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|
/*
* HTTP/1 protocol analyzer
*
* Copyright 2000-2017 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 <ctype.h>
#include <import/sha1.h>
#include <haproxy/api.h>
#include <haproxy/base64.h>
#include <haproxy/h1.h>
#include <haproxy/http-hdr.h>
#include <haproxy/tools.h>
/* Parse the Content-Length header field of an HTTP/1 request. The function
* checks all possible occurrences of a comma-delimited value, and verifies
* if any of them doesn't match a previous value. It returns <0 if a value
* differs, 0 if the whole header can be dropped (i.e. already known), or >0
* if the value can be indexed (first one). In the last case, the value might
* be adjusted and the caller must only add the updated value.
*/
int h1_parse_cont_len_header(struct h1m *h1m, struct ist *value)
{
char *e, *n;
long long cl;
int not_first = !!(h1m->flags & H1_MF_CLEN);
struct ist word;
word.ptr = value->ptr - 1; // -1 for next loop's pre-increment
e = value->ptr + value->len;
while (++word.ptr < e) {
/* skip leading delimiter and blanks */
if (unlikely(HTTP_IS_LWS(*word.ptr)))
continue;
/* digits only now */
for (cl = 0, n = word.ptr; n < e; n++) {
unsigned int c = *n - '0';
if (unlikely(c > 9)) {
/* non-digit */
if (unlikely(n == word.ptr)) // spaces only
goto fail;
break;
}
if (unlikely(cl > ULLONG_MAX / 10ULL))
goto fail; /* multiply overflow */
cl = cl * 10ULL;
if (unlikely(cl + c < cl))
goto fail; /* addition overflow */
cl = cl + c;
}
/* keep a copy of the exact cleaned value */
word.len = n - word.ptr;
/* skip trailing LWS till next comma or EOL */
for (; n < e; n++) {
if (!HTTP_IS_LWS(*n)) {
if (unlikely(*n != ','))
goto fail;
break;
}
}
/* if duplicate, must be equal */
if (h1m->flags & H1_MF_CLEN && cl != h1m->body_len)
goto fail;
/* OK, store this result as the one to be indexed */
h1m->flags |= H1_MF_CLEN;
h1m->curr_len = h1m->body_len = cl;
*value = word;
word.ptr = n;
}
/* here we've reached the end with a single value or a series of
* identical values, all matching previous series if any. The last
* parsed value was sent back into <value>. We just have to decide
* if this occurrence has to be indexed (it's the first one) or
* silently skipped (it's not the first one)
*/
return !not_first;
fail:
return -1;
}
/* Parse the Transfer-Encoding: header field of an HTTP/1 request, looking for
* "chunked" encoding to perform some checks (it must be the last encoding for
* the request and must not be performed twice for any message). The
* H1_MF_TE_CHUNKED is set if a valid "chunked" encoding is found. The
* H1_MF_TE_OTHER flag is set if any other encoding is found. The H1_MF_XFER_ENC
* flag is always set. The H1_MF_CHNK is set when "chunked" encoding is the last
* one. Note that transfer codings are case-insensitive (cf RFC7230#4). This
* function returns <0 if a error is found, 0 if the whole header can be dropped
* (not used yet), or >0 if the value can be indexed.
*/
int h1_parse_xfer_enc_header(struct h1m *h1m, struct ist value)
{
char *e, *n;
struct ist word;
h1m->flags |= H1_MF_XFER_ENC;
word.ptr = value.ptr - 1; // -1 for next loop's pre-increment
e = istend(value);
while (++word.ptr < e) {
/* skip leading delimiter and blanks */
if (HTTP_IS_LWS(*word.ptr))
continue;
n = http_find_hdr_value_end(word.ptr, e); // next comma or end of line
word.len = n - word.ptr;
/* trim trailing blanks */
while (word.len && HTTP_IS_LWS(word.ptr[word.len-1]))
word.len--;
h1m->flags &= ~H1_MF_CHNK;
if (isteqi(word, ist("chunked"))) {
if (h1m->flags & H1_MF_TE_CHUNKED) {
/* cf RFC7230#3.3.1 : A sender MUST NOT apply
* chunked more than once to a message body
* (i.e., chunking an already chunked message is
* not allowed)
*/
goto fail;
}
h1m->flags |= (H1_MF_TE_CHUNKED|H1_MF_CHNK);
}
else {
if ((h1m->flags & (H1_MF_RESP|H1_MF_TE_CHUNKED)) == H1_MF_TE_CHUNKED) {
/* cf RFC7230#3.3.1 : If any transfer coding
* other than chunked is applied to a request
* payload body, the sender MUST apply chunked
* as the final transfer coding to ensure that
* the message is properly framed.
*/
goto fail;
}
h1m->flags |= H1_MF_TE_OTHER;
}
word.ptr = n;
}
return 1;
fail:
return -1;
}
/* Validate the authority and the host header value for CONNECT method. If there
* is hast header, its value is normalized. 0 is returned on success, -1 if the
* authority is invalid and -2 if the host is invalid.
*/
static int h1_validate_connect_authority(struct ist authority, struct ist *host_hdr)
{
struct ist uri_host, uri_port, host, host_port;
if (!isttest(authority))
goto invalid_authority;
uri_host = authority;
uri_port = http_get_host_port(authority);
if (!istlen(uri_port))
goto invalid_authority;
uri_host.len -= (istlen(uri_port) + 1);
if (!host_hdr || !isttest(*host_hdr))
goto end;
/* Get the port of the host header value, if any */
host = *host_hdr;
host_port = http_get_host_port(*host_hdr);
if (isttest(host_port))
host.len -= (istlen(host_port) + 1);
if (istlen(host_port)) {
if (!isteqi(host, uri_host) || !isteq(host_port, uri_port))
goto invalid_host;
if (http_is_default_port(IST_NULL, uri_port))
*host_hdr = host; /* normalize */
}
else {
if (!http_is_default_port(IST_NULL, uri_port) || !isteqi(host, uri_host))
goto invalid_host;
}
end:
return 0;
invalid_authority:
return -1;
invalid_host:
return -2;
}
/* Validate the authority and the host header value for non-CONNECT method, when
* an absolute-URI is detected but when it does not exactly match the host
* value. The idea is to detect default port (http or https). authority and host
* are defined here. 0 is returned on success, -1 if the host is does not match
* the authority.
*/
static int h1_validate_mismatch_authority(struct ist scheme, struct ist authority, struct ist host_hdr)
{
struct ist uri_host, uri_port, host, host_port;
if (!isttest(scheme))
goto mismatch;
uri_host = authority;
uri_port = http_get_host_port(authority);
if (isttest(uri_port))
uri_host.len -= (istlen(uri_port) + 1);
host = host_hdr;
host_port = http_get_host_port(host_hdr);
if (isttest(host_port))
host.len -= (istlen(host_port) + 1);
if (!isttest(uri_port) && !isttest(host_port)) {
/* No port on both: we already know the authority does not match
* the host value
*/
goto mismatch;
}
else if (isttest(uri_port) && !http_is_default_port(scheme, uri_port)) {
/* here there is no port for the host value and the port for the
* authority is not the default one
*/
goto mismatch;
}
else if (isttest(host_port) && !http_is_default_port(scheme, host_port)) {
/* here there is no port for the authority and the port for the
* host value is not the default one
*/
goto mismatch;
}
else {
/* the authority or the host value contain a default port and
* there is no port on the other value
*/
if (!isteqi(uri_host, host))
goto mismatch;
}
return 0;
mismatch:
return -1;
}
/* Parse the Connection: header of an HTTP/1 request, looking for "close",
* "keep-alive", and "upgrade" values, and updating h1m->flags according to
* what was found there. Note that flags are only added, not removed, so the
* function is safe for being called multiple times if multiple occurrences
* are found. If the flag H1_MF_CLEAN_CONN_HDR, the header value is cleaned
* up from "keep-alive" and "close" values. To do so, the header value is
* rewritten in place and its length is updated.
*/
void h1_parse_connection_header(struct h1m *h1m, struct ist *value)
{
char *e, *n, *p;
struct ist word;
word.ptr = value->ptr - 1; // -1 for next loop's pre-increment
p = value->ptr;
e = value->ptr + value->len;
if (h1m->flags & H1_MF_CLEAN_CONN_HDR)
value->len = 0;
while (++word.ptr < e) {
/* skip leading delimiter and blanks */
if (HTTP_IS_LWS(*word.ptr))
continue;
n = http_find_hdr_value_end(word.ptr, e); // next comma or end of line
word.len = n - word.ptr;
/* trim trailing blanks */
while (word.len && HTTP_IS_LWS(word.ptr[word.len-1]))
word.len--;
if (isteqi(word, ist("keep-alive"))) {
h1m->flags |= H1_MF_CONN_KAL;
if (h1m->flags & H1_MF_CLEAN_CONN_HDR)
goto skip_val;
}
else if (isteqi(word, ist("close"))) {
h1m->flags |= H1_MF_CONN_CLO;
if (h1m->flags & H1_MF_CLEAN_CONN_HDR)
goto skip_val;
}
else if (isteqi(word, ist("upgrade")))
h1m->flags |= H1_MF_CONN_UPG;
if (h1m->flags & H1_MF_CLEAN_CONN_HDR) {
if (value->ptr + value->len == p) {
/* no rewrite done till now */
value->len = n - value->ptr;
}
else {
if (value->len)
value->ptr[value->len++] = ',';
istcat(value, word, e - value->ptr);
}
}
skip_val:
word.ptr = p = n;
}
}
/* Parse the Upgrade: header of an HTTP/1 request.
* If "websocket" is found, set H1_MF_UPG_WEBSOCKET flag
*/
void h1_parse_upgrade_header(struct h1m *h1m, struct ist value)
{
char *e, *n;
struct ist word;
h1m->flags &= ~H1_MF_UPG_WEBSOCKET;
word.ptr = value.ptr - 1; // -1 for next loop's pre-increment
e = istend(value);
while (++word.ptr < e) {
/* skip leading delimiter and blanks */
if (HTTP_IS_LWS(*word.ptr))
continue;
n = http_find_hdr_value_end(word.ptr, e); // next comma or end of line
word.len = n - word.ptr;
/* trim trailing blanks */
while (word.len && HTTP_IS_LWS(word.ptr[word.len-1]))
word.len--;
if (isteqi(word, ist("websocket")))
h1m->flags |= H1_MF_UPG_WEBSOCKET;
word.ptr = n;
}
}
/* 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 contiguous HTTP/1 headers block starting at <start>
* and ending before <stop>, at once, and converts it a list of (name,value)
* pairs representing header fields into the array <hdr> of size <hdr_num>,
* whose last entry will have an empty name and an empty value. If <hdr_num> is
* too small to represent the whole message, an error is returned. Some
* protocol elements such as content-length and transfer-encoding will be
* parsed and stored into h1m as well. <hdr> may be null, in which case only
* the parsing state will be updated. This may be used to restart the parsing
* where it stopped for example.
*
* For now it's limited to the response. If the header block is incomplete,
* 0 is returned, waiting to be called again with more data to try it again.
* The caller is responsible for initializing h1m->state to H1_MSG_RPBEFORE,
* and h1m->next to zero on the first call, the parser will do the rest. If
* an incomplete message is seen, the caller only needs to present h1m->state
* and h1m->next again, with an empty header list so that the parser can start
* again. In this case, it will detect that it interrupted a previous session
* and will first look for the end of the message before reparsing it again and
* indexing it at the same time. This ensures that incomplete messages fed 1
* character at a time are never processed entirely more than exactly twice,
* and that there is no need to store all the internal state and pre-parsed
* headers or start line between calls.
*
* A pointer to a start line descriptor may be passed in <slp>, in which case
* the parser will fill it with whatever it found.
*
* The code derived from the main HTTP/1 parser above but was simplified and
* optimized to process responses produced or forwarded by haproxy. The caller
* is responsible for ensuring that the message doesn't wrap, and should ensure
* it is complete to avoid having to retry the operation after a failed
* attempt. The message is not supposed to be invalid, which is why a few
* properties such as the character set used in the header field names are not
* checked. In case of an unparsable response message, a negative value will be
* returned with h1m->err_pos and h1m->err_state matching the location and
* state where the error was met. Leading blank likes are tolerated but not
* recommended. If flag H1_MF_HDRS_ONLY is set in h1m->flags, only headers are
* parsed and the start line is skipped. It is not required to set h1m->state
* nor h1m->next in this case.
*
* This function returns :
* -1 in case of error. In this case, h1m->err_state is filled (if h1m is
* set) with the state the error occurred in and h1m->err_pos with the
* the position relative to <start>
* -2 if the output is full (hdr_num reached). err_state and err_pos also
* indicate where it failed.
* 0 in case of missing data.
* > 0 on success, it then corresponds to the number of bytes read since
* <start> so that the caller can go on with the payload.
*/
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)
{
enum h1m_state state;
register char *ptr;
register const char *end;
unsigned int hdr_count;
unsigned int skip; /* number of bytes skipped at the beginning */
unsigned int sol; /* start of line */
unsigned int col; /* position of the colon */
unsigned int eol; /* end of line */
unsigned int sov; /* start of value */
union h1_sl sl;
int skip_update;
int restarting;
int host_idx;
struct ist n, v; /* header name and value during parsing */
skip = 0; // do it only once to keep track of the leading CRLF.
try_again:
hdr_count = sol = col = eol = sov = 0;
sl.st.status = 0;
skip_update = restarting = 0;
host_idx = -1;
if (h1m->flags & H1_MF_HDRS_ONLY) {
state = H1_MSG_HDR_FIRST;
h1m->next = 0;
}
else {
state = h1m->state;
if (h1m->state != H1_MSG_RQBEFORE && h1m->state != H1_MSG_RPBEFORE)
restarting = 1;
}
ptr = start + h1m->next;
end = stop;
if (unlikely(ptr >= end))
goto http_msg_ood;
/* don't update output if hdr is NULL or if we're restarting */
if (!hdr || restarting)
skip_update = 1;
switch (state) {
case H1_MSG_RQBEFORE:
http_msg_rqbefore:
if (likely(HTTP_IS_TOKEN(*ptr))) {
/* we have a start of message, we may have skipped some
* heading CRLF. Skip them now.
*/
skip += ptr - start;
start = ptr;
sol = 0;
sl.rq.m.ptr = ptr;
hdr_count = 0;
state = H1_MSG_RQMETH;
goto http_msg_rqmeth;
}
if (unlikely(!HTTP_IS_CRLF(*ptr))) {
state = H1_MSG_RQBEFORE;
goto http_msg_invalid;
}
if (unlikely(*ptr == '\n'))
EAT_AND_JUMP_OR_RETURN(ptr, end, http_msg_rqbefore, http_msg_ood, state, H1_MSG_RQBEFORE);
EAT_AND_JUMP_OR_RETURN(ptr, end, http_msg_rqbefore_cr, http_msg_ood, state, H1_MSG_RQBEFORE_CR);
/* stop here */
case H1_MSG_RQBEFORE_CR:
http_msg_rqbefore_cr:
EXPECT_LF_HERE(ptr, http_msg_invalid, state, H1_MSG_RQBEFORE_CR);
EAT_AND_JUMP_OR_RETURN(ptr, end, http_msg_rqbefore, http_msg_ood, state, H1_MSG_RQBEFORE);
/* stop here */
case H1_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, H1_MSG_RQMETH);
if (likely(HTTP_IS_SPHT(*ptr))) {
sl.rq.m.len = ptr - sl.rq.m.ptr;
sl.rq.meth = find_http_meth(start, sl.rq.m.len);
EAT_AND_JUMP_OR_RETURN(ptr, end, http_msg_rqmeth_sp, http_msg_ood, state, H1_MSG_RQMETH_SP);
}
if (likely(HTTP_IS_CRLF(*ptr))) {
/* HTTP 0.9 request */
sl.rq.m.len = ptr - sl.rq.m.ptr;
sl.rq.meth = find_http_meth(sl.rq.m.ptr, sl.rq.m.len);
http_msg_req09_uri:
sl.rq.u.ptr = ptr;
http_msg_req09_uri_e:
sl.rq.u.len = ptr - sl.rq.u.ptr;
http_msg_req09_ver:
sl.rq.v = ist2(ptr, 0);
goto http_msg_rqline_eol;
}
state = H1_MSG_RQMETH;
goto http_msg_invalid;
case H1_MSG_RQMETH_SP:
http_msg_rqmeth_sp:
if (likely(!HTTP_IS_LWS(*ptr))) {
sl.rq.u.ptr = ptr;
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, H1_MSG_RQMETH_SP);
/* so it's a CR/LF, meaning an HTTP 0.9 request */
goto http_msg_req09_uri;
case H1_MSG_RQURI:
http_msg_rquri:
#ifdef HA_UNALIGNED_LE
/* 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 = H1_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, H1_MSG_RQURI);
if (likely(HTTP_IS_SPHT(*ptr))) {
sl.rq.u.len = ptr - sl.rq.u.ptr;
EAT_AND_JUMP_OR_RETURN(ptr, end, http_msg_rquri_sp, http_msg_ood, state, H1_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 (h1m->err_pos < -1)
goto invalid_char;
if (h1m->err_pos == -1)
h1m->err_pos = ptr - start + skip;
EAT_AND_JUMP_OR_RETURN(ptr, end, http_msg_rquri, http_msg_ood, state, H1_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:
state = H1_MSG_RQURI;
goto http_msg_invalid;
case H1_MSG_RQURI_SP:
http_msg_rquri_sp:
if (likely(!HTTP_IS_LWS(*ptr))) {
sl.rq.v.ptr = ptr;
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, H1_MSG_RQURI_SP);
/* so it's a CR/LF, meaning an HTTP 0.9 request */
goto http_msg_req09_ver;
case H1_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, H1_MSG_RQVER);
if (likely(HTTP_IS_CRLF(*ptr))) {
sl.rq.v.len = ptr - sl.rq.v.ptr;
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.
*/
if (likely(!skip_update)) {
if ((sl.rq.v.len == 8) &&
(*(sl.rq.v.ptr + 5) > '1' ||
(*(sl.rq.v.ptr + 5) == '1' && *(sl.rq.v.ptr + 7) >= '1')))
h1m->flags |= H1_MF_VER_11;
if (unlikely(hdr_count >= hdr_num)) {
state = H1_MSG_RQVER;
goto http_output_full;
}
if (!(h1m->flags & H1_MF_NO_PHDR))
http_set_hdr(&hdr[hdr_count++], ist(":method"), sl.rq.m);
if (unlikely(hdr_count >= hdr_num)) {
state = H1_MSG_RQVER;
goto http_output_full;
}
if (!(h1m->flags & H1_MF_NO_PHDR))
http_set_hdr(&hdr[hdr_count++], ist(":path"), sl.rq.u);
}
sol = ptr - start;
if (likely(*ptr == '\r'))
EAT_AND_JUMP_OR_RETURN(ptr, end, http_msg_rqline_end, http_msg_ood, state, H1_MSG_RQLINE_END);
goto http_msg_rqline_end;
}
/* neither an HTTP_VER token nor a CRLF */
state = H1_MSG_RQVER;
goto http_msg_invalid;
case H1_MSG_RQLINE_END:
http_msg_rqline_end:
/* check for HTTP/0.9 request : no version information
* available. sol must point to the first of CR or LF. However
* since we don't save these elements between calls, if we come
* here from a restart, we don't necessarily know. Thus in this
* case we simply start over.
*/
if (restarting)
goto restart;
if (unlikely(sl.rq.v.len == 0))
goto http_msg_last_lf;
EXPECT_LF_HERE(ptr, http_msg_invalid, state, H1_MSG_RQLINE_END);
EAT_AND_JUMP_OR_RETURN(ptr, end, http_msg_hdr_first, http_msg_ood, state, H1_MSG_HDR_FIRST);
/* stop here */
/*
* Common states below
*/
case H1_MSG_RPBEFORE:
http_msg_rpbefore:
if (likely(HTTP_IS_TOKEN(*ptr))) {
/* we have a start of message, we may have skipped some
* heading CRLF. Skip them now.
*/
skip += ptr - start;
start = ptr;
sol = 0;
sl.st.v.ptr = ptr;
hdr_count = 0;
state = H1_MSG_RPVER;
goto http_msg_rpver;
}
if (unlikely(!HTTP_IS_CRLF(*ptr))) {
state = H1_MSG_RPBEFORE;
goto http_msg_invalid;
}
if (unlikely(*ptr == '\n'))
EAT_AND_JUMP_OR_RETURN(ptr, end, http_msg_rpbefore, http_msg_ood, state, H1_MSG_RPBEFORE);
EAT_AND_JUMP_OR_RETURN(ptr, end, http_msg_rpbefore_cr, http_msg_ood, state, H1_MSG_RPBEFORE_CR);
/* stop here */
case H1_MSG_RPBEFORE_CR:
http_msg_rpbefore_cr:
EXPECT_LF_HERE(ptr, http_msg_invalid, state, H1_MSG_RPBEFORE_CR);
EAT_AND_JUMP_OR_RETURN(ptr, end, http_msg_rpbefore, http_msg_ood, state, H1_MSG_RPBEFORE);
/* stop here */
case H1_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, H1_MSG_RPVER);
if (likely(HTTP_IS_SPHT(*ptr))) {
sl.st.v.len = ptr - sl.st.v.ptr;
if ((sl.st.v.len == 8) &&
(*(sl.st.v.ptr + 5) > '1' ||
(*(sl.st.v.ptr + 5) == '1' && *(sl.st.v.ptr + 7) >= '1')))
h1m->flags |= H1_MF_VER_11;
EAT_AND_JUMP_OR_RETURN(ptr, end, http_msg_rpver_sp, http_msg_ood, state, H1_MSG_RPVER_SP);
}
state = H1_MSG_RPVER;
goto http_msg_invalid;
case H1_MSG_RPVER_SP:
http_msg_rpver_sp:
if (likely(!HTTP_IS_LWS(*ptr))) {
sl.st.status = 0;
sl.st.c.ptr = ptr;
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, H1_MSG_RPVER_SP);
/* so it's a CR/LF, this is invalid */
state = H1_MSG_RPVER_SP;
goto http_msg_invalid;
case H1_MSG_RPCODE:
http_msg_rpcode:
if (likely(HTTP_IS_DIGIT(*ptr))) {
sl.st.status = sl.st.status * 10 + *ptr - '0';
EAT_AND_JUMP_OR_RETURN(ptr, end, http_msg_rpcode, http_msg_ood, state, H1_MSG_RPCODE);
}
if (unlikely(!HTTP_IS_LWS(*ptr))) {
state = H1_MSG_RPCODE;
goto http_msg_invalid;
}
if (likely(HTTP_IS_SPHT(*ptr))) {
sl.st.c.len = ptr - sl.st.c.ptr;
EAT_AND_JUMP_OR_RETURN(ptr, end, http_msg_rpcode_sp, http_msg_ood, state, H1_MSG_RPCODE_SP);
}
/* so it's a CR/LF, so there is no reason phrase */
sl.st.c.len = ptr - sl.st.c.ptr;
http_msg_rsp_reason:
sl.st.r = ist2(ptr, 0);
goto http_msg_rpline_eol;
case H1_MSG_RPCODE_SP:
http_msg_rpcode_sp:
if (likely(!HTTP_IS_LWS(*ptr))) {
sl.st.r.ptr = ptr;
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, H1_MSG_RPCODE_SP);
/* so it's a CR/LF, so there is no reason phrase */
goto http_msg_rsp_reason;
case H1_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, H1_MSG_RPREASON);
sl.st.r.len = ptr - sl.st.r.ptr;
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.
*/
if (likely(!skip_update)) {
if (unlikely(hdr_count >= hdr_num)) {
state = H1_MSG_RPREASON;
goto http_output_full;
}
if (!(h1m->flags & H1_MF_NO_PHDR))
http_set_hdr(&hdr[hdr_count++], ist(":status"), sl.st.c);
}
sol = ptr - start;
if (likely(*ptr == '\r'))
EAT_AND_JUMP_OR_RETURN(ptr, end, http_msg_rpline_end, http_msg_ood, state, H1_MSG_RPLINE_END);
goto http_msg_rpline_end;
case H1_MSG_RPLINE_END:
http_msg_rpline_end:
/* sol must point to the first of CR or LF. */
EXPECT_LF_HERE(ptr, http_msg_invalid, state, H1_MSG_RPLINE_END);
EAT_AND_JUMP_OR_RETURN(ptr, end, http_msg_hdr_first, http_msg_ood, state, H1_MSG_HDR_FIRST);
/* stop here */
case H1_MSG_HDR_FIRST:
http_msg_hdr_first:
sol = ptr - start;
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, H1_MSG_LAST_LF);
goto http_msg_last_lf;
case H1_MSG_HDR_NAME:
http_msg_hdr_name:
/* assumes sol points to the first char */
if (likely(HTTP_IS_TOKEN(*ptr))) {
if (!skip_update) {
/* turn it to lower case if needed */
if (isupper((unsigned char)*ptr) && h1m->flags & H1_MF_TOLOWER)
*ptr = tolower((unsigned char)*ptr);
}
EAT_AND_JUMP_OR_RETURN(ptr, end, http_msg_hdr_name, http_msg_ood, state, H1_MSG_HDR_NAME);
}
if (likely(*ptr == ':')) {
col = ptr - start;
if (col <= sol) {
state = H1_MSG_HDR_NAME;
goto http_msg_invalid;
}
EAT_AND_JUMP_OR_RETURN(ptr, end, http_msg_hdr_l1_sp, http_msg_ood, state, H1_MSG_HDR_L1_SP);
}
if (likely(h1m->err_pos < -1) || *ptr == '\n') {
state = H1_MSG_HDR_NAME;
goto http_msg_invalid;
}
if (h1m->err_pos == -1) /* capture the error pointer */
h1m->err_pos = ptr - start + skip; /* >= 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, H1_MSG_HDR_NAME);
case H1_MSG_HDR_L1_SP:
http_msg_hdr_l1_sp:
/* assumes 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, H1_MSG_HDR_L1_SP);
/* header value can be basically anything except CR/LF */
sov = ptr - start;
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, H1_MSG_HDR_L1_LF);
goto http_msg_hdr_l1_lf;
case H1_MSG_HDR_L1_LF:
http_msg_hdr_l1_lf:
EXPECT_LF_HERE(ptr, http_msg_invalid, state, H1_MSG_HDR_L1_LF);
EAT_AND_JUMP_OR_RETURN(ptr, end, http_msg_hdr_l1_lws, http_msg_ood, state, H1_MSG_HDR_L1_LWS);
case H1_MSG_HDR_L1_LWS:
http_msg_hdr_l1_lws:
if (likely(HTTP_IS_SPHT(*ptr))) {
if (!skip_update) {
/* replace HT,CR,LF with spaces */
for (; start + sov < ptr; sov++)
start[sov] = ' ';
}
goto http_msg_hdr_l1_sp;
}
/* we had a header consisting only in spaces ! */
eol = sov;
goto http_msg_complete_header;
case H1_MSG_HDR_VAL:
http_msg_hdr_val:
/* assumes sol points to the first char, and 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.
*/
#ifdef HA_UNALIGNED_LE64
while (ptr <= end - sizeof(long)) {
if ((*(long *)ptr - 0x0e0e0e0e0e0e0e0eULL) & 0x8080808080808080ULL)
goto http_msg_hdr_val2;
ptr += sizeof(long);
}
#endif
#ifdef HA_UNALIGNED_LE
while (ptr <= end - sizeof(int)) {
if ((*(int*)ptr - 0x0e0e0e0e) & 0x80808080)
goto http_msg_hdr_val2;
ptr += sizeof(int);
}
#endif
if (ptr >= end) {
state = H1_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, H1_MSG_HDR_VAL);
eol = ptr - start;
/* 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, H1_MSG_HDR_L2_LF);
goto http_msg_hdr_l2_lf;
case H1_MSG_HDR_L2_LF:
http_msg_hdr_l2_lf:
EXPECT_LF_HERE(ptr, http_msg_invalid, state, H1_MSG_HDR_L2_LF);
EAT_AND_JUMP_OR_RETURN(ptr, end, http_msg_hdr_l2_lws, http_msg_ood, state, H1_MSG_HDR_L2_LWS);
case H1_MSG_HDR_L2_LWS:
http_msg_hdr_l2_lws:
if (unlikely(HTTP_IS_SPHT(*ptr))) {
if (!skip_update) {
/* LWS: replace HT,CR,LF with spaces */
for (; start + eol < ptr; eol++)
start[eol] = ' ';
}
goto http_msg_hdr_val;
}
http_msg_complete_header:
/*
* It was a new header, so the last one is finished. Assumes
* <sol> points to the first char of the name, <col> to the
* colon, <sov> points to the first character of the value and
* <eol> to the first CR or LF so we know how the line ends. We
* will trim spaces around the value. It's possible to do it by
* adjusting <eol> and <sov> which are no more used after this.
* We can add the header field to the list.
*/
if (likely(!skip_update)) {
while (sov < eol && HTTP_IS_LWS(start[sov]))
sov++;
while (eol - 1 > sov && HTTP_IS_LWS(start[eol - 1]))
eol--;
n = ist2(start + sol, col - sol);
v = ist2(start + sov, eol - sov);
do {
int ret;
if (unlikely(hdr_count >= hdr_num)) {
state = H1_MSG_HDR_L2_LWS;
goto http_output_full;
}
if (isteqi(n, ist("transfer-encoding"))) {
ret = h1_parse_xfer_enc_header(h1m, v);
if (ret < 0) {
state = H1_MSG_HDR_L2_LWS;
ptr = v.ptr; /* Set ptr on the error */
goto http_msg_invalid;
}
else if (ret == 0) {
/* skip it */
break;
}
}
else if (isteqi(n, ist("content-length"))) {
ret = h1_parse_cont_len_header(h1m, &v);
if (ret < 0) {
state = H1_MSG_HDR_L2_LWS;
ptr = v.ptr; /* Set ptr on the error */
goto http_msg_invalid;
}
else if (ret == 0) {
/* skip it */
break;
}
}
else if (isteqi(n, ist("connection"))) {
h1_parse_connection_header(h1m, &v);
if (!v.len) {
/* skip it */
break;
}
}
else if (isteqi(n, ist("upgrade"))) {
h1_parse_upgrade_header(h1m, v);
}
else if (!(h1m->flags & H1_MF_RESP) && isteqi(n, ist("host"))) {
if (host_idx == -1)
host_idx = hdr_count;
else {
if (!isteqi(v, hdr[host_idx].v)) {
state = H1_MSG_HDR_L2_LWS;
ptr = v.ptr; /* Set ptr on the error */
goto http_msg_invalid;
}
/* if the same host, skip it */
break;
}
}
http_set_hdr(&hdr[hdr_count++], n, v);
} while (0);
}
sol = ptr - start;
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, H1_MSG_LAST_LF);
goto http_msg_last_lf;
case H1_MSG_LAST_LF:
http_msg_last_lf:
EXPECT_LF_HERE(ptr, http_msg_invalid, state, H1_MSG_LAST_LF);
ptr++;
/* <ptr> now points to the first byte of payload. If needed sol
* still points to the first of either CR or LF of the empty
* line ending the headers block.
*/
if (likely(!skip_update)) {
if (unlikely(hdr_count >= hdr_num)) {
state = H1_MSG_LAST_LF;
goto http_output_full;
}
http_set_hdr(&hdr[hdr_count++], ist2(start+sol, 0), ist(""));
}
/* reaching here we've parsed the whole message. We may detect
* that we were already continuing an interrupted parsing pass
* so we were silently looking for the end of message not
* updating anything before deciding to parse it fully at once.
* It's guaranteed that we won't match this test twice in a row
* since restarting will turn zero.
*/
if (restarting)
goto restart;
if (!(h1m->flags & (H1_MF_HDRS_ONLY|H1_MF_RESP))) {
struct http_uri_parser parser = http_uri_parser_init(sl.rq.u);
struct ist scheme, authority;
int ret;
scheme = http_parse_scheme(&parser);
authority = http_parse_authority(&parser, 1);
if (sl.rq.meth == HTTP_METH_CONNECT) {
struct ist *host = ((host_idx != -1) ? &hdr[host_idx].v : NULL);
ret = h1_validate_connect_authority(authority, host);
if (ret < 0) {
if (h1m->err_pos < -1) {
state = H1_MSG_LAST_LF;
/* WT: gcc seems to see a path where sl.rq.u.ptr was used
* uninitialized, but it doesn't know that the function is
* called with initial states making this impossible.
*/
ALREADY_CHECKED(sl.rq.u.ptr);
ptr = ((ret == -1) ? sl.rq.u.ptr : host->ptr); /* Set ptr on the error */
goto http_msg_invalid;
}
if (h1m->err_pos == -1) /* capture the error pointer */
h1m->err_pos = ((ret == -1) ? sl.rq.u.ptr : host->ptr) - start + skip; /* >= 0 now */
}
}
else if (host_idx != -1 && istlen(authority)) {
struct ist host = hdr[host_idx].v;
/* For non-CONNECT method, the authority must match the host header value */
if (!isteqi(authority, host)) {
ret = h1_validate_mismatch_authority(scheme, authority, host);
if (ret < 0) {
if (h1m->err_pos < -1) {
state = H1_MSG_LAST_LF;
ptr = host.ptr; /* Set ptr on the error */
goto http_msg_invalid;
}
if (h1m->err_pos == -1) /* capture the error pointer */
h1m->err_pos = v.ptr - start + skip; /* >= 0 now */
}
}
}
}
state = H1_MSG_DATA;
if (h1m->flags & H1_MF_XFER_ENC) {
if (h1m->flags & H1_MF_CLEN) {
/* T-E + C-L: force close and remove C-L */
h1m->flags |= H1_MF_CONN_CLO;
h1m->flags &= ~H1_MF_CLEN;
hdr_count = http_del_hdr(hdr, ist("content-length"));
}
else if (!(h1m->flags & H1_MF_VER_11)) {
/* T-E + HTTP/1.0: force close */
h1m->flags |= H1_MF_CONN_CLO;
}
if (h1m->flags & H1_MF_CHNK)
state = H1_MSG_CHUNK_SIZE;
else if (!(h1m->flags & H1_MF_RESP)) {
/* cf RFC7230#3.3.3 : transfer-encoding in
* request without chunked encoding is invalid.
*/
goto http_msg_invalid;
}
}
break;
default:
/* impossible states */
goto http_msg_invalid;
}
/* Now we've left the headers state and are either in H1_MSG_DATA or
* H1_MSG_CHUNK_SIZE.
*/
if (slp && !skip_update)
*slp = sl;
h1m->state = state;
h1m->next = ptr - start + skip;
return h1m->next;
http_msg_ood:
/* out of data at <ptr> during state <state> */
if (slp && !skip_update)
*slp = sl;
h1m->state = state;
h1m->next = ptr - start + skip;
return 0;
http_msg_invalid:
/* invalid message, error at <ptr> */
if (slp && !skip_update)
*slp = sl;
h1m->err_state = h1m->state = state;
h1m->err_pos = h1m->next = ptr - start + skip;
return -1;
http_output_full:
/* no more room to store the current header, error at <ptr> */
if (slp && !skip_update)
*slp = sl;
h1m->err_state = h1m->state = state;
h1m->err_pos = h1m->next = ptr - start + skip;
return -2;
restart:
h1m->flags &= H1_MF_RESTART_MASK;
h1m->curr_len = h1m->body_len = h1m->next = 0;
if (h1m->flags & H1_MF_RESP)
h1m->state = H1_MSG_RPBEFORE;
else
h1m->state = H1_MSG_RQBEFORE;
goto try_again;
}
/* This function performs a very minimal parsing of the trailers block present
* at offset <ofs> in <buf> for up to <max> bytes, and returns the number of
* bytes to delete to skip the trailers. It may return 0 if it's missing some
* input data, or < 0 in case of parse error (in which case the caller may have
* to decide how to proceed, possibly eating everything).
*/
int h1_measure_trailers(const struct buffer *buf, unsigned int ofs, unsigned int max)
{
const char *stop = b_peek(buf, ofs + max);
int count = ofs;
while (1) {
const char *p1 = NULL, *p2 = NULL;
const char *start = b_peek(buf, count);
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)
return -1;
p1 = ptr;
}
ptr = b_next(buf, ptr);
}
/* after LF; point to beginning of next line */
p2 = b_next(buf, p2);
count += 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)
break;
/* OK, next line then */
}
return count - ofs;
}
/* Generate a random key for a WebSocket Handshake in respect with rfc6455
* The key is 128-bits long encoded as a base64 string in <key_out> parameter
* (25 bytes long).
*/
void h1_generate_random_ws_input_key(char key_out[25])
{
/* generate a random websocket key */
const uint64_t rand1 = ha_random64(), rand2 = ha_random64();
char key[16];
memcpy(key, &rand1, 8);
memcpy(&key[8], &rand2, 8);
a2base64(key, 16, key_out, 25);
}
#define H1_WS_KEY_SUFFIX_GUID "258EAFA5-E914-47DA-95CA-C5AB0DC85B11"
/*
* Calculate the WebSocket handshake response key from <key_in>. Following the
* rfc6455, <key_in> must be 24 bytes longs. The result is stored in <key_out>
* as a 29 bytes long string.
*/
void h1_calculate_ws_output_key(const char *key, char *result)
{
blk_SHA_CTX sha1_ctx;
char hash_in[60], hash_out[20];
/* concatenate the key with a fixed suffix */
memcpy(hash_in, key, 24);
memcpy(&hash_in[24], H1_WS_KEY_SUFFIX_GUID, 36);
/* sha1 the result */
blk_SHA1_Init(&sha1_ctx);
blk_SHA1_Update(&sha1_ctx, hash_in, 60);
blk_SHA1_Final((unsigned char *)hash_out, &sha1_ctx);
/* encode in base64 the hash */
a2base64(hash_out, 20, result, 29);
}
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