed [%s]\n", spf_remote_addr); spf_server = NULL; spf_request = NULL; return FALSE; } if (SPF_request_set_helo_dom(spf_request, CS spf_helo_domain)) { DEBUG(D_receive) debug_printf("spf: SPF_set_helo_dom(\"%s\") failed.\n", spf_helo_domain); spf_server = NULL; spf_request = NULL; return FALSE; } return TRUE; } void spf_response_debug(SPF_response_t * spf_response) { if (SPF_response_messages(spf_response) == 0) debug_printf(" (no errors)\n"); else for (int i = 0; i < SPF_response_messages(spf_response); i++) { SPF_error_t * err = SPF_response_message(spf_response, i); debug_printf( "%s_msg = (%d) %s\n", (SPF_error_errorp(err) ? "warn" : "err"), SPF_error_code(err), SPF_error_message(err)); } } /* spf_process adds the envelope sender address to the existing context (if any), retrieves the result, sets up expansion strings and evaluates the condition outcome. Return: OK/FAIL */ int spf_process(const uschar **listptr, uschar *spf_envelope_sender, int action) { int sep = 0; const uschar *list = *listptr; uschar *spf_result_id; int rc = SPF_RESULT_PERMERROR; DEBUG(D_receive) debug_printf("spf_process\n"); if (!(spf_server && spf_request)) /* no global context, assume temp error and skip to evaluation */ rc = SPF_RESULT_PERMERROR; else if (SPF_request_set_env_from(spf_request, CS spf_envelope_sender)) /* Invalid sender address. This should be a real rare occurrence */ rc = SPF_RESULT_PERMERROR; else { /* get SPF result */ if (action == SPF_PROCESS_FALLBACK) { SPF_request_query_fallback(spf_request, &spf_response, CS spf_guess); spf_result_guessed = TRUE; } else SPF_request_query_mailfrom(spf_request, &spf_response); /* set up expansion items */ spf_header_comment = US SPF_response_get_header_comment(spf_response); spf_received = US SPF_response_get_received_spf(spf_response); spf_result = US SPF_strresult(SPF_response_result(spf_response)); spf_smtp_comment = US SPF_response_get_smtp_comment(spf_response); rc = SPF_response_result(spf_response); DEBUG(D_acl) spf_response_debug(spf_response); } /* We got a result. Now see if we should return OK or FAIL for it */ DEBUG(D_acl) debug_printf("SPF result is %s (%d)\n", SPF_strresult(rc), rc); if (action == SPF_PROCESS_GUESS && (!strcmp (SPF_strresult(rc), "none"))) return spf_process(listptr, spf_envelope_sender, SPF_PROCESS_FALLBACK); while ((spf_result_id = string_nextinlist(&list, &sep, NULL, 0))) { BOOL negate, result; if ((negate = spf_result_id[0] == '!')) spf_result_id++; result = Ustrcmp(spf_result_id, spf_result_id_list[rc].name) == 0; if (negate != result) return OK; } /* no match */ return FAIL; } gstring * authres_spf(gstring * g) { uschar * s; if (!spf_result) return g; g = string_append(g, 2, US";\n\tspf=", spf_result); if (spf_result_guessed) g = string_cat(g, US" (best guess record for domain)"); s = expand_string(US"$sender_address_domain"); return s && *s ? string_append(g, 2, US" smtp.mailfrom=", s) : string_cat(g, US" smtp.mailfrom=<>"); } #endif