/* 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. */ /* * protocol.c --- routines which directly communicate with the client. * * Code originally by Rob McCool; much redone by Robert S. Thau * and the Apache Software Foundation. */ #include "apr.h" #include "apr_strings.h" #include "apr_buckets.h" #include "apr_lib.h" #include "apr_signal.h" #include "apr_strmatch.h" #define APR_WANT_STDIO /* for sscanf */ #define APR_WANT_STRFUNC #define APR_WANT_MEMFUNC #include "apr_want.h" #include "util_filter.h" #include "ap_config.h" #include "httpd.h" #include "http_config.h" #include "http_core.h" #include "http_protocol.h" #include "http_main.h" #include "http_request.h" #include "http_vhost.h" #include "http_log.h" /* For errors detected in basic auth common * support code... */ #include "mod_core.h" #include "util_charset.h" #include "util_ebcdic.h" #include "scoreboard.h" #if APR_HAVE_STDARG_H #include #endif #if APR_HAVE_UNISTD_H #include #endif /* we know core's module_index is 0 */ #undef APLOG_MODULE_INDEX #define APLOG_MODULE_INDEX AP_CORE_MODULE_INDEX APR_HOOK_STRUCT( APR_HOOK_LINK(pre_read_request) APR_HOOK_LINK(post_read_request) APR_HOOK_LINK(log_transaction) APR_HOOK_LINK(http_scheme) APR_HOOK_LINK(default_port) APR_HOOK_LINK(note_auth_failure) APR_HOOK_LINK(protocol_propose) APR_HOOK_LINK(protocol_switch) APR_HOOK_LINK(protocol_get) ) AP_DECLARE_DATA ap_filter_rec_t *ap_old_write_func = NULL; /* Patterns to match in ap_make_content_type() */ static const char *needcset[] = { "text/plain", "text/html", NULL }; static const apr_strmatch_pattern **needcset_patterns; static const apr_strmatch_pattern *charset_pattern; AP_DECLARE(void) ap_setup_make_content_type(apr_pool_t *pool) { int i; for (i = 0; needcset[i]; i++) { continue; } needcset_patterns = (const apr_strmatch_pattern **) apr_palloc(pool, (i + 1) * sizeof(apr_strmatch_pattern *)); for (i = 0; needcset[i]; i++) { needcset_patterns[i] = apr_strmatch_precompile(pool, needcset[i], 0); } needcset_patterns[i] = NULL; charset_pattern = apr_strmatch_precompile(pool, "charset=", 0); } /* * Builds the content-type that should be sent to the client from the * content-type specified. The following rules are followed: * - if type is NULL or "", return NULL (do not set content-type). * - if charset adding is disabled, stop processing and return type. * - then, if there are no parameters on type, add the default charset * - return type */ AP_DECLARE(const char *)ap_make_content_type(request_rec *r, const char *type) { const apr_strmatch_pattern **pcset; core_dir_config *conf = (core_dir_config *)ap_get_core_module_config(r->per_dir_config); core_request_config *request_conf; apr_size_t type_len; if (!type || *type == '\0') { return NULL; } if (conf->add_default_charset != ADD_DEFAULT_CHARSET_ON) { return type; } request_conf = ap_get_core_module_config(r->request_config); if (request_conf->suppress_charset) { return type; } type_len = strlen(type); if (apr_strmatch(charset_pattern, type, type_len) != NULL) { /* already has parameter, do nothing */ /* XXX we don't check the validity */ ; } else { /* see if it makes sense to add the charset. At present, * we only add it if the Content-type is one of needcset[] */ for (pcset = needcset_patterns; *pcset ; pcset++) { if (apr_strmatch(*pcset, type, type_len) != NULL) { struct iovec concat[3]; concat[0].iov_base = (void *)type; concat[0].iov_len = type_len; concat[1].iov_base = (void *)"; charset="; concat[1].iov_len = sizeof("; charset=") - 1; concat[2].iov_base = (void *)(conf->add_default_charset_name); concat[2].iov_len = strlen(conf->add_default_charset_name); type = apr_pstrcatv(r->pool, concat, 3, NULL); break; } } } return type; } AP_DECLARE(void) ap_set_content_length(request_rec *r, apr_off_t clength) { r->clength = clength; apr_table_setn(r->headers_out, "Content-Length", apr_off_t_toa(r->pool, clength)); } /* * Return the latest rational time from a request/mtime (modification time) * pair. We return the mtime unless it's in the future, in which case we * return the current time. We use the request time as a reference in order * to limit the number of calls to time(). We don't check for futurosity * unless the mtime is at least as new as the reference. */ AP_DECLARE(apr_time_t) ap_rationalize_mtime(request_rec *r, apr_time_t mtime) { apr_time_t now; /* For all static responses, it's almost certain that the file was * last modified before the beginning of the request. So there's * no reason to call time(NULL) again. But if the response has been * created on demand, then it might be newer than the time the request * started. In this event we really have to call time(NULL) again * so that we can give the clients the most accurate Last-Modified. If we * were given a time in the future, we return the current time - the * Last-Modified can't be in the future. */ now = (mtime < r->request_time) ? r->request_time : apr_time_now(); return (mtime > now) ? now : mtime; } /* Get a line of protocol input, including any continuation lines * caused by MIME folding (or broken clients) if fold != 0, and place it * in the buffer s, of size n bytes, without the ending newline. * * Pulls from r->proto_input_filters instead of r->input_filters for * stricter protocol adherence and better input filter behavior during * chunked trailer processing (for http). * * If s is NULL, ap_rgetline_core will allocate necessary memory from r->pool. * * Returns APR_SUCCESS if there are no problems and sets *read to be * the full length of s. * * APR_ENOSPC is returned if there is not enough buffer space. * Other errors may be returned on other errors. * * The [CR]LF are *not* returned in the buffer. Therefore, a *read of 0 * indicates that an empty line was read. * * Notes: Because the buffer uses 1 char for NUL, the most we can return is * (n - 1) actual characters. * * If no LF is detected on the last line due to a dropped connection * or a full buffer, that's considered an error. */ AP_DECLARE(apr_status_t) ap_rgetline_core(char **s, apr_size_t n, apr_size_t *read, request_rec *r, int flags, apr_bucket_brigade *bb) { apr_status_t rv; apr_bucket *e; apr_size_t bytes_handled = 0, current_alloc = 0; char *pos, *last_char = *s; int do_alloc = (*s == NULL), saw_eos = 0; int fold = flags & AP_GETLINE_FOLD; int crlf = flags & AP_GETLINE_CRLF; int nospc_eol = flags & AP_GETLINE_NOSPC_EOL; int saw_eol = 0, saw_nospc = 0; if (!n) { /* Needs room for NUL byte at least */ *read = 0; return APR_BADARG; } /* * Initialize last_char as otherwise a random value will be compared * against APR_ASCII_LF at the end of the loop if bb only contains * zero-length buckets. */ if (last_char) *last_char = '\0'; do { apr_brigade_cleanup(bb); rv = ap_get_brigade(r->proto_input_filters, bb, AP_MODE_GETLINE, APR_BLOCK_READ, 0); if (rv != APR_SUCCESS) { goto cleanup; } /* Something horribly wrong happened. Someone didn't block! * (this also happens at the end of each keepalive connection) */ if (APR_BRIGADE_EMPTY(bb)) { rv = APR_EGENERAL; goto cleanup; } for (e = APR_BRIGADE_FIRST(bb); e != APR_BRIGADE_SENTINEL(bb); e = APR_BUCKET_NEXT(e)) { const char *str; apr_size_t len; /* If we see an EOS, don't bother doing anything more. */ if (APR_BUCKET_IS_EOS(e)) { saw_eos = 1; break; } rv = apr_bucket_read(e, &str, &len, APR_BLOCK_READ); if (rv != APR_SUCCESS) { goto cleanup; } if (len == 0) { /* no use attempting a zero-byte alloc (hurts when * using --with-efence --enable-pool-debug) or * doing any of the other logic either */ continue; } /* Would this overrun our buffer? If so, we'll die. */ if (n < bytes_handled + len) { /* Before we die, let's fill the buffer up to its limit (i.e. * fall through with the remaining length, if any), setting * saw_eol on LF to stop the outer loop appropriately; we may * come back here once the buffer is filled (no LF seen), and * either be done at that time or continue to wait for LF here * if nospc_eol is set. * * But there is also a corner cases which we want to address, * namely if the buffer is overrun by the final LF only (i.e. * the CR fits in); this is not really an overrun since we'll * strip the CR finally (and use it for NUL byte), but anyway * we have to handle the case so that it's not returned to the * caller as part of the truncated line (it's not!). This is * easier to consider that LF is out of counting and thus fall * through with no error (saw_eol is set to 2 so that we later * ignore LF handling already done here), while folding and * nospc_eol logics continue to work (or fail) appropriately. */ saw_eol = (str[len - 1] == APR_ASCII_LF); if (/* First time around */ saw_eol && !saw_nospc /* Single LF completing the buffered CR, */ && ((len == 1 && ((*s)[bytes_handled - 1] == APR_ASCII_CR)) /* or trailing CRLF overuns by LF only */ || (len > 1 && str[len - 2] == APR_ASCII_CR && n - bytes_handled + 1 == len))) { /* In both cases *last_char is (to be) the CR stripped by * later 'bytes_handled = last_char - *s'. */ saw_eol = 2; } else { /* In any other case we'd lose data. */ rv = APR_ENOSPC; saw_nospc = 1; } len = n - bytes_handled; if (!len) { if (saw_eol) { break; } if (nospc_eol) { continue; } goto cleanup; } } /* Do we have to handle the allocation ourselves? */ if (do_alloc) { /* We'll assume the common case where one bucket is enough. */ if (!*s) { current_alloc = len; *s = apr_palloc(r->pool, current_alloc + 1); } else if (bytes_handled + len > current_alloc) { /* Increase the buffer size */ apr_size_t new_size = current_alloc * 2; char *new_buffer; if (bytes_handled + len > new_size) { new_size = (bytes_handled + len) * 2; } new_buffer = apr_palloc(r->pool, new_size + 1); /* Copy what we already had. */ memcpy(new_buffer, *s, bytes_handled); current_alloc = new_size; *s = new_buffer; } } /* Just copy the rest of the data to the end of the old buffer. */ pos = *s + bytes_handled; memcpy(pos, str, len); last_char = pos + len - 1; /* We've now processed that new data - update accordingly. */ bytes_handled += len; } /* If we got a full line of input, stop reading */ if (last_char && (*last_char == APR_ASCII_LF)) { saw_eol = 1; } } while (!saw_eol); if (rv != APR_SUCCESS) { /* End of line after APR_ENOSPC above */ goto cleanup; } /* Now terminate the string at the end of the line; * if the last-but-one character is a CR, terminate there. * LF is handled above (not accounted) when saw_eol == 2, * the last char is CR to terminate at still. */ if (saw_eol < 2) { if (last_char > *s && last_char[-1] == APR_ASCII_CR) { last_char--; } else if (crlf) { rv = APR_EINVAL; goto cleanup; } } bytes_handled = last_char - *s; /* If we're folding, we have more work to do. * * Note that if an EOS was seen, we know we can't have another line. */ if (fold && bytes_handled && !saw_eos) { for (;;) { const char *str; apr_size_t len; char c; /* Clear the temp brigade for this filter read. */ apr_brigade_cleanup(bb); /* We only care about the first byte. */ rv = ap_get_brigade(r->proto_input_filters, bb, AP_MODE_SPECULATIVE, APR_BLOCK_READ, 1); if (rv != APR_SUCCESS) { goto cleanup; } if (APR_BRIGADE_EMPTY(bb)) { break; } e = APR_BRIGADE_FIRST(bb); /* If we see an EOS, don't bother doing anything more. */ if (APR_BUCKET_IS_EOS(e)) { break; } rv = apr_bucket_read(e, &str, &len, APR_BLOCK_READ); if (rv != APR_SUCCESS) { apr_brigade_cleanup(bb); goto cleanup; } /* Found one, so call ourselves again to get the next line. * * FIXME: If the folding line is completely blank, should we * stop folding? Does that require also looking at the next * char? */ /* When we call destroy, the buckets are deleted, so save that * one character we need. This simplifies our execution paths * at the cost of one character read. */ c = *str; if (c == APR_ASCII_BLANK || c == APR_ASCII_TAB) { /* Do we have enough space? We may be full now. */ if (bytes_handled >= n) { rv = APR_ENOSPC; goto cleanup; } else { apr_size_t next_size, next_len; char *tmp; /* If we're doing the allocations for them, we have to * give ourselves a NULL and copy it on return. */ if (do_alloc) { tmp = NULL; } else { tmp = last_char; } next_size = n - bytes_handled; rv = ap_rgetline_core(&tmp, next_size, &next_len, r, flags & ~AP_GETLINE_FOLD, bb); if (rv != APR_SUCCESS) { goto cleanup; } if (do_alloc && next_len > 0) { char *new_buffer; apr_size_t new_size = bytes_handled + next_len + 1; /* we need to alloc an extra byte for a null */ new_buffer = apr_palloc(r->pool, new_size); /* Copy what we already had. */ memcpy(new_buffer, *s, bytes_handled); /* copy the new line, including the trailing null */ memcpy(new_buffer + bytes_handled, tmp, next_len); *s = new_buffer; } last_char += next_len; bytes_handled += next_len; } } else { /* next character is not tab or space */ break; } } } cleanup: if (bytes_handled >= n) { bytes_handled = n - 1; } *read = bytes_handled; if (*s) { /* ensure the string is NUL terminated */ (*s)[*read] = '\0'; /* PR#43039: We shouldn't accept NULL bytes within the line */ bytes_handled = strlen(*s); if (bytes_handled < *read) { *read = bytes_handled; if (rv == APR_SUCCESS) { rv = APR_EINVAL; } } } return rv; } #if APR_CHARSET_EBCDIC AP_DECLARE(apr_status_t) ap_rgetline(char **s, apr_size_t n, apr_size_t *read, request_rec *r, int fold, apr_bucket_brigade *bb) { /* on ASCII boxes, ap_rgetline is a macro which simply invokes * ap_rgetline_core with the same parms * * on EBCDIC boxes, each complete http protocol input line needs to be * translated into the code page used by the compiler. Since * ap_rgetline_core uses recursion, we do the translation in a wrapper * function to ensure that each input character gets translated only once. */ apr_status_t rv; rv = ap_rgetline_core(s, n, read, r, fold, bb); if (rv == APR_SUCCESS || APR_STATUS_IS_ENOSPC(rv)) { ap_xlate_proto_from_ascii(*s, *read); } return rv; } #endif AP_DECLARE(int) ap_getline(char *s, int n, request_rec *r, int flags) { char *tmp_s = s; apr_status_t rv; apr_size_t len; apr_bucket_brigade *tmp_bb; if (n < 1) { /* Can't work since we always NUL terminate */ return -1; } tmp_bb = apr_brigade_create(r->pool, r->connection->bucket_alloc); rv = ap_rgetline(&tmp_s, n, &len, r, flags, tmp_bb); apr_brigade_destroy(tmp_bb); /* Map the out-of-space condition to the old API. */ if (rv == APR_ENOSPC) { return n; } /* Anything else is just bad. */ if (rv != APR_SUCCESS) { return -1; } return (int)len; } /* parse_uri: break apart the uri * Side Effects: * - sets r->args to rest after '?' (or NULL if no '?') * - sets r->uri to request uri (without r->args part) * - sets r->hostname (if not set already) from request (scheme://host:port) */ AP_CORE_DECLARE(void) ap_parse_uri(request_rec *r, const char *uri) { int status = HTTP_OK; r->unparsed_uri = apr_pstrdup(r->pool, uri); /* http://issues.apache.org/bugzilla/show_bug.cgi?id=31875 * http://issues.apache.org/bugzilla/show_bug.cgi?id=28450 * * This is not in fact a URI, it's a path. That matters in the * case of a leading double-slash. We need to resolve the issue * by normalizing that out before treating it as a URI. */ while ((uri[0] == '/') && (uri[1] == '/')) { ++uri ; } if (r->method_number == M_CONNECT) { status = apr_uri_parse_hostinfo(r->pool, uri, &r->parsed_uri); } else { status = apr_uri_parse(r->pool, uri, &r->parsed_uri); } if (status == APR_SUCCESS) { /* if it has a scheme we may need to do absoluteURI vhost stuff */ if (r->parsed_uri.scheme && !strcasecmp(r->parsed_uri.scheme, ap_http_scheme(r))) { r->hostname = r->parsed_uri.hostname; } else if (r->method_number == M_CONNECT) { r->hostname = r->parsed_uri.hostname; } r->args = r->parsed_uri.query; r->uri = r->parsed_uri.path ? r->parsed_uri.path : apr_pstrdup(r->pool, "/"); #if defined(OS2) || defined(WIN32) /* Handle path translations for OS/2 and plug security hole. * This will prevent "http://www.wherever.com/..\..\/" from * returning a directory for the root drive. */ { char *x; for (x = r->uri; (x = strchr(x, '\\')) != NULL; ) *x = '/'; } #endif /* OS2 || WIN32 */ } else { r->args = NULL; r->hostname = NULL; r->status = HTTP_BAD_REQUEST; /* set error status */ r->uri = apr_pstrdup(r->pool, uri); } } /* get the length of the field name for logging, but no more than 80 bytes */ #define LOG_NAME_MAX_LEN 80 static int field_name_len(const char *field) { const char *end = ap_strchr_c(field, ':'); if (end == NULL || end - field > LOG_NAME_MAX_LEN) return LOG_NAME_MAX_LEN; return end - field; } static int read_request_line(request_rec *r, apr_bucket_brigade *bb) { enum { rrl_none, rrl_badmethod, rrl_badwhitespace, rrl_excesswhitespace, rrl_missinguri, rrl_baduri, rrl_badprotocol, rrl_trailingtext, rrl_badmethod09, rrl_reject09 } deferred_error = rrl_none; char *ll; char *uri; apr_size_t len; int num_blank_lines = DEFAULT_LIMIT_BLANK_LINES; core_server_config *conf = ap_get_core_module_config(r->server->module_config); int strict = (conf->http_conformance != AP_HTTP_CONFORMANCE_UNSAFE); /* Read past empty lines until we get a real request line, * a read error, the connection closes (EOF), or we timeout. * * We skip empty lines because browsers have to tack a CRLF on to the end * of POSTs to support old CERN webservers. But note that we may not * have flushed any previous response completely to the client yet. * We delay the flush as long as possible so that we can improve * performance for clients that are pipelining requests. If a request * is pipelined then we won't block during the (implicit) read() below. * If the requests aren't pipelined, then the client is still waiting * for the final buffer flush from us, and we will block in the implicit * read(). B_SAFEREAD ensures that the BUFF layer flushes if it will * have to block during a read. */ do { apr_status_t rv; /* ensure ap_rgetline allocates memory each time thru the loop * if there are empty lines */ r->the_request = NULL; rv = ap_rgetline(&(r->the_request), (apr_size_t)(r->server->limit_req_line + 2), &len, r, strict ? AP_GETLINE_CRLF : 0, bb); if (rv != APR_SUCCESS) { r->request_time = apr_time_now(); /* ap_rgetline returns APR_ENOSPC if it fills up the * buffer before finding the end-of-line. This is only going to * happen if it exceeds the configured limit for a request-line. */ if (APR_STATUS_IS_ENOSPC(rv)) { r->status = HTTP_REQUEST_URI_TOO_LARGE; } else if (APR_STATUS_IS_TIMEUP(rv)) { r->status = HTTP_REQUEST_TIME_OUT; } else if (APR_STATUS_IS_EINVAL(rv)) { r->status = HTTP_BAD_REQUEST; } r->proto_num = HTTP_VERSION(1,0); r->protocol = apr_pstrdup(r->pool, "HTTP/1.0"); return 0; } } while ((len <= 0) && (--num_blank_lines >= 0)); if (APLOGrtrace5(r)) { ap_log_rerror(APLOG_MARK, APLOG_TRACE5, 0, r, "Request received from client: %s", ap_escape_logitem(r->pool, r->the_request)); } r->request_time = apr_time_now(); r->method = r->the_request; /* If there is whitespace before a method, skip it and mark in error */ if (apr_isspace(*r->method)) { deferred_error = rrl_badwhitespace; for ( ; apr_isspace(*r->method); ++r->method) ; } /* Scan the method up to the next whitespace, ensure it contains only * valid http-token characters, otherwise mark in error */ if (strict) { ll = (char*) ap_scan_http_token(r->method); } else { ll = (char*) ap_scan_vchar_obstext(r->method); } if (((ll == r->method) || (*ll && !apr_isspace(*ll))) && deferred_error == rrl_none) { deferred_error = rrl_badmethod; ll = strpbrk(ll, "\t\n\v\f\r "); } /* Verify method terminated with a single SP, or mark as specific error */ if (!ll) { if (deferred_error == rrl_none) deferred_error = rrl_missinguri; r->protocol = uri = ""; len = 0; goto rrl_done; } else if (strict && ll[0] && apr_isspace(ll[1]) && deferred_error == rrl_none) { deferred_error = rrl_excesswhitespace; } /* Advance uri pointer over leading whitespace, NUL terminate the method * If non-SP whitespace is encountered, mark as specific error */ for (uri = ll; apr_isspace(*uri); ++uri) if (*uri != ' ' && deferred_error == rrl_none) deferred_error = rrl_badwhitespace; *ll = '\0'; if (!*uri && deferred_error == rrl_none) deferred_error = rrl_missinguri; /* Scan the URI up to the next whitespace, ensure it contains no raw * control characters, otherwise mark in error */ ll = (char*) ap_scan_vchar_obstext(uri); if (ll == uri || (*ll && !apr_isspace(*ll))) { deferred_error = rrl_baduri; ll = strpbrk(ll, "\t\n\v\f\r "); } /* Verify URI terminated with a single SP, or mark as specific error */ if (!ll) { r->protocol = ""; len = 0; goto rrl_done; } else if (strict && ll[0] && apr_isspace(ll[1]) && deferred_error == rrl_none) { deferred_error = rrl_excesswhitespace; } /* Advance protocol pointer over leading whitespace, NUL terminate the uri * If non-SP whitespace is encountered, mark as specific error */ for (r->protocol = ll; apr_isspace(*r->protocol); ++r->protocol) if (*r->protocol != ' ' && deferred_error == rrl_none) deferred_error = rrl_badwhitespace; *ll = '\0'; /* Scan the protocol up to the next whitespace, validation comes later */ if (!(ll = (char*) ap_scan_vchar_obstext(r->protocol))) { len = strlen(r->protocol); goto rrl_done; } len = ll - r->protocol; /* Advance over trailing whitespace, if found mark in error, * determine if trailing text is found, unconditionally mark in error, * finally NUL terminate the protocol string */ if (*ll && !apr_isspace(*ll)) { deferred_error = rrl_badprotocol; } else if (strict && *ll) { deferred_error = rrl_excesswhitespace; } else { for ( ; apr_isspace(*ll); ++ll) if (*ll != ' ' && deferred_error == rrl_none) deferred_error = rrl_badwhitespace; if (*ll && deferred_error == rrl_none) deferred_error = rrl_trailingtext; } *((char *)r->protocol + len) = '\0'; rrl_done: /* For internal integrity and palloc efficiency, reconstruct the_request * in one palloc, using only single SP characters, per spec. */ r->the_request = apr_pstrcat(r->pool, r->method, *uri ? " " : NULL, uri, *r->protocol ? " " : NULL, r->protocol, NULL); if (len == 8 && r->protocol[0] == 'H' && r->protocol[1] == 'T' && r->protocol[2] == 'T' && r->protocol[3] == 'P' && r->protocol[4] == '/' && apr_isdigit(r->protocol[5]) && r->protocol[6] == '.' && apr_isdigit(r->protocol[7]) && r->protocol[5] != '0') { r->assbackwards = 0; r->proto_num = HTTP_VERSION(r->protocol[5] - '0', r->protocol[7] - '0'); } else if (len == 8 && (r->protocol[0] == 'H' || r->protocol[0] == 'h') && (r->protocol[1] == 'T' || r->protocol[1] == 't') && (r->protocol[2] == 'T' || r->protocol[2] == 't') && (r->protocol[3] == 'P' || r->protocol[3] == 'p') && r->protocol[4] == '/' && apr_isdigit(r->protocol[5]) && r->protocol[6] == '.' && apr_isdigit(r->protocol[7]) && r->protocol[5] != '0') { r->assbackwards = 0; r->proto_num = HTTP_VERSION(r->protocol[5] - '0', r->protocol[7] - '0'); if (strict && deferred_error == rrl_none) deferred_error = rrl_badprotocol; else memcpy((char*)r->protocol, "HTTP", 4); } else if (r->protocol[0]) { r->proto_num = HTTP_VERSION(0, 9); /* Defer setting the r->protocol string till error msg is composed */ if (deferred_error == rrl_none) deferred_error = rrl_badprotocol; } else { r->assbackwards = 1; r->protocol = apr_pstrdup(r->pool, "HTTP/0.9"); r->proto_num = HTTP_VERSION(0, 9); } /* Determine the method_number and parse the uri prior to invoking error * handling, such that these fields are available for substitution */ r->method_number = ap_method_number_of(r->method); if (r->method_number == M_GET && r->method[0] == 'H') r->header_only = 1; ap_parse_uri(r, uri); /* With the request understood, we can consider HTTP/0.9 specific errors */ if (r->proto_num == HTTP_VERSION(0, 9) && deferred_error == rrl_none) { if (conf->http09_enable == AP_HTTP09_DISABLE) deferred_error = rrl_reject09; else if (strict && (r->method_number != M_GET || r->header_only)) deferred_error = rrl_badmethod09; } /* Now that the method, uri and protocol are all processed, * we can safely resume any deferred error reporting */ if (deferred_error != rrl_none) { if (deferred_error == rrl_badmethod) ap_log_rerror(APLOG_MARK, APLOG_DEBUG, 0, r, APLOGNO(03445) "HTTP Request Line; Invalid method token: '%.*s'", field_name_len(r->method), r->method); else if (deferred_error == rrl_badmethod09) ap_log_rerror(APLOG_MARK, APLOG_DEBUG, 0, r, APLOGNO(03444) "HTTP Request Line; Invalid method token: '%.*s'" " (only GET is allowed for HTTP/0.9 requests)", field_name_len(r->method), r->method); else if (deferred_error == rrl_missinguri) ap_log_rerror(APLOG_MARK, APLOG_DEBUG, 0, r, APLOGNO(03446) "HTTP Request Line; Missing URI"); else if (deferred_error == rrl_baduri) ap_log_rerror(APLOG_MARK, APLOG_DEBUG, 0, r, APLOGNO(03454) "HTTP Request Line; URI incorrectly encoded: '%.*s'", field_name_len(r->unparsed_uri), r->unparsed_uri); else if (deferred_error == rrl_badwhitespace) ap_log_rerror(APLOG_MARK, APLOG_DEBUG, 0, r, APLOGNO(03447) "HTTP Request Line; Invalid whitespace"); else if (deferred_error == rrl_excesswhitespace) ap_log_rerror(APLOG_MARK, APLOG_DEBUG, 0, r, APLOGNO(03448) "HTTP Request Line; Excess whitespace " "(disallowed by HttpProtocolOptions Strict"); else if (deferred_error == rrl_trailingtext) ap_log_rerror(APLOG_MARK, APLOG_DEBUG, 0, r, APLOGNO(03449) "HTTP Request Line; Extraneous text found '%.*s' " "(perhaps whitespace was injected?)", field_name_len(ll), ll); else if (deferred_error == rrl_reject09) ap_log_rerror(APLOG_MARK, APLOG_DEBUG, 0, r, APLOGNO(02401) "HTTP Request Line; Rejected HTTP/0.9 request"); else if (deferred_error == rrl_badprotocol) ap_log_rerror(APLOG_MARK, APLOG_DEBUG, 0, r, APLOGNO(02418) "HTTP Request Line; Unrecognized protocol '%.*s' " "(perhaps whitespace was injected?)", field_name_len(r->protocol), r->protocol); r->status = HTTP_BAD_REQUEST; goto rrl_failed; } if (conf->http_methods == AP_HTTP_METHODS_REGISTERED && r->method_number == M_INVALID) { ap_log_rerror(APLOG_MARK, APLOG_DEBUG, 0, r, APLOGNO(02423) "HTTP Request Line; Unrecognized HTTP method: '%.*s' " "(disallowed by RegisteredMethods)", field_name_len(r->method), r->method); r->status = HTTP_NOT_IMPLEMENTED; /* This can't happen in an HTTP/0.9 request, we verified GET above */ return 0; } if (r->status != HTTP_OK) { ap_log_rerror(APLOG_MARK, APLOG_DEBUG, 0, r, APLOGNO(03450) "HTTP Request Line; Unable to parse URI: '%.*s'", field_name_len(r->uri), r->uri); goto rrl_failed; } if (strict) { if (r->parsed_uri.fragment) { /* RFC3986 3.5: no fragment */ ap_log_rerror(APLOG_MARK, APLOG_DEBUG, 0, r, APLOGNO(02421) "HTTP Request Line; URI must not contain a fragment"); r->status = HTTP_BAD_REQUEST; goto rrl_failed; } if (r->parsed_uri.user || r->parsed_uri.password) { ap_log_rerror(APLOG_MARK, APLOG_DEBUG, 0, r, APLOGNO(02422) "HTTP Request Line; URI must not contain a " "username/password"); r->status = HTTP_BAD_REQUEST; goto rrl_failed; } } return 1; rrl_failed: if (r->proto_num == HTTP_VERSION(0, 9)) { /* Send all parsing and protocol error response with 1.x behavior, * and reserve 505 errors for actual HTTP protocols presented. * As called out in RFC7230 3.5, any errors parsing the protocol * from the request line are nearly always misencoded HTTP/1.x * requests. Only a valid 0.9 request with no parsing errors * at all may be treated as a simple request, if allowed. */ r->assbackwards = 0; r->connection->keepalive = AP_CONN_CLOSE; r->proto_num = HTTP_VERSION(1, 0); r->protocol = apr_pstrdup(r->pool, "HTTP/1.0"); } return 0; } static int table_do_fn_check_lengths(void *r_, const char *key, const char *value) { request_rec *r = r_; if (value == NULL || r->server->limit_req_fieldsize >= strlen(value) ) return 1; r->status = HTTP_BAD_REQUEST; apr_table_setn(r->notes, "error-notes", "Size of a request header field exceeds server limit."); ap_log_rerror(APLOG_MARK, APLOG_INFO, 0, r, APLOGNO(00560) "Request " "header exceeds LimitRequestFieldSize after merging: %.*s", field_name_len(key), key); return 0; } AP_DECLARE(void) ap_get_mime_headers_core(request_rec *r, apr_bucket_brigade *bb) { char *last_field = NULL; apr_size_t last_len = 0; apr_size_t alloc_len = 0; char *field; char *value; apr_size_t len; int fields_read = 0; char *tmp_field; core_server_config *conf = ap_get_core_module_config(r->server->module_config); int strict = (conf->http_conformance != AP_HTTP_CONFORMANCE_UNSAFE); /* * Read header lines until we get the empty separator line, a read error, * the connection closes (EOF), reach the server limit, or we timeout. */ while(1) { apr_status_t rv; field = NULL; rv = ap_rgetline(&field, r->server->limit_req_fieldsize + 2, &len, r, strict ? AP_GETLINE_CRLF : 0, bb); if (rv != APR_SUCCESS) { if (APR_STATUS_IS_TIMEUP(rv)) { r->status = HTTP_REQUEST_TIME_OUT; } else { ap_log_rerror(APLOG_MARK, APLOG_DEBUG, rv, r, "Failed to read request header line %s", field); r->status = HTTP_BAD_REQUEST; } /* ap_rgetline returns APR_ENOSPC if it fills up the buffer before * finding the end-of-line. This is only going to happen if it * exceeds the configured limit for a field size. */ if (rv == APR_ENOSPC) { apr_table_setn(r->notes, "error-notes", "Size of a request header field " "exceeds server limit."); ap_log_rerror(APLOG_MARK, APLOG_INFO, 0, r, APLOGNO(00561) "Request header exceeds LimitRequestFieldSize%s" "%.*s", (field && *field) ? ": " : "", (field) ? field_name_len(field) : 0, (field) ? field : ""); } return; } /* For all header values, and all obs-fold lines, the presence of * additional whitespace is a no-op, so collapse trailing whitespace * to save buffer allocation and optimize copy operations. * Do not remove the last single whitespace under any condition. */ while (len > 1 && (field[len-1] == '\t' || field[len-1] == ' ')) { field[--len] = '\0'; } if (*field == '\t' || *field == ' ') { /* Append any newly-read obs-fold line onto the preceding * last_field line we are processing */ apr_size_t fold_len; if (last_field == NULL) { r->status = HTTP_BAD_REQUEST; ap_log_rerror(APLOG_MARK, APLOG_DEBUG, 0, r, APLOGNO(03442) "Line folding encountered before first" " header line"); return; } if (field[1] == '\0') { r->status = HTTP_BAD_REQUEST; ap_log_rerror(APLOG_MARK, APLOG_DEBUG, 0, r, APLOGNO(03443) "Empty folded line encountered"); return; } /* Leading whitespace on an obs-fold line can be * similarly discarded */ while (field[1] == '\t' || field[1] == ' ') { ++field; --len; } /* This line is a continuation of the preceding line(s), * so append it to the line that we've set aside. * Note: this uses a power-of-two allocator to avoid * doing O(n) allocs and using O(n^2) space for * continuations that span many many lines. */ fold_len = last_len + len + 1; /* trailing null */ if (fold_len >= (apr_size_t)(r->server->limit_req_fieldsize)) { r->status = HTTP_BAD_REQUEST; /* report what we have accumulated so far before the * overflow (last_field) as the field with the problem */ apr_table_setn(r->notes, "error-notes", "Size of a request header field " "exceeds server limit."); ap_log_rerror(APLOG_MARK, APLOG_INFO, 0, r, APLOGNO(00562) "Request header exceeds LimitRequestFieldSize " "after folding: %.*s", field_name_len(last_field), last_field); return; } if (fold_len > alloc_len) { char *fold_buf; alloc_len += alloc_len; if (fold_len > alloc_len) { alloc_len = fold_len; } fold_buf = (char *)apr_palloc(r->pool, alloc_len); memcpy(fold_buf, last_field, last_len); last_field = fold_buf; } memcpy(last_field + last_len, field, len +1); /* +1 for nul */ /* Replace obs-fold w/ SP per RFC 7230 3.2.4 */ last_field[last_len] = ' '; last_len += len; /* We've appended this obs-fold line to last_len, proceed to * read the next input line */ continue; } else if (last_field != NULL) { /* Process the previous last_field header line with all obs-folded * segments already concatenated (this is not operating on the * most recently read input line). */ if (r->server->limit_req_fields && (++fields_read > r->server->limit_req_fields)) { r->status = HTTP_BAD_REQUEST; apr_table_setn(r->notes, "error-notes", "The number of request header fields " "exceeds this server's limit."); ap_log_rerror(APLOG_MARK, APLOG_INFO, 0, r, APLOGNO(00563) "Number of request headers exceeds " "LimitRequestFields"); return; } if (!strict) { /* Not Strict ('Unsafe' mode), using the legacy parser */ if (!(value = strchr(last_field, ':'))) { /* Find ':' or */ r->status = HTTP_BAD_REQUEST; /* abort bad request */ ap_log_rerror(APLOG_MARK, APLOG_DEBUG, 0, r, APLOGNO(00564) "Request header field is missing ':' " "separator: %.*s", (int)LOG_NAME_MAX_LEN, last_field); return; } if (value == last_field) { r->status = HTTP_BAD_REQUEST; ap_log_rerror(APLOG_MARK, APLOG_DEBUG, 0, r, APLOGNO(03453) "Request header field name was empty"); return; } *value++ = '\0'; /* NUL-terminate at colon */ if (strpbrk(last_field, "\t\n\v\f\r ")) { r->status = HTTP_BAD_REQUEST; ap_log_rerror(APLOG_MARK, APLOG_DEBUG, 0, r, APLOGNO(03452) "Request header field name presented" " invalid whitespace"); return; } while (*value == ' ' || *value == '\t') { ++value; /* Skip to start of value */ } if (strpbrk(value, "\n\v\f\r")) { r->status = HTTP_BAD_REQUEST; ap_log_rerror(APLOG_MARK, APLOG_DEBUG, 0, r, APLOGNO(03451) "Request header field value presented" " bad whitespace"); return; } } else /* Using strict RFC7230 parsing */ { /* Ensure valid token chars before ':' per RFC 7230 3.2.4 */ value = (char *)ap_scan_http_token(last_field); if ((value == last_field) || *value != ':') { r->status = HTTP_BAD_REQUEST; ap_log_rerror(APLOG_MARK, APLOG_DEBUG, 0, r, APLOGNO(02426) "Request header field name is malformed: " "%.*s", (int)LOG_NAME_MAX_LEN, last_field); return; } *value++ = '\0'; /* NUL-terminate last_field name at ':' */ while (*value == ' ' || *value == '\t') { ++value; /* Skip LWS of value */ } /* Find invalid, non-HT ctrl char, or the trailing NULL */ tmp_field = (char *)ap_scan_http_field_content(value); /* Reject value for all garbage input (CTRLs excluding HT) * e.g. only VCHAR / SP / HT / obs-text are allowed per * RFC7230 3.2.6 - leave all more explicit rule enforcement * for specific header handler logic later in the cycle */ if (*tmp_field != '\0') { r->status = HTTP_BAD_REQUEST; ap_log_rerror(APLOG_MARK, APLOG_DEBUG, 0, r, APLOGNO(02427) "Request header value is malformed: " "%.*s", (int)LOG_NAME_MAX_LEN, value); return; } } apr_table_addn(r->headers_in, last_field, value); /* This last_field header is now stored in headers_in, * resume processing of the current input line. */ } /* Found the terminating empty end-of-headers line, stop. */ if (len == 0) { break; } /* Keep track of this new header line so that we can extend it across * any obs-fold or parse it on the next loop iteration. We referenced * our previously allocated buffer in r->headers_in, * so allocate a fresh buffer if required. */ alloc_len = 0; last_field = field; last_len = len; } /* Combine multiple message-header fields with the same * field-name, following RFC 2616, 4.2. */ apr_table_compress(r->headers_in, APR_OVERLAP_TABLES_MERGE); /* enforce LimitRequestFieldSize for merged headers */ apr_table_do(table_do_fn_check_lengths, r, r->headers_in, NULL); } AP_DECLARE(void) ap_get_mime_headers(request_rec *r) { apr_bucket_brigade *tmp_bb; tmp_bb = apr_brigade_create(r->pool, r->connection->bucket_alloc); ap_get_mime_headers_core(r, tmp_bb); apr_brigade_destroy(tmp_bb); } request_rec *ap_read_request(conn_rec *conn) { request_rec *r; apr_pool_t *p; const char *expect; int access_status; apr_bucket_brigade *tmp_bb; apr_socket_t *csd; apr_interval_time_t cur_timeout; apr_pool_create(&p, conn->pool); apr_pool_tag(p, "request"); r = apr_pcalloc(p, sizeof(request_rec)); AP_READ_REQUEST_ENTRY((intptr_t)r, (uintptr_t)conn); r->pool = p; r->connection = conn; r->server = conn->base_server; r->user = NULL; r->ap_auth_type = NULL; r->allowed_methods = ap_make_method_list(p, 2); r->headers_in = apr_table_make(r->pool, 25); r->trailers_in = apr_table_make(r->pool, 5); r->subprocess_env = apr_table_make(r->pool, 25); r->headers_out = apr_table_make(r->pool, 12); r->err_headers_out = apr_table_make(r->pool, 5); r->trailers_out = apr_table_make(r->pool, 5); r->notes = apr_table_make(r->pool, 5); r->request_config = ap_create_request_config(r->pool); /* Must be set before we run create request hook */ r->proto_output_filters = conn->output_filters; r->output_filters = r->proto_output_filters; r->proto_input_filters = conn->input_filters; r->input_filters = r->proto_input_filters; ap_run_create_request(r); r->per_dir_config = r->server->lookup_defaults; r->sent_bodyct = 0; /* bytect isn't for body */ r->read_length = 0; r->read_body = REQUEST_NO_BODY; r->status = HTTP_OK; /* Until further notice */ r->the_request = NULL; /* Begin by presuming any module can make its own path_info assumptions, * until some module interjects and changes the value. */ r->used_path_info = AP_REQ_DEFAULT_PATH_INFO; r->useragent_addr = conn->client_addr; r->useragent_ip = conn->client_ip; tmp_bb = apr_brigade_create(r->pool, r->connection->bucket_alloc); ap_run_pre_read_request(r, conn); /* Get the request... */ if (!read_request_line(r, tmp_bb)) { switch (r->status) { case HTTP_REQUEST_URI_TOO_LARGE: case HTTP_BAD_REQUEST: case HTTP_VERSION_NOT_SUPPORTED: case HTTP_NOT_IMPLEMENTED: if (r->status == HTTP_REQUEST_URI_TOO_LARGE) { ap_log_rerror(APLOG_MARK, APLOG_INFO, 0, r, APLOGNO(00565) "request failed: client's request-line exceeds LimitRequestLine (longer than %d)", r->server->limit_req_line); } else if (r->method == NULL) { ap_log_rerror(APLOG_MARK, APLOG_DEBUG, 0, r, APLOGNO(00566) "request failed: malformed request line"); } access_status = r->status; r->status = HTTP_OK; ap_die(access_status, r); ap_update_child_status(conn->sbh, SERVER_BUSY_LOG, r); ap_run_log_transaction(r); r = NULL; apr_brigade_destroy(tmp_bb); goto traceout; case HTTP_REQUEST_TIME_OUT: ap_update_child_status(conn->sbh, SERVER_BUSY_LOG, NULL); if (!r->connection->keepalives) ap_run_log_transaction(r); apr_brigade_destroy(tmp_bb); goto traceout; default: apr_brigade_destroy(tmp_bb); r = NULL; goto traceout; } } /* We may have been in keep_alive_timeout mode, so toggle back * to the normal timeout mode as we fetch the header lines, * as necessary. */ csd = ap_get_conn_socket(conn); apr_socket_timeout_get(csd, &cur_timeout); if (cur_timeout != conn->base_server->timeout) { apr_socket_timeout_set(csd, conn->base_server->timeout); cur_timeout = conn->base_server->timeout; } if (!r->assbackwards) { const char *tenc; ap_get_mime_headers_core(r, tmp_bb); if (r->status != HTTP_OK) { ap_log_rerror(APLOG_MARK, APLOG_DEBUG, 0, r, APLOGNO(00567) "request failed: error reading the headers"); ap_send_error_response(r, 0); ap_update_child_status(conn->sbh, SERVER_BUSY_LOG, r); ap_run_log_transaction(r); apr_brigade_destroy(tmp_bb); goto traceout; } tenc = apr_table_get(r->headers_in, "Transfer-Encoding"); if (tenc) { /* http://tools.ietf.org/html/draft-ietf-httpbis-p1-messaging-23 * Section 3.3.3.3: "If a Transfer-Encoding header field is * present in a request and the chunked transfer coding is not * the final encoding ...; the server MUST respond with the 400 * (Bad Request) status code and then close the connection". */ if (!(strcasecmp(tenc, "chunked") == 0 /* fast path */ || ap_find_last_token(r->pool, tenc, "chunked"))) { ap_log_rerror(APLOG_MARK, APLOG_DEBUG, 0, r, APLOGNO(02539) "client sent unknown Transfer-Encoding " "(%s): %s", tenc, r->uri); r->status = HTTP_BAD_REQUEST; conn->keepalive = AP_CONN_CLOSE; ap_send_error_response(r, 0); ap_update_child_status(conn->sbh, SERVER_BUSY_LOG, r); ap_run_log_transaction(r); apr_brigade_destroy(tmp_bb); goto traceout; } /* http://tools.ietf.org/html/draft-ietf-httpbis-p1-messaging-23 * Section 3.3.3.3: "If a message is received with both a * Transfer-Encoding and a Content-Length header field, the * Transfer-Encoding overrides the Content-Length. ... A sender * MUST remove the received Content-Length field". */ apr_table_unset(r->headers_in, "Content-Length"); } } apr_brigade_destroy(tmp_bb); /* update what we think the virtual host is based on the headers we've * now read. may update status. */ ap_update_vhost_from_headers(r); access_status = r->status; /* Toggle to the Host:-based vhost's timeout mode to fetch the * request body and send the response body, if needed. */ if (cur_timeout != r->server->timeout) { apr_socket_timeout_set(csd, r->server->timeout); cur_timeout = r->server->timeout; } /* we may have switched to another server */ r->per_dir_config = r->server->lookup_defaults; if ((!r->hostname && (r->proto_num >= HTTP_VERSION(1, 1))) || ((r->proto_num == HTTP_VERSION(1, 1)) && !apr_table_get(r->headers_in, "Host"))) { /* * Client sent us an HTTP/1.1 or later request without telling us the * hostname, either with a full URL or a Host: header. We therefore * need to (as per the 1.1 spec) send an error. As a special case, * HTTP/1.1 mentions twice (S9, S14.23) that a request MUST contain * a Host: header, and the server MUST respond with 400 if it doesn't. */ access_status = HTTP_BAD_REQUEST; ap_log_rerror(APLOG_MARK, APLOG_DEBUG, 0, r, APLOGNO(00569) "client sent HTTP/1.1 request without hostname " "(see RFC2616 section 14.23): %s", r->uri); } /* * Add the HTTP_IN filter here to ensure that ap_discard_request_body * called by ap_die and by ap_send_error_response works correctly on * status codes that do not cause the connection to be dropped and * in situations where the connection should be kept alive. */ ap_add_input_filter_handle(ap_http_input_filter_handle, NULL, r, r->connection); if (access_status != HTTP_OK || (access_status = ap_run_post_read_request(r))) { ap_die(access_status, r); ap_update_child_status(conn->sbh, SERVER_BUSY_LOG, r); ap_run_log_transaction(r); r = NULL; goto traceout; } if (((expect = apr_table_get(r->headers_in, "Expect")) != NULL) && (expect[0] != '\0')) { /* * The Expect header field was added to HTTP/1.1 after RFC 2068 * as a means to signal when a 100 response is desired and, * unfortunately, to signal a poor man's mandatory extension that * the server must understand or return 417 Expectation Failed. */ if (strcasecmp(expect, "100-continue") == 0) { r->expecting_100 = 1; } else { r->status = HTTP_EXPECTATION_FAILED; ap_log_rerror(APLOG_MARK, APLOG_INFO, 0, r, APLOGNO(00570) "client sent an unrecognized expectation value of " "Expect: %s", expect); ap_send_error_response(r, 0); ap_update_child_status(conn->sbh, SERVER_BUSY_LOG, r); ap_run_log_transaction(r); goto traceout; } } AP_READ_REQUEST_SUCCESS((uintptr_t)r, (char *)r->method, (char *)r->uri, (char *)r->server->defn_name, r->status); return r; traceout: AP_READ_REQUEST_FAILURE((uintptr_t)r); return r; } /* if a request with a body creates a subrequest, remove original request's * input headers which pertain to the body which has already been read. * out-of-line helper function for ap_set_sub_req_protocol. */ static void strip_headers_request_body(request_rec *rnew) { apr_table_unset(rnew->headers_in, "Content-Encoding"); apr_table_unset(rnew->headers_in, "Content-Language"); apr_table_unset(rnew->headers_in, "Content-Length"); apr_table_unset(rnew->headers_in, "Content-Location"); apr_table_unset(rnew->headers_in, "Content-MD5"); apr_table_unset(rnew->headers_in, "Content-Range"); apr_table_unset(rnew->headers_in, "Content-Type"); apr_table_unset(rnew->headers_in, "Expires"); apr_table_unset(rnew->headers_in, "Last-Modified"); apr_table_unset(rnew->headers_in, "Transfer-Encoding"); } /* * A couple of other functions which initialize some of the fields of * a request structure, as appropriate for adjuncts of one kind or another * to a request in progress. Best here, rather than elsewhere, since * *someone* has to set the protocol-specific fields... */ AP_DECLARE(void) ap_set_sub_req_protocol(request_rec *rnew, const request_rec *r) { rnew->the_request = r->the_request; /* Keep original request-line */ rnew->assbackwards = 1; /* Don't send headers from this. */ rnew->no_local_copy = 1; /* Don't try to send HTTP_NOT_MODIFIED for a * fragment. */ rnew->method = "GET"; rnew->method_number = M_GET; rnew->protocol = "INCLUDED"; rnew->status = HTTP_OK; rnew->headers_in = apr_table_copy(rnew->pool, r->headers_in); rnew->trailers_in = apr_table_copy(rnew->pool, r->trailers_in); /* did the original request have a body? (e.g. POST w/SSI tags) * if so, make sure the subrequest doesn't inherit body headers */ if (!r->kept_body && (apr_table_get(r->headers_in, "Content-Length") || apr_table_get(r->headers_in, "Transfer-Encoding"))) { strip_headers_request_body(rnew); } rnew->subprocess_env = apr_table_copy(rnew->pool, r->subprocess_env); rnew->headers_out = apr_table_make(rnew->pool, 5); rnew->err_headers_out = apr_table_make(rnew->pool, 5); rnew->trailers_out = apr_table_make(rnew->pool, 5); rnew->notes = apr_table_make(rnew->pool, 5); rnew->expecting_100 = r->expecting_100; rnew->read_length = r->read_length; rnew->read_body = REQUEST_NO_BODY; rnew->main = (request_rec *) r; } static void end_output_stream(request_rec *r) { conn_rec *c = r->connection; apr_bucket_brigade *bb; apr_bucket *b; bb = apr_brigade_create(r->pool, c->bucket_alloc); b = apr_bucket_eos_create(c->bucket_alloc); APR_BRIGADE_INSERT_TAIL(bb, b); ap_pass_brigade(r->output_filters, bb); } AP_DECLARE(void) ap_finalize_sub_req_protocol(request_rec *sub) { /* tell the filter chain there is no more content coming */ if (!sub->eos_sent) { end_output_stream(sub); } } /* finalize_request_protocol is called at completion of sending the * response. Its sole purpose is to send the terminating protocol * information for any wrappers around the response message body * (i.e., transfer encodings). It should have been named finalize_response. */ AP_DECLARE(void) ap_finalize_request_protocol(request_rec *r) { (void) ap_discard_request_body(r); /* tell the filter chain there is no more content coming */ if (!r->eos_sent) { end_output_stream(r); } } /* * Support for the Basic authentication protocol, and a bit for Digest. */ AP_DECLARE(void) ap_note_auth_failure(request_rec *r) { const char *type = ap_auth_type(r); if (type) { ap_run_note_auth_failure(r, type); } else { ap_log_rerror(APLOG_MARK, APLOG_ERR, 0, r, APLOGNO(00571) "need AuthType to note auth failure: %s", r->uri); } } AP_DECLARE(void) ap_note_basic_auth_failure(request_rec *r) { ap_note_auth_failure(r); } AP_DECLARE(void) ap_note_digest_auth_failure(request_rec *r) { ap_note_auth_failure(r); } AP_DECLARE(int) ap_get_basic_auth_pw(request_rec *r, const char **pw) { const char *auth_line = apr_table_get(r->headers_in, (PROXYREQ_PROXY == r->proxyreq) ? "Proxy-Authorization" : "Authorization"); const char *t; if (!(t = ap_auth_type(r)) || strcasecmp(t, "Basic")) return DECLINED; if (!ap_auth_name(r)) { ap_log_rerror(APLOG_MARK, APLOG_ERR, 0, r, APLOGNO(00572) "need AuthName: %s", r->uri); return HTTP_INTERNAL_SERVER_ERROR; } if (!auth_line) { ap_note_auth_failure(r); return HTTP_UNAUTHORIZED; } if (strcasecmp(ap_getword(r->pool, &auth_line, ' '), "Basic")) { /* Client tried to authenticate using wrong auth scheme */ ap_log_rerror(APLOG_MARK, APLOG_INFO, 0, r, APLOGNO(00573) "client used wrong authentication scheme: %s", r->uri); ap_note_auth_failure(r); return HTTP_UNAUTHORIZED; } while (*auth_line == ' ' || *auth_line == '\t') { auth_line++; } t = ap_pbase64decode(r->pool, auth_line); r->user = ap_getword_nulls (r->pool, &t, ':'); apr_table_setn(r->notes, AP_GET_BASIC_AUTH_PW_NOTE, "1"); r->ap_auth_type = "Basic"; *pw = t; return OK; } AP_DECLARE(apr_status_t) ap_get_basic_auth_components(const request_rec *r, const char **username, const char **password) { const char *auth_header; const char *credentials; const char *decoded; const char *user; auth_header = (PROXYREQ_PROXY == r->proxyreq) ? "Proxy-Authorization" : "Authorization"; credentials = apr_table_get(r->headers_in, auth_header); if (!credentials) { /* No auth header. */ return APR_EINVAL; } if (ap_cstr_casecmp(ap_getword(r->pool, &credentials, ' '), "Basic")) { /* These aren't Basic credentials. */ return APR_EINVAL; } while (*credentials == ' ' || *credentials == '\t') { credentials++; } /* XXX Our base64 decoding functions don't actually error out if the string * we give it isn't base64; they'll just silently stop and hand us whatever * they've parsed up to that point. * * Since this function is supposed to be a drop-in replacement for the * deprecated ap_get_basic_auth_pw(), don't fix this for 2.4.x. */ decoded = ap_pbase64decode(r->pool, credentials); user = ap_getword_nulls(r->pool, &decoded, ':'); if (username) { *username = user; } if (password) { *password = decoded; } return APR_SUCCESS; } struct content_length_ctx { int data_sent; /* true if the C-L filter has already sent at * least one bucket on to the next output filter * for this request */ apr_bucket_brigade *tmpbb; }; /* This filter computes the content length, but it also computes the number * of bytes sent to the client. This means that this filter will always run * through all of the buckets in all brigades */ AP_CORE_DECLARE_NONSTD(apr_status_t) ap_content_length_filter( ap_filter_t *f, apr_bucket_brigade *b) { request_rec *r = f->r; struct content_length_ctx *ctx; apr_bucket *e; int eos = 0; apr_read_type_e eblock = APR_NONBLOCK_READ; ctx = f->ctx; if (!ctx) { f->ctx = ctx = apr_palloc(r->pool, sizeof(*ctx)); ctx->data_sent = 0; ctx->tmpbb = apr_brigade_create(r->pool, r->connection->bucket_alloc); } /* Loop through the brigade to count the length. To avoid * arbitrary memory consumption with morphing bucket types, this * loop will stop and pass on the brigade when necessary. */ e = APR_BRIGADE_FIRST(b); while (e != APR_BRIGADE_SENTINEL(b)) { apr_status_t rv; if (APR_BUCKET_IS_EOS(e)) { eos = 1; break; } /* For a flush bucket, fall through to pass the brigade and * flush now. */ else if (APR_BUCKET_IS_FLUSH(e)) { e = APR_BUCKET_NEXT(e); } /* For metadata bucket types other than FLUSH, loop. */ else if (APR_BUCKET_IS_METADATA(e)) { e = APR_BUCKET_NEXT(e); continue; } /* For determinate length data buckets, count the length and * continue. */ else if (e->length != (apr_size_t)-1) { r->bytes_sent += e->length; e = APR_BUCKET_NEXT(e); continue; } /* For indeterminate length data buckets, perform one read. */ else /* e->length == (apr_size_t)-1 */ { apr_size_t len; const char *ignored; rv = apr_bucket_read(e, &ignored, &len, eblock); if ((rv != APR_SUCCESS) && !APR_STATUS_IS_EAGAIN(rv)) { ap_log_rerror(APLOG_MARK, APLOG_ERR, rv, r, APLOGNO(00574) "ap_content_length_filter: " "apr_bucket_read() failed"); return rv; } if (rv == APR_SUCCESS) { eblock = APR_NONBLOCK_READ; e = APR_BUCKET_NEXT(e); r->bytes_sent += len; } else if (APR_STATUS_IS_EAGAIN(rv)) { apr_bucket *flush; /* Next read must block. */ eblock = APR_BLOCK_READ; /* Ensure the last bucket to pass down is a flush if * the next read will block. */ flush = apr_bucket_flush_create(f->c->bucket_alloc); APR_BUCKET_INSERT_BEFORE(e, flush); } } /* Optimization: if the next bucket is EOS (directly after a * bucket morphed to the heap, or a flush), short-cut to * handle EOS straight away - allowing C-L to be determined * for content which is already entirely in memory. */ if (e != APR_BRIGADE_SENTINEL(b) && APR_BUCKET_IS_EOS(e)) { continue; } /* On reaching here, pass on everything in the brigade up to * this point. */ apr_brigade_split_ex(b, e, ctx->tmpbb); rv = ap_pass_brigade(f->next, b); if (rv != APR_SUCCESS) { return rv; } else if (f->c->aborted) { return APR_ECONNABORTED; } apr_brigade_cleanup(b); APR_BRIGADE_CONCAT(b, ctx->tmpbb); e = APR_BRIGADE_FIRST(b); ctx->data_sent = 1; } /* If we've now seen the entire response and it's otherwise * okay to set the C-L in the response header, then do so now. * * We can only set a C-L in the response header if we haven't already * sent any buckets on to the next output filter for this request. */ if (ctx->data_sent == 0 && eos && /* don't whack the C-L if it has already been set for a HEAD * by something like proxy. the brigade only has an EOS bucket * in this case, making r->bytes_sent zero. * * if r->bytes_sent > 0 we have a (temporary) body whose length may * have been changed by a filter. the C-L header might not have been * updated so we do it here. long term it would be cleaner to have * such filters update or remove the C-L header, and just use it * if present. */ !((r->header_only || AP_STATUS_IS_HEADER_ONLY(r->status)) && r->bytes_sent == 0 && apr_table_get(r->headers_out, "Content-Length"))) { ap_set_content_length(r, r->bytes_sent); } ctx->data_sent = 1; return ap_pass_brigade(f->next, b); } /* * Send the body of a response to the client. */ AP_DECLARE(apr_status_t) ap_send_fd(apr_file_t *fd, request_rec *r, apr_off_t offset, apr_size_t len, apr_size_t *nbytes) { conn_rec *c = r->connection; apr_bucket_brigade *bb = NULL; apr_status_t rv; bb = apr_brigade_create(r->pool, c->bucket_alloc); apr_brigade_insert_file(bb, fd, offset, len, r->pool); rv = ap_pass_brigade(r->output_filters, bb); if (rv != APR_SUCCESS) { *nbytes = 0; /* no way to tell how many were actually sent */ } else { *nbytes = len; } return rv; } #if APR_HAS_MMAP /* send data from an in-memory buffer */ AP_DECLARE(apr_size_t) ap_send_mmap(apr_mmap_t *mm, request_rec *r, apr_size_t offset, apr_size_t length) { conn_rec *c = r->connection; apr_bucket_brigade *bb = NULL; apr_bucket *b; bb = apr_brigade_create(r->pool, c->bucket_alloc); b = apr_bucket_mmap_create(mm, offset, length, c->bucket_alloc); APR_BRIGADE_INSERT_TAIL(bb, b); ap_pass_brigade(r->output_filters, bb); return mm->size; /* XXX - change API to report apr_status_t? */ } #endif /* APR_HAS_MMAP */ typedef struct { apr_bucket_brigade *bb; apr_bucket_brigade *tmpbb; } old_write_filter_ctx; AP_CORE_DECLARE_NONSTD(apr_status_t) ap_old_write_filter( ap_filter_t *f, apr_bucket_brigade *bb) { old_write_filter_ctx *ctx = f->ctx; AP_DEBUG_ASSERT(ctx); if (ctx->bb != NULL) { /* whatever is coming down the pipe (we don't care), we * can simply insert our buffered data at the front and * pass the whole bundle down the chain. */ APR_BRIGADE_PREPEND(bb, ctx->bb); } return ap_pass_brigade(f->next, bb); } static ap_filter_t *insert_old_write_filter(request_rec *r) { ap_filter_t *f; old_write_filter_ctx *ctx; /* future optimization: record some flags in the request_rec to * say whether we've added our filter, and whether it is first. */ /* this will typically exit on the first test */ for (f = r->output_filters; f != NULL; f = f->next) { if (ap_old_write_func == f->frec) break; } if (f == NULL) { /* our filter hasn't been added yet */ ctx = apr_pcalloc(r->pool, sizeof(*ctx)); ctx->tmpbb = apr_brigade_create(r->pool, r->connection->bucket_alloc); ap_add_output_filter("OLD_WRITE", ctx, r, r->connection); f = r->output_filters; } return f; } static apr_status_t buffer_output(request_rec *r, const char *str, apr_size_t len) { conn_rec *c = r->connection; ap_filter_t *f; old_write_filter_ctx *ctx; if (len == 0) return APR_SUCCESS; f = insert_old_write_filter(r); ctx = f->ctx; /* if the first filter is not our buffering filter, then we have to * deliver the content through the normal filter chain */ if (f != r->output_filters) { apr_status_t rv; apr_bucket *b = apr_bucket_transient_create(str, len, c->bucket_alloc); APR_BRIGADE_INSERT_TAIL(ctx->tmpbb, b); rv = ap_pass_brigade(r->output_filters, ctx->tmpbb); apr_brigade_cleanup(ctx->tmpbb); return rv; } if (ctx->bb == NULL) { ctx->bb = apr_brigade_create(r->pool, c->bucket_alloc); } return ap_fwrite(f->next, ctx->bb, str, len); } AP_DECLARE(int) ap_rputc(int c, request_rec *r) { char c2 = (char)c; if (r->connection->aborted) { return -1; } if (buffer_output(r, &c2, 1) != APR_SUCCESS) return -1; return c; } AP_DECLARE(int) ap_rwrite(const void *buf, int nbyte, request_rec *r) { if (r->connection->aborted) return -1; if (buffer_output(r, buf, nbyte) != APR_SUCCESS) return -1; return nbyte; } struct ap_vrprintf_data { apr_vformatter_buff_t vbuff; request_rec *r; char *buff; }; /* Flush callback for apr_vformatter; returns -1 on error. */ static int r_flush(apr_vformatter_buff_t *buff) { /* callback function passed to ap_vformatter to be called when * vformatter needs to write into buff and buff.curpos > buff.endpos */ /* ap_vrprintf_data passed as a apr_vformatter_buff_t, which is then * "downcast" to an ap_vrprintf_data */ struct ap_vrprintf_data *vd = (struct ap_vrprintf_data*)buff; if (vd->r->connection->aborted) return -1; /* r_flush is called when vbuff is completely full */ if (buffer_output(vd->r, vd->buff, AP_IOBUFSIZE)) { return -1; } /* reset the buffer position */ vd->vbuff.curpos = vd->buff; vd->vbuff.endpos = vd->buff + AP_IOBUFSIZE; return 0; } AP_DECLARE(int) ap_vrprintf(request_rec *r, const char *fmt, va_list va) { apr_size_t written; struct ap_vrprintf_data vd; char vrprintf_buf[AP_IOBUFSIZE]; vd.vbuff.curpos = vrprintf_buf; vd.vbuff.endpos = vrprintf_buf + AP_IOBUFSIZE; vd.r = r; vd.buff = vrprintf_buf; if (r->connection->aborted) return -1; written = apr_vformatter(r_flush, &vd.vbuff, fmt, va); if (written != -1) { int n = vd.vbuff.curpos - vrprintf_buf; /* last call to buffer_output, to finish clearing the buffer */ if (buffer_output(r, vrprintf_buf,n) != APR_SUCCESS) return -1; written += n; } return written; } AP_DECLARE_NONSTD(int) ap_rprintf(request_rec *r, const char *fmt, ...) { va_list va; int n; if (r->connection->aborted) return -1; va_start(va, fmt); n = ap_vrprintf(r, fmt, va); va_end(va); return n; } AP_DECLARE_NONSTD(int) ap_rvputs(request_rec *r, ...) { va_list va; const char *s; apr_size_t len; apr_size_t written = 0; if (r->connection->aborted) return -1; /* ### TODO: if the total output is large, put all the strings * ### into a single brigade, rather than flushing each time we * ### fill the buffer */ va_start(va, r); while (1) { s = va_arg(va, const char *); if (s == NULL) break; len = strlen(s); if (buffer_output(r, s, len) != APR_SUCCESS) { return -1; } written += len; } va_end(va); return written; } AP_DECLARE(int) ap_rflush(request_rec *r) { conn_rec *c = r->connection; apr_bucket *b; ap_filter_t *f; old_write_filter_ctx *ctx; apr_status_t rv; f = insert_old_write_filter(r); ctx = f->ctx; b = apr_bucket_flush_create(c->bucket_alloc); APR_BRIGADE_INSERT_TAIL(ctx->tmpbb, b); rv = ap_pass_brigade(r->output_filters, ctx->tmpbb); apr_brigade_cleanup(ctx->tmpbb); if (rv != APR_SUCCESS) return -1; return 0; } /* * This function sets the Last-Modified output header field to the value * of the mtime field in the request structure - rationalized to keep it from * being in the future. */ AP_DECLARE(void) ap_set_last_modified(request_rec *r) { if (!r->assbackwards) { apr_time_t mod_time = ap_rationalize_mtime(r, r->mtime); char *datestr = apr_palloc(r->pool, APR_RFC822_DATE_LEN); apr_rfc822_date(datestr, mod_time); apr_table_setn(r->headers_out, "Last-Modified", datestr); } } typedef struct hdr_ptr { ap_filter_t *f; apr_bucket_brigade *bb; } hdr_ptr; #if APR_CHARSET_EBCDIC static int send_header(void *data, const char *key, const char *val) { char *header_line = NULL; hdr_ptr *hdr = (hdr_ptr*)data; header_line = apr_pstrcat(hdr->bb->p, key, ": ", val, CRLF, NULL); ap_xlate_proto_to_ascii(header_line, strlen(header_line)); ap_fputs(hdr->f, hdr->bb, header_line); return 1; } #else static int send_header(void *data, const char *key, const char *val) { ap_fputstrs(((hdr_ptr*)data)->f, ((hdr_ptr*)data)->bb, key, ": ", val, CRLF, NULL); return 1; } #endif AP_DECLARE(void) ap_send_interim_response(request_rec *r, int send_headers) { hdr_ptr x; char *status_line = NULL; request_rec *rr; if (r->proto_num < HTTP_VERSION(1,1)) { /* don't send interim response to HTTP/1.0 Client */ return; } if (!ap_is_HTTP_INFO(r->status)) { ap_log_rerror(APLOG_MARK, APLOG_DEBUG, 0, r, APLOGNO(00575) "Status is %d - not sending interim response", r->status); return; } if ((r->status == HTTP_CONTINUE) && !r->expecting_100) { /* * Don't send 100-Continue when there was no Expect: 100-continue * in the request headers. For origin servers this is a SHOULD NOT * for proxies it is a MUST NOT according to RFC 2616 8.2.3 */ return; } /* if we send an interim response, we're no longer in a state of * expecting one. Also, this could feasibly be in a subrequest, * so we need to propagate the fact that we responded. */ for (rr = r; rr != NULL; rr = rr->main) { rr->expecting_100 = 0; } status_line = apr_pstrcat(r->pool, AP_SERVER_PROTOCOL, " ", r->status_line, CRLF, NULL); ap_xlate_proto_to_ascii(status_line, strlen(status_line)); x.f = r->connection->output_filters; x.bb = apr_brigade_create(r->pool, r->connection->bucket_alloc); ap_fputs(x.f, x.bb, status_line); if (send_headers) { apr_table_do(send_header, &x, r->headers_out, NULL); apr_table_clear(r->headers_out); } ap_fputs(x.f, x.bb, CRLF_ASCII); ap_fflush(x.f, x.bb); apr_brigade_destroy(x.bb); } /* * Compare two protocol identifier. Result is similar to strcmp(): * 0 gives same precedence, >0 means proto1 is preferred. */ static int protocol_cmp(const apr_array_header_t *preferences, const char *proto1, const char *proto2) { if (preferences && preferences->nelts > 0) { int index1 = ap_array_str_index(preferences, proto1, 0); int index2 = ap_array_str_index(preferences, proto2, 0); if (index2 > index1) { return (index1 >= 0) ? 1 : -1; } else if (index1 > index2) { return (index2 >= 0) ? -1 : 1; } } /* both have the same index (mabye -1 or no pref configured) and we compare * the names so that spdy3 gets precedence over spdy2. That makes * the outcome at least deterministic. */ return strcmp(proto1, proto2); } AP_DECLARE(const char *) ap_get_protocol(conn_rec *c) { const char *protocol = ap_run_protocol_get(c); return protocol? protocol : AP_PROTOCOL_HTTP1; } AP_DECLARE(apr_status_t) ap_get_protocol_upgrades(conn_rec *c, request_rec *r, server_rec *s, int report_all, const apr_array_header_t **pupgrades) { apr_pool_t *pool = r? r->pool : c->pool; core_server_config *conf; const char *existing; apr_array_header_t *upgrades = NULL; if (!s) { s = (r? r->server : c->base_server); } conf = ap_get_core_module_config(s->module_config); if (conf->protocols->nelts > 0) { existing = ap_get_protocol(c); if (conf->protocols->nelts > 1 || !ap_array_str_contains(conf->protocols, existing)) { int i; /* possibly more than one choice or one, but not the * existing. (TODO: maybe 426 and Upgrade then?) */ upgrades = apr_array_make(pool, conf->protocols->nelts + 1, sizeof(char *)); for (i = 0; i < conf->protocols->nelts; i++) { const char *p = APR_ARRAY_IDX(conf->protocols, i, char *); if (strcmp(existing, p)) { /* not the one we have and possible, add in this order */ APR_ARRAY_PUSH(upgrades, const char*) = p; } else if (!report_all) { break; } } } } *pupgrades = upgrades; return APR_SUCCESS; } AP_DECLARE(const char *) ap_select_protocol(conn_rec *c, request_rec *r, server_rec *s, const apr_array_header_t *choices) { apr_pool_t *pool = r? r->pool : c->pool; core_server_config *conf; const char *protocol = NULL, *existing; apr_array_header_t *proposals; if (!s) { s = (r? r->server : c->base_server); } conf = ap_get_core_module_config(s->module_config); if (APLOGcdebug(c)) { const char *p = apr_array_pstrcat(pool, conf->protocols, ','); ap_log_cerror(APLOG_MARK, APLOG_DEBUG, 0, c, APLOGNO(03155) "select protocol from %s, choices=%s for server %s", p, apr_array_pstrcat(pool, choices, ','), s->server_hostname); } if (conf->protocols->nelts <= 0) { /* nothing configured, by default, we only allow http/1.1 here. * For now... */ if (ap_array_str_contains(choices, AP_PROTOCOL_HTTP1)) { return AP_PROTOCOL_HTTP1; } else { return NULL; } } proposals = apr_array_make(pool, choices->nelts + 1, sizeof(char *)); ap_run_protocol_propose(c, r, s, choices, proposals); /* If the existing protocol has not been proposed, but is a choice, * add it to the proposals implicitly. */ existing = ap_get_protocol(c); if (!ap_array_str_contains(proposals, existing) && ap_array_str_contains(choices, existing)) { APR_ARRAY_PUSH(proposals, const char*) = existing; } if (proposals->nelts > 0) { int i; const apr_array_header_t *prefs = NULL; /* Default for protocols_honor_order is 'on' or != 0 */ if (conf->protocols_honor_order == 0 && choices->nelts > 0) { prefs = choices; } else { prefs = conf->protocols; } /* Select the most preferred protocol */ if (APLOGcdebug(c)) { ap_log_cerror(APLOG_MARK, APLOG_DEBUG, 0, c, APLOGNO(03156) "select protocol, proposals=%s preferences=%s configured=%s", apr_array_pstrcat(pool, proposals, ','), apr_array_pstrcat(pool, prefs, ','), apr_array_pstrcat(pool, conf->protocols, ',')); } for (i = 0; i < proposals->nelts; ++i) { const char *p = APR_ARRAY_IDX(proposals, i, const char *); if (!ap_array_str_contains(conf->protocols, p)) { /* not a configured protocol here */ continue; } else if (!protocol || (protocol_cmp(prefs, protocol, p) < 0)) { /* none selected yet or this one has preference */ protocol = p; } } } if (APLOGcdebug(c)) { ap_log_cerror(APLOG_MARK, APLOG_DEBUG, 0, c, APLOGNO(03157) "selected protocol=%s", protocol? protocol : "(none)"); } return protocol; } AP_DECLARE(apr_status_t) ap_switch_protocol(conn_rec *c, request_rec *r, server_rec *s, const char *protocol) { const char *current = ap_get_protocol(c); int rc; if (!strcmp(current, protocol)) { ap_log_cerror(APLOG_MARK, APLOG_WARNING, 0, c, APLOGNO(02906) "already at it, protocol_switch to %s", protocol); return APR_SUCCESS; } rc = ap_run_protocol_switch(c, r, s, protocol); switch (rc) { case DECLINED: ap_log_cerror(APLOG_MARK, APLOG_ERR, 0, c, APLOGNO(02907) "no implementation for protocol_switch to %s", protocol); return APR_ENOTIMPL; case OK: case DONE: return APR_SUCCESS; default: ap_log_cerror(APLOG_MARK, APLOG_ERR, 0, c, APLOGNO(02905) "unexpected return code %d from protocol_switch to %s" , rc, protocol); return APR_EOF; } } AP_DECLARE(int) ap_is_allowed_protocol(conn_rec *c, request_rec *r, server_rec *s, const char *protocol) { core_server_config *conf; if (!s) { s = (r? r->server : c->base_server); } conf = ap_get_core_module_config(s->module_config); if (conf->protocols->nelts > 0) { return ap_array_str_contains(conf->protocols, protocol); } return !strcmp(AP_PROTOCOL_HTTP1, protocol); } AP_IMPLEMENT_HOOK_VOID(pre_read_request, (request_rec *r, conn_rec *c), (r, c)) AP_IMPLEMENT_HOOK_RUN_ALL(int,post_read_request, (request_rec *r), (r), OK, DECLINED) AP_IMPLEMENT_HOOK_RUN_ALL(int,log_transaction, (request_rec *r), (r), OK, DECLINED) AP_IMPLEMENT_HOOK_RUN_FIRST(const char *,http_scheme, (const request_rec *r), (r), NULL) AP_IMPLEMENT_HOOK_RUN_FIRST(unsigned short,default_port, (const request_rec *r), (r), 0) AP_IMPLEMENT_HOOK_RUN_FIRST(int, note_auth_failure, (request_rec *r, const char *auth_type), (r, auth_type), DECLINED) AP_IMPLEMENT_HOOK_RUN_ALL(int,protocol_propose, (conn_rec *c, request_rec *r, server_rec *s, const apr_array_header_t *offers, apr_array_header_t *proposals), (c, r, s, offers, proposals), OK, DECLINED) AP_IMPLEMENT_HOOK_RUN_FIRST(int,protocol_switch, (conn_rec *c, request_rec *r, server_rec *s, const char *protocol), (c, r, s, protocol), DECLINED) AP_IMPLEMENT_HOOK_RUN_FIRST(const char *,protocol_get, (const conn_rec *c), (c), NULL)