| /* |
| * include/proto/h1.h |
| * This file contains HTTP/1 protocol definitions. |
| * |
| * Copyright (C) 2000-2017 Willy Tarreau - w@1wt.eu |
| * |
| * This library is free software; you can redistribute it and/or |
| * modify it under the terms of the GNU Lesser General Public |
| * License as published by the Free Software Foundation, version 2.1 |
| * exclusively. |
| * |
| * This library is distributed in the hope that it will be useful, |
| * but WITHOUT ANY WARRANTY; without even the implied warranty of |
| * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU |
| * Lesser General Public License for more details. |
| * |
| * You should have received a copy of the GNU Lesser General Public |
| * License along with this library; if not, write to the Free Software |
| * Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA |
| */ |
| |
| #ifndef _PROTO_H1_H |
| #define _PROTO_H1_H |
| |
| #include <common/buffer.h> |
| #include <common/compiler.h> |
| #include <common/config.h> |
| #include <common/http.h> |
| #include <common/http-hdr.h> |
| #include <common/standard.h> |
| #include <types/h1.h> |
| #include <proto/hdr_idx.h> |
| |
| const char *http_parse_reqline(struct http_msg *msg, |
| enum h1_state state, const char *ptr, const char *end, |
| unsigned int *ret_ptr, enum h1_state *ret_state); |
| const char *http_parse_stsline(struct http_msg *msg, |
| enum h1_state state, const char *ptr, const char *end, |
| unsigned int *ret_ptr, enum h1_state *ret_state); |
| void http_msg_analyzer(struct http_msg *msg, struct hdr_idx *idx); |
| int http_forward_trailers(struct http_msg *msg); |
| int h1_headers_to_hdr_list(char *start, const char *stop, |
| struct http_hdr *hdr, unsigned int hdr_num, |
| struct h1m *h1m, union h1_sl *slp); |
| int h1_measure_trailers(const struct buffer *buf, unsigned int ofs, unsigned int max); |
| |
| /* Macros used in the HTTP/1 parser, to check for the expected presence of |
| * certain bytes (ef: LF) or to skip to next byte and yield in case of failure. |
| */ |
| |
| |
| /* Expects to find an LF at <ptr>. If not, set <state> to <where> and jump to |
| * <bad>. |
| */ |
| #define EXPECT_LF_HERE(ptr, bad, state, where) \ |
| do { \ |
| if (unlikely(*(ptr) != '\n')) { \ |
| state = (where); \ |
| goto bad; \ |
| } \ |
| } while (0) |
| |
| /* Increments pointer <ptr>, continues to label <more> if it's still below |
| * pointer <end>, or goes to <stop> and sets <state> to <where> if the end |
| * of buffer was reached. |
| */ |
| #define EAT_AND_JUMP_OR_RETURN(ptr, end, more, stop, state, where) \ |
| do { \ |
| if (likely(++(ptr) < (end))) \ |
| goto more; \ |
| else { \ |
| state = (where); \ |
| goto stop; \ |
| } \ |
| } while (0) |
| |
| /* for debugging, reports the HTTP/1 message state name (legacy version) */ |
| static inline const char *h1_msg_state_str(enum h1_state msg_state) |
| { |
| switch (msg_state) { |
| case HTTP_MSG_RQBEFORE: return "MSG_RQBEFORE"; |
| case HTTP_MSG_RQBEFORE_CR: return "MSG_RQBEFORE_CR"; |
| case HTTP_MSG_RQMETH: return "MSG_RQMETH"; |
| case HTTP_MSG_RQMETH_SP: return "MSG_RQMETH_SP"; |
| case HTTP_MSG_RQURI: return "MSG_RQURI"; |
| case HTTP_MSG_RQURI_SP: return "MSG_RQURI_SP"; |
| case HTTP_MSG_RQVER: return "MSG_RQVER"; |
| case HTTP_MSG_RQLINE_END: return "MSG_RQLINE_END"; |
| case HTTP_MSG_RPBEFORE: return "MSG_RPBEFORE"; |
| case HTTP_MSG_RPBEFORE_CR: return "MSG_RPBEFORE_CR"; |
| case HTTP_MSG_RPVER: return "MSG_RPVER"; |
| case HTTP_MSG_RPVER_SP: return "MSG_RPVER_SP"; |
| case HTTP_MSG_RPCODE: return "MSG_RPCODE"; |
| case HTTP_MSG_RPCODE_SP: return "MSG_RPCODE_SP"; |
| case HTTP_MSG_RPREASON: return "MSG_RPREASON"; |
| case HTTP_MSG_RPLINE_END: return "MSG_RPLINE_END"; |
| case HTTP_MSG_HDR_FIRST: return "MSG_HDR_FIRST"; |
| case HTTP_MSG_HDR_NAME: return "MSG_HDR_NAME"; |
| case HTTP_MSG_HDR_COL: return "MSG_HDR_COL"; |
| case HTTP_MSG_HDR_L1_SP: return "MSG_HDR_L1_SP"; |
| case HTTP_MSG_HDR_L1_LF: return "MSG_HDR_L1_LF"; |
| case HTTP_MSG_HDR_L1_LWS: return "MSG_HDR_L1_LWS"; |
| case HTTP_MSG_HDR_VAL: return "MSG_HDR_VAL"; |
| case HTTP_MSG_HDR_L2_LF: return "MSG_HDR_L2_LF"; |
| case HTTP_MSG_HDR_L2_LWS: return "MSG_HDR_L2_LWS"; |
| case HTTP_MSG_LAST_LF: return "MSG_LAST_LF"; |
| case HTTP_MSG_ERROR: return "MSG_ERROR"; |
| case HTTP_MSG_BODY: return "MSG_BODY"; |
| case HTTP_MSG_100_SENT: return "MSG_100_SENT"; |
| case HTTP_MSG_CHUNK_SIZE: return "MSG_CHUNK_SIZE"; |
| case HTTP_MSG_DATA: return "MSG_DATA"; |
| case HTTP_MSG_CHUNK_CRLF: return "MSG_CHUNK_CRLF"; |
| case HTTP_MSG_TRAILERS: return "MSG_TRAILERS"; |
| case HTTP_MSG_ENDING: return "MSG_ENDING"; |
| case HTTP_MSG_DONE: return "MSG_DONE"; |
| case HTTP_MSG_CLOSING: return "MSG_CLOSING"; |
| case HTTP_MSG_CLOSED: return "MSG_CLOSED"; |
| case HTTP_MSG_TUNNEL: return "MSG_TUNNEL"; |
| default: return "MSG_??????"; |
| } |
| } |
| |
| /* for debugging, reports the HTTP/1 message state name */ |
| static inline const char *h1m_state_str(enum h1_state msg_state) |
| { |
| switch (msg_state) { |
| case H1_MSG_RQBEFORE: return "MSG_RQBEFORE"; |
| case H1_MSG_RQBEFORE_CR: return "MSG_RQBEFORE_CR"; |
| case H1_MSG_RQMETH: return "MSG_RQMETH"; |
| case H1_MSG_RQMETH_SP: return "MSG_RQMETH_SP"; |
| case H1_MSG_RQURI: return "MSG_RQURI"; |
| case H1_MSG_RQURI_SP: return "MSG_RQURI_SP"; |
| case H1_MSG_RQVER: return "MSG_RQVER"; |
| case H1_MSG_RQLINE_END: return "MSG_RQLINE_END"; |
| case H1_MSG_RPBEFORE: return "MSG_RPBEFORE"; |
| case H1_MSG_RPBEFORE_CR: return "MSG_RPBEFORE_CR"; |
| case H1_MSG_RPVER: return "MSG_RPVER"; |
| case H1_MSG_RPVER_SP: return "MSG_RPVER_SP"; |
| case H1_MSG_RPCODE: return "MSG_RPCODE"; |
| case H1_MSG_RPCODE_SP: return "MSG_RPCODE_SP"; |
| case H1_MSG_RPREASON: return "MSG_RPREASON"; |
| case H1_MSG_RPLINE_END: return "MSG_RPLINE_END"; |
| case H1_MSG_HDR_FIRST: return "MSG_HDR_FIRST"; |
| case H1_MSG_HDR_NAME: return "MSG_HDR_NAME"; |
| case H1_MSG_HDR_COL: return "MSG_HDR_COL"; |
| case H1_MSG_HDR_L1_SP: return "MSG_HDR_L1_SP"; |
| case H1_MSG_HDR_L1_LF: return "MSG_HDR_L1_LF"; |
| case H1_MSG_HDR_L1_LWS: return "MSG_HDR_L1_LWS"; |
| case H1_MSG_HDR_VAL: return "MSG_HDR_VAL"; |
| case H1_MSG_HDR_L2_LF: return "MSG_HDR_L2_LF"; |
| case H1_MSG_HDR_L2_LWS: return "MSG_HDR_L2_LWS"; |
| case H1_MSG_LAST_LF: return "MSG_LAST_LF"; |
| case H1_MSG_CHUNK_SIZE: return "MSG_CHUNK_SIZE"; |
| case H1_MSG_DATA: return "MSG_DATA"; |
| case H1_MSG_CHUNK_CRLF: return "MSG_CHUNK_CRLF"; |
| case H1_MSG_TRAILERS: return "MSG_TRAILERS"; |
| case H1_MSG_DONE: return "MSG_DONE"; |
| case H1_MSG_TUNNEL: return "MSG_TUNNEL"; |
| default: return "MSG_??????"; |
| } |
| } |
| |
| /* This function may be called only in HTTP_MSG_CHUNK_CRLF. It reads the CRLF or |
| * a possible LF alone at the end of a chunk. The caller should adjust msg->next |
| * in order to include this part into the next forwarding phase. Note that the |
| * caller must ensure that head+start points to the first byte to parse. It |
| * returns the number of bytes parsed on success, so the caller can set msg_state |
| * to HTTP_MSG_CHUNK_SIZE. If not enough data are available, the function does not |
| * change anything and returns zero. Otherwise it returns a negative value |
| * indicating the error positionn relative to <stop>. Note: this function is |
| * designed to parse wrapped CRLF at the end of the buffer. |
| */ |
| static inline int h1_skip_chunk_crlf(const struct buffer *buf, int start, int stop) |
| { |
| const char *ptr = b_peek(buf, start); |
| int bytes = 1; |
| |
| /* NB: we'll check data availabilty at the end. It's not a |
| * problem because whatever we match first will be checked |
| * against the correct length. |
| */ |
| if (*ptr == '\r') { |
| bytes++; |
| ptr++; |
| if (ptr >= b_wrap(buf)) |
| ptr = b_orig(buf); |
| } |
| |
| if (bytes > stop - start) |
| return 0; |
| |
| if (*ptr != '\n') // negative position to stop |
| return ptr - __b_peek(buf, stop); |
| |
| return bytes; |
| } |
| |
| /* Parse the chunk size start at buf + start and stops before buf + stop. The |
| * positions are relative to the buffer's head. |
| * It returns the chunk size in <res> and the amount of bytes read this way : |
| * < 0 : error at this position relative to <stop> |
| * = 0 : not enough bytes to read a complete chunk size |
| * > 0 : number of bytes successfully read that the caller can skip |
| * On success, the caller should adjust its msg->next to point to the first |
| * byte of data after the chunk size, so that we know we can forward exactly |
| * msg->next bytes, and msg->sol to contain the exact number of bytes forming |
| * the chunk size. That way it is always possible to differentiate between the |
| * start of the body and the start of the data. Note: this function is designed |
| * to parse wrapped CRLF at the end of the buffer. |
| */ |
| static inline int h1_parse_chunk_size(const struct buffer *buf, int start, int stop, unsigned int *res) |
| { |
| const char *ptr = b_peek(buf, start); |
| const char *ptr_old = ptr; |
| const char *end = b_wrap(buf); |
| unsigned int chunk = 0; |
| |
| stop -= start; // bytes left |
| start = stop; // bytes to transfer |
| |
| /* The chunk size is in the following form, though we are only |
| * interested in the size and CRLF : |
| * 1*HEXDIGIT *WSP *[ ';' extensions ] CRLF |
| */ |
| while (1) { |
| int c; |
| if (!stop) |
| return 0; |
| c = hex2i(*ptr); |
| if (c < 0) /* not a hex digit anymore */ |
| break; |
| if (unlikely(++ptr >= end)) |
| ptr = b_orig(buf); |
| if (unlikely(chunk & 0xF8000000)) /* integer overflow will occur if result >= 2GB */ |
| goto error; |
| chunk = (chunk << 4) + c; |
| stop--; |
| } |
| |
| /* empty size not allowed */ |
| if (unlikely(ptr == ptr_old)) |
| goto error; |
| |
| while (HTTP_IS_SPHT(*ptr)) { |
| if (++ptr >= end) |
| ptr = b_orig(buf); |
| if (--stop == 0) |
| return 0; |
| } |
| |
| /* Up to there, we know that at least one byte is present at *ptr. Check |
| * for the end of chunk size. |
| */ |
| while (1) { |
| if (likely(HTTP_IS_CRLF(*ptr))) { |
| /* we now have a CR or an LF at ptr */ |
| if (likely(*ptr == '\r')) { |
| if (++ptr >= end) |
| ptr = b_orig(buf); |
| if (--stop == 0) |
| return 0; |
| } |
| |
| if (*ptr != '\n') |
| goto error; |
| if (++ptr >= end) |
| ptr = b_orig(buf); |
| --stop; |
| /* done */ |
| break; |
| } |
| else if (likely(*ptr == ';')) { |
| /* chunk extension, ends at next CRLF */ |
| if (++ptr >= end) |
| ptr = b_orig(buf); |
| if (--stop == 0) |
| return 0; |
| |
| while (!HTTP_IS_CRLF(*ptr)) { |
| if (++ptr >= end) |
| ptr = b_orig(buf); |
| if (--stop == 0) |
| return 0; |
| } |
| /* we have a CRLF now, loop above */ |
| continue; |
| } |
| else |
| goto error; |
| } |
| |
| /* OK we found our CRLF and now <ptr> points to the next byte, which may |
| * or may not be present. Let's return the number of bytes parsed. |
| */ |
| *res = chunk; |
| return start - stop; |
| error: |
| *res = 0; // just to stop gcc's -Wuninitialized warning :-( |
| return -stop; |
| } |
| |
| /* initializes an H1 message for a request */ |
| static inline struct h1m *h1m_init_req(struct h1m *h1m) |
| { |
| h1m->state = H1_MSG_RQBEFORE; |
| h1m->next = 0; |
| h1m->flags = H1_MF_NONE; |
| h1m->curr_len = 0; |
| h1m->body_len = 0; |
| h1m->err_pos = -2; |
| h1m->err_state = 0; |
| return h1m; |
| } |
| |
| /* initializes an H1 message for a response */ |
| static inline struct h1m *h1m_init_res(struct h1m *h1m) |
| { |
| h1m->state = H1_MSG_RPBEFORE; |
| h1m->next = 0; |
| h1m->flags = H1_MF_RESP; |
| h1m->curr_len = 0; |
| h1m->body_len = 0; |
| h1m->err_pos = -2; |
| h1m->err_state = 0; |
| return h1m; |
| } |
| |
| #endif /* _PROTO_H1_H */ |