mirror of
http://git.haproxy.org/git/haproxy.git/
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638698da37
The stream-int code doesn't need to load server.h as it doesn't use servers at all. However removing this one reveals that proxy.h was lacking types/checks.h that used to be silently inherited from types/server.h loaded before in stream_interface.h.
578 lines
18 KiB
C
578 lines
18 KiB
C
/*
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* include/proto/stream_interface.h
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* This file contains stream_interface function prototypes
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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_STREAM_INTERFACE_H
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#define _PROTO_STREAM_INTERFACE_H
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#include <stdlib.h>
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#include <common/config.h>
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#include <types/stream.h>
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#include <types/stream_interface.h>
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#include <proto/applet.h>
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#include <proto/channel.h>
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#include <proto/connection.h>
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extern struct si_ops si_embedded_ops;
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extern struct si_ops si_conn_ops;
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extern struct si_ops si_applet_ops;
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extern struct data_cb si_conn_cb;
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/* main event functions used to move data between sockets and buffers */
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int si_check_timeouts(struct stream_interface *si);
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void si_report_error(struct stream_interface *si);
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void si_retnclose(struct stream_interface *si, const struct buffer *msg);
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int conn_si_send_proxy(struct connection *conn, unsigned int flag);
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struct appctx *si_register_handler(struct stream_interface *si, struct applet *app);
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void si_applet_wake_cb(struct stream_interface *si);
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void si_update_rx(struct stream_interface *si);
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void si_update_tx(struct stream_interface *si);
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int si_cs_recv(struct conn_stream *cs);
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struct task *si_cs_io_cb(struct task *t, void *ctx, unsigned short state);
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void si_update_both(struct stream_interface *si_f, struct stream_interface *si_b);
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void si_sync_send(struct stream_interface *si);
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/* returns the channel which receives data from this stream interface (input channel) */
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static inline struct channel *si_ic(struct stream_interface *si)
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{
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if (si->flags & SI_FL_ISBACK)
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return &LIST_ELEM(si, struct stream *, si[1])->res;
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else
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return &LIST_ELEM(si, struct stream *, si[0])->req;
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}
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/* returns the channel which feeds data to this stream interface (output channel) */
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static inline struct channel *si_oc(struct stream_interface *si)
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{
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if (si->flags & SI_FL_ISBACK)
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return &LIST_ELEM(si, struct stream *, si[1])->req;
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else
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return &LIST_ELEM(si, struct stream *, si[0])->res;
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}
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/* returns the buffer which receives data from this stream interface (input channel's buffer) */
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static inline struct buffer *si_ib(struct stream_interface *si)
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{
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return &si_ic(si)->buf;
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}
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/* returns the buffer which feeds data to this stream interface (output channel's buffer) */
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static inline struct buffer *si_ob(struct stream_interface *si)
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{
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return &si_oc(si)->buf;
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}
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/* returns the stream associated to a stream interface */
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static inline struct stream *si_strm(struct stream_interface *si)
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{
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if (si->flags & SI_FL_ISBACK)
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return LIST_ELEM(si, struct stream *, si[1]);
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else
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return LIST_ELEM(si, struct stream *, si[0]);
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}
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/* returns the task associated to this stream interface */
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static inline struct task *si_task(struct stream_interface *si)
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{
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if (si->flags & SI_FL_ISBACK)
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return LIST_ELEM(si, struct stream *, si[1])->task;
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else
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return LIST_ELEM(si, struct stream *, si[0])->task;
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}
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/* returns the stream interface on the other side. Used during forwarding. */
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static inline struct stream_interface *si_opposite(struct stream_interface *si)
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{
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if (si->flags & SI_FL_ISBACK)
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return &LIST_ELEM(si, struct stream *, si[1])->si[0];
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else
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return &LIST_ELEM(si, struct stream *, si[0])->si[1];
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}
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/* initializes a stream interface in the SI_ST_INI state. It's detached from
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* any endpoint and only keeps its side which is expected to have already been
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* set.
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*/
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static inline int si_reset(struct stream_interface *si)
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{
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si->err_type = SI_ET_NONE;
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si->conn_retries = 0; /* used for logging too */
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si->exp = TICK_ETERNITY;
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si->flags &= SI_FL_ISBACK;
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si->end = NULL;
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si->state = si->prev_state = SI_ST_INI;
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si->ops = &si_embedded_ops;
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si->wait_event.tasklet = tasklet_new();
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if (!si->wait_event.tasklet)
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return -1;
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si->wait_event.tasklet->process = si_cs_io_cb;
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si->wait_event.tasklet->context = si;
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si->wait_event.events = 0;
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return 0;
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}
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/* sets the current and previous state of a stream interface to <state>. This
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* is mainly used to create one in the established state on incoming
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* conncetions.
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*/
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static inline void si_set_state(struct stream_interface *si, int state)
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{
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si->state = si->prev_state = state;
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}
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/* returns a bit for a stream-int state, to match against SI_SB_* */
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static inline enum si_state_bit si_state_bit(enum si_state state)
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{
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BUG_ON(state > SI_ST_CLO);
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return 1U << state;
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}
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/* returns true if <state> matches one of the SI_SB_* bits in <mask> */
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static inline int si_state_in(enum si_state state, enum si_state_bit mask)
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{
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BUG_ON(mask & ~SI_SB_ALL);
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return !!(si_state_bit(state) & mask);
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}
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/* only detaches the endpoint from the SI, which means that it's set to
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* NULL and that ->ops is mapped to si_embedded_ops. The previous endpoint
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* is returned.
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*/
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static inline enum obj_type *si_detach_endpoint(struct stream_interface *si)
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{
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enum obj_type *prev = si->end;
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si->end = NULL;
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si->ops = &si_embedded_ops;
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return prev;
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}
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/* Release the endpoint if it's a connection or an applet, then nullify it.
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* Note: released connections are closed then freed.
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*/
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static inline void si_release_endpoint(struct stream_interface *si)
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{
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struct conn_stream *cs;
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struct appctx *appctx;
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if (!si->end)
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return;
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if ((cs = objt_cs(si->end))) {
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if (si->wait_event.events != 0)
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cs->conn->mux->unsubscribe(cs, si->wait_event.events,
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&si->wait_event);
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cs_destroy(cs);
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}
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else if ((appctx = objt_appctx(si->end))) {
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if (appctx->applet->release && !si_state_in(si->state, SI_SB_DIS|SI_SB_CLO))
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appctx->applet->release(appctx);
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appctx_free(appctx);
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}
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si_detach_endpoint(si);
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}
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/* Attach conn_stream <cs> to the stream interface <si>. The stream interface
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* is configured to work with a connection and the connection it configured
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* with a stream interface data layer.
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*/
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static inline void si_attach_cs(struct stream_interface *si, struct conn_stream *cs)
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{
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si->ops = &si_conn_ops;
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si->end = &cs->obj_type;
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cs_attach(cs, si, &si_conn_cb);
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}
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/* Returns true if a connection is attached to the stream interface <si> and
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* if this connection is ready.
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*/
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static inline int si_conn_ready(struct stream_interface *si)
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{
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struct connection *conn = cs_conn(objt_cs(si->end));
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return conn && conn_ctrl_ready(conn) && conn_xprt_ready(conn);
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}
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/* Attach appctx <appctx> to the stream interface <si>. The stream interface
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* is configured to work with an applet context.
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*/
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static inline void si_attach_appctx(struct stream_interface *si, struct appctx *appctx)
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{
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si->ops = &si_applet_ops;
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si->end = &appctx->obj_type;
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appctx->owner = si;
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}
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/* returns a pointer to the appctx being run in the SI, which must be valid */
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static inline struct appctx *si_appctx(struct stream_interface *si)
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{
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return __objt_appctx(si->end);
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}
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/* call the applet's release function if any. Needs to be called upon close() */
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static inline void si_applet_release(struct stream_interface *si)
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{
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struct appctx *appctx;
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appctx = objt_appctx(si->end);
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if (appctx && appctx->applet->release && !si_state_in(si->state, SI_SB_DIS|SI_SB_CLO))
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appctx->applet->release(appctx);
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}
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/* Returns non-zero if the stream interface's Rx path is blocked */
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static inline int si_rx_blocked(const struct stream_interface *si)
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{
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return !!(si->flags & SI_FL_RXBLK_ANY);
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}
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/* Returns non-zero if the stream interface's endpoint is ready to receive */
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static inline int si_rx_endp_ready(const struct stream_interface *si)
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{
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return !(si->flags & SI_FL_RX_WAIT_EP);
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}
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/* The stream interface announces it is ready to try to deliver more data to the input buffer */
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static inline void si_rx_endp_more(struct stream_interface *si)
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{
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si->flags &= ~SI_FL_RX_WAIT_EP;
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}
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/* The stream interface announces it doesn't have more data for the input buffer */
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static inline void si_rx_endp_done(struct stream_interface *si)
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{
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si->flags |= SI_FL_RX_WAIT_EP;
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}
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/* Tell a stream interface the input channel is OK with it sending it some data */
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static inline void si_rx_chan_rdy(struct stream_interface *si)
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{
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si->flags &= ~SI_FL_RXBLK_CHAN;
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}
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/* Tell a stream interface the input channel is not OK with it sending it some data */
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static inline void si_rx_chan_blk(struct stream_interface *si)
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{
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si->flags |= SI_FL_RXBLK_CHAN;
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}
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/* Tell a stream interface the other side is connected */
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static inline void si_rx_conn_rdy(struct stream_interface *si)
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{
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si->flags &= ~SI_FL_RXBLK_CONN;
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}
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/* Tell a stream interface it must wait for the other side to connect */
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static inline void si_rx_conn_blk(struct stream_interface *si)
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{
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si->flags |= SI_FL_RXBLK_CONN;
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}
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/* The stream interface just got the input buffer it was waiting for */
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static inline void si_rx_buff_rdy(struct stream_interface *si)
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{
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si->flags &= ~SI_FL_RXBLK_BUFF;
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}
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/* The stream interface failed to get an input buffer and is waiting for it.
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* Since it indicates a willingness to deliver data to the buffer that will
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* have to be retried, we automatically clear RXBLK_ENDP to be called again
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* as soon as RXBLK_BUFF is cleared.
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*/
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static inline void si_rx_buff_blk(struct stream_interface *si)
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{
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si->flags |= SI_FL_RXBLK_BUFF;
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}
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/* Tell a stream interface some room was made in the input buffer */
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static inline void si_rx_room_rdy(struct stream_interface *si)
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{
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si->flags &= ~SI_FL_RXBLK_ROOM;
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}
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/* The stream interface announces it failed to put data into the input buffer
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* by lack of room. Since it indicates a willingness to deliver data to the
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* buffer that will have to be retried, we automatically clear RXBLK_ENDP to
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* be called again as soon as RXBLK_ROOM is cleared.
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*/
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static inline void si_rx_room_blk(struct stream_interface *si)
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{
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si->flags |= SI_FL_RXBLK_ROOM;
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}
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/* The stream interface announces it will never put new data into the input
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* buffer and that it's not waiting for its endpoint to deliver anything else.
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* This function obviously doesn't have a _rdy equivalent.
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*/
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static inline void si_rx_shut_blk(struct stream_interface *si)
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{
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si->flags |= SI_FL_RXBLK_SHUT;
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}
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/* Returns non-zero if the stream interface's Rx path is blocked */
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static inline int si_tx_blocked(const struct stream_interface *si)
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{
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return !!(si->flags & SI_FL_WAIT_DATA);
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}
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/* Returns non-zero if the stream interface's endpoint is ready to transmit */
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static inline int si_tx_endp_ready(const struct stream_interface *si)
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{
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return (si->flags & SI_FL_WANT_GET);
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}
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/* Report that a stream interface wants to get some data from the output buffer */
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static inline void si_want_get(struct stream_interface *si)
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{
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si->flags |= SI_FL_WANT_GET;
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}
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/* Report that a stream interface failed to get some data from the output buffer */
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static inline void si_cant_get(struct stream_interface *si)
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{
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si->flags |= SI_FL_WANT_GET | SI_FL_WAIT_DATA;
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}
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/* Report that a stream interface doesn't want to get data from the output buffer */
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static inline void si_stop_get(struct stream_interface *si)
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{
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si->flags &= ~SI_FL_WANT_GET;
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}
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/* Report that a stream interface won't get any more data from the output buffer */
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static inline void si_done_get(struct stream_interface *si)
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{
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si->flags &= ~(SI_FL_WANT_GET | SI_FL_WAIT_DATA);
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}
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/* Try to allocate a new conn_stream and assign it to the interface. If
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* an endpoint was previously allocated, it is released first. The newly
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* allocated conn_stream is initialized, assigned to the stream interface,
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* and returned.
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*/
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static inline struct conn_stream *si_alloc_cs(struct stream_interface *si, struct connection *conn)
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{
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struct conn_stream *cs;
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si_release_endpoint(si);
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cs = cs_new(conn);
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if (cs)
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si_attach_cs(si, cs);
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return cs;
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}
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/* Try to allocate a buffer for the stream-int's input channel. It relies on
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* channel_alloc_buffer() for this so it abides by its rules. It returns 0 on
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* failure, non-zero otherwise. If no buffer is available, the requester,
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* represented by the <wait> pointer, will be added in the list of objects
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* waiting for an available buffer, and SI_FL_RXBLK_BUFF will be set on the
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* stream-int and SI_FL_RX_WAIT_EP cleared. The requester will be responsible
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* for calling this function to try again once woken up.
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*/
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static inline int si_alloc_ibuf(struct stream_interface *si, struct buffer_wait *wait)
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{
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int ret;
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ret = channel_alloc_buffer(si_ic(si), wait);
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if (!ret)
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si_rx_buff_blk(si);
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return ret;
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}
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/* Release the interface's existing endpoint (connection or appctx) and
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* allocate then initialize a new appctx which is assigned to the interface
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* and returned. NULL may be returned upon memory shortage. Applet <applet>
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* is assigned to the appctx, but it may be NULL.
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*/
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static inline struct appctx *si_alloc_appctx(struct stream_interface *si, struct applet *applet)
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{
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struct appctx *appctx;
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si_release_endpoint(si);
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appctx = appctx_new(applet, tid_bit);
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if (appctx) {
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si_attach_appctx(si, appctx);
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appctx->t->nice = si_strm(si)->task->nice;
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}
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return appctx;
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}
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/* Sends a shutr to the connection using the data layer */
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static inline void si_shutr(struct stream_interface *si)
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{
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si->ops->shutr(si);
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}
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/* Sends a shutw to the connection using the data layer */
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static inline void si_shutw(struct stream_interface *si)
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{
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si->ops->shutw(si);
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}
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/* Marks on the stream-interface that next shutw must kill the whole connection */
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static inline void si_must_kill_conn(struct stream_interface *si)
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{
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si->flags |= SI_FL_KILL_CONN;
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}
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/* This is to be used after making some room available in a channel. It will
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* return without doing anything if the stream interface's RX path is blocked.
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* It will automatically mark the stream interface as busy processing the end
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* point in order to avoid useless repeated wakeups.
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* It will then call ->chk_rcv() to enable receipt of new data.
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*/
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static inline void si_chk_rcv(struct stream_interface *si)
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{
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if (si->flags & SI_FL_RXBLK_CONN && si_state_in(si_opposite(si)->state, SI_SB_RDY|SI_SB_EST|SI_SB_DIS|SI_SB_CLO))
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si_rx_conn_rdy(si);
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if (si_rx_blocked(si) || !si_rx_endp_ready(si))
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return;
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if (!si_state_in(si->state, SI_SB_RDY|SI_SB_EST))
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return;
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si->flags |= SI_FL_RX_WAIT_EP;
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si->ops->chk_rcv(si);
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}
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/* This tries to perform a synchronous receive on the stream interface to
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* try to collect last arrived data. In practice it's only implemented on
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* conn_streams. Returns 0 if nothing was done, non-zero if new data or a
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* shutdown were collected. This may result on some delayed receive calls
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* to be programmed and performed later, though it doesn't provide any
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* such guarantee.
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*/
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static inline int si_sync_recv(struct stream_interface *si)
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{
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struct conn_stream *cs;
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if (!si_state_in(si->state, SI_SB_RDY|SI_SB_EST))
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return 0;
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cs = objt_cs(si->end);
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if (!cs || !cs->conn->mux)
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return 0; // only conn_streams are supported
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if (si->wait_event.events & SUB_RETRY_RECV)
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return 0; // already subscribed
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|
if (!si_rx_endp_ready(si) || si_rx_blocked(si))
|
|
return 0; // already failed
|
|
|
|
return si_cs_recv(cs);
|
|
}
|
|
|
|
/* Calls chk_snd on the connection using the data layer */
|
|
static inline void si_chk_snd(struct stream_interface *si)
|
|
{
|
|
si->ops->chk_snd(si);
|
|
}
|
|
|
|
/* Calls chk_snd on the connection using the ctrl layer */
|
|
static inline int si_connect(struct stream_interface *si, struct connection *conn)
|
|
{
|
|
int ret = SF_ERR_NONE;
|
|
int conn_flags = 0;
|
|
|
|
if (unlikely(!conn || !conn->ctrl || !conn->ctrl->connect))
|
|
return SF_ERR_INTERNAL;
|
|
|
|
if (!channel_is_empty(si_oc(si)))
|
|
conn_flags |= CONNECT_HAS_DATA;
|
|
if (si->conn_retries == si_strm(si)->be->conn_retries)
|
|
conn_flags |= CONNECT_CAN_USE_TFO;
|
|
if (!conn_ctrl_ready(conn) || !conn_xprt_ready(conn)) {
|
|
ret = conn->ctrl->connect(conn, conn_flags);
|
|
if (ret != SF_ERR_NONE)
|
|
return ret;
|
|
|
|
/* we're in the process of establishing a connection */
|
|
si->state = SI_ST_CON;
|
|
}
|
|
else {
|
|
/* try to reuse the existing connection, it will be
|
|
* confirmed once we can send on it.
|
|
*/
|
|
/* Is the connection really ready ? */
|
|
if (conn->mux->ctl(conn, MUX_STATUS, NULL) & MUX_STATUS_READY)
|
|
si->state = SI_ST_RDY;
|
|
else
|
|
si->state = SI_ST_CON;
|
|
}
|
|
|
|
/* needs src ip/port for logging */
|
|
if (si->flags & SI_FL_SRC_ADDR)
|
|
conn_get_src(conn);
|
|
|
|
return ret;
|
|
}
|
|
|
|
/* Combines both si_update_rx() and si_update_tx() at once */
|
|
static inline void si_update(struct stream_interface *si)
|
|
{
|
|
si_update_rx(si);
|
|
si_update_tx(si);
|
|
}
|
|
|
|
/* Returns info about the conn_stream <cs>, if not NULL. It call the mux layer's
|
|
* get_cs_info() function, if it exists. On success, it returns a cs_info
|
|
* structure. Otherwise, on error, if the mux does not implement get_cs_info()
|
|
* or if conn_stream is NULL, NULL is returned.
|
|
*/
|
|
static inline const struct cs_info *si_get_cs_info(struct conn_stream *cs)
|
|
{
|
|
if (cs && cs->conn->mux->get_cs_info)
|
|
return cs->conn->mux->get_cs_info(cs);
|
|
return NULL;
|
|
}
|
|
|
|
/* for debugging, reports the stream interface state name */
|
|
static inline const char *si_state_str(int state)
|
|
{
|
|
switch (state) {
|
|
case SI_ST_INI: return "INI";
|
|
case SI_ST_REQ: return "REQ";
|
|
case SI_ST_QUE: return "QUE";
|
|
case SI_ST_TAR: return "TAR";
|
|
case SI_ST_ASS: return "ASS";
|
|
case SI_ST_CON: return "CON";
|
|
case SI_ST_CER: return "CER";
|
|
case SI_ST_RDY: return "RDY";
|
|
case SI_ST_EST: return "EST";
|
|
case SI_ST_DIS: return "DIS";
|
|
case SI_ST_CLO: return "CLO";
|
|
default: return "???";
|
|
}
|
|
}
|
|
|
|
#endif /* _PROTO_STREAM_INTERFACE_H */
|
|
|
|
/*
|
|
* Local variables:
|
|
* c-indent-level: 8
|
|
* c-basic-offset: 8
|
|
* End:
|
|
*/
|