xref: /dragonfly/contrib/wpa_supplicant/src/ap/acs.c (revision 3a84a4273475ed07d0ab1c2dfeffdfedef35d9cd)
1 /*
2  * ACS - Automatic Channel Selection module
3  * Copyright (c) 2011, Atheros Communications
4  * Copyright (c) 2013, Qualcomm Atheros, Inc.
5  *
6  * This software may be distributed under the terms of the BSD license.
7  * See README for more details.
8  */
9 
10 #include "utils/includes.h"
11 #include <math.h>
12 
13 #include "utils/common.h"
14 #include "utils/list.h"
15 #include "common/ieee802_11_defs.h"
16 #include "common/hw_features_common.h"
17 #include "common/wpa_ctrl.h"
18 #include "drivers/driver.h"
19 #include "hostapd.h"
20 #include "ap_drv_ops.h"
21 #include "ap_config.h"
22 #include "hw_features.h"
23 #include "acs.h"
24 
25 /*
26  * Automatic Channel Selection
27  * ===========================
28  *
29  * More info at
30  * ------------
31  * http://wireless.kernel.org/en/users/Documentation/acs
32  *
33  * How to use
34  * ----------
35  * - make sure you have CONFIG_ACS=y in hostapd's .config
36  * - use channel=0 or channel=acs to enable ACS
37  *
38  * How does it work
39  * ----------------
40  * 1. passive scans are used to collect survey data
41  *    (it is assumed that scan trigger collection of survey data in driver)
42  * 2. interference factor is calculated for each channel
43  * 3. ideal channel is picked depending on channel width by using adjacent
44  *    channel interference factors
45  *
46  * Known limitations
47  * -----------------
48  * - Current implementation depends heavily on the amount of time willing to
49  *   spend gathering survey data during hostapd startup. Short traffic bursts
50  *   may be missed and a suboptimal channel may be picked.
51  * - Ideal channel may end up overlapping a channel with 40 MHz intolerant BSS
52  *
53  * Todo / Ideas
54  * ------------
55  * - implement other interference computation methods
56  *   - BSS/RSSI based
57  *   - spectral scan based
58  *   (should be possibly to hook this up with current ACS scans)
59  * - add wpa_supplicant support (for P2P)
60  * - collect a histogram of interference over time allowing more educated
61  *   guess about an ideal channel (perhaps CSA could be used to migrate AP to a
62  *   new "better" channel while running)
63  * - include neighboring BSS scan to avoid conflicts with 40 MHz intolerant BSSs
64  *   when choosing the ideal channel
65  *
66  * Survey interference factor implementation details
67  * -------------------------------------------------
68  * Generic interference_factor in struct hostapd_channel_data is used.
69  *
70  * The survey interference factor is defined as the ratio of the
71  * observed busy time over the time we spent on the channel,
72  * this value is then amplified by the observed noise floor on
73  * the channel in comparison to the lowest noise floor observed
74  * on the entire band.
75  *
76  * This corresponds to:
77  * ---
78  * (busy time - tx time) / (active time - tx time) * 2^(chan_nf + band_min_nf)
79  * ---
80  *
81  * The coefficient of 2 reflects the way power in "far-field"
82  * radiation decreases as the square of distance from the antenna [1].
83  * What this does is it decreases the observed busy time ratio if the
84  * noise observed was low but increases it if the noise was high,
85  * proportionally to the way "far field" radiation changes over
86  * distance.
87  *
88  * If channel busy time is not available the fallback is to use channel RX time.
89  *
90  * Since noise floor is in dBm it is necessary to convert it into Watts so that
91  * combined channel interference (e.g., HT40, which uses two channels) can be
92  * calculated easily.
93  * ---
94  * (busy time - tx time) / (active time - tx time) *
95  *    2^(10^(chan_nf/10) + 10^(band_min_nf/10))
96  * ---
97  *
98  * However to account for cases where busy/rx time is 0 (channel load is then
99  * 0%) channel noise floor signal power is combined into the equation so a
100  * channel with lower noise floor is preferred. The equation becomes:
101  * ---
102  * 10^(chan_nf/5) + (busy time - tx time) / (active time - tx time) *
103  *    2^(10^(chan_nf/10) + 10^(band_min_nf/10))
104  * ---
105  *
106  * All this "interference factor" is purely subjective and only time
107  * will tell how usable this is. By using the minimum noise floor we
108  * remove any possible issues due to card calibration. The computation
109  * of the interference factor then is dependent on what the card itself
110  * picks up as the minimum noise, not an actual real possible card
111  * noise value.
112  *
113  * Total interference computation details
114  * --------------------------------------
115  * The above channel interference factor is calculated with no respect to
116  * target operational bandwidth.
117  *
118  * To find an ideal channel the above data is combined by taking into account
119  * the target operational bandwidth and selected band. E.g., on 2.4 GHz channels
120  * overlap with 20 MHz bandwidth, but there is no overlap for 20 MHz bandwidth
121  * on 5 GHz.
122  *
123  * Each valid and possible channel spec (i.e., channel + width) is taken and its
124  * interference factor is computed by summing up interferences of each channel
125  * it overlaps. The one with least total interference is picked up.
126  *
127  * Note: This implies base channel interference factor must be non-negative
128  * allowing easy summing up.
129  *
130  * Example ACS analysis printout
131  * -----------------------------
132  *
133  * ACS: Trying survey-based ACS
134  * ACS: Survey analysis for channel 1 (2412 MHz)
135  * ACS:  1: min_nf=-113 interference_factor=0.0802469 nf=-113 time=162 busy=0 rx=13
136  * ACS:  2: min_nf=-113 interference_factor=0.0745342 nf=-113 time=161 busy=0 rx=12
137  * ACS:  3: min_nf=-113 interference_factor=0.0679012 nf=-113 time=162 busy=0 rx=11
138  * ACS:  4: min_nf=-113 interference_factor=0.0310559 nf=-113 time=161 busy=0 rx=5
139  * ACS:  5: min_nf=-113 interference_factor=0.0248447 nf=-113 time=161 busy=0 rx=4
140  * ACS:  * interference factor average: 0.0557166
141  * ACS: Survey analysis for channel 2 (2417 MHz)
142  * ACS:  1: min_nf=-113 interference_factor=0.0185185 nf=-113 time=162 busy=0 rx=3
143  * ACS:  2: min_nf=-113 interference_factor=0.0246914 nf=-113 time=162 busy=0 rx=4
144  * ACS:  3: min_nf=-113 interference_factor=0.037037 nf=-113 time=162 busy=0 rx=6
145  * ACS:  4: min_nf=-113 interference_factor=0.149068 nf=-113 time=161 busy=0 rx=24
146  * ACS:  5: min_nf=-113 interference_factor=0.0248447 nf=-113 time=161 busy=0 rx=4
147  * ACS:  * interference factor average: 0.050832
148  * ACS: Survey analysis for channel 3 (2422 MHz)
149  * ACS:  1: min_nf=-113 interference_factor=2.51189e-23 nf=-113 time=162 busy=0 rx=0
150  * ACS:  2: min_nf=-113 interference_factor=0.0185185 nf=-113 time=162 busy=0 rx=3
151  * ACS:  3: min_nf=-113 interference_factor=0.0186335 nf=-113 time=161 busy=0 rx=3
152  * ACS:  4: min_nf=-113 interference_factor=0.0186335 nf=-113 time=161 busy=0 rx=3
153  * ACS:  5: min_nf=-113 interference_factor=0.0186335 nf=-113 time=161 busy=0 rx=3
154  * ACS:  * interference factor average: 0.0148838
155  * ACS: Survey analysis for channel 4 (2427 MHz)
156  * ACS:  1: min_nf=-114 interference_factor=1.58489e-23 nf=-114 time=162 busy=0 rx=0
157  * ACS:  2: min_nf=-114 interference_factor=0.0555556 nf=-114 time=162 busy=0 rx=9
158  * ACS:  3: min_nf=-114 interference_factor=1.58489e-23 nf=-114 time=161 busy=0 rx=0
159  * ACS:  4: min_nf=-114 interference_factor=0.0186335 nf=-114 time=161 busy=0 rx=3
160  * ACS:  5: min_nf=-114 interference_factor=0.00621118 nf=-114 time=161 busy=0 rx=1
161  * ACS:  * interference factor average: 0.0160801
162  * ACS: Survey analysis for channel 5 (2432 MHz)
163  * ACS:  1: min_nf=-114 interference_factor=0.409938 nf=-113 time=161 busy=0 rx=66
164  * ACS:  2: min_nf=-114 interference_factor=0.0432099 nf=-113 time=162 busy=0 rx=7
165  * ACS:  3: min_nf=-114 interference_factor=0.0124224 nf=-113 time=161 busy=0 rx=2
166  * ACS:  4: min_nf=-114 interference_factor=0.677019 nf=-113 time=161 busy=0 rx=109
167  * ACS:  5: min_nf=-114 interference_factor=0.0186335 nf=-114 time=161 busy=0 rx=3
168  * ACS:  * interference factor average: 0.232244
169  * ACS: Survey analysis for channel 6 (2437 MHz)
170  * ACS:  1: min_nf=-113 interference_factor=0.552795 nf=-113 time=161 busy=0 rx=89
171  * ACS:  2: min_nf=-113 interference_factor=0.0807453 nf=-112 time=161 busy=0 rx=13
172  * ACS:  3: min_nf=-113 interference_factor=0.0310559 nf=-113 time=161 busy=0 rx=5
173  * ACS:  4: min_nf=-113 interference_factor=0.434783 nf=-112 time=161 busy=0 rx=70
174  * ACS:  5: min_nf=-113 interference_factor=0.0621118 nf=-113 time=161 busy=0 rx=10
175  * ACS:  * interference factor average: 0.232298
176  * ACS: Survey analysis for channel 7 (2442 MHz)
177  * ACS:  1: min_nf=-113 interference_factor=0.440994 nf=-112 time=161 busy=0 rx=71
178  * ACS:  2: min_nf=-113 interference_factor=0.385093 nf=-113 time=161 busy=0 rx=62
179  * ACS:  3: min_nf=-113 interference_factor=0.0372671 nf=-113 time=161 busy=0 rx=6
180  * ACS:  4: min_nf=-113 interference_factor=0.0372671 nf=-113 time=161 busy=0 rx=6
181  * ACS:  5: min_nf=-113 interference_factor=0.0745342 nf=-113 time=161 busy=0 rx=12
182  * ACS:  * interference factor average: 0.195031
183  * ACS: Survey analysis for channel 8 (2447 MHz)
184  * ACS:  1: min_nf=-114 interference_factor=0.0496894 nf=-112 time=161 busy=0 rx=8
185  * ACS:  2: min_nf=-114 interference_factor=0.0496894 nf=-114 time=161 busy=0 rx=8
186  * ACS:  3: min_nf=-114 interference_factor=0.0372671 nf=-113 time=161 busy=0 rx=6
187  * ACS:  4: min_nf=-114 interference_factor=0.12963 nf=-113 time=162 busy=0 rx=21
188  * ACS:  5: min_nf=-114 interference_factor=0.166667 nf=-114 time=162 busy=0 rx=27
189  * ACS:  * interference factor average: 0.0865885
190  * ACS: Survey analysis for channel 9 (2452 MHz)
191  * ACS:  1: min_nf=-114 interference_factor=0.0124224 nf=-114 time=161 busy=0 rx=2
192  * ACS:  2: min_nf=-114 interference_factor=0.0310559 nf=-114 time=161 busy=0 rx=5
193  * ACS:  3: min_nf=-114 interference_factor=1.58489e-23 nf=-114 time=161 busy=0 rx=0
194  * ACS:  4: min_nf=-114 interference_factor=0.00617284 nf=-114 time=162 busy=0 rx=1
195  * ACS:  5: min_nf=-114 interference_factor=1.58489e-23 nf=-114 time=162 busy=0 rx=0
196  * ACS:  * interference factor average: 0.00993022
197  * ACS: Survey analysis for channel 10 (2457 MHz)
198  * ACS:  1: min_nf=-114 interference_factor=0.00621118 nf=-114 time=161 busy=0 rx=1
199  * ACS:  2: min_nf=-114 interference_factor=0.00621118 nf=-114 time=161 busy=0 rx=1
200  * ACS:  3: min_nf=-114 interference_factor=0.00621118 nf=-114 time=161 busy=0 rx=1
201  * ACS:  4: min_nf=-114 interference_factor=0.0493827 nf=-114 time=162 busy=0 rx=8
202  * ACS:  5: min_nf=-114 interference_factor=1.58489e-23 nf=-114 time=162 busy=0 rx=0
203  * ACS:  * interference factor average: 0.0136033
204  * ACS: Survey analysis for channel 11 (2462 MHz)
205  * ACS:  1: min_nf=-114 interference_factor=1.58489e-23 nf=-114 time=161 busy=0 rx=0
206  * ACS:  2: min_nf=-114 interference_factor=2.51189e-23 nf=-113 time=161 busy=0 rx=0
207  * ACS:  3: min_nf=-114 interference_factor=2.51189e-23 nf=-113 time=161 busy=0 rx=0
208  * ACS:  4: min_nf=-114 interference_factor=0.0432099 nf=-114 time=162 busy=0 rx=7
209  * ACS:  5: min_nf=-114 interference_factor=0.0925926 nf=-114 time=162 busy=0 rx=15
210  * ACS:  * interference factor average: 0.0271605
211  * ACS: Survey analysis for channel 12 (2467 MHz)
212  * ACS:  1: min_nf=-114 interference_factor=0.0621118 nf=-113 time=161 busy=0 rx=10
213  * ACS:  2: min_nf=-114 interference_factor=0.00621118 nf=-114 time=161 busy=0 rx=1
214  * ACS:  3: min_nf=-114 interference_factor=2.51189e-23 nf=-113 time=162 busy=0 rx=0
215  * ACS:  4: min_nf=-114 interference_factor=2.51189e-23 nf=-113 time=162 busy=0 rx=0
216  * ACS:  5: min_nf=-114 interference_factor=0.00617284 nf=-113 time=162 busy=0 rx=1
217  * ACS:  * interference factor average: 0.0148992
218  * ACS: Survey analysis for channel 13 (2472 MHz)
219  * ACS:  1: min_nf=-114 interference_factor=0.0745342 nf=-114 time=161 busy=0 rx=12
220  * ACS:  2: min_nf=-114 interference_factor=0.0555556 nf=-114 time=162 busy=0 rx=9
221  * ACS:  3: min_nf=-114 interference_factor=1.58489e-23 nf=-114 time=162 busy=0 rx=0
222  * ACS:  4: min_nf=-114 interference_factor=1.58489e-23 nf=-114 time=162 busy=0 rx=0
223  * ACS:  5: min_nf=-114 interference_factor=1.58489e-23 nf=-114 time=162 busy=0 rx=0
224  * ACS:  * interference factor average: 0.0260179
225  * ACS: Survey analysis for selected bandwidth 20MHz
226  * ACS:  * channel 1: total interference = 0.121432
227  * ACS:  * channel 2: total interference = 0.137512
228  * ACS:  * channel 3: total interference = 0.369757
229  * ACS:  * channel 4: total interference = 0.546338
230  * ACS:  * channel 5: total interference = 0.690538
231  * ACS:  * channel 6: total interference = 0.762242
232  * ACS:  * channel 7: total interference = 0.756092
233  * ACS:  * channel 8: total interference = 0.537451
234  * ACS:  * channel 9: total interference = 0.332313
235  * ACS:  * channel 10: total interference = 0.152182
236  * ACS:  * channel 11: total interference = 0.0916111
237  * ACS:  * channel 12: total interference = 0.0816809
238  * ACS:  * channel 13: total interference = 0.0680776
239  * ACS: Ideal channel is 13 (2472 MHz) with total interference factor of 0.0680776
240  *
241  * [1] http://en.wikipedia.org/wiki/Near_and_far_field
242  */
243 
244 
245 static int acs_request_scan(struct hostapd_iface *iface);
246 static int acs_survey_is_sufficient(struct freq_survey *survey);
247 
248 
acs_clean_chan_surveys(struct hostapd_channel_data * chan)249 static void acs_clean_chan_surveys(struct hostapd_channel_data *chan)
250 {
251           struct freq_survey *survey, *tmp;
252 
253           if (dl_list_empty(&chan->survey_list))
254                     return;
255 
256           dl_list_for_each_safe(survey, tmp, &chan->survey_list,
257                                     struct freq_survey, list) {
258                     dl_list_del(&survey->list);
259                     os_free(survey);
260           }
261 }
262 
263 
acs_cleanup(struct hostapd_iface * iface)264 void acs_cleanup(struct hostapd_iface *iface)
265 {
266           int i;
267           struct hostapd_channel_data *chan;
268 
269           for (i = 0; i < iface->current_mode->num_channels; i++) {
270                     chan = &iface->current_mode->channels[i];
271 
272                     if (chan->flag & HOSTAPD_CHAN_SURVEY_LIST_INITIALIZED)
273                               acs_clean_chan_surveys(chan);
274 
275                     dl_list_init(&chan->survey_list);
276                     chan->flag |= HOSTAPD_CHAN_SURVEY_LIST_INITIALIZED;
277                     chan->min_nf = 0;
278           }
279 
280           iface->chans_surveyed = 0;
281           iface->acs_num_completed_scans = 0;
282 }
283 
284 
acs_fail(struct hostapd_iface * iface)285 static void acs_fail(struct hostapd_iface *iface)
286 {
287           wpa_printf(MSG_ERROR, "ACS: Failed to start");
288           acs_cleanup(iface);
289           hostapd_disable_iface(iface);
290 }
291 
292 
293 static long double
acs_survey_interference_factor(struct freq_survey * survey,s8 min_nf)294 acs_survey_interference_factor(struct freq_survey *survey, s8 min_nf)
295 {
296           long double factor, busy, total;
297 
298           if (survey->filled & SURVEY_HAS_CHAN_TIME_BUSY)
299                     busy = survey->channel_time_busy;
300           else if (survey->filled & SURVEY_HAS_CHAN_TIME_RX)
301                     busy = survey->channel_time_rx;
302           else {
303                     /* This shouldn't really happen as survey data is checked in
304                      * acs_sanity_check() */
305                     wpa_printf(MSG_ERROR, "ACS: Survey data missing");
306                     return 0;
307           }
308 
309           total = survey->channel_time;
310 
311           if (survey->filled & SURVEY_HAS_CHAN_TIME_TX) {
312                     busy -= survey->channel_time_tx;
313                     total -= survey->channel_time_tx;
314           }
315 
316           /* TODO: figure out the best multiplier for noise floor base */
317           factor = pow(10, survey->nf / 5.0L) +
318                     (total ? (busy / total) : 0) *
319                     pow(2, pow(10, (long double) survey->nf / 10.0L) -
320                         pow(10, (long double) min_nf / 10.0L));
321 
322           return factor;
323 }
324 
325 
326 static void
acs_survey_chan_interference_factor(struct hostapd_iface * iface,struct hostapd_channel_data * chan)327 acs_survey_chan_interference_factor(struct hostapd_iface *iface,
328                                             struct hostapd_channel_data *chan)
329 {
330           struct freq_survey *survey;
331           unsigned int i = 0;
332           long double int_factor = 0;
333           unsigned count = 0;
334 
335           if (dl_list_empty(&chan->survey_list) ||
336               (chan->flag & HOSTAPD_CHAN_DISABLED))
337                     return;
338 
339           chan->interference_factor = 0;
340 
341           dl_list_for_each(survey, &chan->survey_list, struct freq_survey, list)
342           {
343                     i++;
344 
345                     if (!acs_survey_is_sufficient(survey)) {
346                               wpa_printf(MSG_DEBUG, "ACS: %d: insufficient data", i);
347                               continue;
348                     }
349 
350                     count++;
351                     int_factor = acs_survey_interference_factor(survey,
352                                                                           iface->lowest_nf);
353                     chan->interference_factor += int_factor;
354                     wpa_printf(MSG_DEBUG, "ACS: %d: min_nf=%d interference_factor=%Lg nf=%d time=%lu busy=%lu rx=%lu",
355                                  i, chan->min_nf, int_factor,
356                                  survey->nf, (unsigned long) survey->channel_time,
357                                  (unsigned long) survey->channel_time_busy,
358                                  (unsigned long) survey->channel_time_rx);
359           }
360 
361           if (count)
362                     chan->interference_factor /= count;
363 }
364 
365 
acs_usable_ht40_chan(const struct hostapd_channel_data * chan)366 static int acs_usable_ht40_chan(const struct hostapd_channel_data *chan)
367 {
368           const int allowed[] = { 36, 44, 52, 60, 100, 108, 116, 124, 132, 149,
369                                         157, 184, 192 };
370           unsigned int i;
371 
372           for (i = 0; i < ARRAY_SIZE(allowed); i++)
373                     if (chan->chan == allowed[i])
374                               return 1;
375 
376           return 0;
377 }
378 
379 
acs_usable_vht80_chan(const struct hostapd_channel_data * chan)380 static int acs_usable_vht80_chan(const struct hostapd_channel_data *chan)
381 {
382           const int allowed[] = { 36, 52, 100, 116, 132, 149 };
383           unsigned int i;
384 
385           for (i = 0; i < ARRAY_SIZE(allowed); i++)
386                     if (chan->chan == allowed[i])
387                               return 1;
388 
389           return 0;
390 }
391 
392 
acs_usable_vht160_chan(const struct hostapd_channel_data * chan)393 static int acs_usable_vht160_chan(const struct hostapd_channel_data *chan)
394 {
395           const int allowed[] = { 36, 100 };
396           unsigned int i;
397 
398           for (i = 0; i < ARRAY_SIZE(allowed); i++)
399                     if (chan->chan == allowed[i])
400                               return 1;
401 
402           return 0;
403 }
404 
405 
acs_survey_is_sufficient(struct freq_survey * survey)406 static int acs_survey_is_sufficient(struct freq_survey *survey)
407 {
408           if (!(survey->filled & SURVEY_HAS_NF)) {
409                     wpa_printf(MSG_INFO, "ACS: Survey is missing noise floor");
410                     return 0;
411           }
412 
413           if (!(survey->filled & SURVEY_HAS_CHAN_TIME)) {
414                     wpa_printf(MSG_INFO, "ACS: Survey is missing channel time");
415                     return 0;
416           }
417 
418           if (!(survey->filled & SURVEY_HAS_CHAN_TIME_BUSY) &&
419               !(survey->filled & SURVEY_HAS_CHAN_TIME_RX)) {
420                     wpa_printf(MSG_INFO,
421                                  "ACS: Survey is missing RX and busy time (at least one is required)");
422                     return 0;
423           }
424 
425           return 1;
426 }
427 
428 
acs_survey_list_is_sufficient(struct hostapd_channel_data * chan)429 static int acs_survey_list_is_sufficient(struct hostapd_channel_data *chan)
430 {
431           struct freq_survey *survey;
432           int ret = -1;
433 
434           dl_list_for_each(survey, &chan->survey_list, struct freq_survey, list)
435           {
436                     if (acs_survey_is_sufficient(survey)) {
437                               ret = 1;
438                               break;
439                     }
440                     ret = 0;
441           }
442 
443           if (ret == -1)
444                     ret = 1; /* no survey list entries */
445 
446           if (!ret) {
447                     wpa_printf(MSG_INFO,
448                                  "ACS: Channel %d has insufficient survey data",
449                                  chan->chan);
450           }
451 
452           return ret;
453 }
454 
455 
acs_surveys_are_sufficient(struct hostapd_iface * iface)456 static int acs_surveys_are_sufficient(struct hostapd_iface *iface)
457 {
458           int i;
459           struct hostapd_channel_data *chan;
460           int valid = 0;
461 
462           for (i = 0; i < iface->current_mode->num_channels; i++) {
463                     chan = &iface->current_mode->channels[i];
464                     if (!(chan->flag & HOSTAPD_CHAN_DISABLED) &&
465                         acs_survey_list_is_sufficient(chan))
466                               valid++;
467           }
468 
469           /* We need at least survey data for one channel */
470           return !!valid;
471 }
472 
473 
acs_usable_chan(struct hostapd_channel_data * chan)474 static int acs_usable_chan(struct hostapd_channel_data *chan)
475 {
476           return !dl_list_empty(&chan->survey_list) &&
477                     !(chan->flag & HOSTAPD_CHAN_DISABLED) &&
478                     acs_survey_list_is_sufficient(chan);
479 }
480 
481 
is_in_chanlist(struct hostapd_iface * iface,struct hostapd_channel_data * chan)482 static int is_in_chanlist(struct hostapd_iface *iface,
483                                 struct hostapd_channel_data *chan)
484 {
485           if (!iface->conf->acs_ch_list.num)
486                     return 1;
487 
488           return freq_range_list_includes(&iface->conf->acs_ch_list, chan->chan);
489 }
490 
491 
acs_survey_all_chans_intereference_factor(struct hostapd_iface * iface)492 static void acs_survey_all_chans_intereference_factor(
493           struct hostapd_iface *iface)
494 {
495           int i;
496           struct hostapd_channel_data *chan;
497 
498           for (i = 0; i < iface->current_mode->num_channels; i++) {
499                     chan = &iface->current_mode->channels[i];
500 
501                     if (!acs_usable_chan(chan))
502                               continue;
503 
504                     if (!is_in_chanlist(iface, chan))
505                               continue;
506 
507                     wpa_printf(MSG_DEBUG, "ACS: Survey analysis for channel %d (%d MHz)",
508                                  chan->chan, chan->freq);
509 
510                     acs_survey_chan_interference_factor(iface, chan);
511 
512                     wpa_printf(MSG_DEBUG, "ACS:  * interference factor average: %Lg",
513                                  chan->interference_factor);
514           }
515 }
516 
517 
acs_find_chan(struct hostapd_iface * iface,int freq)518 static struct hostapd_channel_data *acs_find_chan(struct hostapd_iface *iface,
519                                                               int freq)
520 {
521           struct hostapd_channel_data *chan;
522           int i;
523 
524           for (i = 0; i < iface->current_mode->num_channels; i++) {
525                     chan = &iface->current_mode->channels[i];
526 
527                     if (chan->flag & HOSTAPD_CHAN_DISABLED)
528                               continue;
529 
530                     if (chan->freq == freq)
531                               return chan;
532           }
533 
534           return NULL;
535 }
536 
537 
is_24ghz_mode(enum hostapd_hw_mode mode)538 static int is_24ghz_mode(enum hostapd_hw_mode mode)
539 {
540           return mode == HOSTAPD_MODE_IEEE80211B ||
541                     mode == HOSTAPD_MODE_IEEE80211G;
542 }
543 
544 
is_common_24ghz_chan(int chan)545 static int is_common_24ghz_chan(int chan)
546 {
547           return chan == 1 || chan == 6 || chan == 11;
548 }
549 
550 
551 #ifndef ACS_ADJ_WEIGHT
552 #define ACS_ADJ_WEIGHT 0.85
553 #endif /* ACS_ADJ_WEIGHT */
554 
555 #ifndef ACS_NEXT_ADJ_WEIGHT
556 #define ACS_NEXT_ADJ_WEIGHT 0.55
557 #endif /* ACS_NEXT_ADJ_WEIGHT */
558 
559 #ifndef ACS_24GHZ_PREFER_1_6_11
560 /*
561  * Select commonly used channels 1, 6, 11 by default even if a neighboring
562  * channel has a smaller interference factor as long as it is not better by more
563  * than this multiplier.
564  */
565 #define ACS_24GHZ_PREFER_1_6_11 0.8
566 #endif /* ACS_24GHZ_PREFER_1_6_11 */
567 
568 /*
569  * At this point it's assumed chan->interface_factor has been computed.
570  * This function should be reusable regardless of interference computation
571  * option (survey, BSS, spectral, ...). chan->interference factor must be
572  * summable (i.e., must be always greater than zero).
573  */
574 static struct hostapd_channel_data *
acs_find_ideal_chan(struct hostapd_iface * iface)575 acs_find_ideal_chan(struct hostapd_iface *iface)
576 {
577           struct hostapd_channel_data *chan, *adj_chan, *ideal_chan = NULL,
578                     *rand_chan = NULL;
579           long double factor, ideal_factor = 0;
580           int i, j;
581           int n_chans = 1;
582           u32 bw;
583           unsigned int k;
584 
585           /* TODO: HT40- support */
586 
587           if (iface->conf->ieee80211n &&
588               iface->conf->secondary_channel == -1) {
589                     wpa_printf(MSG_ERROR, "ACS: HT40- is not supported yet. Please try HT40+");
590                     return NULL;
591           }
592 
593           if (iface->conf->ieee80211n &&
594               iface->conf->secondary_channel)
595                     n_chans = 2;
596 
597           if (iface->conf->ieee80211ac || iface->conf->ieee80211ax) {
598                     switch (hostapd_get_oper_chwidth(iface->conf)) {
599                     case CHANWIDTH_80MHZ:
600                               n_chans = 4;
601                               break;
602                     case CHANWIDTH_160MHZ:
603                               n_chans = 8;
604                               break;
605                     }
606           }
607 
608           bw = num_chan_to_bw(n_chans);
609 
610           /* TODO: VHT/HE80+80. Update acs_adjust_center_freq() too. */
611 
612           wpa_printf(MSG_DEBUG,
613                        "ACS: Survey analysis for selected bandwidth %d MHz", bw);
614 
615           for (i = 0; i < iface->current_mode->num_channels; i++) {
616                     double total_weight;
617                     struct acs_bias *bias, tmp_bias;
618 
619                     chan = &iface->current_mode->channels[i];
620 
621                     /* Since in the current ACS implementation the first channel is
622                      * always a primary channel, skip channels not available as
623                      * primary until more sophisticated channel selection is
624                      * implemented. */
625                     if (!chan_pri_allowed(chan))
626                               continue;
627 
628                     if (!is_in_chanlist(iface, chan))
629                               continue;
630 
631                     if (!chan_bw_allowed(chan, bw, 1, 1)) {
632                               wpa_printf(MSG_DEBUG,
633                                            "ACS: Channel %d: BW %u is not supported",
634                                            chan->chan, bw);
635                               continue;
636                     }
637 
638                     /* HT40 on 5 GHz has a limited set of primary channels as per
639                      * 11n Annex J */
640                     if (iface->current_mode->mode == HOSTAPD_MODE_IEEE80211A &&
641                         iface->conf->ieee80211n &&
642                         iface->conf->secondary_channel &&
643                         !acs_usable_ht40_chan(chan)) {
644                               wpa_printf(MSG_DEBUG, "ACS: Channel %d: not allowed as primary channel for HT40",
645                                            chan->chan);
646                               continue;
647                     }
648 
649                     if (iface->current_mode->mode == HOSTAPD_MODE_IEEE80211A &&
650                         (iface->conf->ieee80211ac || iface->conf->ieee80211ax)) {
651                               if (hostapd_get_oper_chwidth(iface->conf) ==
652                                   CHANWIDTH_80MHZ &&
653                                   !acs_usable_vht80_chan(chan)) {
654                                         wpa_printf(MSG_DEBUG,
655                                                      "ACS: Channel %d: not allowed as primary channel for VHT80",
656                                                      chan->chan);
657                                         continue;
658                               }
659 
660                               if (hostapd_get_oper_chwidth(iface->conf) ==
661                                   CHANWIDTH_160MHZ &&
662                                   !acs_usable_vht160_chan(chan)) {
663                                         wpa_printf(MSG_DEBUG,
664                                                      "ACS: Channel %d: not allowed as primary channel for VHT160",
665                                                      chan->chan);
666                                         continue;
667                               }
668                     }
669 
670                     factor = 0;
671                     if (acs_usable_chan(chan))
672                               factor = chan->interference_factor;
673                     total_weight = 1;
674 
675                     for (j = 1; j < n_chans; j++) {
676                               adj_chan = acs_find_chan(iface, chan->freq + (j * 20));
677                               if (!adj_chan)
678                                         break;
679 
680                               if (!chan_bw_allowed(adj_chan, bw, 1, 0)) {
681                                         wpa_printf(MSG_DEBUG,
682                                                      "ACS: PRI Channel %d: secondary channel %d BW %u is not supported",
683                                                      chan->chan, adj_chan->chan, bw);
684                                         break;
685                               }
686 
687                               if (acs_usable_chan(adj_chan)) {
688                                         factor += adj_chan->interference_factor;
689                                         total_weight += 1;
690                               }
691                     }
692 
693                     if (j != n_chans) {
694                               wpa_printf(MSG_DEBUG, "ACS: Channel %d: not enough bandwidth",
695                                            chan->chan);
696                               continue;
697                     }
698 
699                     /* 2.4 GHz has overlapping 20 MHz channels. Include adjacent
700                      * channel interference factor. */
701                     if (is_24ghz_mode(iface->current_mode->mode)) {
702                               for (j = 0; j < n_chans; j++) {
703                                         adj_chan = acs_find_chan(iface, chan->freq +
704                                                                        (j * 20) - 5);
705                                         if (adj_chan && acs_usable_chan(adj_chan)) {
706                                                   factor += ACS_ADJ_WEIGHT *
707                                                             adj_chan->interference_factor;
708                                                   total_weight += ACS_ADJ_WEIGHT;
709                                         }
710 
711                                         adj_chan = acs_find_chan(iface, chan->freq +
712                                                                        (j * 20) - 10);
713                                         if (adj_chan && acs_usable_chan(adj_chan)) {
714                                                   factor += ACS_NEXT_ADJ_WEIGHT *
715                                                             adj_chan->interference_factor;
716                                                   total_weight += ACS_NEXT_ADJ_WEIGHT;
717                                         }
718 
719                                         adj_chan = acs_find_chan(iface, chan->freq +
720                                                                        (j * 20) + 5);
721                                         if (adj_chan && acs_usable_chan(adj_chan)) {
722                                                   factor += ACS_ADJ_WEIGHT *
723                                                             adj_chan->interference_factor;
724                                                   total_weight += ACS_ADJ_WEIGHT;
725                                         }
726 
727                                         adj_chan = acs_find_chan(iface, chan->freq +
728                                                                        (j * 20) + 10);
729                                         if (adj_chan && acs_usable_chan(adj_chan)) {
730                                                   factor += ACS_NEXT_ADJ_WEIGHT *
731                                                             adj_chan->interference_factor;
732                                                   total_weight += ACS_NEXT_ADJ_WEIGHT;
733                                         }
734                               }
735                     }
736 
737                     factor /= total_weight;
738 
739                     bias = NULL;
740                     if (iface->conf->acs_chan_bias) {
741                               for (k = 0; k < iface->conf->num_acs_chan_bias; k++) {
742                                         bias = &iface->conf->acs_chan_bias[k];
743                                         if (bias->channel == chan->chan)
744                                                   break;
745                                         bias = NULL;
746                               }
747                     } else if (is_24ghz_mode(iface->current_mode->mode) &&
748                                  is_common_24ghz_chan(chan->chan)) {
749                               tmp_bias.channel = chan->chan;
750                               tmp_bias.bias = ACS_24GHZ_PREFER_1_6_11;
751                               bias = &tmp_bias;
752                     }
753 
754                     if (bias) {
755                               factor *= bias->bias;
756                               wpa_printf(MSG_DEBUG,
757                                            "ACS:  * channel %d: total interference = %Lg (%f bias)",
758                                            chan->chan, factor, bias->bias);
759                     } else {
760                               wpa_printf(MSG_DEBUG,
761                                            "ACS:  * channel %d: total interference = %Lg",
762                                            chan->chan, factor);
763                     }
764 
765                     if (acs_usable_chan(chan) &&
766                         (!ideal_chan || factor < ideal_factor)) {
767                               ideal_factor = factor;
768                               ideal_chan = chan;
769                     }
770 
771                     /* This channel would at least be usable */
772                     if (!rand_chan)
773                               rand_chan = chan;
774           }
775 
776           if (ideal_chan) {
777                     wpa_printf(MSG_DEBUG, "ACS: Ideal channel is %d (%d MHz) with total interference factor of %Lg",
778                                  ideal_chan->chan, ideal_chan->freq, ideal_factor);
779                     return ideal_chan;
780           }
781 
782           return rand_chan;
783 }
784 
785 
acs_adjust_center_freq(struct hostapd_iface * iface)786 static void acs_adjust_center_freq(struct hostapd_iface *iface)
787 {
788           int offset;
789 
790           wpa_printf(MSG_DEBUG, "ACS: Adjusting VHT center frequency");
791 
792           switch (hostapd_get_oper_chwidth(iface->conf)) {
793           case CHANWIDTH_USE_HT:
794                     offset = 2 * iface->conf->secondary_channel;
795                     break;
796           case CHANWIDTH_80MHZ:
797                     offset = 6;
798                     break;
799           case CHANWIDTH_160MHZ:
800                     offset = 14;
801                     break;
802           default:
803                     /* TODO: How can this be calculated? Adjust
804                      * acs_find_ideal_chan() */
805                     wpa_printf(MSG_INFO,
806                                  "ACS: Only VHT20/40/80/160 is supported now");
807                     return;
808           }
809 
810           hostapd_set_oper_centr_freq_seg0_idx(iface->conf,
811                                                        iface->conf->channel + offset);
812 }
813 
814 
acs_study_survey_based(struct hostapd_iface * iface)815 static int acs_study_survey_based(struct hostapd_iface *iface)
816 {
817           wpa_printf(MSG_DEBUG, "ACS: Trying survey-based ACS");
818 
819           if (!iface->chans_surveyed) {
820                     wpa_printf(MSG_ERROR, "ACS: Unable to collect survey data");
821                     return -1;
822           }
823 
824           if (!acs_surveys_are_sufficient(iface)) {
825                     wpa_printf(MSG_ERROR, "ACS: Surveys have insufficient data");
826                     return -1;
827           }
828 
829           acs_survey_all_chans_intereference_factor(iface);
830           return 0;
831 }
832 
833 
acs_study_options(struct hostapd_iface * iface)834 static int acs_study_options(struct hostapd_iface *iface)
835 {
836           if (acs_study_survey_based(iface) == 0)
837                     return 0;
838 
839           /* TODO: If no surveys are available/sufficient this is a good
840            * place to fallback to BSS-based ACS */
841 
842           return -1;
843 }
844 
845 
acs_study(struct hostapd_iface * iface)846 static void acs_study(struct hostapd_iface *iface)
847 {
848           struct hostapd_channel_data *ideal_chan;
849           int err;
850 
851           err = acs_study_options(iface);
852           if (err < 0) {
853                     wpa_printf(MSG_ERROR, "ACS: All study options have failed");
854                     goto fail;
855           }
856 
857           ideal_chan = acs_find_ideal_chan(iface);
858           if (!ideal_chan) {
859                     wpa_printf(MSG_ERROR, "ACS: Failed to compute ideal channel");
860                     err = -1;
861                     goto fail;
862           }
863 
864           iface->conf->channel = ideal_chan->chan;
865 
866           if (iface->conf->ieee80211ac || iface->conf->ieee80211ax)
867                     acs_adjust_center_freq(iface);
868 
869           err = 0;
870 fail:
871           /*
872            * hostapd_setup_interface_complete() will return -1 on failure,
873            * 0 on success and 0 is HOSTAPD_CHAN_VALID :)
874            */
875           if (hostapd_acs_completed(iface, err) == HOSTAPD_CHAN_VALID) {
876                     acs_cleanup(iface);
877                     return;
878           }
879 
880           /* This can possibly happen if channel parameters (secondary
881            * channel, center frequencies) are misconfigured */
882           wpa_printf(MSG_ERROR, "ACS: Possibly channel configuration is invalid, please report this along with your config file.");
883           acs_fail(iface);
884 }
885 
886 
acs_scan_complete(struct hostapd_iface * iface)887 static void acs_scan_complete(struct hostapd_iface *iface)
888 {
889           int err;
890 
891           iface->scan_cb = NULL;
892 
893           wpa_printf(MSG_DEBUG, "ACS: Using survey based algorithm (acs_num_scans=%d)",
894                        iface->conf->acs_num_scans);
895 
896           err = hostapd_drv_get_survey(iface->bss[0], 0);
897           if (err) {
898                     wpa_printf(MSG_ERROR, "ACS: Failed to get survey data");
899                     goto fail;
900           }
901 
902           if (++iface->acs_num_completed_scans < iface->conf->acs_num_scans) {
903                     err = acs_request_scan(iface);
904                     if (err) {
905                               wpa_printf(MSG_ERROR, "ACS: Failed to request scan");
906                               goto fail;
907                     }
908 
909                     return;
910           }
911 
912           acs_study(iface);
913           return;
914 fail:
915           hostapd_acs_completed(iface, 1);
916           acs_fail(iface);
917 }
918 
919 
acs_request_scan(struct hostapd_iface * iface)920 static int acs_request_scan(struct hostapd_iface *iface)
921 {
922           struct wpa_driver_scan_params params;
923           struct hostapd_channel_data *chan;
924           int i, *freq;
925 
926           os_memset(&params, 0, sizeof(params));
927           params.freqs = os_calloc(iface->current_mode->num_channels + 1,
928                                          sizeof(params.freqs[0]));
929           if (params.freqs == NULL)
930                     return -1;
931 
932           freq = params.freqs;
933           for (i = 0; i < iface->current_mode->num_channels; i++) {
934                     chan = &iface->current_mode->channels[i];
935                     if (chan->flag & HOSTAPD_CHAN_DISABLED)
936                               continue;
937 
938                     if (!is_in_chanlist(iface, chan))
939                               continue;
940 
941                     *freq++ = chan->freq;
942           }
943           *freq = 0;
944 
945           iface->scan_cb = acs_scan_complete;
946 
947           wpa_printf(MSG_DEBUG, "ACS: Scanning %d / %d",
948                        iface->acs_num_completed_scans + 1,
949                        iface->conf->acs_num_scans);
950 
951           if (hostapd_driver_scan(iface->bss[0], &params) < 0) {
952                     wpa_printf(MSG_ERROR, "ACS: Failed to request initial scan");
953                     acs_cleanup(iface);
954                     os_free(params.freqs);
955                     return -1;
956           }
957 
958           os_free(params.freqs);
959           return 0;
960 }
961 
962 
acs_init(struct hostapd_iface * iface)963 enum hostapd_chan_status acs_init(struct hostapd_iface *iface)
964 {
965           wpa_printf(MSG_INFO, "ACS: Automatic channel selection started, this may take a bit");
966 
967           if (iface->drv_flags & WPA_DRIVER_FLAGS_ACS_OFFLOAD) {
968                     wpa_printf(MSG_INFO, "ACS: Offloading to driver");
969                     if (hostapd_drv_do_acs(iface->bss[0]))
970                               return HOSTAPD_CHAN_INVALID;
971                     return HOSTAPD_CHAN_ACS;
972           }
973 
974           if (!iface->current_mode)
975                     return HOSTAPD_CHAN_INVALID;
976 
977           acs_cleanup(iface);
978 
979           if (acs_request_scan(iface) < 0)
980                     return HOSTAPD_CHAN_INVALID;
981 
982           hostapd_set_state(iface, HAPD_IFACE_ACS);
983           wpa_msg(iface->bss[0]->msg_ctx, MSG_INFO, ACS_EVENT_STARTED);
984 
985           return HOSTAPD_CHAN_ACS;
986 }
987