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git01.mediatek.com / haproxy / 7ed43aaf644d197a37861901b8e8ddd678fcc1fc / . / src / http_msg.c
blob: 067a7f863db627cdb304e03b8bf287c335e7d79a [file] [log] [blame]
/*
* Legacy HTTP protocol manipulation
* If you think you need something from this file, you're mistaken as it will
* soon be removed. Please check http_htx.c instead!
*
* Copyright 2000-2011 Willy Tarreau <w@1wt.eu>
*
* This program is free software; you can redistribute it and/or
* modify it under the terms of the GNU General Public License
* as published by the Free Software Foundation; either version
* 2 of the License, or (at your option) any later version.
*
*/
#include <proto/channel.h>
#include <proto/hdr_idx.h>
#include <proto/proto_http.h>
/*
* Adds a header and its CRLF at the tail of the message's buffer, just before
* the last CRLF. <len> bytes are copied, not counting the CRLF.
* The header is also automatically added to the index <hdr_idx>, and the end
* of headers is automatically adjusted. The number of bytes added is returned
* on success, otherwise <0 is returned indicating an error.
*/
int http_header_add_tail2(struct http_msg *msg,
struct hdr_idx *hdr_idx, const char *text, int len)
{
int bytes;
bytes = ci_insert_line2(msg->chn, msg->eoh, text, len);
if (!bytes)
return -1;
http_msg_move_end(msg, bytes);
return hdr_idx_add(len, 1, hdr_idx, hdr_idx->tail);
}
/* Find the first or next occurrence of header <name> in message buffer <sol>
* using headers index <idx>, and return it in the <ctx> structure. This
* structure holds everything necessary to use the header and find next
* occurrence. If its <idx> member is 0, the header is searched from the
* beginning. Otherwise, the next occurrence is returned. The function returns
* 1 when it finds a value, and 0 when there is no more. It is very similar to
* http_find_header2() except that it is designed to work with full-line headers
* whose comma is not a delimiter but is part of the syntax. As a special case,
* if ctx->val is NULL when searching for a new values of a header, the current
* header is rescanned. This allows rescanning after a header deletion.
*/
int http_find_full_header2(const char *name, int len,
char *sol, struct hdr_idx *idx,
struct hdr_ctx *ctx)
{
char *eol, *sov;
int cur_idx, old_idx;
cur_idx = ctx->idx;
if (cur_idx) {
/* We have previously returned a header, let's search another one */
sol = ctx->line;
eol = sol + idx->v[cur_idx].len;
goto next_hdr;
}
/* first request for this header */
sol += hdr_idx_first_pos(idx);
old_idx = 0;
cur_idx = hdr_idx_first_idx(idx);
while (cur_idx) {
eol = sol + idx->v[cur_idx].len;
if (len == 0) {
/* No argument was passed, we want any header.
* To achieve this, we simply build a fake request. */
while (sol + len < eol && sol[len] != ':')
len++;
name = sol;
}
if ((len < eol - sol) &&
(sol[len] == ':') &&
(strncasecmp(sol, name, len) == 0)) {
ctx->del = len;
sov = sol + len + 1;
while (sov < eol && HTTP_IS_LWS(*sov))
sov++;
ctx->line = sol;
ctx->prev = old_idx;
ctx->idx = cur_idx;
ctx->val = sov - sol;
ctx->tws = 0;
while (eol > sov && HTTP_IS_LWS(*(eol - 1))) {
eol--;
ctx->tws++;
}
ctx->vlen = eol - sov;
return 1;
}
next_hdr:
sol = eol + idx->v[cur_idx].cr + 1;
old_idx = cur_idx;
cur_idx = idx->v[cur_idx].next;
}
return 0;
}
/* Find the first or next header field in message buffer <sol> using headers
* index <idx>, and return it in the <ctx> structure. This structure holds
* everything necessary to use the header and find next occurrence. If its
* <idx> member is 0, the first header is retrieved. Otherwise, the next
* occurrence is returned. The function returns 1 when it finds a value, and
* 0 when there is no more. It is equivalent to http_find_full_header2() with
* no header name.
*/
int http_find_next_header(char *sol, struct hdr_idx *idx, struct hdr_ctx *ctx)
{
char *eol, *sov;
int cur_idx, old_idx;
int len;
cur_idx = ctx->idx;
if (cur_idx) {
/* We have previously returned a header, let's search another one */
sol = ctx->line;
eol = sol + idx->v[cur_idx].len;
goto next_hdr;
}
/* first request for this header */
sol += hdr_idx_first_pos(idx);
old_idx = 0;
cur_idx = hdr_idx_first_idx(idx);
while (cur_idx) {
eol = sol + idx->v[cur_idx].len;
len = 0;
while (1) {
if (len >= eol - sol)
goto next_hdr;
if (sol[len] == ':')
break;
len++;
}
ctx->del = len;
sov = sol + len + 1;
while (sov < eol && HTTP_IS_LWS(*sov))
sov++;
ctx->line = sol;
ctx->prev = old_idx;
ctx->idx = cur_idx;
ctx->val = sov - sol;
ctx->tws = 0;
while (eol > sov && HTTP_IS_LWS(*(eol - 1))) {
eol--;
ctx->tws++;
}
ctx->vlen = eol - sov;
return 1;
next_hdr:
sol = eol + idx->v[cur_idx].cr + 1;
old_idx = cur_idx;
cur_idx = idx->v[cur_idx].next;
}
return 0;
}
/* Find the first or next occurrence of header <name> in message buffer <sol>
* using headers index <idx>, and return it in the <ctx> structure. This
* structure holds everything necessary to use the header and find next
* occurrence. If its <idx> member is 0, the header is searched from the
* beginning. Otherwise, the next occurrence is returned. The function returns
* 1 when it finds a value, and 0 when there is no more. It is designed to work
* with headers defined as comma-separated lists. As a special case, if ctx->val
* is NULL when searching for a new values of a header, the current header is
* rescanned. This allows rescanning after a header deletion.
*/
int http_find_header2(const char *name, int len,
char *sol, struct hdr_idx *idx,
struct hdr_ctx *ctx)
{
char *eol, *sov;
int cur_idx, old_idx;
cur_idx = ctx->idx;
if (cur_idx) {
/* We have previously returned a value, let's search
* another one on the same line.
*/
sol = ctx->line;
ctx->del = ctx->val + ctx->vlen + ctx->tws;
sov = sol + ctx->del;
eol = sol + idx->v[cur_idx].len;
if (sov >= eol)
/* no more values in this header */
goto next_hdr;
/* values remaining for this header, skip the comma but save it
* for later use (eg: for header deletion).
*/
sov++;
while (sov < eol && HTTP_IS_LWS((*sov)))
sov++;
goto return_hdr;
}
/* first request for this header */
sol += hdr_idx_first_pos(idx);
old_idx = 0;
cur_idx = hdr_idx_first_idx(idx);
while (cur_idx) {
eol = sol + idx->v[cur_idx].len;
if (len == 0) {
/* No argument was passed, we want any header.
* To achieve this, we simply build a fake request. */
while (sol + len < eol && sol[len] != ':')
len++;
name = sol;
}
if ((len < eol - sol) &&
(sol[len] == ':') &&
(strncasecmp(sol, name, len) == 0)) {
ctx->del = len;
sov = sol + len + 1;
while (sov < eol && HTTP_IS_LWS(*sov))
sov++;
ctx->line = sol;
ctx->prev = old_idx;
return_hdr:
ctx->idx = cur_idx;
ctx->val = sov - sol;
eol = http_find_hdr_value_end(sov, eol);
ctx->tws = 0;
while (eol > sov && HTTP_IS_LWS(*(eol - 1))) {
eol--;
ctx->tws++;
}
ctx->vlen = eol - sov;
return 1;
}
next_hdr:
sol = eol + idx->v[cur_idx].cr + 1;
old_idx = cur_idx;
cur_idx = idx->v[cur_idx].next;
}
return 0;
}
/* Remove one value of a header. This only works on a <ctx> returned by one of
* the http_find_header functions. The value is removed, as well as surrounding
* commas if any. If the removed value was alone, the whole header is removed.
* The ctx is always updated accordingly, as well as the buffer and HTTP
* message <msg>. The new index is returned. If it is zero, it means there is
* no more header, so any processing may stop. The ctx is always left in a form
* that can be handled by http_find_header2() to find next occurrence.
*/
int http_remove_header2(struct http_msg *msg, struct hdr_idx *idx, struct hdr_ctx *ctx)
{
int cur_idx = ctx->idx;
char *sol = ctx->line;
struct hdr_idx_elem *hdr;
int delta, skip_comma;
if (!cur_idx)
return 0;
hdr = &idx->v[cur_idx];
if (sol[ctx->del] == ':' && ctx->val + ctx->vlen + ctx->tws == hdr->len) {
/* This was the only value of the header, we must now remove it entirely. */
delta = b_rep_blk(&msg->chn->buf, sol, sol + hdr->len + hdr->cr + 1, NULL, 0);
http_msg_move_end(msg, delta);
idx->used--;
hdr->len = 0; /* unused entry */
idx->v[ctx->prev].next = idx->v[ctx->idx].next;
if (idx->tail == ctx->idx)
idx->tail = ctx->prev;
ctx->idx = ctx->prev; /* walk back to the end of previous header */
ctx->line -= idx->v[ctx->idx].len + idx->v[ctx->idx].cr + 1;
ctx->val = idx->v[ctx->idx].len; /* point to end of previous header */
ctx->tws = ctx->vlen = 0;
return ctx->idx;
}
/* This was not the only value of this header. We have to remove between
* ctx->del+1 and ctx->val+ctx->vlen+ctx->tws+1 included. If it is the
* last entry of the list, we remove the last separator.
*/
skip_comma = (ctx->val + ctx->vlen + ctx->tws == hdr->len) ? 0 : 1;
delta = b_rep_blk(&msg->chn->buf, sol + ctx->del + skip_comma,
sol + ctx->val + ctx->vlen + ctx->tws + skip_comma,
NULL, 0);
hdr->len += delta;
http_msg_move_end(msg, delta);
ctx->val = ctx->del;
ctx->tws = ctx->vlen = 0;
return ctx->idx;
}
int http_legacy_replace_header(struct hdr_idx *idx, struct http_msg *msg,
const char *name, unsigned int name_len,
const char *str, struct my_regex *re,
struct buffer *output)
{
struct hdr_ctx ctx;
char *buf = ci_head(msg->chn);
ctx.idx = 0;
while (http_find_header2(name, name_len, buf, idx, &ctx)) {
struct hdr_idx_elem *hdr = idx->v + ctx.idx;
int delta, len;
char *val = ctx.line + ctx.val;
char* val_end = val + ctx.vlen;
if (!regex_exec_match2(re, val, val_end-val, MAX_MATCH, pmatch, 0))
continue;
len = exp_replace(output->area, output->size, val, str, pmatch);
if (len == -1)
return -1;
delta = b_rep_blk(&msg->chn->buf, val, val_end, output->area, len);
hdr->len += delta;
http_msg_move_end(msg, delta);
/* Adjust the length of the current value of the index. */
ctx.vlen += delta;
}
return 0;
}
int http_legacy_replace_full_header(struct hdr_idx *idx, struct http_msg *msg,
const char *name, unsigned int name_len,
const char *str, struct my_regex *re,
struct buffer *output)
{
struct hdr_ctx ctx;
char *buf = ci_head(msg->chn);
ctx.idx = 0;
while (http_find_full_header2(name, name_len, buf, idx, &ctx)) {
struct hdr_idx_elem *hdr = idx->v + ctx.idx;
int delta, len;
char *val = ctx.line + ctx.val;
char* val_end = val + ctx.vlen;
if (!regex_exec_match2(re, val, val_end-val, MAX_MATCH, pmatch, 0))
continue;
len = exp_replace(output->area, output->size, val, str, pmatch);
if (len == -1)
return -1;
delta = b_rep_blk(&msg->chn->buf, val, val_end, output->area, len);
hdr->len += delta;
http_msg_move_end(msg, delta);
/* Adjust the length of the current value of the index. */
ctx.vlen += delta;
}
return 0;
}
/* Return in <vptr> and <vlen> the pointer and length of occurrence <occ> of
* header whose name is <hname> of length <hlen>. If <ctx> is null, lookup is
* performed over the whole headers. Otherwise it must contain a valid header
* context, initialised with ctx->idx=0 for the first lookup in a series. If
* <occ> is positive or null, occurrence #occ from the beginning (or last ctx)
* is returned. Occ #0 and #1 are equivalent. If <occ> is negative (and no less
* than -MAX_HDR_HISTORY), the occurrence is counted from the last one which is
* -1. The value fetch stops at commas, so this function is suited for use with
* list headers.
* The return value is 0 if nothing was found, or non-zero otherwise.
*/
unsigned int http_get_hdr(const struct http_msg *msg, const char *hname, int hlen,
struct hdr_idx *idx, int occ,
struct hdr_ctx *ctx, char **vptr, size_t *vlen)
{
struct hdr_ctx local_ctx;
char *ptr_hist[MAX_HDR_HISTORY];
unsigned int len_hist[MAX_HDR_HISTORY];
unsigned int hist_ptr;
int found;
if (!ctx) {
local_ctx.idx = 0;
ctx = &local_ctx;
}
if (occ >= 0) {
/* search from the beginning */
while (http_find_header2(hname, hlen, ci_head(msg->chn), idx, ctx)) {
occ--;
if (occ <= 0) {
*vptr = ctx->line + ctx->val;
*vlen = ctx->vlen;
return 1;
}
}
return 0;
}
/* negative occurrence, we scan all the list then walk back */
if (-occ > MAX_HDR_HISTORY)
return 0;
found = hist_ptr = 0;
while (http_find_header2(hname, hlen, ci_head(msg->chn), idx, ctx)) {
ptr_hist[hist_ptr] = ctx->line + ctx->val;
len_hist[hist_ptr] = ctx->vlen;
if (++hist_ptr >= MAX_HDR_HISTORY)
hist_ptr = 0;
found++;
}
if (-occ > found)
return 0;
/* OK now we have the last occurrence in [hist_ptr-1], and we need to
* find occurrence -occ. 0 <= hist_ptr < MAX_HDR_HISTORY, and we have
* -10 <= occ <= -1. So we have to check [hist_ptr%MAX_HDR_HISTORY+occ]
* to remain in the 0..9 range.
*/
hist_ptr += occ + MAX_HDR_HISTORY;
if (hist_ptr >= MAX_HDR_HISTORY)
hist_ptr -= MAX_HDR_HISTORY;
*vptr = ptr_hist[hist_ptr];
*vlen = len_hist[hist_ptr];
return 1;
}
/* Return in <vptr> and <vlen> the pointer and length of occurrence <occ> of
* header whose name is <hname> of length <hlen>. If <ctx> is null, lookup is
* performed over the whole headers. Otherwise it must contain a valid header
* context, initialised with ctx->idx=0 for the first lookup in a series. If
* <occ> is positive or null, occurrence #occ from the beginning (or last ctx)
* is returned. Occ #0 and #1 are equivalent. If <occ> is negative (and no less
* than -MAX_HDR_HISTORY), the occurrence is counted from the last one which is
* -1. This function differs from http_get_hdr() in that it only returns full
* line header values and does not stop at commas.
* The return value is 0 if nothing was found, or non-zero otherwise.
*/
unsigned int http_get_fhdr(const struct http_msg *msg, const char *hname, int hlen,
struct hdr_idx *idx, int occ,
struct hdr_ctx *ctx, char **vptr, size_t *vlen)
{
struct hdr_ctx local_ctx;
char *ptr_hist[MAX_HDR_HISTORY];
unsigned int len_hist[MAX_HDR_HISTORY];
unsigned int hist_ptr;
int found;
if (!ctx) {
local_ctx.idx = 0;
ctx = &local_ctx;
}
if (occ >= 0) {
/* search from the beginning */
while (http_find_full_header2(hname, hlen, ci_head(msg->chn), idx, ctx)) {
occ--;
if (occ <= 0) {
*vptr = ctx->line + ctx->val;
*vlen = ctx->vlen;
return 1;
}
}
return 0;
}
/* negative occurrence, we scan all the list then walk back */
if (-occ > MAX_HDR_HISTORY)
return 0;
found = hist_ptr = 0;
while (http_find_full_header2(hname, hlen, ci_head(msg->chn), idx, ctx)) {
ptr_hist[hist_ptr] = ctx->line + ctx->val;
len_hist[hist_ptr] = ctx->vlen;
if (++hist_ptr >= MAX_HDR_HISTORY)
hist_ptr = 0;
found++;
}
if (-occ > found)
return 0;
/* OK now we have the last occurrence in [hist_ptr-1], and we need to
* find occurrence -occ. 0 <= hist_ptr < MAX_HDR_HISTORY, and we have
* -10 <= occ <= -1. So we have to check [hist_ptr%MAX_HDR_HISTORY+occ]
* to remain in the 0..9 range.
*/
hist_ptr += occ + MAX_HDR_HISTORY;
if (hist_ptr >= MAX_HDR_HISTORY)
hist_ptr -= MAX_HDR_HISTORY;
*vptr = ptr_hist[hist_ptr];
*vlen = len_hist[hist_ptr];
return 1;
}
/* 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)
/*
* This function parses a status line between <ptr> and <end>, starting with
* parser state <state>. Only states HTTP_MSG_RPVER, HTTP_MSG_RPVER_SP,
* HTTP_MSG_RPCODE, HTTP_MSG_RPCODE_SP and HTTP_MSG_RPREASON are handled. Others
* will give undefined results.
* Note that it is upon the caller's responsibility to ensure that ptr < end,
* and that msg->sol points to the beginning of the response.
* If a complete line is found (which implies that at least one CR or LF is
* found before <end>, the updated <ptr> is returned, otherwise NULL is
* returned indicating an incomplete line (which does not mean that parts have
* not been updated). In the incomplete case, if <ret_ptr> or <ret_state> are
* non-NULL, they are fed with the new <ptr> and <state> values to be passed
* upon next call.
*
* This function was intentionally designed to be called from
* http_msg_analyzer() with the lowest overhead. It should integrate perfectly
* within its state machine and use the same macros, hence the need for same
* labels and variable names. Note that msg->sol is left unchanged.
*/
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)
{
const char *msg_start = ci_head(msg->chn);
switch (state) {
case HTTP_MSG_RPVER:
http_msg_rpver:
if (likely(HTTP_IS_VER_TOKEN(*ptr)))
EAT_AND_JUMP_OR_RETURN(ptr, end, http_msg_rpver, http_msg_ood, state, HTTP_MSG_RPVER);
if (likely(HTTP_IS_SPHT(*ptr))) {
msg->sl.st.v_l = ptr - msg_start;
EAT_AND_JUMP_OR_RETURN(ptr, end, http_msg_rpver_sp, http_msg_ood, state, HTTP_MSG_RPVER_SP);
}
msg->err_state = HTTP_MSG_RPVER;
state = HTTP_MSG_ERROR;
break;
case HTTP_MSG_RPVER_SP:
http_msg_rpver_sp:
if (likely(!HTTP_IS_LWS(*ptr))) {
msg->sl.st.c = ptr - msg_start;
goto http_msg_rpcode;
}
if (likely(HTTP_IS_SPHT(*ptr)))
EAT_AND_JUMP_OR_RETURN(ptr, end, http_msg_rpver_sp, http_msg_ood, state, HTTP_MSG_RPVER_SP);
/* so it's a CR/LF, this is invalid */
msg->err_state = HTTP_MSG_RPVER_SP;
state = HTTP_MSG_ERROR;
break;
case HTTP_MSG_RPCODE:
http_msg_rpcode:
if (likely(!HTTP_IS_LWS(*ptr)))
EAT_AND_JUMP_OR_RETURN(ptr, end, http_msg_rpcode, http_msg_ood, state, HTTP_MSG_RPCODE);
if (likely(HTTP_IS_SPHT(*ptr))) {
msg->sl.st.c_l = ptr - msg_start - msg->sl.st.c;
EAT_AND_JUMP_OR_RETURN(ptr, end, http_msg_rpcode_sp, http_msg_ood, state, HTTP_MSG_RPCODE_SP);
}
/* so it's a CR/LF, so there is no reason phrase */
msg->sl.st.c_l = ptr - msg_start - msg->sl.st.c;
http_msg_rsp_reason:
/* FIXME: should we support HTTP responses without any reason phrase ? */
msg->sl.st.r = ptr - msg_start;
msg->sl.st.r_l = 0;
goto http_msg_rpline_eol;
case HTTP_MSG_RPCODE_SP:
http_msg_rpcode_sp:
if (likely(!HTTP_IS_LWS(*ptr))) {
msg->sl.st.r = ptr - msg_start;
goto http_msg_rpreason;
}
if (likely(HTTP_IS_SPHT(*ptr)))
EAT_AND_JUMP_OR_RETURN(ptr, end, http_msg_rpcode_sp, http_msg_ood, state, HTTP_MSG_RPCODE_SP);
/* so it's a CR/LF, so there is no reason phrase */
goto http_msg_rsp_reason;
case HTTP_MSG_RPREASON:
http_msg_rpreason:
if (likely(!HTTP_IS_CRLF(*ptr)))
EAT_AND_JUMP_OR_RETURN(ptr, end, http_msg_rpreason, http_msg_ood, state, HTTP_MSG_RPREASON);
msg->sl.st.r_l = ptr - msg_start - msg->sl.st.r;
http_msg_rpline_eol:
/* We have seen the end of line. Note that we do not
* necessarily have the \n yet, but at least we know that we
* have EITHER \r OR \n, otherwise the response would not be
* complete. We can then record the response length and return
* to the caller which will be able to register it.
*/
msg->sl.st.l = ptr - msg_start - msg->sol;
return ptr;
default:
#ifdef DEBUG_FULL
fprintf(stderr, "FIXME !!!! impossible state at %s:%d = %d\n", __FILE__, __LINE__, state);
exit(1);
#endif
;
}
http_msg_ood:
/* out of valid data */
if (ret_state)
*ret_state = state;
if (ret_ptr)
*ret_ptr = ptr - msg_start;
return NULL;
}
/*
* This function parses a request line between <ptr> and <end>, starting with
* parser state <state>. Only states HTTP_MSG_RQMETH, HTTP_MSG_RQMETH_SP,
* HTTP_MSG_RQURI, HTTP_MSG_RQURI_SP and HTTP_MSG_RQVER are handled. Others
* will give undefined results.
* Note that it is upon the caller's responsibility to ensure that ptr < end,
* and that msg->sol points to the beginning of the request.
* If a complete line is found (which implies that at least one CR or LF is
* found before <end>, the updated <ptr> is returned, otherwise NULL is
* returned indicating an incomplete line (which does not mean that parts have
* not been updated). In the incomplete case, if <ret_ptr> or <ret_state> are
* non-NULL, they are fed with the new <ptr> and <state> values to be passed
* upon next call.
*
* This function was intentionally designed to be called from
* http_msg_analyzer() with the lowest overhead. It should integrate perfectly
* within its state machine and use the same macros, hence the need for same
* labels and variable names. Note that msg->sol is left unchanged.
*/
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 *msg_start = ci_head(msg->chn);
switch (state) {
case HTTP_MSG_RQMETH:
http_msg_rqmeth:
if (likely(HTTP_IS_TOKEN(*ptr)))
EAT_AND_JUMP_OR_RETURN(ptr, end, http_msg_rqmeth, http_msg_ood, state, HTTP_MSG_RQMETH);
if (likely(HTTP_IS_SPHT(*ptr))) {
msg->sl.rq.m_l = ptr - msg_start;
EAT_AND_JUMP_OR_RETURN(ptr, end, http_msg_rqmeth_sp, http_msg_ood, state, HTTP_MSG_RQMETH_SP);
}
if (likely(HTTP_IS_CRLF(*ptr))) {
/* HTTP 0.9 request */
msg->sl.rq.m_l = ptr - msg_start;
http_msg_req09_uri:
msg->sl.rq.u = ptr - msg_start;
http_msg_req09_uri_e:
msg->sl.rq.u_l = ptr - msg_start - msg->sl.rq.u;
http_msg_req09_ver:
msg->sl.rq.v = ptr - msg_start;
msg->sl.rq.v_l = 0;
goto http_msg_rqline_eol;
}
msg->err_state = HTTP_MSG_RQMETH;
state = HTTP_MSG_ERROR;
break;
case HTTP_MSG_RQMETH_SP:
http_msg_rqmeth_sp:
if (likely(!HTTP_IS_LWS(*ptr))) {
msg->sl.rq.u = ptr - msg_start;
goto http_msg_rquri;
}
if (likely(HTTP_IS_SPHT(*ptr)))
EAT_AND_JUMP_OR_RETURN(ptr, end, http_msg_rqmeth_sp, http_msg_ood, state, HTTP_MSG_RQMETH_SP);
/* so it's a CR/LF, meaning an HTTP 0.9 request */
goto http_msg_req09_uri;
case HTTP_MSG_RQURI:
http_msg_rquri:
#if defined(__x86_64__) || \
defined(__i386__) || defined(__i486__) || defined(__i586__) || defined(__i686__) || \
defined(__ARM_ARCH_7A__)
/* speedup: skip bytes not between 0x21 and 0x7e inclusive */
while (ptr <= end - sizeof(int)) {
int x = *(int *)ptr - 0x21212121;
if (x & 0x80808080)
break;
x -= 0x5e5e5e5e;
if (!(x & 0x80808080))
break;
ptr += sizeof(int);
}
#endif
if (ptr >= end) {
state = HTTP_MSG_RQURI;
goto http_msg_ood;
}
http_msg_rquri2:
if (likely((unsigned char)(*ptr - 33) <= 93)) /* 33 to 126 included */
EAT_AND_JUMP_OR_RETURN(ptr, end, http_msg_rquri2, http_msg_ood, state, HTTP_MSG_RQURI);
if (likely(HTTP_IS_SPHT(*ptr))) {
msg->sl.rq.u_l = ptr - msg_start - msg->sl.rq.u;
EAT_AND_JUMP_OR_RETURN(ptr, end, http_msg_rquri_sp, http_msg_ood, state, HTTP_MSG_RQURI_SP);
}
if (likely((unsigned char)*ptr >= 128)) {
/* non-ASCII chars are forbidden unless option
* accept-invalid-http-request is enabled in the frontend.
* In any case, we capture the faulty char.
*/
if (msg->err_pos < -1)
goto invalid_char;
if (msg->err_pos == -1)
msg->err_pos = ptr - msg_start;
EAT_AND_JUMP_OR_RETURN(ptr, end, http_msg_rquri, http_msg_ood, state, HTTP_MSG_RQURI);
}
if (likely(HTTP_IS_CRLF(*ptr))) {
/* so it's a CR/LF, meaning an HTTP 0.9 request */
goto http_msg_req09_uri_e;
}
/* OK forbidden chars, 0..31 or 127 */
invalid_char:
msg->err_pos = ptr - msg_start;
msg->err_state = HTTP_MSG_RQURI;
state = HTTP_MSG_ERROR;
break;
case HTTP_MSG_RQURI_SP:
http_msg_rquri_sp:
if (likely(!HTTP_IS_LWS(*ptr))) {
msg->sl.rq.v = ptr - msg_start;
goto http_msg_rqver;
}
if (likely(HTTP_IS_SPHT(*ptr)))
EAT_AND_JUMP_OR_RETURN(ptr, end, http_msg_rquri_sp, http_msg_ood, state, HTTP_MSG_RQURI_SP);
/* so it's a CR/LF, meaning an HTTP 0.9 request */
goto http_msg_req09_ver;
case HTTP_MSG_RQVER:
http_msg_rqver:
if (likely(HTTP_IS_VER_TOKEN(*ptr)))
EAT_AND_JUMP_OR_RETURN(ptr, end, http_msg_rqver, http_msg_ood, state, HTTP_MSG_RQVER);
if (likely(HTTP_IS_CRLF(*ptr))) {
msg->sl.rq.v_l = ptr - msg_start - msg->sl.rq.v;
http_msg_rqline_eol:
/* We have seen the end of line. Note that we do not
* necessarily have the \n yet, but at least we know that we
* have EITHER \r OR \n, otherwise the request would not be
* complete. We can then record the request length and return
* to the caller which will be able to register it.
*/
msg->sl.rq.l = ptr - msg_start - msg->sol;
return ptr;
}
/* neither an HTTP_VER token nor a CRLF */
msg->err_state = HTTP_MSG_RQVER;
state = HTTP_MSG_ERROR;
break;
default:
#ifdef DEBUG_FULL
fprintf(stderr, "FIXME !!!! impossible state at %s:%d = %d\n", __FILE__, __LINE__, state);
exit(1);
#endif
;
}
http_msg_ood:
/* out of valid data */
if (ret_state)
*ret_state = state;
if (ret_ptr)
*ret_ptr = ptr - msg_start;
return NULL;
}
/*
* This function parses an HTTP message, either a request or a response,
* depending on the initial msg->msg_state. The caller is responsible for
* ensuring that the message does not wrap. The function can be preempted
* everywhere when data are missing and recalled at the exact same location
* with no information loss. The message may even be realigned between two
* calls. The header index is re-initialized when switching from
* MSG_R[PQ]BEFORE to MSG_RPVER|MSG_RQMETH. It modifies msg->sol among other
* fields. Note that msg->sol will be initialized after completing the first
* state, so that none of the msg pointers has to be initialized prior to the
* first call.
*/
void http_msg_analyzer(struct http_msg *msg, struct hdr_idx *idx)
{
enum h1_state state; /* updated only when leaving the FSM */
register const char *ptr, *end; /* request pointers, to avoid dereferences */
struct buffer *buf = &msg->chn->buf;
char *input = ci_head(msg->chn);
state = msg->msg_state;
ptr = input + msg->next;
end = b_stop(buf);
if (unlikely(ptr >= end))
goto http_msg_ood;
switch (state) {
/*
* First, states that are specific to the response only.
* We check them first so that request and headers are
* closer to each other (accessed more often).
*/
case HTTP_MSG_RPBEFORE:
http_msg_rpbefore:
if (likely(HTTP_IS_TOKEN(*ptr))) {
/* we have a start of message, but we have to check
* first if we need to remove some CRLF. We can only
* do this when o=0.
*/
if (unlikely(ptr != input)) {
if (co_data(msg->chn))
goto http_msg_ood;
/* Remove empty leading lines, as recommended by RFC2616. */
b_del(buf, ptr - input);
input = b_head(buf);
}
msg->sol = 0;
msg->sl.st.l = 0; /* used in debug mode */
hdr_idx_init(idx);
state = HTTP_MSG_RPVER;
goto http_msg_rpver;
}
if (unlikely(!HTTP_IS_CRLF(*ptr))) {
state = HTTP_MSG_RPBEFORE;
goto http_msg_invalid;
}
if (unlikely(*ptr == '\n'))
EAT_AND_JUMP_OR_RETURN(ptr, end, http_msg_rpbefore, http_msg_ood, state, HTTP_MSG_RPBEFORE);
EAT_AND_JUMP_OR_RETURN(ptr, end, http_msg_rpbefore_cr, http_msg_ood, state, HTTP_MSG_RPBEFORE_CR);
/* stop here */
case HTTP_MSG_RPBEFORE_CR:
http_msg_rpbefore_cr:
EXPECT_LF_HERE(ptr, http_msg_invalid, state, HTTP_MSG_RPBEFORE_CR);
EAT_AND_JUMP_OR_RETURN(ptr, end, http_msg_rpbefore, http_msg_ood, state, HTTP_MSG_RPBEFORE);
/* stop here */
case HTTP_MSG_RPVER:
http_msg_rpver:
case HTTP_MSG_RPVER_SP:
case HTTP_MSG_RPCODE:
case HTTP_MSG_RPCODE_SP:
case HTTP_MSG_RPREASON:
ptr = (char *)http_parse_stsline(msg,
state, ptr, end,
&msg->next, &msg->msg_state);
if (unlikely(!ptr))
return;
/* we have a full response and we know that we have either a CR
* or an LF at <ptr>.
*/
hdr_idx_set_start(idx, msg->sl.st.l, *ptr == '\r');
msg->sol = ptr - input;
if (likely(*ptr == '\r'))
EAT_AND_JUMP_OR_RETURN(ptr, end, http_msg_rpline_end, http_msg_ood, state, HTTP_MSG_RPLINE_END);
goto http_msg_rpline_end;
case HTTP_MSG_RPLINE_END:
http_msg_rpline_end:
/* msg->sol must point to the first of CR or LF. */
EXPECT_LF_HERE(ptr, http_msg_invalid, state, HTTP_MSG_RPLINE_END);
EAT_AND_JUMP_OR_RETURN(ptr, end, http_msg_hdr_first, http_msg_ood, state, HTTP_MSG_HDR_FIRST);
/* stop here */
/*
* Second, states that are specific to the request only
*/
case HTTP_MSG_RQBEFORE:
http_msg_rqbefore:
if (likely(HTTP_IS_TOKEN(*ptr))) {
/* we have a start of message, but we have to check
* first if we need to remove some CRLF. We can only
* do this when o=0.
*/
if (likely(ptr != input)) {
if (co_data(msg->chn))
goto http_msg_ood;
/* Remove empty leading lines, as recommended by RFC2616. */
b_del(buf, ptr - input);
input = b_head(buf);
}
msg->sol = 0;
msg->sl.rq.l = 0; /* used in debug mode */
state = HTTP_MSG_RQMETH;
goto http_msg_rqmeth;
}
if (unlikely(!HTTP_IS_CRLF(*ptr))) {
state = HTTP_MSG_RQBEFORE;
goto http_msg_invalid;
}
if (unlikely(*ptr == '\n'))
EAT_AND_JUMP_OR_RETURN(ptr, end, http_msg_rqbefore, http_msg_ood, state, HTTP_MSG_RQBEFORE);
EAT_AND_JUMP_OR_RETURN(ptr, end, http_msg_rqbefore_cr, http_msg_ood, state, HTTP_MSG_RQBEFORE_CR);
/* stop here */
case HTTP_MSG_RQBEFORE_CR:
http_msg_rqbefore_cr:
EXPECT_LF_HERE(ptr, http_msg_invalid, state, HTTP_MSG_RQBEFORE_CR);
EAT_AND_JUMP_OR_RETURN(ptr, end, http_msg_rqbefore, http_msg_ood, state, HTTP_MSG_RQBEFORE);
/* stop here */
case HTTP_MSG_RQMETH:
http_msg_rqmeth:
case HTTP_MSG_RQMETH_SP:
case HTTP_MSG_RQURI:
case HTTP_MSG_RQURI_SP:
case HTTP_MSG_RQVER:
ptr = (char *)http_parse_reqline(msg,
state, ptr, end,
&msg->next, &msg->msg_state);
if (unlikely(!ptr))
return;
/* we have a full request and we know that we have either a CR
* or an LF at <ptr>.
*/
hdr_idx_set_start(idx, msg->sl.rq.l, *ptr == '\r');
msg->sol = ptr - input;
if (likely(*ptr == '\r'))
EAT_AND_JUMP_OR_RETURN(ptr, end, http_msg_rqline_end, http_msg_ood, state, HTTP_MSG_RQLINE_END);
goto http_msg_rqline_end;
case HTTP_MSG_RQLINE_END:
http_msg_rqline_end:
/* check for HTTP/0.9 request : no version information available.
* msg->sol must point to the first of CR or LF.
*/
if (unlikely(msg->sl.rq.v_l == 0))
goto http_msg_last_lf;
EXPECT_LF_HERE(ptr, http_msg_invalid, state, HTTP_MSG_RQLINE_END);
EAT_AND_JUMP_OR_RETURN(ptr, end, http_msg_hdr_first, http_msg_ood, state, HTTP_MSG_HDR_FIRST);
/* stop here */
/*
* Common states below
*/
case HTTP_MSG_HDR_FIRST:
http_msg_hdr_first:
msg->sol = ptr - input;
if (likely(!HTTP_IS_CRLF(*ptr))) {
goto http_msg_hdr_name;
}
if (likely(*ptr == '\r'))
EAT_AND_JUMP_OR_RETURN(ptr, end, http_msg_last_lf, http_msg_ood, state, HTTP_MSG_LAST_LF);
goto http_msg_last_lf;
case HTTP_MSG_HDR_NAME:
http_msg_hdr_name:
/* assumes msg->sol points to the first char */
if (likely(HTTP_IS_TOKEN(*ptr)))
EAT_AND_JUMP_OR_RETURN(ptr, end, http_msg_hdr_name, http_msg_ood, state, HTTP_MSG_HDR_NAME);
if (likely(*ptr == ':'))
EAT_AND_JUMP_OR_RETURN(ptr, end, http_msg_hdr_l1_sp, http_msg_ood, state, HTTP_MSG_HDR_L1_SP);
if (likely(msg->err_pos < -1) || *ptr == '\n') {
state = HTTP_MSG_HDR_NAME;
goto http_msg_invalid;
}
if (msg->err_pos == -1) /* capture error pointer */
msg->err_pos = ptr - input; /* >= 0 now */
/* and we still accept this non-token character */
EAT_AND_JUMP_OR_RETURN(ptr, end, http_msg_hdr_name, http_msg_ood, state, HTTP_MSG_HDR_NAME);
case HTTP_MSG_HDR_L1_SP:
http_msg_hdr_l1_sp:
/* assumes msg->sol points to the first char */
if (likely(HTTP_IS_SPHT(*ptr)))
EAT_AND_JUMP_OR_RETURN(ptr, end, http_msg_hdr_l1_sp, http_msg_ood, state, HTTP_MSG_HDR_L1_SP);
/* header value can be basically anything except CR/LF */
msg->sov = ptr - input;
if (likely(!HTTP_IS_CRLF(*ptr))) {
goto http_msg_hdr_val;
}
if (likely(*ptr == '\r'))
EAT_AND_JUMP_OR_RETURN(ptr, end, http_msg_hdr_l1_lf, http_msg_ood, state, HTTP_MSG_HDR_L1_LF);
goto http_msg_hdr_l1_lf;
case HTTP_MSG_HDR_L1_LF:
http_msg_hdr_l1_lf:
EXPECT_LF_HERE(ptr, http_msg_invalid, state, HTTP_MSG_HDR_L1_LF);
EAT_AND_JUMP_OR_RETURN(ptr, end, http_msg_hdr_l1_lws, http_msg_ood, state, HTTP_MSG_HDR_L1_LWS);
case HTTP_MSG_HDR_L1_LWS:
http_msg_hdr_l1_lws:
if (likely(HTTP_IS_SPHT(*ptr))) {
/* replace HT,CR,LF with spaces */
for (; input + msg->sov < ptr; msg->sov++)
input[msg->sov] = ' ';
goto http_msg_hdr_l1_sp;
}
/* we had a header consisting only in spaces ! */
msg->eol = msg->sov;
goto http_msg_complete_header;
case HTTP_MSG_HDR_VAL:
http_msg_hdr_val:
/* assumes msg->sol points to the first char, and msg->sov
* points to the first character of the value.
*/
/* speedup: we'll skip packs of 4 or 8 bytes not containing bytes 0x0D
* and lower. In fact since most of the time is spent in the loop, we
* also remove the sign bit test so that bytes 0x8e..0x0d break the
* loop, but we don't care since they're very rare in header values.
*/
#if defined(__x86_64__)
while (ptr <= end - sizeof(long)) {
if ((*(long *)ptr - 0x0e0e0e0e0e0e0e0eULL) & 0x8080808080808080ULL)
goto http_msg_hdr_val2;
ptr += sizeof(long);
}
#endif
#if defined(__x86_64__) || \
defined(__i386__) || defined(__i486__) || defined(__i586__) || defined(__i686__) || \
defined(__ARM_ARCH_7A__)
while (ptr <= end - sizeof(int)) {
if ((*(int*)ptr - 0x0e0e0e0e) & 0x80808080)
goto http_msg_hdr_val2;
ptr += sizeof(int);
}
#endif
if (ptr >= end) {
state = HTTP_MSG_HDR_VAL;
goto http_msg_ood;
}
http_msg_hdr_val2:
if (likely(!HTTP_IS_CRLF(*ptr)))
EAT_AND_JUMP_OR_RETURN(ptr, end, http_msg_hdr_val2, http_msg_ood, state, HTTP_MSG_HDR_VAL);
msg->eol = ptr - input;
/* Note: we could also copy eol into ->eoh so that we have the
* real header end in case it ends with lots of LWS, but is this
* really needed ?
*/
if (likely(*ptr == '\r'))
EAT_AND_JUMP_OR_RETURN(ptr, end, http_msg_hdr_l2_lf, http_msg_ood, state, HTTP_MSG_HDR_L2_LF);
goto http_msg_hdr_l2_lf;
case HTTP_MSG_HDR_L2_LF:
http_msg_hdr_l2_lf:
EXPECT_LF_HERE(ptr, http_msg_invalid, state, HTTP_MSG_HDR_L2_LF);
EAT_AND_JUMP_OR_RETURN(ptr, end, http_msg_hdr_l2_lws, http_msg_ood, state, HTTP_MSG_HDR_L2_LWS);
case HTTP_MSG_HDR_L2_LWS:
http_msg_hdr_l2_lws:
if (unlikely(HTTP_IS_SPHT(*ptr))) {
/* LWS: replace HT,CR,LF with spaces */
for (; input + msg->eol < ptr; msg->eol++)
input[msg->eol] = ' ';
goto http_msg_hdr_val;
}
http_msg_complete_header:
/*
* It was a new header, so the last one is finished.
* Assumes msg->sol points to the first char, msg->sov points
* to the first character of the value and msg->eol to the
* first CR or LF so we know how the line ends. We insert last
* header into the index.
*/
if (unlikely(hdr_idx_add(msg->eol - msg->sol, input[msg->eol] == '\r',
idx, idx->tail) < 0)) {
state = HTTP_MSG_HDR_L2_LWS;
goto http_msg_invalid;
}
msg->sol = ptr - input;
if (likely(!HTTP_IS_CRLF(*ptr))) {
goto http_msg_hdr_name;
}
if (likely(*ptr == '\r'))
EAT_AND_JUMP_OR_RETURN(ptr, end, http_msg_last_lf, http_msg_ood, state, HTTP_MSG_LAST_LF);
goto http_msg_last_lf;
case HTTP_MSG_LAST_LF:
http_msg_last_lf:
/* Assumes msg->sol points to the first of either CR or LF.
* Sets ->sov and ->next to the total header length, ->eoh to
* the last CRLF, and ->eol to the last CRLF length (1 or 2).
*/
EXPECT_LF_HERE(ptr, http_msg_invalid, state, HTTP_MSG_LAST_LF);
ptr++;
msg->sov = msg->next = ptr - input;
msg->eoh = msg->sol;
msg->sol = 0;
msg->eol = msg->sov - msg->eoh;
msg->msg_state = HTTP_MSG_BODY;
return;
case HTTP_MSG_ERROR:
/* this may only happen if we call http_msg_analyser() twice with an error */
break;
default:
#ifdef DEBUG_FULL
fprintf(stderr, "FIXME !!!! impossible state at %s:%d = %d\n", __FILE__, __LINE__, state);
exit(1);
#endif
;
}
http_msg_ood:
/* out of data */
msg->msg_state = state;
msg->next = ptr - input;
return;
http_msg_invalid:
/* invalid message */
msg->err_state = state;
msg->msg_state = HTTP_MSG_ERROR;
msg->next = ptr - input;
return;
}
/* This function skips trailers in the buffer associated with HTTP message
* <msg>. The first visited position is msg->next. If the end of the trailers is
* found, the function returns >0. So, the caller can automatically schedul it
* to be forwarded, and switch msg->msg_state to HTTP_MSG_DONE. If not enough
* data are available, the function does not change anything except maybe
* msg->sol if it could parse some lines, and returns zero. If a parse error
* is encountered, the function returns < 0 and does not change anything except
* maybe msg->sol. Note that the message must already be in HTTP_MSG_TRAILERS
* state before calling this function, which implies that all non-trailers data
* have already been scheduled for forwarding, and that msg->next exactly
* matches the length of trailers already parsed and not forwarded. It is also
* important to note that this function is designed to be able to parse wrapped
* headers at end of buffer.
*/
int http_forward_trailers(struct http_msg *msg)
{
const struct buffer *buf = &msg->chn->buf;
const char *parse = ci_head(msg->chn);
const char *stop = b_tail(buf);
/* we have msg->next which points to next line. Look for CRLF. But
* first, we reset msg->sol */
msg->sol = 0;
while (1) {
const char *p1 = NULL, *p2 = NULL;
const char *start = c_ptr(msg->chn, msg->next + msg->sol);
const char *ptr = start;
/* scan current line and stop at LF or CRLF */
while (1) {
if (ptr == stop)
return 0;
if (*ptr == '\n') {
if (!p1)
p1 = ptr;
p2 = ptr;
break;
}
if (*ptr == '\r') {
if (p1) {
msg->err_pos = b_dist(buf, parse, ptr);
return -1;
}
p1 = ptr;
}
ptr = b_next(buf, ptr);
}
/* after LF; point to beginning of next line */
p2 = b_next(buf, p2);
msg->sol += b_dist(buf, start, p2);
/* LF/CRLF at beginning of line => end of trailers at p2.
* Everything was scheduled for forwarding, there's nothing left
* from this message. */
if (p1 == start)
return 1;
/* OK, next line then */
}
}