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/*
* HTTP/3 protocol processing
*
* 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
*/
#include <import/ist.h>
#include <haproxy/api.h>
#include <haproxy/buf.h>
#include <haproxy/chunk.h>
#include <haproxy/connection.h>
#include <haproxy/dynbuf.h>
#include <haproxy/h3.h>
#include <haproxy/h3_stats.h>
#include <haproxy/http.h>
#include <haproxy/http-hdr-t.h>
#include <haproxy/http_htx.h>
#include <haproxy/htx.h>
#include <haproxy/intops.h>
#include <haproxy/istbuf.h>
#include <haproxy/mux_quic.h>
#include <haproxy/pool.h>
#include <haproxy/qmux_http.h>
#include <haproxy/qpack-dec.h>
#include <haproxy/qpack-enc.h>
#include <haproxy/quic_enc.h>
#include <haproxy/quic_fctl.h>
#include <haproxy/quic_frame.h>
#include <haproxy/stats-t.h>
#include <haproxy/tools.h>
#include <haproxy/trace.h>
/* trace source and events */
static void h3_trace(enum trace_level level, uint64_t mask,
const struct trace_source *src,
const struct ist where, const struct ist func,
const void *a1, const void *a2, const void *a3, const void *a4);
static const struct trace_event h3_trace_events[] = {
#define H3_EV_RX_FRAME (1ULL << 0)
{ .mask = H3_EV_RX_FRAME, .name = "rx_frame", .desc = "receipt of any H3 frame" },
#define H3_EV_RX_DATA (1ULL << 1)
{ .mask = H3_EV_RX_DATA, .name = "rx_data", .desc = "receipt of H3 DATA frame" },
#define H3_EV_RX_HDR (1ULL << 2)
{ .mask = H3_EV_RX_HDR, .name = "rx_hdr", .desc = "receipt of H3 HEADERS frame" },
#define H3_EV_RX_SETTINGS (1ULL << 3)
{ .mask = H3_EV_RX_SETTINGS, .name = "rx_settings", .desc = "receipt of H3 SETTINGS frame" },
#define H3_EV_TX_FRAME (1ULL << 4)
{ .mask = H3_EV_TX_FRAME, .name = "tx_frame", .desc = "transmission of any H3 frame" },
#define H3_EV_TX_DATA (1ULL << 5)
{ .mask = H3_EV_TX_DATA, .name = "tx_data", .desc = "transmission of H3 DATA frame" },
#define H3_EV_TX_HDR (1ULL << 6)
{ .mask = H3_EV_TX_HDR, .name = "tx_hdr", .desc = "transmission of H3 HEADERS frame" },
#define H3_EV_TX_SETTINGS (1ULL << 7)
{ .mask = H3_EV_TX_SETTINGS, .name = "tx_settings", .desc = "transmission of H3 SETTINGS frame" },
#define H3_EV_H3S_NEW (1ULL << 8)
{ .mask = H3_EV_H3S_NEW, .name = "h3s_new", .desc = "new H3 stream" },
#define H3_EV_H3S_END (1ULL << 9)
{ .mask = H3_EV_H3S_END, .name = "h3s_end", .desc = "H3 stream terminated" },
#define H3_EV_H3C_NEW (1ULL << 10)
{ .mask = H3_EV_H3C_NEW, .name = "h3c_new", .desc = "new H3 connection" },
#define H3_EV_H3C_END (1ULL << 11)
{ .mask = H3_EV_H3C_END, .name = "h3c_end", .desc = "H3 connection terminated" },
#define H3_EV_STRM_SEND (1ULL << 12)
{ .mask = H3_EV_STRM_SEND, .name = "strm_send", .desc = "sending data for stream" },
{ }
};
static const struct name_desc h3_trace_lockon_args[4] = {
/* arg1 */ { /* already used by the connection */ },
/* arg2 */ { .name="qcs", .desc="QUIC stream" },
/* arg3 */ { },
/* arg4 */ { }
};
static const struct name_desc h3_trace_decoding[] = {
#define H3_VERB_CLEAN 1
{ .name="clean", .desc="only user-friendly stuff, generally suitable for level \"user\"" },
#define H3_VERB_MINIMAL 2
{ .name="minimal", .desc="report only qcc/qcs state and flags, no real decoding" },
{ /* end */ }
};
struct trace_source trace_h3 = {
.name = IST("h3"),
.desc = "HTTP/3 transcoder",
.arg_def = TRC_ARG1_CONN, /* TRACE()'s first argument is always a connection */
.default_cb = h3_trace,
.known_events = h3_trace_events,
.lockon_args = h3_trace_lockon_args,
.decoding = h3_trace_decoding,
.report_events = ~0, /* report everything by default */
};
#define TRACE_SOURCE &trace_h3
INITCALL1(STG_REGISTER, trace_register_source, TRACE_SOURCE);
#if defined(DEBUG_H3)
#define h3_debug_printf fprintf
#define h3_debug_hexdump debug_hexdump
#else
#define h3_debug_printf(...) do { } while (0)
#define h3_debug_hexdump(...) do { } while (0)
#endif
#define H3_CF_SETTINGS_SENT 0x00000001 /* SETTINGS frame already sent on local control stream */
#define H3_CF_SETTINGS_RECV 0x00000002 /* SETTINGS frame already received on remote control stream */
#define H3_CF_UNI_CTRL_SET 0x00000004 /* Remote H3 Control stream opened */
#define H3_CF_UNI_QPACK_DEC_SET 0x00000008 /* Remote QPACK decoder stream opened */
#define H3_CF_UNI_QPACK_ENC_SET 0x00000010 /* Remote QPACK encoder stream opened */
#define H3_CF_GOAWAY_SENT 0x00000020 /* GOAWAY sent on local control stream */
/* Default settings */
static uint64_t h3_settings_qpack_max_table_capacity = 0;
static uint64_t h3_settings_qpack_blocked_streams = 4096;
static uint64_t h3_settings_max_field_section_size = QUIC_VARINT_8_BYTE_MAX; /* Unlimited */
struct h3c {
struct qcc *qcc;
struct qcs *ctrl_strm; /* Control stream */
int err;
uint32_t flags;
/* Settings */
uint64_t qpack_max_table_capacity;
uint64_t qpack_blocked_streams;
uint64_t max_field_section_size;
uint64_t id_goaway; /* stream ID used for a GOAWAY frame */
struct buffer_wait buf_wait; /* wait list for buffer allocations */
/* Stats counters */
struct h3_counters *prx_counters;
};
DECLARE_STATIC_POOL(pool_head_h3c, "h3c", sizeof(struct h3c));
#define H3_SF_UNI_INIT 0x00000001 /* stream type not parsed for unidirectional stream */
#define H3_SF_UNI_NO_H3 0x00000002 /* unidirectional stream does not carry H3 frames */
#define H3_SF_HAVE_CLEN 0x00000004 /* content-length header is present */
struct h3s {
struct h3c *h3c;
enum h3s_t type;
enum h3s_st_req st_req; /* only used for request streams */
uint64_t demux_frame_len;
uint64_t demux_frame_type;
unsigned long long body_len; /* known request body length from content-length header if present */
unsigned long long data_len; /* total length of all parsed DATA */
int flags;
int err; /* used for stream reset */
};
DECLARE_STATIC_POOL(pool_head_h3s, "h3s", sizeof(struct h3s));
/* Initialize an uni-stream <qcs> by reading its type from <b>.
*
* Returns the count of consumed bytes or a negative error code.
*/
static ssize_t h3_init_uni_stream(struct h3c *h3c, struct qcs *qcs,
struct buffer *b)
{
/* decode unidirectional stream type */
struct h3s *h3s = qcs->ctx;
uint64_t type;
size_t len = 0, ret;
TRACE_ENTER(H3_EV_H3S_NEW, qcs->qcc->conn, qcs);
/* Function reserved to uni streams. Must be called only once per stream instance. */
BUG_ON(!quic_stream_is_uni(qcs->id) || h3s->flags & H3_SF_UNI_INIT);
ret = b_quic_dec_int(&type, b, &len);
if (!ret) {
/* not enough data to decode uni stream type, retry later */
TRACE_DATA("cannot decode uni stream type due to incomplete data", H3_EV_H3S_NEW, qcs->qcc->conn, qcs);
goto out;
}
switch (type) {
case H3_UNI_S_T_CTRL:
if (h3c->flags & H3_CF_UNI_CTRL_SET) {
TRACE_ERROR("duplicated control stream", H3_EV_H3S_NEW, qcs->qcc->conn, qcs);
qcc_set_error(qcs->qcc, H3_ERR_STREAM_CREATION_ERROR, 1);
qcc_report_glitch(qcs->qcc, 1);
goto err;
}
h3c->flags |= H3_CF_UNI_CTRL_SET;
h3s->type = H3S_T_CTRL;
break;
case H3_UNI_S_T_PUSH:
/* TODO not supported for the moment */
h3s->type = H3S_T_PUSH;
break;
case H3_UNI_S_T_QPACK_DEC:
if (h3c->flags & H3_CF_UNI_QPACK_DEC_SET) {
TRACE_ERROR("duplicated qpack decoder stream", H3_EV_H3S_NEW, qcs->qcc->conn, qcs);
qcc_set_error(qcs->qcc, H3_ERR_STREAM_CREATION_ERROR, 1);
qcc_report_glitch(qcs->qcc, 1);
goto err;
}
h3c->flags |= H3_CF_UNI_QPACK_DEC_SET;
h3s->type = H3S_T_QPACK_DEC;
h3s->flags |= H3_SF_UNI_NO_H3;
break;
case H3_UNI_S_T_QPACK_ENC:
if (h3c->flags & H3_CF_UNI_QPACK_ENC_SET) {
TRACE_ERROR("duplicated qpack encoder stream", H3_EV_H3S_NEW, qcs->qcc->conn, qcs);
qcc_set_error(qcs->qcc, H3_ERR_STREAM_CREATION_ERROR, 1);
qcc_report_glitch(qcs->qcc, 1);
goto err;
}
h3c->flags |= H3_CF_UNI_QPACK_ENC_SET;
h3s->type = H3S_T_QPACK_ENC;
h3s->flags |= H3_SF_UNI_NO_H3;
break;
default:
/* draft-ietf-quic-http34 9. Extensions to HTTP/3
*
* Implementations MUST [...] abort reading on unidirectional
* streams that have unknown or unsupported types.
*/
TRACE_STATE("abort reading on unknown uni stream type", H3_EV_H3S_NEW, qcs->qcc->conn, qcs);
qcc_abort_stream_read(qcs);
goto err;
}
h3s->flags |= H3_SF_UNI_INIT;
out:
TRACE_LEAVE(H3_EV_H3S_NEW, qcs->qcc->conn, qcs);
return len;
err:
TRACE_DEVEL("leaving on error", H3_EV_H3S_NEW, qcs->qcc->conn, qcs);
return -1;
}
/* Parse a buffer <b> for a <qcs> uni-stream which does not contains H3 frames.
* This may be used for QPACK encoder/decoder streams for example. <fin> is set
* if this is the last frame of the stream.
*
* Returns the number of consumed bytes or a negative error code.
*/
static ssize_t h3_parse_uni_stream_no_h3(struct qcs *qcs, struct buffer *b, int fin)
{
struct h3s *h3s = qcs->ctx;
/* Function reserved to non-HTTP/3 unidirectional streams. */
BUG_ON(!quic_stream_is_uni(qcs->id) || !(h3s->flags & H3_SF_UNI_NO_H3));
switch (h3s->type) {
case H3S_T_QPACK_DEC:
if (qpack_decode_dec(b, fin, qcs))
return -1;
break;
case H3S_T_QPACK_ENC:
if (qpack_decode_enc(b, fin, qcs))
return -1;
break;
case H3S_T_UNKNOWN:
default:
/* Unknown stream should be flagged with QC_SF_READ_ABORTED. */
ABORT_NOW();
}
/* TODO adjust return code */
return 0;
}
/* Decode a H3 frame header from <rxbuf> buffer. The frame type is stored in
* <ftype> and length in <flen>.
*
* Returns the size of the H3 frame header. Note that the input buffer is not
* consumed.
*/
static inline size_t h3_decode_frm_header(uint64_t *ftype, uint64_t *flen,
struct buffer *b)
{
size_t hlen;
hlen = 0;
if (!b_quic_dec_int(ftype, b, &hlen) ||
!b_quic_dec_int(flen, b, &hlen)) {
return 0;
}
return hlen;
}
/* Check if H3 frame of type <ftype> is valid when received on stream <qcs>.
*
* Returns 0 if frame valid, otherwise HTTP/3 error code.
*/
static int h3_check_frame_valid(struct h3c *h3c, struct qcs *qcs, uint64_t ftype)
{
struct h3s *h3s = qcs->ctx;
int ret = 0;
/* Stream type must be known to ensure frame is valid for this stream. */
BUG_ON(h3s->type == H3S_T_UNKNOWN);
switch (ftype) {
case H3_FT_DATA:
/* cf H3_FT_HEADERS case. */
if (h3s->type == H3S_T_CTRL ||
(h3s->st_req != H3S_ST_REQ_HEADERS && h3s->st_req != H3S_ST_REQ_DATA)) {
ret = H3_ERR_FRAME_UNEXPECTED;
}
break;
case H3_FT_HEADERS:
/* RFC 9114 4.1. HTTP Message Framing
*
*
* An HTTP message (request or response) consists of:
* 1. the header section, including message control data, sent as a
* single HEADERS frame,
* 2. optionally, the content, if present, sent as a series of DATA
* frames, and
* 3. optionally, the trailer section, if present, sent as a single
* HEADERS frame.
*
* [...]
*
* Receipt of an invalid sequence of frames MUST be treated as a
* connection error of type H3_FRAME_UNEXPECTED. In particular, a DATA
* frame before any HEADERS frame, or a HEADERS or DATA frame after the
* trailing HEADERS frame, is considered invalid. Other frame types,
* especially unknown frame types, might be permitted subject to their
* own rules; see Section 9.
*/
if (h3s->type == H3S_T_CTRL || h3s->st_req == H3S_ST_REQ_TRAILERS)
ret = H3_ERR_FRAME_UNEXPECTED;
break;
case H3_FT_CANCEL_PUSH:
case H3_FT_GOAWAY:
case H3_FT_MAX_PUSH_ID:
/* RFC 9114 7.2.3. CANCEL_PUSH
*
* A CANCEL_PUSH frame is sent on the control stream. Receiving a
* CANCEL_PUSH frame on a stream other than the control stream MUST be
* treated as a connection error of type H3_FRAME_UNEXPECTED.
*/
/* RFC 9114 7.2.6. GOAWAY
*
* A client MUST treat a GOAWAY frame on a stream other than the
* control stream as a connection error of type H3_FRAME_UNEXPECTED.
*/
/* RFC 9114 7.2.7. MAX_PUSH_ID
*
* The MAX_PUSH_ID frame is always sent on the control stream. Receipt
* of a MAX_PUSH_ID frame on any other stream MUST be treated as a
* connection error of type H3_FRAME_UNEXPECTED.
*/
if (h3s->type != H3S_T_CTRL)
ret = H3_ERR_FRAME_UNEXPECTED;
else if (!(h3c->flags & H3_CF_SETTINGS_RECV))
ret = H3_ERR_MISSING_SETTINGS;
break;
case H3_FT_SETTINGS:
/* RFC 9114 7.2.4. SETTINGS
*
* A SETTINGS frame MUST be sent as the first frame of
* each control stream (see Section 6.2.1) by each peer, and it MUST NOT
* be sent subsequently. If an endpoint receives a second SETTINGS frame
* on the control stream, the endpoint MUST respond with a connection
* error of type H3_FRAME_UNEXPECTED.
*
* SETTINGS frames MUST NOT be sent on any stream other than the control
* stream. If an endpoint receives a SETTINGS frame on a different
* stream, the endpoint MUST respond with a connection error of type
* H3_FRAME_UNEXPECTED.
*/
if (h3s->type != H3S_T_CTRL || h3c->flags & H3_CF_SETTINGS_RECV)
ret = H3_ERR_FRAME_UNEXPECTED;
break;
case H3_FT_PUSH_PROMISE:
/* RFC 9114 7.2.5. PUSH_PROMISE
*
* A client MUST NOT send a PUSH_PROMISE frame. A server MUST treat the
* receipt of a PUSH_PROMISE frame as a connection error of type
* H3_FRAME_UNEXPECTED.
*/
/* TODO server-side only. */
ret = H3_ERR_FRAME_UNEXPECTED;
break;
default:
/* RFC 9114 9. Extensions to HTTP/3
*
* Implementations MUST ignore unknown or unsupported values in all
* extensible protocol elements. [...]
* However, where a known frame type is required to be in a
* specific location, such as the SETTINGS frame as the first frame of
* the control stream (see Section 6.2.1), an unknown frame type does
* not satisfy that requirement and SHOULD be treated as an error.
*/
if (h3s->type == H3S_T_CTRL && !(h3c->flags & H3_CF_SETTINGS_RECV))
ret = H3_ERR_MISSING_SETTINGS;
break;
}
return ret;
}
/* Check from stream <qcs> that length of all DATA frames does not exceed with
* a previously parsed content-length header. <fin> must be set for the last
* data of the stream so that length of DATA frames must be equal to the
* content-length.
*
* This must only be called for a stream with H3_SF_HAVE_CLEN flag.
*
* Return 0 on valid else non-zero.
*/
static int h3_check_body_size(struct qcs *qcs, int fin)
{
struct h3s *h3s = qcs->ctx;
int ret = 0;
TRACE_ENTER(H3_EV_RX_FRAME, qcs->qcc->conn, qcs);
/* Reserved for streams with a previously parsed content-length header. */
BUG_ON(!(h3s->flags & H3_SF_HAVE_CLEN));
/* RFC 9114 4.1.2. Malformed Requests and Responses
*
* A request or response that is defined as having content when it
* contains a Content-Length header field (Section 8.6 of [HTTP]) is
* malformed if the value of the Content-Length header field does not
* equal the sum of the DATA frame lengths received.
*
* TODO for backend support
* A response that is
* defined as never having content, even when a Content-Length is
* present, can have a non-zero Content-Length header field even though
* no content is included in DATA frames.
*/
if (h3s->data_len > h3s->body_len ||
(fin && h3s->data_len < h3s->body_len)) {
TRACE_ERROR("Content-length does not match DATA frame size", H3_EV_RX_FRAME|H3_EV_RX_DATA, qcs->qcc->conn, qcs);
h3s->err = H3_ERR_MESSAGE_ERROR;
qcc_report_glitch(qcs->qcc, 1);
ret = -1;
}
TRACE_LEAVE(H3_EV_RX_FRAME, qcs->qcc->conn, qcs);
return ret;
}
/* Set <auth> authority header to the new value <value> for <qcs> stream. This
* ensures that value is conformant to the specification. If <auth> is a
* non-null length string, it ensures that <value> is identical to it.
*
* Returns 0 on success else non-zero.
*/
static int h3_set_authority(struct qcs *qcs, struct ist *auth, const struct ist value)
{
/* RFC 9114 4.3.1. Request Pseudo-Header Fields
*
* If the :scheme pseudo-header field identifies a scheme that has a
* mandatory authority component (including "http" and "https"), the
* request MUST contain either an :authority pseudo-header field or a
* Host header field. If these fields are present, they MUST NOT be
* empty. If both fields are present, they MUST contain the same value.
*/
/* Check that if a previous value is set the new value is identical. */
if (isttest(*auth) && !isteq(*auth, value)) {
TRACE_ERROR("difference between :authority and host headers", H3_EV_RX_FRAME|H3_EV_RX_HDR, qcs->qcc->conn, qcs);
return 1;
}
/* Check that value is not empty. */
if (!istlen(value)) {
TRACE_ERROR("empty :authority/host header", H3_EV_RX_FRAME|H3_EV_RX_HDR, qcs->qcc->conn, qcs);
return 1;
}
*auth = value;
return 0;
}
/* Parse from buffer <buf> a H3 HEADERS frame of length <len>. Data are copied
* in a local HTX buffer and transfer to the stream connector layer. <fin> must be
* set if this is the last data to transfer from this stream.
*
* Returns the number of consumed bytes or a negative error code. On error
* either the connection should be closed or the stream reset using codes
* provided in h3c.err / h3s.err.
*/
static ssize_t h3_headers_to_htx(struct qcs *qcs, const struct buffer *buf,
uint64_t len, char fin)
{
struct h3s *h3s = qcs->ctx;
struct h3c *h3c = h3s->h3c;
struct buffer htx_buf = BUF_NULL;
struct buffer *tmp = get_trash_chunk();
struct htx *htx = NULL;
struct htx_sl *sl;
struct http_hdr list[global.tune.max_http_hdr];
unsigned int flags = HTX_SL_F_NONE;
struct ist meth = IST_NULL, path = IST_NULL;
struct ist scheme = IST_NULL, authority = IST_NULL;
int hdr_idx, ret;
int cookie = -1, last_cookie = -1, i;
const char *ctl;
int relaxed = !!(h3c->qcc->proxy->options2 & PR_O2_REQBUG_OK);
int qpack_err;
/* RFC 9114 4.1.2. Malformed Requests and Responses
*
* A malformed request or response is one that is an otherwise valid
* sequence of frames but is invalid due to:
* - the presence of prohibited fields or pseudo-header fields,
* - the absence of mandatory pseudo-header fields,
* - invalid values for pseudo-header fields,
* - pseudo-header fields after fields,
* - an invalid sequence of HTTP messages,
* - the inclusion of uppercase field names, or
* - the inclusion of invalid characters in field names or values.
*
* [...]
*
* Intermediaries that process HTTP requests or responses (i.e., any
* intermediary not acting as a tunnel) MUST NOT forward a malformed
* request or response. Malformed requests or responses that are
* detected MUST be treated as a stream error of type H3_MESSAGE_ERROR.
*/
TRACE_ENTER(H3_EV_RX_FRAME|H3_EV_RX_HDR, qcs->qcc->conn, qcs);
/* TODO support trailer parsing in this function */
/* TODO support buffer wrapping */
BUG_ON(b_head(buf) + len >= b_wrap(buf));
ret = qpack_decode_fs((const unsigned char *)b_head(buf), len, tmp,
list, sizeof(list) / sizeof(list[0]));
if (ret < 0) {
TRACE_ERROR("QPACK decoding error", H3_EV_RX_FRAME|H3_EV_RX_HDR, qcs->qcc->conn, qcs);
if ((qpack_err = qpack_err_decode(ret)) >= 0) {
h3c->err = qpack_err;
qcc_report_glitch(qcs->qcc, 1);
}
len = -1;
goto out;
}
if (!b_alloc(&htx_buf, DB_SE_RX)) {
TRACE_ERROR("HTX buffer alloc failure", H3_EV_RX_FRAME|H3_EV_RX_HDR, qcs->qcc->conn, qcs);
len = -1;
goto out;
}
BUG_ON(!b_size(&htx_buf)); /* TODO */
htx = htx_from_buf(&htx_buf);
/* first treat pseudo-header to build the start line */
hdr_idx = 0;
while (1) {
/* RFC 9114 4.3. HTTP Control Data
*
* Endpoints MUST treat a request or response that contains
* undefined or invalid pseudo-header fields as malformed.
*
* All pseudo-header fields MUST appear in the header section before
* regular header fields. Any request or response that contains a
* pseudo-header field that appears in a header section after a regular
* header field MUST be treated as malformed.
*/
/* Stop at first non pseudo-header. */
if (!istmatch(list[hdr_idx].n, ist(":")))
break;
/* RFC 9114 10.3 Intermediary-Encapsulation Attacks
*
* While most values that can be encoded will not alter field
* parsing, carriage return (ASCII 0x0d), line feed (ASCII 0x0a),
* and the null character (ASCII 0x00) might be exploited by an
* attacker if they are translated verbatim. Any request or
* response that contains a character not permitted in a field
* value MUST be treated as malformed
*/
/* look for forbidden control characters in the pseudo-header value */
ctl = ist_find_ctl(list[hdr_idx].v);
if (unlikely(ctl) && http_header_has_forbidden_char(list[hdr_idx].v, ctl)) {
TRACE_ERROR("control character present in pseudo-header value", H3_EV_RX_FRAME|H3_EV_RX_HDR, qcs->qcc->conn, qcs);
h3s->err = H3_ERR_MESSAGE_ERROR;
qcc_report_glitch(h3c->qcc, 1);
len = -1;
goto out;
}
/* pseudo-header. Malformed name with uppercase character or
* invalid token will be rejected in the else clause.
*/
if (isteq(list[hdr_idx].n, ist(":method"))) {
if (isttest(meth)) {
TRACE_ERROR("duplicated method pseudo-header", H3_EV_RX_FRAME|H3_EV_RX_HDR, qcs->qcc->conn, qcs);
h3s->err = H3_ERR_MESSAGE_ERROR;
qcc_report_glitch(h3c->qcc, 1);
len = -1;
goto out;
}
meth = list[hdr_idx].v;
}
else if (isteq(list[hdr_idx].n, ist(":path"))) {
if (isttest(path)) {
TRACE_ERROR("duplicated path pseudo-header", H3_EV_RX_FRAME|H3_EV_RX_HDR, qcs->qcc->conn, qcs);
h3s->err = H3_ERR_MESSAGE_ERROR;
qcc_report_glitch(h3c->qcc, 1);
len = -1;
goto out;
}
if (!relaxed) {
/* we need to reject any control chars or '#' from the path,
* unless option accept-invalid-http-request is set.
*/
ctl = ist_find_range(list[hdr_idx].v, 0, '#');
if (unlikely(ctl) && http_path_has_forbidden_char(list[hdr_idx].v, ctl)) {
TRACE_ERROR("forbidden character in ':path' pseudo-header", H3_EV_RX_FRAME|H3_EV_RX_HDR, qcs->qcc->conn, qcs);
h3s->err = H3_ERR_MESSAGE_ERROR;
qcc_report_glitch(h3c->qcc, 1);
len = -1;
goto out;
}
}
path = list[hdr_idx].v;
}
else if (isteq(list[hdr_idx].n, ist(":scheme"))) {
if (isttest(scheme)) {
/* duplicated pseudo-header */
TRACE_ERROR("duplicated scheme pseudo-header", H3_EV_RX_FRAME|H3_EV_RX_HDR, qcs->qcc->conn, qcs);
h3s->err = H3_ERR_MESSAGE_ERROR;
qcc_report_glitch(h3c->qcc, 1);
len = -1;
goto out;
}
scheme = list[hdr_idx].v;
}
else if (isteq(list[hdr_idx].n, ist(":authority"))) {
if (isttest(authority)) {
TRACE_ERROR("duplicated authority pseudo-header", H3_EV_RX_FRAME|H3_EV_RX_HDR, qcs->qcc->conn, qcs);
h3s->err = H3_ERR_MESSAGE_ERROR;
qcc_report_glitch(h3c->qcc, 1);
len = -1;
goto out;
}
if (h3_set_authority(qcs, &authority, list[hdr_idx].v)) {
h3s->err = H3_ERR_MESSAGE_ERROR;
qcc_report_glitch(h3c->qcc, 1);
len = -1;
goto out;
}
}
else {
TRACE_ERROR("unknown pseudo-header", H3_EV_RX_FRAME|H3_EV_RX_HDR, qcs->qcc->conn, qcs);
h3s->err = H3_ERR_MESSAGE_ERROR;
qcc_report_glitch(h3c->qcc, 1);
len = -1;
goto out;
}
++hdr_idx;
}
if (!istmatch(meth, ist("CONNECT"))) {
/* RFC 9114 4.3.1. Request Pseudo-Header Fields
*
* All HTTP/3 requests MUST include exactly one value for the :method,
* :scheme, and :path pseudo-header fields, unless the request is a
* CONNECT request; see Section 4.4.
*/
if (!isttest(meth) || !isttest(scheme) || !isttest(path)) {
TRACE_ERROR("missing mandatory pseudo-header", H3_EV_RX_FRAME|H3_EV_RX_HDR, qcs->qcc->conn, qcs);
h3s->err = H3_ERR_MESSAGE_ERROR;
qcc_report_glitch(h3c->qcc, 1);
len = -1;
goto out;
}
}
flags |= HTX_SL_F_VER_11;
flags |= HTX_SL_F_XFER_LEN;
sl = htx_add_stline(htx, HTX_BLK_REQ_SL, flags, meth, path, ist("HTTP/3.0"));
if (!sl) {
len = -1;
goto out;
}
if (fin)
sl->flags |= HTX_SL_F_BODYLESS;
sl->info.req.meth = find_http_meth(meth.ptr, meth.len);
if (isttest(authority)) {
if (!htx_add_header(htx, ist("host"), authority)) {
len = -1;
goto out;
}
}
/* now treat standard headers */
while (1) {
if (isteq(list[hdr_idx].n, ist("")))
break;
if (istmatch(list[hdr_idx].n, ist(":"))) {
TRACE_ERROR("pseudo-header field after fields", H3_EV_RX_FRAME|H3_EV_RX_HDR, qcs->qcc->conn, qcs);
h3s->err = H3_ERR_MESSAGE_ERROR;
qcc_report_glitch(h3c->qcc, 1);
len = -1;
goto out;
}
for (i = 0; i < list[hdr_idx].n.len; ++i) {
const char c = list[hdr_idx].n.ptr[i];
if ((uint8_t)(c - 'A') < 'Z' - 'A' || !HTTP_IS_TOKEN(c)) {
TRACE_ERROR("invalid characters in field name", H3_EV_RX_FRAME|H3_EV_RX_HDR, qcs->qcc->conn, qcs);
h3s->err = H3_ERR_MESSAGE_ERROR;
qcc_report_glitch(h3c->qcc, 1);
len = -1;
goto out;
}
}
/* RFC 9114 10.3 Intermediary-Encapsulation Attacks
*
* While most values that can be encoded will not alter field
* parsing, carriage return (ASCII 0x0d), line feed (ASCII 0x0a),
* and the null character (ASCII 0x00) might be exploited by an
* attacker if they are translated verbatim. Any request or
* response that contains a character not permitted in a field
* value MUST be treated as malformed
*/
/* look for forbidden control characters in the header value */
ctl = ist_find_ctl(list[hdr_idx].v);
if (unlikely(ctl) && http_header_has_forbidden_char(list[hdr_idx].v, ctl)) {
TRACE_ERROR("control character present in header value", H3_EV_RX_FRAME|H3_EV_RX_HDR, qcs->qcc->conn, qcs);
h3s->err = H3_ERR_MESSAGE_ERROR;
qcc_report_glitch(h3c->qcc, 1);
len = -1;
goto out;
}
if (isteq(list[hdr_idx].n, ist("host"))) {
if (h3_set_authority(qcs, &authority, list[hdr_idx].v)) {
h3s->err = H3_ERR_MESSAGE_ERROR;
qcc_report_glitch(h3c->qcc, 1);
len = -1;
goto out;
}
}
else if (isteq(list[hdr_idx].n, ist("cookie"))) {
http_cookie_register(list, hdr_idx, &cookie, &last_cookie);
++hdr_idx;
continue;
}
else if (isteq(list[hdr_idx].n, ist("content-length"))) {
ret = http_parse_cont_len_header(&list[hdr_idx].v,
&h3s->body_len,
h3s->flags & H3_SF_HAVE_CLEN);
if (ret < 0) {
TRACE_ERROR("invalid content-length", H3_EV_RX_FRAME|H3_EV_RX_HDR, qcs->qcc->conn, qcs);
h3s->err = H3_ERR_MESSAGE_ERROR;
qcc_report_glitch(h3c->qcc, 1);
len = -1;
goto out;
}
else if (!ret) {
/* Skip duplicated value. */
++hdr_idx;
continue;
}
h3s->flags |= H3_SF_HAVE_CLEN;
sl->flags |= HTX_SL_F_CLEN;
/* This will fail if current frame is the last one and
* content-length is not null.
*/
if (h3_check_body_size(qcs, fin)) {
len = -1;
goto out;
}
}
else if (isteq(list[hdr_idx].n, ist("connection")) ||
isteq(list[hdr_idx].n, ist("proxy-connection")) ||
isteq(list[hdr_idx].n, ist("keep-alive")) ||
isteq(list[hdr_idx].n, ist("transfer-encoding"))) {
/* RFC 9114 4.2. HTTP Fields
*
* HTTP/3 does not use the Connection header field to indicate
* connection-specific fields; in this protocol, connection-
* specific metadata is conveyed by other means. An endpoint
* MUST NOT generate an HTTP/3 field section containing
* connection-specific fields; any message containing
* connection-specific fields MUST be treated as malformed.
*/
TRACE_ERROR("invalid connection header", H3_EV_RX_FRAME|H3_EV_RX_HDR, qcs->qcc->conn, qcs);
h3s->err = H3_ERR_MESSAGE_ERROR;
qcc_report_glitch(h3c->qcc, 1);
len = -1;
goto out;
}
else if (isteq(list[hdr_idx].n, ist("te")) &&
!isteq(list[hdr_idx].v, ist("trailers"))) {
/* RFC 9114 4.2. HTTP Fields
*
* The only exception to this is the TE header field, which MAY
* be present in an HTTP/3 request header; when it is, it MUST
* NOT contain any value other than "trailers".
*/
TRACE_ERROR("invalid te header", H3_EV_RX_FRAME|H3_EV_RX_HDR, qcs->qcc->conn, qcs);
h3s->err = H3_ERR_MESSAGE_ERROR;
qcc_report_glitch(h3c->qcc, 1);
len = -1;
goto out;
}
if (!htx_add_header(htx, list[hdr_idx].n, list[hdr_idx].v)) {
len = -1;
goto out;
}
++hdr_idx;
}
/* RFC 9114 4.3.1. Request Pseudo-Header Fields
*
* If the :scheme pseudo-header field identifies a scheme that has a
* mandatory authority component (including "http" and "https"), the
* request MUST contain either an :authority pseudo-header field or a
* Host header field.
*/
if (!isttest(authority)) {
TRACE_ERROR("missing mandatory pseudo-header", H3_EV_RX_FRAME|H3_EV_RX_HDR, qcs->qcc->conn, qcs);
h3s->err = H3_ERR_MESSAGE_ERROR;
qcc_report_glitch(h3c->qcc, 1);
len = -1;
goto out;
}
if (cookie >= 0) {
if (http_cookie_merge(htx, list, cookie)) {
len = -1;
goto out;
}
}
if (!htx_add_endof(htx, HTX_BLK_EOH)) {
len = -1;
goto out;
}
if (fin)
htx->flags |= HTX_FL_EOM;
htx_to_buf(htx, &htx_buf);
htx = NULL;
if (!qcs_attach_sc(qcs, &htx_buf, fin)) {
len = -1;
goto out;
}
/* RFC 9114 5.2. Connection Shutdown
*
* The GOAWAY frame contains an identifier that
* indicates to the receiver the range of requests or pushes that were
* or might be processed in this connection. The server sends a client-
* initiated bidirectional stream ID; the client sends a push ID.
* Requests or pushes with the indicated identifier or greater are
* rejected (Section 4.1.1) by the sender of the GOAWAY. This
* identifier MAY be zero if no requests or pushes were processed.
*/
if (qcs->id >= h3c->id_goaway)
h3c->id_goaway = qcs->id + 4;
out:
/* HTX may be non NULL if error before previous htx_to_buf(). */
if (htx)
htx_to_buf(htx, &htx_buf);
/* buffer is transferred to the stream connector and set to NULL
* except on stream creation error.
*/
if (b_size(&htx_buf)) {
b_free(&htx_buf);
offer_buffers(NULL, 1);
}
TRACE_LEAVE(H3_EV_RX_FRAME|H3_EV_RX_HDR, qcs->qcc->conn, qcs);
return len;
}
/* Parse from buffer <buf> a H3 HEADERS frame of length <len> used as trailers.
* Data are copied in a local HTX buffer and transfer to the stream connector
* layer. <fin> must be set if this is the last data to transfer from this
* stream.
*
* Returns the number of consumed bytes or a negative error code. On error
* either the connection should be closed or the stream reset using codes
* provided in h3c.err / h3s.err.
*/
static ssize_t h3_trailers_to_htx(struct qcs *qcs, const struct buffer *buf,
uint64_t len, char fin)
{
struct h3s *h3s = qcs->ctx;
struct h3c *h3c = h3s->h3c;
struct buffer *tmp = get_trash_chunk();
struct buffer *appbuf = NULL;
struct htx *htx = NULL;
struct htx_sl *sl;
struct http_hdr list[global.tune.max_http_hdr];
int hdr_idx, ret;
const char *ctl;
int qpack_err;
int i;
TRACE_ENTER(H3_EV_RX_FRAME|H3_EV_RX_HDR, qcs->qcc->conn, qcs);
/* TODO support buffer wrapping */
BUG_ON(b_head(buf) + len >= b_wrap(buf));
ret = qpack_decode_fs((const unsigned char *)b_head(buf), len, tmp,
list, sizeof(list) / sizeof(list[0]));
if (ret < 0) {
TRACE_ERROR("QPACK decoding error", H3_EV_RX_FRAME|H3_EV_RX_HDR, qcs->qcc->conn, qcs);
if ((qpack_err = qpack_err_decode(ret)) >= 0) {
h3c->err = qpack_err;
qcc_report_glitch(qcs->qcc, 1);
}
len = -1;
goto out;
}
if (!(appbuf = qcc_get_stream_rxbuf(qcs))) {
TRACE_ERROR("HTX buffer alloc failure", H3_EV_RX_FRAME|H3_EV_RX_HDR, qcs->qcc->conn, qcs);
len = -1;
goto out;
}
BUG_ON(!b_size(appbuf)); /* TODO */
htx = htx_from_buf(appbuf);
if (!h3s->data_len) {
/* Notify that no body is present. This can only happens if
* there is H3 HEADERS as trailers without or empty H3 DATA
* frame. So this is probably not realistice ?
*
* TODO if sl is NULL because already consumed there is no way
* to notify about missing body.
*/
sl = http_get_stline(htx);
if (sl)
sl->flags |= HTX_SL_F_BODYLESS;
else
TRACE_ERROR("cannot notify missing body after trailers", H3_EV_RX_FRAME|H3_EV_RX_HDR, qcs->qcc->conn, qcs);
}
hdr_idx = 0;
while (1) {
if (isteq(list[hdr_idx].n, ist("")))
break;
/* RFC 9114 4.3. HTTP Control Data
*
* Pseudo-header
* fields MUST NOT appear in trailer sections.
*/
if (istmatch(list[hdr_idx].n, ist(":"))) {
TRACE_ERROR("pseudo-header field in trailers", H3_EV_RX_FRAME|H3_EV_RX_HDR, qcs->qcc->conn, qcs);
h3s->err = H3_ERR_MESSAGE_ERROR;
qcc_report_glitch(h3c->qcc, 1);
len = -1;
goto out;
}
for (i = 0; i < list[hdr_idx].n.len; ++i) {
const char c = list[hdr_idx].n.ptr[i];
if ((uint8_t)(c - 'A') < 'Z' - 'A' || !HTTP_IS_TOKEN(c)) {
TRACE_ERROR("invalid characters in field name", H3_EV_RX_FRAME|H3_EV_RX_HDR, qcs->qcc->conn, qcs);
h3s->err = H3_ERR_MESSAGE_ERROR;
qcc_report_glitch(h3c->qcc, 1);
len = -1;
goto out;
}
}
/* forbidden HTTP/3 headers, cf h3_headers_to_htx() */
if (isteq(list[hdr_idx].n, ist("host")) ||
isteq(list[hdr_idx].n, ist("content-length")) ||
isteq(list[hdr_idx].n, ist("connection")) ||
isteq(list[hdr_idx].n, ist("proxy-connection")) ||
isteq(list[hdr_idx].n, ist("keep-alive")) ||
isteq(list[hdr_idx].n, ist("te")) ||
isteq(list[hdr_idx].n, ist("transfer-encoding"))) {
TRACE_ERROR("forbidden HTTP/3 headers", H3_EV_RX_FRAME|H3_EV_RX_HDR, qcs->qcc->conn, qcs);
h3s->err = H3_ERR_MESSAGE_ERROR;
qcc_report_glitch(h3c->qcc, 1);
len = -1;
goto out;
}
/* RFC 9114 10.3 Intermediary-Encapsulation Attacks
*
* While most values that can be encoded will not alter field
* parsing, carriage return (ASCII 0x0d), line feed (ASCII 0x0a),
* and the null character (ASCII 0x00) might be exploited by an
* attacker if they are translated verbatim. Any request or
* response that contains a character not permitted in a field
* value MUST be treated as malformed
*/
/* look for forbidden control characters in the trailer value */
ctl = ist_find_ctl(list[hdr_idx].v);
if (unlikely(ctl) && http_header_has_forbidden_char(list[hdr_idx].v, ctl)) {
TRACE_ERROR("control character present in trailer value", H3_EV_RX_FRAME|H3_EV_RX_HDR, qcs->qcc->conn, qcs);
h3s->err = H3_ERR_MESSAGE_ERROR;
qcc_report_glitch(h3c->qcc, 1);
len = -1;
goto out;
}
if (!htx_add_trailer(htx, list[hdr_idx].n, list[hdr_idx].v)) {
TRACE_ERROR("cannot add trailer", H3_EV_RX_FRAME|H3_EV_RX_HDR, qcs->qcc->conn, qcs);
len = -1;
goto out;
}
++hdr_idx;
}
if (!htx_add_endof(htx, HTX_BLK_EOT)) {
TRACE_ERROR("cannot add trailer", H3_EV_RX_FRAME|H3_EV_RX_HDR, qcs->qcc->conn, qcs);
len = -1;
goto out;
}
if (fin)
htx->flags |= HTX_FL_EOM;
out:
/* HTX may be non NULL if error before previous htx_to_buf(). */
if (appbuf)
htx_to_buf(htx, appbuf);
TRACE_LEAVE(H3_EV_RX_FRAME|H3_EV_RX_HDR, qcs->qcc->conn, qcs);
return len;
}
/* Copy from buffer <buf> a H3 DATA frame of length <len> in QUIC stream <qcs>
* HTX buffer. <fin> must be set if this is the last data to transfer from this
* stream.
*
* Returns the number of consumed bytes or a negative error code.
*/
static ssize_t h3_data_to_htx(struct qcs *qcs, const struct buffer *buf,
uint64_t len, char fin)
{
struct buffer *appbuf;
struct htx *htx = NULL;
size_t htx_sent = 0;
int htx_space;
char *head;
TRACE_ENTER(H3_EV_RX_FRAME|H3_EV_RX_DATA, qcs->qcc->conn, qcs);
if (!(appbuf = qcc_get_stream_rxbuf(qcs))) {
TRACE_ERROR("data buffer alloc failure", H3_EV_RX_FRAME|H3_EV_RX_DATA, qcs->qcc->conn, qcs);
goto err;
}
htx = htx_from_buf(appbuf);
if (len > b_data(buf)) {
len = b_data(buf);
fin = 0;
}
head = b_head(buf);
retry:
htx_space = htx_free_data_space(htx);
if (!htx_space) {
qcs->flags |= QC_SF_DEM_FULL;
goto out;
}
if (len > htx_space) {
len = htx_space;
fin = 0;
}
if (head + len > b_wrap(buf)) {
size_t contig = b_wrap(buf) - head;
htx_sent = htx_add_data(htx, ist2(b_head(buf), contig));
if (htx_sent < contig) {
qcs->flags |= QC_SF_DEM_FULL;
goto out;
}
len -= contig;
head = b_orig(buf);
goto retry;
}
htx_sent += htx_add_data(htx, ist2(head, len));
if (htx_sent < len) {
qcs->flags |= QC_SF_DEM_FULL;
goto out;
}
if (fin && len == htx_sent)
htx->flags |= HTX_FL_EOM;
out:
if (appbuf)
htx_to_buf(htx, appbuf);
TRACE_LEAVE(H3_EV_RX_FRAME|H3_EV_RX_DATA, qcs->qcc->conn, qcs);
return htx_sent;
err:
TRACE_DEVEL("leaving on error", H3_EV_RX_FRAME|H3_EV_RX_DATA, qcs->qcc->conn, qcs);
return -1;
}
/* Parse a SETTINGS frame of length <len> of payload <buf>.
*
* Returns the number of consumed bytes or a negative error code.
*/
static ssize_t h3_parse_settings_frm(struct h3c *h3c, const struct buffer *buf,
size_t len)
{
struct buffer b;
uint64_t id, value;
size_t ret = 0;
long mask = 0; /* used to detect duplicated settings identifier */
TRACE_ENTER(H3_EV_RX_FRAME|H3_EV_RX_SETTINGS, h3c->qcc->conn);
/* Work on a copy of <buf>. */
b = b_make(b_orig(buf), b_size(buf), b_head_ofs(buf), len);
while (b_data(&b)) {
if (!b_quic_dec_int(&id, &b, &ret) || !b_quic_dec_int(&value, &b, &ret)) {
h3c->err = H3_ERR_FRAME_ERROR;
qcc_report_glitch(h3c->qcc, 1);
return -1;
}
h3_debug_printf(stderr, "%s id: %llu value: %llu\n",
__func__, (unsigned long long)id, (unsigned long long)value);
/* draft-ietf-quic-http34 7.2.4. SETTINGS
*
* The same setting identifier MUST NOT occur more than once in the
* SETTINGS frame. A receiver MAY treat the presence of duplicate
* setting identifiers as a connection error of type H3_SETTINGS_ERROR.
*/
/* Ignore duplicate check for ID too big used for GREASE. */
if (id < sizeof(mask)) {
if (ha_bit_test(id, &mask)) {
h3c->err = H3_ERR_SETTINGS_ERROR;
qcc_report_glitch(h3c->qcc, 1);
return -1;
}
ha_bit_set(id, &mask);
}
switch (id) {
case H3_SETTINGS_QPACK_MAX_TABLE_CAPACITY:
h3c->qpack_max_table_capacity = value;
break;
case H3_SETTINGS_MAX_FIELD_SECTION_SIZE:
h3c->max_field_section_size = value;
break;
case H3_SETTINGS_QPACK_BLOCKED_STREAMS:
h3c->qpack_blocked_streams = value;
break;
case H3_SETTINGS_RESERVED_0:
case H3_SETTINGS_RESERVED_2:
case H3_SETTINGS_RESERVED_3:
case H3_SETTINGS_RESERVED_4:
case H3_SETTINGS_RESERVED_5:
/* draft-ietf-quic-http34 7.2.4.1. Defined SETTINGS Parameters
*
* Setting identifiers which were defined in [HTTP2] where there is no
* corresponding HTTP/3 setting have also been reserved
* (Section 11.2.2). These reserved settings MUST NOT be sent, and
* their receipt MUST be treated as a connection error of type
* H3_SETTINGS_ERROR.
*/
h3c->err = H3_ERR_SETTINGS_ERROR;
qcc_report_glitch(h3c->qcc, 1);
return -1;
default:
/* MUST be ignored */
break;
}
}
TRACE_LEAVE(H3_EV_RX_FRAME|H3_EV_RX_SETTINGS, h3c->qcc->conn);
return ret;
}
/* Transcode HTTP/3 payload received in buffer <b> to HTX data for stream
* <qcs>. If <fin> is set, it indicates that no more data will arrive after.
*
* Returns 0 on success else non-zero.
*/
static ssize_t h3_rcv_buf(struct qcs *qcs, struct buffer *b, int fin)
{
struct h3s *h3s = qcs->ctx;
struct h3c *h3c = h3s->h3c;
ssize_t total = 0, ret = 0;
TRACE_ENTER(H3_EV_RX_FRAME, qcs->qcc->conn, qcs);
if (quic_stream_is_uni(qcs->id) && !(h3s->flags & H3_SF_UNI_INIT)) {
ret = h3_init_uni_stream(h3c, qcs, b);
if (ret < 0) {
TRACE_ERROR("cannot initialize uni stream", H3_EV_RX_FRAME, qcs->qcc->conn, qcs);
goto err;
}
else if (!ret) {
/* not enough data to initialize uni stream, retry later */
goto done;
}
total += ret;
}
if (quic_stream_is_uni(qcs->id) && (h3s->flags & H3_SF_UNI_NO_H3)) {
/* For non-h3 STREAM, parse it and return immediately. */
if ((ret = h3_parse_uni_stream_no_h3(qcs, b, fin)) < 0) {
TRACE_ERROR("error when parsing non-HTTP3 uni stream", H3_EV_RX_FRAME, qcs->qcc->conn, qcs);
goto err;
}
total += ret;
goto done;
}
/* RFC 9114 6.2.1. Control Streams
*
* The sender MUST NOT close the control stream, and the receiver MUST NOT
* request that the sender close the control stream. If either control
* stream is closed at any point, this MUST be treated as a connection
* error of type H3_CLOSED_CRITICAL_STREAM.
*/
if (h3s->type == H3S_T_CTRL && fin) {
TRACE_ERROR("control stream closed by remote peer", H3_EV_RX_FRAME, qcs->qcc->conn, qcs);
qcc_set_error(qcs->qcc, H3_ERR_CLOSED_CRITICAL_STREAM, 1);
qcc_report_glitch(qcs->qcc, 1);
goto err;
}
if (!b_data(b) && fin && quic_stream_is_bidi(qcs->id)) {
struct buffer *appbuf;
struct htx *htx;
int eom;
TRACE_PROTO("received FIN without data", H3_EV_RX_FRAME, qcs->qcc->conn, qcs);
if (!(appbuf = qcc_get_stream_rxbuf(qcs))) {
TRACE_ERROR("data buffer alloc failure", H3_EV_RX_FRAME, qcs->qcc->conn, qcs);
qcc_set_error(qcs->qcc, H3_ERR_INTERNAL_ERROR, 1);
goto err;
}
htx = htx_from_buf(appbuf);
eom = htx_set_eom(htx);
htx_to_buf(htx, appbuf);
if (!eom) {
TRACE_ERROR("cannot set EOM", H3_EV_RX_FRAME, qcs->qcc->conn, qcs);
qcc_set_error(qcs->qcc, H3_ERR_INTERNAL_ERROR, 1);
goto err;
}
goto done;
}
while (b_data(b) && !(qcs->flags & QC_SF_DEM_FULL) && ret >= 0) {
uint64_t ftype, flen;
char last_stream_frame = 0;
if (!h3s->demux_frame_len) {
/* Switch to a new frame. */
size_t hlen = h3_decode_frm_header(&ftype, &flen, b);
if (!hlen) {
TRACE_PROTO("pause parsing on incomplete frame header", H3_EV_RX_FRAME, qcs->qcc->conn, qcs);
break;
}
h3s->demux_frame_type = ftype;
h3s->demux_frame_len = flen;
total += hlen;
TRACE_PROTO("parsing a new frame", H3_EV_RX_FRAME, qcs->qcc->conn, qcs);
/* Check that content-length is not exceeded on a new DATA frame. */
if (ftype == H3_FT_DATA) {
h3s->data_len += flen;
if (h3s->flags & H3_SF_HAVE_CLEN && h3_check_body_size(qcs, (fin && flen == b_data(b))))
break;
}
if ((ret = h3_check_frame_valid(h3c, qcs, ftype))) {
TRACE_ERROR("received an invalid frame", H3_EV_RX_FRAME, qcs->qcc->conn, qcs);
qcc_set_error(qcs->qcc, ret, 1);
qcc_report_glitch(qcs->qcc, 1);
goto err;
}
if (!b_data(b))
break;
}
flen = h3s->demux_frame_len;
ftype = h3s->demux_frame_type;
/* Do not demux incomplete frames except H3 DATA which can be
* fragmented in multiple HTX blocks.
*/
if (flen > b_data(b) && ftype != H3_FT_DATA) {
/* Reject frames bigger than bufsize.
*
* TODO HEADERS should in complement be limited with H3
* SETTINGS_MAX_FIELD_SECTION_SIZE parameter to prevent
* excessive decompressed size.
*/
if (flen > QC_S_RX_BUF_SZ) {
TRACE_ERROR("received a too big frame", H3_EV_RX_FRAME, qcs->qcc->conn, qcs);
qcc_set_error(qcs->qcc, H3_ERR_EXCESSIVE_LOAD, 1);
qcc_report_glitch(qcs->qcc, 1);
goto err;
}
break;
}
last_stream_frame = (fin && flen == b_data(b));
/* Check content-length equality with DATA frames length on the last frame. */
if (last_stream_frame && h3s->flags & H3_SF_HAVE_CLEN && h3_check_body_size(qcs, last_stream_frame))
break;
h3_inc_frame_type_cnt(h3c->prx_counters, ftype);
switch (ftype) {
case H3_FT_DATA:
ret = h3_data_to_htx(qcs, b, flen, last_stream_frame);
h3s->st_req = H3S_ST_REQ_DATA;
break;
case H3_FT_HEADERS:
if (h3s->st_req == H3S_ST_REQ_BEFORE) {
ret = h3_headers_to_htx(qcs, b, flen, last_stream_frame);
h3s->st_req = H3S_ST_REQ_HEADERS;
}
else {
ret = h3_trailers_to_htx(qcs, b, flen, last_stream_frame);
h3s->st_req = H3S_ST_REQ_TRAILERS;
}
break;
case H3_FT_CANCEL_PUSH:
case H3_FT_PUSH_PROMISE:
case H3_FT_MAX_PUSH_ID:
case H3_FT_GOAWAY:
/* Not supported */
ret = flen;
break;
case H3_FT_SETTINGS:
ret = h3_parse_settings_frm(qcs->qcc->ctx, b, flen);
if (ret < 0) {
TRACE_ERROR("error on SETTINGS parsing", H3_EV_RX_FRAME, qcs->qcc->conn, qcs);
qcc_set_error(qcs->qcc, h3c->err, 1);
goto err;
}
h3c->flags |= H3_CF_SETTINGS_RECV;
break;
default:
/* draft-ietf-quic-http34 9. Extensions to HTTP/3
*
* Implementations MUST discard frames [...] that have unknown
* or unsupported types.
*/
ret = flen;
break;
}
if (ret > 0) {
BUG_ON(h3s->demux_frame_len < ret);
h3s->demux_frame_len -= ret;
b_del(b, ret);
total += ret;
}
}
/* Reset demux frame type for traces. */
if (!h3s->demux_frame_len)
h3s->demux_frame_type = H3_FT_UNINIT;
/* Interrupt decoding on stream/connection error detected. */
if (h3s->err) {
qcc_abort_stream_read(qcs);
qcc_reset_stream(qcs, h3s->err);
return b_data(b);
}
else if (h3c->err) {
qcc_set_error(qcs->qcc, h3c->err, 1);
return b_data(b);
}
else if (unlikely(ret < 0)) {
qcc_set_error(qcs->qcc, H3_ERR_INTERNAL_ERROR, 1);
goto err;
}
/* TODO may be useful to wakeup the MUX if blocked due to full buffer.
* However, currently, io-cb of MUX does not handle Rx.
*/
done:
TRACE_LEAVE(H3_EV_RX_FRAME, qcs->qcc->conn, qcs);
return total;
err:
TRACE_DEVEL("leaving on error", H3_EV_RX_FRAME, qcs->qcc->conn, qcs);
return -1;
}
/* Function used to emit stream data from <qcs> control uni-stream.
*
* On success return the number of sent bytes. A negative code is used on
* error.
*/
static int h3_control_send(struct qcs *qcs, void *ctx)
{
int err;
int ret;
struct h3c *h3c = ctx;
unsigned char data[(2 + 3) * 2 * QUIC_VARINT_MAX_SIZE]; /* enough for 3 settings */
struct buffer pos, *res;
size_t frm_len;
TRACE_ENTER(H3_EV_TX_FRAME|H3_EV_TX_SETTINGS, qcs->qcc->conn, qcs);
BUG_ON_HOT(h3c->flags & H3_CF_SETTINGS_SENT);
ret = 0;
pos = b_make((char *)data, sizeof(data), 0, 0);
frm_len = quic_int_getsize(H3_SETTINGS_QPACK_MAX_TABLE_CAPACITY) +
quic_int_getsize(h3_settings_qpack_max_table_capacity) +
quic_int_getsize(H3_SETTINGS_QPACK_BLOCKED_STREAMS) +
quic_int_getsize(h3_settings_qpack_blocked_streams);
if (h3_settings_max_field_section_size) {
frm_len += quic_int_getsize(H3_SETTINGS_MAX_FIELD_SECTION_SIZE) +
quic_int_getsize(h3_settings_max_field_section_size);
}
b_quic_enc_int(&pos, H3_UNI_S_T_CTRL, 0);
/* Build a SETTINGS frame */
b_quic_enc_int(&pos, H3_FT_SETTINGS, 0);
b_quic_enc_int(&pos, frm_len, 0);
b_quic_enc_int(&pos, H3_SETTINGS_QPACK_MAX_TABLE_CAPACITY, 0);
b_quic_enc_int(&pos, h3_settings_qpack_max_table_capacity, 0);
b_quic_enc_int(&pos, H3_SETTINGS_QPACK_BLOCKED_STREAMS, 0);
b_quic_enc_int(&pos, h3_settings_qpack_blocked_streams, 0);
if (h3_settings_max_field_section_size) {
b_quic_enc_int(&pos, H3_SETTINGS_MAX_FIELD_SECTION_SIZE, 0);
b_quic_enc_int(&pos, h3_settings_max_field_section_size, 0);
}
if (qfctl_sblocked(&qcs->tx.fc) || qfctl_sblocked(&qcs->qcc->tx.fc)) {
TRACE_ERROR("not enough initial credit for control stream", H3_EV_TX_FRAME|H3_EV_TX_SETTINGS, qcs->qcc->conn, qcs);
goto err;
}
if (!(res = qcc_get_stream_txbuf(qcs, &err))) {
/* Consider alloc failure fatal for control stream even on conn buf limit. */
TRACE_ERROR("cannot allocate Tx buffer", H3_EV_TX_FRAME|H3_EV_TX_SETTINGS, qcs->qcc->conn, qcs);
goto err;
}
if (b_room(res) < b_data(&pos)) {
// TODO the mux should be put in blocked state, with
// the stream in state waiting for settings to be sent
ABORT_NOW();
}
ret = b_force_xfer(res, &pos, b_data(&pos));
if (ret > 0) {
/* Register qcs for sending before other streams. */
qcc_send_stream(qcs, 1, ret);
h3c->flags |= H3_CF_SETTINGS_SENT;
}
TRACE_LEAVE(H3_EV_TX_FRAME|H3_EV_TX_SETTINGS, qcs->qcc->conn, qcs);
return ret;
err:
TRACE_DEVEL("leaving on error", H3_EV_TX_FRAME|H3_EV_TX_SETTINGS, qcs->qcc->conn, qcs);
return -1;
}
static int h3_resp_headers_send(struct qcs *qcs, struct htx *htx)
{
int err;
struct buffer outbuf;
struct buffer headers_buf = BUF_NULL;
struct buffer *res;
struct http_hdr list[global.tune.max_http_hdr];
struct htx_sl *sl;
struct htx_blk *blk;
enum htx_blk_type type;
int frame_length_size; /* size in bytes of frame length varint field */
int ret = 0;
int hdr;
int status = 0;
TRACE_ENTER(H3_EV_TX_FRAME|H3_EV_TX_HDR, qcs->qcc->conn, qcs);
sl = NULL;
hdr = 0;
for (blk = htx_get_head_blk(htx); blk; blk = htx_get_next_blk(htx, blk)) {
type = htx_get_blk_type(blk);
if (type == HTX_BLK_UNUSED)
continue;
if (type == HTX_BLK_EOH)
break;
if (type == HTX_BLK_RES_SL) {
/* start-line -> HEADERS h3 frame */
BUG_ON(sl);
sl = htx_get_blk_ptr(htx, blk);
/* TODO should be on h3 layer */
status = sl->info.res.status;
}
else if (type == HTX_BLK_HDR) {
if (unlikely(hdr >= sizeof(list) / sizeof(list[0]) - 1)) {
TRACE_ERROR("too many headers", H3_EV_TX_FRAME|H3_EV_TX_HDR, qcs->qcc->conn, qcs);
goto err;
}
list[hdr].n = htx_get_blk_name(htx, blk);
list[hdr].v = htx_get_blk_value(htx, blk);
hdr++;
}
else {
ABORT_NOW();
goto err;
}
}
BUG_ON(!sl);
list[hdr].n = ist("");
if (!(res = qcc_get_stream_txbuf(qcs, &err))) {
if (err) {
TRACE_ERROR("cannot allocate Tx buffer", H3_EV_TX_FRAME|H3_EV_TX_HDR, qcs->qcc->conn, qcs);
goto err;
}
TRACE_STATE("conn buf limit reached", H3_EV_TX_FRAME|H3_EV_TX_HDR, qcs->qcc->conn, qcs);
goto end;
}
/* At least 5 bytes to store frame type + length as a varint max size */
if (b_room(res) < 5)
ABORT_NOW();
b_reset(&outbuf);
outbuf = b_make(b_tail(res), b_contig_space(res), 0, 0);
/* Start the headers after frame type + length */
headers_buf = b_make(b_head(res) + 5, b_size(res) - 5, 0, 0);
TRACE_DATA("encoding HEADERS frame", H3_EV_TX_FRAME|H3_EV_TX_HDR,
qcs->qcc->conn, qcs);
if (qpack_encode_field_section_line(&headers_buf))
ABORT_NOW();
if (qpack_encode_int_status(&headers_buf, status)) {
TRACE_ERROR("invalid status code", H3_EV_TX_FRAME|H3_EV_TX_HDR, qcs->qcc->conn, qcs);
goto err;
}
for (hdr = 0; hdr < sizeof(list) / sizeof(list[0]); ++hdr) {
if (isteq(list[hdr].n, ist("")))
break;
/* RFC 9114 4.2. HTTP Fields
*
* An intermediary transforming an HTTP/1.x message to HTTP/3
* MUST remove connection-specific header fields as discussed in
* Section 7.6.1 of [HTTP], or their messages will be treated by
* other HTTP/3 endpoints as malformed.
*/
if (isteq(list[hdr].n, ist("connection")) ||
isteq(list[hdr].n, ist("proxy-connection")) ||
isteq(list[hdr].n, ist("keep-alive")) ||
isteq(list[hdr].n, ist("transfer-encoding"))) {
continue;
}
else if (isteq(list[hdr].n, ist("te"))) {
/* "te" may only be sent with "trailers" if this value
* is present, otherwise it must be deleted.
*/
const struct ist v = istist(list[hdr].v, ist("trailers"));
if (!isttest(v) || (v.len > 8 && v.ptr[8] != ','))
continue;
list[hdr].v = ist("trailers");
}
if (qpack_encode_header(&headers_buf, list[hdr].n, list[hdr].v))
ABORT_NOW();
}
/* Now that all headers are encoded, we are certain that res buffer is
* big enough
*/
frame_length_size = quic_int_getsize(b_data(&headers_buf));
res->head += 4 - frame_length_size;
b_putchr(res, 0x01); /* h3 HEADERS frame type */
if (!b_quic_enc_int(res, b_data(&headers_buf), 0))
ABORT_NOW();
b_add(res, b_data(&headers_buf));
ret = 0;
blk = htx_get_head_blk(htx);
while (blk) {
type = htx_get_blk_type(blk);
ret += htx_get_blksz(blk);
blk = htx_remove_blk(htx, blk);
if (type == HTX_BLK_EOH)
break;
}
end:
TRACE_LEAVE(H3_EV_TX_FRAME|H3_EV_TX_HDR, qcs->qcc->conn, qcs);
return ret;
err:
TRACE_DEVEL("leaving on error", H3_EV_TX_FRAME|H3_EV_TX_HDR, qcs->qcc->conn, qcs);
return -1;
}
/* Convert a series of HTX trailer blocks from <htx> buffer into <qcs> buffer
* as a H3 HEADERS frame. H3 forbidden trailers are skipped. HTX trailer blocks
* are removed from <htx> until EOT is found and itself removed.
*
* If only a EOT HTX block is present without trailer, no H3 frame is produced.
* Caller is responsible to emit an empty QUIC STREAM frame to signal the end
* of the stream.
*
* Returns the size of HTX blocks removed. A negative error code is returned in
* case of a fatal error which should caused a connection closure.
*/
static int h3_resp_trailers_send(struct qcs *qcs, struct htx *htx)
{
int err;
struct buffer headers_buf = BUF_NULL;
struct buffer *res;
struct http_hdr list[global.tune.max_http_hdr];
struct htx_blk *blk;
enum htx_blk_type type;
char *tail;
int ret = 0;
int hdr;
TRACE_ENTER(H3_EV_TX_FRAME|H3_EV_TX_HDR, qcs->qcc->conn, qcs);
hdr = 0;
for (blk = htx_get_head_blk(htx); blk; blk = htx_get_next_blk(htx, blk)) {
type = htx_get_blk_type(blk);
if (type == HTX_BLK_UNUSED)
continue;
if (type == HTX_BLK_EOT)
break;
if (type == HTX_BLK_TLR) {
if (unlikely(hdr >= sizeof(list) / sizeof(list[0]) - 1)) {
TRACE_ERROR("too many headers", H3_EV_TX_FRAME|H3_EV_TX_HDR, qcs->qcc->conn, qcs);
goto err;
}
list[hdr].n = htx_get_blk_name(htx, blk);
list[hdr].v = htx_get_blk_value(htx, blk);
hdr++;
}
else {
TRACE_ERROR("unexpected HTX block", H3_EV_TX_FRAME|H3_EV_TX_HDR, qcs->qcc->conn, qcs);
goto err;
}
}
if (!hdr) {
/* No headers encoded here so no need to generate a H3 HEADERS
* frame. Mux will send an empty QUIC STREAM frame with FIN.
*/
TRACE_DATA("skipping trailer", H3_EV_TX_FRAME|H3_EV_TX_HDR, qcs->qcc->conn, qcs);
/* Truncate UNUSED / EOT HTX blocks. */
blk = htx_get_head_blk(htx);
while (blk) {
type = htx_get_blk_type(blk);
ret += htx_get_blksz(blk);
blk = htx_remove_blk(htx, blk);
if (type == HTX_BLK_EOT)
break;
}
goto end;
}
list[hdr].n = ist("");
start:
if (!(res = qcc_get_stream_txbuf(qcs, &err))) {
if (err) {
TRACE_ERROR("cannot allocate Tx buffer", H3_EV_TX_FRAME|H3_EV_TX_HDR, qcs->qcc->conn, qcs);
goto err;
}
TRACE_STATE("conn buf limit reached", H3_EV_TX_FRAME|H3_EV_TX_HDR, qcs->qcc->conn, qcs);
goto end;
}
/* At least 9 bytes to store frame type + length as a varint max size */
if (b_room(res) < 9) {
TRACE_STATE("not enough room for trailers frame", H3_EV_TX_FRAME|H3_EV_TX_HDR, qcs->qcc->conn, qcs);
if (qcc_release_stream_txbuf(qcs))
goto end;
/* Buffer released, restart processing. */
goto start;
}
/* Force buffer realignment as size required to encode headers is unknown. */
if (b_space_wraps(res))
b_slow_realign(res, trash.area, b_data(res));
/* Start the headers after frame type + length */
headers_buf = b_make(b_peek(res, b_data(res) + 9), b_contig_space(res) - 9, 0, 0);
if (qpack_encode_field_section_line(&headers_buf)) {
TRACE_STATE("not enough room for trailers section line", H3_EV_TX_FRAME|H3_EV_TX_HDR, qcs->qcc->conn, qcs);
if (qcc_release_stream_txbuf(qcs))
goto end;
/* Buffer released, restart processing. */
goto start;
}
tail = b_tail(&headers_buf);
for (hdr = 0; hdr < sizeof(list) / sizeof(list[0]); ++hdr) {
if (isteq(list[hdr].n, ist("")))
break;
/* forbidden HTTP/3 headers, cf h3_resp_headers_send() */
if (isteq(list[hdr].n, ist("host")) ||
isteq(list[hdr].n, ist("content-length")) ||
isteq(list[hdr].n, ist("connection")) ||
isteq(list[hdr].n, ist("proxy-connection")) ||
isteq(list[hdr].n, ist("keep-alive")) ||
isteq(list[hdr].n, ist("te")) ||
isteq(list[hdr].n, ist("transfer-encoding"))) {
continue;
}
if (qpack_encode_header(&headers_buf, list[hdr].n, list[hdr].v)) {
TRACE_STATE("not enough room for all trailers", H3_EV_TX_FRAME|H3_EV_TX_HDR, qcs->qcc->conn, qcs);
if (qcc_release_stream_txbuf(qcs))
goto end;
/* Buffer released, restart processing. */
goto start;
}
}
/* Check that at least one header was encoded in buffer. */
if (b_tail(&headers_buf) == tail) {
/* No headers encoded here so no need to generate a H3 HEADERS
* frame. Mux will send an empty QUIC STREAM frame with FIN.
*/
TRACE_DATA("skipping trailer", H3_EV_TX_FRAME|H3_EV_TX_HDR, qcs->qcc->conn, qcs);
}
else {
/* Now that all headers are encoded, we are certain that res
* buffer is big enough.
*/
TRACE_DATA("encoding TRAILERS frame", H3_EV_TX_FRAME|H3_EV_TX_HDR,
qcs->qcc->conn, qcs);
b_putchr(res, 0x01); /* h3 HEADERS frame type */
if (!b_quic_enc_int(res, b_data(&headers_buf), 8))
ABORT_NOW();
b_add(res, b_data(&headers_buf));
}
/* Encoding success, truncate HTX blocks until EOT. */
blk = htx_get_head_blk(htx);
while (blk) {
type = htx_get_blk_type(blk);
ret += htx_get_blksz(blk);
blk = htx_remove_blk(htx, blk);
if (type == HTX_BLK_EOT)
break;
}
end:
TRACE_LEAVE(H3_EV_TX_FRAME|H3_EV_TX_HDR, qcs->qcc->conn, qcs);
return ret;
err:
TRACE_DEVEL("leaving on error", H3_EV_TX_FRAME|H3_EV_TX_HDR, qcs->qcc->conn, qcs);
return -1;
}
/* Convert a series of HTX data blocks from <htx> buffer of size <count> into
* HTTP/3 frames encoded into <qcs> Tx buffer. The caller must also specify the
* underlying HTX area via <buf> as this will be used if zero-copy can be
* performed.
*
* Returns the total bytes of encoded HTTP/3 payload. This corresponds to the
* total bytes of HTX block removed. A negative error code is returned in case
* of a fatal error which should caused a connection closure.
*/
static int h3_resp_data_send(struct qcs *qcs, struct htx *htx,
struct buffer *buf, size_t count)
{
int err;
struct buffer outbuf;
struct buffer *res;
size_t total = 0;
int bsize, fsize, hsize;
struct htx_blk *blk;
enum htx_blk_type type;
TRACE_ENTER(H3_EV_TX_FRAME|H3_EV_TX_DATA, qcs->qcc->conn, qcs);
new_frame:
if (!count || htx_is_empty(htx))
goto end;
blk = htx_get_head_blk(htx);
type = htx_get_blk_type(blk);
fsize = bsize = htx_get_blksz(blk);
/* h3 DATA headers : 1-byte frame type + varint frame length */
hsize = 1 + QUIC_VARINT_MAX_SIZE;
if (type != HTX_BLK_DATA)
goto end;
if (!(res = qcc_get_stream_txbuf(qcs, &err))) {
if (err) {
TRACE_ERROR("cannot allocate Tx buffer", H3_EV_TX_FRAME|H3_EV_TX_DATA, qcs->qcc->conn, qcs);
goto err;
}
/* Connection buf limit reached, stconn will subscribe on SEND. */
TRACE_STATE("conn buf limit reached", H3_EV_TX_FRAME|H3_EV_TX_HDR, qcs->qcc->conn, qcs);
goto end;
}
/* If HTX contains only one DATA block, try to exchange it with MUX
* buffer to perform zero-copy. This is only achievable if MUX buffer
* is currently empty.
*/
if (unlikely(fsize == count &&
!b_data(res) &&
htx_nbblks(htx) == 1 && type == HTX_BLK_DATA)) {
void *old_area = res->area;
TRACE_DATA("perform zero-copy DATA transfer",
H3_EV_TX_FRAME|H3_EV_TX_DATA, qcs->qcc->conn, qcs);
/* remap MUX buffer to HTX area, keep an offset for H3 header. */
*res = b_make(buf->area, buf->size,
sizeof(struct htx) + blk->addr - hsize, 0);
/* write H3 header frame before old HTX block. */
b_putchr(res, 0x00); /* h3 frame type = DATA */
b_quic_enc_int(res, fsize, QUIC_VARINT_MAX_SIZE); /* h3 frame length */
b_add(res, fsize);
/* assign old MUX area to HTX buffer. */
buf->area = old_area;
buf->data = buf->head = 0;
total += fsize;
goto end;
}
if (fsize > count)
fsize = count;
while (1) {
b_reset(&outbuf);
outbuf = b_make(b_tail(res), b_contig_space(res), 0, 0);
if (b_size(&outbuf) > hsize || !b_space_wraps(res))
break;
if (qcc_realign_stream_txbuf(qcs, res))
break;
}
/* Not enough room for headers and at least one data byte, try to
* release the current buffer and allocate a new one. If not possible,
* stconn layer will subscribe on SEND.
*/
if (b_size(&outbuf) <= hsize) {
TRACE_STATE("not enough room for data frame", H3_EV_TX_FRAME|H3_EV_TX_DATA, qcs->qcc->conn, qcs);
if (qcc_release_stream_txbuf(qcs))
goto end;
/* Buffer released, restart processing. */
goto new_frame;
}
if (b_size(&outbuf) < hsize + fsize)
fsize = b_size(&outbuf) - hsize;
BUG_ON(fsize <= 0);
TRACE_DATA("encoding DATA frame", H3_EV_TX_FRAME|H3_EV_TX_DATA,
qcs->qcc->conn, qcs);
b_putchr(&outbuf, 0x00); /* h3 frame type = DATA */
b_quic_enc_int(&outbuf, fsize, 0); /* h3 frame length */
b_putblk(&outbuf, htx_get_blk_ptr(htx, blk), fsize);
total += fsize;
count -= fsize;
if (fsize == bsize)
htx_remove_blk(htx, blk);
else
htx_cut_data_blk(htx, blk, fsize);
/* commit the buffer */
b_add(res, b_data(&outbuf));
goto new_frame;
end:
TRACE_LEAVE(H3_EV_TX_FRAME|H3_EV_TX_DATA, qcs->qcc->conn, qcs);
return total;
err:
BUG_ON(total); /* Must return HTX removed size if at least on frame encoded. */
TRACE_DEVEL("leaving on error", H3_EV_TX_FRAME|H3_EV_TX_DATA, qcs->qcc->conn, qcs);
return -1;
}
static size_t h3_snd_buf(struct qcs *qcs, struct buffer *buf, size_t count)
{
size_t total = 0;
enum htx_blk_type btype;
struct htx *htx;
struct htx_blk *blk;
uint32_t bsize;
int32_t idx;
int ret = 0;
TRACE_ENTER(H3_EV_STRM_SEND, qcs->qcc->conn, qcs);
htx = htx_from_buf(buf);
while (count && !htx_is_empty(htx) && qcc_stream_can_send(qcs) && ret >= 0) {
idx = htx_get_head(htx);
blk = htx_get_blk(htx, idx);
btype = htx_get_blk_type(blk);
bsize = htx_get_blksz(blk);
/* Not implemented : QUIC on backend side */
BUG_ON(btype == HTX_BLK_REQ_SL);
switch (btype) {
case HTX_BLK_RES_SL:
/* start-line -> HEADERS h3 frame */
ret = h3_resp_headers_send(qcs, htx);
if (ret > 0) {
total += ret;
count -= ret;
if (ret < bsize)
goto out;
}
break;
case HTX_BLK_DATA:
ret = h3_resp_data_send(qcs, htx, buf, count);
if (ret > 0) {
/* Reload HTX. This is necessary if 0-copy was performed. */
htx = htx_from_buf(buf);
total += ret;
count -= ret;
if (ret < bsize)
goto out;
}
break;
case HTX_BLK_TLR:
case HTX_BLK_EOT:
ret = h3_resp_trailers_send(qcs, htx);
if (ret > 0) {
total += ret;
count -= ret;
if (ret < bsize)
goto out;
}
break;
default:
htx_remove_blk(htx, blk);
total += bsize;
count -= bsize;
break;
}
}
/* Interrupt sending on fatal error. */
if (unlikely(ret < 0)) {
qcc_set_error(qcs->qcc, H3_ERR_INTERNAL_ERROR, 1);
goto out;
}
/* RFC 9114 4.1. HTTP Message Framing
*
* A server can send a complete response prior to the client sending an
* entire request if the response does not depend on any portion of the
* request that has not been sent and received. When the server does not
* need to receive the remainder of the request, it MAY abort reading
* the request stream, send a complete response, and cleanly close the
* sending part of the stream. The error code H3_NO_ERROR SHOULD be used
* when requesting that the client stop sending on the request stream.
* Clients MUST NOT discard complete responses as a result of having
* their request terminated abruptly, though clients can always discard
* responses at their discretion for other reasons. If the server sends
* a partial or complete response but does not abort reading the
* request, clients SHOULD continue sending the content of the request
* and close the stream normally.
*/
if (unlikely((htx->flags & HTX_FL_EOM) && htx_is_empty(htx)) &&
!qcs_is_close_remote(qcs)) {
/* Generate a STOP_SENDING if full response transferred before
* receiving the full request.
*/
qcs->err = H3_ERR_NO_ERROR;
qcc_abort_stream_read(qcs);
}
out:
htx_to_buf(htx, buf);
TRACE_LEAVE(H3_EV_STRM_SEND, qcs->qcc->conn, qcs);
return total;
}
static size_t h3_nego_ff(struct qcs *qcs, size_t count)
{
int err;
struct buffer *res;
int hsize;
size_t sz, ret = 0;
TRACE_ENTER(H3_EV_STRM_SEND, qcs->qcc->conn, qcs);
start:
if (!(res = qcc_get_stream_txbuf(qcs, &err))) {
if (err) {
qcs->sd->iobuf.flags |= IOBUF_FL_NO_FF;
goto end;
}
qcs->sd->iobuf.flags |= IOBUF_FL_FF_BLOCKED;
goto end;
}
/* h3 DATA headers : 1-byte frame type + varint frame length */
hsize = 1 + QUIC_VARINT_MAX_SIZE;
while (1) {
if (b_contig_space(res) >= hsize || !b_space_wraps(res))
break;
if (qcc_realign_stream_txbuf(qcs, res))
break;
}
/* Not enough room for headers and at least one data byte, block the
* stream. It is expected that the stream connector layer will subscribe
* on SEND.
*/
if (b_contig_space(res) <= hsize) {
if (qcc_release_stream_txbuf(qcs)) {
qcs->sd->iobuf.flags |= IOBUF_FL_FF_BLOCKED;
goto end;
}
/* Buffer released, restart processing. */
goto start;
}
/* Cannot forward more than available room in output buffer */
sz = b_contig_space(res) - hsize;
if (count > sz)
count = sz;
qcs->sd->iobuf.buf = res;
qcs->sd->iobuf.offset = hsize;
qcs->sd->iobuf.data = 0;
ret = count;
end:
TRACE_LEAVE(H3_EV_STRM_SEND, qcs->qcc->conn, qcs);
return ret;
}
static size_t h3_done_ff(struct qcs *qcs)
{
size_t total = qcs->sd->iobuf.data;
TRACE_ENTER(H3_EV_STRM_SEND, qcs->qcc->conn, qcs);
h3_debug_printf(stderr, "%s\n", __func__);
if (qcs->sd->iobuf.data) {
TRACE_DATA("encoding DATA frame (fast forward)",
H3_EV_TX_FRAME|H3_EV_TX_DATA, qcs->qcc->conn, qcs);
b_sub(qcs->sd->iobuf.buf, qcs->sd->iobuf.data);
b_putchr(qcs->sd->iobuf.buf, 0x00); /* h3 frame type = DATA */
b_quic_enc_int(qcs->sd->iobuf.buf, qcs->sd->iobuf.data, QUIC_VARINT_MAX_SIZE); /* h3 frame length */
b_add(qcs->sd->iobuf.buf, qcs->sd->iobuf.data);
}
qcs->sd->iobuf.buf = NULL;
qcs->sd->iobuf.offset = 0;
qcs->sd->iobuf.data = 0;
TRACE_LEAVE(H3_EV_STRM_SEND, qcs->qcc->conn, qcs);
return total;
}
/* Notify about a closure on <qcs> stream requested by the remote peer.
*
* Stream channel <side> is explained relative to our endpoint : WR for
* STOP_SENDING or RD for RESET_STREAM reception. Callback decode_qcs() is used
* instead for closure performed using a STREAM frame with FIN bit.
*
* The main objective of this function is to check if closure is valid
* according to HTTP/3 specification.
*
* Returns 0 on success else non-zero. A CONNECTION_CLOSE is generated on
* error.
*/
static int h3_close(struct qcs *qcs, enum qcc_app_ops_close_side side)
{
struct h3s *h3s = qcs->ctx;
struct h3c *h3c = h3s->h3c;;
/* RFC 9114 6.2.1. Control Streams
*
* The sender
* MUST NOT close the control stream, and the receiver MUST NOT
* request that the sender close the control stream. If either
* control stream is closed at any point, this MUST be treated
* as a connection error of type H3_CLOSED_CRITICAL_STREAM.
*/
if (qcs == h3c->ctrl_strm || h3s->type == H3S_T_CTRL) {
TRACE_ERROR("closure detected on control stream", H3_EV_H3S_END, qcs->qcc->conn, qcs);
qcc_set_error(qcs->qcc, H3_ERR_CLOSED_CRITICAL_STREAM, 1);
qcc_report_glitch(qcs->qcc, 1);
return 1;
}
return 0;
}
static int h3_attach(struct qcs *qcs, void *conn_ctx)
{
struct h3c *h3c = conn_ctx;
struct h3s *h3s = NULL;
TRACE_ENTER(H3_EV_H3S_NEW, qcs->qcc->conn, qcs);
/* RFC 9114 5.2. Connection Shutdown
*
* Upon sending
* a GOAWAY frame, the endpoint SHOULD explicitly cancel (see
* Sections 4.1.1 and 7.2.3) any requests or pushes that have
* identifiers greater than or equal to the one indicated, in
* order to clean up transport state for the affected streams.
* The endpoint SHOULD continue to do so as more requests or
* pushes arrive.
*/
if (h3c->flags & H3_CF_GOAWAY_SENT && qcs->id >= h3c->id_goaway &&
quic_stream_is_bidi(qcs->id)) {
/* Reject request and do not allocate a h3s context.
* TODO support push uni-stream rejection.
*/
TRACE_STATE("reject stream higher than goaway", H3_EV_H3S_NEW, qcs->qcc->conn, qcs);
qcc_abort_stream_read(qcs);
qcc_reset_stream(qcs, H3_ERR_REQUEST_REJECTED);
goto done;
}
h3s = pool_alloc(pool_head_h3s);
if (!h3s) {
TRACE_ERROR("h3s allocation failure", H3_EV_H3S_NEW, qcs->qcc->conn, qcs);
goto err;
}
qcs->ctx = h3s;
h3s->h3c = conn_ctx;
h3s->demux_frame_len = 0;
h3s->demux_frame_type = H3_FT_UNINIT;
h3s->body_len = 0;
h3s->data_len = 0;
h3s->flags = 0;
h3s->err = 0;
if (quic_stream_is_bidi(qcs->id)) {
h3s->type = H3S_T_REQ;
h3s->st_req = H3S_ST_REQ_BEFORE;
qcs_wait_http_req(qcs);
}
else {
/* stream type must be decoded for unidirectional streams */
h3s->type = H3S_T_UNKNOWN;
}
done:
TRACE_LEAVE(H3_EV_H3S_NEW, qcs->qcc->conn, qcs);
return 0;
err:
TRACE_DEVEL("leaving in error", H3_EV_H3S_NEW, qcs->qcc->conn, qcs);
return 1;
}
static void h3_detach(struct qcs *qcs)
{
struct h3s *h3s = qcs->ctx;
TRACE_ENTER(H3_EV_H3S_END, qcs->qcc->conn, qcs);
pool_free(pool_head_h3s, h3s);
qcs->ctx = NULL;
TRACE_LEAVE(H3_EV_H3S_END, qcs->qcc->conn, qcs);
}
/* Generate a GOAWAY frame for <h3c> connection on the control stream.
*
* Returns 0 on success else non-zero.
*/
static int h3_send_goaway(struct h3c *h3c)
{
int err;
struct qcs *qcs = h3c->ctrl_strm;
struct buffer pos, *res;
unsigned char data[3 * QUIC_VARINT_MAX_SIZE];
size_t frm_len = quic_int_getsize(h3c->id_goaway);
size_t xfer;
TRACE_ENTER(H3_EV_H3C_END, h3c->qcc->conn);
if (!qcs) {
TRACE_ERROR("control stream not initialized", H3_EV_H3C_END, h3c->qcc->conn);
goto err;
}
pos = b_make((char *)data, sizeof(data), 0, 0);
b_quic_enc_int(&pos, H3_FT_GOAWAY, 0);
b_quic_enc_int(&pos, frm_len, 0);
b_quic_enc_int(&pos, h3c->id_goaway, 0);
res = qcc_get_stream_txbuf(qcs, &err);
if (!res || b_room(res) < b_data(&pos) ||
qfctl_sblocked(&qcs->tx.fc) || qfctl_sblocked(&h3c->qcc->tx.fc)) {
/* Do not try forcefully to emit GOAWAY if no buffer available or not enough space left. */
TRACE_ERROR("cannot send GOAWAY", H3_EV_H3C_END, h3c->qcc->conn, qcs);
goto err;
}
xfer = b_force_xfer(res, &pos, b_data(&pos));
qcc_send_stream(qcs, 1, xfer);
h3c->flags |= H3_CF_GOAWAY_SENT;
TRACE_LEAVE(H3_EV_H3C_END, h3c->qcc->conn);
return 0;
err:
/* Consider GOAWAY as sent even if not really the case. This will
* block future stream opening using H3_REQUEST_REJECTED reset.
*/
h3c->flags |= H3_CF_GOAWAY_SENT;
TRACE_DEVEL("leaving in error", H3_EV_H3C_END, h3c->qcc->conn);
return 1;
}
/* Initialize the HTTP/3 context for <qcc> mux.
* Return 1 if succeeded, 0 if not.
*/
static int h3_init(struct qcc *qcc)
{
struct h3c *h3c;
const struct listener *li = __objt_listener(qcc->conn->target);
TRACE_ENTER(H3_EV_H3C_NEW, qcc->conn);
h3c = pool_alloc(pool_head_h3c);
if (!h3c) {
TRACE_ERROR("cannot allocate h3c", H3_EV_H3C_NEW, qcc->conn);
goto fail_no_h3;
}
h3c->qcc = qcc;
h3c->ctrl_strm = NULL;
h3c->err = 0;
h3c->flags = 0;
h3c->id_goaway = 0;
qcc->ctx = h3c;
h3c->prx_counters =
EXTRA_COUNTERS_GET(li->bind_conf->frontend->extra_counters_fe,
&h3_stats_module);
LIST_INIT(&h3c->buf_wait.list);
TRACE_LEAVE(H3_EV_H3C_NEW, qcc->conn);
return 1;
fail_no_h3:
qcc_set_error(qcc, H3_ERR_INTERNAL_ERROR, 1);
TRACE_DEVEL("leaving on error", H3_EV_H3C_NEW, qcc->conn);
return 0;
}
/* Initialize H3 control stream and prepare SETTINGS emission.
*
* Returns 0 on success else non-zero.
*/
static int h3_finalize(void *ctx)
{
struct h3c *h3c = ctx;
struct qcc *qcc = h3c->qcc;
struct qcs *qcs;
TRACE_ENTER(H3_EV_H3C_NEW, qcc->conn);
qcs = qcc_init_stream_local(qcc, 0);
if (!qcs) {
TRACE_ERROR("cannot init control stream", H3_EV_H3C_NEW, qcc->conn);
goto err;
}
h3c->ctrl_strm = qcs;
if (h3_control_send(qcs, h3c) < 0)
goto err;
TRACE_LEAVE(H3_EV_H3C_NEW, qcc->conn);
return 0;
err:
qcc_set_error(qcc, H3_ERR_INTERNAL_ERROR, 1);
TRACE_DEVEL("leaving on error", H3_EV_H3C_NEW, qcc->conn);
return 1;
}
/* Send a HTTP/3 GOAWAY followed by a CONNECTION_CLOSE_APP. */
static void h3_shutdown(void *ctx)
{
struct h3c *h3c = ctx;
TRACE_ENTER(H3_EV_H3C_END, h3c->qcc->conn);
/* RFC 9114 5.2. Connection Shutdown
*
* Even when a connection is not idle, either endpoint can decide to
* stop using the connection and initiate a graceful connection close.
* Endpoints initiate the graceful shutdown of an HTTP/3 connection by
* sending a GOAWAY frame.
*/
h3_send_goaway(h3c);
/* RFC 9114 5.2. Connection Shutdown
*
* An endpoint that completes a
* graceful shutdown SHOULD use the H3_NO_ERROR error code when closing
* the connection.
*/
h3c->qcc->err = quic_err_app(H3_ERR_NO_ERROR);
TRACE_LEAVE(H3_EV_H3C_END, h3c->qcc->conn);
}
static void h3_release(void *ctx)
{
struct h3c *h3c = ctx;
pool_free(pool_head_h3c, h3c);
}
/* Increment the h3 error code counters for <error_code> value */
static void h3_stats_inc_err_cnt(void *ctx, int err_code)
{
struct h3c *h3c = ctx;
h3_inc_err_cnt(h3c->prx_counters, err_code);
}
static void h3_report_susp(void *ctx)
{
struct h3c *h3c = ctx;
h3c->qcc->err = quic_err_app(H3_ERR_EXCESSIVE_LOAD);
}
static inline const char *h3_ft_str(uint64_t type)
{
switch (type) {
case H3_FT_DATA: return "DATA";
case H3_FT_HEADERS: return "HEADERS";
case H3_FT_SETTINGS: return "SETTINGS";
case H3_FT_PUSH_PROMISE: return "PUSH_PROMISE";
case H3_FT_MAX_PUSH_ID: return "MAX_PUSH_ID";
case H3_FT_CANCEL_PUSH: return "CANCEL_PUSH";
case H3_FT_GOAWAY: return "GOAWAY";
default: return "_UNKNOWN_";
}
}
/* h3 trace handler */
static void h3_trace(enum trace_level level, uint64_t mask,
const struct trace_source *src,
const struct ist where, const struct ist func,
const void *a1, const void *a2, const void *a3, const void *a4)
{
const struct connection *conn = a1;
const struct qcc *qcc = conn ? conn->ctx : NULL;
const struct qcs *qcs = a2;
const struct h3s *h3s = qcs ? qcs->ctx : NULL;
if (!qcc)
return;
if (src->verbosity > H3_VERB_CLEAN) {
chunk_appendf(&trace_buf, " : qcc=%p(F)", qcc);
if (qcc->conn->handle.qc)
chunk_appendf(&trace_buf, " qc=%p", qcc->conn->handle.qc);
if (qcs)
chunk_appendf(&trace_buf, " qcs=%p(%llu)", qcs, (ull)qcs->id);
if (h3s && h3s->demux_frame_type != H3_FT_UNINIT) {
chunk_appendf(&trace_buf, " h3s.dem=%s/%llu",
h3_ft_str(h3s->demux_frame_type), (ull)h3s->demux_frame_len);
}
}
}
/* HTTP/3 application layer operations */
const struct qcc_app_ops h3_ops = {
.init = h3_init,
.finalize = h3_finalize,
.attach = h3_attach,
.rcv_buf = h3_rcv_buf,
.snd_buf = h3_snd_buf,
.nego_ff = h3_nego_ff,
.done_ff = h3_done_ff,
.close = h3_close,
.detach = h3_detach,
.shutdown = h3_shutdown,
.inc_err_cnt = h3_stats_inc_err_cnt,
.report_susp = h3_report_susp,
.release = h3_release,
};
|