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Diffstat (limited to 'htp/htp_response.c')
| -rw-r--r-- | htp/htp_response.c | 1436 |
1 files changed, 1436 insertions, 0 deletions
diff --git a/htp/htp_response.c b/htp/htp_response.c new file mode 100644 index 0000000..121004c --- /dev/null +++ b/htp/htp_response.c @@ -0,0 +1,1436 @@ +/*************************************************************************** + * Copyright (c) 2009-2010 Open Information Security Foundation + * Copyright (c) 2010-2013 Qualys, Inc. + * All rights reserved. + * + * Redistribution and use in source and binary forms, with or without + * modification, are permitted provided that the following conditions are + * met: + * + * - Redistributions of source code must retain the above copyright + * notice, this list of conditions and the following disclaimer. + + * - Redistributions in binary form must reproduce the above copyright + * notice, this list of conditions and the following disclaimer in the + * documentation and/or other materials provided with the distribution. + + * - Neither the name of the Qualys, Inc. nor the names of its + * contributors may be used to endorse or promote products derived from + * this software without specific prior written permission. + * + * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS + * "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT + * LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR + * A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT + * HOLDER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, + * SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT + * LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, + * DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY + * THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT + * (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE + * OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. + ***************************************************************************/ + +/** + * @file + * @author Ivan Ristic <ivanr@webkreator.com> + */ + +#include "htp_config_auto.h" + +#include "htp_private.h" + +#define OUT_TEST_NEXT_BYTE_OR_RETURN(X) \ +if ((X)->out_current_read_offset >= (X)->out_current_len) { \ + return HTP_DATA; \ +} + +#define OUT_PEEK_NEXT(X) \ +if ((X)->out_current_read_offset >= (X)->out_current_len) { \ + (X)->out_next_byte = -1; \ +} else { \ + (X)->out_next_byte = (X)->out_current_data[(X)->out_current_read_offset]; \ +} + +#define OUT_NEXT_BYTE(X) \ +if ((X)->out_current_read_offset < (X)->out_current_len) { \ + (X)->out_next_byte = (X)->out_current_data[(X)->out_current_read_offset]; \ + (X)->out_current_read_offset++; \ + (X)->out_current_consume_offset++; \ + (X)->out_stream_offset++; \ +} else { \ + (X)->out_next_byte = -1; \ +} + +#define OUT_NEXT_BYTE_OR_RETURN(X) \ +if ((X)->out_current_read_offset < (X)->out_current_len) { \ + (X)->out_next_byte = (X)->out_current_data[(X)->out_current_read_offset]; \ + (X)->out_current_read_offset++; \ + (X)->out_current_consume_offset++; \ + (X)->out_stream_offset++; \ +} else { \ + return HTP_DATA; \ +} + +#define OUT_COPY_BYTE_OR_RETURN(X) \ +if ((X)->out_current_read_offset < (X)->out_current_len) { \ + (X)->out_next_byte = (X)->out_current_data[(X)->out_current_read_offset]; \ + (X)->out_current_read_offset++; \ + (X)->out_stream_offset++; \ +} else { \ + return HTP_DATA_BUFFER; \ +} + +#define REQUEST_URI_NOT_SEEN "/libhtp::request_uri_not_seen" + +/** + * Sends outstanding connection data to the currently active data receiver hook. + * + * @param[in] connp + * @param[in] is_last + * @return HTP_OK, or a value returned from a callback. + */ +static htp_status_t htp_connp_res_receiver_send_data(htp_connp_t *connp, int is_last) { + if (connp->out_data_receiver_hook == NULL) return HTP_OK; + + htp_tx_data_t d; + d.tx = connp->out_tx; + d.data = connp->out_current_data + connp->out_current_receiver_offset; + d.len = connp->out_current_read_offset - connp->out_current_receiver_offset; + d.is_last = is_last; + + htp_status_t rc = htp_hook_run_all(connp->out_data_receiver_hook, &d); + if (rc != HTP_OK) return rc; + + connp->out_current_receiver_offset = connp->out_current_read_offset; + + return HTP_OK; +} + +/** + * Finalizes an existing data receiver hook by sending any outstanding data to it. The + * hook is then removed so that it receives no more data. + * + * @param[in] connp + * @return HTP_OK, or a value returned from a callback. + */ +htp_status_t htp_connp_res_receiver_finalize_clear(htp_connp_t *connp) { + if (connp->out_data_receiver_hook == NULL) return HTP_OK; + + htp_status_t rc = htp_connp_res_receiver_send_data(connp, 1 /* last */); + + connp->out_data_receiver_hook = NULL; + + return rc; +} + +/** + * Configures the data receiver hook. If there is a previous hook, it will be finalized and cleared. + * + * @param[in] connp + * @param[in] data_receiver_hook + * @return HTP_OK, or a value returned from a callback. + */ +static htp_status_t htp_connp_res_receiver_set(htp_connp_t *connp, htp_hook_t *data_receiver_hook) { + htp_status_t rc = htp_connp_res_receiver_finalize_clear(connp); + + connp->out_data_receiver_hook = data_receiver_hook; + connp->out_current_receiver_offset = connp->out_current_read_offset; + + return rc; +} + +/** + * Handles request parser state changes. At the moment, this function is used only + * to configure data receivers, which are sent raw connection data. + * + * @param[in] connp + * @return HTP_OK, or a value returned from a callback. + */ +static htp_status_t htp_res_handle_state_change(htp_connp_t *connp) { + if (connp->out_state_previous == connp->out_state) return HTP_OK; + + if (connp->out_state == htp_connp_RES_HEADERS) { + htp_status_t rc = HTP_OK; + + switch (connp->out_tx->response_progress) { + case HTP_RESPONSE_HEADERS: + rc = htp_connp_res_receiver_set(connp, connp->out_tx->cfg->hook_response_header_data); + break; + + case HTP_RESPONSE_TRAILER: + rc = htp_connp_res_receiver_set(connp, connp->out_tx->cfg->hook_response_trailer_data); + break; + + default: + // Do nothing; receivers are currently used only for header blocks. + break; + } + + if (rc != HTP_OK) return rc; + } + + // Same comment as in htp_req_handle_state_change(). Below is a copy. + + // Initially, I had the finalization of raw data sending here, but that + // caused the last REQUEST_HEADER_DATA hook to be invoked after the + // REQUEST_HEADERS hook -- which I thought made no sense. For that reason, + // the finalization is now initiated from the request header processing code, + // which is less elegant but provides a better user experience. Having some + // (or all) hooks to be invoked on state change might work better. + + connp->out_state_previous = connp->out_state; + + return HTP_OK; +} + +/** + * If there is any data left in the outbound data chunk, this function will preserve + * it for later consumption. The maximum amount accepted for buffering is controlled + * by htp_config_t::field_limit_hard. + * + * @param[in] connp + * @return HTP_OK, or HTP_ERROR on fatal failure. + */ +static htp_status_t htp_connp_res_buffer(htp_connp_t *connp) { + if (connp->out_current_data == NULL) return HTP_OK; + + unsigned char *data = connp->out_current_data + connp->out_current_consume_offset; + size_t len = connp->out_current_read_offset - connp->out_current_consume_offset; + + // Check the hard (buffering) limit. + + size_t newlen = connp->out_buf_size + len; + + // When calculating the size of the buffer, take into account the + // space we're using for the response header buffer. + if (connp->out_header != NULL) { + newlen += bstr_len(connp->out_header); + } + + if (newlen > connp->out_tx->cfg->field_limit_hard) { + htp_log(connp, HTP_LOG_MARK, HTP_LOG_ERROR, 0, "Response the buffer limit: size %zd limit %zd.", + newlen, connp->out_tx->cfg->field_limit_hard); + return HTP_ERROR; + } + + // Copy the data remaining in the buffer. + + if (connp->out_buf == NULL) { + connp->out_buf = malloc(len); + if (connp->out_buf == NULL) return HTP_ERROR; + memcpy(connp->out_buf, data, len); + connp->out_buf_size = len; + } else { + size_t newsize = connp->out_buf_size + len; + unsigned char *newbuf = realloc(connp->out_buf, newsize); + if (newbuf == NULL) return HTP_ERROR; + connp->out_buf = newbuf; + memcpy(connp->out_buf + connp->out_buf_size, data, len); + connp->out_buf_size = newsize; + } + + // Reset the consumer position. + connp->out_current_consume_offset = connp->out_current_read_offset; + + return HTP_OK; +} + +/** + * Returns to the caller the memory region that should be processed next. This function + * hides away the buffering process from the rest of the code, allowing it to work with + * non-buffered data that's in the outbound chunk, or buffered data that's in our structures. + * + * @param[in] connp + * @param[out] data + * @param[out] len + * @return HTP_OK + */ +static htp_status_t htp_connp_res_consolidate_data(htp_connp_t *connp, unsigned char **data, size_t *len) { + if (connp->out_buf == NULL) { + // We do not have any data buffered; point to the current data chunk. + *data = connp->out_current_data + connp->out_current_consume_offset; + *len = connp->out_current_read_offset - connp->out_current_consume_offset; + } else { + // We do have data in the buffer. Add data from the current + // chunk, and point to the consolidated buffer. + if (htp_connp_res_buffer(connp) != HTP_OK) { + return HTP_ERROR; + } + + *data = connp->out_buf; + *len = connp->out_buf_size; + } + + return HTP_OK; +} + +/** + * Clears buffered outbound data and resets the consumer position to the reader position. + * + * @param[in] connp + */ +static void htp_connp_res_clear_buffer(htp_connp_t *connp) { + connp->out_current_consume_offset = connp->out_current_read_offset; + + if (connp->out_buf != NULL) { + free(connp->out_buf); + connp->out_buf = NULL; + connp->out_buf_size = 0; + } +} + +/** + * Consumes bytes until the end of the current line. + * + * @param[in] connp + * @returns HTP_OK on state change, HTP_ERROR on error, or HTP_DATA when more data is needed. + */ +htp_status_t htp_connp_RES_BODY_CHUNKED_DATA_END(htp_connp_t *connp) { + // TODO We shouldn't really see anything apart from CR and LF, + // so we should warn about anything else. + + for (;;) { + OUT_NEXT_BYTE_OR_RETURN(connp); + + connp->out_tx->response_message_len++; + + if (connp->out_next_byte == LF) { + connp->out_state = htp_connp_RES_BODY_CHUNKED_LENGTH; + + return HTP_OK; + } + } + + return HTP_ERROR; +} + +/** + * Processes a chunk of data. + * + * @param[in] connp + * @returns HTP_OK on state change, HTP_ERROR on error, or HTP_DATA when more data is needed. + */ +htp_status_t htp_connp_RES_BODY_CHUNKED_DATA(htp_connp_t *connp) { + size_t bytes_to_consume; + + // Determine how many bytes we can consume. + if (connp->out_current_len - connp->out_current_read_offset >= connp->out_chunked_length) { + bytes_to_consume = connp->out_chunked_length; + } else { + bytes_to_consume = connp->out_current_len - connp->out_current_read_offset; + } + + if (bytes_to_consume == 0) return HTP_DATA; + + // Consume the data. + htp_status_t rc = htp_tx_res_process_body_data_ex(connp->out_tx, connp->out_current_data + connp->out_current_read_offset, bytes_to_consume); + if (rc != HTP_OK) return rc; + + // Adjust the counters. + connp->out_current_read_offset += bytes_to_consume; + connp->out_current_consume_offset += bytes_to_consume; + connp->out_stream_offset += bytes_to_consume; + connp->out_chunked_length -= bytes_to_consume; + + // Have we seen the entire chunk? + if (connp->out_chunked_length == 0) { + connp->out_state = htp_connp_RES_BODY_CHUNKED_DATA_END; + return HTP_OK; + } + + return HTP_DATA; +} + +static inline int is_chunked_ctl_char(const unsigned char c) { + switch (c) { + case 0x0d: + case 0x0a: + case 0x20: + case 0x09: + case 0x0b: + case 0x0c: + return 1; + default: + return 0; + } +} + +/** + * Peeks ahead into the data to try to see if it starts with a valid Chunked + * length field. + * + * @returns 1 if it looks valid, 0 if it looks invalid + */ +static inline int data_probe_chunk_length(htp_connp_t *connp) { + if (connp->out_current_read_offset - connp->out_current_consume_offset < 8) { + // not enough data so far, consider valid still + return 1; + } + + unsigned char *data = connp->out_current_data + connp->out_current_consume_offset; + size_t len = connp->out_current_read_offset - connp->out_current_consume_offset; + + size_t i = 0; + while (i < len) { + unsigned char c = data[i]; + + if (is_chunked_ctl_char(c)) { + // ctl char, still good. + } else if (isdigit(c) || (c >= 'a' && c <= 'f') || (c >= 'A' && c <= 'F')) { + // real chunklen char + return 1; + } else { + // leading junk, bad + return 0; + } + i++; + } + return 1; +} + +/** + * Extracts chunk length. + * + * @param[in] connp + * @returns HTP_OK on state change, HTP_ERROR on error, or HTP_DATA when more data is needed. + */ +htp_status_t htp_connp_RES_BODY_CHUNKED_LENGTH(htp_connp_t *connp) { + for (;;) { + OUT_COPY_BYTE_OR_RETURN(connp); + + // Have we reached the end of the line? Or is this not chunked after all? + if (connp->out_next_byte == LF || + (!is_chunked_ctl_char((unsigned char) connp->out_next_byte) && !data_probe_chunk_length(connp))) { + unsigned char *data; + size_t len; + + if (htp_connp_res_consolidate_data(connp, &data, &len) != HTP_OK) { + return HTP_ERROR; + } + + connp->out_tx->response_message_len += len; + + #ifdef HTP_DEBUG + fprint_raw_data(stderr, "Chunk length line", data, len); + #endif + + int chunk_ext = 0; + connp->out_chunked_length = htp_parse_chunked_length(data, len, &chunk_ext); + if (chunk_ext == 1) { + htp_log(connp, HTP_LOG_MARK, HTP_LOG_WARNING, 0, "Request chunk extension"); + } + // empty chunk length line, lets try to continue + if (connp->out_chunked_length == -1004) { + connp->out_current_consume_offset = connp->out_current_read_offset; + continue; + } + if (connp->out_chunked_length < 0) { + // reset out_current_read_offset so htp_connp_RES_BODY_IDENTITY_STREAM_CLOSE + // doesn't miss the first bytes + + if (len > (size_t)connp->out_current_read_offset) { + connp->out_current_read_offset = 0; + } else { + connp->out_current_read_offset -= len; + } + + connp->out_state = htp_connp_RES_BODY_IDENTITY_STREAM_CLOSE; + connp->out_tx->response_transfer_coding = HTP_CODING_IDENTITY; + + htp_log(connp, HTP_LOG_MARK, HTP_LOG_ERROR, 0, + "Response chunk encoding: Invalid chunk length: %"PRId64"", + connp->out_chunked_length); + return HTP_OK; + } + htp_connp_res_clear_buffer(connp); + + // Handle chunk length + if (connp->out_chunked_length > 0) { + // More data available + connp->out_state = htp_connp_RES_BODY_CHUNKED_DATA; + } else if (connp->out_chunked_length == 0) { + // End of data + connp->out_state = htp_connp_RES_HEADERS; + connp->out_tx->response_progress = HTP_RESPONSE_TRAILER; + } + + return HTP_OK; + } + } + + return HTP_ERROR; +} + +/** + * Processes an identity response body of known length. + * + * @param[in] connp + * @returns HTP_OK on state change, HTP_ERROR on error, or HTP_DATA when more data is needed. + */ +htp_status_t htp_connp_RES_BODY_IDENTITY_CL_KNOWN(htp_connp_t *connp) { + size_t bytes_to_consume; + + // Determine how many bytes we can consume. + if (connp->out_current_len - connp->out_current_read_offset >= connp->out_body_data_left) { + bytes_to_consume = connp->out_body_data_left; + } else { + bytes_to_consume = connp->out_current_len - connp->out_current_read_offset; + } + + if (connp->out_status == HTP_STREAM_CLOSED) { + connp->out_state = htp_connp_RES_FINALIZE; + // Sends close signal to decompressors + htp_status_t rc = htp_tx_res_process_body_data_ex(connp->out_tx, NULL, 0); + return rc; + } + if (bytes_to_consume == 0) return HTP_DATA; + + // Consume the data. + htp_status_t rc = htp_tx_res_process_body_data_ex(connp->out_tx, connp->out_current_data + connp->out_current_read_offset, bytes_to_consume); + if (rc != HTP_OK) return rc; + + // Adjust the counters. + connp->out_current_read_offset += bytes_to_consume; + connp->out_current_consume_offset += bytes_to_consume; + connp->out_stream_offset += bytes_to_consume; + connp->out_body_data_left -= bytes_to_consume; + + // Have we seen the entire response body? + if (connp->out_body_data_left == 0) { + connp->out_state = htp_connp_RES_FINALIZE; + // Tells decompressors to output partially decompressed data + rc = htp_tx_res_process_body_data_ex(connp->out_tx, NULL, 0); + return rc; + } + + return HTP_DATA; +} + +/** + * Processes identity response body of unknown length. In this case, we assume the + * response body consumes all data until the end of the stream. + * + * @param[in] connp + * @returns HTP_OK on state change, HTP_ERROR on error, or HTP_DATA when more data is needed. + */ +htp_status_t htp_connp_RES_BODY_IDENTITY_STREAM_CLOSE(htp_connp_t *connp) { + // Consume all data from the input buffer. + size_t bytes_to_consume = connp->out_current_len - connp->out_current_read_offset; + + #ifdef HTP_DEBUG + fprintf(stderr, "bytes_to_consume %"PRIuMAX, (uintmax_t)bytes_to_consume); + #endif + if (bytes_to_consume != 0) { + htp_status_t rc = htp_tx_res_process_body_data_ex(connp->out_tx, connp->out_current_data + connp->out_current_read_offset, bytes_to_consume); + if (rc != HTP_OK) return rc; + + // Adjust the counters. + connp->out_current_read_offset += bytes_to_consume; + connp->out_current_consume_offset += bytes_to_consume; + connp->out_stream_offset += bytes_to_consume; + } + + // Have we seen the entire response body? + if (connp->out_status == HTP_STREAM_CLOSED) { + connp->out_state = htp_connp_RES_FINALIZE; + return HTP_OK; + } + + return HTP_DATA; +} + +/** + * Determines presence (and encoding) of a response body. + * + * @param[in] connp + * @returns HTP_OK on state change, HTP_ERROR on error, or HTP_DATA when more data is needed. + */ +htp_status_t htp_connp_RES_BODY_DETERMINE(htp_connp_t *connp) { + // If the request uses the CONNECT method, then not only are we + // to assume there's no body, but we need to ignore all + // subsequent data in the stream. + if (connp->out_tx->request_method_number == HTP_M_CONNECT) { + if ((connp->out_tx->response_status_number >= 200) + && (connp->out_tx->response_status_number <= 299)) { + // This is a successful CONNECT stream, which means + // we need to switch into tunneling mode: on the + // request side we'll now probe the tunnel data to see + // if we need to parse or ignore it. So on the response + // side we wrap up the tx and wait. + connp->out_state = htp_connp_RES_FINALIZE; + + // we may have response headers + htp_status_t rc = htp_tx_state_response_headers(connp->out_tx); + return rc; + } else if (connp->out_tx->response_status_number == 407) { + // proxy telling us to auth + if (connp->in_status != HTP_STREAM_ERROR) + connp->in_status = HTP_STREAM_DATA; + } else { + // This is a failed CONNECT stream, which means that + // we can unblock request parsing + if (connp->in_status != HTP_STREAM_ERROR) + connp->in_status = HTP_STREAM_DATA; + + // We are going to continue processing this transaction, + // adding a note for ourselves to stop at the end (because + // we don't want to see the beginning of a new transaction). + connp->out_data_other_at_tx_end = 1; + } + } + + htp_header_t *cl = htp_table_get_c(connp->out_tx->response_headers, "content-length"); + htp_header_t *te = htp_table_get_c(connp->out_tx->response_headers, "transfer-encoding"); + + // Check for "101 Switching Protocol" response. + // If it's seen, it means that traffic after empty line following headers + // is no longer HTTP. We can treat it similarly to CONNECT. + // Unlike CONNECT, however, upgrades from HTTP to HTTP seem + // rather unlikely, so don't try to probe tunnel for nested HTTP, + // and switch to tunnel mode right away. + if (connp->out_tx->response_status_number == 101) { + if (te == NULL && cl == NULL) { + connp->out_state = htp_connp_RES_FINALIZE; + + if (connp->in_status != HTP_STREAM_ERROR) + connp->in_status = HTP_STREAM_TUNNEL; + connp->out_status = HTP_STREAM_TUNNEL; + + // we may have response headers + htp_status_t rc = htp_tx_state_response_headers(connp->out_tx); + return rc; + } else { + htp_log(connp, HTP_LOG_MARK, HTP_LOG_WARNING, 0, "Switching Protocol with Content-Length"); + } + } + + // Check for an interim "100 Continue" response. Ignore it if found, and revert back to RES_LINE. + if (connp->out_tx->response_status_number == 100 && te == NULL) { + int is100continue = 1; + if (cl != NULL){ + if (htp_parse_content_length(cl->value, connp) > 0) { + is100continue = 0; + } + } + if (is100continue) { + if (connp->out_tx->seen_100continue != 0) { + htp_log(connp, HTP_LOG_MARK, HTP_LOG_ERROR, 0, "Already seen 100-Continue."); + } + + // Ignore any response headers seen so far. + htp_header_t *h = NULL; + for (size_t i = 0, n = htp_table_size(connp->out_tx->response_headers); i < n; i++) { + h = htp_table_get_index(connp->out_tx->response_headers, i, NULL); + bstr_free(h->name); + bstr_free(h->value); + free(h); + } + + htp_table_clear(connp->out_tx->response_headers); + + // Expecting to see another response line next. + connp->out_state = htp_connp_RES_LINE; + connp->out_tx->response_progress = HTP_RESPONSE_LINE; + connp->out_tx->seen_100continue++; + + return HTP_OK; + } + } + + // A request can indicate it waits for headers validation + // before sending its body cf + // https://developer.mozilla.org/en-US/docs/Web/HTTP/Headers/Expect + if (connp->out_tx->response_status_number >= 400 && + connp->out_tx->response_status_number <= 499 && + connp->in_content_length > 0 && + connp->in_body_data_left == connp->in_content_length) { + htp_header_t *exp = htp_table_get_c(connp->out_tx->request_headers, "expect"); + if ((exp != NULL) && (bstr_cmp_c_nocase(exp->value, "100-continue") == 0)) { + connp->in_state = htp_connp_REQ_FINALIZE; + } + } + + // 1. Any response message which MUST NOT include a message-body + // (such as the 1xx, 204, and 304 responses and any response to a HEAD + // request) is always terminated by the first empty line after the + // header fields, regardless of the entity-header fields present in the + // message. + if (connp->out_tx->request_method_number == HTP_M_HEAD) { + // There's no response body whatsoever + connp->out_tx->response_transfer_coding = HTP_CODING_NO_BODY; + connp->out_state = htp_connp_RES_FINALIZE; + } + else if (((connp->out_tx->response_status_number >= 100) && (connp->out_tx->response_status_number <= 199)) + || (connp->out_tx->response_status_number == 204) || (connp->out_tx->response_status_number == 304)) { + // There should be no response body + // but browsers interpret content sent by the server as such + if (te == NULL && cl == NULL) { + connp->out_tx->response_transfer_coding = HTP_CODING_NO_BODY; + connp->out_state = htp_connp_RES_FINALIZE; + } else { + htp_log(connp, HTP_LOG_MARK, HTP_LOG_WARNING, 0, "Unexpected Response body"); + } + } + // Hack condition to check that we do not assume "no body" + if (connp->out_state != htp_connp_RES_FINALIZE) { + // We have a response body + htp_header_t *ct = htp_table_get_c(connp->out_tx->response_headers, "content-type"); + if (ct != NULL) { + connp->out_tx->response_content_type = bstr_dup_lower(ct->value); + if (connp->out_tx->response_content_type == NULL) return HTP_ERROR; + + // Ignore parameters + unsigned char *data = bstr_ptr(connp->out_tx->response_content_type); + size_t len = bstr_len(ct->value); + size_t newlen = 0; + while (newlen < len) { + // TODO Some platforms may do things differently here. + if (htp_is_space(data[newlen]) || (data[newlen] == ';')) { + bstr_adjust_len(connp->out_tx->response_content_type, newlen); + break; + } + + newlen++; + } + } + + // 2. If a Transfer-Encoding header field (section 14.40) is present and + // indicates that the "chunked" transfer coding has been applied, then + // the length is defined by the chunked encoding (section 3.6). + if ((te != NULL) && (bstr_index_of_c_nocasenorzero(te->value, "chunked") != -1)) { + if (bstr_cmp_c_nocase(te->value, "chunked") != 0) { + htp_log(connp, HTP_LOG_MARK, HTP_LOG_WARNING, 0, + "Transfer-encoding has abnormal chunked value"); + } + + // spec says chunked is HTTP/1.1 only, but some browsers accept it + // with 1.0 as well + if (connp->out_tx->response_protocol_number < HTP_PROTOCOL_1_1) { + htp_log(connp, HTP_LOG_MARK, HTP_LOG_WARNING, 0, + "Chunked transfer-encoding on HTTP/0.9 or HTTP/1.0"); + } + + // If the T-E header is present we are going to use it. + connp->out_tx->response_transfer_coding = HTP_CODING_CHUNKED; + + // We are still going to check for the presence of C-L + if (cl != NULL) { + // This is a violation of the RFC + connp->out_tx->flags |= HTP_REQUEST_SMUGGLING; + } + + connp->out_state = htp_connp_RES_BODY_CHUNKED_LENGTH; + connp->out_tx->response_progress = HTP_RESPONSE_BODY; + }// 3. If a Content-Length header field (section 14.14) is present, its + // value in bytes represents the length of the message-body. + else if (cl != NULL) { + // We know the exact length + connp->out_tx->response_transfer_coding = HTP_CODING_IDENTITY; + + // Check for multiple C-L headers + if (cl->flags & HTP_FIELD_REPEATED) { + connp->out_tx->flags |= HTP_REQUEST_SMUGGLING; + } + + // Get body length + connp->out_tx->response_content_length = htp_parse_content_length(cl->value, connp); + if (connp->out_tx->response_content_length < 0) { + htp_log(connp, HTP_LOG_MARK, HTP_LOG_ERROR, 0, "Invalid C-L field in response: %"PRId64"", + connp->out_tx->response_content_length); + return HTP_ERROR; + } else { + connp->out_content_length = connp->out_tx->response_content_length; + connp->out_body_data_left = connp->out_content_length; + + if (connp->out_content_length != 0) { + connp->out_state = htp_connp_RES_BODY_IDENTITY_CL_KNOWN; + connp->out_tx->response_progress = HTP_RESPONSE_BODY; + } else { + connp->out_state = htp_connp_RES_FINALIZE; + } + } + } else { + // 4. If the message uses the media type "multipart/byteranges", which is + // self-delimiting, then that defines the length. This media type MUST + // NOT be used unless the sender knows that the recipient can parse it; + // the presence in a request of a Range header with multiple byte-range + // specifiers implies that the client can parse multipart/byteranges + // responses. + if (ct != NULL) { + // TODO Handle multipart/byteranges + if (bstr_index_of_c_nocase(ct->value, "multipart/byteranges") != -1) { + htp_log(connp, HTP_LOG_MARK, HTP_LOG_ERROR, 0, + "C-T multipart/byteranges in responses not supported"); + return HTP_ERROR; + } + } + + // 5. By the server closing the connection. (Closing the connection + // cannot be used to indicate the end of a request body, since that + // would leave no possibility for the server to send back a response.) + connp->out_state = htp_connp_RES_BODY_IDENTITY_STREAM_CLOSE; + connp->out_tx->response_transfer_coding = HTP_CODING_IDENTITY; + connp->out_tx->response_progress = HTP_RESPONSE_BODY; + connp->out_body_data_left = -1; + } + } + + // NOTE We do not need to check for short-style HTTP/0.9 requests here because + // that is done earlier, before response line parsing begins + + htp_status_t rc = htp_tx_state_response_headers(connp->out_tx); + if (rc != HTP_OK) return rc; + + return HTP_OK; +} + +/** + * Parses response headers. + * + * @param[in] connp + * @returns HTP_OK on state change, HTP_ERROR on error, or HTP_DATA when more data is needed. + */ +htp_status_t htp_connp_RES_HEADERS(htp_connp_t *connp) { + int endwithcr; + int lfcrending = 0; + + for (;;) { + if (connp->out_status == HTP_STREAM_CLOSED) { + // Finalize sending raw trailer data. + htp_status_t rc = htp_connp_res_receiver_finalize_clear(connp); + if (rc != HTP_OK) return rc; + + // Run hook response_TRAILER. + rc = htp_hook_run_all(connp->cfg->hook_response_trailer, connp->out_tx); + if (rc != HTP_OK) return rc; + + connp->out_state = htp_connp_RES_FINALIZE; + return HTP_OK; + } + OUT_COPY_BYTE_OR_RETURN(connp); + + // Have we reached the end of the line? + if (connp->out_next_byte != LF && connp->out_next_byte != CR) { + lfcrending = 0; + } else { + endwithcr = 0; + if (connp->out_next_byte == CR) { + OUT_PEEK_NEXT(connp); + if (connp->out_next_byte == -1) { + return HTP_DATA_BUFFER; + } else if (connp->out_next_byte == LF) { + OUT_COPY_BYTE_OR_RETURN(connp); + if (lfcrending) { + // Handling LFCRCRLFCRLF + // These 6 characters mean only 2 end of lines + OUT_PEEK_NEXT(connp); + if (connp->out_next_byte == CR) { + OUT_COPY_BYTE_OR_RETURN(connp); + connp->out_current_consume_offset++; + OUT_PEEK_NEXT(connp); + if (connp->out_next_byte == LF) { + OUT_COPY_BYTE_OR_RETURN(connp); + connp->out_current_consume_offset++; + htp_log(connp, HTP_LOG_MARK, HTP_LOG_WARNING, 0, + "Weird response end of lines mix"); + } + } + } + } else if (connp->out_next_byte == CR) { + continue; + } + lfcrending = 0; + endwithcr = 1; + } else { + // connp->out_next_byte == LF + OUT_PEEK_NEXT(connp); + lfcrending = 0; + if (connp->out_next_byte == CR) { + // hanldes LF-CR sequence as end of line + OUT_COPY_BYTE_OR_RETURN(connp); + lfcrending = 1; + } + } + + unsigned char *data; + size_t len; + + if (htp_connp_res_consolidate_data(connp, &data, &len) != HTP_OK) { + return HTP_ERROR; + } + + // CRCRLF is not an empty line + if (endwithcr && len < 2) { + continue; + } + + #ifdef HTP_DEBUG + fprint_raw_data(stderr, __func__, data, len); + #endif + + int next_no_lf = 0; + if (connp->out_current_read_offset < connp->out_current_len && + connp->out_current_data[connp->out_current_read_offset] != LF) { + next_no_lf = 1; + } + // Should we terminate headers? + if (htp_connp_is_line_terminator(connp, data, len, next_no_lf)) { + // Parse previous header, if any. + if (connp->out_header != NULL) { + if (connp->cfg->process_response_header(connp, bstr_ptr(connp->out_header), + bstr_len(connp->out_header)) != HTP_OK) return HTP_ERROR; + + bstr_free(connp->out_header); + connp->out_header = NULL; + } + + htp_connp_res_clear_buffer(connp); + + // We've seen all response headers. + if (connp->out_tx->response_progress == HTP_RESPONSE_HEADERS) { + // Response headers. + + // The next step is to determine if this response has a body. + connp->out_state = htp_connp_RES_BODY_DETERMINE; + } else { + // Response trailer. + + // Finalize sending raw trailer data. + htp_status_t rc = htp_connp_res_receiver_finalize_clear(connp); + if (rc != HTP_OK) return rc; + + // Run hook response_TRAILER. + rc = htp_hook_run_all(connp->cfg->hook_response_trailer, connp->out_tx); + if (rc != HTP_OK) return rc; + + // The next step is to finalize this response. + connp->out_state = htp_connp_RES_FINALIZE; + } + + return HTP_OK; + } + + htp_chomp(data, &len); + + // Check for header folding. + if (htp_connp_is_line_folded(data, len) == 0) { + // New header line. + + // Parse previous header, if any. + if (connp->out_header != NULL) { + if (connp->cfg->process_response_header(connp, bstr_ptr(connp->out_header), + bstr_len(connp->out_header)) != HTP_OK) return HTP_ERROR; + + bstr_free(connp->out_header); + connp->out_header = NULL; + } + + OUT_PEEK_NEXT(connp); + + if (htp_is_folding_char(connp->out_next_byte) == 0) { + // Because we know this header is not folded, we can process the buffer straight away. + if (connp->cfg->process_response_header(connp, data, len) != HTP_OK) return HTP_ERROR; + } else { + // Keep the partial header data for parsing later. + connp->out_header = bstr_dup_mem(data, len); + if (connp->out_header == NULL) return HTP_ERROR; + } + } else { + // Folding; check that there's a previous header line to add to. + if (connp->out_header == NULL) { + // Invalid folding. + + // Warn only once per transaction. + if (!(connp->out_tx->flags & HTP_INVALID_FOLDING)) { + connp->out_tx->flags |= HTP_INVALID_FOLDING; + htp_log(connp, HTP_LOG_MARK, HTP_LOG_WARNING, 0, "Invalid response field folding"); + } + + // Keep the header data for parsing later. + size_t trim = 0; + while(trim < len) { + if (!htp_is_folding_char(data[trim])) { + break; + } + trim++; + } + connp->out_header = bstr_dup_mem(data + trim, len - trim); + if (connp->out_header == NULL) return HTP_ERROR; + } else { + size_t colon_pos = 0; + while ((colon_pos < len) && (data[colon_pos] != ':')) colon_pos++; + + if (colon_pos < len && + bstr_chr(connp->out_header, ':') >= 0 && + connp->out_tx->response_protocol_number == HTP_PROTOCOL_1_1) { + // Warn only once per transaction. + if (!(connp->out_tx->flags & HTP_INVALID_FOLDING)) { + connp->out_tx->flags |= HTP_INVALID_FOLDING; + htp_log(connp, HTP_LOG_MARK, HTP_LOG_WARNING, 0, "Invalid response field folding"); + } + if (connp->cfg->process_response_header(connp, bstr_ptr(connp->out_header), + bstr_len(connp->out_header)) != HTP_OK) + return HTP_ERROR; + bstr_free(connp->out_header); + connp->out_header = bstr_dup_mem(data+1, len-1); + if (connp->out_header == NULL) + return HTP_ERROR; + } else { + // Add to the existing header. + if (bstr_len(connp->out_header) < HTP_MAX_HEADER_FOLDED) { + bstr *new_out_header = bstr_add_mem(connp->out_header, data, len); + if (new_out_header == NULL) + return HTP_ERROR; + connp->out_header = new_out_header; + } else { + htp_log(connp, HTP_LOG_MARK, HTP_LOG_WARNING, 0, "Response field length exceeds folded maximum"); + } + } + } + } + + htp_connp_res_clear_buffer(connp); + } + } + + return HTP_ERROR; +} + +/** + * Parses response line. + * + * @param[in] connp + * @returns HTP_OK on state change, HTP_ERROR on error, or HTP_DATA when more data is needed. + */ +htp_status_t htp_connp_RES_LINE(htp_connp_t *connp) { + for (;;) { + // Don't try to get more data if the stream is closed. If we do, we'll return, asking for more data. + if (connp->out_status != HTP_STREAM_CLOSED) { + // Get one byte + OUT_COPY_BYTE_OR_RETURN(connp); + } + + // Have we reached the end of the line? We treat stream closure as end of line in + // order to handle the case when the first line of the response is actually response body + // (and we wish it processed as such). + if (connp->out_next_byte == CR) { + OUT_PEEK_NEXT(connp); + if (connp->out_next_byte == -1) { + return HTP_DATA_BUFFER; + } else if (connp->out_next_byte == LF) { + continue; + } + connp->out_next_byte = LF; + } + if ((connp->out_next_byte == LF)||(connp->out_status == HTP_STREAM_CLOSED)) { + unsigned char *data; + size_t len; + + if (htp_connp_res_consolidate_data(connp, &data, &len) != HTP_OK) { + return HTP_ERROR; + } + + #ifdef HTP_DEBUG + fprint_raw_data(stderr, __func__, data, len); + #endif + + // Is this a line that should be ignored? + if (htp_connp_is_line_ignorable(connp, data, len)) { + if (connp->out_status == HTP_STREAM_CLOSED) { + connp->out_state = htp_connp_RES_FINALIZE; + } + // We have an empty/whitespace line, which we'll note, ignore and move on + connp->out_tx->response_ignored_lines++; + + // TODO How many lines are we willing to accept? + + // Start again + htp_connp_res_clear_buffer(connp); + + return HTP_OK; + } + + // Deallocate previous response line allocations, which we would have on a 100 response. + + if (connp->out_tx->response_line != NULL) { + bstr_free(connp->out_tx->response_line); + connp->out_tx->response_line = NULL; + } + + if (connp->out_tx->response_protocol != NULL) { + bstr_free(connp->out_tx->response_protocol); + connp->out_tx->response_protocol = NULL; + } + + if (connp->out_tx->response_status != NULL) { + bstr_free(connp->out_tx->response_status); + connp->out_tx->response_status = NULL; + } + + if (connp->out_tx->response_message != NULL) { + bstr_free(connp->out_tx->response_message); + connp->out_tx->response_message = NULL; + } + + // Process response line. + + int chomp_result = htp_chomp(data, &len); + + // If the response line is invalid, determine if it _looks_ like + // a response line. If it does not look like a line, process the + // data as a response body because that is what browsers do. + + if (htp_treat_response_line_as_body(data, len)) { + // if we have a next line beginning with H, skip this one + if (connp->out_current_read_offset+1 < connp->out_current_len && (connp->out_current_data[connp->out_current_read_offset] == 'H' || len <= 2)) { + connp->out_tx->response_ignored_lines++; + htp_connp_res_clear_buffer(connp); + return HTP_OK; + } + connp->out_tx->response_content_encoding_processing = HTP_COMPRESSION_NONE; + + connp->out_current_consume_offset = connp->out_current_read_offset; + htp_status_t rc = htp_tx_res_process_body_data_ex(connp->out_tx, data, len + chomp_result); + htp_connp_res_clear_buffer(connp); + if (rc != HTP_OK) return rc; + + // Continue to process response body. Because we don't have + // any headers to parse, we assume the body continues until + // the end of the stream. + + // Have we seen the entire response body? + if (connp->out_current_len <= connp->out_current_read_offset) { + connp->out_tx->response_transfer_coding = HTP_CODING_IDENTITY; + connp->out_tx->response_progress = HTP_RESPONSE_BODY; + connp->out_body_data_left = -1; + connp->out_state = htp_connp_RES_FINALIZE; + } + + return HTP_OK; + } + + connp->out_tx->response_line = bstr_dup_mem(data, len); + if (connp->out_tx->response_line == NULL) return HTP_ERROR; + + if (connp->cfg->parse_response_line(connp) != HTP_OK) return HTP_ERROR; + + htp_status_t rc = htp_tx_state_response_line(connp->out_tx); + if (rc != HTP_OK) return rc; + + htp_connp_res_clear_buffer(connp); + + // Move on to the next phase. + connp->out_state = htp_connp_RES_HEADERS; + connp->out_tx->response_progress = HTP_RESPONSE_HEADERS; + + return HTP_OK; + } + } + + return HTP_ERROR; +} + +size_t htp_connp_res_data_consumed(htp_connp_t *connp) { + return connp->out_current_read_offset; +} + +htp_status_t htp_connp_RES_FINALIZE(htp_connp_t *connp) { + if (connp->out_status != HTP_STREAM_CLOSED) { + OUT_PEEK_NEXT(connp); + if (connp->out_next_byte == -1) { + return htp_tx_state_response_complete_ex(connp->out_tx, 0); + } + if (connp->out_next_byte != LF || connp->out_current_consume_offset >= connp->out_current_read_offset) { + for (;;) {//;i < max_read; i++) { + OUT_COPY_BYTE_OR_RETURN(connp); + // Have we reached the end of the line? For some reason + // we can't test after IN_COPY_BYTE_OR_RETURN */ + if (connp->out_next_byte == LF) + break; + } + } + } + size_t bytes_left; + unsigned char * data; + + if (htp_connp_res_consolidate_data(connp, &data, &bytes_left) != HTP_OK) { + return HTP_ERROR; + } +#ifdef HTP_DEBUG + fprint_raw_data(stderr, "PROBING response finalize", data, bytes_left); +#endif + if (bytes_left == 0) { + //closing + return htp_tx_state_response_complete_ex(connp->out_tx, 0); + } + + if (htp_treat_response_line_as_body(data, bytes_left)) { + // Interpret remaining bytes as body data + htp_log(connp, HTP_LOG_MARK, HTP_LOG_WARNING, 0, "Unexpected response body"); + htp_status_t rc = htp_tx_res_process_body_data_ex(connp->out_tx, data, bytes_left); + htp_connp_res_clear_buffer(connp); + return rc; + } + + //unread last end of line so that RES_LINE works + if (connp->out_current_read_offset < (int64_t)bytes_left) { + connp->out_current_read_offset=0; + } else { + connp->out_current_read_offset-=bytes_left; + } + if (connp->out_current_read_offset < connp->out_current_consume_offset) { + connp->out_current_consume_offset=connp->out_current_read_offset; + } + return htp_tx_state_response_complete_ex(connp->out_tx, 0 /* not hybrid mode */); +} + +/** + * The response idle state will initialize response processing, as well as + * finalize each transactions after we are done with it. + * + * @param[in] connp + * @returns HTP_OK on state change, HTP_ERROR on error, or HTP_DATA when more data is needed. + */ +htp_status_t htp_connp_RES_IDLE(htp_connp_t *connp) { + + // We want to start parsing the next response (and change + // the state from IDLE) only if there's at least one + // byte of data available. Otherwise we could be creating + // new structures even if there's no more data on the + // connection. + OUT_TEST_NEXT_BYTE_OR_RETURN(connp); + + // Parsing a new response + + // Find the next outgoing transaction + // If there is none, we just create one so that responses without + // request can still be processed. + connp->out_tx = htp_list_get(connp->conn->transactions, connp->out_next_tx_index); + if (connp->out_tx == NULL) { + htp_log(connp, HTP_LOG_MARK, HTP_LOG_ERROR, 0, "Unable to match response to request"); + // finalize dangling request waiting for next request or body + if (connp->in_state == htp_connp_REQ_FINALIZE) { + htp_tx_state_request_complete(connp->in_tx); + } + connp->out_tx = htp_connp_tx_create(connp); + if (connp->out_tx == NULL) { + return HTP_ERROR; + } + connp->out_tx->parsed_uri = htp_uri_alloc(); + if (connp->out_tx->parsed_uri == NULL) { + return HTP_ERROR; + } + connp->out_tx->parsed_uri->path = bstr_dup_c(REQUEST_URI_NOT_SEEN); + if (connp->out_tx->parsed_uri->path == NULL) { + return HTP_ERROR; + } + connp->out_tx->request_uri = bstr_dup_c(REQUEST_URI_NOT_SEEN); + if (connp->out_tx->request_uri == NULL) { + return HTP_ERROR; + } + + connp->in_state = htp_connp_REQ_FINALIZE; +#ifdef HTP_DEBUG + fprintf(stderr, "picked up response w/o request"); +#endif + // We've used one transaction + connp->out_next_tx_index++; + } else { + // We've used one transaction + connp->out_next_tx_index++; + + // TODO Detect state mismatch + + connp->out_content_length = -1; + connp->out_body_data_left = -1; + } + + htp_status_t rc = htp_tx_state_response_start(connp->out_tx); + if (rc != HTP_OK) return rc; + + return HTP_OK; +} + +int htp_connp_res_data(htp_connp_t *connp, const htp_time_t *timestamp, const void *data, size_t len) { + #ifdef HTP_DEBUG + fprintf(stderr, "htp_connp_res_data(connp->out_status %x)\n", connp->out_status); + fprint_raw_data(stderr, __func__, data, len); + #endif + + // Return if the connection is in stop state + if (connp->out_status == HTP_STREAM_STOP) { + htp_log(connp, HTP_LOG_MARK, HTP_LOG_INFO, 0, "Outbound parser is in HTP_STREAM_STOP"); + + return HTP_STREAM_STOP; + } + + // Return if the connection has had a fatal error + if (connp->out_status == HTP_STREAM_ERROR) { + htp_log(connp, HTP_LOG_MARK, HTP_LOG_ERROR, 0, "Outbound parser is in HTP_STREAM_ERROR"); + + #ifdef HTP_DEBUG + fprintf(stderr, "htp_connp_res_data: returning HTP_STREAM_DATA (previous error)\n"); + #endif + + return HTP_STREAM_ERROR; + } + + // Sanity check: we must have a transaction pointer if the state is not IDLE (no outbound transaction) + if ((connp->out_tx == NULL)&&(connp->out_state != htp_connp_RES_IDLE)) { + connp->out_status = HTP_STREAM_ERROR; + + htp_log(connp, HTP_LOG_MARK, HTP_LOG_ERROR, 0, "Missing outbound transaction data"); + + return HTP_STREAM_ERROR; + } + + // If the length of the supplied data chunk is zero, proceed + // only if the stream has been closed. We do not allow zero-sized + // chunks in the API, but we use it internally to force the parsers + // to finalize parsing. + if (len == 0 && connp->out_status != HTP_STREAM_CLOSED) { + htp_log(connp, HTP_LOG_MARK, HTP_LOG_ERROR, 0, "Zero-length data chunks are not allowed"); + + #ifdef HTP_DEBUG + fprintf(stderr, "htp_connp_res_data: returning HTP_STREAM_DATA (zero-length chunk)\n"); + #endif + + return HTP_STREAM_CLOSED; + } + + // Remember the timestamp of the current response data chunk + if (timestamp != NULL) { + memcpy(&connp->out_timestamp, timestamp, sizeof (*timestamp)); + } + + // Store the current chunk information + connp->out_current_data = (unsigned char *) data; + connp->out_current_len = len; + connp->out_current_read_offset = 0; + connp->out_current_consume_offset = 0; + connp->out_current_receiver_offset = 0; + + htp_conn_track_outbound_data(connp->conn, len, timestamp); + + // Return without processing any data if the stream is in tunneling + // mode (which it would be after an initial CONNECT transaction. + if (connp->out_status == HTP_STREAM_TUNNEL) { + #ifdef HTP_DEBUG + fprintf(stderr, "htp_connp_res_data: returning HTP_STREAM_TUNNEL\n"); + #endif + + return HTP_STREAM_TUNNEL; + } + + // Invoke a processor, in a loop, until an error + // occurs or until we run out of data. Many processors + // will process a request, each pointing to the next + // processor that needs to run. + for (;;) { + #ifdef HTP_DEBUG + fprintf(stderr, "htp_connp_res_data: out state=%s, progress=%s\n", + htp_connp_out_state_as_string(connp), + htp_tx_response_progress_as_string(connp->out_tx)); + #endif + + // Return if there's been an error + // or if we've run out of data. We are relying + // on processors to add error messages, so we'll + // keep quiet here. + htp_status_t rc; + + //handle gap + if (data == NULL && len > 0) { + if (connp->out_state == htp_connp_RES_BODY_IDENTITY_CL_KNOWN || + connp->out_state == htp_connp_RES_BODY_IDENTITY_STREAM_CLOSE) { + rc = connp->out_state(connp); + } else if (connp->out_state == htp_connp_RES_FINALIZE) { + rc = htp_tx_state_response_complete_ex(connp->out_tx, 0); + } else { + htp_log(connp, HTP_LOG_MARK, HTP_LOG_ERROR, 0, "Gaps are not allowed during this state"); + return HTP_STREAM_CLOSED; + } + } else { + rc = connp->out_state(connp); + } + if (rc == HTP_OK) { + if (connp->out_status == HTP_STREAM_TUNNEL) { + #ifdef HTP_DEBUG + fprintf(stderr, "htp_connp_res_data: returning HTP_STREAM_TUNNEL\n"); + #endif + + return HTP_STREAM_TUNNEL; + } + + rc = htp_res_handle_state_change(connp); + } + + if (rc != HTP_OK) { + // Do we need more data? + if ((rc == HTP_DATA) || (rc == HTP_DATA_BUFFER)) { + htp_connp_res_receiver_send_data(connp, 0 /* not last */); + + if (rc == HTP_DATA_BUFFER) { + if (htp_connp_res_buffer(connp) != HTP_OK) { + connp->out_status = HTP_STREAM_ERROR; + return HTP_STREAM_ERROR; + } + } + + #ifdef HTP_DEBUG + fprintf(stderr, "htp_connp_res_data: returning HTP_STREAM_DATA\n"); + #endif + + connp->out_status = HTP_STREAM_DATA; + + return HTP_STREAM_DATA; + } + + // Check for stop + if (rc == HTP_STOP) { + #ifdef HTP_DEBUG + fprintf(stderr, "htp_connp_res_data: returning HTP_STREAM_STOP\n"); + #endif + + connp->out_status = HTP_STREAM_STOP; + + return HTP_STREAM_STOP; + } + + // Check for suspended parsing + if (rc == HTP_DATA_OTHER) { + // We might have actually consumed the entire data chunk? + if (connp->out_current_read_offset >= connp->out_current_len) { + #ifdef HTP_DEBUG + fprintf(stderr, "htp_connp_res_data: returning HTP_STREAM_DATA (suspended parsing)\n"); + #endif + + connp->out_status = HTP_STREAM_DATA; + + // Do not send STREAM_DATE_DATA_OTHER if we've + // consumed the entire chunk + return HTP_STREAM_DATA; + } else { + #ifdef HTP_DEBUG + fprintf(stderr, "htp_connp_res_data: returning HTP_STREAM_DATA_OTHER\n"); + #endif + + connp->out_status = HTP_STREAM_DATA_OTHER; + + // Partial chunk consumption + return HTP_STREAM_DATA_OTHER; + } + } + + #ifdef HTP_DEBUG + fprintf(stderr, "htp_connp_res_data: returning HTP_STREAM_ERROR\n"); + #endif + + // Permanent stream error. + connp->out_status = HTP_STREAM_ERROR; + + return HTP_STREAM_ERROR; + } + } +} |