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Willy Tarreaubaaee002006-06-26 02:48:02 +02001/*
Willy Tarreauc7e42382012-08-24 19:22:53 +02002 * include/proto/channel.h
3 * Channel management definitions, macros and inline functions.
Willy Tarreau7c3c5412009-12-13 15:53:05 +01004 *
Willy Tarreaua27dc192014-11-27 22:10:04 +01005 * Copyright (C) 2000-2014 Willy Tarreau - w@1wt.eu
Willy Tarreau7c3c5412009-12-13 15:53:05 +01006 *
7 * This library is free software; you can redistribute it and/or
8 * modify it under the terms of the GNU Lesser General Public
9 * License as published by the Free Software Foundation, version 2.1
10 * exclusively.
11 *
12 * This library is distributed in the hope that it will be useful,
13 * but WITHOUT ANY WARRANTY; without even the implied warranty of
14 * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
15 * Lesser General Public License for more details.
16 *
17 * You should have received a copy of the GNU Lesser General Public
18 * License along with this library; if not, write to the Free Software
19 * Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA
20 */
Willy Tarreaubaaee002006-06-26 02:48:02 +020021
Willy Tarreauc7e42382012-08-24 19:22:53 +020022#ifndef _PROTO_CHANNEL_H
23#define _PROTO_CHANNEL_H
Willy Tarreaubaaee002006-06-26 02:48:02 +020024
Willy Tarreau08d5ac82018-06-06 15:09:28 +020025#include <stdint.h>
Willy Tarreau7341d942007-05-13 19:56:02 +020026#include <stdio.h>
Willy Tarreau0f772532006-12-23 20:51:41 +010027#include <stdlib.h>
Willy Tarreau7341d942007-05-13 19:56:02 +020028#include <string.h>
Willy Tarreau0f772532006-12-23 20:51:41 +010029
Willy Tarreaue3ba5f02006-06-29 18:54:54 +020030#include <common/config.h>
Willy Tarreauc7e42382012-08-24 19:22:53 +020031#include <common/chunk.h>
Willy Tarreaub96b77e2018-12-11 10:22:41 +010032#include <common/htx.h>
Willy Tarreau0c303ee2008-07-07 00:09:58 +020033#include <common/ticks.h>
Willy Tarreaufa645582007-06-03 15:59:52 +020034#include <common/time.h>
35
Thierry FOURNIERac836ba2014-12-16 15:41:18 +010036#include <types/channel.h>
Willy Tarreau7c3c5412009-12-13 15:53:05 +010037#include <types/global.h>
Willy Tarreau87b09662015-04-03 00:22:06 +020038#include <types/stream.h>
Willy Tarreau73796532014-11-28 14:10:28 +010039#include <types/stream_interface.h>
Willy Tarreaubaaee002006-06-26 02:48:02 +020040
Christopher Fauleta73e59b2016-12-09 17:30:18 +010041#include <proto/task.h>
42
Willy Tarreau7341d942007-05-13 19:56:02 +020043/* perform minimal intializations, report 0 in case of error, 1 if OK. */
Willy Tarreau8263d2b2012-08-28 00:06:31 +020044int init_channel();
Willy Tarreau7341d942007-05-13 19:56:02 +020045
Willy Tarreau55a69062012-10-26 00:21:52 +020046unsigned long long __channel_forward(struct channel *chn, unsigned long long bytes);
Willy Tarreau8263d2b2012-08-28 00:06:31 +020047
48/* SI-to-channel functions working with buffers */
Willy Tarreau06d80a92017-10-19 14:32:15 +020049int ci_putblk(struct channel *chn, const char *str, int len);
Willy Tarreau06d80a92017-10-19 14:32:15 +020050int ci_putchr(struct channel *chn, char c);
Willy Tarreau55f3ce12018-07-18 11:49:27 +020051int ci_getline_nc(const struct channel *chn, char **blk1, size_t *len1, char **blk2, size_t *len2);
52int ci_getblk_nc(const struct channel *chn, char **blk1, size_t *len1, char **blk2, size_t *len2);
Willy Tarreau4d893d42018-07-12 15:43:32 +020053int ci_insert_line2(struct channel *c, int pos, const char *str, int len);
Willy Tarreau06d80a92017-10-19 14:32:15 +020054int co_inject(struct channel *chn, const char *msg, int len);
Willy Tarreau41ab8682017-10-19 14:58:40 +020055int co_getline(const struct channel *chn, char *str, int len);
56int co_getblk(const struct channel *chn, char *blk, int len, int offset);
Willy Tarreau55f3ce12018-07-18 11:49:27 +020057int co_getline_nc(const struct channel *chn, const char **blk1, size_t *len1, const char **blk2, size_t *len2);
58int co_getblk_nc(const struct channel *chn, const char **blk1, size_t *len1, const char **blk2, size_t *len2);
Thierry FOURNIERca16b032015-02-16 19:26:48 +010059
Willy Tarreau74b08c92010-09-08 17:04:31 +020060
Willy Tarreau87b09662015-04-03 00:22:06 +020061/* returns a pointer to the stream the channel belongs to */
Thierry FOURNIER27929fb2015-09-25 08:36:11 +020062static inline struct stream *chn_strm(const struct channel *chn)
Willy Tarreaud5ccfa32014-12-28 13:03:53 +010063{
64 if (chn->flags & CF_ISRESP)
Willy Tarreau87b09662015-04-03 00:22:06 +020065 return LIST_ELEM(chn, struct stream *, res);
Willy Tarreaud5ccfa32014-12-28 13:03:53 +010066 else
Willy Tarreau87b09662015-04-03 00:22:06 +020067 return LIST_ELEM(chn, struct stream *, req);
Willy Tarreaud5ccfa32014-12-28 13:03:53 +010068}
69
Willy Tarreau73796532014-11-28 14:10:28 +010070/* returns a pointer to the stream interface feeding the channel (producer) */
71static inline struct stream_interface *chn_prod(const struct channel *chn)
72{
Willy Tarreau5decc052014-11-28 14:22:12 +010073 if (chn->flags & CF_ISRESP)
Willy Tarreau87b09662015-04-03 00:22:06 +020074 return &LIST_ELEM(chn, struct stream *, res)->si[1];
Willy Tarreau5decc052014-11-28 14:22:12 +010075 else
Willy Tarreau87b09662015-04-03 00:22:06 +020076 return &LIST_ELEM(chn, struct stream *, req)->si[0];
Willy Tarreau73796532014-11-28 14:10:28 +010077}
78
79/* returns a pointer to the stream interface consuming the channel (producer) */
80static inline struct stream_interface *chn_cons(const struct channel *chn)
81{
Willy Tarreau5decc052014-11-28 14:22:12 +010082 if (chn->flags & CF_ISRESP)
Willy Tarreau87b09662015-04-03 00:22:06 +020083 return &LIST_ELEM(chn, struct stream *, res)->si[0];
Willy Tarreau5decc052014-11-28 14:22:12 +010084 else
Willy Tarreau87b09662015-04-03 00:22:06 +020085 return &LIST_ELEM(chn, struct stream *, req)->si[1];
Willy Tarreau73796532014-11-28 14:10:28 +010086}
87
Willy Tarreau08d5ac82018-06-06 15:09:28 +020088/* c_orig() : returns the pointer to the channel buffer's origin */
89static inline char *c_orig(const struct channel *c)
90{
Willy Tarreauc9fa0482018-07-10 17:43:27 +020091 return b_orig(&c->buf);
Willy Tarreau08d5ac82018-06-06 15:09:28 +020092}
93
94/* c_size() : returns the size of the channel's buffer */
95static inline size_t c_size(const struct channel *c)
96{
Willy Tarreauc9fa0482018-07-10 17:43:27 +020097 return b_size(&c->buf);
Willy Tarreau08d5ac82018-06-06 15:09:28 +020098}
99
100/* c_wrap() : returns the pointer to the channel buffer's wrapping point */
101static inline char *c_wrap(const struct channel *c)
102{
Willy Tarreauc9fa0482018-07-10 17:43:27 +0200103 return b_wrap(&c->buf);
Willy Tarreau08d5ac82018-06-06 15:09:28 +0200104}
105
106/* c_data() : returns the amount of data in the channel's buffer */
107static inline size_t c_data(const struct channel *c)
108{
Willy Tarreauc9fa0482018-07-10 17:43:27 +0200109 return b_data(&c->buf);
Willy Tarreau08d5ac82018-06-06 15:09:28 +0200110}
111
112/* c_room() : returns the room left in the channel's buffer */
113static inline size_t c_room(const struct channel *c)
114{
Willy Tarreauc9fa0482018-07-10 17:43:27 +0200115 return b_size(&c->buf) - b_data(&c->buf);
Willy Tarreau08d5ac82018-06-06 15:09:28 +0200116}
117
118/* c_empty() : returns a boolean indicating if the channel's buffer is empty */
119static inline size_t c_empty(const struct channel *c)
120{
121 return !c_data(c);
122}
123
124/* c_full() : returns a boolean indicating if the channel's buffer is full */
125static inline size_t c_full(const struct channel *c)
126{
127 return !c_room(c);
128}
129
130/* co_data() : returns the amount of output data in the channel's buffer */
131static inline size_t co_data(const struct channel *c)
132{
Olivier Houchard08afac02018-06-22 19:26:39 +0200133 return c->output;
Willy Tarreau08d5ac82018-06-06 15:09:28 +0200134}
135
136/* ci_data() : returns the amount of input data in the channel's buffer */
137static inline size_t ci_data(const struct channel *c)
138{
Willy Tarreau3ee83442018-06-15 16:42:02 +0200139 return c_data(c) - co_data(c);
Willy Tarreau08d5ac82018-06-06 15:09:28 +0200140}
141
142/* ci_next() : for an absolute pointer <p> or a relative offset <o> pointing to
143 * a valid location within channel <c>'s buffer, returns either the absolute
144 * pointer or the relative offset pointing to the next byte, which usually is
145 * at (p + 1) unless p reaches the wrapping point and wrapping is needed.
146 */
147static inline size_t ci_next_ofs(const struct channel *c, size_t o)
148{
Willy Tarreauc9fa0482018-07-10 17:43:27 +0200149 return b_next_ofs(&c->buf, o);
Willy Tarreau08d5ac82018-06-06 15:09:28 +0200150}
151static inline char *ci_next(const struct channel *c, const char *p)
152{
Willy Tarreauc9fa0482018-07-10 17:43:27 +0200153 return b_next(&c->buf, p);
Willy Tarreau08d5ac82018-06-06 15:09:28 +0200154}
155
156
157/* c_ptr() : returns a pointer to an offset relative to the beginning of the
158 * input data in the buffer. If instead the offset is negative, a pointer to
159 * existing output data is returned. The function only takes care of wrapping,
160 * it's up to the caller to ensure the offset is always within byte count
161 * bounds.
162 */
163static inline char *c_ptr(const struct channel *c, ssize_t ofs)
164{
Willy Tarreauc9fa0482018-07-10 17:43:27 +0200165 return b_peek(&c->buf, co_data(c) + ofs);
Willy Tarreau08d5ac82018-06-06 15:09:28 +0200166}
167
168/* c_adv() : advances the channel's buffer by <adv> bytes, which means that the
169 * buffer's pointer advances, and that as many bytes from in are transferred
170 * from in to out. The caller is responsible for ensuring that adv is always
171 * smaller than or equal to b->i.
172 */
173static inline void c_adv(struct channel *c, size_t adv)
174{
Olivier Houchard08afac02018-06-22 19:26:39 +0200175 c->output += adv;
Willy Tarreau08d5ac82018-06-06 15:09:28 +0200176}
177
178/* c_rew() : rewinds the channel's buffer by <adv> bytes, which means that the
179 * buffer's pointer goes backwards, and that as many bytes from out are moved
180 * to in. The caller is responsible for ensuring that adv is always smaller
181 * than or equal to b->o.
182 */
183static inline void c_rew(struct channel *c, size_t adv)
184{
Olivier Houchard08afac02018-06-22 19:26:39 +0200185 c->output -= adv;
Willy Tarreau08d5ac82018-06-06 15:09:28 +0200186}
187
188/* c_realign_if_empty() : realign the channel's buffer if it's empty */
189static inline void c_realign_if_empty(struct channel *chn)
190{
Willy Tarreauc9fa0482018-07-10 17:43:27 +0200191 b_realign_if_empty(&chn->buf);
Willy Tarreau08d5ac82018-06-06 15:09:28 +0200192}
193
Olivier Houchardd4251a72018-06-29 16:17:34 +0200194/* Sets the amount of output for the channel */
195static inline void co_set_data(struct channel *c, size_t output)
196{
Olivier Houchard08afac02018-06-22 19:26:39 +0200197 c->output = output;
Olivier Houchardd4251a72018-06-29 16:17:34 +0200198}
199
Willy Tarreau08d5ac82018-06-06 15:09:28 +0200200
201/* co_head() : returns a pointer to the beginning of output data in the buffer.
202 * The "__" variants don't support wrapping, "ofs" are relative to
203 * the buffer's origin.
204 */
205static inline size_t __co_head_ofs(const struct channel *c)
206{
Willy Tarreauc9fa0482018-07-10 17:43:27 +0200207 return __b_peek_ofs(&c->buf, 0);
Willy Tarreau08d5ac82018-06-06 15:09:28 +0200208}
209static inline char *__co_head(const struct channel *c)
210{
Willy Tarreauc9fa0482018-07-10 17:43:27 +0200211 return __b_peek(&c->buf, 0);
Willy Tarreau08d5ac82018-06-06 15:09:28 +0200212}
213static inline size_t co_head_ofs(const struct channel *c)
214{
Willy Tarreauc9fa0482018-07-10 17:43:27 +0200215 return b_peek_ofs(&c->buf, 0);
Willy Tarreau08d5ac82018-06-06 15:09:28 +0200216}
217static inline char *co_head(const struct channel *c)
218{
Willy Tarreauc9fa0482018-07-10 17:43:27 +0200219 return b_peek(&c->buf, 0);
Willy Tarreau08d5ac82018-06-06 15:09:28 +0200220}
221
222
223/* co_tail() : returns a pointer to the end of output data in the buffer.
224 * The "__" variants don't support wrapping, "ofs" are relative to
225 * the buffer's origin.
226 */
227static inline size_t __co_tail_ofs(const struct channel *c)
228{
Willy Tarreauc9fa0482018-07-10 17:43:27 +0200229 return __b_peek_ofs(&c->buf, co_data(c));
Willy Tarreau08d5ac82018-06-06 15:09:28 +0200230}
231static inline char *__co_tail(const struct channel *c)
232{
Willy Tarreauc9fa0482018-07-10 17:43:27 +0200233 return __b_peek(&c->buf, co_data(c));
Willy Tarreau08d5ac82018-06-06 15:09:28 +0200234}
235static inline size_t co_tail_ofs(const struct channel *c)
236{
Willy Tarreauc9fa0482018-07-10 17:43:27 +0200237 return b_peek_ofs(&c->buf, co_data(c));
Willy Tarreau08d5ac82018-06-06 15:09:28 +0200238}
239static inline char *co_tail(const struct channel *c)
240{
Willy Tarreauc9fa0482018-07-10 17:43:27 +0200241 return b_peek(&c->buf, co_data(c));
Willy Tarreau08d5ac82018-06-06 15:09:28 +0200242}
243
244
245/* ci_head() : returns a pointer to the beginning of input data in the buffer.
246 * The "__" variants don't support wrapping, "ofs" are relative to
247 * the buffer's origin.
248 */
249static inline size_t __ci_head_ofs(const struct channel *c)
250{
Willy Tarreauc9fa0482018-07-10 17:43:27 +0200251 return __b_peek_ofs(&c->buf, co_data(c));
Willy Tarreau08d5ac82018-06-06 15:09:28 +0200252}
253static inline char *__ci_head(const struct channel *c)
254{
Willy Tarreauc9fa0482018-07-10 17:43:27 +0200255 return __b_peek(&c->buf, co_data(c));
Willy Tarreau08d5ac82018-06-06 15:09:28 +0200256}
257static inline size_t ci_head_ofs(const struct channel *c)
258{
Willy Tarreauc9fa0482018-07-10 17:43:27 +0200259 return b_peek_ofs(&c->buf, co_data(c));
Willy Tarreau08d5ac82018-06-06 15:09:28 +0200260}
261static inline char *ci_head(const struct channel *c)
262{
Willy Tarreauc9fa0482018-07-10 17:43:27 +0200263 return b_peek(&c->buf, co_data(c));
Willy Tarreau08d5ac82018-06-06 15:09:28 +0200264}
265
266
267/* ci_tail() : returns a pointer to the end of input data in the buffer.
268 * The "__" variants don't support wrapping, "ofs" are relative to
269 * the buffer's origin.
270 */
271static inline size_t __ci_tail_ofs(const struct channel *c)
272{
Willy Tarreauc9fa0482018-07-10 17:43:27 +0200273 return __b_peek_ofs(&c->buf, c_data(c));
Willy Tarreau08d5ac82018-06-06 15:09:28 +0200274}
275static inline char *__ci_tail(const struct channel *c)
276{
Willy Tarreauc9fa0482018-07-10 17:43:27 +0200277 return __b_peek(&c->buf, c_data(c));
Willy Tarreau08d5ac82018-06-06 15:09:28 +0200278}
279static inline size_t ci_tail_ofs(const struct channel *c)
280{
Willy Tarreauc9fa0482018-07-10 17:43:27 +0200281 return b_peek_ofs(&c->buf, c_data(c));
Willy Tarreau08d5ac82018-06-06 15:09:28 +0200282}
283static inline char *ci_tail(const struct channel *c)
284{
Willy Tarreauc9fa0482018-07-10 17:43:27 +0200285 return b_peek(&c->buf, c_data(c));
Willy Tarreau08d5ac82018-06-06 15:09:28 +0200286}
287
288
289/* ci_stop() : returns the pointer to the byte following the end of input data
290 * in the channel buffer. It may be out of the buffer. It's used to
291 * compute lengths or stop pointers.
292 */
293static inline size_t __ci_stop_ofs(const struct channel *c)
294{
Willy Tarreauc9fa0482018-07-10 17:43:27 +0200295 return __b_stop_ofs(&c->buf);
Willy Tarreau08d5ac82018-06-06 15:09:28 +0200296}
297static inline const char *__ci_stop(const struct channel *c)
298{
Willy Tarreauc9fa0482018-07-10 17:43:27 +0200299 return __b_stop(&c->buf);
Willy Tarreau08d5ac82018-06-06 15:09:28 +0200300}
301static inline size_t ci_stop_ofs(const struct channel *c)
302{
Willy Tarreauc9fa0482018-07-10 17:43:27 +0200303 return b_stop_ofs(&c->buf);
Willy Tarreau08d5ac82018-06-06 15:09:28 +0200304}
305static inline const char *ci_stop(const struct channel *c)
306{
Willy Tarreauc9fa0482018-07-10 17:43:27 +0200307 return b_stop(&c->buf);
Willy Tarreau08d5ac82018-06-06 15:09:28 +0200308}
309
310
Willy Tarreau7194d3c2018-06-06 16:55:45 +0200311/* Returns the amount of input data that can contiguously be read at once */
312static inline size_t ci_contig_data(const struct channel *c)
313{
Willy Tarreauc9fa0482018-07-10 17:43:27 +0200314 return b_contig_data(&c->buf, co_data(c));
Willy Tarreau7194d3c2018-06-06 16:55:45 +0200315}
316
Willy Tarreau8263d2b2012-08-28 00:06:31 +0200317/* Initialize all fields in the channel. */
Willy Tarreau974ced62012-10-12 23:11:02 +0200318static inline void channel_init(struct channel *chn)
Willy Tarreau54469402006-07-29 16:59:06 +0200319{
Willy Tarreauc9fa0482018-07-10 17:43:27 +0200320 chn->buf = BUF_NULL;
Willy Tarreau974ced62012-10-12 23:11:02 +0200321 chn->to_forward = 0;
Willy Tarreaub145c782014-02-09 17:45:16 +0100322 chn->last_read = now_ms;
Willy Tarreau8f39dcd2014-02-09 08:31:49 +0100323 chn->xfer_small = chn->xfer_large = 0;
Willy Tarreau974ced62012-10-12 23:11:02 +0200324 chn->total = 0;
325 chn->pipe = NULL;
326 chn->analysers = 0;
Willy Tarreau974ced62012-10-12 23:11:02 +0200327 chn->flags = 0;
Olivier Houchard08afac02018-06-22 19:26:39 +0200328 chn->output = 0;
Willy Tarreau54469402006-07-29 16:59:06 +0200329}
330
Willy Tarreau55a69062012-10-26 00:21:52 +0200331/* Schedule up to <bytes> more bytes to be forwarded via the channel without
332 * notifying the owner task. Any data pending in the buffer are scheduled to be
333 * sent as well, in the limit of the number of bytes to forward. This must be
334 * the only method to use to schedule bytes to be forwarded. If the requested
335 * number is too large, it is automatically adjusted. The number of bytes taken
336 * into account is returned. Directly touching ->to_forward will cause lockups
337 * when buf->o goes down to zero if nobody is ready to push the remaining data.
338 */
339static inline unsigned long long channel_forward(struct channel *chn, unsigned long long bytes)
340{
341 /* hint: avoid comparisons on long long for the fast case, since if the
342 * length does not fit in an unsigned it, it will never be forwarded at
343 * once anyway.
344 */
345 if (bytes <= ~0U) {
346 unsigned int bytes32 = bytes;
347
Willy Tarreau3ee83442018-06-15 16:42:02 +0200348 if (bytes32 <= ci_data(chn)) {
Willy Tarreau55a69062012-10-26 00:21:52 +0200349 /* OK this amount of bytes might be forwarded at once */
Willy Tarreaubcbd3932018-06-06 07:13:22 +0200350 c_adv(chn, bytes32);
Willy Tarreau55a69062012-10-26 00:21:52 +0200351 return bytes;
352 }
353 }
354 return __channel_forward(chn, bytes);
355}
356
Willy Tarreau8bf242b2016-05-04 14:05:58 +0200357/* Forwards any input data and marks the channel for permanent forwarding */
358static inline void channel_forward_forever(struct channel *chn)
359{
Willy Tarreau3ee83442018-06-15 16:42:02 +0200360 c_adv(chn, ci_data(chn));
Willy Tarreau8bf242b2016-05-04 14:05:58 +0200361 chn->to_forward = CHN_INFINITE_FORWARD;
362}
363
Christopher Fauletb2aedea2018-12-05 11:56:15 +0100364static inline unsigned long long channel_htx_forward(struct channel *chn, struct htx *htx, unsigned long long bytes)
365{
366 unsigned long long ret;
367
368 b_set_data(&chn->buf, htx->data);
369 ret = channel_forward(chn, bytes);
370 b_set_data(&chn->buf, b_size(&chn->buf));
371 return ret;
372}
373
374
375static inline void channel_htx_forward_forever(struct channel *chn, struct htx *htx)
376{
377 b_set_data(&chn->buf, htx->data);
378 channel_forward_forever(chn);
379 b_set_data(&chn->buf, b_size(&chn->buf));
380}
381
Willy Tarreau8263d2b2012-08-28 00:06:31 +0200382/*********************************************************************/
383/* These functions are used to compute various channel content sizes */
384/*********************************************************************/
Willy Tarreau4b517ca2011-11-25 20:33:58 +0100385
Willy Tarreau8e21bb92012-08-24 22:40:29 +0200386/* Reports non-zero if the channel is empty, which means both its
387 * buffer and pipe are empty. The construct looks strange but is
388 * jump-less and much more efficient on both 32 and 64-bit than
389 * the boolean test.
390 */
Willy Tarreau41ab8682017-10-19 14:58:40 +0200391static inline unsigned int channel_is_empty(const struct channel *c)
Willy Tarreau8e21bb92012-08-24 22:40:29 +0200392{
Willy Tarreau3ee83442018-06-15 16:42:02 +0200393 return !(co_data(c) | (long)c->pipe);
Willy Tarreau8e21bb92012-08-24 22:40:29 +0200394}
395
Willy Tarreauba0902e2015-01-13 14:39:16 +0100396/* Returns non-zero if the channel is rewritable, which means that the buffer
397 * it is attached to has at least <maxrewrite> bytes immediately available.
398 * This is used to decide when a request or response may be parsed when some
399 * data from a previous exchange might still be present.
Willy Tarreau379357a2013-06-08 12:55:46 +0200400 */
Willy Tarreauba0902e2015-01-13 14:39:16 +0100401static inline int channel_is_rewritable(const struct channel *chn)
Willy Tarreau379357a2013-06-08 12:55:46 +0200402{
Willy Tarreauc9fa0482018-07-10 17:43:27 +0200403 int rem = chn->buf.size;
Willy Tarreau379357a2013-06-08 12:55:46 +0200404
Willy Tarreauc9fa0482018-07-10 17:43:27 +0200405 rem -= b_data(&chn->buf);
Willy Tarreau379357a2013-06-08 12:55:46 +0200406 rem -= global.tune.maxrewrite;
407 return rem >= 0;
408}
409
Willy Tarreau9c06ee42015-01-14 16:08:45 +0100410/* Tells whether data are likely to leave the buffer. This is used to know when
411 * we can safely ignore the reserve since we know we cannot retry a connection.
412 * It returns zero if data are blocked, non-zero otherwise.
413 */
414static inline int channel_may_send(const struct channel *chn)
415{
Willy Tarreau73796532014-11-28 14:10:28 +0100416 return chn_cons(chn)->state == SI_ST_EST;
Willy Tarreau9c06ee42015-01-14 16:08:45 +0100417}
418
Willy Tarreau3889fff2015-01-13 20:20:10 +0100419/* Returns non-zero if the channel can still receive data. This is used to
Willy Tarreau379357a2013-06-08 12:55:46 +0200420 * decide when to stop reading into a buffer when we want to ensure that we
421 * leave the reserve untouched after all pending outgoing data are forwarded.
422 * The reserved space is taken into account if ->to_forward indicates that an
Willy Tarreauc9fa0482018-07-10 17:43:27 +0200423 * end of transfer is close to happen. Note that both ->buf.o and ->to_forward
Willy Tarreau379357a2013-06-08 12:55:46 +0200424 * are considered as available since they're supposed to leave the buffer. The
425 * test is optimized to avoid as many operations as possible for the fast case
Willy Tarreau4b46a3e2016-04-20 20:09:22 +0200426 * and to be used as an "if" condition. Just like channel_recv_limit(), we
427 * never allow to overwrite the reserve until the output stream interface is
428 * connected, otherwise we could spin on a POST with http-send-name-header.
Willy Tarreau4b517ca2011-11-25 20:33:58 +0100429 */
Willy Tarreau3889fff2015-01-13 20:20:10 +0100430static inline int channel_may_recv(const struct channel *chn)
Willy Tarreau4b517ca2011-11-25 20:33:58 +0100431{
Willy Tarreauc9fa0482018-07-10 17:43:27 +0200432 int rem = chn->buf.size;
Willy Tarreau9dab5fc2012-05-07 11:56:55 +0200433
Willy Tarreauc9fa0482018-07-10 17:43:27 +0200434 if (b_is_null(&chn->buf))
Willy Tarreau3889fff2015-01-13 20:20:10 +0100435 return 1;
Willy Tarreau4428a292014-11-28 20:54:13 +0100436
Willy Tarreauc9fa0482018-07-10 17:43:27 +0200437 rem -= b_data(&chn->buf);
Willy Tarreau9dab5fc2012-05-07 11:56:55 +0200438 if (!rem)
Willy Tarreau3889fff2015-01-13 20:20:10 +0100439 return 0; /* buffer already full */
Willy Tarreau9dab5fc2012-05-07 11:56:55 +0200440
Willy Tarreau93dc4782016-04-21 12:12:45 +0200441 if (rem > global.tune.maxrewrite)
442 return 1; /* reserve not yet reached */
Willy Tarreau4b46a3e2016-04-20 20:09:22 +0200443
Willy Tarreau93dc4782016-04-21 12:12:45 +0200444 if (!channel_may_send(chn))
445 return 0; /* don't touch reserve until we can send */
Willy Tarreau9dab5fc2012-05-07 11:56:55 +0200446
Willy Tarreau93dc4782016-04-21 12:12:45 +0200447 /* Now we know there's some room left in the reserve and we may
448 * forward. As long as i-to_fwd < size-maxrw, we may still
449 * receive. This is equivalent to i+maxrw-size < to_fwd,
450 * which is logical since i+maxrw-size is what overlaps with
451 * the reserve, and we want to ensure they're covered by scheduled
452 * forwards.
453 */
Willy Tarreauc9fa0482018-07-10 17:43:27 +0200454 rem = ci_data(chn) + global.tune.maxrewrite - chn->buf.size;
Willy Tarreau93dc4782016-04-21 12:12:45 +0200455 return rem < 0 || (unsigned int)rem < chn->to_forward;
Willy Tarreau4b517ca2011-11-25 20:33:58 +0100456}
457
Willy Tarreau8263d2b2012-08-28 00:06:31 +0200458/* Returns true if the channel's input is already closed */
Willy Tarreau974ced62012-10-12 23:11:02 +0200459static inline int channel_input_closed(struct channel *chn)
Willy Tarreau74b08c92010-09-08 17:04:31 +0200460{
Willy Tarreau974ced62012-10-12 23:11:02 +0200461 return ((chn->flags & CF_SHUTR) != 0);
Willy Tarreau74b08c92010-09-08 17:04:31 +0200462}
463
Willy Tarreau8263d2b2012-08-28 00:06:31 +0200464/* Returns true if the channel's output is already closed */
Willy Tarreau974ced62012-10-12 23:11:02 +0200465static inline int channel_output_closed(struct channel *chn)
Willy Tarreau74b08c92010-09-08 17:04:31 +0200466{
Willy Tarreau974ced62012-10-12 23:11:02 +0200467 return ((chn->flags & CF_SHUTW) != 0);
Willy Tarreau74b08c92010-09-08 17:04:31 +0200468}
469
Willy Tarreau8263d2b2012-08-28 00:06:31 +0200470/* Check channel timeouts, and set the corresponding flags. The likely/unlikely
471 * have been optimized for fastest normal path. The read/write timeouts are not
472 * set if there was activity on the channel. That way, we don't have to update
473 * the timeout on every I/O. Note that the analyser timeout is always checked.
Willy Tarreau2eb52f02008-09-04 09:14:08 +0200474 */
Willy Tarreau974ced62012-10-12 23:11:02 +0200475static inline void channel_check_timeouts(struct channel *chn)
Willy Tarreau2eb52f02008-09-04 09:14:08 +0200476{
Willy Tarreau974ced62012-10-12 23:11:02 +0200477 if (likely(!(chn->flags & (CF_SHUTR|CF_READ_TIMEOUT|CF_READ_ACTIVITY|CF_READ_NOEXP))) &&
478 unlikely(tick_is_expired(chn->rex, now_ms)))
479 chn->flags |= CF_READ_TIMEOUT;
Willy Tarreau2eb52f02008-09-04 09:14:08 +0200480
Willy Tarreauede3d882018-10-24 17:17:56 +0200481 if (likely(!(chn->flags & (CF_SHUTW|CF_WRITE_TIMEOUT|CF_WRITE_ACTIVITY))) &&
Willy Tarreau974ced62012-10-12 23:11:02 +0200482 unlikely(tick_is_expired(chn->wex, now_ms)))
483 chn->flags |= CF_WRITE_TIMEOUT;
Willy Tarreau2eb52f02008-09-04 09:14:08 +0200484
Willy Tarreau974ced62012-10-12 23:11:02 +0200485 if (likely(!(chn->flags & CF_ANA_TIMEOUT)) &&
486 unlikely(tick_is_expired(chn->analyse_exp, now_ms)))
487 chn->flags |= CF_ANA_TIMEOUT;
Willy Tarreau2eb52f02008-09-04 09:14:08 +0200488}
489
Willy Tarreau8263d2b2012-08-28 00:06:31 +0200490/* Erase any content from channel <buf> and adjusts flags accordingly. Note
Willy Tarreau0abebcc2009-01-08 00:09:41 +0100491 * that any spliced data is not affected since we may not have any access to
492 * it.
Willy Tarreaue393fe22008-08-16 22:18:07 +0200493 */
Willy Tarreau974ced62012-10-12 23:11:02 +0200494static inline void channel_erase(struct channel *chn)
Willy Tarreaubaaee002006-06-26 02:48:02 +0200495{
Willy Tarreau974ced62012-10-12 23:11:02 +0200496 chn->to_forward = 0;
Willy Tarreauc9fa0482018-07-10 17:43:27 +0200497 b_reset(&chn->buf);
Willy Tarreaubaaee002006-06-26 02:48:02 +0200498}
499
Willy Tarreau8263d2b2012-08-28 00:06:31 +0200500/* marks the channel as "shutdown" ASAP for reads */
Willy Tarreau974ced62012-10-12 23:11:02 +0200501static inline void channel_shutr_now(struct channel *chn)
Willy Tarreaufa7e1022008-10-19 07:30:41 +0200502{
Willy Tarreau974ced62012-10-12 23:11:02 +0200503 chn->flags |= CF_SHUTR_NOW;
Willy Tarreaufa7e1022008-10-19 07:30:41 +0200504}
505
Willy Tarreau8263d2b2012-08-28 00:06:31 +0200506/* marks the channel as "shutdown" ASAP for writes */
Willy Tarreau974ced62012-10-12 23:11:02 +0200507static inline void channel_shutw_now(struct channel *chn)
Willy Tarreaufa7e1022008-10-19 07:30:41 +0200508{
Willy Tarreau974ced62012-10-12 23:11:02 +0200509 chn->flags |= CF_SHUTW_NOW;
Willy Tarreaufa7e1022008-10-19 07:30:41 +0200510}
511
Willy Tarreau8263d2b2012-08-28 00:06:31 +0200512/* marks the channel as "shutdown" ASAP in both directions */
Willy Tarreau974ced62012-10-12 23:11:02 +0200513static inline void channel_abort(struct channel *chn)
Willy Tarreaufa7e1022008-10-19 07:30:41 +0200514{
Willy Tarreau974ced62012-10-12 23:11:02 +0200515 chn->flags |= CF_SHUTR_NOW | CF_SHUTW_NOW;
516 chn->flags &= ~CF_AUTO_CONNECT;
Willy Tarreaufa7e1022008-10-19 07:30:41 +0200517}
518
Willy Tarreau520d95e2009-09-19 21:04:57 +0200519/* allow the consumer to try to establish a new connection. */
Willy Tarreau974ced62012-10-12 23:11:02 +0200520static inline void channel_auto_connect(struct channel *chn)
Willy Tarreau3da77c52008-08-29 09:58:42 +0200521{
Willy Tarreau974ced62012-10-12 23:11:02 +0200522 chn->flags |= CF_AUTO_CONNECT;
Willy Tarreau3da77c52008-08-29 09:58:42 +0200523}
524
Willy Tarreau520d95e2009-09-19 21:04:57 +0200525/* prevent the consumer from trying to establish a new connection, and also
526 * disable auto shutdown forwarding.
527 */
Willy Tarreau974ced62012-10-12 23:11:02 +0200528static inline void channel_dont_connect(struct channel *chn)
Willy Tarreau3da77c52008-08-29 09:58:42 +0200529{
Willy Tarreau974ced62012-10-12 23:11:02 +0200530 chn->flags &= ~(CF_AUTO_CONNECT|CF_AUTO_CLOSE);
Willy Tarreau3da77c52008-08-29 09:58:42 +0200531}
532
Willy Tarreau520d95e2009-09-19 21:04:57 +0200533/* allow the producer to forward shutdown requests */
Willy Tarreau974ced62012-10-12 23:11:02 +0200534static inline void channel_auto_close(struct channel *chn)
Willy Tarreau0a5d5dd2008-11-23 19:31:35 +0100535{
Willy Tarreau974ced62012-10-12 23:11:02 +0200536 chn->flags |= CF_AUTO_CLOSE;
Willy Tarreau0a5d5dd2008-11-23 19:31:35 +0100537}
538
Willy Tarreau520d95e2009-09-19 21:04:57 +0200539/* prevent the producer from forwarding shutdown requests */
Willy Tarreau974ced62012-10-12 23:11:02 +0200540static inline void channel_dont_close(struct channel *chn)
Willy Tarreau0a5d5dd2008-11-23 19:31:35 +0100541{
Willy Tarreau974ced62012-10-12 23:11:02 +0200542 chn->flags &= ~CF_AUTO_CLOSE;
Willy Tarreau0a5d5dd2008-11-23 19:31:35 +0100543}
544
Willy Tarreau90deb182010-01-07 00:20:41 +0100545/* allow the producer to read / poll the input */
Willy Tarreau974ced62012-10-12 23:11:02 +0200546static inline void channel_auto_read(struct channel *chn)
Willy Tarreau90deb182010-01-07 00:20:41 +0100547{
Willy Tarreau974ced62012-10-12 23:11:02 +0200548 chn->flags &= ~CF_DONT_READ;
Willy Tarreau90deb182010-01-07 00:20:41 +0100549}
550
551/* prevent the producer from read / poll the input */
Willy Tarreau974ced62012-10-12 23:11:02 +0200552static inline void channel_dont_read(struct channel *chn)
Willy Tarreau90deb182010-01-07 00:20:41 +0100553{
Willy Tarreau974ced62012-10-12 23:11:02 +0200554 chn->flags |= CF_DONT_READ;
Willy Tarreau90deb182010-01-07 00:20:41 +0100555}
556
Willy Tarreau8263d2b2012-08-28 00:06:31 +0200557
558/*************************************************/
559/* Buffer operations in the context of a channel */
560/*************************************************/
561
Willy Tarreau8263d2b2012-08-28 00:06:31 +0200562
563/* Return the max number of bytes the buffer can contain so that once all the
Willy Tarreau169c4702016-04-20 18:05:17 +0200564 * pending bytes are forwarded, the buffer still has global.tune.maxrewrite
Willy Tarreau974ced62012-10-12 23:11:02 +0200565 * bytes free. The result sits between chn->size - maxrewrite and chn->size.
Willy Tarreau169c4702016-04-20 18:05:17 +0200566 * It is important to mention that if buf->i is already larger than size-maxrw
567 * the condition above cannot be satisfied and the lowest size will be returned
568 * anyway. The principles are the following :
569 * 0) the empty buffer has a limit of zero
570 * 1) a non-connected buffer cannot touch the reserve
571 * 2) infinite forward can always fill the buffer since all data will leave
572 * 3) all output bytes are considered in transit since they're leaving
573 * 4) all input bytes covered by to_forward are considered in transit since
574 * they'll be converted to output bytes.
575 * 5) all input bytes not covered by to_forward as considered remaining
576 * 6) all bytes scheduled to be forwarded minus what is already in the input
577 * buffer will be in transit during future rounds.
578 * 7) 4+5+6 imply that the amount of input bytes (i) is irrelevant to the max
579 * usable length, only to_forward and output count. The difference is
580 * visible when to_forward > i.
581 * 8) the reserve may be covered up to the amount of bytes in transit since
582 * these bytes will only take temporary space.
Willy Tarreau999f6432016-01-25 01:09:11 +0100583 *
Willy Tarreau169c4702016-04-20 18:05:17 +0200584 * A typical buffer looks like this :
Willy Tarreau999f6432016-01-25 01:09:11 +0100585 *
Willy Tarreau169c4702016-04-20 18:05:17 +0200586 * <-------------- max_len ----------->
587 * <---- o ----><----- i -----> <--- 0..maxrewrite --->
588 * +------------+--------------+-------+----------------------+
589 * |////////////|\\\\\\\\\\\\\\|xxxxxxx| reserve |
590 * +------------+--------+-----+-------+----------------------+
591 * <- fwd -> <-avail->
592 *
593 * Or when to_forward > i :
594 *
595 * <-------------- max_len ----------->
596 * <---- o ----><----- i -----> <--- 0..maxrewrite --->
597 * +------------+--------------+-------+----------------------+
598 * |////////////|\\\\\\\\\\\\\\|xxxxxxx| reserve |
599 * +------------+--------+-----+-------+----------------------+
600 * <-avail->
601 * <------------------ fwd ---------------->
602 *
603 * - the amount of buffer bytes in transit is : min(i, fwd) + o
604 * - some scheduled bytes may be in transit (up to fwd - i)
605 * - the reserve is max(0, maxrewrite - transit)
606 * - the maximum usable buffer length is size - reserve.
607 * - the available space is max_len - i - o
608 *
609 * So the formula to compute the buffer's maximum length to protect the reserve
610 * when reading new data is :
611 *
612 * max = size - maxrewrite + min(maxrewrite, transit)
613 * = size - max(maxrewrite - transit, 0)
614 *
615 * But WARNING! The conditions might change during the transfer and it could
616 * very well happen that a buffer would contain more bytes than max_len due to
617 * i+o already walking over the reserve (eg: after a header rewrite), including
618 * i or o alone hitting the limit. So it is critical to always consider that
619 * bounds may have already been crossed and that available space may be negative
620 * for example. Due to this it is perfectly possible for this function to return
621 * a value that is lower than current i+o.
Willy Tarreau8263d2b2012-08-28 00:06:31 +0200622 */
Willy Tarreau3f5096d2015-01-14 20:21:43 +0100623static inline int channel_recv_limit(const struct channel *chn)
Willy Tarreau8263d2b2012-08-28 00:06:31 +0200624{
Willy Tarreauef907fe2016-05-03 17:46:24 +0200625 unsigned int transit;
Willy Tarreau999f6432016-01-25 01:09:11 +0100626 int reserve;
627
628 /* return zero if empty */
Willy Tarreauc9fa0482018-07-10 17:43:27 +0200629 reserve = chn->buf.size;
630 if (b_is_null(&chn->buf))
Willy Tarreau999f6432016-01-25 01:09:11 +0100631 goto end;
632
633 /* return size - maxrewrite if we can't send */
634 reserve = global.tune.maxrewrite;
635 if (unlikely(!channel_may_send(chn)))
636 goto end;
637
Willy Tarreauef907fe2016-05-03 17:46:24 +0200638 /* We need to check what remains of the reserve after o and to_forward
639 * have been transmitted, but they can overflow together and they can
640 * cause an integer underflow in the comparison since both are unsigned
641 * while maxrewrite is signed.
642 * The code below has been verified for being a valid check for this :
643 * - if (o + to_forward) overflow => return size [ large enough ]
644 * - if o + to_forward >= maxrw => return size [ large enough ]
645 * - otherwise return size - (maxrw - (o + to_forward))
Willy Tarreau999f6432016-01-25 01:09:11 +0100646 */
Willy Tarreau3ee83442018-06-15 16:42:02 +0200647 transit = co_data(chn) + chn->to_forward;
Willy Tarreauef907fe2016-05-03 17:46:24 +0200648 reserve -= transit;
649 if (transit < chn->to_forward || // addition overflow
650 transit >= (unsigned)global.tune.maxrewrite) // enough transit data
Willy Tarreauc9fa0482018-07-10 17:43:27 +0200651 return chn->buf.size;
Willy Tarreau999f6432016-01-25 01:09:11 +0100652 end:
Willy Tarreauc9fa0482018-07-10 17:43:27 +0200653 return chn->buf.size - reserve;
Willy Tarreau8263d2b2012-08-28 00:06:31 +0200654}
655
Willy Tarreau23752332018-06-15 14:54:53 +0200656/* Returns non-zero if the channel's INPUT buffer's is considered full, which
657 * means that it holds at least as much INPUT data as (size - reserve). This
658 * also means that data that are scheduled for output are considered as potential
659 * free space, and that the reserved space is always considered as not usable.
660 * This information alone cannot be used as a general purpose free space indicator.
661 * However it accurately indicates that too many data were fed in the buffer
662 * for an analyzer for instance. See the channel_may_recv() function for a more
663 * generic function taking everything into account.
664 */
665static inline int channel_full(const struct channel *c, unsigned int reserve)
666{
Willy Tarreauc9fa0482018-07-10 17:43:27 +0200667 if (b_is_null(&c->buf))
Willy Tarreau23752332018-06-15 14:54:53 +0200668 return 0;
669
Willy Tarreau3ee83442018-06-15 16:42:02 +0200670 return (ci_data(c) + reserve >= c_size(c));
Willy Tarreau23752332018-06-15 14:54:53 +0200671}
672
673
Willy Tarreau8263d2b2012-08-28 00:06:31 +0200674/* Returns the amount of space available at the input of the buffer, taking the
675 * reserved space into account if ->to_forward indicates that an end of transfer
676 * is close to happen. The test is optimized to avoid as many operations as
677 * possible for the fast case.
678 */
Willy Tarreaub5051f82015-01-14 20:25:34 +0100679static inline int channel_recv_max(const struct channel *chn)
Willy Tarreau8263d2b2012-08-28 00:06:31 +0200680{
Willy Tarreau27bb0e12015-01-14 15:56:50 +0100681 int ret;
Willy Tarreau8263d2b2012-08-28 00:06:31 +0200682
Willy Tarreauc9fa0482018-07-10 17:43:27 +0200683 ret = channel_recv_limit(chn) - b_data(&chn->buf);
Willy Tarreau27bb0e12015-01-14 15:56:50 +0100684 if (ret < 0)
685 ret = 0;
686 return ret;
Willy Tarreau8263d2b2012-08-28 00:06:31 +0200687}
688
Willy Tarreau3f679992018-06-15 15:06:42 +0200689/* Returns the amount of bytes that can be written over the input data at once,
690 * including reserved space which may be overwritten. This is used by Lua to
691 * insert data in the input side just before the other data using buffer_replace().
692 * The goal is to transfer these new data in the output buffer.
693 */
694static inline int ci_space_for_replace(const struct channel *chn)
695{
Willy Tarreauc9fa0482018-07-10 17:43:27 +0200696 const struct buffer *buf = &chn->buf;
Willy Tarreau3f679992018-06-15 15:06:42 +0200697 const char *end;
698
699 /* If the input side data overflows, we cannot insert data contiguously. */
700 if (b_head(buf) + b_data(buf) >= b_wrap(buf))
701 return 0;
702
703 /* Check the last byte used in the buffer, it may be a byte of the output
704 * side if the buffer wraps, or its the end of the buffer.
705 */
706 end = b_head(buf);
707 if (end <= ci_head(chn))
708 end = b_wrap(buf);
709
710 /* Compute the amount of bytes which can be written. */
711 return end - ci_tail(chn);
712}
713
Christopher Fauleta73e59b2016-12-09 17:30:18 +0100714/* Allocates a buffer for channel <chn>, but only if it's guaranteed that it's
715 * not the last available buffer or it's the response buffer. Unless the buffer
716 * is the response buffer, an extra control is made so that we always keep
717 * <tune.buffers.reserved> buffers available after this allocation. Returns 0 in
718 * case of failure, non-zero otherwise.
719 *
720 * If no buffer are available, the requester, represented by <wait> pointer,
721 * will be added in the list of objects waiting for an available buffer.
722 */
723static inline int channel_alloc_buffer(struct channel *chn, struct buffer_wait *wait)
724{
725 int margin = 0;
726
727 if (!(chn->flags & CF_ISRESP))
728 margin = global.tune.reserved_bufs;
729
730 if (b_alloc_margin(&chn->buf, margin) != NULL)
731 return 1;
732
Emeric Bruna1dd2432017-06-21 15:42:52 +0200733 if (LIST_ISEMPTY(&wait->list)) {
Christopher Faulet2a944ee2017-11-07 10:42:54 +0100734 HA_SPIN_LOCK(BUF_WQ_LOCK, &buffer_wq_lock);
Christopher Fauleta73e59b2016-12-09 17:30:18 +0100735 LIST_ADDQ(&buffer_wq, &wait->list);
Christopher Faulet2a944ee2017-11-07 10:42:54 +0100736 HA_SPIN_UNLOCK(BUF_WQ_LOCK, &buffer_wq_lock);
Emeric Bruna1dd2432017-06-21 15:42:52 +0200737 }
738
Christopher Fauleta73e59b2016-12-09 17:30:18 +0100739 return 0;
740}
741
742/* Releases a possibly allocated buffer for channel <chn>. If it was not
743 * allocated, this function does nothing. Else the buffer is released and we try
744 * to wake up as many streams/applets as possible. */
745static inline void channel_release_buffer(struct channel *chn, struct buffer_wait *wait)
746{
Willy Tarreau0c7ed5d2018-07-10 09:53:31 +0200747 if (c_size(chn) && c_empty(chn)) {
Christopher Fauleta73e59b2016-12-09 17:30:18 +0100748 b_free(&chn->buf);
Olivier Houchard673867c2018-05-25 16:58:52 +0200749 offer_buffers(wait->target, tasks_run_queue);
Christopher Fauleta73e59b2016-12-09 17:30:18 +0100750 }
751}
752
Willy Tarreau319f7452015-01-14 20:32:59 +0100753/* Truncate any unread data in the channel's buffer, and disable forwarding.
754 * Outgoing data are left intact. This is mainly to be used to send error
755 * messages after existing data.
Willy Tarreau8263d2b2012-08-28 00:06:31 +0200756 */
Willy Tarreau319f7452015-01-14 20:32:59 +0100757static inline void channel_truncate(struct channel *chn)
Willy Tarreau8263d2b2012-08-28 00:06:31 +0200758{
Willy Tarreau3ee83442018-06-15 16:42:02 +0200759 if (!co_data(chn))
Willy Tarreau974ced62012-10-12 23:11:02 +0200760 return channel_erase(chn);
Willy Tarreau8263d2b2012-08-28 00:06:31 +0200761
Willy Tarreau974ced62012-10-12 23:11:02 +0200762 chn->to_forward = 0;
Willy Tarreau3ee83442018-06-15 16:42:02 +0200763 if (!ci_data(chn))
Willy Tarreau8263d2b2012-08-28 00:06:31 +0200764 return;
765
Willy Tarreauc9fa0482018-07-10 17:43:27 +0200766 chn->buf.data = co_data(chn);
Willy Tarreau8263d2b2012-08-28 00:06:31 +0200767}
768
Willy Tarreau4cf13002018-06-06 06:53:15 +0200769/* This function realigns a possibly wrapping channel buffer so that the input
770 * part is contiguous and starts at the beginning of the buffer and the output
771 * part ends at the end of the buffer. This provides the best conditions since
772 * it allows the largest inputs to be processed at once and ensures that once
773 * the output data leaves, the whole buffer is available at once.
774 */
Willy Tarreaufd8d42f2018-07-12 10:57:15 +0200775static inline void channel_slow_realign(struct channel *chn, char *swap)
Willy Tarreau4cf13002018-06-06 06:53:15 +0200776{
Willy Tarreauc9fa0482018-07-10 17:43:27 +0200777 return b_slow_realign(&chn->buf, swap, co_data(chn));
Willy Tarreau4cf13002018-06-06 06:53:15 +0200778}
779
Willy Tarreaubaaee002006-06-26 02:48:02 +0200780/*
Willy Tarreau8263d2b2012-08-28 00:06:31 +0200781 * Advance the channel buffer's read pointer by <len> bytes. This is useful
782 * when data have been read directly from the buffer. It is illegal to call
783 * this function with <len> causing a wrapping at the end of the buffer. It's
784 * the caller's responsibility to ensure that <len> is never larger than
Willy Tarreau974ced62012-10-12 23:11:02 +0200785 * chn->o. Channel flag WRITE_PARTIAL is set.
Willy Tarreau2b7addc2009-08-31 07:37:22 +0200786 */
Willy Tarreau06d80a92017-10-19 14:32:15 +0200787static inline void co_skip(struct channel *chn, int len)
Willy Tarreau2b7addc2009-08-31 07:37:22 +0200788{
Willy Tarreauc9fa0482018-07-10 17:43:27 +0200789 b_del(&chn->buf, len);
Olivier Houchard08afac02018-06-22 19:26:39 +0200790 chn->output -= len;
Willy Tarreau0c7ed5d2018-07-10 09:53:31 +0200791 c_realign_if_empty(chn);
Willy Tarreau2b7addc2009-08-31 07:37:22 +0200792
Willy Tarreaufb0e9202009-09-23 23:47:55 +0200793 /* notify that some data was written to the SI from the buffer */
Willy Tarreauede3d882018-10-24 17:17:56 +0200794 chn->flags |= CF_WRITE_PARTIAL;
Willy Tarreau2b7addc2009-08-31 07:37:22 +0200795}
Willy Tarreaubaaee002006-06-26 02:48:02 +0200796
Willy Tarreau8263d2b2012-08-28 00:06:31 +0200797/* Tries to copy chunk <chunk> into the channel's buffer after length controls.
Willy Tarreau974ced62012-10-12 23:11:02 +0200798 * The chn->o and to_forward pointers are updated. If the channel's input is
Willy Tarreau74b08c92010-09-08 17:04:31 +0200799 * closed, -2 is returned. If the block is too large for this buffer, -3 is
800 * returned. If there is not enough room left in the buffer, -1 is returned.
801 * Otherwise the number of bytes copied is returned (0 being a valid number).
Willy Tarreau8263d2b2012-08-28 00:06:31 +0200802 * Channel flag READ_PARTIAL is updated if some data can be transferred. The
Willy Tarreauf941cf22012-08-27 20:53:34 +0200803 * chunk's length is updated with the number of bytes sent.
Willy Tarreauaeac3192009-08-31 08:09:57 +0200804 */
Willy Tarreau83061a82018-07-13 11:56:34 +0200805static inline int ci_putchk(struct channel *chn, struct buffer *chunk)
Willy Tarreauaeac3192009-08-31 08:09:57 +0200806{
807 int ret;
808
Willy Tarreau843b7cb2018-07-13 10:54:26 +0200809 ret = ci_putblk(chn, chunk->area, chunk->data);
Willy Tarreau74b08c92010-09-08 17:04:31 +0200810 if (ret > 0)
Willy Tarreau843b7cb2018-07-13 10:54:26 +0200811 chunk->data -= ret;
Willy Tarreauaeac3192009-08-31 08:09:57 +0200812 return ret;
813}
814
Willy Tarreau8263d2b2012-08-28 00:06:31 +0200815/* Tries to copy string <str> at once into the channel's buffer after length
Willy Tarreau974ced62012-10-12 23:11:02 +0200816 * controls. The chn->o and to_forward pointers are updated. If the channel's
Willy Tarreau8263d2b2012-08-28 00:06:31 +0200817 * input is closed, -2 is returned. If the block is too large for this buffer,
818 * -3 is returned. If there is not enough room left in the buffer, -1 is
819 * returned. Otherwise the number of bytes copied is returned (0 being a valid
820 * number). Channel flag READ_PARTIAL is updated if some data can be
821 * transferred.
Willy Tarreau74b08c92010-09-08 17:04:31 +0200822 */
Willy Tarreau06d80a92017-10-19 14:32:15 +0200823static inline int ci_putstr(struct channel *chn, const char *str)
Willy Tarreau74b08c92010-09-08 17:04:31 +0200824{
Willy Tarreau06d80a92017-10-19 14:32:15 +0200825 return ci_putblk(chn, str, strlen(str));
Willy Tarreau74b08c92010-09-08 17:04:31 +0200826}
827
828/*
Willy Tarreau8263d2b2012-08-28 00:06:31 +0200829 * Return one char from the channel's buffer. If the buffer is empty and the
830 * channel is closed, return -2. If the buffer is just empty, return -1. The
Willy Tarreau06d80a92017-10-19 14:32:15 +0200831 * buffer's pointer is not advanced, it's up to the caller to call co_skip(buf,
Willy Tarreau8263d2b2012-08-28 00:06:31 +0200832 * 1) when it has consumed the char. Also note that this function respects the
Willy Tarreau974ced62012-10-12 23:11:02 +0200833 * chn->o limit.
Willy Tarreau74b08c92010-09-08 17:04:31 +0200834 */
Willy Tarreau06d80a92017-10-19 14:32:15 +0200835static inline int co_getchr(struct channel *chn)
Willy Tarreau74b08c92010-09-08 17:04:31 +0200836{
837 /* closed or empty + imminent close = -2; empty = -1 */
Willy Tarreau974ced62012-10-12 23:11:02 +0200838 if (unlikely((chn->flags & CF_SHUTW) || channel_is_empty(chn))) {
839 if (chn->flags & (CF_SHUTW|CF_SHUTW_NOW))
Willy Tarreau74b08c92010-09-08 17:04:31 +0200840 return -2;
841 return -1;
842 }
Willy Tarreau50227f92018-06-15 15:18:17 +0200843 return *co_head(chn);
Willy Tarreau74b08c92010-09-08 17:04:31 +0200844}
845
Willy Tarreaubaaee002006-06-26 02:48:02 +0200846
Willy Tarreauc7e42382012-08-24 19:22:53 +0200847#endif /* _PROTO_CHANNEL_H */
Willy Tarreaubaaee002006-06-26 02:48:02 +0200848
849/*
850 * Local variables:
851 * c-indent-level: 8
852 * c-basic-offset: 8
853 * End:
854 */