haproxy/include/proto/session.h

/*
 * include/proto/session.h
 * This file defines everything related to sessions.
 *
 * Copyright (C) 2000-2010 Willy Tarreau - w@1wt.eu
 *
 * This library is free software; you can redistribute it and/or
 * modify it under the terms of the GNU Lesser General Public
 * License as published by the Free Software Foundation, version 2.1
 * exclusively.
 *
 * This library is distributed in the hope that it will be useful,
 * but WITHOUT ANY WARRANTY; without even the implied warranty of
 * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the GNU
 * Lesser General Public License for more details.
 *
 * You should have received a copy of the GNU Lesser General Public
 * License along with this library; if not, write to the Free Software
 * Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA  02110-1301  USA
 */

#ifndef _PROTO_SESSION_H
#define _PROTO_SESSION_H

#include <common/config.h>
#include <common/memory.h>
#include <types/session.h>
#include <proto/fd.h>
#include <proto/freq_ctr.h>
#include <proto/stick_table.h>
#include <proto/task.h>

extern struct pool_head *pool2_session;
extern struct list sessions;
extern struct list buffer_wq;

extern struct data_cb sess_conn_cb;

int session_accept(struct listener *l, int cfd, struct sockaddr_storage *addr);

/* perform minimal intializations, report 0 in case of error, 1 if OK. */
int init_session();

/* kill a session and set the termination flags to <why> (one of SN_ERR_*) */
void session_shutdown(struct session *session, int why);

void session_process_counters(struct session *s);
void sess_change_server(struct session *sess, struct server *newsrv);
struct task *process_session(struct task *t);
void default_srv_error(struct session *s, struct stream_interface *si);
struct stkctr *smp_fetch_sc_stkctr(struct session *l4, const struct arg *args, const char *kw);
int parse_track_counters(char **args, int *arg,
			 int section_type, struct proxy *curpx,
			 struct track_ctr_prm *prm,
			 struct proxy *defpx, char **err);

/* Update the session's backend and server time stats */
void session_update_time_stats(struct session *s);
void __session_offer_buffers(int rqlimit);
static inline void session_offer_buffers();
int session_alloc_work_buffer(struct session *s);
void session_release_buffers(struct session *s);
int session_alloc_recv_buffer(struct channel *chn);

/* sets the stick counter's entry pointer */
static inline void stkctr_set_entry(struct stkctr *stkctr, struct stksess *entry)
{
	stkctr->entry = caddr_from_ptr(entry, 0);
}

/* returns the entry pointer from a stick counter */
static inline struct stksess *stkctr_entry(struct stkctr *stkctr)
{
	return caddr_to_ptr(stkctr->entry);
}

/* returns the two flags from a stick counter */
static inline unsigned int stkctr_flags(struct stkctr *stkctr)
{
	return caddr_to_data(stkctr->entry);
}

/* sets up to two flags at a time on a composite address */
static inline void stkctr_set_flags(struct stkctr *stkctr, unsigned int flags)
{
	stkctr->entry = caddr_set_flags(stkctr->entry, flags);
}

/* returns the two flags from a stick counter */
static inline void stkctr_clr_flags(struct stkctr *stkctr, unsigned int flags)
{
	stkctr->entry = caddr_clr_flags(stkctr->entry, flags);
}

/* Remove the refcount from the session to the tracked counters, and clear the
 * pointer to ensure this is only performed once. The caller is responsible for
 * ensuring that the pointer is valid first.
 */
static inline void session_store_counters(struct session *s)
{
	void *ptr;
	int i;

	for (i = 0; i < MAX_SESS_STKCTR; i++) {
		if (!stkctr_entry(&s->stkctr[i]))
			continue;
		ptr = stktable_data_ptr(s->stkctr[i].table, stkctr_entry(&s->stkctr[i]), STKTABLE_DT_CONN_CUR);
		if (ptr)
			stktable_data_cast(ptr, conn_cur)--;
		stkctr_entry(&s->stkctr[i])->ref_cnt--;
		stksess_kill_if_expired(s->stkctr[i].table, stkctr_entry(&s->stkctr[i]));
		stkctr_set_entry(&s->stkctr[i], NULL);
	}
}

/* Remove the refcount from the session counters tracked at the content level if
 * any, and clear the pointer to ensure this is only performed once. The caller
 * is responsible for ensuring that the pointer is valid first.
 */
static inline void session_stop_content_counters(struct session *s)
{
	void *ptr;
	int i;

	for (i = 0; i < MAX_SESS_STKCTR; i++) {
		if (!stkctr_entry(&s->stkctr[i]))
			continue;

		if (!(stkctr_flags(&s->stkctr[i]) & STKCTR_TRACK_CONTENT))
			continue;

		ptr = stktable_data_ptr(s->stkctr[i].table, stkctr_entry(&s->stkctr[i]), STKTABLE_DT_CONN_CUR);
		if (ptr)
			stktable_data_cast(ptr, conn_cur)--;
		stkctr_entry(&s->stkctr[i])->ref_cnt--;
		stksess_kill_if_expired(s->stkctr[i].table, stkctr_entry(&s->stkctr[i]));
		stkctr_set_entry(&s->stkctr[i], NULL);
	}
}

/* Increase total and concurrent connection count for stick entry <ts> of table
 * <t>. The caller is responsible for ensuring that <t> and <ts> are valid
 * pointers, and for calling this only once per connection.
 */
static inline void session_start_counters(struct stktable *t, struct stksess *ts)
{
	void *ptr;

	ptr = stktable_data_ptr(t, ts, STKTABLE_DT_CONN_CUR);
	if (ptr)
		stktable_data_cast(ptr, conn_cur)++;

	ptr = stktable_data_ptr(t, ts, STKTABLE_DT_CONN_CNT);
	if (ptr)
		stktable_data_cast(ptr, conn_cnt)++;

	ptr = stktable_data_ptr(t, ts, STKTABLE_DT_CONN_RATE);
	if (ptr)
		update_freq_ctr_period(&stktable_data_cast(ptr, conn_rate),
				       t->data_arg[STKTABLE_DT_CONN_RATE].u, 1);
	if (tick_isset(t->expire))
		ts->expire = tick_add(now_ms, MS_TO_TICKS(t->expire));
}

/* Enable tracking of session counters as <stkctr> on stksess <ts>. The caller is
 * responsible for ensuring that <t> and <ts> are valid pointers. Some controls
 * are performed to ensure the state can still change.
 */
static inline void session_track_stkctr(struct stkctr *ctr, struct stktable *t, struct stksess *ts)
{
	if (stkctr_entry(ctr))
		return;

	ts->ref_cnt++;
	ctr->table = t;
	stkctr_set_entry(ctr, ts);
	session_start_counters(t, ts);
}

/* Increase the number of cumulated HTTP requests in the tracked counters */
static void inline session_inc_http_req_ctr(struct session *s)
{
	void *ptr;
	int i;

	for (i = 0; i < MAX_SESS_STKCTR; i++) {
		if (!stkctr_entry(&s->stkctr[i]))
			continue;

		ptr = stktable_data_ptr(s->stkctr[i].table, stkctr_entry(&s->stkctr[i]), STKTABLE_DT_HTTP_REQ_CNT);
		if (ptr)
			stktable_data_cast(ptr, http_req_cnt)++;

		ptr = stktable_data_ptr(s->stkctr[i].table, stkctr_entry(&s->stkctr[i]), STKTABLE_DT_HTTP_REQ_RATE);
		if (ptr)
			update_freq_ctr_period(&stktable_data_cast(ptr, http_req_rate),
					       s->stkctr[i].table->data_arg[STKTABLE_DT_HTTP_REQ_RATE].u, 1);
	}
}

/* Increase the number of cumulated HTTP requests in the backend's tracked counters */
static void inline session_inc_be_http_req_ctr(struct session *s)
{
	void *ptr;
	int i;

	for (i = 0; i < MAX_SESS_STKCTR; i++) {
		if (!stkctr_entry(&s->stkctr[i]))
			continue;

		if (!(stkctr_flags(&s->stkctr[i]) & STKCTR_TRACK_BACKEND))
			continue;

		ptr = stktable_data_ptr(s->stkctr[i].table, stkctr_entry(&s->stkctr[i]), STKTABLE_DT_HTTP_REQ_CNT);
		if (ptr)
			stktable_data_cast(ptr, http_req_cnt)++;

		ptr = stktable_data_ptr(s->stkctr[i].table, stkctr_entry(&s->stkctr[i]), STKTABLE_DT_HTTP_REQ_RATE);
		if (ptr)
			update_freq_ctr_period(&stktable_data_cast(ptr, http_req_rate),
			                       s->stkctr[i].table->data_arg[STKTABLE_DT_HTTP_REQ_RATE].u, 1);
	}
}

/* Increase the number of cumulated failed HTTP requests in the tracked
 * counters. Only 4xx requests should be counted here so that we can
 * distinguish between errors caused by client behaviour and other ones.
 * Note that even 404 are interesting because they're generally caused by
 * vulnerability scans.
 */
static void inline session_inc_http_err_ctr(struct session *s)
{
	void *ptr;
	int i;

	for (i = 0; i < MAX_SESS_STKCTR; i++) {
		if (!stkctr_entry(&s->stkctr[i]))
			continue;

		ptr = stktable_data_ptr(s->stkctr[i].table, stkctr_entry(&s->stkctr[i]), STKTABLE_DT_HTTP_ERR_CNT);
		if (ptr)
			stktable_data_cast(ptr, http_err_cnt)++;

		ptr = stktable_data_ptr(s->stkctr[i].table, stkctr_entry(&s->stkctr[i]), STKTABLE_DT_HTTP_ERR_RATE);
		if (ptr)
			update_freq_ctr_period(&stktable_data_cast(ptr, http_err_rate),
			                       s->stkctr[i].table->data_arg[STKTABLE_DT_HTTP_ERR_RATE].u, 1);
	}
}

static void inline session_add_srv_conn(struct session *sess, struct server *srv)
{
	sess->srv_conn = srv;
	LIST_ADD(&srv->actconns, &sess->by_srv);
}

static void inline session_del_srv_conn(struct session *sess)
{
	if (!sess->srv_conn)
		return;

	sess->srv_conn = NULL;
	LIST_DEL(&sess->by_srv);
}

static void inline session_init_srv_conn(struct session *sess)
{
	sess->srv_conn = NULL;
	LIST_INIT(&sess->by_srv);
}

static inline void session_offer_buffers()
{
	int avail;

	if (LIST_ISEMPTY(&buffer_wq))
		return;

	/* all sessions will need 1 buffer, so we can stop waking up sessions
	 * once we have enough of them to eat all the buffers. Note that we
	 * don't really know if they are sessions or just other tasks, but
	 * that's a rough estimate. Similarly, for each cached event we'll need
	 * 1 buffer. If no buffer is currently used, always wake up the number
	 * of tasks we can offer a buffer based on what is allocated, and in
	 * any case at least one task per two reserved buffers.
	 */
	avail = pool2_buffer->allocated - pool2_buffer->used - global.tune.reserved_bufs / 2;

	if (avail > (int)run_queue)
		__session_offer_buffers(avail);
}

#endif /* _PROTO_SESSION_H */

/*
 * Local variables:
 *  c-indent-level: 8
 *  c-basic-offset: 8
 * End:
 */