4 * This program is free software; you can redistribute it and/or
5 * modify it under the terms of the GNU General Public License
6 * as published by the Free Software Foundation; either version
7 * 2 of the License, or (at your option) any later version.
9 * Authors: Alexey Kuznetsov, <kuznet@ms2.inr.ac.ru>
17 #include <sys/socket.h>
18 #include <netinet/in.h>
19 #include <arpa/inet.h>
27 static void explain(void)
29 fprintf(stderr
, "Usage: ... sfq [ limit NUMBER ] [ perturb SECS ] [ quantum BYTES ]\n");
30 fprintf(stderr
, " [ divisor NUMBER ] [ flows NUMBER] [ depth NUMBER ]\n");
31 fprintf(stderr
, " [ headdrop ]\n");
32 fprintf(stderr
, " [ redflowlimit BYTES ] [ min BYTES ] [ max BYTES ]\n");
33 fprintf(stderr
, " [ avpkt BYTES ] [ burst PACKETS ] [ probability P ]\n");
34 fprintf(stderr
, " [ ecn ] [ harddrop ]\n");
37 static int sfq_parse_opt(struct qdisc_util
*qu
, int argc
, char **argv
, struct nlmsghdr
*n
, const char *dev
)
40 struct tc_sfq_qopt_v1 opt
= {};
41 unsigned int burst
= 0;
43 unsigned int avpkt
= 1000;
44 double probability
= 0.02;
47 if (strcmp(*argv
, "quantum") == 0) {
49 if (get_size(&opt
.v0
.quantum
, *argv
)) {
50 fprintf(stderr
, "Illegal \"limit\"\n");
54 } else if (strcmp(*argv
, "perturb") == 0) {
56 if (get_integer(&opt
.v0
.perturb_period
, *argv
, 0)) {
57 fprintf(stderr
, "Illegal \"perturb\"\n");
61 } else if (strcmp(*argv
, "limit") == 0) {
63 if (get_u32(&opt
.v0
.limit
, *argv
, 0)) {
64 fprintf(stderr
, "Illegal \"limit\"\n");
67 if (opt
.v0
.limit
< 2) {
68 fprintf(stderr
, "Illegal \"limit\", must be > 1\n");
72 } else if (strcmp(*argv
, "divisor") == 0) {
74 if (get_u32(&opt
.v0
.divisor
, *argv
, 0)) {
75 fprintf(stderr
, "Illegal \"divisor\"\n");
79 } else if (strcmp(*argv
, "flows") == 0) {
81 if (get_u32(&opt
.v0
.flows
, *argv
, 0)) {
82 fprintf(stderr
, "Illegal \"flows\"\n");
86 } else if (strcmp(*argv
, "depth") == 0) {
88 if (get_u32(&opt
.depth
, *argv
, 0)) {
89 fprintf(stderr
, "Illegal \"flows\"\n");
93 } else if (strcmp(*argv
, "headdrop") == 0) {
96 } else if (strcmp(*argv
, "redflowlimit") == 0) {
98 if (get_u32(&opt
.limit
, *argv
, 0)) {
99 fprintf(stderr
, "Illegal \"redflowlimit\"\n");
103 } else if (strcmp(*argv
, "min") == 0) {
105 if (get_u32(&opt
.qth_min
, *argv
, 0)) {
106 fprintf(stderr
, "Illegal \"min\"\n");
110 } else if (strcmp(*argv
, "max") == 0) {
112 if (get_u32(&opt
.qth_max
, *argv
, 0)) {
113 fprintf(stderr
, "Illegal \"max\"\n");
117 } else if (strcmp(*argv
, "burst") == 0) {
119 if (get_unsigned(&burst
, *argv
, 0)) {
120 fprintf(stderr
, "Illegal \"burst\"\n");
124 } else if (strcmp(*argv
, "avpkt") == 0) {
126 if (get_size(&avpkt
, *argv
)) {
127 fprintf(stderr
, "Illegal \"avpkt\"\n");
131 } else if (strcmp(*argv
, "probability") == 0) {
133 if (sscanf(*argv
, "%lg", &probability
) != 1) {
134 fprintf(stderr
, "Illegal \"probability\"\n");
138 } else if (strcmp(*argv
, "ecn") == 0) {
139 opt
.flags
|= TC_RED_ECN
;
141 } else if (strcmp(*argv
, "harddrop") == 0) {
142 opt
.flags
|= TC_RED_HARDDROP
;
144 } else if (strcmp(*argv
, "help") == 0) {
148 fprintf(stderr
, "What is \"%s\"?\n", *argv
);
156 fprintf(stderr
, "Required parameter (redflowlimit) is missing\n");
159 /* Compute default min/max thresholds based on
160 Sally Floyd's recommendations:
161 http://www.icir.org/floyd/REDparameters.txt
164 opt
.qth_max
= opt
.limit
/ 4;
166 opt
.qth_min
= opt
.qth_max
/ 3;
168 burst
= (2 * opt
.qth_min
+ opt
.qth_max
) / (3 * avpkt
);
170 if (opt
.qth_max
> opt
.limit
) {
171 fprintf(stderr
, "\"max\" is larger than \"limit\"\n");
175 if (opt
.qth_min
>= opt
.qth_max
) {
176 fprintf(stderr
, "\"min\" is not smaller than \"max\"\n");
180 wlog
= tc_red_eval_ewma(opt
.qth_min
, burst
, avpkt
);
182 fprintf(stderr
, "SFQ: failed to calculate EWMA constant.\n");
186 fprintf(stderr
, "SFQ: WARNING. Burst %u seems to be too large.\n", burst
);
189 wlog
= tc_red_eval_P(opt
.qth_min
, opt
.qth_max
, probability
);
191 fprintf(stderr
, "SFQ: failed to calculate probability.\n");
195 opt
.max_P
= probability
* pow(2, 32);
199 addattr_l(n
, 1024, TCA_OPTIONS
, &opt
, sizeof(opt
));
203 static int sfq_print_opt(struct qdisc_util
*qu
, FILE *f
, struct rtattr
*opt
)
205 struct tc_sfq_qopt
*qopt
;
206 struct tc_sfq_qopt_v1
*qopt_ext
= NULL
;
214 if (RTA_PAYLOAD(opt
) < sizeof(*qopt
))
216 if (RTA_PAYLOAD(opt
) >= sizeof(*qopt_ext
))
217 qopt_ext
= RTA_DATA(opt
);
218 qopt
= RTA_DATA(opt
);
219 fprintf(f
, "limit %up ", qopt
->limit
);
220 fprintf(f
, "quantum %s ", sprint_size(qopt
->quantum
, b1
));
221 if (qopt_ext
&& qopt_ext
->depth
)
222 fprintf(f
, "depth %u ", qopt_ext
->depth
);
223 if (qopt_ext
&& qopt_ext
->headdrop
)
224 fprintf(f
, "headdrop ");
227 fprintf(f
, "flows %u/%u ", qopt
->flows
, qopt
->divisor
);
229 fprintf(f
, "divisor %u ", qopt
->divisor
);
230 if (qopt
->perturb_period
)
231 fprintf(f
, "perturb %dsec ", qopt
->perturb_period
);
232 if (qopt_ext
&& qopt_ext
->qth_min
) {
233 fprintf(f
, "\n ewma %u ", qopt_ext
->Wlog
);
234 fprintf(f
, "min %s max %s probability %g ",
235 sprint_size(qopt_ext
->qth_min
, b2
),
236 sprint_size(qopt_ext
->qth_max
, b3
),
237 qopt_ext
->max_P
/ pow(2, 32));
238 tc_red_print_flags(qopt_ext
->flags
);
240 fprintf(f
, "\n prob_mark %u prob_mark_head %u prob_drop %u",
241 qopt_ext
->stats
.prob_mark
,
242 qopt_ext
->stats
.prob_mark_head
,
243 qopt_ext
->stats
.prob_drop
);
244 fprintf(f
, "\n forced_mark %u forced_mark_head %u forced_drop %u",
245 qopt_ext
->stats
.forced_mark
,
246 qopt_ext
->stats
.forced_mark_head
,
247 qopt_ext
->stats
.forced_drop
);
253 static int sfq_print_xstats(struct qdisc_util
*qu
, FILE *f
,
254 struct rtattr
*xstats
)
256 struct tc_sfq_xstats
*st
;
260 if (RTA_PAYLOAD(xstats
) < sizeof(*st
))
262 st
= RTA_DATA(xstats
);
264 fprintf(f
, " allot %d ", st
->allot
);
269 struct qdisc_util sfq_qdisc_util
= {
271 .parse_qopt
= sfq_parse_opt
,
272 .print_qopt
= sfq_print_opt
,
273 .print_xstats
= sfq_print_xstats
,