3 * Dr. Duncan McLennan Barclay, dmlb@ragnet.demon.co.uk.
7 * Redistribution and use in source and binary forms, with or without
8 * modification, are permitted provided that the following conditions
10 * 1. Redistributions of source code must retain the above copyright
11 * notice, this list of conditions and the following disclaimer.
12 * 2. Redistributions in binary form must reproduce the above copyright
13 * notice, this list of conditions and the following disclaimer in the
14 * documentation and/or other materials provided with the distribution.
15 * 3. Neither the name of the author nor the names of any co-contributors
16 * may be used to endorse or promote products derived from this software
17 * without specific prior written permission.
19 * THIS SOFTWARE IS PROVIDED BY DUNCAN BARCLAY AND CONTRIBUTORS ``AS IS'' AND
20 * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
21 * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
22 * ARE DISCLAIMED. IN NO EVENT SHALL DUNCAN BARCLAY OR CONTRIBUTORS BE LIABLE
23 * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL
24 * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS
25 * OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION)
26 * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT
27 * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY
28 * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF
31 * $FreeBSD: src/sys/dev/ray/if_raymib.h,v 1.10.2.2 2001/08/14 22:54:07 dmlb Exp $
32 * $DragonFly: src/sys/dev/netif/ray/Attic/if_raymib.h,v 1.2 2003/06/17 04:28:29 dillon Exp $
37 * Bit mask definitions for firmware versioning
45 struct ray_mib_common_head { /*Offset*/ /*Size*/
46 u_int8_t mib_net_type; /*00*/
47 u_int8_t mib_ap_status; /*01*/
48 u_int8_t mib_ssid[IEEE80211_NWID_LEN]; /*02*/ /*20*/
49 u_int8_t mib_scan_mode; /*22*/
50 u_int8_t mib_apm_mode; /*23*/
51 u_int8_t mib_mac_addr[ETHER_ADDR_LEN]; /*24*/ /*06*/
52 u_int8_t mib_frag_thresh[2]; /*2a*/ /*02*/
53 u_int8_t mib_dwell_time[2]; /*2c*/ /*02*/
54 u_int8_t mib_beacon_period[2]; /*2e*/ /*02*/
55 u_int8_t mib_dtim_interval; /*30*/
56 u_int8_t mib_max_retry; /*31*/
57 u_int8_t mib_ack_timo; /*32*/
58 u_int8_t mib_sifs; /*33*/
59 u_int8_t mib_difs; /*34*/
60 u_int8_t mib_pifs; /*35*/
61 u_int8_t mib_rts_thresh[2]; /*36*/ /*02*/
62 u_int8_t mib_scan_dwell[2]; /*38*/ /*02*/
63 u_int8_t mib_scan_max_dwell[2]; /*3a*/ /*02*/
64 u_int8_t mib_assoc_timo; /*3c*/
65 u_int8_t mib_adhoc_scan_cycle; /*3d*/
66 u_int8_t mib_infra_scan_cycle; /*3e*/
67 u_int8_t mib_infra_super_scan_cycle; /*3f*/
68 u_int8_t mib_promisc; /*40*/
69 u_int8_t mib_uniq_word[2]; /*41*/ /*02*/
70 u_int8_t mib_slot_time; /*43*/
71 u_int8_t mib_roam_low_snr_thresh; /*44*/
72 u_int8_t mib_low_snr_count; /*45*/
73 u_int8_t mib_infra_missed_beacon_count; /*46*/
74 u_int8_t mib_adhoc_missed_beacon_count; /*47*/
75 u_int8_t mib_country_code; /*48*/
76 u_int8_t mib_hop_seq; /*49*/
77 u_int8_t mib_hop_seq_len; /*4a*/
78 } __attribute__((__packed__));
80 struct ray_mib_common_tail {
81 u_int8_t mib_noise_filter_gain; /*00*/
82 u_int8_t mib_noise_limit_offset; /*01*/
83 u_int8_t mib_rssi_thresh_offset; /*02*/
84 u_int8_t mib_busy_thresh_offset; /*03*/
85 u_int8_t mib_sync_thresh; /*04*/
86 u_int8_t mib_test_mode; /*05*/
87 u_int8_t mib_test_min_chan; /*06*/
88 u_int8_t mib_test_max_chan; /*07*/
89 } __attribute__((__packed__));
92 struct ray_mib_common_head mib_head; /*00*/
93 u_int8_t mib_cw_max; /*4b*/
94 u_int8_t mib_cw_min; /*4c*/
95 struct ray_mib_common_tail mib_tail; /*4d*/
96 } __attribute__((__packed__));
99 struct ray_mib_common_head mib_head; /*00*/
100 u_int8_t mib_cw_max[2]; /*4b*/ /*02*/
101 u_int8_t mib_cw_min[2]; /*4d*/ /*02*/
102 struct ray_mib_common_tail mib_tail; /*4f*/
103 u_int8_t mib_allow_probe_resp; /*57*/
104 u_int8_t mib_privacy_must_start; /*58*/
105 u_int8_t mib_privacy_can_join; /*59*/
106 u_int8_t mib_basic_rate_set[8]; /*5a*/ /*08*/
107 } __attribute__((__packed__));
109 #define mib_net_type mib_head.mib_net_type
110 #define mib_ap_status mib_head.mib_ap_status
111 #define mib_ssid mib_head.mib_ssid
112 #define mib_scan_mode mib_head.mib_scan_mode
113 #define mib_apm_mode mib_head.mib_apm_mode
114 #define mib_mac_addr mib_head.mib_mac_addr
115 #define mib_frag_thresh mib_head.mib_frag_thresh
116 #define mib_dwell_time mib_head.mib_dwell_time
117 #define mib_beacon_period mib_head.mib_beacon_period
118 #define mib_dtim_interval mib_head.mib_dtim_interval
119 #define mib_max_retry mib_head.mib_max_retry
120 #define mib_ack_timo mib_head.mib_ack_timo
121 #define mib_sifs mib_head.mib_sifs
122 #define mib_difs mib_head.mib_difs
123 #define mib_pifs mib_head.mib_pifs
124 #define mib_rts_thresh mib_head.mib_rts_thresh
125 #define mib_scan_dwell mib_head.mib_scan_dwell
126 #define mib_scan_max_dwell mib_head.mib_scan_max_dwell
127 #define mib_assoc_timo mib_head.mib_assoc_timo
128 #define mib_adhoc_scan_cycle mib_head.mib_adhoc_scan_cycle
129 #define mib_infra_scan_cycle mib_head.mib_infra_scan_cycle
130 #define mib_infra_super_scan_cycle \
131 mib_head.mib_infra_super_scan_cycle
132 #define mib_promisc mib_head.mib_promisc
133 #define mib_uniq_word mib_head.mib_uniq_word
134 #define mib_slot_time mib_head.mib_slot_time
135 #define mib_roam_low_snr_thresh mib_head.mib_roam_low_snr_thresh
136 #define mib_low_snr_count mib_head.mib_low_snr_count
137 #define mib_infra_missed_beacon_count \
138 mib_head.mib_infra_missed_beacon_count
139 #define mib_adhoc_missed_beacon_count \
140 mib_head.mib_adhoc_missed_beacon_count
141 #define mib_country_code mib_head.mib_country_code
142 #define mib_hop_seq mib_head.mib_hop_seq
143 #define mib_hop_seq_len mib_head.mib_hop_seq_len
145 #define mib_noise_filter_gain mib_tail.mib_noise_filter_gain
146 #define mib_noise_limit_offset mib_tail.mib_noise_limit_offset
147 #define mib_rssi_thresh_offset mib_tail.mib_rssi_thresh_offset
148 #define mib_busy_thresh_offset mib_tail.mib_busy_thresh_offset
149 #define mib_sync_thresh mib_tail.mib_sync_thresh
150 #define mib_test_mode mib_tail.mib_test_mode
151 #define mib_test_min_chan mib_tail.mib_test_min_chan
152 #define mib_test_max_chan mib_tail.mib_test_max_chan
155 * MIB IDs for the update/report param commands
157 #define RAY_MIB_NET_TYPE 0
158 #define RAY_MIB_AP_STATUS 1
159 #define RAY_MIB_SSID 2
160 #define RAY_MIB_SCAN_MODE 3
161 #define RAY_MIB_APM_MODE 4
162 #define RAY_MIB_MAC_ADDR 5
163 #define RAY_MIB_FRAG_THRESH 6
164 #define RAY_MIB_DWELL_TIME 7
165 #define RAY_MIB_BEACON_PERIOD 8
166 #define RAY_MIB_DTIM_INTERVAL 9
167 #define RAY_MIB_MAX_RETRY 10
168 #define RAY_MIB_ACK_TIMO 11
169 #define RAY_MIB_SIFS 12
170 #define RAY_MIB_DIFS 13
171 #define RAY_MIB_PIFS 14
172 #define RAY_MIB_RTS_THRESH 15
173 #define RAY_MIB_SCAN_DWELL 16
174 #define RAY_MIB_SCAN_MAX_DWELL 17
175 #define RAY_MIB_ASSOC_TIMO 18
176 #define RAY_MIB_ADHOC_SCAN_CYCLE 19
177 #define RAY_MIB_INFRA_SCAN_CYCLE 20
178 #define RAY_MIB_INFRA_SUPER_SCAN_CYCLE 21
179 #define RAY_MIB_PROMISC 22
180 #define RAY_MIB_UNIQ_WORD 23
181 #define RAY_MIB_SLOT_TIME 24
182 #define RAY_MIB_ROAM_LOW_SNR_THRESH 25
183 #define RAY_MIB_LOW_SNR_COUNT 26
184 #define RAY_MIB_INFRA_MISSED_BEACON_COUNT 27
185 #define RAY_MIB_ADHOC_MISSED_BEACON_COUNT 28
186 #define RAY_MIB_COUNTRY_CODE 29
187 #define RAY_MIB_HOP_SEQ 30
188 #define RAY_MIB_HOP_SEQ_LEN 31
189 #define RAY_MIB_CW_MAX 32
190 #define RAY_MIB_CW_MIN 33
191 #define RAY_MIB_NOISE_FILTER_GAIN 34
192 #define RAY_MIB_NOISE_LIMIT_OFFSET 35
193 #define RAY_MIB_RSSI_THRESH_OFFSET 36
194 #define RAY_MIB_BUSY_THRESH_OFFSET 37
195 #define RAY_MIB_SYNC_THRESH 38
196 #define RAY_MIB_TEST_MODE 39
197 #define RAY_MIB_TEST_MIN_CHAN 40
198 #define RAY_MIB_TEST_MAX_CHAN 41
199 #define RAY_MIB_ALLOW_PROBE_RESP 42
200 #define RAY_MIB_PRIVACY_MUST_START 43
201 #define RAY_MIB_PRIVACY_CAN_JOIN 44
202 #define RAY_MIB_BASIC_RATE_SET 45
203 #define RAY_MIB_VERSION 46
204 #define RAY_MIB_CUR_BSSID 47
205 #define RAY_MIB_CUR_INITED 48
206 #define RAY_MIB_CUR_DEF_TXRATE 49
207 #define RAY_MIB_CUR_ENCRYPT 50
208 #define RAY_MIB_CUR_NET_TYPE 51
209 #define RAY_MIB_CUR_SSID 52
210 #define RAY_MIB_CUR_PRIV_START 53
211 #define RAY_MIB_CUR_PRIV_JOIN 54
212 #define RAY_MIB_DES_BSSID 55
213 #define RAY_MIB_DES_INITED 56
214 #define RAY_MIB_DES_DEF_TXRATE 57
215 #define RAY_MIB_DES_ENCRYPT 58
216 #define RAY_MIB_DES_NET_TYPE 59
217 #define RAY_MIB_DES_SSID 60
218 #define RAY_MIB_DES_PRIV_START 61
219 #define RAY_MIB_DES_PRIV_JOIN 62
220 #define RAY_MIB_CUR_AP_STATUS 63
221 #define RAY_MIB_CUR_PROMISC 64
222 #define RAY_MIB_DES_AP_STATUS 65
223 #define RAY_MIB_DES_PROMISC 66
224 #define RAY_MIB_CUR_FRAMING 67
225 #define RAY_MIB_DES_FRAMING 68
227 #define RAY_MIB_LASTUSER 45
228 #define RAY_MIB_MAX 68
231 * Strings for the MIB
233 #define RAY_MIB_STRINGS { \
240 "Fragmentation threshold", \
253 "ADHOC_SCAN_CYCLE", \
254 "INFRA_SCAN_CYCLE", \
255 "INFRA_SUPER_SCAN_CYCLE", \
259 "ROAM_LOW_SNR_THRESH", \
261 "INFRA_MISSED_BEACON_COUNT", \
262 "ADHOC_MISSED_BEACON_COUNT", \
268 "NOISE_FILTER_GAIN", \
269 "NOISE_LIMIT_OFFSET", \
270 "RSSI_THRESH_OFFSET", \
271 "BUSY_THRESH_OFFSET", \
276 "ALLOW_PROBE_RESP", \
277 "PRIVACY_MUST_START", \
278 "PRIVACY_CAN_JOIN", \
280 "Firmware version", \
283 "Current DEF_TXRATE", \
285 "Current NET_TYPE", \
287 "Current PRIV_START", \
288 "Current PRIV_JOIN", \
291 "Desired DEF_TXRATE", \
293 "Desired NET_TYPE", \
295 "Desired PRIV_START", \
296 "Desired PRIV_JOIN", \
297 "Current AP_STATUS", \
299 "Desired AP_STATUS", \
305 #define RAY_MIB_HELP_STRINGS { \
306 "0 Ad hoc, 1 Infrastructure", \
307 "0 Station, 1 Access Point", \
309 "0 Passive, 1 Active", \
325 "ADHOC_SCAN_CYCLE", \
326 "INFRA_SCAN_CYCLE", \
327 "INFRA_SUPER_SCAN_CYCLE", \
331 "ROAM_LOW_SNR_THRESH", \
333 "INFRA_MISSED_BEACON_COUNT", \
334 "ADHOC_MISSED_BEACON_COUNT", \
340 "NOISE_FILTER_GAIN", \
341 "NOISE_LIMIT_OFFSET", \
342 "RSSI_THRESH_OFFSET", \
343 "BUSY_THRESH_OFFSET", \
348 "ALLOW_PROBE_RESP", \
349 "PRIVACY_MUST_START", \
350 "PRIVACY_CAN_JOIN", \
354 "0 Joined a net, 1 Created a net", \
355 "Current DEF_TXRATE", \
357 "Current NET_TYPE", \
359 "Current PRIV_START", \
360 "Current PRIV_JOIN", \
363 "Desired DEF_TXRATE", \
365 "Desired NET_TYPE", \
367 "Desired PRIV_START", \
368 "Desired PRIV_JOIN", \
369 "Current AP_STATUS", \
371 "Desired AP_STATUS", \
378 * Applicable versions and work size for each MIB element
380 #define RAY_MIB_INFO_SIZ4 1
381 #define RAY_MIB_INFO_SIZ5 2
382 #define RAY_MIB_SIZE(info, mib, version) \
383 info[(mib)][(version & RAY_V4)?RAY_MIB_INFO_SIZ4:RAY_MIB_INFO_SIZ5]
384 #define RAY_MIB_INFO { \
385 {RAY_V4|RAY_V5, 1, 1}, /* RAY_MIB_NET_TYPE */ \
386 {RAY_V4|RAY_V5, 1, 1}, /* RAY_MIB_AP_STATUS */ \
387 {RAY_V4|RAY_V5, IEEE80211_NWID_LEN, \
388 IEEE80211_NWID_LEN},/* RAY_MIB_SSID */ \
389 {RAY_V4|RAY_V5, 1, 1}, /* RAY_MIB_SCAN_MODE */ \
390 {RAY_V4|RAY_V5, 1, 1}, /* RAY_MIB_APM_MODE */ \
391 {RAY_V4|RAY_V5, ETHER_ADDR_LEN, \
392 ETHER_ADDR_LEN},/* RAY_MIB_MAC_ADDR */ \
393 {RAY_V4|RAY_V5, 2, 2}, /* RAY_MIB_FRAG_THRESH */ \
394 {RAY_V4|RAY_V5, 2, 2}, /* RAY_MIB_DWELL_TIME */ \
395 {RAY_V4|RAY_V5, 2, 2}, /* RAY_MIB_BEACON_PERIOD */ \
396 {RAY_V4|RAY_V5, 1, 1}, /* RAY_MIB_DTIM_INTERVAL */ \
397 {RAY_V4|RAY_V5, 1, 1}, /* RAY_MIB_MAX_RETRY */ \
398 {RAY_V4|RAY_V5, 1, 1}, /* RAY_MIB_ACK_TIMO */ \
399 {RAY_V4|RAY_V5, 1, 1}, /* RAY_MIB_SIFS */ \
400 {RAY_V4|RAY_V5, 1, 1}, /* RAY_MIB_DIFS */ \
401 {RAY_V4|RAY_V5, 1, 1}, /* RAY_MIB_PIFS */ \
402 {RAY_V4|RAY_V5, 2, 2}, /* RAY_MIB_RTS_THRESH */ \
403 {RAY_V4|RAY_V5, 2, 2}, /* RAY_MIB_SCAN_DWELL */ \
404 {RAY_V4|RAY_V5, 2, 2}, /* RAY_MIB_SCAN_MAX_DWELL */ \
405 {RAY_V4|RAY_V5, 1, 1}, /* RAY_MIB_ASSOC_TIMO */ \
406 {RAY_V4|RAY_V5, 1, 1}, /* RAY_MIB_ADHOC_SCAN_CYCLE */ \
407 {RAY_V4|RAY_V5, 1, 1}, /* RAY_MIB_INFRA_SCAN_CYCLE */ \
408 {RAY_V4|RAY_V5, 1, 1}, /* RAY_MIB_INFRA_SUPER_SCAN_CYCLE */ \
409 {RAY_V4|RAY_V5, 1, 1}, /* RAY_MIB_PROMISC */ \
410 {RAY_V4|RAY_V5, 2, 2}, /* RAY_MIB_UNIQ_WORD */ \
411 {RAY_V4|RAY_V5, 1, 1}, /* RAY_MIB_SLOT_TIME */ \
412 {RAY_V4|RAY_V5, 1, 1}, /* RAY_MIB_ROAM_LOW_SNR_THRESH */ \
413 {RAY_V4|RAY_V5, 1, 1}, /* RAY_MIB_LOW_SNR_COUNT */ \
414 {RAY_V4|RAY_V5, 1, 1}, /* RAY_MIB_INFRA_MISSED_BEACON_COUNT */ \
415 {RAY_V4|RAY_V5, 1, 1}, /* RAY_MIB_ADHOC_MISSED_BEACON_COUNT */ \
416 {RAY_V4|RAY_V5, 1, 1}, /* RAY_MIB_COUNTRY_CODE */ \
417 {RAY_V4|RAY_V5, 1, 1}, /* RAY_MIB_HOP_SEQ */ \
418 {RAY_V4|RAY_V5, 1, 1}, /* RAY_MIB_HOP_SEQ_LEN */ \
419 {RAY_V4|RAY_V5, 1, 2}, /* RAY_MIB_CW_MAX */ \
420 {RAY_V4|RAY_V5, 1, 2}, /* RAY_MIB_CW_MIN */ \
421 {RAY_V4|RAY_V5, 1, 1}, /* RAY_MIB_NOISE_FILTER_GAIN */ \
422 {RAY_V4|RAY_V5, 1, 1}, /* RAY_MIB_NOISE_LIMIT_OFFSET */ \
423 {RAY_V4|RAY_V5, 1, 1}, /* RAY_MIB_RSSI_THRESH_OFFSET */ \
424 {RAY_V4|RAY_V5, 1, 1}, /* RAY_MIB_BUSY_THRESH_OFFSET */ \
425 {RAY_V4|RAY_V5, 1, 1}, /* RAY_MIB_SYNC_THRESH */ \
426 {RAY_V4|RAY_V5, 1, 1}, /* RAY_MIB_TEST_MODE */ \
427 {RAY_V4|RAY_V5, 1, 1}, /* RAY_MIB_TEST_MIN_CHAN */ \
428 {RAY_V4|RAY_V5, 1, 1}, /* RAY_MIB_TEST_MAX_CHAN */ \
429 { RAY_V5, 0, 1}, /* RAY_MIB_ALLOW_PROBE_RESP */ \
430 { RAY_V5, 0, 1}, /* RAY_MIB_PRIVACY_MUST_START */ \
431 { RAY_V5, 0, 1}, /* RAY_MIB_PRIVACY_CAN_JOIN */ \
432 { RAY_V5, 0, 8}, /* RAY_MIB_BASIC_RATE_SET */ \
433 {RAY_V4|RAY_V5, 1, 1}, /* RAY_MIB_VERSION */ \
434 {RAY_V4|RAY_V5, ETHER_ADDR_LEN, \
435 ETHER_ADDR_LEN},/* RAY_MIB_CUR_BSSID */ \
436 {RAY_V4|RAY_V5, 1, 1}, /* RAY_MIB_CUR_INITED */ \
437 {RAY_V4|RAY_V5, 1, 1}, /* RAY_MIB_CUR_DEF_TXRATE */ \
438 {RAY_V4|RAY_V5, 1, 1}, /* RAY_MIB_CUR_ENCRYPT */ \
439 {RAY_V4|RAY_V5, 1, 1}, /* RAY_MIB_CUR_NET_TYPE */ \
440 {RAY_V4|RAY_V5, IEEE80211_NWID_LEN, \
441 IEEE80211_NWID_LEN}, /* RAY_MIB_CUR_SSID */ \
442 {RAY_V4|RAY_V5, 1, 1}, /* RAY_MIB_CUR_PRIV_START */ \
443 {RAY_V4|RAY_V5, 1, 1}, /* RAY_MIB_CUR_PRIV_JOIN */ \
444 {RAY_V4|RAY_V5, ETHER_ADDR_LEN, \
445 ETHER_ADDR_LEN},/* RAY_MIB_DES_BSSID */ \
446 {RAY_V4|RAY_V5, 1, 1}, /* RAY_MIB_DES_INITED */ \
447 {RAY_V4|RAY_V5, 1, 1}, /* RAY_MIB_DES_DEF_TXRATE */ \
448 {RAY_V4|RAY_V5, 1, 1}, /* RAY_MIB_DES_ENCRYPT */ \
449 {RAY_V4|RAY_V5, 1, 1}, /* RAY_MIB_DES_NET_TYPE */ \
450 {RAY_V4|RAY_V5, IEEE80211_NWID_LEN, \
451 IEEE80211_NWID_LEN}, /* RAY_MIB_DES_SSID */ \
452 {RAY_V4|RAY_V5, 1, 1}, /* RAY_MIB_DES_PRIV_START */ \
453 {RAY_V4|RAY_V5, 1, 1}, /* RAY_MIB_DES_PRIV_JOIN */ \
454 {RAY_V4|RAY_V5, 1, 1}, /* RAY_MIB_CUR_AP_STATUS */ \
455 {RAY_V4|RAY_V5, 1, 1}, /* RAY_MIB_CUR_PROMISC */ \
456 {RAY_V4|RAY_V5, 1, 1}, /* RAY_MIB_DES_AP_STATUS */ \
457 {RAY_V4|RAY_V5, 1, 1}, /* RAY_MIB_DES_PROMISC */ \
458 {RAY_V4|RAY_V5, 1, 1}, /* RAY_MIB_CUR_FRAMING */ \
459 {RAY_V4|RAY_V5, 1, 1} /* RAY_MIB_DES_FRAMING */ \
465 * I've included comments as to where the numbers have originated
468 * Linux refers to ray_cs.c and rayctl.h from version 167 of the
469 * Linux Raylink driver.
471 * NetBSD refers to if_ray.c from version 1.12 of the NetBSD Raylink
474 * Symb refers to numbers cleaned from the 802.11 specification,
475 * discussion with 802.11 knowledgable people at Symbionics or
476 * stuff needed by me (i.e. me, * aps, ifo, hjl).
478 * V4 and V5 refer to settings for version 4 and version 5 of
482 * Combined Interface Requirements Specification
483 * and Interface Design Document (IRS/IDD)
485 * WLAN System Interfaces Between the
486 * HOST COMPUTER and the
487 * PCMCIA WLAN INTERFACE CARD
492 /* Obtained by raycontrol _before_ downloading
496 * # raycontrol -i ray0
498 * Network type 0x01 0 Ad hoc, 1 Infrastructure
499 * AP status 0x00 0 Station, 1 Access Point
501 * Scan mode 0x01 0 Passive, 1 Active
502 * APM mode 0x00 0 Off, 1 On
503 * MAC address 00:00:8f:48:e4:44
504 * Fragmentation threshold 0x0200 FRAG_THRESH
505 * Dwell tIME 0x01 DWELL_TIME
506 * Beacon period 0x01 BEACON_PERIOD
507 * DTIM_INTERVAL 0x05 DTIM_INTERVAL
508 * MAX_RETRY 0x03 MAX_RETRY
509 * ACK_TIMO 0x8c ACK_TIMO
513 * RTS_THRESH 0x0100 RTS_THRESH
514 * SCAN_DWELL 0xfc18 SCAN_DWELL
515 * SCAN_MAX_DWELL 0xc180 SCAN_MAX_DWELL
516 * ASSOC_TIMO 0x05 ASSOC_TIMO
517 * ADHOC_SCAN_CYCLE 0x04 ADHOC_SCAN_CYCLE
518 * INFRA_SCAN_CYCLE 0x02 INFRA_SCAN_CYCLE
519 * INFRA_SUPER_SCAN_CYCLE 0x04 INFRA_SUPER_SCAN_CYCLE
520 * PROMISC 0x00 PROMISC
521 * UNIQ_WORD 0x0cbd UNIQ_WORD
522 * SLOT_TIME 0x4e SLOT_TIME
523 * ROAM_LOW_SNR_THRESH 0x20 ROAM_LOW_SNR_THRESH
524 * LOW_SNR_COUNT 0x04 LOW_SNR_COUNT
525 * INFRA_MISSED_BEACON_COUNT 0x04 INFRA_MISSED_BEACON_COUNT
526 * ADHOC_MISSED_BEACON_COUNT 0x04 ADHOC_MISSED_BEACON_COUNT
527 * COUNTRY_CODE 0x01 COUNTRY_CODE
528 * HOP_SEQ 0x07 HOP_SEQ
529 * HOP_SEQ_LEN 0x4e HOP_SEQ_LEN
532 * NOISE_FILTER_GAIN 0x00 NOISE_FILTER_GAIN
533 * NOISE_LIMIT_OFFSET 0x00 NOISE_LIMIT_OFFSET
534 * RSSI_THRESH_OFFSET 0x70 RSSI_THRESH_OFFSET
535 * BUSY_THRESH_OFFSET 0x70 BUSY_THRESH_OFFSET
536 * SYNC_THRESH 0x07 SYNC_THRESH
537 * TEST_MODE 0x00 TEST_MODE
538 * TEST_MIN_CHAN 0x02 TEST_MIN_CHAN
539 * TEST_MAX_CHAN 0x02 TEST_MAX_CHAN
543 * Network type 0x01 0 Ad hoc, 1 Infrastructure
544 * AP status 0x00 0 Station, 1 Access Point
546 * Scan mode 0x01 0 Passive, 1 Active
547 * APM mode 0x00 0 Off, 1 On
548 * MAC address 00:00:8f:a8:17:06
549 * Fragmentation threshold 0x7fff Bytes
550 * Dwell time 0x0080 DWELL_TIME
551 * Beacon period 0x0100 BEACON_PERIOD
552 * DTIM_INTERVAL 0x01 DTIM_INTERVAL
553 * MAX_RETRY 0x1f MAX_RETRY
554 * ACK_TIMO 0x86 ACK_TIMO
558 * RTS_THRESH 0x7fff RTS_THRESH
559 * SCAN_DWELL 0x04e2 SCAN_DWELL
560 * SCAN_MAX_DWELL 0x38a4 SCAN_MAX_DWELL
561 * ASSOC_TIMO 0x05 ASSOC_TIMO
562 * ADHOC_SCAN_CYCLE 0x08 ADHOC_SCAN_CYCLE
563 * INFRA_SCAN_CYCLE 0x02 INFRA_SCAN_CYCLE
564 * INFRA_SUPER_SCAN_CYCLE 0x08 INFRA_SUPER_SCAN_CYCLE
565 * PROMISC 0x00 PROMISC
566 * UNIQ_WORD 0x0cbd UNIQ_WORD
567 * SLOT_TIME 0x32 SLOT_TIME
568 * ROAM_LOW_SNR_THRESH 0xff ROAM_LOW_SNR_THRESH
569 * LOW_SNR_COUNT 0xff LOW_SNR_COUNT
570 * INFRA_MISSED_BEACON_COUNT 0x02 INFRA_MISSED_BEACON_COUNT
571 * ADHOC_MISSED_BEACON_COUNT 0xff ADHOC_MISSED_BEACON_COUNT
572 * COUNTRY_CODE 0x01 COUNTRY_CODE
573 * HOP_SEQ 0x0b HOP_SEQ
574 * HOP_SEQ_LEN 0x55 HOP_SEQ_LEN
575 * CW_MAX 0x003f CW_MAX
576 * CW_MIN 0x000f CW_MIN
577 * NOISE_FILTER_GAIN 0x04 NOISE_FILTER_GAIN
578 * NOISE_LIMIT_OFFSET 0x08 NOISE_LIMIT_OFFSET
579 * RSSI_THRESH_OFFSET 0x28 RSSI_THRESH_OFFSET
580 * BUSY_THRESH_OFFSET 0x28 BUSY_THRESH_OFFSET
581 * SYNC_THRESH 0x07 SYNC_THRESH
582 * TEST_MODE 0x00 TEST_MODE
583 * TEST_MIN_CHAN 0x02 TEST_MIN_CHAN
584 * TEST_MAX_CHAN 0x02 TEST_MAX_CHAN
585 * ALLOW_PROBE_RESP 0x00 ALLOW_PROBE_RESP
586 * PRIVACY_MUST_START 0x00 PRIVACY_MUST_START
587 * PRIVACY_CAN_JOIN 0x00 PRIVACY_CAN_JOIN
588 * BASIC_RATE_SET 0x02 BASIC_RATE_SET
594 * DOC 0x01 - Defines network type for Start and Join
595 * - Network commands.
597 * As the V4 cards don't do infra we have to use adhoc. For V5 cards
598 * we follow standard FreeBSD practise and use infrastructure mode.
600 #define RAY_MIB_NET_TYPE_ADHOC 0x00
601 #define RAY_MIB_NET_TYPE_INFRA 0x01
602 #define RAY_MIB_NET_TYPE_V4 RAY_MIB_NET_TYPE_ADHOC
603 #define RAY_MIB_NET_TYPE_V5 RAY_MIB_NET_TYPE_INFRA
608 * DOC 0x00 - Applicable only when Network Type is
611 #define RAY_MIB_AP_STATUS_TERMINAL 0x00
612 #define RAY_MIB_AP_STATUS_AP 0x01
613 #define RAY_MIB_AP_STATUS_V4 RAY_MIB_AP_STATUS_TERMINAL
614 #define RAY_MIB_AP_STATUS_V5 RAY_MIB_AP_STATUS_TERMINAL
619 * DOC ESSID1 - Service Set ID. Can be any ASCII string
620 * - up to 32 bytes in length. If the string is
621 * - less than 32 bytes long, it must be
622 * - followed by a byte of 00h.
624 * Symb - windows setting comes from the Aviator software v1.1
626 #define RAY_MIB_SSID_WINDOWS "NETWORK_NAME"
627 #define RAY_MIB_SSID_RAYLINK "ESSID1"
628 #define RAY_MIB_SSID_V4 RAY_MIB_SSID_WINDOWS
629 #define RAY_MIB_SSID_V5 RAY_MIB_SSID_RAYLINK
634 * DOC 0x01 - Defines acquisition approach for
635 * - terminals operating in either Ad Hoc or
636 * - Infrastructure Networks. N/A for APs.
638 #define RAY_MIB_SCAN_MODE_PASSIVE 0x00
639 #define RAY_MIB_SCAN_MODE_ACTIVE 0x01
640 #define RAY_MIB_SCAN_MODE_V4 RAY_MIB_SCAN_MODE_ACTIVE
641 #define RAY_MIB_SCAN_MODE_V5 RAY_MIB_SCAN_MODE_ACTIVE
646 * DOC 0x00 - Defines power management mode for
647 * - stations operating in either Ad Hoc or
648 * - Infrastructure Networks. Must always
651 #define RAY_MIB_APM_MODE_NONE 0x00
652 #define RAY_MIB_APM_MODE_POWERSAVE 0x01
653 #define RAY_MIB_APM_MODE_V4 RAY_MIB_APM_MODE_NONE
654 #define RAY_MIB_APM_MODE_V5 RAY_MIB_APM_MODE_NONE
659 * DOC - MAC Address to be used by WIC (For
660 * - format see Figure 3.2.4.1.2-1, MAC
661 * - Address Format). Host may echo card
662 * - supplied address or use locally
663 * - administered address.
669 * DOC 0x7fff - Maximum over-the-air packet size (in
672 * Symb 0xXXXX - you really should fragment when in low signal
673 * - conditions but getting it wrong
674 * crucifies the performance
676 #define RAY_MIB_FRAG_THRESH_MINIMUM 0
677 #define RAY_MIB_FRAG_THRESH_MAXIMUM 2346
678 #define RAY_MIB_FRAG_THRESH_DISABLE 0x7fff
679 #define RAY_MIB_FRAG_THRESH_V4 RAY_MIB_FRAG_THRESH_DISABLE
680 #define RAY_MIB_FRAG_THRESH_V5 RAY_MIB_FRAG_THRESH_DISABLE
685 * DOC 0x0080 - Defines hop dwell time in Kusec.
686 * - Required only of stations which intend
687 * - to issue a Start Network command.
688 * - Forward Compatible Firmware (Build
689 * - 5) requires that the dwell time be one of
690 * - the set 16, 32, 64, 128, and 256.
692 * Linux.h - 16k * 2**n, n=0-4 in Kus
694 * Linux.c-V5 0x0080 - 128 Kus
695 * NetBSD-V4 0x0200 - from Linux
696 * NetBSD-V4 0x0400 - "divined"
698 * Symb-V4 0xXXXX - 802.11 dwell time is XXX Kus
699 * Symb-V5 0xXXXX - 802.11 dwell time is XXX Kus
701 * XXX confirm that 1024Kus is okay for windows driver - how? and see
702 * XXX how it is over the maximum
704 #define RAY_MIB_DWELL_TIME_MINIMUM 1
705 #define RAY_MIB_DWELL_TIME_MAXIMUM 390
706 #define RAY_MIB_DWELL_TIME_V4 0x0400
707 #define RAY_MIB_DWELL_TIME_V5 0x0080
712 * DOC 0x0100 - Defines time between target beacon
713 * - transmit times (TBTT) in Kusec.
714 * - Forward Compatible Firmware (Build
715 * - 5) requires that the Beacon Period be an
716 * - integral multiple of the Dwell Time (not
717 * - exceeding 255 hops).
718 * - Required only of stations which intend
719 * - to issue a Start Network command.
721 * Linux.h - n * a_hop_time in Kus
723 * Linux.c-V5 0x0100 - 256 Kus
724 * NetBSD-V4 0x0001 - from Linux
725 * NetBSD-V4 0x0000 - "divined"
727 * Symb-V4 0x0001 - best performance is one beacon each dwell XXX
728 * Symb-V5 0x0080 - best performance is one beacon each dwell XXX
730 * XXX V4 should probably set this to dwell_time
732 #define RAY_MIB_BEACON_PERIOD_MINIMUM 1
733 #define RAY_MIB_BEACON_PERIOD_MAXIMUM 0xffff
734 #define RAY_MIB_BEACON_PERIOD_V4 0x0001
735 #define RAY_MIB_BEACON_PERIOD_V5 (2*RAY_MIB_DWELL_TIME_V5)
740 * DOC 0x01 - Number of beacons per DTIM period.
741 * - Only APs will use this parameter, to set
744 * Linux.h - in beacons
747 * Symb 0xXX - need to find out what DTIM is
749 #define RAY_MIB_DTIM_INTERVAL_MINIMUM 1
750 #define RAY_MIB_DTIM_INTERVAL_MAXIMUM 255
751 #define RAY_MIB_DTIM_INTERVAL_V4 0x01
752 #define RAY_MIB_DTIM_INTERVAL_V5 0x01
757 * DOC 31 - Number of times WIC will attempt to
758 * - retransmit a failed packet.
761 * NetBSD 0x01 - "documented default for 5/6"
762 * NetBSD 0x07 - from Linux
763 * NetBSD 0x03 - "divined"
764 * Symb 0xXX - 7 retries seems okay but check with APS
766 #define RAY_MIB_MAX_RETRY_MINIMUM 0
767 #define RAY_MIB_MAX_RETRY_MAXIMUM 255
768 #define RAY_MIB_MAX_RETRY_V4 0x07
769 #define RAY_MIB_MAX_RETRY_V5 0x1f
774 * DOC 0x86 - Time WIC will wait after completion of
775 * - a transmit before timing out anticipated
776 * - ACK (2 usec steps). Should equal
780 * NetBSD 0x86 - documented default for 5/6
781 * NetBSD 0xa3 - from Linux
782 * NetBSD 0xa3 - "divined"
783 * Symb 0xXX - this must be a 802.11 defined setting?
785 #define RAY_MIB_ACK_TIMO_MINIMUM 0
786 #define RAY_MIB_ACK_TIMO_MAXIMUM 255
787 #define RAY_MIB_ACK_TIMO_V4 0xa3
788 #define RAY_MIB_ACK_TIMO_V5 0x86
793 * DOC 0x1c - SIFS time in usec.
796 * NetBSD 0x1c - documented default for 5/6
797 * NetBSD 0x1d - from Linux
798 * NetBSD 0x1d - "divined"
799 * Symb 0xXX - default SIFS for 802.11
801 #define RAY_MIB_SIFS_MINIMUM 28
802 #define RAY_MIB_SIFS_MAXIMUM 62
803 #define RAY_MIB_SIFS_V4 0x1d
804 #define RAY_MIB_SIFS_V5 0x1c
809 * DOC 0x82 - DIFS time in usec.
811 #define RAY_MIB_DIFS_MINIMUM 130
812 #define RAY_MIB_DIFS_MAXIMUM 255
813 #define RAY_MIB_DIFS_V4 0x82
814 #define RAY_MIB_DIFS_V5 0x82
819 * DOC 78 - PIFS time in usec. (Not currently
822 #define RAY_MIB_PIFS_MINIMUM 78
823 #define RAY_MIB_PIFS_MAXIMUM 255
824 #define RAY_MIB_PIFS_V4 0xce
825 #define RAY_MIB_PIFS_V5 0x4e
830 * DOC 0x7ffff - Threshold size in bytes below which
831 * - messages will not require use of RTS
835 * NetBSD 0x7fff - disabled
836 * Symb 0xXXXX - need to set this realistically to get CTS/RTS mode
839 #define RAY_MIB_RTS_THRESH_MINIMUM 0
840 #define RAY_MIB_RTS_THRESH_MAXIMUM 2346
841 #define RAY_MIB_RTS_THRESH_DISABLE 0x7fff
842 #define RAY_MIB_RTS_THRESH_V4 RAY_MIB_RTS_THRESH_DISABLE
843 #define RAY_MIB_RTS_THRESH_V5 RAY_MIB_RTS_THRESH_DISABLE
848 * DOC 0x04e2 - Time channel remains clear after probe
849 * - transmission prior to hopping to next
850 * - channel. (in 2 msec steps).
852 * Linux.c-V4 0xfb1e - 128572us
853 * Linix.c-V5 0x04e2 - 2500us
856 * Symb 0xXXXX - Check that v4 h/w can do 2.5ms and default it
858 #define RAY_MIB_SCAN_DWELL_MINIMUM 1
859 #define RAY_MIB_SCAN_DWELL_MAXIMUM 65535
860 #define RAY_MIB_SCAN_DWELL_V4 0xfb1e
861 #define RAY_MIB_SCAN_DWELL_V5 0x04e2
866 * DOC 0x38a4 - Time to remain on a frequency channel
867 * - if CCA is detected after probe
868 * - transmission. (in 2 usec steps).
870 * Linux.c-V4 0xc75c - 102072us
871 * Linix.c-V5 0x38a4 - 29000us
874 * Symb 0xXXXX - see above - this may be total time before giving up
876 #define RAY_MIB_SCAN_MAX_DWELL_MINIMUM 1
877 #define RAY_MIB_SCAN_MAX_DWELL_MAXIMUM 65535
878 #define RAY_MIB_SCAN_MAX_DWELL_V4 0xc75c
879 #define RAY_MIB_SCAN_MAX_DWELL_V5 0x38a4
884 * DOC 0x05 - Time (in hops) a station waits after
885 * - transmitting an Association Request
886 * - Message before association attempt is
887 * - considered failed. N/A for Ad Hoc
888 * - Networks and for APs in Infrastructure
890 #define RAY_MIB_ASSOC_TIMO_MINIMUM 0
891 #define RAY_MIB_ASSOC_TIMO_MAXIMUM 255
892 #define RAY_MIB_ASSOC_TIMO_V4 0x05
893 #define RAY_MIB_ASSOC_TIMO_V5 0x05
896 * mib_adhoc_scan_cycle
898 * DOC 0x08 - Maximum number of times to cycle
899 * - through frequency hopping pattern as
900 * - part of scanning during Ad Hoc
903 #define RAY_MIB_ADHOC_SCAN_CYCLE_MINIMUM 1
904 #define RAY_MIB_ADHOC_SCAN_CYCLE_MAXIMUM 255
905 #define RAY_MIB_ADHOC_SCAN_CYCLE_V4 0x08
906 #define RAY_MIB_ADHOC_SCAN_CYCLE_V5 0x08
909 * mib_infra_scan_cycle
911 * DOC 0x02 - Number of times to cycle through
912 * - frequency hopping pattern as part of
913 * - scanning during Infrastructure Network
916 #define RAY_MIB_INFRA_SCAN_CYCLE_MINIMUM 1
917 #define RAY_MIB_INFRA_SCAN_CYCLE_MAXIMUM 255
918 #define RAY_MIB_INFRA_SCAN_CYCLE_V4 0x02
919 #define RAY_MIB_INFRA_SCAN_CYCLE_V5 0x02
922 * mib_infra_super_scan_cycle
924 * DOC 0x08 - Number of times to repeat an
925 * - Infrastructure scan cycle if no APs are
926 * - found before indicating a failure.
928 #define RAY_MIB_INFRA_SUPER_SCAN_CYCLE_MINIMUM 1
929 #define RAY_MIB_INFRA_SUPER_SCAN_CYCLE_MAXIMUM 255
930 #define RAY_MIB_INFRA_SUPER_SCAN_CYCLE_V4 0x08
931 #define RAY_MIB_INFRA_SUPER_SCAN_CYCLE_V5 0x08
936 * DOC 0x00 - Controls operation of WIC in
937 * - promiscuous mode.
939 #define RAY_MIB_PROMISC_DISABLED 0
940 #define RAY_MIB_PROMISC_ENABLED 1
941 #define RAY_MIB_PROMISC_V4 0x00
942 #define RAY_MIB_PROMISC_V5 0x00
947 * DOC 0x0cdb - Unique word pattern (Transmitted as
948 * - 0CBDh per 802.11)
950 #define RAY_MIB_UNIQ_WORD_MINIMUM 0
951 #define RAY_MIB_UNIQ_WORD_MAXIMUM 0xffff
952 #define RAY_MIB_UNIQ_WORD_V4 0x0cbd
953 #define RAY_MIB_UNIQ_WORD_V5 0x0cbd
958 * DOC 0x32 - Slot time in usec
962 * NetBSD-V4 0x4e - Linux
963 * NetBSD-V4 0x18 - "divined"
964 * NetBSD-V5 0x32 - mentions spec. is 50us i.e. 0x32
965 * Symb 0xXX - wtf 0x4e = 78
967 #define RAY_MIB_SLOT_TIME_MINIMUM 1
968 #define RAY_MIB_SLOT_TIME_MAXIMUM 128
969 #define RAY_MIB_SLOT_TIME_V4 0x4e
970 #define RAY_MIB_SLOT_TIME_V5 0x32
973 * mib_roam_low_snr_thresh
975 * DOC 0xff - SNR Threshold for use by roaming
976 * - algorithm. [Low power count is
977 * - incremented when Beacon is received at
978 * - SNR lower than Roaming Low SNR
979 * - Threshold.] To disable, set to FFh.
982 * NetBSD-V4 0xff - Linux
983 * NetBSD-V4 0x30 - "divined"
984 * NetBSD-V5 0xff - disabled
985 * NetBSD.h - if below this inc count
986 * Symb 0xXX - hmm is 0xff really disabled? need this to work
988 #define RAY_MIB_ROAM_LOW_SNR_THRESH_MINIMUM 0
989 #define RAY_MIB_ROAM_LOW_SNR_THRESH_MAXIMUM 255
990 #define RAY_MIB_ROAM_LOW_SNR_THRESH_DISABLED 0xff
991 #define RAY_MIB_ROAM_LOW_SNR_THRESH_V4 RAY_MIB_ROAM_LOW_SNR_THRESH_DISABLED
992 #define RAY_MIB_ROAM_LOW_SNR_THRESH_V5 RAY_MIB_ROAM_LOW_SNR_THRESH_DISABLED
997 * DOC 0xff - Threshold that number of consecutive
998 * - beacons received at SNR < Roaming
999 * - Low SNR Threshold must exceed
1000 * - before roaming processing begins. To
1001 * - disable, set to FFh.
1004 * NetBSD 0x07 - "divined - check" and marked as disabled
1005 * NetBSD 0xff - disabled
1006 * NetBSD.h - roam after cnt below thrsh
1007 * Symb 0xXX - hmm is 0xff really disabled? need
1008 * - this to work in infrastructure mode with mutliple APs
1010 #define RAY_MIB_LOW_SNR_COUNT_MINIMUM 0
1011 #define RAY_MIB_LOW_SNR_COUNT_MAXIMUM 255
1012 #define RAY_MIB_LOW_SNR_COUNT_DISABLED 0xff
1013 #define RAY_MIB_LOW_SNR_COUNT_V4 RAY_MIB_LOW_SNR_COUNT_DISABLED
1014 #define RAY_MIB_LOW_SNR_COUNT_V5 RAY_MIB_LOW_SNR_COUNT_DISABLED
1017 * mib_infra_missed_beacon_count
1019 * DOC 0x02 - Threshold that number of consecutive
1020 * - beacons not received must exceed
1021 * - before roaming processing begins in an
1022 * - infrastructure network. To disable, set
1025 * NetBSD 0x02 - documented default for 5/6
1026 * NetBSD 0x05 - Linux
1027 * NetBSD 0x07 - "divined - check, looks fishy"
1028 * Symb 0xXX - 5 missed beacons is probably okay
1030 #define RAY_MIB_INFRA_MISSED_BEACON_COUNT_MINIMUM 0
1031 #define RAY_MIB_INFRA_MISSED_BEACON_COUNT_MAXIMUM 255
1032 #define RAY_MIB_INFRA_MISSED_BEACON_COUNT_V4 0x05
1033 #define RAY_MIB_INFRA_MISSED_BEACON_COUNT_V5 0x02
1036 * mib_adhoc_missed_beacon_count
1038 * DOC 0xff - Threshold that number of consecutive
1039 * - beacons transmitted by a terminal must
1040 * - exceed before reacquisition processing
1041 * - begins in Ad Hoc Network.
1043 #define RAY_MIB_ADHOC_MISSED_BEACON_COUNT_MINIMUM 0
1044 #define RAY_MIB_ADHOC_MISSED_BEACON_COUNT_MAXIMUM 255
1045 #define RAY_MIB_ADHOC_MISSED_BEACON_COUNT_DISABLED 0xff
1046 #define RAY_MIB_ADHOC_MISSED_BEACON_COUNT_V4 RAY_MIB_ADHOC_MISSED_BEACON_COUNT_DISABLED
1047 #define RAY_MIB_ADHOC_MISSED_BEACON_COUNT_V5 RAY_MIB_ADHOC_MISSED_BEACON_COUNT_DISABLED
1052 * DOC 0x01 - Country set of hopping patterns
1053 * - (element value in beacon)
1054 * - Note: Japan Test is for a special test
1055 * - mode required by the Japanese
1056 * - regulatory authorities.
1058 #define RAY_MIB_COUNTRY_CODE_MIMIMUM 0x01
1059 #define RAY_MIB_COUNTRY_CODE_MAXIMUM 0x09
1060 #define RAY_MIB_COUNTRY_CODE_USA 0x01
1061 #define RAY_MIB_COUNTRY_CODE_EUROPE 0x02
1062 #define RAY_MIB_COUNTRY_CODE_JAPAN 0x03
1063 #define RAY_MIB_COUNTRY_CODE_KOREA 0x04
1064 #define RAY_MIB_COUNTRY_CODE_SPAIN 0x05
1065 #define RAY_MIB_COUNTRY_CODE_FRANCE 0x06
1066 #define RAY_MIB_COUNTRY_CODE_ISRAEL 0x07
1067 #define RAY_MIB_COUNTRY_CODE_AUSTRALIA 0x08
1068 #define RAY_MIB_COUNTRY_CODE_JAPAN_TEST 0x09
1069 #define RAY_MIB_COUNTRY_CODE_V4 RAY_MIB_COUNTRY_CODE_USA
1070 #define RAY_MIB_COUNTRY_CODE_V5 RAY_MIB_COUNTRY_CODE_USA
1075 * DOC 0x0b - Hop Pattern to use. (Currently 66
1076 * - US/Europe plus 12 Japanese).
1078 * NetBSD.h - no longer supported
1080 #define RAY_MIB_HOP_SEQ_MINIMUM 6
1081 #define RAY_MIB_HOP_SEQ_MAXIMUM 72
1082 #define RAY_MIB_HOP_SEQ_V4 0x0b
1083 #define RAY_MIB_HOP_SEQ_V5 0x04
1088 * DOC 0x4f - Number of frequency channels in
1089 * - hopping pattern is now set to the value
1090 * - defined in IEEE802.11 for the selected
1091 * - Current Country Code.
1093 #define RAY_MIB_HOP_SEQ_LEN_MINIMUM 1
1094 #define RAY_MIB_HOP_SEQ_LEN_MAXIMUM 79
1095 #define RAY_MIB_HOP_SEQ_LEN_V4 0x4e
1096 #define RAY_MIB_HOP_SEQ_LEN_V5 0x4f
1099 * All from here down are the same in Linux/NetBSD and seem to be sane.
1101 #define RAY_MIB_CW_MAX_V4 0x3f
1102 #define RAY_MIB_CW_MAX_V5 0x003f
1104 #define RAY_MIB_CW_MIN_V4 0x0f
1105 #define RAY_MIB_CW_MIN_V5 0x000f
1108 * Symb 0xXX - these parameters will affect the clear channel
1109 * assesment false triggering
1112 #define RAY_MIB_NOISE_FILTER_GAIN_DEFAULT 0x04
1113 #define RAY_MIB_NOISE_LIMIT_OFFSET_DEFAULT 0x08
1114 #define RAY_MIB_RSSI_THRESH_OFFSET_DEFAULT 0x28
1115 #define RAY_MIB_BUSY_THRESH_OFFSET_DEFAULT 0x28
1116 #define RAY_MIB_SYNC_THRESH_DEFAULT 0x07
1118 #define RAY_MIB_TEST_MODE_NORMAL 0x0
1119 #define RAY_MIB_TEST_MODE_ANT_1 0x1
1120 #define RAY_MIB_TEST_MODE_ATN_2 0x2
1121 #define RAY_MIB_TEST_MODE_ATN_BOTH 0x3
1122 #define RAY_MIB_TEST_MODE_DEFAULT RAY_MIB_TEST_MODE_NORMAL
1124 #define RAY_MIB_TEST_MIN_CHAN_DEFAULT 0x02
1125 #define RAY_MIB_TEST_MAX_CHAN_DEFAULT 0x02
1127 #define RAY_MIB_ALLOW_PROBE_RESP_DISALLOW 0x0
1128 #define RAY_MIB_ALLOW_PROBE_RESP_ALLOW 0x1
1129 #define RAY_MIB_ALLOW_PROBE_RESP_DEFAULT RAY_MIB_ALLOW_PROBE_RESP_DISALLOW
1131 #define RAY_MIB_PRIVACY_MUST_START_NOWEP 0x0
1132 #define RAY_MIB_PRIVACY_MUST_START_WEP 0x1
1133 #define RAY_MIB_PRIVACY_MUST_START_DEFAULT RAY_MIB_PRIVACY_MUST_START_NOWEP
1135 #define RAY_MIB_PRIVACY_CAN_JOIN_NOWEP 0x0
1136 #define RAY_MIB_PRIVACY_CAN_JOIN_WEP 0x1
1137 #define RAY_MIB_PRIVACY_CAN_JOIN_DONT_CARE 0x2
1138 #define RAY_MIB_PRIVACY_CAN_JOIN_DEFAULT RAY_MIB_PRIVACY_CAN_JOIN_NOWEP
1140 #define RAY_MIB_BASIC_RATE_SET_MINIMUM 1
1141 #define RAY_MIB_BASIC_RATE_SET_MAXIMUM 4
1142 #define RAY_MIB_BASIC_RATE_SET_500K 1
1143 #define RAY_MIB_BASIC_RATE_SET_1000K 2
1144 #define RAY_MIB_BASIC_RATE_SET_1500K 3
1145 #define RAY_MIB_BASIC_RATE_SET_2000K 4
1146 #define RAY_MIB_BASIC_RATE_SET_DEFAULT RAY_MIB_BASIC_RATE_SET_2000K
1151 struct ray_param_req {
1155 u_int8_t r_data[256];
1157 struct ray_stats_req {
1158 u_int64_t rxoverflow; /* Number of rx overflows */
1159 u_int64_t rxcksum; /* Number of checksum errors */
1160 u_int64_t rxhcksum; /* Number of header checksum errors */
1161 u_int8_t rxnoise; /* Average receiver level */
1163 #define RAY_FAILCAUSE_EIDRANGE 1
1164 #define RAY_FAILCAUSE_ELENGTH 2
1165 /* device can possibly return up to 255 */
1166 #define RAY_FAILCAUSE_EDEVSTOP 256
1168 /* Get a param the data is a ray_param_req structure */
1169 #define SIOCSRAYPARAM SIOCSIFGENERIC
1170 #define SIOCGRAYPARAM SIOCGIFGENERIC
1171 /* Get the error counters the data is a ray_stats_req structure */
1172 #define SIOCGRAYSTATS _IOWR('i', 201, struct ifreq)
1173 #define SIOCGRAYSIGLEV _IOWR('i', 202, struct ifreq)
1175 #define RAY_NSIGLEVRECS 8
1176 #define RAY_NSIGLEV 8
1177 #define RAY_NANTENNA 8
1180 u_int8_t rsl_host[ETHER_ADDR_LEN]; /* MAC address */
1181 u_int8_t rsl_siglevs[RAY_NSIGLEV]; /* levels, newest in [0] */
1182 u_int8_t rsl_antennas[RAY_NANTENNA]; /* best antenna */
1183 struct timeval rsl_time; /* time of last packet */