/* Licensed to the Apache Software Foundation (ASF) under one or more * contributor license agreements. See the NOTICE file distributed with * this work for additional information regarding copyright ownership. * The ASF licenses this file to You under the Apache License, Version 2.0 * (the "License"); you may not use this file except in compliance with * the License. You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ /* _ _ * _ __ ___ ___ __| | ___ ___| | mod_ssl * | '_ ` _ \ / _ \ / _` | / __/ __| | Apache Interface to OpenSSL * | | | | | | (_) | (_| | \__ \__ \ | * |_| |_| |_|\___/ \__,_|___|___/___/_| * |_____| * ssl_engine_vars.c * Variable Lookup Facility */ /* ``Those of you who think they know everything are very annoying to those of us who do.'' -- Unknown */ #include "ssl_private.h" #include "mod_ssl.h" #include "apr_time.h" /* _________________________________________________________________ ** ** Variable Lookup ** _________________________________________________________________ */ static char *ssl_var_lookup_ssl(apr_pool_t *p, conn_rec *c, char *var); static char *ssl_var_lookup_ssl_cert(apr_pool_t *p, X509 *xs, char *var); static char *ssl_var_lookup_ssl_cert_dn(apr_pool_t *p, X509_NAME *xsname, char *var); static char *ssl_var_lookup_ssl_cert_valid(apr_pool_t *p, ASN1_UTCTIME *tm); static char *ssl_var_lookup_ssl_cert_remain(apr_pool_t *p, ASN1_UTCTIME *tm); static char *ssl_var_lookup_ssl_cert_serial(apr_pool_t *p, X509 *xs); static char *ssl_var_lookup_ssl_cert_chain(apr_pool_t *p, STACK_OF(X509) *sk, char *var); static char *ssl_var_lookup_ssl_cert_PEM(apr_pool_t *p, X509 *xs); static char *ssl_var_lookup_ssl_cert_verify(apr_pool_t *p, conn_rec *c); static char *ssl_var_lookup_ssl_cipher(apr_pool_t *p, conn_rec *c, char *var); static void ssl_var_lookup_ssl_cipher_bits(SSL *ssl, int *usekeysize, int *algkeysize); static char *ssl_var_lookup_ssl_version(apr_pool_t *p, char *var); static char *ssl_var_lookup_ssl_compress_meth(SSL *ssl); static int ssl_is_https(conn_rec *c) { SSLConnRec *sslconn = myConnConfig(c); return sslconn && sslconn->ssl; } void ssl_var_register(void) { APR_REGISTER_OPTIONAL_FN(ssl_is_https); APR_REGISTER_OPTIONAL_FN(ssl_var_lookup); APR_REGISTER_OPTIONAL_FN(ssl_ext_list); return; } /* This function must remain safe to use for a non-SSL connection. */ char *ssl_var_lookup(apr_pool_t *p, server_rec *s, conn_rec *c, request_rec *r, char *var) { SSLModConfigRec *mc = myModConfig(s); const char *result; BOOL resdup; apr_time_exp_t tm; result = NULL; resdup = TRUE; /* * When no pool is given try to find one */ if (p == NULL) { if (r != NULL) p = r->pool; else if (c != NULL) p = c->pool; else p = mc->pPool; } /* * Request dependent stuff */ if (r != NULL) { switch (var[0]) { case 'H': case 'h': if (strcEQ(var, "HTTP_USER_AGENT")) result = apr_table_get(r->headers_in, "User-Agent"); else if (strcEQ(var, "HTTP_REFERER")) result = apr_table_get(r->headers_in, "Referer"); else if (strcEQ(var, "HTTP_COOKIE")) result = apr_table_get(r->headers_in, "Cookie"); else if (strcEQ(var, "HTTP_FORWARDED")) result = apr_table_get(r->headers_in, "Forwarded"); else if (strcEQ(var, "HTTP_HOST")) result = apr_table_get(r->headers_in, "Host"); else if (strcEQ(var, "HTTP_PROXY_CONNECTION")) result = apr_table_get(r->headers_in, "Proxy-Connection"); else if (strcEQ(var, "HTTP_ACCEPT")) result = apr_table_get(r->headers_in, "Accept"); else if (strlen(var) > 5 && strcEQn(var, "HTTP:", 5)) /* all other headers from which we are still not know about */ result = apr_table_get(r->headers_in, var+5); break; case 'R': case 'r': if (strcEQ(var, "REQUEST_METHOD")) result = r->method; else if (strcEQ(var, "REQUEST_SCHEME")) result = ap_http_scheme(r); else if (strcEQ(var, "REQUEST_URI")) result = r->uri; else if (strcEQ(var, "REQUEST_FILENAME")) result = r->filename; else if (strcEQ(var, "REMOTE_HOST")) result = ap_get_remote_host(r->connection, r->per_dir_config, REMOTE_NAME, NULL); else if (strcEQ(var, "REMOTE_IDENT")) result = ap_get_remote_logname(r); else if (strcEQ(var, "REMOTE_USER")) result = r->user; break; case 'S': case 's': if (strcEQn(var, "SSL", 3)) break; /* shortcut common case */ if (strcEQ(var, "SERVER_ADMIN")) result = r->server->server_admin; else if (strcEQ(var, "SERVER_NAME")) result = ap_get_server_name(r); else if (strcEQ(var, "SERVER_PORT")) result = apr_psprintf(p, "%u", ap_get_server_port(r)); else if (strcEQ(var, "SERVER_PROTOCOL")) result = r->protocol; else if (strcEQ(var, "SCRIPT_FILENAME")) result = r->filename; break; default: if (strcEQ(var, "PATH_INFO")) result = r->path_info; else if (strcEQ(var, "QUERY_STRING")) result = r->args; else if (strcEQ(var, "IS_SUBREQ")) result = (r->main != NULL ? "true" : "false"); else if (strcEQ(var, "DOCUMENT_ROOT")) result = ap_document_root(r); else if (strcEQ(var, "AUTH_TYPE")) result = r->ap_auth_type; else if (strcEQ(var, "THE_REQUEST")) result = r->the_request; break; } } /* * Connection stuff */ if (result == NULL && c != NULL) { SSLConnRec *sslconn = myConnConfig(c); if (strlen(var) > 4 && strcEQn(var, "SSL_", 4) && sslconn && sslconn->ssl) result = ssl_var_lookup_ssl(p, c, var+4); else if (strcEQ(var, "REMOTE_ADDR")) result = c->remote_ip; else if (strcEQ(var, "HTTPS")) { if (sslconn && sslconn->ssl) result = "on"; else result = "off"; } } /* * Totally independent stuff */ if (result == NULL) { if (strlen(var) > 12 && strcEQn(var, "SSL_VERSION_", 12)) result = ssl_var_lookup_ssl_version(p, var+12); else if (strcEQ(var, "SERVER_SOFTWARE")) result = ap_get_server_banner(); else if (strcEQ(var, "API_VERSION")) { result = apr_itoa(p, MODULE_MAGIC_NUMBER); resdup = FALSE; } else if (strcEQ(var, "TIME_YEAR")) { apr_time_exp_lt(&tm, apr_time_now()); result = apr_psprintf(p, "%02d%02d", (tm.tm_year / 100) + 19, tm.tm_year % 100); resdup = FALSE; } #define MKTIMESTR(format, tmfield) \ apr_time_exp_lt(&tm, apr_time_now()); \ result = apr_psprintf(p, format, tm.tmfield); \ resdup = FALSE; else if (strcEQ(var, "TIME_MON")) { MKTIMESTR("%02d", tm_mon+1) } else if (strcEQ(var, "TIME_DAY")) { MKTIMESTR("%02d", tm_mday) } else if (strcEQ(var, "TIME_HOUR")) { MKTIMESTR("%02d", tm_hour) } else if (strcEQ(var, "TIME_MIN")) { MKTIMESTR("%02d", tm_min) } else if (strcEQ(var, "TIME_SEC")) { MKTIMESTR("%02d", tm_sec) } else if (strcEQ(var, "TIME_WDAY")) { MKTIMESTR("%d", tm_wday) } else if (strcEQ(var, "TIME")) { apr_time_exp_lt(&tm, apr_time_now()); result = apr_psprintf(p, "%02d%02d%02d%02d%02d%02d%02d", (tm.tm_year / 100) + 19, (tm.tm_year % 100), tm.tm_mon+1, tm.tm_mday, tm.tm_hour, tm.tm_min, tm.tm_sec); resdup = FALSE; } /* all other env-variables from the parent Apache process */ else if (strlen(var) > 4 && strcEQn(var, "ENV:", 4)) { result = apr_table_get(r->notes, var+4); if (result == NULL) result = apr_table_get(r->subprocess_env, var+4); if (result == NULL) result = getenv(var+4); } } if (result != NULL && resdup) result = apr_pstrdup(p, result); if (result == NULL) result = ""; return (char *)result; } static char *ssl_var_lookup_ssl(apr_pool_t *p, conn_rec *c, char *var) { SSLConnRec *sslconn = myConnConfig(c); char *result; X509 *xs; STACK_OF(X509) *sk; SSL *ssl; result = NULL; ssl = sslconn->ssl; if (strlen(var) > 8 && strcEQn(var, "VERSION_", 8)) { result = ssl_var_lookup_ssl_version(p, var+8); } else if (ssl != NULL && strcEQ(var, "PROTOCOL")) { result = (char *)SSL_get_version(ssl); } else if (ssl != NULL && strcEQ(var, "SESSION_ID")) { char buf[SSL_SESSION_ID_STRING_LEN]; SSL_SESSION *pSession = SSL_get_session(ssl); if (pSession) { result = apr_pstrdup(p, SSL_SESSION_id2sz( SSL_SESSION_get_session_id(pSession), SSL_SESSION_get_session_id_length(pSession), buf, sizeof(buf))); } } else if (ssl != NULL && strlen(var) >= 6 && strcEQn(var, "CIPHER", 6)) { result = ssl_var_lookup_ssl_cipher(p, c, var+6); } else if (ssl != NULL && strlen(var) > 18 && strcEQn(var, "CLIENT_CERT_CHAIN_", 18)) { sk = SSL_get_peer_cert_chain(ssl); result = ssl_var_lookup_ssl_cert_chain(p, sk, var+18); } else if (ssl != NULL && strcEQ(var, "CLIENT_VERIFY")) { result = ssl_var_lookup_ssl_cert_verify(p, c); } else if (ssl != NULL && strlen(var) > 7 && strcEQn(var, "CLIENT_", 7)) { if ((xs = SSL_get_peer_certificate(ssl)) != NULL) { result = ssl_var_lookup_ssl_cert(p, xs, var+7); X509_free(xs); } } else if (ssl != NULL && strlen(var) > 7 && strcEQn(var, "SERVER_", 7)) { if ((xs = SSL_get_certificate(ssl)) != NULL) result = ssl_var_lookup_ssl_cert(p, xs, var+7); } else if (ssl != NULL && strcEQ(var, "COMPRESS_METHOD")) { result = ssl_var_lookup_ssl_compress_meth(ssl); } return result; } static char *ssl_var_lookup_ssl_cert(apr_pool_t *p, X509 *xs, char *var) { char *result; BOOL resdup; X509_NAME *xsname; int nid; char *cp; result = NULL; resdup = TRUE; if (strcEQ(var, "M_VERSION")) { result = apr_psprintf(p, "%lu", X509_get_version(xs)+1); resdup = FALSE; } else if (strcEQ(var, "M_SERIAL")) { result = ssl_var_lookup_ssl_cert_serial(p, xs); } else if (strcEQ(var, "V_START")) { result = ssl_var_lookup_ssl_cert_valid(p, X509_get_notBefore(xs)); } else if (strcEQ(var, "V_END")) { result = ssl_var_lookup_ssl_cert_valid(p, X509_get_notAfter(xs)); } else if (strcEQ(var, "V_REMAIN")) { result = ssl_var_lookup_ssl_cert_remain(p, X509_get_notAfter(xs)); resdup = FALSE; } else if (strcEQ(var, "S_DN")) { xsname = X509_get_subject_name(xs); cp = X509_NAME_oneline(xsname, NULL, 0); result = apr_pstrdup(p, cp); modssl_free(cp); resdup = FALSE; } else if (strlen(var) > 5 && strcEQn(var, "S_DN_", 5)) { xsname = X509_get_subject_name(xs); result = ssl_var_lookup_ssl_cert_dn(p, xsname, var+5); resdup = FALSE; } else if (strcEQ(var, "I_DN")) { xsname = X509_get_issuer_name(xs); cp = X509_NAME_oneline(xsname, NULL, 0); result = apr_pstrdup(p, cp); modssl_free(cp); resdup = FALSE; } else if (strlen(var) > 5 && strcEQn(var, "I_DN_", 5)) { xsname = X509_get_issuer_name(xs); result = ssl_var_lookup_ssl_cert_dn(p, xsname, var+5); resdup = FALSE; } else if (strcEQ(var, "A_SIG")) { nid = OBJ_obj2nid((ASN1_OBJECT *)X509_get_signature_algorithm(xs)); result = apr_pstrdup(p, (nid == NID_undef) ? "UNKNOWN" : OBJ_nid2ln(nid)); resdup = FALSE; } else if (strcEQ(var, "A_KEY")) { nid = OBJ_obj2nid((ASN1_OBJECT *)X509_get_key_algorithm(xs)); result = apr_pstrdup(p, (nid == NID_undef) ? "UNKNOWN" : OBJ_nid2ln(nid)); resdup = FALSE; } else if (strcEQ(var, "CERT")) { result = ssl_var_lookup_ssl_cert_PEM(p, xs); } if (result != NULL && resdup) result = apr_pstrdup(p, result); return result; } static const struct { char *name; int nid; } ssl_var_lookup_ssl_cert_dn_rec[] = { { "C", NID_countryName }, { "ST", NID_stateOrProvinceName }, /* officially (RFC2156) */ { "SP", NID_stateOrProvinceName }, /* compatibility (SSLeay) */ { "L", NID_localityName }, { "O", NID_organizationName }, { "OU", NID_organizationalUnitName }, { "CN", NID_commonName }, { "T", NID_title }, { "I", NID_initials }, { "G", NID_givenName }, { "S", NID_surname }, { "D", NID_description }, #ifdef NID_x500UniqueIdentifier /* new name as of Openssl 0.9.7 */ { "UID", NID_x500UniqueIdentifier }, #else /* old name, OpenSSL < 0.9.7 */ { "UID", NID_uniqueIdentifier }, #endif { "Email", NID_pkcs9_emailAddress }, { NULL, 0 } }; static char *ssl_var_lookup_ssl_cert_dn(apr_pool_t *p, X509_NAME *xsname, char *var) { char *result, *ptr; X509_NAME_ENTRY *xsne; int i, j, n, idx = 0; apr_size_t varlen; /* if an _N suffix is used, find the Nth attribute of given name */ ptr = strchr(var, '_'); if (ptr != NULL && strspn(ptr + 1, "0123456789") == strlen(ptr + 1)) { idx = atoi(ptr + 1); varlen = ptr - var; } else { varlen = strlen(var); } result = NULL; for (i = 0; ssl_var_lookup_ssl_cert_dn_rec[i].name != NULL; i++) { if (strEQn(var, ssl_var_lookup_ssl_cert_dn_rec[i].name, varlen) && strlen(ssl_var_lookup_ssl_cert_dn_rec[i].name) == varlen) { for (j = 0; j < sk_X509_NAME_ENTRY_num((STACK_OF(X509_NAME_ENTRY) *) X509_NAME_get_entries(xsname)); j++) { xsne = sk_X509_NAME_ENTRY_value((STACK_OF(X509_NAME_ENTRY) *) X509_NAME_get_entries(xsname), j); n =OBJ_obj2nid((ASN1_OBJECT *)X509_NAME_ENTRY_get_object(xsne)); if (n == ssl_var_lookup_ssl_cert_dn_rec[i].nid && idx-- == 0) { unsigned char *data = X509_NAME_ENTRY_get_data_ptr(xsne); /* cast needed from unsigned char to char */ result = apr_pstrmemdup(p, (char *)data, X509_NAME_ENTRY_get_data_len(xsne)); #if APR_CHARSET_EBCDIC ap_xlate_proto_from_ascii(result, X509_NAME_ENTRY_get_data_len(xsne)); #endif /* APR_CHARSET_EBCDIC */ break; } } break; } } return result; } static char *ssl_var_lookup_ssl_cert_valid(apr_pool_t *p, ASN1_UTCTIME *tm) { char *result; BIO* bio; int n; if ((bio = BIO_new(BIO_s_mem())) == NULL) return NULL; ASN1_UTCTIME_print(bio, tm); n = BIO_pending(bio); result = apr_pcalloc(p, n+1); n = BIO_read(bio, result, n); result[n] = NUL; BIO_free(bio); return result; } #define DIGIT2NUM(x) (((x)[0] - '0') * 10 + (x)[1] - '0') /* Return a string giving the number of days remaining until 'tm', or * "0" if this can't be determined. */ static char *ssl_var_lookup_ssl_cert_remain(apr_pool_t *p, ASN1_UTCTIME *tm) { apr_time_t then, now = apr_time_now(); apr_time_exp_t exp = {0}; long diff; /* Fail if the time isn't a valid ASN.1 UTCTIME; RFC3280 mandates * that the seconds digits are present even though ASN.1 * doesn't. */ if (tm->length < 11 || !ASN1_UTCTIME_check(tm)) { return apr_pstrdup(p, "0"); } exp.tm_year = DIGIT2NUM(tm->data); exp.tm_mon = DIGIT2NUM(tm->data + 2) - 1; exp.tm_mday = DIGIT2NUM(tm->data + 4) + 1; exp.tm_hour = DIGIT2NUM(tm->data + 6); exp.tm_min = DIGIT2NUM(tm->data + 8); exp.tm_sec = DIGIT2NUM(tm->data + 10); if (exp.tm_year <= 50) exp.tm_year += 100; if (apr_time_exp_gmt_get(&then, &exp) != APR_SUCCESS) { return apr_pstrdup(p, "0"); } diff = (long)((apr_time_sec(then) - apr_time_sec(now)) / (60*60*24)); return diff > 0 ? apr_ltoa(p, diff) : apr_pstrdup(p, "0"); } static char *ssl_var_lookup_ssl_cert_serial(apr_pool_t *p, X509 *xs) { char *result; BIO *bio; int n; if ((bio = BIO_new(BIO_s_mem())) == NULL) return NULL; i2a_ASN1_INTEGER(bio, X509_get_serialNumber(xs)); n = BIO_pending(bio); result = apr_pcalloc(p, n+1); n = BIO_read(bio, result, n); result[n] = NUL; BIO_free(bio); return result; } static char *ssl_var_lookup_ssl_cert_chain(apr_pool_t *p, STACK_OF(X509) *sk, char *var) { char *result; X509 *xs; int n; result = NULL; if (strspn(var, "0123456789") == strlen(var)) { n = atoi(var); if (n < sk_X509_num(sk)) { xs = sk_X509_value(sk, n); result = ssl_var_lookup_ssl_cert_PEM(p, xs); } } return result; } static char *ssl_var_lookup_ssl_cert_PEM(apr_pool_t *p, X509 *xs) { char *result; BIO *bio; int n; if ((bio = BIO_new(BIO_s_mem())) == NULL) return NULL; PEM_write_bio_X509(bio, xs); n = BIO_pending(bio); result = apr_pcalloc(p, n+1); n = BIO_read(bio, result, n); result[n] = NUL; BIO_free(bio); return result; } static char *ssl_var_lookup_ssl_cert_verify(apr_pool_t *p, conn_rec *c) { SSLConnRec *sslconn = myConnConfig(c); char *result; long vrc; const char *verr; const char *vinfo; SSL *ssl; X509 *xs; result = NULL; ssl = sslconn->ssl; verr = sslconn->verify_error; vinfo = sslconn->verify_info; vrc = SSL_get_verify_result(ssl); xs = SSL_get_peer_certificate(ssl); if (vrc == X509_V_OK && verr == NULL && vinfo == NULL && xs == NULL) /* no client verification done at all */ result = "NONE"; else if (vrc == X509_V_OK && verr == NULL && vinfo == NULL && xs != NULL) /* client verification done successful */ result = "SUCCESS"; else if (vrc == X509_V_OK && vinfo != NULL && strEQ(vinfo, "GENEROUS")) /* client verification done in generous way */ result = "GENEROUS"; else /* client verification failed */ result = apr_psprintf(p, "FAILED:%s", verr); if (xs) X509_free(xs); return result; } static char *ssl_var_lookup_ssl_cipher(apr_pool_t *p, conn_rec *c, char *var) { SSLConnRec *sslconn = myConnConfig(c); char *result; BOOL resdup; int usekeysize, algkeysize; SSL *ssl; result = NULL; resdup = TRUE; ssl = sslconn->ssl; ssl_var_lookup_ssl_cipher_bits(ssl, &usekeysize, &algkeysize); if (ssl && strEQ(var, "")) { SSL_CIPHER *cipher = SSL_get_current_cipher(ssl); result = (cipher != NULL ? (char *)SSL_CIPHER_get_name(cipher) : NULL); } else if (strcEQ(var, "_EXPORT")) result = (usekeysize < 56 ? "true" : "false"); else if (strcEQ(var, "_USEKEYSIZE")) { result = apr_itoa(p, usekeysize); resdup = FALSE; } else if (strcEQ(var, "_ALGKEYSIZE")) { result = apr_itoa(p, algkeysize); resdup = FALSE; } if (result != NULL && resdup) result = apr_pstrdup(p, result); return result; } static void ssl_var_lookup_ssl_cipher_bits(SSL *ssl, int *usekeysize, int *algkeysize) { SSL_CIPHER *cipher; *usekeysize = 0; *algkeysize = 0; if (ssl != NULL) if ((cipher = SSL_get_current_cipher(ssl)) != NULL) *usekeysize = SSL_CIPHER_get_bits(cipher, algkeysize); return; } static char *ssl_var_lookup_ssl_version(apr_pool_t *p, char *var) { static const char interface[] = "mod_ssl/" MOD_SSL_VERSION; static char library_interface[] = SSL_LIBRARY_TEXT; static char *library = NULL; char *result; if (!library) { char *cp, *cp2; library = apr_pstrdup(p, SSL_LIBRARY_DYNTEXT); if ((cp = strchr(library, ' ')) != NULL) { *cp = '/'; if ((cp2 = strchr(cp, ' ')) != NULL) *cp2 = NUL; } if ((cp = strchr(library_interface, ' ')) != NULL) { *cp = '/'; if ((cp2 = strchr(cp, ' ')) != NULL) *cp2 = NUL; } } if (strEQ(var, "INTERFACE")) { result = apr_pstrdup(p, interface); } else if (strEQ(var, "LIBRARY_INTERFACE")) { result = apr_pstrdup(p, library_interface); } else if (strEQ(var, "LIBRARY")) { result = apr_pstrdup(p, library); } else { result = NULL; } return result; } apr_array_header_t *ssl_ext_list(apr_pool_t *p, conn_rec *c, int peer, const char *extension) { SSLConnRec *sslconn = myConnConfig(c); SSL *ssl = NULL; apr_array_header_t *array = NULL; X509 *xs = NULL; ASN1_OBJECT *oid = NULL; int count = 0, j; if (!sslconn || !sslconn->ssl || !extension) { return NULL; } ssl = sslconn->ssl; /* We accept the "extension" string to be converted as * a long name (nsComment), short name (DN) or * numeric OID (1.2.3.4). */ oid = OBJ_txt2obj(extension, 0); if (!oid) { ap_log_cerror(APLOG_MARK, APLOG_DEBUG, 0, c, "Failed to create an object for extension '%s'", extension); ERR_clear_error(); return NULL; } xs = peer ? SSL_get_peer_certificate(ssl) : SSL_get_certificate(ssl); if (xs == NULL) { return NULL; } count = X509_get_ext_count(xs); /* Create an array large enough to accomodate every extension. This is * likely overkill, but safe. */ array = apr_array_make(p, count, sizeof(char *)); for (j = 0; j < count; j++) { X509_EXTENSION *ext = X509_get_ext(xs, j); if (OBJ_cmp(ext->object, oid) == 0) { BIO *bio = BIO_new(BIO_s_mem()); /* We want to obtain a string representation of the extensions * value and add it to the array we're building. * X509V3_EXT_print() doesn't know about all the possible * data types, but the value is stored as an ASN1_OCTET_STRING * allowing us a fallback in case of X509V3_EXT_print * not knowing how to handle the data. */ if (X509V3_EXT_print(bio, ext, 0, 0) == 1 || ASN1_STRING_print(bio, ext->value) == 1) { BUF_MEM *buf; char **ptr = apr_array_push(array); BIO_get_mem_ptr(bio, &buf); *ptr = apr_pstrmemdup(p, buf->data, buf->length); } else { ap_log_cerror(APLOG_MARK, APLOG_DEBUG, 0, c, "Found an extension '%s', but failed to " "create a string from it", extension); } BIO_vfree(bio); } } if (array->nelts == 0) array = NULL; if (peer) { /* only SSL_get_peer_certificate raises the refcount */ X509_free(xs); } ERR_clear_error(); return array; } static char *ssl_var_lookup_ssl_compress_meth(SSL *ssl) { char *result = "NULL"; #ifdef OPENSSL_VERSION_NUMBER #if (OPENSSL_VERSION_NUMBER >= 0x00908000) SSL_SESSION *pSession = SSL_get_session(ssl); if (pSession) { switch (pSession->compress_meth) { case 0: /* default "NULL" already set */ break; /* Defined by RFC 3749, deflate is coded by "1" */ case 1: result = "DEFLATE"; break; /* IANA assigned compression number for LZS */ case 0x40: result = "LZS"; break; default: result = "UNKNOWN"; break; } } #endif #endif return result; } /* _________________________________________________________________ ** ** SSL Extension to mod_log_config ** _________________________________________________________________ */ #include "../../modules/loggers/mod_log_config.h" static const char *ssl_var_log_handler_c(request_rec *r, char *a); static const char *ssl_var_log_handler_x(request_rec *r, char *a); /* * register us for the mod_log_config function registering phase * to establish %{...}c and to be able to expand %{...}x variables. */ void ssl_var_log_config_register(apr_pool_t *p) { static APR_OPTIONAL_FN_TYPE(ap_register_log_handler) *log_pfn_register; log_pfn_register = APR_RETRIEVE_OPTIONAL_FN(ap_register_log_handler); if (log_pfn_register) { log_pfn_register(p, "c", ssl_var_log_handler_c, 0); log_pfn_register(p, "x", ssl_var_log_handler_x, 0); } return; } /* * implement the %{..}c log function * (we are the only function) */ static const char *ssl_var_log_handler_c(request_rec *r, char *a) { SSLConnRec *sslconn = myConnConfig(r->connection); char *result; if (sslconn == NULL || sslconn->ssl == NULL) return NULL; result = NULL; if (strEQ(a, "version")) result = ssl_var_lookup(r->pool, r->server, r->connection, r, "SSL_PROTOCOL"); else if (strEQ(a, "cipher")) result = ssl_var_lookup(r->pool, r->server, r->connection, r, "SSL_CIPHER"); else if (strEQ(a, "subjectdn") || strEQ(a, "clientcert")) result = ssl_var_lookup(r->pool, r->server, r->connection, r, "SSL_CLIENT_S_DN"); else if (strEQ(a, "issuerdn") || strEQ(a, "cacert")) result = ssl_var_lookup(r->pool, r->server, r->connection, r, "SSL_CLIENT_I_DN"); else if (strEQ(a, "errcode")) result = "-"; else if (strEQ(a, "errstr")) result = (char *)sslconn->verify_error; if (result != NULL && result[0] == NUL) result = NULL; return result; } /* * extend the implementation of the %{..}x log function * (there can be more functions) */ static const char *ssl_var_log_handler_x(request_rec *r, char *a) { char *result; result = ssl_var_lookup(r->pool, r->server, r->connection, r, a); if (result != NULL && result[0] == NUL) result = NULL; return result; }