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279 lines
10 KiB
C
279 lines
10 KiB
C
/*
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* Copyright (c) 1998-2000 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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* $FreeBSD$
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*/
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#ifndef _IP_DUMMYNET_H
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#define _IP_DUMMYNET_H
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/*
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* Definition of dummynet data structures.
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* We first start with the heap which is used by the scheduler.
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*
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* Each list contains a set of parameters identifying the pipe, and
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* a set of packets queued on the pipe itself.
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*
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* I could have used queue macros, but the management i have
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* is pretty simple and this makes the code more portable.
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*/
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/*
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* The key for the heap is used for two different values
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1. timer ticks- max 10K/second, so 32 bits are enough
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2. virtual times. These increase in steps of len/x, where len is the
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packet length, and x is either the weight of the flow, or the
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sum of all weights.
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If we limit to max 1000 flows and a max weight of 100, then
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x needs 17 bits. The packet size is 16 bits, so we can easily
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overflow if we do not allow errors.
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*/
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typedef u_int64_t dn_key ; /* sorting key */
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#define DN_KEY_LT(a,b) ((int64_t)((a)-(b)) < 0)
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#define DN_KEY_LEQ(a,b) ((int64_t)((a)-(b)) <= 0)
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#define DN_KEY_GT(a,b) ((int64_t)((a)-(b)) > 0)
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#define DN_KEY_GEQ(a,b) ((int64_t)((a)-(b)) >= 0)
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/* XXX check names of next two macros */
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#define MAX64(x,y) (( (int64_t) ( (y)-(x) )) > 0 ) ? (y) : (x)
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#define MY_M 16 /* number of left shift to obtain a larger precision */
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/*
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* XXX With this scaling, max 1000 flows, max weight 100, 1Gbit/s, the
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* virtual time wraps every 15 days.
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*/
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#define OFFSET_OF(type, field) ((int)&( ((type *)0)->field) )
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struct dn_heap_entry {
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dn_key key ; /* sorting key. Topmost element is smallest one */
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void *object ; /* object pointer */
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} ;
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struct dn_heap {
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int size ;
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int elements ;
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int offset ; /* XXX if > 0 this is the offset of direct ptr to obj */
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struct dn_heap_entry *p ; /* really an array of "size" entries */
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} ;
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/*
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* MT_DUMMYNET is a new (fake) mbuf type that is prepended to the
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* packet when it comes out of a pipe. The definition
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* ought to go in /sys/sys/mbuf.h but here it is less intrusive.
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*/
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#define MT_DUMMYNET MT_CONTROL
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/*
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* struct dn_pkt identifies a packet in the dummynet queue. The
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* first part is really an m_hdr for implementation purposes, and some
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* fields are saved there. When passing the packet back to the ip_input/
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* ip_output(), the struct is prepended to the mbuf chain with type
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* MT_DUMMYNET, and contains the pointer to the matching rule.
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*/
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struct dn_pkt {
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struct m_hdr hdr ;
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#define dn_next hdr.mh_nextpkt /* next element in queue */
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#define DN_NEXT(x) (struct dn_pkt *)(x)->dn_next
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#define dn_m hdr.mh_next /* packet to be forwarded */
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#define dn_dir hdr.mh_flags /* action when pkt extracted from a queue */
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#define DN_TO_IP_OUT 1
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#define DN_TO_IP_IN 2
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#define DN_TO_BDG_FWD 3
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dn_key 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 sockaddr_in *dn_dst ;
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struct route ro; /* route, for ip_output. MUST COPY */
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int flags ; /* flags, for ip_output (IPv6 ?) */
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};
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/*
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* Overall structure (with WFQ):
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We have 3 data structures definining a pipe and associated queues:
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+ dn_pipe, which contains the main configuration parameters related
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to delay and bandwidth
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+ dn_flow_set which contains WFQ configuration, flow
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masks, plr and RED configuration
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+ dn_flow_queue which is the per-flow queue.
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Multiple dn_flow_set can be linked to the same pipe, and multiple
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dn_flow_queue can be linked to the same dn_flow_set.
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During configuration we set the dn_flow_set and dn_pipe parameters.
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At runtime: packets are sent to the dn_flow_set (either WFQ ones, or
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the one embedded in the dn_pipe for fixed-rate flows) which in turn
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dispatches them to the appropriate dn_flow_queue (created dynamically
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according to the masks).
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The transmit clock for fixed rate flows (ready_event) selects the
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dn_flow_queue to be used to transmit the next packet. For WF2Q,
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wfq_ready_event() extract a pipe which in turn selects the right
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flow using a number of heaps defined into the pipe.
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*
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*/
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/*
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* We use per flow queues. Hashing is used to select the right slot,
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* then we scan the list to match the flow-id.
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*/
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struct dn_flow_queue {
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struct dn_flow_queue *next ;
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struct ipfw_flow_id id ;
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struct dn_pkt *head, *tail ; /* queue of packets */
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u_int len ;
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u_int len_bytes ;
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long numbytes ; /* credit for transmission (dynamic queues) */
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u_int64_t tot_pkts ; /* statistics counters */
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u_int64_t tot_bytes ;
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u_int32_t drops ;
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int hash_slot ; /* debugging/diagnostic */
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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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u_int32_t q_time ; /* start of queue idle time */
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/* WF2Q+ support */
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struct dn_flow_set *fs ; /* parent flow set */
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int blh_pos ; /* position in backlogged_heap */
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dn_key sched_time ; /* current time when queue enters ready_heap */
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dn_key S,F ; /* start-time, finishing time */
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} ;
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struct dn_flow_set {
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struct dn_flow_set *next; /* next flow set in all_flow_sets list */
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u_short fs_nr ; /* flow_set number */
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u_short flags_fs;
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#define DN_HAVE_FLOW_MASK 0x0001
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#define DN_IS_PIPE 0x4000
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#define DN_IS_QUEUE 0x8000
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#define DN_IS_RED 0x0002
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#define DN_IS_GENTLE_RED 0x0004
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#define DN_QSIZE_IS_BYTES 0x0008 /* queue measured in bytes */
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struct dn_pipe *pipe ; /* pointer to parent pipe */
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u_short parent_nr ; /* parent pipe#, 0 if local to a pipe */
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int weight ; /* WFQ queue weight */
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int qsize ; /* queue size in slots or bytes */
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int plr ; /* pkt loss rate (2^31-1 means 100%) */
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struct ipfw_flow_id flow_mask ;
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/* hash table of queues onto this flow_set */
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int rq_size ; /* number of slots */
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int rq_elements ; /* active elements */
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struct dn_flow_queue **rq; /* array of rq_size entries */
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u_int32_t last_expired ; /* do not expire too frequently */
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/* XXX some RED parameters as well ? */
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int backlogged ; /* #active queues for this flowset */
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/* RED parameters */
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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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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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} ;
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/*
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* Pipe descriptor. Contains global parameters, delay-line queue.
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*
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* For WF2Q support it also has 3 heaps holding dn_flow_queue:
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* not_eligible_heap, for queues whose start time is higher
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* than the virtual time. Sorted by start time.
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* scheduler_heap, for queues eligible for scheduling. Sorted by
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* finish time.
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* backlogged_heap, all flows in the two heaps above, sorted by
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* start time. This is used to compute the virtual time.
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*
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*/
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struct dn_pipe { /* a pipe */
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struct dn_pipe *next ;
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int pipe_nr ; /* number */
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int bandwidth; /* really, bytes/tick. */
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int delay ; /* really, ticks */
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struct dn_pkt *head, *tail ; /* packets in delay line */
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/* WF2Q+ */
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struct dn_heap scheduler_heap ; /* top extract - key Finish time*/
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struct dn_heap not_eligible_heap; /* top extract- key Start time */
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struct dn_heap backlogged_heap ; /* random extract - key Start time */
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dn_key V ; /* virtual time */
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int sum; /* sum of weights of all active sessions */
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int numbytes; /* bit i can transmit (more or less). */
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dn_key sched_time ; /* first time pipe is scheduled in ready_heap */
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/* the tx clock can come from an interface. In this case, the
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* name is below, and the pointer is filled when the rule is
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* configured. We identify this by setting the if_name to a
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* non-empty string.
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*/
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char if_name[16];
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struct ifnet *ifp ;
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int ready ; /* set if ifp != NULL and we got a signal from it */
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struct dn_flow_set fs ; /* used with fixed-rate flows */
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};
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#ifdef _KERNEL
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MALLOC_DECLARE(M_IPFW);
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typedef int ip_dn_ctl_t __P((struct sockopt *)) ;
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extern ip_dn_ctl_t *ip_dn_ctl_ptr;
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void dn_rule_delete(void *r); /* used in ip_fw.c */
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int dummynet_io(int pipe, int dir,
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struct mbuf *m, struct ifnet *ifp, struct route *ro,
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struct sockaddr_in * dst,
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struct ip_fw_chain *rule, int flags);
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#endif
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#endif /* _IP_DUMMYNET_H */
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