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27929fbfd7
The name of the function chn_sess is no longer appropriate. This patch renames it to chn_strm.
460 lines
15 KiB
C
460 lines
15 KiB
C
/*
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* include/proto/channel.h
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* Channel management definitions, macros and inline functions.
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*
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* Copyright (C) 2000-2014 Willy Tarreau - w@1wt.eu
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*
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* This library is free software; you can redistribute it and/or
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* modify it under the terms of the GNU Lesser General Public
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* License as published by the Free Software Foundation, version 2.1
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* exclusively.
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*
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* This library is distributed in the hope that it will be useful,
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* but WITHOUT ANY WARRANTY; without even the implied warranty of
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* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
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* Lesser General Public License for more details.
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*
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* You should have received a copy of the GNU Lesser General Public
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* License along with this library; if not, write to the Free Software
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* Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA
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*/
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#ifndef _PROTO_CHANNEL_H
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#define _PROTO_CHANNEL_H
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#include <stdio.h>
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#include <stdlib.h>
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#include <string.h>
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#include <common/config.h>
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#include <common/chunk.h>
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#include <common/ticks.h>
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#include <common/time.h>
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#include <types/channel.h>
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#include <types/global.h>
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#include <types/stream.h>
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#include <types/stream_interface.h>
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/* perform minimal intializations, report 0 in case of error, 1 if OK. */
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int init_channel();
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unsigned long long __channel_forward(struct channel *chn, unsigned long long bytes);
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/* SI-to-channel functions working with buffers */
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int bi_putblk(struct channel *chn, const char *str, int len);
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struct buffer *bi_swpbuf(struct channel *chn, struct buffer *buf);
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int bi_putchr(struct channel *chn, char c);
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int bi_getline_nc(struct channel *chn, char **blk1, int *len1, char **blk2, int *len2);
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int bi_getblk_nc(struct channel *chn, char **blk1, int *len1, char **blk2, int *len2);
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int bo_inject(struct channel *chn, const char *msg, int len);
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int bo_getline(struct channel *chn, char *str, int len);
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int bo_getblk(struct channel *chn, char *blk, int len, int offset);
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int bo_getline_nc(struct channel *chn, char **blk1, int *len1, char **blk2, int *len2);
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int bo_getblk_nc(struct channel *chn, char **blk1, int *len1, char **blk2, int *len2);
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/* returns a pointer to the stream the channel belongs to */
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static inline struct stream *chn_strm(const struct channel *chn)
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{
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if (chn->flags & CF_ISRESP)
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return LIST_ELEM(chn, struct stream *, res);
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else
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return LIST_ELEM(chn, struct stream *, req);
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}
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/* returns a pointer to the stream interface feeding the channel (producer) */
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static inline struct stream_interface *chn_prod(const struct channel *chn)
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{
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if (chn->flags & CF_ISRESP)
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return &LIST_ELEM(chn, struct stream *, res)->si[1];
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else
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return &LIST_ELEM(chn, struct stream *, req)->si[0];
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}
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/* returns a pointer to the stream interface consuming the channel (producer) */
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static inline struct stream_interface *chn_cons(const struct channel *chn)
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{
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if (chn->flags & CF_ISRESP)
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return &LIST_ELEM(chn, struct stream *, res)->si[0];
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else
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return &LIST_ELEM(chn, struct stream *, req)->si[1];
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}
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/* Initialize all fields in the channel. */
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static inline void channel_init(struct channel *chn)
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{
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chn->buf = &buf_empty;
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chn->to_forward = 0;
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chn->last_read = now_ms;
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chn->xfer_small = chn->xfer_large = 0;
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chn->total = 0;
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chn->pipe = NULL;
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chn->analysers = 0;
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chn->flags = 0;
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}
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/* Schedule up to <bytes> more bytes to be forwarded via the channel without
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* notifying the owner task. Any data pending in the buffer are scheduled to be
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* sent as well, in the limit of the number of bytes to forward. This must be
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* the only method to use to schedule bytes to be forwarded. If the requested
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* number is too large, it is automatically adjusted. The number of bytes taken
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* into account is returned. Directly touching ->to_forward will cause lockups
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* when buf->o goes down to zero if nobody is ready to push the remaining data.
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*/
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static inline unsigned long long channel_forward(struct channel *chn, unsigned long long bytes)
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{
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/* hint: avoid comparisons on long long for the fast case, since if the
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* length does not fit in an unsigned it, it will never be forwarded at
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* once anyway.
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*/
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if (bytes <= ~0U) {
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unsigned int bytes32 = bytes;
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if (bytes32 <= chn->buf->i) {
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/* OK this amount of bytes might be forwarded at once */
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b_adv(chn->buf, bytes32);
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return bytes;
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}
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}
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return __channel_forward(chn, bytes);
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}
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/*********************************************************************/
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/* These functions are used to compute various channel content sizes */
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/*********************************************************************/
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/* Reports non-zero if the channel is empty, which means both its
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* buffer and pipe are empty. The construct looks strange but is
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* jump-less and much more efficient on both 32 and 64-bit than
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* the boolean test.
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*/
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static inline unsigned int channel_is_empty(struct channel *c)
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{
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return !(c->buf->o | (long)c->pipe);
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}
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/* Returns non-zero if the channel is rewritable, which means that the buffer
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* it is attached to has at least <maxrewrite> bytes immediately available.
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* This is used to decide when a request or response may be parsed when some
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* data from a previous exchange might still be present.
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*/
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static inline int channel_is_rewritable(const struct channel *chn)
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{
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int rem = chn->buf->size;
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rem -= chn->buf->o;
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rem -= chn->buf->i;
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rem -= global.tune.maxrewrite;
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return rem >= 0;
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}
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/* Tells whether data are likely to leave the buffer. This is used to know when
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* we can safely ignore the reserve since we know we cannot retry a connection.
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* It returns zero if data are blocked, non-zero otherwise.
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*/
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static inline int channel_may_send(const struct channel *chn)
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{
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return chn_cons(chn)->state == SI_ST_EST;
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}
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/* Returns the amount of bytes from the channel that are already scheduled for
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* leaving (buf->o) or that are still part of the input and expected to be sent
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* soon as covered by to_forward. This is useful to know by how much we can
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* shrink the rewrite reserve during forwards. Buffer data are not considered
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* in transit until the channel is connected, so that the reserve remains
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* protected.
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*/
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static inline int channel_in_transit(const struct channel *chn)
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{
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int ret;
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if (!channel_may_send(chn))
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return 0;
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/* below, this is min(i, to_forward) optimized for the fast case */
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if (chn->to_forward >= chn->buf->i ||
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(CHN_INFINITE_FORWARD < MAX_RANGE(typeof(chn->buf->i)) &&
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chn->to_forward == CHN_INFINITE_FORWARD))
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ret = chn->buf->i;
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else
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ret = chn->to_forward;
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ret += chn->buf->o;
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return ret;
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}
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/* Returns non-zero if the channel can still receive data. This is used to
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* decide when to stop reading into a buffer when we want to ensure that we
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* leave the reserve untouched after all pending outgoing data are forwarded.
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* The reserved space is taken into account if ->to_forward indicates that an
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* end of transfer is close to happen. Note that both ->buf->o and ->to_forward
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* are considered as available since they're supposed to leave the buffer. The
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* test is optimized to avoid as many operations as possible for the fast case
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* and to be used as an "if" condition.
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*/
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static inline int channel_may_recv(const struct channel *chn)
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{
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int rem = chn->buf->size;
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if (chn->buf == &buf_empty)
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return 1;
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rem -= chn->buf->o;
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rem -= chn->buf->i;
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if (!rem)
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return 0; /* buffer already full */
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/* now we know there's some room left, verify if we're touching
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* the reserve with some permanent input data.
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*/
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if (chn->to_forward >= chn->buf->i ||
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(CHN_INFINITE_FORWARD < MAX_RANGE(typeof(chn->buf->i)) && // just there to ensure gcc
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chn->to_forward == CHN_INFINITE_FORWARD)) // avoids the useless second
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return 1; // test whenever possible
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rem -= global.tune.maxrewrite;
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rem += chn->buf->o;
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rem += chn->to_forward;
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return rem > 0;
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}
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/* Returns true if the channel's input is already closed */
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static inline int channel_input_closed(struct channel *chn)
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{
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return ((chn->flags & CF_SHUTR) != 0);
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}
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/* Returns true if the channel's output is already closed */
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static inline int channel_output_closed(struct channel *chn)
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{
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return ((chn->flags & CF_SHUTW) != 0);
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}
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/* Check channel timeouts, and set the corresponding flags. The likely/unlikely
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* have been optimized for fastest normal path. The read/write timeouts are not
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* set if there was activity on the channel. That way, we don't have to update
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* the timeout on every I/O. Note that the analyser timeout is always checked.
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*/
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static inline void channel_check_timeouts(struct channel *chn)
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{
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if (likely(!(chn->flags & (CF_SHUTR|CF_READ_TIMEOUT|CF_READ_ACTIVITY|CF_READ_NOEXP))) &&
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unlikely(tick_is_expired(chn->rex, now_ms)))
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chn->flags |= CF_READ_TIMEOUT;
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if (likely(!(chn->flags & (CF_SHUTW|CF_WRITE_TIMEOUT|CF_WRITE_ACTIVITY))) &&
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unlikely(tick_is_expired(chn->wex, now_ms)))
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chn->flags |= CF_WRITE_TIMEOUT;
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if (likely(!(chn->flags & CF_ANA_TIMEOUT)) &&
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unlikely(tick_is_expired(chn->analyse_exp, now_ms)))
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chn->flags |= CF_ANA_TIMEOUT;
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}
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/* Erase any content from channel <buf> and adjusts flags accordingly. Note
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* that any spliced data is not affected since we may not have any access to
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* it.
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*/
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static inline void channel_erase(struct channel *chn)
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{
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chn->to_forward = 0;
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b_reset(chn->buf);
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}
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/* marks the channel as "shutdown" ASAP for reads */
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static inline void channel_shutr_now(struct channel *chn)
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{
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chn->flags |= CF_SHUTR_NOW;
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}
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/* marks the channel as "shutdown" ASAP for writes */
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static inline void channel_shutw_now(struct channel *chn)
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{
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chn->flags |= CF_SHUTW_NOW;
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}
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/* marks the channel as "shutdown" ASAP in both directions */
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static inline void channel_abort(struct channel *chn)
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{
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chn->flags |= CF_SHUTR_NOW | CF_SHUTW_NOW;
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chn->flags &= ~CF_AUTO_CONNECT;
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}
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/* allow the consumer to try to establish a new connection. */
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static inline void channel_auto_connect(struct channel *chn)
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{
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chn->flags |= CF_AUTO_CONNECT;
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}
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/* prevent the consumer from trying to establish a new connection, and also
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* disable auto shutdown forwarding.
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*/
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static inline void channel_dont_connect(struct channel *chn)
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{
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chn->flags &= ~(CF_AUTO_CONNECT|CF_AUTO_CLOSE);
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}
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/* allow the producer to forward shutdown requests */
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static inline void channel_auto_close(struct channel *chn)
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{
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chn->flags |= CF_AUTO_CLOSE;
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}
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/* prevent the producer from forwarding shutdown requests */
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static inline void channel_dont_close(struct channel *chn)
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{
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chn->flags &= ~CF_AUTO_CLOSE;
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}
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/* allow the producer to read / poll the input */
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static inline void channel_auto_read(struct channel *chn)
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{
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chn->flags &= ~CF_DONT_READ;
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}
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/* prevent the producer from read / poll the input */
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static inline void channel_dont_read(struct channel *chn)
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{
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chn->flags |= CF_DONT_READ;
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}
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/*************************************************/
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/* Buffer operations in the context of a channel */
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/*************************************************/
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/* Return the number of reserved bytes in the channel's visible
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* buffer, which ensures that once all pending data are forwarded, the
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* buffer still has global.tune.maxrewrite bytes free. The result is
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* between 0 and global.tune.maxrewrite, which is itself smaller than
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* any chn->size. Special care is taken to avoid any possible integer
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* overflow in the operations.
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*/
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static inline int channel_reserved(const struct channel *chn)
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{
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int reserved;
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reserved = global.tune.maxrewrite - channel_in_transit(chn);
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if (reserved < 0)
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reserved = 0;
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return reserved;
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}
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/* Return the max number of bytes the buffer can contain so that once all the
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* data in transit are forwarded, the buffer still has global.tune.maxrewrite
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* bytes free. The result sits between chn->size - maxrewrite and chn->size.
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*/
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static inline int channel_recv_limit(const struct channel *chn)
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{
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return chn->buf->size - channel_reserved(chn);
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}
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/* Returns the amount of space available at the input of the buffer, taking the
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* reserved space into account if ->to_forward indicates that an end of transfer
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* is close to happen. The test is optimized to avoid as many operations as
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* possible for the fast case.
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*/
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static inline int channel_recv_max(const struct channel *chn)
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{
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int ret;
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ret = channel_recv_limit(chn) - chn->buf->i - chn->buf->o;
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if (ret < 0)
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ret = 0;
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return ret;
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}
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/* Truncate any unread data in the channel's buffer, and disable forwarding.
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* Outgoing data are left intact. This is mainly to be used to send error
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* messages after existing data.
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*/
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static inline void channel_truncate(struct channel *chn)
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{
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if (!chn->buf->o)
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return channel_erase(chn);
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chn->to_forward = 0;
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if (!chn->buf->i)
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return;
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chn->buf->i = 0;
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}
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/*
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* Advance the channel buffer's read pointer by <len> bytes. This is useful
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* when data have been read directly from the buffer. It is illegal to call
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* this function with <len> causing a wrapping at the end of the buffer. It's
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* the caller's responsibility to ensure that <len> is never larger than
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* chn->o. Channel flag WRITE_PARTIAL is set.
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*/
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static inline void bo_skip(struct channel *chn, int len)
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{
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chn->buf->o -= len;
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if (buffer_empty(chn->buf))
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chn->buf->p = chn->buf->data;
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/* notify that some data was written to the SI from the buffer */
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chn->flags |= CF_WRITE_PARTIAL;
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}
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/* Tries to copy chunk <chunk> into the channel's buffer after length controls.
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* The chn->o and to_forward pointers are updated. If the channel's input is
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* closed, -2 is returned. If the block is too large for this buffer, -3 is
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* returned. If there is not enough room left in the buffer, -1 is returned.
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* Otherwise the number of bytes copied is returned (0 being a valid number).
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* Channel flag READ_PARTIAL is updated if some data can be transferred. The
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* chunk's length is updated with the number of bytes sent.
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*/
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static inline int bi_putchk(struct channel *chn, struct chunk *chunk)
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{
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int ret;
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ret = bi_putblk(chn, chunk->str, chunk->len);
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if (ret > 0)
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chunk->len -= ret;
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return ret;
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}
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/* Tries to copy string <str> at once into the channel's buffer after length
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* controls. The chn->o and to_forward pointers are updated. If the channel's
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* input is closed, -2 is returned. If the block is too large for this buffer,
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* -3 is returned. If there is not enough room left in the buffer, -1 is
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* returned. Otherwise the number of bytes copied is returned (0 being a valid
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* number). Channel flag READ_PARTIAL is updated if some data can be
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* transferred.
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*/
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static inline int bi_putstr(struct channel *chn, const char *str)
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{
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return bi_putblk(chn, str, strlen(str));
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}
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/*
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* Return one char from the channel's buffer. If the buffer is empty and the
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* channel is closed, return -2. If the buffer is just empty, return -1. The
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* buffer's pointer is not advanced, it's up to the caller to call bo_skip(buf,
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* 1) when it has consumed the char. Also note that this function respects the
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* chn->o limit.
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*/
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static inline int bo_getchr(struct channel *chn)
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{
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/* closed or empty + imminent close = -2; empty = -1 */
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if (unlikely((chn->flags & CF_SHUTW) || channel_is_empty(chn))) {
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if (chn->flags & (CF_SHUTW|CF_SHUTW_NOW))
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return -2;
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return -1;
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}
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return *buffer_wrap_sub(chn->buf, chn->buf->p - chn->buf->o);
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}
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#endif /* _PROTO_CHANNEL_H */
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/*
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* Local variables:
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* c-indent-level: 8
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* c-basic-offset: 8
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* End:
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*/
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