1 /*
2  * Copyright (c) 2013-2016, 2018-2021 The Linux Foundation. All rights reserved.
3  * Copyright (c) 2021-2024 Qualcomm Innovation Center, Inc. All rights reserved.
4  *
5  * Previously licensed under the ISC license by Qualcomm Atheros, Inc.
6  *
7  *
8  * Permission to use, copy, modify, and/or distribute this software for
9  * any purpose with or without fee is hereby granted, provided that the
10  * above copyright notice and this permission notice appear in all
11  * copies.
12  *
13  * THE SOFTWARE IS PROVIDED "AS IS" AND THE AUTHOR DISCLAIMS ALL
14  * WARRANTIES WITH REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED
15  * WARRANTIES OF MERCHANTABILITY AND FITNESS. IN NO EVENT SHALL THE
16  * AUTHOR BE LIABLE FOR ANY SPECIAL, DIRECT, INDIRECT, OR CONSEQUENTIAL
17  * DAMAGES OR ANY DAMAGES WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR
18  * PROFITS, WHETHER IN AN ACTION OF CONTRACT, NEGLIGENCE OR OTHER
19  * TORTIOUS ACTION, ARISING OUT OF OR IN CONNECTION WITH THE USE OR
20  * PERFORMANCE OF THIS SOFTWARE.
21  */
22 
23 /*
24  * This file was originally distributed by Qualcomm Atheros, Inc.
25  * under proprietary terms before Copyright ownership was assigned
26  * to the Linux Foundation.
27  */
28 #ifndef __WLAN_DEFS_H__
29 #define __WLAN_DEFS_H__
30 
31 #include <a_osapi.h> /* A_COMPILE_TIME_ASSERT */
32 
33 /*
34  * This file contains WLAN definitions that may be used across both
35  * Host and Target software.
36  */
37 
38 
39 /*
40  * MAX_SPATIAL_STREAM should be defined in a fwconfig_xxx.h file,
41  * but for now provide a default value here in case it's not defined
42  * in the fwconfig_xxx.h file.
43  */
44 #ifndef MAX_SPATIAL_STREAM
45 #define MAX_SPATIAL_STREAM 3
46 #endif
47 
48 /*
49  * NOTE: The CONFIG_160MHZ_SUPPORT is not used consistently - some code
50  * uses "#ifdef CONFIG_160MHZ_SUPPORT" while other code uses
51  * "#if CONFIG_160MHZ_SUPPORT".
52  * This use is being standardized in the recent versions of code to use
53  * #ifdef, but is being left as is in the legacy code branches.
54  * To minimize impact to legacy code branches, this file internally
55  * converts CONFIG_160MHZ_SUPPORT=0 to having CONFIG_160MHZ_SUPPORT
56  * undefined.
57  * For builds that explicitly set CONFIG_160MHZ_SUPPORT=0, the bottom of
58  * this file restores CONFIG_160MHZ_SUPPORT from being undefined to being 0.
59  */
60 // OLD:
61 //#ifndef CONFIG_160MHZ_SUPPORT
62 //#define CONFIG_160MHZ_SUPPORT 0 /* default: 160 MHz channels not supported */
63 //#endif
64 // NEW:
65 #ifdef CONFIG_160MHZ_SUPPORT
66   /* CONFIG_160MHZ_SUPPORT is explicitly enabled or explicitly disabled */
67   #if !CONFIG_160MHZ_SUPPORT
68     /* CONFIG_160MHZ_SUPPORT is explicitly disabled */
69     /* Change from CONFIG_160MHZ_SUPPORT=0 to CONFIG_160MHZ_SUPPORT=<undef> */
70     #undef CONFIG_160MHZ_SUPPORT
71     /*
72      * Set a flag to indicate this CONFIG_160MHZ_SUPPORT = 0 --> undef
73      * change has been done, so we can undo the change at the bottom
74      * of the file.
75      */
76     #define CONFIG_160MHZ_SUPPORT_UNDEF_WAR
77   #endif
78 #else
79   /*
80    * For backwards compatibility, if CONFIG_160MHZ_SUPPORT is not defined,
81    * default it to 0, if this is either a host build or a Rome target build.
82    * This maintains the prior behavior for the host and Rome target builds.
83    */
84   #if defined(AR6320) || !defined(ATH_TARGET)
85     /*
86      * Set a flag to indicate that at the end of the file,
87      * CONFIG_160MHZ_SUPPORT should be set to 0.
88      */
89     #define CONFIG_160MHZ_SUPPORT_UNDEF_WAR
90   #endif
91 #endif
92 
93 #ifndef SUPPORT_11AX
94 #define SUPPORT_11AX 0 /* 11ax not supported by default */
95 #endif
96 
97 /*
98  * MAX_SPATIAL_STREAM_ANY -
99  * what is the largest number of spatial streams that any target supports
100  */
101 #define MAX_SPATIAL_STREAM_ANY_V2 4 /* pre-hawkeye */
102 #define MAX_SPATIAL_STREAM_ANY_V3 8 /* includes hawkeye */
103 /*
104  * (temporarily) leave the old MAX_SPATIAL_STREAM_ANY name in place as an alias,
105  * and in case some old code is using it
106  */
107 #define MAX_SPATIAL_STREAM_ANY MAX_SPATIAL_STREAM_ANY_V2 /* DEPRECATED */
108 
109 /* defines to set Packet extension values which can be 0, 8, or 16 usec */
110 /* NOTE: Below values cannot be changed without breaking WMI Compatibility */
111 #define MAX_HE_NSS               8
112 #define MAX_HE_MODULATION        8
113 #define MAX_HE_RU                4
114 #define HE_MODULATION_NONE       7
115 #define HE_PET_0_USEC            0
116 #define HE_PET_8_USEC            1
117 #define HE_PET_16_USEC           2
118 
119 #define DEFAULT_OFDMA_RU26_COUNT 0
120 
121 typedef enum {
122     MODE_11A        = 0,   /* 11a Mode */
123     MODE_11G        = 1,   /* 11b/g Mode */
124     MODE_11B        = 2,   /* 11b Mode */
125     MODE_11GONLY    = 3,   /* 11g only Mode */
126     MODE_11NA_HT20   = 4,  /* 11a HT20 mode */
127     MODE_11NG_HT20   = 5,  /* 11g HT20 mode */
128     MODE_11NA_HT40   = 6,  /* 11a HT40 mode */
129     MODE_11NG_HT40   = 7,  /* 11g HT40 mode */
130     MODE_11AC_VHT20 = 8,
131     MODE_11AC_VHT40 = 9,
132     MODE_11AC_VHT80 = 10,
133     MODE_11AC_VHT20_2G = 11,
134     MODE_11AC_VHT40_2G = 12,
135     MODE_11AC_VHT80_2G = 13,
136 #ifdef CONFIG_160MHZ_SUPPORT
137     MODE_11AC_VHT80_80 = 14,
138     MODE_11AC_VHT160   = 15,
139 #endif
140 
141 #if SUPPORT_11AX
142     MODE_11AX_HE20 = 16,
143     MODE_11AX_HE40 = 17,
144     MODE_11AX_HE80 = 18,
145     MODE_11AX_HE80_80 = 19,
146     MODE_11AX_HE160 = 20,
147     MODE_11AX_HE20_2G = 21,
148     MODE_11AX_HE40_2G = 22,
149     MODE_11AX_HE80_2G = 23,
150 #endif
151 
152 #if (defined(SUPPORT_11BE) && SUPPORT_11BE) || defined(SUPPORT_11BE_ROM)
153     MODE_11BE_EHT20 = 24,
154     MODE_11BE_EHT40 = 25,
155     MODE_11BE_EHT80 = 26,
156     MODE_11BE_EHT80_80 = 27,
157     MODE_11BE_EHT160 = 28,
158     MODE_11BE_EHT160_160 = 29,
159     MODE_11BE_EHT320 = 30,
160     MODE_11BE_EHT20_2G = 31, /* For WIN */
161     MODE_11BE_EHT40_2G = 32, /* For WIN */
162 #endif
163 
164     /*
165      * MODE_UNKNOWN should not be used within the host / target interface.
166      * Thus, it is permissible for MODE_UNKNOWN to be conditionally-defined,
167      * taking different values when compiling for different targets.
168      */
169     MODE_UNKNOWN,
170     MODE_UNKNOWN_NO_160MHZ_SUPPORT = 14, /* not needed? */
171     MODE_UNKNOWN_160MHZ_SUPPORT = MODE_UNKNOWN, /* not needed? */
172 
173 #ifdef ATHR_WIN_NWF
174     PHY_MODE_MAX    = MODE_UNKNOWN,
175     PHY_MODE_MAX_NO_160_MHZ_SUPPORT = MODE_UNKNOWN_NO_160MHZ_SUPPORT,
176     PHY_MODE_MAX_160_MHZ_SUPPORT    = MODE_UNKNOWN_160MHZ_SUPPORT,
177 #else
178     MODE_MAX        = MODE_UNKNOWN,
179     MODE_MAX_NO_160_MHZ_SUPPORT = MODE_UNKNOWN_NO_160MHZ_SUPPORT,
180     MODE_MAX_160_MHZ_SUPPORT    = MODE_UNKNOWN_160MHZ_SUPPORT,
181 #endif
182 } WLAN_PHY_MODE;
183 
184 #if (!defined(CONFIG_160MHZ_SUPPORT)) && (!defined(SUPPORT_11AX))
185 A_COMPILE_TIME_ASSERT(
186     mode_unknown_value_consistency_Check,
187     MODE_UNKNOWN == MODE_UNKNOWN_NO_160MHZ_SUPPORT);
188 #else
189 /*
190  * If SUPPORT_11AX is defined but CONFIG_160MHZ_SUPPORT is not defined,
191  * there will be a gap in the mode values, with 14 and 15 being unused.
192  * But MODE_UNKNOWN_NO_160MHZ_SUPPORT will have an invalid value, since
193  * mode values 16 through 23 will be used for 11AX modes.
194  * Thus, MODE_UNKNOWN would still be MODE_UNKNOWN_160MHZ_SUPPORT, for
195  * cases where 160 MHz is not supported by 11AX is supported.
196  * (Ideally, MODE_UNKNOWN_160MHZ_SUPPORT and NO_160MHZ_SUPPORT should be
197  * renamed to cover the 4 permutations of support or no support for
198  * 11AX and 160 MHZ, but that is impractical, due to backwards
199  * compatibility concerns.)
200  */
201 A_COMPILE_TIME_ASSERT(
202     mode_unknown_value_consistency_Check,
203     MODE_UNKNOWN == MODE_UNKNOWN_160MHZ_SUPPORT);
204 #endif
205 
206 typedef enum {
207     VHT_MODE_NONE = 0,  /* NON VHT Mode, e.g., HT, DSSS, CCK */
208     VHT_MODE_20M = 1,
209     VHT_MODE_40M = 2,
210     VHT_MODE_80M = 3,
211     VHT_MODE_160M = 4
212 } VHT_OPER_MODE;
213 
214 typedef enum {
215     WLAN_11A_CAPABILITY   = 1,
216     WLAN_11G_CAPABILITY   = 2,
217     WLAN_11AG_CAPABILITY  = 3,
218 } WLAN_CAPABILITY;
219 
220 #ifdef CONFIG_160MHZ_SUPPORT
221 #define IS_MODE_VHT(mode) (((mode) == MODE_11AC_VHT20) || \
222         ((mode) == MODE_11AC_VHT40)     || \
223         ((mode) == MODE_11AC_VHT80)     || \
224         ((mode) == MODE_11AC_VHT80_80)  || \
225         ((mode) == MODE_11AC_VHT160))
226 #else
227 #define IS_MODE_VHT(mode) (((mode) == MODE_11AC_VHT20) || \
228         ((mode) == MODE_11AC_VHT40) || \
229         ((mode) == MODE_11AC_VHT80))
230 #endif
231 
232 #if SUPPORT_11AX
233 #define IS_MODE_HE(mode) (((mode) == MODE_11AX_HE20) || \
234         ((mode) == MODE_11AX_HE40)     || \
235         ((mode) == MODE_11AX_HE80)     || \
236         ((mode) == MODE_11AX_HE80_80)  || \
237         ((mode) == MODE_11AX_HE160)    || \
238         ((mode) == MODE_11AX_HE20_2G)  || \
239         ((mode) == MODE_11AX_HE40_2G)  || \
240         ((mode) == MODE_11AX_HE80_2G))
241 #define IS_MODE_HE_5G_6G(mode) (((mode) == MODE_11AX_HE20) || \
242         ((mode) == MODE_11AX_HE40)     || \
243         ((mode) == MODE_11AX_HE80)     || \
244         ((mode) == MODE_11AX_HE80_80)  || \
245         ((mode) == MODE_11AX_HE160))
246 #define IS_MODE_HE_2G(mode) (((mode) == MODE_11AX_HE20_2G) || \
247         ((mode) == MODE_11AX_HE40_2G) || \
248         ((mode) == MODE_11AX_HE80_2G))
249 #endif /* SUPPORT_11AX */
250 
251 #if (defined(SUPPORT_11BE) && SUPPORT_11BE) || defined(SUPPORT_11BE_ROM)
252 #define IS_MODE_EHT(mode) (((mode) == MODE_11BE_EHT20) || \
253         ((mode) == MODE_11BE_EHT40)     || \
254         ((mode) == MODE_11BE_EHT80)     || \
255         ((mode) == MODE_11BE_EHT80_80)  || \
256         ((mode) == MODE_11BE_EHT160)    || \
257         ((mode) == MODE_11BE_EHT160_160)|| \
258         ((mode) == MODE_11BE_EHT320)    || \
259         ((mode) == MODE_11BE_EHT20_2G)  || \
260         ((mode) == MODE_11BE_EHT40_2G))
261 #define IS_MODE_EHT_2G(mode) (((mode) == MODE_11BE_EHT20_2G) || \
262         ((mode) == MODE_11BE_EHT40_2G))
263 #endif /* SUPPORT_11BE */
264 
265 #define IS_MODE_VHT_2G(mode) (((mode) == MODE_11AC_VHT20_2G) || \
266         ((mode) == MODE_11AC_VHT40_2G) || \
267         ((mode) == MODE_11AC_VHT80_2G))
268 
269 
270 #define IS_MODE_11A(mode)       (((mode) == MODE_11A) || \
271                                  ((mode) == MODE_11NA_HT20) || \
272                                  ((mode) == MODE_11NA_HT40) || \
273                                  (IS_MODE_VHT(mode)))
274 
275 #define IS_MODE_11B(mode)       ((mode) == MODE_11B)
276 #define IS_MODE_11G(mode)       (((mode) == MODE_11G) || \
277                                  ((mode) == MODE_11GONLY) || \
278                                  ((mode) == MODE_11NG_HT20) || \
279                                  ((mode) == MODE_11NG_HT40) || \
280                                  (IS_MODE_VHT_2G(mode)))
281 #define IS_MODE_11GN(mode)      (((mode) == MODE_11NG_HT20) || \
282                                  ((mode) == MODE_11NG_HT40))
283 #define IS_MODE_11GONLY(mode)   ((mode) == MODE_11GONLY)
284 
285 #define IS_MODE_LEGACY(phymode)  ((phymode == MODE_11A) || \
286                                   (phymode == MODE_11G) || \
287                                   (phymode == MODE_11B) || \
288                                   (phymode == MODE_11GONLY))
289 
290 #define IS_MODE_11N(phymode)     ((phymode >= MODE_11NA_HT20) && \
291                                   (phymode <= MODE_11NG_HT40))
292 #ifdef CONFIG_160MHZ_SUPPORT
293   #define IS_MODE_11AC(phymode)  ((phymode >= MODE_11AC_VHT20) && \
294                                   (phymode <= MODE_11AC_VHT160))
295   #define IS_MODE_11AC_5G(phymode) ((phymode == MODE_11AC_VHT20) || \
296                                     (phymode == MODE_11AC_VHT40) || \
297                                     (phymode == MODE_11AC_VHT80) || \
298                                     (phymode == MODE_11AC_VHT80_80) || \
299                                     (phymode == MODE_11AC_VHT160))
300 #else
301   #define IS_MODE_11AC(phymode)  ((phymode >= MODE_11AC_VHT20) && \
302                                   (phymode <= MODE_11AC_VHT80_2G))
303   #define IS_MODE_11AC_5G(phymode) ((phymode == MODE_11AC_VHT20) || \
304                                     (phymode == MODE_11AC_VHT40) || \
305                                     (phymode == MODE_11AC_VHT80))
306 #endif /* CONFIG_160MHZ_SUPPORT */
307 
308 #if SUPPORT_11AX
309   #define IS_MODE_80MHZ(phymode) ((phymode == MODE_11AC_VHT80_2G) || \
310                                   (phymode == MODE_11AC_VHT80) || \
311                                   (phymode == MODE_11AX_HE80) || \
312                                   (phymode == MODE_11AX_HE80_2G))
313   #define IS_MODE_40MHZ(phymode) ((phymode == MODE_11AC_VHT40_2G) || \
314                                   (phymode == MODE_11AC_VHT40) || \
315                                   (phymode == MODE_11NG_HT40) || \
316                                   (phymode == MODE_11NA_HT40) || \
317                                   (phymode == MODE_11AX_HE40) || \
318                                   (phymode == MODE_11AX_HE40_2G))
319 #else
320   #define IS_MODE_80MHZ(phymode) ((phymode == MODE_11AC_VHT80_2G) || \
321                                   (phymode == MODE_11AC_VHT80))
322   #define IS_MODE_40MHZ(phymode) ((phymode == MODE_11AC_VHT40_2G) || \
323                                   (phymode == MODE_11AC_VHT40) || \
324                                   (phymode == MODE_11NG_HT40) || \
325                                   (phymode == MODE_11NA_HT40))
326 #endif /* SUPPORT_11AX */
327 
328 enum {
329     REGDMN_MODE_11A_BIT                = 0,  /* 11a channels */
330     REGDMN_MODE_TURBO_BIT              = 1,  /* 11a turbo-only channels */
331     REGDMN_MODE_11B_BIT                = 2,  /* 11b channels */
332     REGDMN_MODE_PUREG_BIT              = 3,  /* 11g channels (OFDM only) */
333     REGDMN_MODE_11G_BIT                = 3,  /* XXX historical */
334     /* bit 4 is reserved */
335     REGDMN_MODE_108G_BIT               = 5,  /* 11g+Turbo channels */
336     REGDMN_MODE_108A_BIT               = 6,  /* 11a+Turbo channels */
337     /* bit 7 is reserved */
338     REGDMN_MODE_XR_BIT                 = 8,  /* XR channels */
339     REGDMN_MODE_11A_HALF_RATE_BIT      = 9,  /* 11A half rate channels */
340     REGDMN_MODE_11A_QUARTER_RATE_BIT   = 10, /* 11A quarter rate channels */
341     REGDMN_MODE_11NG_HT20_BIT          = 11, /* 11N-G HT20 channels */
342     REGDMN_MODE_11NA_HT20_BIT          = 12, /* 11N-A HT20 channels */
343     REGDMN_MODE_11NG_HT40PLUS_BIT      = 13, /* 11N-G HT40 + channels */
344     REGDMN_MODE_11NG_HT40MINUS_BIT     = 14, /* 11N-G HT40 - channels */
345     REGDMN_MODE_11NA_HT40PLUS_BIT      = 15, /* 11N-A HT40 + channels */
346     REGDMN_MODE_11NA_HT40MINUS_BIT     = 16, /* 11N-A HT40 - channels */
347     REGDMN_MODE_11AC_VHT20_BIT         = 17, /* 5Ghz, VHT20 */
348     REGDMN_MODE_11AC_VHT40PLUS_BIT     = 18, /* 5Ghz, VHT40 + channels */
349     REGDMN_MODE_11AC_VHT40MINUS_BIT    = 19, /* 5Ghz  VHT40 - channels */
350     REGDMN_MODE_11AC_VHT80_BIT         = 20, /* 5Ghz, VHT80 channels */
351     REGDMN_MODE_11AC_VHT20_2G_BIT      = 21, /* 2Ghz, VHT20 */
352     REGDMN_MODE_11AC_VHT40_2G_BIT      = 22, /* 2Ghz, VHT40 */
353     REGDMN_MODE_11AC_VHT80_2G_BIT      = 23, /* 2Ghz, VHT80 */
354     REGDMN_MODE_11AC_VHT160_BIT        = 24, /* 5Ghz, VHT160 */
355     REGDMN_MODE_11AC_VHT40_2GPLUS_BIT  = 25, /* 2Ghz, VHT40+ */
356     REGDMN_MODE_11AC_VHT40_2GMINUS_BIT = 26, /* 2Ghz, VHT40- */
357     REGDMN_MODE_11AC_VHT80_80_BIT      = 27, /* 5GHz, VHT80+80 */
358     /* bits 28 to 31 are reserved */
359     REGDMN_MODE_11AXG_HE20_BIT         = 32, /* 2Ghz, HE20 */
360     REGDMN_MODE_11AXA_HE20_BIT         = 33, /* 5Ghz, HE20 */
361     REGDMN_MODE_11AXG_HE40PLUS_BIT     = 34, /* 2Ghz, HE40+ */
362     REGDMN_MODE_11AXG_HE40MINUS_BIT    = 35, /* 2Ghz, HE40- */
363     REGDMN_MODE_11AXA_HE40PLUS_BIT     = 36, /* 5Ghz, HE40+ */
364     REGDMN_MODE_11AXA_HE40MINUS_BIT    = 37, /* 5Ghz, HE40- */
365     REGDMN_MODE_11AXA_HE80_BIT         = 38, /* 5Ghz, HE80 */
366     REGDMN_MODE_11AXA_HE160_BIT        = 39, /* 5Ghz, HE160 */
367     REGDMN_MODE_11AXA_HE80_80_BIT      = 40, /* 5Ghz, HE80+80 */
368     REGDMN_MODE_11BEG_EHT20_BIT        = 41, /* 2Ghz, EHT20 */
369     REGDMN_MODE_11BEA_EHT20_BIT        = 42, /* 5Ghz, EHT20 */
370     REGDMN_MODE_11BEG_EHT40PLUS_BIT    = 43, /* 2Ghz, EHT40+ */
371     REGDMN_MODE_11BEG_EHT40MINUS_BIT   = 44, /* 2Ghz, EHT40- */
372     REGDMN_MODE_11BEA_EHT40PLUS_BIT    = 45, /* 5Ghz, EHT40+ */
373     REGDMN_MODE_11BEA_EHT40MINUS_BIT   = 46, /* 5Ghz, EHT40- */
374     REGDMN_MODE_11BEA_EHT80_BIT        = 47, /* 5Ghz, EHT80 */
375     REGDMN_MODE_11BEA_EHT160_BIT       = 48, /* 5Ghz, EHT160 */
376     REGDMN_MODE_11BEA_EHT320_BIT       = 49, /* 5Ghz, EHT320 */
377 };
378 
379 enum {
380     REGDMN_MODE_11A                = 1 << REGDMN_MODE_11A_BIT,                /* 11a channels */
381     REGDMN_MODE_TURBO              = 1 << REGDMN_MODE_TURBO_BIT,              /* 11a turbo-only channels */
382     REGDMN_MODE_11B                = 1 << REGDMN_MODE_11B_BIT,                /* 11b channels */
383     REGDMN_MODE_PUREG              = 1 << REGDMN_MODE_PUREG_BIT,              /* 11g channels (OFDM only) */
384     REGDMN_MODE_11G                = 1 << REGDMN_MODE_11G_BIT,                /* XXX historical */
385     REGDMN_MODE_108G               = 1 << REGDMN_MODE_108G_BIT,               /* 11g+Turbo channels */
386     REGDMN_MODE_108A               = 1 << REGDMN_MODE_108A_BIT,               /* 11a+Turbo channels */
387     REGDMN_MODE_XR                 = 1 << REGDMN_MODE_XR_BIT,                 /* XR channels */
388     REGDMN_MODE_11A_HALF_RATE      = 1 << REGDMN_MODE_11A_HALF_RATE_BIT,      /* 11A half rate channels */
389     REGDMN_MODE_11A_QUARTER_RATE   = 1 << REGDMN_MODE_11A_QUARTER_RATE_BIT,   /* 11A quarter rate channels */
390     REGDMN_MODE_11NG_HT20          = 1 << REGDMN_MODE_11NG_HT20_BIT,          /* 11N-G HT20 channels */
391     REGDMN_MODE_11NA_HT20          = 1 << REGDMN_MODE_11NA_HT20_BIT,          /* 11N-A HT20 channels */
392     REGDMN_MODE_11NG_HT40PLUS      = 1 << REGDMN_MODE_11NG_HT40PLUS_BIT,      /* 11N-G HT40 + channels */
393     REGDMN_MODE_11NG_HT40MINUS     = 1 << REGDMN_MODE_11NG_HT40MINUS_BIT,     /* 11N-G HT40 - channels */
394     REGDMN_MODE_11NA_HT40PLUS      = 1 << REGDMN_MODE_11NA_HT40PLUS_BIT,      /* 11N-A HT40 + channels */
395     REGDMN_MODE_11NA_HT40MINUS     = 1 << REGDMN_MODE_11NA_HT40MINUS_BIT,     /* 11N-A HT40 - channels */
396     REGDMN_MODE_11AC_VHT20         = 1 << REGDMN_MODE_11AC_VHT20_BIT,         /* 5Ghz, VHT20 */
397     REGDMN_MODE_11AC_VHT40PLUS     = 1 << REGDMN_MODE_11AC_VHT40PLUS_BIT,     /* 5Ghz, VHT40 + channels */
398     REGDMN_MODE_11AC_VHT40MINUS    = 1 << REGDMN_MODE_11AC_VHT40MINUS_BIT,    /* 5Ghz  VHT40 - channels */
399     REGDMN_MODE_11AC_VHT80         = 1 << REGDMN_MODE_11AC_VHT80_BIT,         /* 5Ghz, VHT80 channels */
400     REGDMN_MODE_11AC_VHT20_2G      = 1 << REGDMN_MODE_11AC_VHT20_2G_BIT,      /* 2Ghz, VHT20 */
401     REGDMN_MODE_11AC_VHT40_2G      = 1 << REGDMN_MODE_11AC_VHT40_2G_BIT,      /* 2Ghz, VHT40 */
402     REGDMN_MODE_11AC_VHT80_2G      = 1 << REGDMN_MODE_11AC_VHT80_2G_BIT,      /* 2Ghz, VHT80 */
403     REGDMN_MODE_11AC_VHT160        = 1 << REGDMN_MODE_11AC_VHT160_BIT,        /* 5Ghz, VHT160 */
404     REGDMN_MODE_11AC_VHT40_2GPLUS  = 1 << REGDMN_MODE_11AC_VHT40_2GPLUS_BIT,  /* 2Ghz, VHT40+ */
405     REGDMN_MODE_11AC_VHT40_2GMINUS = 1 << REGDMN_MODE_11AC_VHT40_2GMINUS_BIT, /* 2Ghz, VHT40- */
406     REGDMN_MODE_11AC_VHT80_80      = 1 << REGDMN_MODE_11AC_VHT80_80_BIT,      /* 5GHz, VHT80+80 */
407 };
408 
409 enum {
410     REGDMN_MODE_U32_11AXG_HE20      = 1 << (REGDMN_MODE_11AXG_HE20_BIT - 32),
411     REGDMN_MODE_U32_11AXA_HE20      = 1 << (REGDMN_MODE_11AXA_HE20_BIT - 32),
412     REGDMN_MODE_U32_11AXG_HE40PLUS  = 1 << (REGDMN_MODE_11AXG_HE40PLUS_BIT - 32),
413     REGDMN_MODE_U32_11AXG_HE40MINUS = 1 << (REGDMN_MODE_11AXG_HE40MINUS_BIT - 32),
414     REGDMN_MODE_U32_11AXA_HE40PLUS  = 1 << (REGDMN_MODE_11AXA_HE40PLUS_BIT - 32),
415     REGDMN_MODE_U32_11AXA_HE40MINUS = 1 << (REGDMN_MODE_11AXA_HE40MINUS_BIT - 32),
416     REGDMN_MODE_U32_11AXA_HE80      = 1 << (REGDMN_MODE_11AXA_HE80_BIT - 32),
417     REGDMN_MODE_U32_11AXA_HE160     = 1 << (REGDMN_MODE_11AXA_HE160_BIT - 32),
418     REGDMN_MODE_U32_11AXA_HE80_80   = 1 << (REGDMN_MODE_11AXA_HE80_80_BIT - 32),
419     REGDMN_MODE_U32_11BEG_EHT20      = 1 << (REGDMN_MODE_11BEG_EHT20_BIT - 32),
420     REGDMN_MODE_U32_11BEA_EHT20      = 1 << (REGDMN_MODE_11BEA_EHT20_BIT - 32),
421     REGDMN_MODE_U32_11BEG_EHT40PLUS  = 1 << (REGDMN_MODE_11BEG_EHT40PLUS_BIT - 32),
422     REGDMN_MODE_U32_11BEG_EHT40MINUS = 1 << (REGDMN_MODE_11BEG_EHT40MINUS_BIT - 32),
423     REGDMN_MODE_U32_11BEA_EHT40PLUS  = 1 << (REGDMN_MODE_11BEA_EHT40PLUS_BIT - 32),
424     REGDMN_MODE_U32_11BEA_EHT40MINUS = 1 << (REGDMN_MODE_11BEA_EHT40MINUS_BIT - 32),
425     REGDMN_MODE_U32_11BEA_EHT80      = 1 << (REGDMN_MODE_11BEA_EHT80_BIT - 32),
426     REGDMN_MODE_U32_11BEA_EHT160     = 1 << (REGDMN_MODE_11BEA_EHT160_BIT - 32),
427     REGDMN_MODE_U32_11BEA_EHT320     = 1 << (REGDMN_MODE_11BEA_EHT320_BIT - 32),
428 };
429 
430 #define REGDMN_MODE_ALL       (0xFFFFFFFF)       /* REGDMN_MODE_ALL is defined out of the enum
431                                                   * to prevent the ARM compile "warning #66:
432                                                   * enumeration value is out of int range"
433                                                   * Anyway, this is a BIT-OR of all possible values.
434                                                   */
435 
436 #define REGDMN_CAP1_CHAN_HALF_RATE        0x00000001
437 #define REGDMN_CAP1_CHAN_QUARTER_RATE     0x00000002
438 #define REGDMN_CAP1_CHAN_HAL49GHZ         0x00000004
439 
440 
441 /* regulatory capabilities */
442 #define REGDMN_EEPROM_EEREGCAP_EN_FCC_MIDBAND   0x0040
443 #define REGDMN_EEPROM_EEREGCAP_EN_KK_U1_EVEN    0x0080
444 #define REGDMN_EEPROM_EEREGCAP_EN_KK_U2         0x0100
445 #define REGDMN_EEPROM_EEREGCAP_EN_KK_MIDBAND    0x0200
446 #define REGDMN_EEPROM_EEREGCAP_EN_KK_U1_ODD     0x0400
447 #define REGDMN_EEPROM_EEREGCAP_EN_KK_NEW_11A    0x0800
448 
449 typedef struct {
450     A_UINT32 tlv_header;     /* TLV tag and len; tag equals WMI_TLVTAG_STRUC_HAL_REG_CAPABILITIES */
451     A_UINT32 eeprom_rd;      /* regdomain value specified in EEPROM */
452     A_UINT32 eeprom_rd_ext;  /* regdomain */
453     A_UINT32 regcap1;        /* CAP1 capabilities bit map. */
454     A_UINT32 regcap2;        /* REGDMN EEPROM CAP. */
455     A_UINT32 wireless_modes; /* REGDMN MODE */
456     A_UINT32 low_2ghz_chan;
457     A_UINT32 high_2ghz_chan;
458     A_UINT32 low_5ghz_chan;
459     A_UINT32 high_5ghz_chan;
460     A_UINT32 wireless_modes_ext; /* REGDMN MODE ext */
461     A_UINT32 low_2ghz_chan_ext;
462     A_UINT32 high_2ghz_chan_ext;
463     A_UINT32 low_5ghz_chan_ext;
464     A_UINT32 high_5ghz_chan_ext;
465 } HAL_REG_CAPABILITIES;
466 
467 #ifdef NUM_SPATIAL_STREAM
468 /*
469  * The rate control definitions below are only used in the target.
470  * (Host-based rate control is no longer applicable.)
471  * Maintain the defs in wlanfw_cmn for the sake of existing Rome / Helium
472  * targets, but for Lithium targets remove them from wlanfw_cmn and define
473  * them in a target-only location instead.
474  * SUPPORT_11AX is essentially used as a condition to identify Lithium targets.
475  * Some host drivers would also have SUPPORT_11AX defined, and thus would lose
476  * the definition of RATE_CODE, RC_TX_DONE_PARAMS, and related macros, but
477  * that's okay because the host should have no references to these
478  * target-only data structures.
479  */
480 #if !((NUM_SPATIAL_STREAM > 4) || SUPPORT_11AX) /* following N/A for Lithium */
481 
482 /*
483  * Used to update rate-control logic with the status of the tx-completion.
484  * In host-based implementation of the rate-control feature, this structure
485  * is used to create the payload for HTT message/s from target to host.
486  */
487 #ifndef CONFIG_MOVE_RC_STRUCT_TO_MACCORE
488   #if (NUM_SPATIAL_STREAM > 3)
489     #define A_RATEMASK A_UINT64
490   #else
491     #define A_RATEMASK A_UINT32
492   #endif
493 #endif /* CONFIG_MOVE_RC_STRUCT_TO_MACCORE */
494 
495 typedef A_UINT8 A_RATE;
496 typedef A_UINT8 A_RATECODE;
497 
498 #define A_RATEMASK_NUM_OCTET (sizeof (A_RATEMASK))
499 #define A_RATEMASK_NUM_BITS ((sizeof (A_RATEMASK)) << 3)
500 
501 typedef struct {
502     A_RATECODE rateCode;
503     A_UINT8 flags;
504 } RATE_CODE;
505 
506 typedef struct {
507     RATE_CODE ptx_rc; /* rate code, bw, chain mask sgi */
508     A_UINT8 reserved[2];
509     A_UINT32 flags;       /* Encodes information such as excessive
510                              retransmission, aggregate, some info
511                              from .11 frame control,
512                              STBC, LDPC, (SGI and Tx Chain Mask
513                              are encoded in ptx_rc->flags field),
514                              AMPDU truncation (BT/time based etc.),
515                              RTS/CTS attempt  */
516     A_UINT32 num_enqued;  /* # of MPDUs (for non-AMPDU 1) for this rate */
517     A_UINT32 num_retries; /* Total # of transmission attempt for this rate */
518     A_UINT32 num_failed;  /* # of failed MPDUs in A-MPDU, 0 otherwise */
519     A_UINT32 ack_rssi;    /* ACK RSSI: b'7..b'0 avg RSSI across all chain */
520     A_UINT32 time_stamp ; /* ACK timestamp (helps determine age) */
521     A_UINT32 is_probe;    /* Valid if probing. Else, 0 */
522     A_UINT32 ba_win_size; /* b'7..b0, block Ack Window size, b'31..b8 Resvd */
523     A_UINT32 failed_ba_bmap_0_31; /* failed BA bitmap 0..31 */
524     A_UINT32 failed_ba_bmap_32_63; /* failed BA bitmap 32..63 */
525     A_UINT32 bmap_tried_0_31; /* enqued bitmap 0..31 */
526     A_UINT32 bmap_tried_32_63; /* enqued bitmap 32..63 */
527 } RC_TX_DONE_PARAMS;
528 
529 
530 #define RC_SET_TX_DONE_INFO(_dst, _rc, _f, _nq, _nr, _nf, _rssi, _ts) \
531     do {                                                              \
532         (_dst).ptx_rc.rateCode = (_rc).rateCode;                      \
533         (_dst).ptx_rc.flags    = (_rc).flags;                         \
534         (_dst).flags           = (_f);                                \
535         (_dst).num_enqued      = (_nq);                               \
536         (_dst).num_retries     = (_nr);                               \
537         (_dst).num_failed      = (_nf);                               \
538         (_dst).ack_rssi        = (_rssi);                             \
539         (_dst).time_stamp      = (_ts);                               \
540     } while (0)
541 
542 #define RC_SET_TXBF_DONE_INFO(_dst, _f)                                 \
543     do {                                                                \
544         (_dst).flags           |= (_f);                                 \
545     } while (0)
546 
547 /*
548  * NOTE: NUM_SCHED_ENTRIES is not used in the host/target interface, but for
549  * historical reasons has been defined in the host/target interface files.
550  * The NUM_SCHED_ENTRIES definition is being moved into a target-only
551  * header file for newer (Lithium) targets, but is being left here for
552  * non-Lithium cases, to avoid having to rework legacy targets to move
553  * the NUM_SCHED_ENTRIES definition into a target-only header file.
554  * Moving the NUM_SCHED_ENTRIES definition into a non-Lithium conditional
555  * block should have no impact on the host, since the host does not use
556  * NUM_SCHED_ENTRIES.
557  */
558 #define NUM_SCHED_ENTRIES           2
559 
560 #endif /* !((NUM_SPATIAL_STREAM > 4) || SUPPORT_11AX) */ /* above N/A for Lithium */
561 #endif /* NUM_SPATIAL_STREAM */
562 
563 /* NOTE: NUM_DYN_BW cannot be changed without breaking WMI Compatibility */
564 #define NUM_DYN_BW_MAX              4
565 
566 /* Some products only use 20/40/80; some use 20/40/80/160 */
567 #ifndef NUM_DYN_BW
568 #define NUM_DYN_BW                  3 /* default: support up through 80 MHz */
569 #endif
570 
571 #define NUM_DYN_BW_MASK             0x3
572 
573 #define PROD_SCHED_BW_ENTRIES       (NUM_SCHED_ENTRIES * NUM_DYN_BW)
574 
575 #if NUM_DYN_BW  > 5
576 /* Extend rate table module first */
577 #error "Extend rate table module first"
578 #endif
579 
580 #define MAX_IBSS_PEERS 32
581 
582 #ifdef NUM_SPATIAL_STREAM
583 /*
584  * RC_TX_RATE_SCHEDULE and RC_TX_RATE_INFO defs are used only in the target.
585  * (Host-based rate control is no longer applicable.)
586  * Maintain the defs in wlanfw_cmn for the sake of existing Rome / Helium
587  * targets, but for Lithium targets remove them from wlanfw_cmn and define
588  * them in a target-only location instead.
589  * SUPPORT_11AX is essentially used as a condition to identify Lithium targets.
590  * Some host drivers would also have SUPPORT_11AX defined, and thus would lose
591  * the definition of RC_TX_RATE_SCHEDULE and RC_TX_RATE_INFO, but that's okay
592  * because the host should have no references to these target-only data
593  * structures.
594  */
595 #ifndef CONFIG_MOVE_RC_STRUCT_TO_MACCORE
596 #if !((NUM_SPATIAL_STREAM > 4) || SUPPORT_11AX)
597   #if defined(CONFIG_AR900B_SUPPORT) || defined(AR900B)
598   typedef struct{
599       A_UINT32    psdu_len[NUM_DYN_BW * NUM_SCHED_ENTRIES];
600       A_UINT16    flags[NUM_SCHED_ENTRIES][NUM_DYN_BW];
601       A_RATE      rix[NUM_SCHED_ENTRIES][NUM_DYN_BW];
602       A_UINT8     tpc[NUM_SCHED_ENTRIES][NUM_DYN_BW];
603       A_UINT32    antmask[NUM_SCHED_ENTRIES];
604       A_UINT8     num_mpdus[NUM_DYN_BW * NUM_SCHED_ENTRIES];
605       A_UINT16    txbf_cv_len;
606       A_UINT32    txbf_cv_ptr;
607       A_UINT16    txbf_flags;
608       A_UINT16    txbf_cv_size;
609       A_UINT8     txbf_nc_idx;
610       A_UINT8     tries[NUM_SCHED_ENTRIES];
611       A_UINT8     bw_mask[NUM_SCHED_ENTRIES];
612       A_UINT8     max_bw[NUM_SCHED_ENTRIES];
613       A_UINT8     num_sched_entries;
614       A_UINT8     paprd_mask;
615       A_RATE      rts_rix;
616       A_UINT8     sh_pream;
617       A_UINT8     min_spacing_1_4_us;
618       A_UINT8     fixed_delims;
619       A_UINT8     bw_in_service;
620       A_RATE      probe_rix;
621       A_UINT8     num_valid_rates;
622       A_UINT8     rtscts_tpc;
623       A_UINT8     dd_profile;
624   } RC_TX_RATE_SCHEDULE;
625   #else
626   typedef struct{
627       A_UINT32    psdu_len[NUM_DYN_BW * NUM_SCHED_ENTRIES];
628       A_UINT16    flags[NUM_DYN_BW * NUM_SCHED_ENTRIES];
629       A_RATE      rix[NUM_DYN_BW * NUM_SCHED_ENTRIES];
630       A_UINT8     tpc[NUM_DYN_BW * NUM_SCHED_ENTRIES];
631       A_UINT8     num_mpdus[NUM_DYN_BW * NUM_SCHED_ENTRIES];
632       A_UINT32    antmask[NUM_SCHED_ENTRIES];
633       A_UINT32    txbf_cv_ptr;
634       A_UINT16    txbf_cv_len;
635       A_UINT8     tries[NUM_SCHED_ENTRIES];
636       A_UINT8     num_valid_rates;
637       A_UINT8     paprd_mask;
638       A_RATE      rts_rix;
639       A_UINT8     sh_pream;
640       A_UINT8     min_spacing_1_4_us;
641       A_UINT8     fixed_delims;
642       A_UINT8     bw_in_service;
643       A_RATE      probe_rix;
644   } RC_TX_RATE_SCHEDULE;
645   #endif
646 
647   typedef struct{
648       A_UINT16    flags[NUM_DYN_BW * NUM_SCHED_ENTRIES];
649       A_RATE      rix[NUM_DYN_BW * NUM_SCHED_ENTRIES];
650   #ifdef DYN_TPC_ENABLE
651       A_UINT8     tpc[NUM_DYN_BW * NUM_SCHED_ENTRIES];
652   #endif
653   #ifdef SECTORED_ANTENNA
654       A_UINT32    antmask[NUM_SCHED_ENTRIES];
655   #endif
656       A_UINT8     tries[NUM_SCHED_ENTRIES];
657       A_UINT8     num_valid_rates;
658       A_RATE      rts_rix;
659       A_UINT8     sh_pream;
660       A_UINT8     bw_in_service;
661       A_RATE      probe_rix;
662       A_UINT8     dd_profile;
663   } RC_TX_RATE_INFO;
664 #endif /* !((NUM_SPATIAL_STREAM > 4) || SUPPORT_11AX) */
665 #endif /* CONFIG_MOVE_RC_STRUCT_TO_MACCORE */
666 #endif
667 
668 /*
669  * Temporarily continue to provide the WHAL_RC_INIT_RC_MASKS def in wlan_defs.h
670  * for older targets.
671  * The WHAL_RX_INIT_RC_MASKS macro def needs to be moved into ratectrl_11ac.h
672  * for all targets, but until this is complete, the WHAL_RC_INIT_RC_MASKS def
673  * will be maintained here in its old location.
674  */
675 #ifndef CONFIG_160MHZ_SUPPORT
676 #define WHAL_RC_INIT_RC_MASKS(_rm) do {                                     \
677         _rm[WHAL_RC_MASK_IDX_NON_HT] = A_RATEMASK_OFDM_CCK;                 \
678         _rm[WHAL_RC_MASK_IDX_HT_20] = A_RATEMASK_HT_20;                     \
679         _rm[WHAL_RC_MASK_IDX_HT_40] = A_RATEMASK_HT_40;                     \
680         _rm[WHAL_RC_MASK_IDX_VHT_20] = A_RATEMASK_VHT_20;                   \
681         _rm[WHAL_RC_MASK_IDX_VHT_40] = A_RATEMASK_VHT_40;                   \
682         _rm[WHAL_RC_MASK_IDX_VHT_80] = A_RATEMASK_VHT_80;                   \
683         } while (0)
684 #endif
685 
686 /**
687  * structure describing host memory chunk.
688  */
689 typedef struct {
690    A_UINT32   tlv_header;     /* TLV tag and len; tag equals WMITLV_TAG_STRUC_wlan_host_memory_chunk */
691    /** id of the request that is passed up in service ready */
692    A_UINT32 req_id;
693    /** the physical address the memory chunk */
694    A_UINT32 ptr;
695    /** size of the chunk */
696    A_UINT32 size;
697     /** ptr_high
698      * most significant bits of physical address of the memory chunk
699      * Only applicable for addressing more than 32 bit.
700      * This will only be non-zero if the target has set
701      * WMI_SERVICE_SUPPORT_EXTEND_ADDRESS flag.
702      */
703    A_UINT32 ptr_high;
704 } wlan_host_memory_chunk;
705 
706 #define NUM_UNITS_IS_NUM_VDEVS        0x1
707 #define NUM_UNITS_IS_NUM_PEERS        0x2
708 #define NUM_UNITS_IS_NUM_ACTIVE_PEERS 0x4
709 /* request host to allocate memory contiguously */
710 #define REQ_TO_HOST_FOR_CONT_MEMORY   0x8
711 
712 /**
713  * structure used by FW for requesting host memory
714  */
715 typedef struct {
716     A_UINT32    tlv_header;     /* TLV tag and len; tag equals WMI_TLVTAG_STRUC_wlan_host_mem_req */
717 
718     /** ID of the request */
719     A_UINT32    req_id;
720     /** size of the  of each unit */
721     A_UINT32    unit_size;
722     /**
723      * flags to  indicate that
724      * the number units is dependent
725      * on number of resources(num vdevs num peers .. etc)
726      */
727     A_UINT32    num_unit_info;
728     /*
729      * actual number of units to allocate . if flags in the num_unit_info
730      * indicate that number of units is tied to number of a particular
731      * resource to allocate then  num_units filed is set to 0 and host
732      * will derive the number units from number of the resources it is
733      * requesting.
734      */
735     A_UINT32    num_units;
736 } wlan_host_mem_req;
737 
738 typedef enum {
739     IGNORE_DTIM = 0x01,
740     NORMAL_DTIM = 0x02,
741     STICK_DTIM  = 0x03,
742     AUTO_DTIM   = 0x04,
743 } BEACON_DTIM_POLICY;
744 
745 /* During test it is observed that 6 * 400 = 2400 can
746  * be alloced in addition to CFG_TGT_NUM_MSDU_DESC.
747  * If there is any change memory requirement, this number
748  * needs to be revisited. */
749 #define TOTAL_VOW_ALLOCABLE 2400
750 #define VOW_DESC_GRAB_MAX 800
751 
752 #define VOW_GET_NUM_VI_STA(vow_config) (((vow_config) & 0xffff0000) >> 16)
753 #define VOW_GET_DESC_PER_VI_STA(vow_config) ((vow_config) & 0x0000ffff)
754 
755 /***TODO!!! Get these values dynamically in WMI_READY event and use it to calculate the mem req*/
756 /* size in bytes required for msdu descriptor. If it changes, this should be updated. LARGE_AP
757  * case is not considered. LARGE_AP is disabled when VoW is enabled.*/
758 #define MSDU_DESC_SIZE 20
759 
760 /* size in bytes required to support a peer in target.
761  * This obtained by considering Two tids per peer.
762  * peer structure = 168 bytes
763  * tid = 96 bytes (per sta 2 means we need 192 bytes)
764  * peer_cb = 16 * 2
765  * key = 52 * 2
766  * AST = 12 * 2
767  * rate, reorder.. = 384
768  * smart antenna = 50
769  */
770 #define MEMORY_REQ_FOR_PEER 800
771 /*
772  * NB: it is important to keep all the fields in the structure dword long
773  * so that it is easy to handle the statistics in BE host.
774  */
775 
776 /*
777  * wlan_dbg_tx_stats_v1, _v2:
778  * differing versions of the wlan_dbg_tx_stats struct used by different
779  * targets
780  */
781 struct wlan_dbg_tx_stats_v1 {
782     /* Num HTT cookies queued to dispatch list */
783     A_INT32 comp_queued;
784     /* Num HTT cookies dispatched */
785     A_INT32 comp_delivered;
786     /* Num MSDU queued to WAL */
787     A_INT32 msdu_enqued;
788     /* Num MPDU queue to WAL */
789     A_INT32 mpdu_enqued;
790     /* Num MSDUs dropped by WMM limit */
791     A_INT32 wmm_drop;
792     /* Num Local frames queued */
793     A_INT32 local_enqued;
794     /* Num Local frames done */
795     A_INT32 local_freed;
796     /* Num queued to HW */
797     A_INT32 hw_queued;
798     /* Num PPDU reaped from HW */
799     A_INT32 hw_reaped;
800     /* Num underruns */
801     A_INT32 underrun;
802     /* Num PPDUs cleaned up in TX abort */
803     A_INT32 tx_abort;
804     /* Num MPDUs requed by SW */
805     A_INT32 mpdus_requed;
806     /* excessive retries */
807     A_UINT32 tx_ko;
808     /* data hw rate code */
809     A_UINT32 data_rc;
810     /* Scheduler self triggers */
811     A_UINT32 self_triggers;
812     /* frames dropped due to excessive sw retries */
813     A_UINT32 sw_retry_failure;
814     /* illegal rate phy errors  */
815     A_UINT32 illgl_rate_phy_err;
816     /* wal pdev continuous xretry */
817     A_UINT32 pdev_cont_xretry;
818     /* wal pdev continuous xretry */
819     A_UINT32 pdev_tx_timeout;
820     /* wal pdev resets  */
821     A_UINT32 pdev_resets;
822     /* frames dropped due to non-availability of stateless TIDs */
823     A_UINT32 stateless_tid_alloc_failure;
824     /* PhY/BB underrun */
825     A_UINT32 phy_underrun;
826     /* MPDU is more than txop limit */
827     A_UINT32 txop_ovf;
828 };
829 
830 struct wlan_dbg_tx_stats_v2 {
831     /* Num HTT cookies queued to dispatch list */
832     A_INT32 comp_queued;
833     /* Num HTT cookies dispatched */
834     A_INT32 comp_delivered;
835     /* Num MSDU queued to WAL */
836     A_INT32 msdu_enqued;
837     /* Num MPDU queue to WAL */
838     A_INT32 mpdu_enqued;
839     /* Num MSDUs dropped by WMM limit */
840     A_INT32 wmm_drop;
841     /* Num Local frames queued */
842     A_INT32 local_enqued;
843     /* Num Local frames done */
844     A_INT32 local_freed;
845     /* Num queued to HW */
846     A_INT32 hw_queued;
847     /* Num PPDU reaped from HW */
848     A_INT32 hw_reaped;
849     /* Num underruns */
850     A_INT32 underrun;
851     /* HW Paused. */
852     A_UINT32 hw_paused;
853     /* Num PPDUs cleaned up in TX abort */
854     A_INT32 tx_abort;
855     /* Num MPDUs requed by SW */
856     A_INT32 mpdus_requed;
857     /* excessive retries */
858     A_UINT32 tx_ko;
859     A_UINT32 tx_xretry;
860     /* data hw rate code */
861     A_UINT32 data_rc;
862     /* Scheduler self triggers */
863     A_UINT32 self_triggers;
864     /* frames dropped due to excessive sw retries */
865     A_UINT32 sw_retry_failure;
866     /* illegal rate phy errors  */
867     A_UINT32 illgl_rate_phy_err;
868     /* wal pdev continuous xretry */
869     A_UINT32 pdev_cont_xretry;
870     /* wal pdev continuous xretry */
871     A_UINT32 pdev_tx_timeout;
872     /* wal pdev resets  */
873     A_UINT32 pdev_resets;
874     /* frames dropped due to non-availability of stateless TIDs */
875     A_UINT32 stateless_tid_alloc_failure;
876     /* PhY/BB underrun */
877     A_UINT32 phy_underrun;
878     /* MPDU is more than txop limit */
879     A_UINT32 txop_ovf;
880     /* Number of Sequences posted */
881     A_UINT32 seq_posted;
882     /* Number of Sequences failed queueing */
883     A_UINT32 seq_failed_queueing;
884     /* Number of Sequences completed */
885     A_UINT32 seq_completed;
886     /* Number of Sequences restarted */
887     A_UINT32 seq_restarted;
888     /* Number of MU Sequences posted */
889     A_UINT32 mu_seq_posted;
890     /* Num MPDUs flushed by SW, HWPAUSED, SW TXABORT (Reset,channel change) */
891     A_INT32 mpdus_sw_flush;
892     /* Num MPDUs filtered by HW, all filter condition (TTL expired) */
893     A_INT32 mpdus_hw_filter;
894     /* Num MPDUs truncated by PDG (TXOP, TBTT, PPDU_duration based on rate, dyn_bw) */
895     A_INT32 mpdus_truncated;
896     /* Num MPDUs that was tried but didn't receive ACK or BA */
897     A_INT32 mpdus_ack_failed;
898     /* Num MPDUs that was dropped du to expiry. */
899     A_INT32 mpdus_expired;
900 };
901 
902 #if defined(AR900B)
903 #define wlan_dbg_tx_stats wlan_dbg_tx_stats_v2
904 #else
905 #define wlan_dbg_tx_stats wlan_dbg_tx_stats_v1
906 #endif
907 
908 /*
909  * wlan_dbg_rx_stats_v1, _v2:
910  * differing versions of the wlan_dbg_rx_stats struct used by different
911  * targets
912  */
913 struct wlan_dbg_rx_stats_v1 {
914     /* Cnts any change in ring routing mid-ppdu */
915     A_INT32 mid_ppdu_route_change;
916     /* Total number of statuses processed */
917     A_INT32 status_rcvd;
918     /* Extra frags on rings 0-3 */
919     A_INT32 r0_frags;
920     A_INT32 r1_frags;
921     A_INT32 r2_frags;
922     A_INT32 r3_frags;
923     /* MSDUs / MPDUs delivered to HTT */
924     A_INT32 htt_msdus;
925     A_INT32 htt_mpdus;
926     /* MSDUs / MPDUs delivered to local stack */
927     A_INT32 loc_msdus;
928     A_INT32 loc_mpdus;
929     /* AMSDUs that have more MSDUs than the status ring size */
930     A_INT32 oversize_amsdu;
931     /* Number of PHY errors */
932     A_INT32 phy_errs;
933     /* Number of PHY errors drops */
934     A_INT32 phy_err_drop;
935     /* Number of mpdu errors - FCS, MIC, ENC etc. */
936     A_INT32 mpdu_errs;
937 };
938 
939 struct wlan_dbg_rx_stats_v2 {
940     /* Cnts any change in ring routing mid-ppdu */
941     A_INT32 mid_ppdu_route_change;
942     /* Total number of statuses processed */
943     A_INT32 status_rcvd;
944     /* Extra frags on rings 0-3 */
945     A_INT32 r0_frags;
946     A_INT32 r1_frags;
947     A_INT32 r2_frags;
948     A_INT32 r3_frags;
949     /* MSDUs / MPDUs delivered to HTT */
950     A_INT32 htt_msdus;
951     A_INT32 htt_mpdus;
952     /* MSDUs / MPDUs delivered to local stack */
953     A_INT32 loc_msdus;
954     A_INT32 loc_mpdus;
955     /* AMSDUs that have more MSDUs than the status ring size */
956     A_INT32 oversize_amsdu;
957     /* Number of PHY errors */
958     A_INT32 phy_errs;
959     /* Number of PHY errors drops */
960     A_INT32 phy_err_drop;
961     /* Number of mpdu errors - FCS, MIC, ENC etc. */
962     A_INT32 mpdu_errs;
963     /* Number of rx overflow errors. */
964     A_INT32 rx_ovfl_errs;
965 };
966 
967 #if defined(AR900B)
968 #define wlan_dbg_rx_stats wlan_dbg_rx_stats_v2
969 #else
970 #define wlan_dbg_rx_stats wlan_dbg_rx_stats_v1
971 #endif
972 
973 struct wlan_dbg_mem_stats {
974     A_UINT32 iram_free_size;
975     A_UINT32 dram_free_size;
976 };
977 
978 struct wlan_dbg_peer_stats {
979     A_INT32 dummy; /* REMOVE THIS ONCE REAL PEER STAT COUNTERS ARE ADDED */
980 };
981 
982 /*
983  * wlan_dbg_rx_rate_info_v1a_t, _v1b_t:
984  * differing versions of the wlan_dbg_rx_rate_info struct used by different
985  * targets
986  */
987 typedef struct {
988     A_UINT32 mcs[10];
989     A_UINT32 sgi[10];
990     A_UINT32 nss[4];
991     A_UINT32 nsts;
992     A_UINT32 stbc[10];
993     A_UINT32 bw[3];
994     A_UINT32 pream[6];
995     A_UINT32 ldpc;
996     A_UINT32 txbf;
997     A_UINT32 mgmt_rssi;
998     A_UINT32 data_rssi;
999     A_UINT32 rssi_chain0;
1000     A_UINT32 rssi_chain1;
1001     A_UINT32 rssi_chain2;
1002 } wlan_dbg_rx_rate_info_v1a_t;
1003 
1004 typedef struct {
1005     A_UINT32 mcs[10];
1006     A_UINT32 sgi[10];
1007     A_UINT32 nss[4];
1008     A_UINT32 nsts;
1009     A_UINT32 stbc[10];
1010     A_UINT32 bw[3];
1011     A_UINT32 pream[6];
1012     A_UINT32 ldpc;
1013     A_UINT32 txbf;
1014     A_UINT32 mgmt_rssi;
1015     A_UINT32 data_rssi;
1016     A_UINT32 rssi_chain0;
1017     A_UINT32 rssi_chain1;
1018     A_UINT32 rssi_chain2;
1019 /*
1020  * TEMPORARY: leave rssi_chain3 in place for AR900B builds until code using
1021  * rssi_chain3 has been converted to use wlan_dbg_rx_rate_info_v2_t.
1022  */
1023     A_UINT32 rssi_chain3;
1024 } wlan_dbg_rx_rate_info_v1b_t;
1025 
1026 #if defined(AR900B)
1027 #define wlan_dbg_rx_rate_info_t wlan_dbg_rx_rate_info_v1b_t
1028 #else
1029 #define wlan_dbg_rx_rate_info_t wlan_dbg_rx_rate_info_v1a_t
1030 #endif
1031 
1032 typedef struct {
1033     A_UINT32 mcs[10];
1034     A_UINT32 sgi[10];
1035 /*
1036  * TEMPORARY: leave nss conditionally defined, until all code that
1037  * requires nss[4] is converted to use wlan_dbg_tx_rate_info_v2_t.
1038  * At that time, this nss array will be made length = 3 unconditionally.
1039  */
1040 #if defined(CONFIG_AR900B_SUPPORT) || defined(AR900B)
1041     A_UINT32 nss[4];
1042 #else
1043     A_UINT32 nss[3];
1044 #endif
1045     A_UINT32 stbc[10];
1046     A_UINT32 bw[3];
1047     A_UINT32 pream[4];
1048     A_UINT32 ldpc;
1049     A_UINT32 rts_cnt;
1050     A_UINT32 ack_rssi;
1051 } wlan_dbg_tx_rate_info_t ;
1052 
1053 #define WLAN_MAX_MCS 10
1054 
1055 typedef struct {
1056     A_UINT32 mcs[WLAN_MAX_MCS];
1057     A_UINT32 sgi[WLAN_MAX_MCS];
1058     A_UINT32 nss[MAX_SPATIAL_STREAM_ANY_V2];
1059     A_UINT32 nsts;
1060     A_UINT32 stbc[WLAN_MAX_MCS];
1061     A_UINT32 bw[NUM_DYN_BW_MAX];
1062     A_UINT32 pream[6];
1063     A_UINT32 ldpc;
1064     A_UINT32 txbf;
1065     A_UINT32 mgmt_rssi;
1066     A_UINT32 data_rssi;
1067     A_UINT32 rssi_chain0;
1068     A_UINT32 rssi_chain1;
1069     A_UINT32 rssi_chain2;
1070     A_UINT32 rssi_chain3;
1071     A_UINT32 reserved[8];
1072 } wlan_dbg_rx_rate_info_v2_t;
1073 
1074 typedef struct {
1075     A_UINT32 mcs[WLAN_MAX_MCS];
1076     A_UINT32 sgi[WLAN_MAX_MCS];
1077     A_UINT32 nss[MAX_SPATIAL_STREAM_ANY_V2];
1078     A_UINT32 stbc[WLAN_MAX_MCS];
1079     A_UINT32 bw[NUM_DYN_BW_MAX];
1080     A_UINT32 pream[4];
1081     A_UINT32 ldpc;
1082     A_UINT32 rts_cnt;
1083     A_UINT32 ack_rssi;
1084     A_UINT32 reserved[8];
1085 } wlan_dbg_tx_rate_info_v2_t;
1086 
1087 typedef struct {
1088     A_UINT32 mcs[WLAN_MAX_MCS];
1089     A_UINT32 sgi[WLAN_MAX_MCS];
1090     A_UINT32 nss[MAX_SPATIAL_STREAM_ANY_V3];
1091     A_UINT32 nsts;
1092     A_UINT32 stbc[WLAN_MAX_MCS];
1093     A_UINT32 bw[NUM_DYN_BW_MAX];
1094     A_UINT32 pream[6];
1095     A_UINT32 ldpc;
1096     A_UINT32 txbf;
1097     A_UINT32 mgmt_rssi;
1098     A_UINT32 data_rssi;
1099     A_UINT32 rssi_chain0;
1100     A_UINT32 rssi_chain1;
1101     A_UINT32 rssi_chain2;
1102     A_UINT32 rssi_chain3;
1103     A_UINT32 reserved[8];
1104 } wlan_dbg_rx_rate_info_v3_t;
1105 
1106 typedef struct {
1107     A_UINT32 mcs[WLAN_MAX_MCS];
1108     A_UINT32 sgi[WLAN_MAX_MCS];
1109     A_UINT32 nss[MAX_SPATIAL_STREAM_ANY_V3];
1110     A_UINT32 stbc[WLAN_MAX_MCS];
1111     A_UINT32 bw[NUM_DYN_BW_MAX];
1112     A_UINT32 pream[4];
1113     A_UINT32 ldpc;
1114     A_UINT32 rts_cnt;
1115     A_UINT32 ack_rssi;
1116     A_UINT32 reserved[8];
1117 } wlan_dbg_tx_rate_info_v3_t;
1118 
1119 #define WHAL_DBG_PHY_ERR_MAXCNT 18
1120 #define WHAL_DBG_SIFS_STATUS_MAXCNT 8
1121 #define WHAL_DBG_SIFS_ERR_MAXCNT 8
1122 #define WHAL_DBG_CMD_RESULT_MAXCNT 11
1123 #define WHAL_DBG_CMD_STALL_ERR_MAXCNT 4
1124 #define WHAL_DBG_FLUSH_REASON_MAXCNT 40
1125 
1126 typedef enum {
1127     WIFI_URRN_STATS_FIRST_PKT,
1128     WIFI_URRN_STATS_BETWEEN_MPDU,
1129     WIFI_URRN_STATS_WITHIN_MPDU,
1130     WHAL_MAX_URRN_STATS
1131 } wifi_urrn_type_t;
1132 
1133 typedef struct wlan_dbg_txbf_snd_stats {
1134     A_UINT32 cbf_20[4];
1135     A_UINT32 cbf_40[4];
1136     A_UINT32 cbf_80[4];
1137     A_UINT32 sounding[9];
1138     A_UINT32 cbf_160[4];
1139 } wlan_dbg_txbf_snd_stats_t;
1140 
1141 typedef struct wlan_dbg_wifi2_error_stats {
1142     A_UINT32 urrn_stats[WHAL_MAX_URRN_STATS];
1143     A_UINT32 flush_errs[WHAL_DBG_FLUSH_REASON_MAXCNT];
1144     A_UINT32 schd_stall_errs[WHAL_DBG_CMD_STALL_ERR_MAXCNT];
1145     A_UINT32 schd_cmd_result[WHAL_DBG_CMD_RESULT_MAXCNT];
1146     A_UINT32 sifs_status[WHAL_DBG_SIFS_STATUS_MAXCNT];
1147     A_UINT8  phy_errs[WHAL_DBG_PHY_ERR_MAXCNT];
1148     A_UINT32 rx_rate_inval;
1149 } wlan_dbg_wifi2_error_stats_t;
1150 
1151 typedef struct wlan_dbg_wifi2_error2_stats {
1152     A_UINT32 schd_errs[WHAL_DBG_CMD_STALL_ERR_MAXCNT];
1153     A_UINT32 sifs_errs[WHAL_DBG_SIFS_ERR_MAXCNT];
1154 } wlan_dbg_wifi2_error2_stats_t;
1155 
1156 #define WLAN_DBG_STATS_SIZE_TXBF_VHT 10
1157 #define WLAN_DBG_STATS_SIZE_TXBF_HT 8
1158 #define WLAN_DBG_STATS_SIZE_TXBF_OFDM 8
1159 #define WLAN_DBG_STATS_SIZE_TXBF_CCK 7
1160 
1161 typedef struct wlan_dbg_txbf_data_stats {
1162     A_UINT32 tx_txbf_vht[WLAN_DBG_STATS_SIZE_TXBF_VHT];
1163     A_UINT32 rx_txbf_vht[WLAN_DBG_STATS_SIZE_TXBF_VHT];
1164     A_UINT32 tx_txbf_ht[WLAN_DBG_STATS_SIZE_TXBF_HT];
1165     A_UINT32 tx_txbf_ofdm[WLAN_DBG_STATS_SIZE_TXBF_OFDM];
1166     A_UINT32 tx_txbf_cck[WLAN_DBG_STATS_SIZE_TXBF_CCK];
1167 } wlan_dbg_txbf_data_stats_t;
1168 
1169 struct wlan_dbg_tx_mu_stats {
1170     A_UINT32 mu_sch_nusers_2;
1171     A_UINT32 mu_sch_nusers_3;
1172     A_UINT32 mu_mpdus_queued_usr[4];
1173     A_UINT32 mu_mpdus_tried_usr[4];
1174     A_UINT32 mu_mpdus_failed_usr[4];
1175     A_UINT32 mu_mpdus_requeued_usr[4];
1176     A_UINT32 mu_err_no_ba_usr[4];
1177     A_UINT32 mu_mpdu_underrun_usr[4];
1178     A_UINT32 mu_ampdu_underrun_usr[4];
1179 };
1180 
1181 struct wlan_dbg_tx_selfgen_stats {
1182     A_UINT32 su_ndpa;
1183     A_UINT32 su_ndp;
1184     A_UINT32 mu_ndpa;
1185     A_UINT32 mu_ndp;
1186     A_UINT32 mu_brpoll_1;
1187     A_UINT32 mu_brpoll_2;
1188     A_UINT32 mu_bar_1;
1189     A_UINT32 mu_bar_2;
1190     A_UINT32 cts_burst;
1191     A_UINT32 su_ndp_err;
1192     A_UINT32 su_ndpa_err;
1193     A_UINT32 mu_ndp_err;
1194     A_UINT32 mu_brp1_err;
1195     A_UINT32 mu_brp2_err;
1196 };
1197 
1198 typedef struct wlan_dbg_sifs_resp_stats {
1199     A_UINT32 ps_poll_trigger;       /* num ps-poll trigger frames */
1200     A_UINT32 uapsd_trigger;         /* num uapsd trigger frames */
1201     A_UINT32 qb_data_trigger[2];    /* num data trigger frames; idx 0: explicit and idx 1: implicit */
1202     A_UINT32 qb_bar_trigger[2];     /* num bar trigger frames;  idx 0: explicit and idx 1: implicit */
1203     A_UINT32 sifs_resp_data;        /* num ppdus transmitted at SIFS interval */
1204     A_UINT32 sifs_resp_err;         /* num ppdus failed to meet SIFS resp timing */
1205 } wlan_dgb_sifs_resp_stats_t;
1206 
1207 
1208 
1209 /** wlan_dbg_wifi2_error_stats_t is not grouped with the
1210  *  following structure as it is allocated differently and only
1211  *  belongs to whal
1212  */
1213 typedef struct wlan_dbg_stats_wifi2 {
1214     wlan_dbg_txbf_snd_stats_t txbf_snd_info;
1215     wlan_dbg_txbf_data_stats_t txbf_data_info;
1216     struct wlan_dbg_tx_selfgen_stats tx_selfgen;
1217     struct wlan_dbg_tx_mu_stats tx_mu;
1218     wlan_dgb_sifs_resp_stats_t sifs_resp_info;
1219 } wlan_dbg_wifi2_stats_t;
1220 
1221 /*
1222  * wlan_dbg_rx_rate_info_v1a, _v1b:
1223  * differing versions of the wlan_dbg_rx_rate_info struct used by different
1224  * targets
1225  */
1226 typedef struct {
1227     wlan_dbg_rx_rate_info_v1a_t rx_phy_info;
1228     wlan_dbg_tx_rate_info_t tx_rate_info;
1229 } wlan_dbg_rate_info_v1a_t;
1230 
1231 typedef struct {
1232     wlan_dbg_rx_rate_info_v1b_t rx_phy_info;
1233     wlan_dbg_tx_rate_info_t tx_rate_info;
1234 } wlan_dbg_rate_info_v1b_t;
1235 
1236 #if defined(AR900B)
1237 #define wlan_dbg_rate_info_t wlan_dbg_rate_info_v1b_t
1238 #else
1239 #define wlan_dbg_rate_info_t wlan_dbg_rate_info_v1a_t
1240 #endif
1241 
1242 typedef struct {
1243     wlan_dbg_rx_rate_info_v2_t rx_phy_info;
1244     wlan_dbg_tx_rate_info_v2_t tx_rate_info;
1245 } wlan_dbg_rate_info_v2_t;
1246 
1247 /*
1248  * wlan_dbg_stats_v1, _v2:
1249  * differing versions of the wlan_dbg_stats struct used by different
1250  * targets
1251  */
1252 struct wlan_dbg_stats_v1 {
1253     struct wlan_dbg_tx_stats_v1 tx;
1254     struct wlan_dbg_rx_stats_v1 rx;
1255     struct wlan_dbg_peer_stats peer;
1256 };
1257 
1258 struct wlan_dbg_stats_v2 {
1259     struct wlan_dbg_tx_stats_v2 tx;
1260     struct wlan_dbg_rx_stats_v2 rx;
1261     struct wlan_dbg_mem_stats mem;
1262     struct wlan_dbg_peer_stats peer;
1263 };
1264 
1265 #if defined(AR900B)
1266 #define wlan_dbg_stats wlan_dbg_stats_v2
1267 #else
1268 #define wlan_dbg_stats wlan_dbg_stats_v1
1269 #endif
1270 
1271 #define DBG_STATS_MAX_HWQ_NUM 10
1272 #define DBG_STATS_MAX_TID_NUM 20
1273 #define DBG_STATS_MAX_CONG_NUM 16
1274 struct wlan_dbg_txq_stats {
1275     A_UINT16 num_pkts_queued[DBG_STATS_MAX_HWQ_NUM];
1276     A_UINT16 tid_hw_qdepth[DBG_STATS_MAX_TID_NUM]; /* WAL_MAX_TID is 20 */
1277     A_UINT16 tid_sw_qdepth[DBG_STATS_MAX_TID_NUM]; /* WAL_MAX_TID is 20 */
1278 };
1279 
1280 struct wlan_dbg_tidq_stats {
1281     A_UINT32 wlan_dbg_tid_txq_status;
1282     struct wlan_dbg_txq_stats txq_st;
1283 };
1284 
1285 typedef enum {
1286     WLAN_DBG_DATA_STALL_NONE                   = 0,
1287     WLAN_DBG_DATA_STALL_VDEV_PAUSE             = 1,
1288     WLAN_DBG_DATA_STALL_HWSCHED_CMD_FILTER     = 2,
1289     WLAN_DBG_DATA_STALL_HWSCHED_CMD_FLUSH      = 3,
1290     WLAN_DBG_DATA_STALL_RX_REFILL_FAILED       = 4,
1291     WLAN_DBG_DATA_STALL_RX_FCS_LEN_ERROR       = 5,
1292     WLAN_DBG_DATA_STALL_MAC_WDOG_ERRORS        = 6, /* Mac watch dog */
1293     WLAN_DBG_DATA_STALL_PHY_BB_WDOG_ERROR      = 7, /* PHY watch dog */
1294     WLAN_DBG_DATA_STALL_POST_TIM_NO_TXRX_ERROR = 8,
1295     WLAN_DBG_DATA_STALL_CONSECUTIVE_NON_FLUSH  = 9,
1296     WLAN_DBG_DATA_STALL_CONSECUTIVE_NOACK      = 10,
1297     WLAN_DBG_DATA_STALL_CONSECUTIVE_LT_EXPIRY  = 11,
1298     WLAN_DBG_DATA_STALL_MAX,
1299 } wlan_dbg_data_stall_type_e;
1300 
1301 typedef enum {
1302     WLAN_DBG_DATA_STALL_RECOVERY_NONE = 0,
1303     WLAN_DBG_DATA_STALL_RECOVERY_CONNECT_DISCONNECT,
1304     WLAN_DBG_DATA_STALL_RECOVERY_CONNECT_MAC_PHY_RESET,
1305     WLAN_DBG_DATA_STALL_RECOVERY_CONNECT_PDR,
1306     WLAN_DBG_DATA_STALL_RECOVERY_CONNECT_SSR,
1307 } wlan_dbg_data_stall_recovery_type_e;
1308 
1309 /*
1310  * NOTE: If necessary, restore the explicit disabling of CONFIG_160MHZ_SUPPORT
1311  * See the corresponding comment + pre-processor block at the top of the file.
1312  */
1313 #ifdef CONFIG_160MHZ_SUPPORT_UNDEF_WAR
1314     #define CONFIG_160MHZ_SUPPORT 0
1315     #undef CONFIG_160MHZ_SUPPORT_UNDEF_WAR
1316 #endif
1317 
1318 /** MGMT RX REO Changes */
1319 /* Macros for having versioning info for compatibility check between host and firmware */
1320 #define MLO_SHMEM_MAJOR_VERSION 2
1321 #define MLO_SHMEM_MINOR_VERSION 1
1322 
1323 /** Helper Macros for tlv header of the given tlv buffer */
1324 /* Size of the TLV Header which is the Tag and Length fields */
1325 #define MLO_SHMEM_TLV_HDR_SIZE (1 * sizeof(A_UINT32))
1326 
1327 /* TLV Helper macro to get the TLV Header given the pointer to the TLV buffer. */
1328 #define MLO_SHMEMTLV_GET_HDR(tlv_buf) (((A_UINT32 *) (tlv_buf))[0])
1329 
1330 /* TLV Helper macro to set the TLV Header given the pointer to the TLV buffer. */
1331 #define MLO_SHMEMTLV_SET_HDR(tlv_buf, tag, len) \
1332     (((A_UINT32 *)(tlv_buf))[0]) = ((tag << 16) | (len & 0x0000FFFF))
1333 
1334 /* TLV Helper macro to get the TLV Tag given the TLV header. */
1335 #define MLO_SHMEMTLV_GET_TLVTAG(tlv_header)  ((A_UINT32)((tlv_header) >> 16))
1336 
1337 /*
1338  * TLV Helper macro to get the TLV Buffer Length (minus TLV header size)
1339  * given the TLV header.
1340  */
1341 #define MLO_SHMEMTLV_GET_TLVLEN(tlv_header) \
1342     ((A_UINT32)((tlv_header) & 0x0000FFFF))
1343 
1344 /*
1345  * TLV Helper macro to get the TLV length from TLV structure size
1346  * by removing TLV header size.
1347  */
1348 #define MLO_SHMEMTLV_GET_STRUCT_TLVLEN(tlv_struct) \
1349     ((A_UINT32)(sizeof(tlv_struct)-MLO_SHMEM_TLV_HDR_SIZE))
1350 
1351 /**
1352  * Helper Macros for getting and setting the required number of bits
1353  * from the TLV params.
1354  */
1355 #define MLO_SHMEM_GET_BITS(_val,_index,_num_bits) \
1356     (((_val) >> (_index)) & ((1 << (_num_bits)) - 1))
1357 
1358 #define MLO_SHMEM_SET_BITS(_var,_index,_num_bits,_val) \
1359     do { \
1360         (_var) &= ~(((1 << (_num_bits)) - 1) << (_index)); \
1361         (_var) |= (((_val) & ((1 << (_num_bits)) - 1)) << (_index)); \
1362     } while (0)
1363 
1364 /**
1365  * Enum which defines different versions of management Rx reorder snapshots.
1366  */
1367 typedef enum {
1368     /**
1369      * DWORD Lower:
1370      * [15:0]  : Management packet counter
1371      * [30:16] : Redundant global time stamp = Global time stamp[14:0]
1372      * [31]    : Valid
1373      *
1374      * DWORD Upper:
1375      * [31:0]  : Global time stamp
1376      *
1377      */
1378     MGMT_RX_REO_SNAPSHOT_VERSION_TIMESTAMP_REDUNDANCY = 0,
1379 
1380     /**
1381      * DWORD Lower:
1382      * [14:0]  : Global time stamp[14:0]
1383      * [30:15] : Management packet counter
1384      * [31]    : Valid
1385      *
1386      * DWORD Upper:
1387      * [14:0]  : Redundant management packet counter = Management packet
1388      *           counter[14:0]
1389      * [31:15] : Global time stamp[31:15]
1390      */
1391     MGMT_RX_REO_SNAPSHOT_VERSION_PKT_CTR_REDUNDANCY = 1,
1392 } MGMT_RX_REO_SNAPSHOT_VERSION;
1393 
1394 /** Definition of the GLB_H_SHMEM arena tlv structures */
1395 
1396 typedef enum {
1397     MLO_SHMEM_TLV_STRUCT_MGMT_RX_REO_SNAPSHOT,
1398     MLO_SHMEM_TLV_STRUCT_MLO_GLB_RX_REO_PER_LINK_SNAPSHOT_INFO,
1399     MLO_SHMEM_TLV_STRUCT_MLO_GLB_RX_REO_SNAPSHOT_INFO,
1400     MLO_SHMEM_TLV_STRUCT_MLO_GLB_LINK,
1401     MLO_SHMEM_TLV_STRUCT_MLO_GLB_LINK_INFO,
1402     MLO_SHMEM_TLV_STRUCT_MLO_GLB_H_SHMEM,
1403     MLO_SHMEM_TLV_STRUCT_MLO_GLB_CHIP_CRASH_INFO,
1404     MLO_SHMEM_TLV_STRUCT_MLO_GLB_PER_CHIP_CRASH_INFO,
1405 } MLO_SHMEM_TLV_TAG_ID;
1406 
1407 /** Helper macro for params GET/SET of mgmt_rx_reo_snapshot */
1408 #define MLO_SHMEM_MGMT_RX_REO_SNAPSHOT_PARAM_VALID_GET(mgmt_rx_reo_snapshot_low) MLO_SHMEM_GET_BITS(mgmt_rx_reo_snapshot_low, 0, 1)
1409 #define MLO_SHMEM_MGMT_RX_REO_SNAPSHOT_PARAM_VALID_SET(mgmt_rx_reo_snapshot_low, value) MLO_SHMEM_SET_BITS(mgmt_rx_reo_snapshot_low, 0, 1, value)
1410 
1411 #define MLO_SHMEM_MGMT_RX_REO_SNAPSHOT_PARAM_MGMT_PKT_CTR_GET(mgmt_rx_reo_snapshot_low) MLO_SHMEM_GET_BITS(mgmt_rx_reo_snapshot_low, 1, 16)
1412 #define MLO_SHMEM_MGMT_RX_REO_SNAPSHOT_PARAM_MGMT_PKT_CTR_SET(mgmt_rx_reo_snapshot_low, value) MLO_SHMEM_SET_BITS(mgmt_rx_reo_snapshot_low, 1, 16, value)
1413 
1414 #define MLO_SHMEM_MGMT_RX_REO_SNAPSHOT_PARAM_GLOBAL_TIMESTAMP_GET(mgmt_rx_reo_snapshot) \
1415     (MLO_SHMEM_GET_BITS(mgmt_rx_reo_snapshot->mgmt_rx_reo_snapshot_high, 0, 17) << 15) | \
1416      MLO_SHMEM_GET_BITS(mgmt_rx_reo_snapshot->mgmt_rx_reo_snapshot_low, 17, 15)
1417 
1418 #define MLO_SHMEM_MGMT_RX_REO_SNAPSHOT_PARAM_GLOBAL_TIMESTAMP_SET(mgmt_rx_reo_snapshot, value) \
1419     do { \
1420         MLO_SHMEM_SET_BITS(mgmt_rx_reo_snapshot->mgmt_rx_reo_snapshot_high, 0, 17, ((value) >> 15)); \
1421         MLO_SHMEM_SET_BITS(mgmt_rx_reo_snapshot->mgmt_rx_reo_snapshot_low, 17, 15, ((value) & 0x7fff)); \
1422     } while (0)
1423 
1424 #define MLO_SHMEM_MGMT_RX_REO_SNAPSHOT_PARAM_MGMT_PKT_CTR_REDUNDANT_GET(mgmt_rx_reo_snapshot_high) MLO_SHMEM_GET_BITS(mgmt_rx_reo_snapshot_high, 17, 15)
1425 #define MLO_SHMEM_MGMT_RX_REO_SNAPSHOT_PARAM_MGMT_PKT_CTR_REDUNDANT_SET(mgmt_rx_reo_snapshot_high, value) MLO_SHMEM_SET_BITS(mgmt_rx_reo_snapshot_high, 17, 15, value)
1426 
1427 #define MLO_SHMEM_MGMT_RX_REO_SNAPSHOT_IS_CONSISTENT(mgmt_pkt_ctr, mgmt_pkt_ctr_redundant) \
1428     (MLO_SHMEM_GET_BITS(mgmt_pkt_ctr, 0, 15) == MLO_SHMEM_GET_BITS(mgmt_pkt_ctr_redundant, 0, 15))
1429 
1430 #define MLO_SHMEM_MGMT_RX_REO_SNAPSHOT_PARAM_GLOBAL_TIMESTAMP_GET_FROM_DWORDS(mgmt_rx_reo_snapshot_low,mgmt_rx_reo_snapshot_high) \
1431     (MLO_SHMEM_GET_BITS((mgmt_rx_reo_snapshot_high), 0, 17) << 15) | \
1432      MLO_SHMEM_GET_BITS((mgmt_rx_reo_snapshot_low), 17, 15)
1433 
1434 #define MLO_SHMEM_MGMT_RX_REO_SNAPSHOT_GET_ADRESS(mgmt_rx_reo_snapshot) \
1435     (&mgmt_rx_reo_snapshot->mgmt_rx_reo_snapshot_low)
1436 
1437 /**
1438  * Helper macros/functions for params GET/SET of different hw version
1439  * of the mgmt_rx_reo_snapshot
1440  */
1441 
1442 static INLINE A_UINT8
MLO_SHMEM_MGMT_RX_REO_SNAPSHOT_VALID_GET(A_UINT32 mgmt_rx_reo_snapshot_low,A_UINT8 snapshot_ver)1443 MLO_SHMEM_MGMT_RX_REO_SNAPSHOT_VALID_GET(
1444     A_UINT32 mgmt_rx_reo_snapshot_low, A_UINT8 snapshot_ver)
1445 {
1446     if ((snapshot_ver != MGMT_RX_REO_SNAPSHOT_VERSION_TIMESTAMP_REDUNDANCY) &&
1447         (snapshot_ver != MGMT_RX_REO_SNAPSHOT_VERSION_PKT_CTR_REDUNDANCY))
1448     {
1449         A_ASSERT(0);
1450     }
1451 
1452     return MLO_SHMEM_GET_BITS(mgmt_rx_reo_snapshot_low, 31, 1);
1453 }
1454 
1455 static INLINE void
MLO_SHMEM_MGMT_RX_REO_SNAPSHOT_VALID_SET(A_UINT32 * mgmt_rx_reo_snapshot_low,A_UINT8 value,A_UINT8 snapshot_ver)1456 MLO_SHMEM_MGMT_RX_REO_SNAPSHOT_VALID_SET(
1457     A_UINT32 *mgmt_rx_reo_snapshot_low, A_UINT8 value, A_UINT8 snapshot_ver)
1458 {
1459     if ((snapshot_ver != MGMT_RX_REO_SNAPSHOT_VERSION_TIMESTAMP_REDUNDANCY) &&
1460         (snapshot_ver != MGMT_RX_REO_SNAPSHOT_VERSION_PKT_CTR_REDUNDANCY)) {
1461         A_ASSERT(0);
1462     }
1463 
1464     MLO_SHMEM_SET_BITS(*mgmt_rx_reo_snapshot_low, 31, 1, value);
1465 }
1466 
1467 static INLINE A_UINT16
MLO_SHMEM_MGMT_RX_REO_SNAPSHOT_MGMT_PKT_CTR_GET(A_UINT32 mgmt_rx_reo_snapshot_low,A_UINT8 snapshot_ver)1468 MLO_SHMEM_MGMT_RX_REO_SNAPSHOT_MGMT_PKT_CTR_GET(
1469     A_UINT32 mgmt_rx_reo_snapshot_low, A_UINT8 snapshot_ver)
1470 {
1471     if (snapshot_ver == MGMT_RX_REO_SNAPSHOT_VERSION_TIMESTAMP_REDUNDANCY) {
1472         return MLO_SHMEM_GET_BITS(mgmt_rx_reo_snapshot_low, 0, 16);
1473     } else if (snapshot_ver == MGMT_RX_REO_SNAPSHOT_VERSION_PKT_CTR_REDUNDANCY){
1474         return MLO_SHMEM_GET_BITS(mgmt_rx_reo_snapshot_low, 15, 16);
1475     } else {
1476         A_ASSERT(0);
1477         return 0;
1478     }
1479 }
1480 
1481 static INLINE void
MLO_SHMEM_MGMT_RX_REO_SNAPSHOT_MGMT_PKT_CTR_SET(A_UINT32 * mgmt_rx_reo_snapshot_low,A_UINT16 value,A_UINT8 snapshot_ver)1482 MLO_SHMEM_MGMT_RX_REO_SNAPSHOT_MGMT_PKT_CTR_SET(
1483     A_UINT32 *mgmt_rx_reo_snapshot_low, A_UINT16 value, A_UINT8 snapshot_ver)
1484 {
1485     if (snapshot_ver == MGMT_RX_REO_SNAPSHOT_VERSION_TIMESTAMP_REDUNDANCY) {
1486         MLO_SHMEM_SET_BITS(*mgmt_rx_reo_snapshot_low, 0, 16, value);
1487     } else if (snapshot_ver == MGMT_RX_REO_SNAPSHOT_VERSION_PKT_CTR_REDUNDANCY){
1488         MLO_SHMEM_SET_BITS(*mgmt_rx_reo_snapshot_low, 15, 16, value);
1489     } else {
1490         A_ASSERT(0);
1491     }
1492 }
1493 
1494 #define MLO_SHMEM_MGMT_RX_REO_SNAPSHOT_MGMT_PKT_CTR_REDUNDANT_GET( \
1495     mgmt_rx_reo_snapshot_high) \
1496     MLO_SHMEM_GET_BITS(mgmt_rx_reo_snapshot_high, 0, 15)
1497 #define MLO_SHMEM_MGMT_RX_REO_SNAPSHOT_MGMT_PKT_CTR_REDUNDANT_SET( \
1498     mgmt_rx_reo_snapshot_high, value) \
1499     MLO_SHMEM_SET_BITS(mgmt_rx_reo_snapshot_high, 0, 15, value)
1500 
1501 #define MLO_SHMEM_MGMT_RX_REO_SNAPSHOT_GLOBAL_TIMESTAMP_REDUNDANT_GET( \
1502     mgmt_rx_reo_snapshot_low) \
1503     MLO_SHMEM_GET_BITS(mgmt_rx_reo_snapshot_low, 16, 15)
1504 #define MLO_SHMEM_MGMT_RX_REO_SNAPSHOT_GLOBAL_TIMESTAMP_REDUNDANT_SET( \
1505     mgmt_rx_reo_snapshot_low, value) \
1506     MLO_SHMEM_SET_BITS(mgmt_rx_reo_snapshot_low, 16, 15, value)
1507 
1508 static INLINE A_UINT32
MLO_SHMEM_MGMT_RX_REO_SNAPSHOT_GLOBAL_TIMESTAMP_GET(A_UINT32 mgmt_rx_reo_snapshot_low,A_UINT32 mgmt_rx_reo_snapshot_high,A_UINT8 snapshot_ver)1509 MLO_SHMEM_MGMT_RX_REO_SNAPSHOT_GLOBAL_TIMESTAMP_GET(
1510     A_UINT32 mgmt_rx_reo_snapshot_low,
1511     A_UINT32 mgmt_rx_reo_snapshot_high,
1512     A_UINT8 snapshot_ver)
1513 {
1514     if (snapshot_ver == MGMT_RX_REO_SNAPSHOT_VERSION_TIMESTAMP_REDUNDANCY) {
1515         return mgmt_rx_reo_snapshot_high;
1516     } else if (snapshot_ver == MGMT_RX_REO_SNAPSHOT_VERSION_PKT_CTR_REDUNDANCY){
1517         return
1518             ((MLO_SHMEM_GET_BITS(mgmt_rx_reo_snapshot_high, 15, 17) << 15) |
1519              MLO_SHMEM_GET_BITS(mgmt_rx_reo_snapshot_low, 0, 15));
1520     } else {
1521         A_ASSERT(0);
1522         return 0;
1523     }
1524 }
1525 
1526 static INLINE void
MLO_SHMEM_MGMT_RX_REO_SNAPSHOT_GLOBAL_TIMESTAMP_SET(A_UINT32 * mgmt_rx_reo_snapshot_low,A_UINT32 * mgmt_rx_reo_snapshot_high,A_UINT32 value,A_UINT8 snapshot_ver)1527 MLO_SHMEM_MGMT_RX_REO_SNAPSHOT_GLOBAL_TIMESTAMP_SET(
1528     A_UINT32 *mgmt_rx_reo_snapshot_low,
1529     A_UINT32 *mgmt_rx_reo_snapshot_high,
1530     A_UINT32 value,
1531     A_UINT8 snapshot_ver)
1532 {
1533     if (snapshot_ver == MGMT_RX_REO_SNAPSHOT_VERSION_TIMESTAMP_REDUNDANCY) {
1534         *mgmt_rx_reo_snapshot_high = value;
1535     } else if (snapshot_ver == MGMT_RX_REO_SNAPSHOT_VERSION_PKT_CTR_REDUNDANCY){
1536         MLO_SHMEM_SET_BITS(
1537             *mgmt_rx_reo_snapshot_high, 15, 17, ((value) >> 15));
1538         MLO_SHMEM_SET_BITS(
1539             *mgmt_rx_reo_snapshot_low, 0, 15, ((value) & 0x7fff));
1540     } else {
1541         A_ASSERT(0);
1542     }
1543 }
1544 
1545 static INLINE A_BOOL
MLO_SHMEM_MGMT_RX_REO_SNAPSHOT_CHECK_CONSISTENCY(A_UINT32 mgmt_rx_reo_snapshot_low,A_UINT32 mgmt_rx_reo_snapshot_high,A_UINT8 snapshot_ver)1546 MLO_SHMEM_MGMT_RX_REO_SNAPSHOT_CHECK_CONSISTENCY(
1547     A_UINT32 mgmt_rx_reo_snapshot_low,
1548     A_UINT32 mgmt_rx_reo_snapshot_high,
1549     A_UINT8 snapshot_ver)
1550 {
1551     if (snapshot_ver == MGMT_RX_REO_SNAPSHOT_VERSION_TIMESTAMP_REDUNDANCY) {
1552         A_UINT32 global_timestamp;
1553         A_UINT32 global_timestamp_redundant;
1554 
1555         global_timestamp = MLO_SHMEM_MGMT_RX_REO_SNAPSHOT_GLOBAL_TIMESTAMP_GET(
1556             mgmt_rx_reo_snapshot_low, mgmt_rx_reo_snapshot_high, snapshot_ver);
1557         global_timestamp_redundant =
1558             MLO_SHMEM_MGMT_RX_REO_SNAPSHOT_GLOBAL_TIMESTAMP_REDUNDANT_GET(
1559                 mgmt_rx_reo_snapshot_low);
1560 
1561         return
1562             (MLO_SHMEM_GET_BITS(global_timestamp, 0, 15) ==
1563              MLO_SHMEM_GET_BITS(global_timestamp_redundant, 0, 15));
1564     } else if (snapshot_ver == MGMT_RX_REO_SNAPSHOT_VERSION_PKT_CTR_REDUNDANCY){
1565         A_UINT16 mgmt_pkt_ctr;
1566         A_UINT16 mgmt_pkt_ctr_redundant;
1567 
1568         mgmt_pkt_ctr = MLO_SHMEM_MGMT_RX_REO_SNAPSHOT_MGMT_PKT_CTR_GET(
1569             mgmt_rx_reo_snapshot_low, snapshot_ver);
1570         mgmt_pkt_ctr_redundant =
1571             MLO_SHMEM_MGMT_RX_REO_SNAPSHOT_MGMT_PKT_CTR_REDUNDANT_GET(
1572                 mgmt_rx_reo_snapshot_high);
1573 
1574         return
1575             (MLO_SHMEM_GET_BITS(mgmt_pkt_ctr, 0, 15) ==
1576              MLO_SHMEM_GET_BITS(mgmt_pkt_ctr_redundant, 0, 15));
1577     } else {
1578         A_ASSERT(0);
1579         return 0;
1580     }
1581 }
1582 
1583 /* REO snapshot structure */
1584 typedef struct {
1585     /* TLV tag and len; tag equals MLO_SHMEM_TLV_STRUCT_MGMT_RX_REO_SNAPSHOT */
1586     A_UINT32 tlv_header;
1587     A_UINT32 reserved_alignment_padding;
1588     /**
1589      * mgmt_rx_reo_snapshot_low
1590      *
1591      * [0]:     valid
1592      * [16:1]:  mgmt_pkt_ctr
1593      * [31:17]: global_timestamp_low
1594      */
1595     A_UINT32 mgmt_rx_reo_snapshot_low;
1596 
1597     /**
1598      * mgmt_rx_reo_snapshot_high
1599      *
1600      * [16:0]:  global_timestamp_high
1601      * [31:17]: mgmt_pkt_ctr_redundant
1602      */
1603     A_UINT32 mgmt_rx_reo_snapshot_high;
1604 
1605 } mgmt_rx_reo_snapshot;
1606 
1607 A_COMPILE_TIME_ASSERT(check_mgmt_rx_reo_snapshot_8byte_size_quantum,
1608         (((sizeof(mgmt_rx_reo_snapshot) % sizeof(A_UINT64) == 0x0))));
1609 
1610 A_COMPILE_TIME_ASSERT(verify_mgmt_rx_reo_snapshot_low_offset,
1611     (A_OFFSETOF(mgmt_rx_reo_snapshot, mgmt_rx_reo_snapshot_low) % sizeof(A_UINT64) == 0));
1612 
1613 typedef struct {
1614     /* TLV tag and len; tag equals MLO_SHMEM_TLV_STRUCT_MLO_GLB_RX_REO_PER_LINK_SNAPSHOT_INFO */
1615     A_UINT32 tlv_header;
1616     A_UINT32 reserved_alignment_padding;
1617     mgmt_rx_reo_snapshot fw_consumed;
1618     mgmt_rx_reo_snapshot fw_forwarded;
1619     mgmt_rx_reo_snapshot hw_forwarded;
1620 } mlo_glb_rx_reo_per_link_snapshot_info;
1621 
1622 A_COMPILE_TIME_ASSERT(check_mlo_glb_rx_reo_per_link_snapshot_info_8byte_size_quantum,
1623         (((sizeof(mlo_glb_rx_reo_per_link_snapshot_info) % sizeof(A_UINT64) == 0x0))));
1624 
1625 A_COMPILE_TIME_ASSERT(verify_mlo_glb_rx_reo_per_link_snapshot_fw_consumed_offset,
1626     (A_OFFSETOF(mlo_glb_rx_reo_per_link_snapshot_info, fw_consumed) % sizeof(A_UINT64) == 0));
1627 
1628 /** Helper macro for params GET/SET of mlo_glb_rx_reo_snapshot_info */
1629 #define MLO_SHMEM_GLB_RX_REO_SNAPSHOT_PARAM_NO_OF_LINKS_GET(link_info) MLO_SHMEM_GET_BITS(link_info, 0, 4)
1630 #define MLO_SHMEM_GLB_RX_REO_SNAPSHOT_PARAM_NO_OF_LINKS_SET(link_info, value) MLO_SHMEM_SET_BITS(link_info, 0, 4, value)
1631 
1632 #define MLO_SHMEM_GLB_RX_REO_SNAPSHOT_PARAM_VALID_LINK_BMAP_GET(link_info) MLO_SHMEM_GET_BITS(link_info, 4, 16)
1633 #define MLO_SHMEM_GLB_RX_REO_SNAPSHOT_PARAM_VALID_LINK_BMAP_SET(link_info, value) MLO_SHMEM_SET_BITS(link_info, 4, 16, value)
1634 
1635 #define MLO_SHMEM_GLB_RX_REO_SNAPSHOT_PARAM_HW_FWD_SNAPSHOT_VER_GET(snapshot_ver_info) MLO_SHMEM_GET_BITS(snapshot_ver_info, 0, 3)
1636 #define MLO_SHMEM_GLB_RX_REO_SNAPSHOT_PARAM_HW_FWD_SNAPSHOT_VER_SET(snapshot_ver_info, value) MLO_SHMEM_SET_BITS(snapshot_ver_info, 0, 3, value)
1637 
1638 #define MLO_SHMEM_GLB_RX_REO_SNAPSHOT_PARAM_FW_FWD_SNAPSHOT_VER_GET(snapshot_ver_info) MLO_SHMEM_GET_BITS(snapshot_ver_info, 3, 3)
1639 #define MLO_SHMEM_GLB_RX_REO_SNAPSHOT_PARAM_FW_FWD_SNAPSHOT_VER_SET(snapshot_ver_info, value) MLO_SHMEM_SET_BITS(snapshot_ver_info, 3, 3, value)
1640 
1641 #define MLO_SHMEM_GLB_RX_REO_SNAPSHOT_PARAM_FW_CONSUMED_SNAPSHOT_VER_GET(snapshot_ver_info) MLO_SHMEM_GET_BITS(snapshot_ver_info, 6, 3)
1642 #define MLO_SHMEM_GLB_RX_REO_SNAPSHOT_PARAM_FW_CONSUMED_SNAPSHOT_VER_SET(snapshot_ver_info, value) MLO_SHMEM_SET_BITS(snapshot_ver_info, 6, 3, value)
1643 
1644 /* Definition of the complete REO snapshot info */
1645 typedef struct {
1646     /* TLV tag and len; tag equals MLO_SHMEM_TLV_STRUCT_MLO_GLB_RX_REO_SNAPSHOT_INFO */
1647     A_UINT32 tlv_header;
1648 
1649     /**
1650      * link_info
1651      *
1652      * [3:0]:   no_of_links
1653      * [19:4]:  valid_link_bmap
1654      * [31:20]: reserved
1655      */
1656     A_UINT32 link_info;
1657 
1658     /**
1659      * snapshot_ver_info
1660      *
1661      * [2:0]:  hw_forwarded snapshot version
1662      * [5:3]:  fw_forwarded snapshot version
1663      * [8:6]:  fw_consumed snapshot version
1664      * [31:9]: reserved
1665      */
1666     A_UINT32 snapshot_ver_info;
1667     A_UINT32 reserved_alignment_padding;
1668 
1669 /*  This TLV is followed by array of mlo_glb_rx_reo_per_link_snapshot_info:
1670  *  mlo_glb_rx_reo_per_link_snapshot_info will have multiple instances
1671  *  equal to num of hw links received by no_of_link
1672  *      mlo_glb_rx_reo_per_link_snapshot_info per_link_info[];
1673  */
1674 } mlo_glb_rx_reo_snapshot_info;
1675 
1676 A_COMPILE_TIME_ASSERT(check_mlo_glb_rx_reo_snapshot_info_8byte_size_quantum,
1677         (((sizeof(mlo_glb_rx_reo_snapshot_info) % sizeof(A_UINT64) == 0x0))));
1678 
1679 /** Helper macro for params GET/SET of mlo_glb_link */
1680 #define MLO_SHMEM_GLB_LINK_PARAM_LINK_STATUS_GET(link_status) MLO_SHMEM_GET_BITS(link_status, 0, 8)
1681 #define MLO_SHMEM_GLB_LINK_PARAM_LINK_STATUS_SET(link_status, value) MLO_SHMEM_SET_BITS(link_status, 0, 8, value)
1682 
1683 /*glb link info structures used for scratchpad memory (crash and recovery) */
1684 typedef struct {
1685     /* TLV tag and len; tag equals MLO_SHMEM_TLV_STRUCT_MLO_GLB_LINK */
1686     A_UINT32 tlv_header;
1687     /**
1688      * link_status
1689      *
1690      * [7:0]:   link_status
1691      * [31:8]:  reserved
1692      */
1693     A_UINT32 link_status;
1694     /*
1695      * Based on MLO timestamp, which is global across chips -
1696      * this will be first updated when MLO sync is completed.
1697      */
1698     A_UINT32 boot_timestamp_low_us;
1699     A_UINT32 boot_timestamp_high_us;
1700     /*
1701      * Based on MLO timestamp, will be updated with a configurable
1702      * periodicity (default 1 sec)
1703      */
1704     A_UINT32 health_check_timestamp_low_us;
1705     A_UINT32 health_check_timestamp_high_us;
1706 
1707 } mlo_glb_link;
1708 
1709 A_COMPILE_TIME_ASSERT(check_mlo_glb_link_8byte_size_quantum,
1710         (((sizeof(mlo_glb_link) % sizeof(A_UINT64) == 0x0))));
1711 
1712 A_COMPILE_TIME_ASSERT(verify_mlo_glb_link_boot_timestamp_low_offset,
1713     (A_OFFSETOF(mlo_glb_link, boot_timestamp_low_us) % sizeof(A_UINT64) == 0));
1714 
1715 A_COMPILE_TIME_ASSERT(verify_mlo_glb_link_health_check_timestamp_low_offset,
1716     (A_OFFSETOF(mlo_glb_link, health_check_timestamp_low_us) % sizeof(A_UINT64) == 0));
1717 
1718 
1719 /** Helper macro for params GET/SET of mlo_glb_link_info */
1720 #define MLO_SHMEM_GLB_LINK_INFO_PARAM_NO_OF_LINKS_GET(link_info) MLO_SHMEM_GET_BITS(link_info, 0, 4)
1721 #define MLO_SHMEM_GLB_LINK_INFO_PARAM_NO_OF_LINKS_SET(link_info, value) MLO_SHMEM_SET_BITS(link_info, 0, 4, value)
1722 
1723 #define MLO_SHMEM_GLB_LINK_INFO_PARAM_VALID_LINK_BMAP_GET(link_info) MLO_SHMEM_GET_BITS(link_info, 4, 16)
1724 #define MLO_SHMEM_GLB_LINK_INFO_PARAM_VALID_LINK_BMAP_SET(link_info, value) MLO_SHMEM_SET_BITS(link_info, 4, 16, value)
1725 
1726 typedef struct {
1727     /* TLV tag and len; tag equals MLO_SHMEM_TLV_STRUCT_MLO_GLB_LINK_INFO */
1728     A_UINT32 tlv_header;
1729 
1730     /**
1731      * link_info
1732      *
1733      * [3:0]:   no_of_links
1734      * [19:4]:  valid_link_bmap
1735      * [31:20]: reserved
1736      */
1737     A_UINT32 link_info;
1738 /*  This TLV is followed by array of mlo_glb_link:
1739  *  mlo_glb_link will have multiple instances equal to num of hw links
1740  *  received by no_of_link
1741  *      mlo_glb_link glb_link_info[];
1742  */
1743 } mlo_glb_link_info;
1744 
1745 A_COMPILE_TIME_ASSERT(check_mlo_glb_link_info_8byte_size_quantum,
1746         (((sizeof(mlo_glb_link_info) % sizeof(A_UINT64) == 0x0))));
1747 
1748 typedef enum {
1749     MLO_SHMEM_CRASH_PARTNER_CHIPS = 1,
1750     MLO_SHMEM_CRASH_SW_PANIC      = 2,
1751     MLO_SHMEM_CRASH_SW_ASSERT     = 3,
1752 } MLO_SHMEM_CHIP_CRASH_REASON;
1753 
1754 typedef enum {
1755     MLO_SHMEM_RECOVERY_CRASH_PARTNER_CHIPS = 1,
1756     MLO_SHMEM_RECOVER_NON_MLO_MODE = 2,
1757     MLO_SHMEM_RECOVER_NON_CRASH_MLO_MODE = 3,
1758 } MLO_SHMEM_CHIP_RECOVERY_MODE;
1759 
1760 /* glb link info structures used for scratchpad memory (crash and recovery) */
1761 typedef struct {
1762     /* TLV tag and len; tag equals MLO_SHMEM_TLV_STRUCT_MLO_GLB_PER_CHIP_CRASH_INFO */
1763     A_UINT32 tlv_header;
1764     /**
1765      * crash reason, takes value in enum MLO_SHMEM_CHIP_CRASH_REASON
1766      */
1767     A_UINT32 crash_reason;
1768     /**
1769      * crash reason, takes value in enum MLO_SHMEM_CHIP_RECOVERY_MODE
1770      */
1771     A_UINT32 recovery_mode;
1772     /* reserved: added for padding to A_UINT64 size, available for future use */
1773     A_UINT32 reserved;
1774 } mlo_glb_per_chip_crash_info;
1775 
1776 A_COMPILE_TIME_ASSERT(check_mlo_glb_per_chip_crash_info,
1777         (((sizeof(mlo_glb_per_chip_crash_info) % sizeof(A_UINT64) == 0x0))));
1778 
1779 /** Helper macro for params GET/SET of mlo_glb_chip_crash_info */
1780 #define MLO_SHMEM_CHIP_CRASH_INFO_PARAM_NO_OF_CHIPS_GET(chip_info) \
1781     (MLO_SHMEM_GET_BITS(chip_info, 0, 2) + \
1782      (MLO_SHMEM_GET_BITS(chip_info, 12, 4) << 2))
1783 #define MLO_SHMEM_CHIP_CRASH_INFO_PARAM_NO_OF_CHIPS_SET(chip_info, value) \
1784     do { \
1785        MLO_SHMEM_SET_BITS(chip_info, 0, 2, ((value) & 0x03)); \
1786        MLO_SHMEM_SET_BITS(chip_info, 12, 4, ((value) >> 2)); \
1787 } while (0)
1788 
1789 #define MLO_SHMEM_CHIP_CRASH_INFO_PARAM_VALID_CHIP_BMAP_GET(chip_info) MLO_SHMEM_GET_BITS(chip_info, 2, 8)
1790 #define MLO_SHMEM_CHIP_CRASH_INFO_PARAM_VALID_CHIP_BMAP_SET(chip_info, value) MLO_SHMEM_SET_BITS(chip_info, 2, 8, value)
1791 
1792 typedef struct {
1793     /* TLV tag and len; tag equals MLO_SHMEM_TLV_STRUCT_MLO_GLB_CHIP_CRASH_INFO */
1794     A_UINT32 tlv_header;
1795 
1796     /**
1797      * chip_info
1798      *
1799      * [1:0]:  no_of_chips
1800      * [4:2]:  valid_chip_bmap
1801      * For number of chips beyond 3, extension fields are added.
1802      * To maintain backward compatibility, with 3 chip board and
1803      * old host driver, valid chip bmap is extended in continuation from
1804      * existing bit 4 onwards, while extending no_of_chips information
1805      * would overlap with old valid_chip_bmap, hence extended from
1806      * bit 12:15. Now no_of_chip will have two parts, lower 2 bits from 0-1 and
1807      * upper 4 bits from 12-15. SET-GET macros are modified accordingly.
1808      * This helps in no change in respective processing files and don't need
1809      * to maintain two copy of information for backward compatibility.
1810      * [9:5]:  valid_chip_bmap_ext
1811      * [15:12]: no_of_chips_ext
1812      * [31:16]: reserved
1813      */
1814     A_UINT32 chip_info;
1815     /*  This TLV is followed by array of mlo_glb_per_chip_crash_info:
1816      *  mlo_glb_per_chip_crash_info will have multiple instances equal to num of partner chips
1817      *  received by no_of_chips
1818      *  mlo_glb_per_chip_crash_info per_chip_crash_info[];
1819      */
1820 } mlo_glb_chip_crash_info;
1821 
1822 A_COMPILE_TIME_ASSERT(check_mlo_glb_chip_crash_info,
1823         (((sizeof(mlo_glb_chip_crash_info) % sizeof(A_UINT64) == 0x0))));
1824 
1825 /** Helper macro for params GET/SET of mlo_glb_h_shmem */
1826 #define MLO_SHMEM_GLB_H_SHMEM_PARAM_MINOR_VERSION_GET(major_minor_version) MLO_SHMEM_GET_BITS(major_minor_version, 0, 16)
1827 #define MLO_SHMEM_GLB_H_SHMEM_PARAM_MINOR_VERSION_SET(major_minor_version, value) MLO_SHMEM_SET_BITS(major_minor_version, 0, 16, value)
1828 
1829 #define MLO_SHMEM_GLB_H_SHMEM_PARAM_MAJOR_VERSION_GET(major_minor_version) MLO_SHMEM_GET_BITS(major_minor_version, 16, 16)
1830 #define MLO_SHMEM_GLB_H_SHMEM_PARAM_MAJOR_VERSION_SET(major_minor_version, value) MLO_SHMEM_SET_BITS(major_minor_version, 16, 16, value)
1831 
1832 /* Definition of Global H SHMEM Arena */
1833 typedef struct {
1834     /* TLV tag and len; tag equals MLO_SHMEM_TLV_STRUCT_MLO_GLB_H_SHMEM */
1835     A_UINT32 tlv_header;
1836     /**
1837      * major_minor_version
1838      *
1839      * [15:0]:   minor version
1840      * [31:16]:  major version
1841      */
1842     A_UINT32 major_minor_version;
1843 /*  This TLV is followed by TLVs
1844  *  mlo_glb_rx_reo_snapshot_info reo_snapshot;
1845  *  mlo_glb_link_info glb_info;
1846  *  mlo_glb_chip_crash_info crash_info;
1847  */
1848 } mlo_glb_h_shmem;
1849 
1850 A_COMPILE_TIME_ASSERT(check_mlo_glb_h_shmem_8byte_size_quantum,
1851         (((sizeof(mlo_glb_h_shmem) % sizeof(A_UINT64) == 0x0))));
1852 
1853 /** 2 word representation of MAC addr */
1854 typedef struct _wmi_mac_addr {
1855     /** upper 4 bytes of  MAC address */
1856     A_UINT32 mac_addr31to0;
1857     /** lower 2 bytes of  MAC address */
1858     A_UINT32 mac_addr47to32;
1859 } wmi_mac_addr;
1860 
1861 #endif /* __WLANDEFS_H__ */
1862