/**
* Parses request 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_REQ_HEADERS(htp_connp_t *connp) {
for (;;) {
IN_COPY_BYTE_OR_RETURN(connp);
// Have we reached the end of the line?
if (connp->in_next_byte == LF) {
unsigned char *data;
size_t len;
htp_connp_req_consolidate_data(connp, &data, &len);
#ifdef HTP_DEBUG
fprint_raw_data(stderr, __FUNCTION__, data, len);
#endif
// Should we terminate headers?
if (htp_connp_is_line_terminator(connp, data, len)) {
// Parse previous header, if any.
if (connp->in_header != NULL) {
if (connp->cfg->process_request_header(connp, bstr_ptr(connp->in_header),
bstr_len(connp->in_header)) != HTP_OK) return HTP_ERROR;
bstr_free(connp->in_header);
connp->in_header = NULL;
}
htp_connp_req_clear_buffer(connp);
// We've seen all the request headers.
return htp_tx_state_request_headers(connp->in_tx);
}
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->in_header != NULL) {
if (connp->cfg->process_request_header(connp, bstr_ptr(connp->in_header),
bstr_len(connp->in_header)) != HTP_OK) return HTP_ERROR;
bstr_free(connp->in_header);
connp->in_header = NULL;
}
IN_PEEK_NEXT(connp);
if (htp_is_folding_char(connp->in_next_byte) == 0) {
// Because we know this header is not folded, we can process the buffer straight away.
if (connp->cfg->process_request_header(connp, data, len) != HTP_OK) return HTP_ERROR;
} else {
// Keep the partial header data for parsing later.
connp->in_header = bstr_dup_mem(data, len);
if (connp->in_header == NULL) return HTP_ERROR;
}
} else {
// Folding; check that there's a previous header line to add to.
if (connp->in_header == NULL) {
// Invalid folding.
// Warn only once per transaction.
if (!(connp->in_tx->flags & HTP_INVALID_FOLDING)) {
connp->in_tx->flags |= HTP_INVALID_FOLDING;
htp_log(connp, HTP_LOG_MARK, HTP_LOG_WARNING, 0, "Invalid request field folding");
}
// Keep the header data for parsing later.
connp->in_header = bstr_dup_mem(data, len);
if (connp->in_header == NULL) return HTP_ERROR;
} else {
// Add to the existing header.
bstr *new_in_header = bstr_add_mem(connp->in_header, data, len);
if (new_in_header == NULL) return HTP_ERROR;
connp->in_header = new_in_header;
}
}
htp_connp_req_clear_buffer(connp);
}
}
return HTP_ERROR;
}
/**
* 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) {
for (;;) {
OUT_COPY_BYTE_OR_RETURN(connp);
// Have we reached the end of the line?
if (connp->out_next_byte == LF) {
unsigned char *data;
size_t len;
htp_connp_res_consolidate_data(connp, &data, &len);
#ifdef HTP_DEBUG
fprint_raw_data(stderr, __FUNCTION__, data, len);
#endif
// Should we terminate headers?
if (htp_connp_is_line_terminator(connp, data, len)) {
// 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->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);
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.
connp->out_header = bstr_dup_mem(data, len);
if (connp->out_header == NULL) return HTP_ERROR;
} else {
// Add to the existing header.
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;
}
}
htp_connp_res_clear_buffer(connp);
}
}
return HTP_ERROR;
}
/**
* Parses response headers.
*
* @param connp
* @returns HTP_OK on state change, HTTP_ERROR on error, or HTP_DATA when more data is needed.
*/
int htp_connp_RES_HEADERS(htp_connp_t * connp) {
for (;;) {
OUT_COPY_BYTE_OR_RETURN(connp);
if (connp->out_header_line == NULL) {
connp->out_header_line = calloc(1, sizeof (htp_header_line_t));
if (connp->out_header_line == NULL) return HTP_ERROR;
connp->out_header_line->first_nul_offset = -1;
}
// Keep track of NUL bytes
if (connp->out_next_byte == 0) {
// Store the offset of the first NUL
if (connp->out_header_line->has_nulls == 0) {
connp->out_header_line->first_nul_offset = connp->out_line_len;
}
// Remember how many NULs there were
connp->out_header_line->flags |= HTP_FIELD_NUL_BYTE;
connp->out_header_line->has_nulls++;
}
// Have we reached the end of the line?
if (connp->out_next_byte == LF) {
#ifdef HTP_DEBUG
fprint_raw_data(stderr, __FUNCTION__, connp->out_line, connp->out_line_len);
#endif
// Should we terminate headers?
if (htp_connp_is_line_terminator(connp, connp->out_line, connp->out_line_len)) {
// Terminator line
connp->out_tx->response_headers_sep = bstr_dup_mem((char *)connp->out_line, connp->out_line_len);
if (connp->out_tx->response_headers_sep == NULL) {
return HTP_ERROR;
}
// Parse previous header, if any
if (connp->out_header_line_index != -1) {
// Only try to parse a header, but ignore
// any problems. That's what browsers do.
connp->cfg->process_response_header(connp);
// Reset index
connp->out_header_line_index = -1;
}
// Cleanup
free(connp->out_header_line);
connp->out_line_len = 0;
connp->out_header_line = NULL;
// We've seen all response headers
if (connp->out_tx->progress == TX_PROGRESS_RES_HEADERS) {
// Determine if this response has a body
connp->out_state = htp_connp_RES_BODY_DETERMINE;
} else {
// Run hook response_TRAILER
int rc = hook_run_all(connp->cfg->hook_response_trailer, connp);
if (rc != HOOK_OK) {
htp_log(connp, HTP_LOG_MARK, HTP_LOG_ERROR, 0,
"Response trailer callback returned error (%d)", rc);
return HTP_ERROR;
}
// We've completed parsing this response
connp->out_state = htp_connp_RES_IDLE;
}
return HTP_OK;
}
// Prepare line for consumption
int chomp_result = htp_chomp(connp->out_line, &connp->out_line_len);
// Check for header folding
if (htp_connp_is_line_folded(connp->out_line, connp->out_line_len) == 0) {
// New header line
// Parse previous header, if any
if (connp->out_header_line_index != -1) {
// Only try to parse a header, but ignore
// any problems. That's what browsers do.
connp->cfg->process_response_header(connp);
// Reset index
connp->out_header_line_index = -1;
}
// Remember the index of the fist header line
connp->out_header_line_index = connp->out_header_line_counter;
} else {
// Folding; check that there's a previous header line to add to
if (connp->out_header_line_index == -1) {
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");
}
}
}
// Add the raw header line to the list
connp->out_header_line->line = bstr_dup_mem((char *) connp->out_line, connp->out_line_len + chomp_result);
if (connp->out_header_line->line == NULL) {
return HTP_ERROR;
}
list_add(connp->out_tx->response_header_lines, connp->out_header_line);
connp->out_header_line = NULL;
// Cleanup for the next line
connp->out_line_len = 0;
if (connp->out_header_line_index == -1) {
connp->out_header_line_index = connp->out_header_line_counter;
}
connp->out_header_line_counter++;
}
}
}
/**
* Parses request headers.
*
* @param connp
* @returns HTP_OK on state change, HTTP_ERROR on error, or HTP_DATA when more data is needed.
*/
int htp_connp_REQ_HEADERS(htp_connp_t *connp) {
for (;;) {
IN_COPY_BYTE_OR_RETURN(connp);
// Allocate structure to hold one header line
if (connp->in_header_line == NULL) {
connp->in_header_line = calloc(1, sizeof (htp_header_line_t));
if (connp->in_header_line == NULL) return HTP_ERROR;
connp->in_header_line->first_nul_offset = -1;
}
// Keep track of NUL bytes
if (connp->in_next_byte == 0) {
// Store the offset of the first NUL
if (connp->in_header_line->has_nulls == 0) {
connp->in_header_line->first_nul_offset = connp->in_line_len;
}
// Remember how many NULs there were
connp->in_header_line->flags |= HTP_FIELD_NUL_BYTE;
connp->in_header_line->has_nulls++;
}
// Have we reached the end of the line?
if (connp->in_next_byte == LF) {
#ifdef HTP_DEBUG
fprint_raw_data(stderr, __FUNCTION__, connp->in_line, connp->in_line_len);
#endif
// Should we terminate headers?
if (htp_connp_is_line_terminator(connp, connp->in_line, connp->in_line_len)) {
// Terminator line
connp->in_tx->request_headers_sep = bstr_dup_mem((char *)connp->in_line, connp->in_line_len);
if (connp->in_tx->request_headers_sep == NULL) {
return HTP_ERROR;
}
// Parse previous header, if any
if (connp->in_header_line_index != -1) {
if (connp->cfg->process_request_header(connp) != HTP_OK) {
// Note: downstream responsible for error logging
return HTP_ERROR;
}
// Reset index
connp->in_header_line_index = -1;
}
// Cleanup
free(connp->in_header_line);
connp->in_line_len = 0;
connp->in_header_line = NULL;
// We've seen all request headers
// Did this request arrive in multiple chunks?
if (connp->in_chunk_count != connp->in_chunk_request_index) {
connp->in_tx->flags |= HTP_MULTI_PACKET_HEAD;
}
// Move onto the next processing phase
if (connp->in_tx->progress == TX_PROGRESS_REQ_HEADERS) {
// Remember how many header lines there were before trailers
connp->in_tx->request_header_lines_no_trailers = list_size(connp->in_tx->request_header_lines);
// Run hook REQUEST_HEADERS_RAW
//if (connp->cfg->hook_request_headers_raw != NULL) {
// htp_req_run_hook_request_headers_raw(connp, 0,
// connp->in_tx->request_header_lines_no_trailers);
//}
// Determine if this request has a body
connp->in_state = htp_connp_REQ_CONNECT_CHECK;
} else {
// Run hook REQUEST_HEADERS_RAW
//if ((connp->cfg->hook_request_headers_raw != NULL)
// && (list_size(connp->in_tx->request_header_lines) > connp->in_tx->request_header_lines_no_trailers)) {
// htp_req_run_hook_request_headers_raw(connp,
// connp->in_tx->request_header_lines_no_trailers,
// list_size(connp->in_tx->request_header_lines));
//}
// Run hook REQUEST_TRAILER
int rc = hook_run_all(connp->cfg->hook_request_trailer, connp);
if (rc != HOOK_OK) {
switch (rc) {
case HOOK_STOP:
return HTP_STOP;
case HOOK_ERROR:
case HOOK_DECLINED:
default:
htp_log(connp, HTP_LOG_MARK, HTP_LOG_ERROR, 0,
"Request headers callback returned error (%d)", rc);
return HTP_ERROR;
}
}
// We've completed parsing this request
connp->in_state = htp_connp_REQ_IDLE;
connp->in_tx->progress = TX_PROGRESS_WAIT;
}
return HTP_OK;
}
// Prepare line for consumption
int chomp_result = htp_chomp(connp->in_line, &connp->in_line_len);
// Check for header folding
if (htp_connp_is_line_folded(connp->in_line, connp->in_line_len) == 0) {
// New header line
// Parse previous header, if any
if (connp->in_header_line_index != -1) {
if (connp->cfg->process_request_header(connp) != HTP_OK) {
// Note: downstream responsible for error logging
return HTP_ERROR;
}
// Reset index
connp->in_header_line_index = -1;
}
// Remember the index of the fist header line
connp->in_header_line_index = connp->in_header_line_counter;
} else {
// Folding; check that there's a previous header line to add to
if (connp->in_header_line_index == -1) {
if (!(connp->in_tx->flags & HTP_INVALID_FOLDING)) {
connp->in_tx->flags |= HTP_INVALID_FOLDING;
htp_log(connp, HTP_LOG_MARK, HTP_LOG_WARNING, 0,
"Invalid request field folding");
}
}
}
// Add the raw header line to the list
connp->in_header_line->line = bstr_dup_mem((char *) connp->in_line, connp->in_line_len + chomp_result);
if (connp->in_header_line->line == NULL) {
return HTP_ERROR;
}
list_add(connp->in_tx->request_header_lines, connp->in_header_line);
connp->in_header_line = NULL;
// Cleanup for the next line
connp->in_line_len = 0;
if (connp->in_header_line_index == -1) {
connp->in_header_line_index = connp->in_header_line_counter;
}
connp->in_header_line_counter++;
}
}
}
/**
* Parses request headers.
*
* @param connp
* @returns HTP_OK on state change, HTTP_ERROR on error, or HTP_DATA when more data is needed.
*/
int htp_connp_REQ_HEADERS(htp_connp_t *connp) {
for (;;) {
IN_COPY_BYTE_OR_RETURN(connp);
if (connp->in_header_line == NULL) {
connp->in_header_line = calloc(1, sizeof (htp_header_line_t));
if (connp->in_header_line == NULL) return HTP_ERROR;
connp->in_header_line->first_nul_offset = -1;
}
// Keep track of NUL bytes
if (connp->in_next_byte == 0) {
// Store the offset of the first NUL
if (connp->in_header_line->has_nulls == 0) {
connp->in_header_line->first_nul_offset = connp->in_line_len;
}
// Remember how many NULs there were
connp->in_header_line->flags |= HTP_FIELD_NUL_BYTE;
connp->in_header_line->has_nulls++;
}
// Have we reached the end of the line?
if (connp->in_next_byte == LF) {
#ifdef HTP_DEBUG
fprint_raw_data(stderr, __FUNCTION__, connp->in_line, connp->in_line_len);
#endif
// Should we terminate headers?
if (htp_connp_is_line_terminator(connp, connp->in_line, connp->in_line_len)) {
// Terminator line
// Parse previous header, if any
if (connp->in_header_line_index != -1) {
if (connp->cfg->process_request_header(connp) != HTP_OK) {
// Note: downstream responsible for error logging
return HTP_ERROR;
}
// Reset index
connp->in_header_line_index = -1;
}
// Cleanup
free(connp->in_header_line);
connp->in_line_len = 0;
connp->in_header_line = NULL;
// We've seen all request headers
if (connp->in_chunk_count != connp->in_chunk_request_index) {
connp->in_tx->flags |= HTP_MULTI_PACKET_HEAD;
}
// Move onto the next processing phase
if (connp->in_tx->progress[0] == TX_PROGRESS_REQ_HEADERS) {
// Determine if this request has a body
//connp->in_state = htp_connp_REQ_BODY_DETERMINE;
connp->in_state = htp_connp_REQ_CONNECT_CHECK;
} else {
// Run hook REQUEST_TRAILER
int rc = hook_run_all(connp->cfg->hook_request_trailer, connp);
if (rc != HOOK_OK) {
htp_log(connp, HTP_LOG_MARK, HTP_LOG_ERROR, 0,
"Request trailer callback returned error (%d)", rc);
return HTP_ERROR;
}
// We've completed parsing this request
connp->in_state = htp_connp_REQ_IDLE;
connp->in_tx->progress[0] = TX_PROGRESS_WAIT;
}
return HTP_OK;
}
// Prepare line for consumption
size_t raw_in_line_len = connp->in_line_len;
htp_chomp(connp->in_line, &connp->in_line_len);
// Check for header folding
if (htp_connp_is_line_folded(connp->in_line, connp->in_line_len) == 0) {
// New header line
// Parse previous header, if any
if (connp->in_header_line_index != -1) {
if (connp->cfg->process_request_header(connp) != HTP_OK) {
// Note: downstream responsible for error logging
return HTP_ERROR;
}
// Reset index
connp->in_header_line_index = -1;
}
// Remember the index of the fist header line
connp->in_header_line_index = connp->in_header_line_counter;
} else {
// Folding; check that there's a previous header line to add to
if (connp->in_header_line_index == -1) {
if (!(connp->in_tx->flags & HTP_INVALID_FOLDING)) {
connp->in_tx->flags |= HTP_INVALID_FOLDING;
htp_log(connp, HTP_LOG_MARK, HTP_LOG_WARNING, 0,
"Invalid request field folding");
}
}
}
// Add the raw header line to the list
if (raw_in_line_len > connp->in_line_len) {
if (raw_in_line_len - connp->in_line_len == 2 &&
connp->in_line[connp->in_line_len] == 0x0d &&
connp->in_line[connp->in_line_len + 1] == 0x0a) {
connp->in_header_line->terminators = NULL;
} else {
connp->in_header_line->terminators =
bstr_memdup((char *) connp->in_line + connp->in_line_len,
raw_in_line_len - connp->in_line_len);
if (connp->in_header_line->terminators == NULL) {
return HTP_ERROR;
}
}
} else {
connp->in_header_line->terminators = NULL;
}
connp->in_header_line->line = bstr_memdup((char *) connp->in_line, connp->in_line_len);
if (connp->in_header_line->line == NULL) {
return HTP_ERROR;
}
list_add(connp->in_tx->request_header_lines, connp->in_header_line);
connp->in_header_line = NULL;
// Cleanup for the next line
connp->in_line_len = 0;
if (connp->in_header_line_index == -1) {
connp->in_header_line_index = connp->in_header_line_counter;
}
connp->in_header_line_counter++;
}
}
return HTP_ERROR;
}
