f2e5fcd17c
dn_dir flags private to dummynet. There is still some room for improvement.
500 lines
15 KiB
C
500 lines
15 KiB
C
/*-
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* SPDX-License-Identifier: BSD-2-Clause-FreeBSD
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*
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* Copyright (c) 2010 Luigi Rizzo, Riccardo Panicucci, Universita` di Pisa
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* All rights reserved
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*
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* Redistribution and use in source and binary forms, with or without
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* modification, are permitted provided that the following conditions
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* are met:
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* 1. Redistributions of source code must retain the above copyright
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* notice, this list of conditions and the following disclaimer.
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* 2. Redistributions in binary form must reproduce the above copyright
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* notice, this list of conditions and the following disclaimer in the
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* documentation and/or other materials provided with the distribution.
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*
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* THIS SOFTWARE IS PROVIDED BY THE AUTHOR AND CONTRIBUTORS ``AS IS'' AND
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* ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
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* IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
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* ARE DISCLAIMED. IN NO EVENT SHALL THE AUTHOR OR CONTRIBUTORS BE LIABLE
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* FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL
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* DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS
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* OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION)
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* HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT
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* LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY
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* OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF
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* SUCH DAMAGE.
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*/
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/*
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* internal dummynet APIs.
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*
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* $FreeBSD$
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*/
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#ifndef _IP_DN_PRIVATE_H
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#define _IP_DN_PRIVATE_H
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/* debugging support
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* use ND() to remove debugging, D() to print a line,
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* DX(level, ...) to print above a certain level
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* If you redefine D() you are expected to redefine all.
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*/
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#ifndef D
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#define ND(fmt, ...) do {} while (0)
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#define D1(fmt, ...) do {} while (0)
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#define D(fmt, ...) printf("%-10s " fmt "\n", \
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__FUNCTION__, ## __VA_ARGS__)
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#define DX(lev, fmt, ...) do { \
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if (dn_cfg.debug > lev) D(fmt, ## __VA_ARGS__); } while (0)
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#endif
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MALLOC_DECLARE(M_DUMMYNET);
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#ifndef __linux__
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#define div64(a, b) ((int64_t)(a) / (int64_t)(b))
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#endif
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#define DN_LOCK_INIT() do { \
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mtx_init(&dn_cfg.uh_mtx, "dn_uh", NULL, MTX_DEF); \
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mtx_init(&dn_cfg.bh_mtx, "dn_bh", NULL, MTX_DEF); \
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} while (0)
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#define DN_LOCK_DESTROY() do { \
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mtx_destroy(&dn_cfg.uh_mtx); \
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mtx_destroy(&dn_cfg.bh_mtx); \
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} while (0)
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#if 0 /* not used yet */
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#define DN_UH_RLOCK() mtx_lock(&dn_cfg.uh_mtx)
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#define DN_UH_RUNLOCK() mtx_unlock(&dn_cfg.uh_mtx)
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#define DN_UH_WLOCK() mtx_lock(&dn_cfg.uh_mtx)
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#define DN_UH_WUNLOCK() mtx_unlock(&dn_cfg.uh_mtx)
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#define DN_UH_LOCK_ASSERT() mtx_assert(&dn_cfg.uh_mtx, MA_OWNED)
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#endif
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#define DN_BH_RLOCK() mtx_lock(&dn_cfg.uh_mtx)
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#define DN_BH_RUNLOCK() mtx_unlock(&dn_cfg.uh_mtx)
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#define DN_BH_WLOCK() mtx_lock(&dn_cfg.uh_mtx)
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#define DN_BH_WUNLOCK() mtx_unlock(&dn_cfg.uh_mtx)
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#define DN_BH_LOCK_ASSERT() mtx_assert(&dn_cfg.uh_mtx, MA_OWNED)
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SLIST_HEAD(dn_schk_head, dn_schk);
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SLIST_HEAD(dn_sch_inst_head, dn_sch_inst);
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SLIST_HEAD(dn_fsk_head, dn_fsk);
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SLIST_HEAD(dn_queue_head, dn_queue);
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SLIST_HEAD(dn_alg_head, dn_alg);
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#ifdef NEW_AQM
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SLIST_HEAD(dn_aqm_head, dn_aqm); /* for new AQMs */
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#endif
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struct mq { /* a basic queue of packets*/
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struct mbuf *head, *tail;
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int count;
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};
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static inline void
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set_oid(struct dn_id *o, int type, int len)
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{
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o->type = type;
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o->len = len;
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o->subtype = 0;
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}
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/*
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* configuration and global data for a dummynet instance
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*
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* When a configuration is modified from userland, 'id' is incremented
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* so we can use the value to check for stale pointers.
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*/
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struct dn_parms {
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uint32_t id; /* configuration version */
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/* defaults (sysctl-accessible) */
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int red_lookup_depth;
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int red_avg_pkt_size;
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int red_max_pkt_size;
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int hash_size;
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int max_hash_size;
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long byte_limit; /* max queue sizes */
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long slot_limit;
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int io_fast;
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int debug;
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/* timekeeping */
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struct timeval prev_t; /* last time dummynet_tick ran */
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struct dn_heap evheap; /* scheduled events */
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/* counters of objects -- used for reporting space */
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int schk_count;
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int si_count;
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int fsk_count;
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int queue_count;
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/* ticks and other stuff */
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uint64_t curr_time;
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/* flowsets and schedulers are in hash tables, with 'hash_size'
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* buckets. fshash is looked up at every packet arrival
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* so better be generous if we expect many entries.
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*/
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struct dn_ht *fshash;
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struct dn_ht *schedhash;
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/* list of flowsets without a scheduler -- use sch_chain */
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struct dn_fsk_head fsu; /* list of unlinked flowsets */
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struct dn_alg_head schedlist; /* list of algorithms */
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#ifdef NEW_AQM
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struct dn_aqm_head aqmlist; /* list of AQMs */
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#endif
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/* Store the fs/sch to scan when draining. The value is the
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* bucket number of the hash table. Expire can be disabled
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* with net.inet.ip.dummynet.expire=0, or it happens every
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* expire ticks.
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**/
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int drain_fs;
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int drain_sch;
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uint32_t expire;
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uint32_t expire_cycle; /* tick count */
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int init_done;
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/* if the upper half is busy doing something long,
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* can set the busy flag and we will enqueue packets in
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* a queue for later processing.
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*/
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int busy;
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struct mq pending;
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#ifdef _KERNEL
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/*
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* This file is normally used in the kernel, unless we do
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* some userland tests, in which case we do not need a mtx.
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* uh_mtx arbitrates between system calls and also
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* protects fshash, schedhash and fsunlinked.
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* These structures are readonly for the lower half.
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* bh_mtx protects all other structures which may be
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* modified upon packet arrivals
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*/
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#if defined( __linux__ ) || defined( _WIN32 )
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spinlock_t uh_mtx;
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spinlock_t bh_mtx;
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#else
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struct mtx uh_mtx;
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struct mtx bh_mtx;
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#endif
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#endif /* _KERNEL */
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};
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/*
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* Delay line, contains all packets on output from a link.
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* Every scheduler instance has one.
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*/
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struct delay_line {
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struct dn_id oid;
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struct dn_sch_inst *si;
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struct mq mq;
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};
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/*
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* The kernel side of a flowset. It is linked in a hash table
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* of flowsets, and in a list of children of their parent scheduler.
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* qht is either the queue or (if HAVE_MASK) a hash table queues.
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* Note that the mask to use is the (flow_mask|sched_mask), which
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* changes as we attach/detach schedulers. So we store it here.
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*
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* XXX If we want to add scheduler-specific parameters, we need to
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* put them in external storage because the scheduler may not be
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* available when the fsk is created.
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*/
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struct dn_fsk { /* kernel side of a flowset */
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struct dn_fs fs;
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SLIST_ENTRY(dn_fsk) fsk_next; /* hash chain for fshash */
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struct ipfw_flow_id fsk_mask;
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/* qht is a hash table of queues, or just a single queue
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* a bit in fs.flags tells us which one
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*/
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struct dn_ht *qht;
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struct dn_schk *sched; /* Sched we are linked to */
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SLIST_ENTRY(dn_fsk) sch_chain; /* list of fsk attached to sched */
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/* bucket index used by drain routine to drain queues for this
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* flowset
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*/
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int drain_bucket;
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/* Parameter realted to RED / GRED */
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/* original values are in dn_fs*/
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int w_q ; /* queue weight (scaled) */
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int max_th ; /* maximum threshold for queue (scaled) */
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int min_th ; /* minimum threshold for queue (scaled) */
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int max_p ; /* maximum value for p_b (scaled) */
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u_int c_1 ; /* max_p/(max_th-min_th) (scaled) */
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u_int c_2 ; /* max_p*min_th/(max_th-min_th) (scaled) */
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u_int c_3 ; /* for GRED, (1-max_p)/max_th (scaled) */
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u_int c_4 ; /* for GRED, 1 - 2*max_p (scaled) */
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u_int * w_q_lookup ; /* lookup table for computing (1-w_q)^t */
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u_int lookup_depth ; /* depth of lookup table */
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int lookup_step ; /* granularity inside the lookup table */
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int lookup_weight ; /* equal to (1-w_q)^t / (1-w_q)^(t+1) */
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int avg_pkt_size ; /* medium packet size */
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int max_pkt_size ; /* max packet size */
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#ifdef NEW_AQM
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struct dn_aqm *aqmfp; /* Pointer to AQM functions */
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void *aqmcfg; /* configuration parameters for AQM */
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#endif
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};
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/*
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* A queue is created as a child of a flowset unless it belongs to
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* a !MULTIQUEUE scheduler. It is normally in a hash table in the
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* flowset. fs always points to the parent flowset.
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* si normally points to the sch_inst, unless the flowset has been
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* detached from the scheduler -- in this case si == NULL and we
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* should not enqueue.
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*/
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struct dn_queue {
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struct dn_flow ni; /* oid, flow_id, stats */
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struct mq mq; /* packets queue */
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struct dn_sch_inst *_si; /* owner scheduler instance */
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SLIST_ENTRY(dn_queue) q_next; /* hash chain list for qht */
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struct dn_fsk *fs; /* parent flowset. */
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/* RED parameters */
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int avg; /* average queue length est. (scaled) */
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int count; /* arrivals since last RED drop */
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int random; /* random value (scaled) */
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uint64_t q_time; /* start of queue idle time */
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#ifdef NEW_AQM
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void *aqm_status; /* per-queue status variables*/
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#endif
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};
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/*
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* The kernel side of a scheduler. Contains the userland config,
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* a link, pointer to extra config arguments from command line,
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* kernel flags, and a pointer to the scheduler methods.
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* It is stored in a hash table, and holds a list of all
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* flowsets and scheduler instances.
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* XXX sch must be at the beginning, see schk_hash().
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*/
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struct dn_schk {
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struct dn_sch sch;
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struct dn_alg *fp; /* Pointer to scheduler functions */
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struct dn_link link; /* The link, embedded */
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struct dn_profile *profile; /* delay profile, if any */
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struct dn_id *cfg; /* extra config arguments */
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SLIST_ENTRY(dn_schk) schk_next; /* hash chain for schedhash */
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struct dn_fsk_head fsk_list; /* all fsk linked to me */
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struct dn_fsk *fs; /* Flowset for !MULTIQUEUE */
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/* bucket index used by the drain routine to drain the scheduler
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* instance for this flowset.
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*/
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int drain_bucket;
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/* Hash table of all instances (through sch.sched_mask)
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* or single instance if no mask. Always valid.
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*/
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struct dn_ht *siht;
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};
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/*
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* Scheduler instance.
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* Contains variables and all queues relative to a this instance.
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* This struct is created a runtime.
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*/
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struct dn_sch_inst {
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struct dn_flow ni; /* oid, flowid and stats */
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SLIST_ENTRY(dn_sch_inst) si_next; /* hash chain for siht */
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struct delay_line dline;
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struct dn_schk *sched; /* the template */
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int kflags; /* DN_ACTIVE */
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int64_t credit; /* bits I can transmit (more or less). */
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uint64_t sched_time; /* time link was scheduled in ready_heap */
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uint64_t idle_time; /* start of scheduler instance idle time */
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/* q_count is the number of queues that this instance is using.
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* The counter is incremented or decremented when
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* a reference from the queue is created or deleted.
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* It is used to make sure that a scheduler instance can be safely
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* deleted by the drain routine. See notes below.
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*/
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int q_count;
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};
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/*
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* NOTE about object drain.
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* The system will automatically (XXX check when) drain queues and
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* scheduler instances when they are idle.
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* A queue is idle when it has no packets; an instance is idle when
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* it is not in the evheap heap, and the corresponding delay line is empty.
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* A queue can be safely deleted when it is idle because of the scheduler
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* function xxx_free_queue() will remove any references to it.
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* An instance can be only deleted when no queues reference it. To be sure
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* of that, a counter (q_count) stores the number of queues that are pointing
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* to the instance.
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*
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* XXX
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* Order of scan:
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* - take all flowset in a bucket for the flowset hash table
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* - take all queues in a bucket for the flowset
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* - increment the queue bucket
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* - scan next flowset bucket
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* Nothing is done if a bucket contains no entries.
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*
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* The same schema is used for sceduler instances
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*/
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/* kernel-side flags. Linux has DN_DELETE in fcntl.h
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*/
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enum {
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/* 1 and 2 are reserved for the SCAN flags */
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DN_DESTROY = 0x0004, /* destroy */
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DN_DELETE_FS = 0x0008, /* destroy flowset */
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DN_DETACH = 0x0010,
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DN_ACTIVE = 0x0020, /* object is in evheap */
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DN_F_DLINE = 0x0040, /* object is a delay line */
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DN_DEL_SAFE = 0x0080, /* delete a queue only if no longer needed
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* by scheduler */
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DN_QHT_IS_Q = 0x0100, /* in flowset, qht is a single queue */
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};
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/*
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* Packets processed by dummynet have an mbuf tag associated with
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* them that carries their dummynet state.
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* Outside dummynet, only the 'rule' field is relevant, and it must
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* be at the beginning of the structure.
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*/
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struct dn_pkt_tag {
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struct ipfw_rule_ref rule; /* matching rule */
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/* second part, dummynet specific */
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int dn_dir; /* action when packet comes out.*/
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/* see ip_fw_private.h */
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uint64_t output_time; /* when the pkt is due for delivery*/
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struct ifnet *ifp; /* interface, for ip_output */
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struct _ip6dn_args ip6opt; /* XXX ipv6 options */
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uint16_t iphdr_off; /* IP header offset for mtodo() */
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};
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/*
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* Possible values for dn_dir. XXXGL: this needs to be reviewed
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* and converted to same values ip_fw_args.flags use.
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*/
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enum {
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DIR_OUT = 0,
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DIR_IN = 1,
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DIR_FWD = 2,
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DIR_DROP = 3,
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PROTO_LAYER2 = 0x4, /* set for layer 2 */
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PROTO_IPV4 = 0x08,
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PROTO_IPV6 = 0x10,
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PROTO_IFB = 0x0c, /* layer2 + ifbridge */
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};
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extern struct dn_parms dn_cfg;
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//VNET_DECLARE(struct dn_parms, _base_dn_cfg);
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//#define dn_cfg VNET(_base_dn_cfg)
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int dummynet_io(struct mbuf **, struct ip_fw_args *);
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void dummynet_task(void *context, int pending);
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void dn_reschedule(void);
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struct dn_pkt_tag * dn_tag_get(struct mbuf *m);
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struct dn_queue *ipdn_q_find(struct dn_fsk *, struct dn_sch_inst *,
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struct ipfw_flow_id *);
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struct dn_sch_inst *ipdn_si_find(struct dn_schk *, struct ipfw_flow_id *);
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/*
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* copy_range is a template for requests for ranges of pipes/queues/scheds.
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* The number of ranges is variable and can be derived by o.len.
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* As a default, we use a small number of entries so that the struct
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* fits easily on the stack and is sufficient for most common requests.
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*/
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#define DEFAULT_RANGES 5
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struct copy_range {
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struct dn_id o;
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uint32_t r[ 2 * DEFAULT_RANGES ];
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};
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struct copy_args {
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char **start;
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char *end;
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int flags;
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int type;
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struct copy_range *extra; /* extra filtering */
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};
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struct sockopt;
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int ip_dummynet_compat(struct sockopt *sopt);
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int dummynet_get(struct sockopt *sopt, void **compat);
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int dn_c_copy_q (void *_ni, void *arg);
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int dn_c_copy_pipe(struct dn_schk *s, struct copy_args *a, int nq);
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int dn_c_copy_fs(struct dn_fsk *f, struct copy_args *a, int nq);
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int dn_compat_copy_queue(struct copy_args *a, void *_o);
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int dn_compat_copy_pipe(struct copy_args *a, void *_o);
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int copy_data_helper_compat(void *_o, void *_arg);
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int dn_compat_calc_size(void);
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int do_config(void *p, int l);
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/* function to drain idle object */
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void dn_drain_scheduler(void);
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void dn_drain_queue(void);
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#ifdef NEW_AQM
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int ecn_mark(struct mbuf* m);
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/* moved from ip_dn_io.c to here to be available for AQMs modules*/
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static inline void
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mq_append(struct mq *q, struct mbuf *m)
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{
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#ifdef USERSPACE
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// buffers from netmap need to be copied
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// XXX note that the routine is not expected to fail
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ND("append %p to %p", m, q);
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if (m->m_flags & M_STACK) {
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struct mbuf *m_new;
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void *p;
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int l, ofs;
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ofs = m->m_data - m->__m_extbuf;
|
|
// XXX allocate
|
|
MGETHDR(m_new, M_NOWAIT, MT_DATA);
|
|
ND("*** WARNING, volatile buf %p ext %p %d dofs %d m_new %p",
|
|
m, m->__m_extbuf, m->__m_extlen, ofs, m_new);
|
|
p = m_new->__m_extbuf; /* new pointer */
|
|
l = m_new->__m_extlen; /* new len */
|
|
if (l <= m->__m_extlen) {
|
|
panic("extlen too large");
|
|
}
|
|
|
|
*m_new = *m; // copy
|
|
m_new->m_flags &= ~M_STACK;
|
|
m_new->__m_extbuf = p; // point to new buffer
|
|
_pkt_copy(m->__m_extbuf, p, m->__m_extlen);
|
|
m_new->m_data = p + ofs;
|
|
m = m_new;
|
|
}
|
|
#endif /* USERSPACE */
|
|
if (q->head == NULL)
|
|
q->head = m;
|
|
else
|
|
q->tail->m_nextpkt = m;
|
|
q->count++;
|
|
q->tail = m;
|
|
m->m_nextpkt = NULL;
|
|
}
|
|
#endif /* NEW_AQM */
|
|
|
|
#endif /* _IP_DN_PRIVATE_H */
|