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31cf66d755
Have a simple Gilbert-Elliott channel model in dummynet to mimick correlated loss behavior of realistic environments. This allows simpler testing of burst-loss environments. Reviewed By: tuexen, kp, pauamma_gundo.com, #manpages Sponsored by: NetApp, Inc. Differential Revision: https://reviews.freebsd.org/D42980
285 lines
9.0 KiB
C
285 lines
9.0 KiB
C
/*-
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* SPDX-License-Identifier: BSD-2-Clause
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*
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* Copyright (c) 1998-2010 Luigi Rizzo, Universita` di Pisa
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* Portions Copyright (c) 2000 Akamba Corp.
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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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#ifndef _IP_DUMMYNET_H
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#define _IP_DUMMYNET_H
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#define NEW_AQM
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/*
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* Definition of the kernel-userland API for dummynet.
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*
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* Setsockopt() and getsockopt() pass a batch of objects, each
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* of them starting with a "struct dn_id" which should fully identify
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* the object and its relation with others in the sequence.
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* The first object in each request should have
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* type= DN_CMD_*, id = DN_API_VERSION.
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* For other objects, type and subtype specify the object, len indicates
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* the total length including the header, and 'id' identifies the specific
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* object.
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*
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* Most objects are numbered with an identifier in the range 1..65535.
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* DN_MAX_ID indicates the first value outside the range.
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*/
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#define DN_API_VERSION 12500000
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#define DN_MAX_ID 0x10000
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struct dn_id {
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uint16_t len; /* total obj len including this header */
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uint8_t type;
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uint8_t subtype;
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uint32_t id; /* generic id */
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};
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/*
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* These values are in the type field of struct dn_id.
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* To preserve the ABI, never rearrange the list or delete
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* entries with the exception of DN_LAST
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*/
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enum {
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DN_NONE = 0,
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DN_LINK = 1,
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DN_FS,
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DN_SCH,
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DN_SCH_I,
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DN_QUEUE,
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DN_DELAY_LINE,
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DN_PROFILE,
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DN_FLOW, /* struct dn_flow */
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DN_TEXT, /* opaque text is the object */
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DN_CMD_CONFIG = 0x80, /* objects follow */
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DN_CMD_DELETE, /* subtype + list of entries */
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DN_CMD_GET, /* subtype + list of entries */
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DN_CMD_FLUSH,
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/* for compatibility with FreeBSD 7.2/8 */
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DN_COMPAT_PIPE,
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DN_COMPAT_QUEUE,
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DN_GET_COMPAT,
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/* special commands for emulation of sysctl variables */
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DN_SYSCTL_GET,
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DN_SYSCTL_SET,
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#ifdef NEW_AQM
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/* subtypes used for setting/getting extra parameters.
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* these subtypes used with IP_DUMMYNET3 command (get)
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* and DN_TEXT (set). */
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DN_AQM_PARAMS, /* AQM extra params */
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DN_SCH_PARAMS, /* scheduler extra params */
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#endif
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DN_LAST,
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};
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enum { /* subtype for schedulers, flowset and the like */
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DN_SCHED_UNKNOWN = 0,
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DN_SCHED_FIFO = 1,
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DN_SCHED_WF2QP = 2,
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/* others are in individual modules */
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};
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enum { /* user flags */
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DN_HAVE_MASK = 0x0001, /* fs or sched has a mask */
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DN_NOERROR = 0x0002, /* do not report errors */
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DN_QHT_HASH = 0x0004, /* qht is a hash table */
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DN_QSIZE_BYTES = 0x0008, /* queue size is in bytes */
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DN_HAS_PROFILE = 0x0010, /* a link has a profile */
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DN_IS_RED = 0x0020,
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DN_IS_GENTLE_RED= 0x0040,
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DN_IS_ECN = 0x0080,
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#ifdef NEW_AQM
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DN_IS_AQM = 0x0100, /* AQMs: e.g Codel & PIE */
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#endif
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DN_PIPE_CMD = 0x1000, /* pipe config... */
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};
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/*
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* link template.
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*/
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struct dn_link {
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struct dn_id oid;
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/*
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* Userland sets bw and delay in bits/s and milliseconds.
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* The kernel converts this back and forth to bits/tick and ticks.
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* XXX what about burst ?
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*/
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int32_t link_nr;
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uint32_t bandwidth; /* bit/s or bits/tick. */
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int delay; /* ms and ticks */
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uint64_t burst; /* scaled. bits*Hz XXX */
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};
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/*
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* A flowset, which is a template for flows. Contains parameters
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* from the command line: id, target scheduler, queue sizes, plr,
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* flow masks, buckets for the flow hash, and possibly scheduler-
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* specific parameters (weight, quantum and so on).
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*/
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struct dn_fs {
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struct dn_id oid;
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uint32_t fs_nr; /* the flowset number */
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uint32_t flags; /* userland flags */
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int qsize; /* queue size in slots or bytes */
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int32_t pl_state; /* packet loss state */
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uint32_t buckets; /* buckets used for the queue hash table */
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struct ipfw_flow_id flow_mask;
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uint32_t sched_nr; /* the scheduler we attach to */
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/* generic scheduler parameters. Leave them at -1 if unset.
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* Now we use 0: weight, 1: lmax, 2: priority
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*/
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int par[4];
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/* RED/GRED parameters.
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* weight and probabilities are in the range 0..1 represented
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* in fixed point arithmetic with SCALE_RED decimal bits.
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*/
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#define SCALE_RED 16
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#define SCALE(x) ( (x) << SCALE_RED )
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#define SCALE_VAL(x) ( (x) >> SCALE_RED )
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#define SCALE_MUL(x,y) ( ( (x) * (y) ) >> SCALE_RED )
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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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int32_t plr[4]; /* PLR, pkt loss rate (2^31-1 means 100%) */
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};
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/*
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* dn_flow collects flow_id and stats for queues and scheduler
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* instances, and is used to pass these info to userland.
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* oid.type/oid.subtype describe the object, oid.id is number
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* of the parent object.
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*/
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struct dn_flow {
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struct dn_id oid;
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struct ipfw_flow_id fid;
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uint64_t tot_pkts; /* statistics counters */
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uint64_t tot_bytes;
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uint32_t length; /* Queue length, in packets */
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uint32_t len_bytes; /* Queue length, in bytes */
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uint32_t drops;
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};
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/*
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* Scheduler template, mostly indicating the name, number,
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* sched_mask and buckets.
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*/
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struct dn_sch {
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struct dn_id oid;
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uint32_t sched_nr; /* N, scheduler number */
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uint32_t buckets; /* number of buckets for the instances */
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uint32_t flags; /* have_mask, ... */
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char name[16]; /* null terminated */
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/* mask to select the appropriate scheduler instance */
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struct ipfw_flow_id sched_mask; /* M */
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};
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/* A delay profile is attached to a link.
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* Note that a profile, as any other object, cannot be longer than 2^16
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*/
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#define ED_MAX_SAMPLES_NO 1024
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struct dn_profile {
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struct dn_id oid;
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/* fields to simulate a delay profile */
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#define ED_MAX_NAME_LEN 32
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char name[ED_MAX_NAME_LEN];
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int link_nr;
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int loss_level;
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uint32_t bandwidth; // XXX use link bandwidth?
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int samples_no; /* actual len of samples[] */
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int samples[ED_MAX_SAMPLES_NO]; /* may be shorter */
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};
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#ifdef NEW_AQM
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/* Extra parameters for AQM and scheduler.
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* This struct is used to pass and retrieve parameters (configurations)
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* to/from AQM and Scheduler.
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*/
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struct dn_extra_parms {
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struct dn_id oid;
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char name[16];
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uint32_t nr;
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#define DN_MAX_EXTRA_PARM 10
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int64_t par[DN_MAX_EXTRA_PARM];
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};
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#endif
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/*
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* Overall structure of dummynet
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In dummynet, packets are selected with the firewall rules, and passed
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to two different objects: PIPE or QUEUE (bad name).
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A QUEUE defines a classifier, which groups packets into flows
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according to a 'mask', puts them into independent queues (one
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per flow) with configurable size and queue management policy,
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and passes flows to a scheduler:
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(flow_mask|sched_mask) sched_mask
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+---------+ weight Wx +-------------+
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| |->-[flow]-->--| |-+
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-->--| QUEUE x | ... | | |
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| |->-[flow]-->--| SCHEDuler N | |
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+---------+ | | |
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... | +--[LINK N]-->--
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+---------+ weight Wy | | +--[LINK N]-->--
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| |->-[flow]-->--| | |
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-->--| QUEUE y | ... | | |
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| |->-[flow]-->--| | |
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+---------+ +-------------+ |
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+-------------+
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Many QUEUE objects can connect to the same scheduler, each
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QUEUE object can have its own set of parameters.
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In turn, the SCHEDuler 'forks' multiple instances according
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to a 'sched_mask', each instance manages its own set of queues
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and transmits on a private instance of a configurable LINK.
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A PIPE is a simplified version of the above, where there
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is no flow_mask, and each scheduler instance handles a single queue.
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The following data structures (visible from userland) describe
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the objects used by dummynet:
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+ dn_link, contains the main configuration parameters related
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to delay and bandwidth;
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+ dn_profile describes a delay profile;
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+ dn_flow describes the flow status (flow id, statistics)
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+ dn_sch describes a scheduler
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+ dn_fs describes a flowset (msk, weight, queue parameters)
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*
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*/
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#endif /* _IP_DUMMYNET_H */
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