1 /*
2  * Copyright (c) 2017-2021 The Linux Foundation. All rights reserved.
3  * Copyright (c) 2021-2024 Qualcomm Innovation Center, Inc. All rights reserved.
4  *
5  * Permission to use, copy, modify, and/or distribute this software for
6  * any purpose with or without fee is hereby granted, provided that the
7  * above copyright notice and this permission notice appear in all
8  * copies.
9  *
10  * THE SOFTWARE IS PROVIDED "AS IS" AND THE AUTHOR DISCLAIMS ALL
11  * WARRANTIES WITH REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED
12  * WARRANTIES OF MERCHANTABILITY AND FITNESS. IN NO EVENT SHALL THE
13  * AUTHOR BE LIABLE FOR ANY SPECIAL, DIRECT, INDIRECT, OR CONSEQUENTIAL
14  * DAMAGES OR ANY DAMAGES WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR
15  * PROFITS, WHETHER IN AN ACTION OF CONTRACT, NEGLIGENCE OR OTHER
16  * TORTIOUS ACTION, ARISING OUT OF OR IN CONNECTION WITH THE USE OR
17  * PERFORMANCE OF THIS SOFTWARE.
18  */
19 
20 /**
21  * @file htt_stats.h
22  *
23  * @details the public header file of HTT STATS
24  */
25 #ifndef __HTT_STATS_H__
26 #define __HTT_STATS_H__
27 
28 #include <htt_deps.h> /* A_UINT32 */
29 #include <htt_common.h>
30 #include <htt.h> /* HTT stats TLV struct def and tag defs */
31 
32 
33 /* HTT_STATS_VAR_LEN_ARRAY1:
34  * This macro is for converting the definition of existing variable-length
35  * arrays within TLV structs of the form "type name[1];" to use the form
36  * "type name[];" while ensuring that the length of the TLV struct is
37  * unmodified by the conversion.
38  * In general, any new variable-length structs should simply use
39  * "type name[];" directly, rather than using HTT_STATS_VAR_LEN_ARRAY1.
40  * However, if there's a legitimate reason to make the new variable-length
41  * struct appear to not have a variable length, HTT_STATS_VAR_LEN_ARRAY1
42  * can be used for this purpose.
43  */
44 
45 #if defined(ATH_TARGET) || defined(__WINDOWS__)
46     #define HTT_STATS_VAR_LEN_ARRAY1(type, name) type name[1]
47 #else
48     /*
49      * Certain build settings of the Linux kernel don't allow zero-element
50      * arrays, and C++ doesn't allow zero-length empty structs.
51      * Confirm that there's no build that combines kernel with C++.
52      */
53     #ifdef __cplusplus
54         #error unsupported combination of kernel and C plus plus
55     #endif
56     #define HTT_STATS_DUMMY_ZERO_LEN_FIELD struct {} dummy_zero_len_field
57 
58     #define HTT_STATS_VAR_LEN_ARRAY1(type, name) \
59         union { \
60             type name ## __first_elem; \
61             struct { \
62                 HTT_STATS_DUMMY_ZERO_LEN_FIELD; \
63                 type name[]; \
64             };  \
65         }
66 #endif
67 
68 
69 /**
70  * htt_dbg_ext_stats_type -
71  * The base structure for each of the stats_type is only for reference
72  * Host should use this information to know the type of TLVs to expect
73  * for a particular stats type.
74  *
75  *    Max supported stats :- 256.
76  */
77 enum htt_dbg_ext_stats_type {
78     /** HTT_DBG_EXT_STATS_RESET
79      * PARAM:
80      *   - config_param0 : start_offset (stats type)
81      *   - config_param1 : stats bmask from start offset
82      *   - config_param2 : stats bmask from start offset + 32
83      *   - config_param3 : stats bmask from start offset + 64
84      * RESP MSG:
85      *   - No response sent.
86      */
87     HTT_DBG_EXT_STATS_RESET              = 0,
88 
89     /** HTT_DBG_EXT_STATS_PDEV_TX
90      * PARAMS:
91      *   - No Params
92      * RESP MSG:
93      *   - htt_tx_pdev_stats_t
94      */
95     HTT_DBG_EXT_STATS_PDEV_TX            = 1,
96 
97     /** HTT_DBG_EXT_STATS_PDEV_RX
98      * PARAMS:
99      *   - No Params
100      * RESP MSG:
101      *   - htt_rx_pdev_stats_t
102      */
103     HTT_DBG_EXT_STATS_PDEV_RX            = 2,
104 
105     /** HTT_DBG_EXT_STATS_PDEV_TX_HWQ
106      * PARAMS:
107      *   - config_param0: [Bit31: Bit0] HWQ mask
108      * RESP MSG:
109      *   - htt_tx_hwq_stats_t
110      */
111     HTT_DBG_EXT_STATS_PDEV_TX_HWQ        = 3,
112 
113     /** HTT_DBG_EXT_STATS_PDEV_TX_SCHED
114      * PARAMS:
115      *   - config_param0: [Bit31: Bit0] TXQ mask
116      * RESP MSG:
117      *   - htt_stats_tx_sched_t
118      */
119     HTT_DBG_EXT_STATS_PDEV_TX_SCHED      = 4,
120 
121     /** HTT_DBG_EXT_STATS_PDEV_ERROR
122      * PARAMS:
123      *   - No Params
124      * RESP MSG:
125      *   - htt_hw_err_stats_t
126      */
127     HTT_DBG_EXT_STATS_PDEV_ERROR         = 5,
128 
129     /** HTT_DBG_EXT_STATS_PDEV_TQM
130      * PARAMS:
131      *   - No Params
132      * RESP MSG:
133      *   - htt_tx_tqm_pdev_stats_t
134      */
135     HTT_DBG_EXT_STATS_PDEV_TQM           = 6,
136 
137     /** HTT_DBG_EXT_STATS_TQM_CMDQ
138      * PARAMS:
139      *   - config_param0:
140      *      [Bit15: Bit0 ] cmdq id :if 0xFFFF print all cmdq's
141      *      [Bit31: Bit16] reserved
142      * RESP MSG:
143      *   - htt_tx_tqm_cmdq_stats_t
144      */
145     HTT_DBG_EXT_STATS_TQM_CMDQ           = 7,
146 
147     /** HTT_DBG_EXT_STATS_TX_DE_INFO
148      * PARAMS:
149      *   - No Params
150      * RESP MSG:
151      *   - htt_tx_de_stats_t
152      */
153     HTT_DBG_EXT_STATS_TX_DE_INFO         = 8,
154 
155     /** HTT_DBG_EXT_STATS_PDEV_TX_RATE
156      * PARAMS:
157      *   - No Params
158      * RESP MSG:
159      *   - htt_tx_pdev_rate_stats_t
160      */
161     HTT_DBG_EXT_STATS_PDEV_TX_RATE       = 9,
162 
163     /** HTT_DBG_EXT_STATS_PDEV_RX_RATE
164      * PARAMS:
165      *   - No Params
166      * RESP MSG:
167      *   - htt_rx_pdev_rate_stats_t
168      */
169     HTT_DBG_EXT_STATS_PDEV_RX_RATE       = 10,
170 
171     /** HTT_DBG_EXT_STATS_PEER_INFO
172      * PARAMS:
173      *   - config_param0:
174      *     [Bit0] - [0] for sw_peer_id, [1] for mac_addr based request
175      *     [Bit15 : Bit 1] htt_peer_stats_req_mode_t
176      *     [Bit31 : Bit16] sw_peer_id
177      *     config_param1:
178      *     peer_stats_req_type_mask:32 (enum htt_peer_stats_tlv_enum)
179      *           0 bit htt_peer_stats_cmn_tlv
180      *           1 bit htt_peer_details_tlv
181      *           2 bit htt_tx_peer_rate_stats_tlv
182      *           3 bit htt_rx_peer_rate_stats_tlv
183      *           4 bit htt_tx_tid_stats_tlv/htt_tx_tid_stats_v1_tlv
184      *           5 bit htt_rx_tid_stats_tlv
185      *           6 bit htt_msdu_flow_stats_tlv
186      *           7 bit htt_peer_sched_stats_tlv
187      *           8 bit htt_peer_ax_ofdma_stats_tlv
188      *           9 bit htt_peer_be_ofdma_stats_tlv
189      *   - config_param2: [Bit31 : Bit0] mac_addr31to0
190      *   - config_param3: [Bit15 : Bit0] mac_addr47to32
191      *                    [Bit 16] If this bit is set, reset per peer stats
192      *                             of corresponding tlv indicated by config
193      *                             param 1.
194      *                             HTT_DBG_EXT_PEER_STATS_RESET_GET will be
195      *                             used to get this bit position.
196      *                             WMI_SERVICE_PER_PEER_HTT_STATS_RESET
197      *                             indicates that FW supports per peer HTT
198      *                             stats reset.
199      *                    [Bit31 : Bit17] reserved
200      * RESP MSG:
201      *   - htt_peer_stats_t
202      */
203     HTT_DBG_EXT_STATS_PEER_INFO          = 11,
204 
205     /** HTT_DBG_EXT_STATS_TX_SELFGEN_INFO
206      * PARAMS:
207      *   - No Params
208      * RESP MSG:
209      *   - htt_tx_pdev_selfgen_stats_t
210      */
211     HTT_DBG_EXT_STATS_TX_SELFGEN_INFO    = 12,
212 
213     /** HTT_DBG_EXT_STATS_TX_MU_HWQ
214      * PARAMS:
215      *   - config_param0: [Bit31: Bit0] HWQ mask
216      * RESP MSG:
217      *   - htt_tx_hwq_mu_mimo_stats_t
218      */
219     HTT_DBG_EXT_STATS_TX_MU_HWQ          = 13,
220 
221     /** HTT_DBG_EXT_STATS_RING_IF_INFO
222      * PARAMS:
223      *   - config_param0:
224      *      [Bit15: Bit0 ] ring id :if 0xFFFF print all rings
225      *      [Bit31: Bit16] reserved
226      * RESP MSG:
227      *   - htt_ring_if_stats_t
228      */
229     HTT_DBG_EXT_STATS_RING_IF_INFO       = 14,
230 
231     /** HTT_DBG_EXT_STATS_SRNG_INFO
232      * PARAMS:
233      *   - config_param0:
234      *      [Bit15: Bit0 ] ring id :if 0xFFFF print all rings
235      *      [Bit31: Bit16] reserved
236      *   - No Params
237      * RESP MSG:
238      *   - htt_sring_stats_t
239      */
240     HTT_DBG_EXT_STATS_SRNG_INFO          = 15,
241 
242     /** HTT_DBG_EXT_STATS_SFM_INFO
243      * PARAMS:
244      *   - No Params
245      * RESP MSG:
246      *   - htt_sfm_stats_t
247      */
248     HTT_DBG_EXT_STATS_SFM_INFO           = 16,
249 
250     /** HTT_DBG_EXT_STATS_PDEV_TX_MU
251      * PARAMS:
252      *   - No Params
253      * RESP MSG:
254      *   - htt_tx_pdev_mu_mimo_stats_t
255      */
256     HTT_DBG_EXT_STATS_PDEV_TX_MU         = 17,
257 
258     /** HTT_DBG_EXT_STATS_ACTIVE_PEERS_LIST
259      * PARAMS:
260      *   - config_param0:
261      *      [Bit7 : Bit0]   vdev_id:8
262      *                      note:0xFF to get all active peers based on pdev_mask.
263      *      [Bit31 : Bit8]  rsvd:24
264      * RESP MSG:
265      *   - htt_active_peer_details_list_t
266      */
267     HTT_DBG_EXT_STATS_ACTIVE_PEERS_LIST  = 18,
268 
269     /** HTT_DBG_EXT_STATS_PDEV_CCA_STATS
270      * PARAMS:
271      *   - config_param0:
272      *      [Bit0] - Clear bit0 to read 1sec,100ms & cumulative CCA stats.
273      *               Set bit0 to 1 to read 1sec interval histogram.
274      *      [Bit1] - 100ms interval histogram
275      *      [Bit3] - Cumulative CCA stats
276      * RESP MSG:
277      *   - htt_pdev_cca_stats_t
278      */
279     HTT_DBG_EXT_STATS_PDEV_CCA_STATS     = 19,
280 
281     /** HTT_DBG_EXT_STATS_TWT_SESSIONS
282      * PARAMS:
283      *   - config_param0:
284      *      No params
285      * RESP MSG:
286      *   - htt_pdev_twt_sessions_stats_t
287      */
288     HTT_DBG_EXT_STATS_TWT_SESSIONS       = 20,
289 
290     /** HTT_DBG_EXT_STATS_REO_CNTS
291      * PARAMS:
292      *   - config_param0:
293      *      No params
294      * RESP MSG:
295      *   - htt_soc_reo_resource_stats_t
296      */
297     HTT_DBG_EXT_STATS_REO_RESOURCE_STATS = 21,
298 
299     /** HTT_DBG_EXT_STATS_TX_SOUNDING_INFO
300      * PARAMS:
301      *   - config_param0:
302      *      [Bit0]          vdev_id_set:1
303      *          set to 1 if vdev_id is set and vdev stats are requested.
304      *          set to 0 if pdev_stats sounding stats are requested.
305      *      [Bit8 : Bit1]   vdev_id:8
306      *          note:0xFF to get all active vdevs based on pdev_mask.
307      *      [Bit31 : Bit9]  rsvd:22
308      *
309      * RESP MSG:
310      *   - htt_tx_sounding_stats_t
311      */
312     HTT_DBG_EXT_STATS_TX_SOUNDING_INFO   = 22,
313 
314     /** HTT_DBG_EXT_STATS_PDEV_OBSS_PD_STATS
315      * PARAMS:
316      *   - config_param0:
317      *      No params
318      * RESP MSG:
319      *   - htt_pdev_obss_pd_stats_t
320      */
321     HTT_DBG_EXT_STATS_PDEV_OBSS_PD_STATS = 23,
322 
323     /** HTT_DBG_EXT_STATS_RING_BACKPRESSURE_STATS
324      * PARAMS:
325      *   - config_param0:
326      *      No params
327      * RESP MSG:
328      *   - htt_stats_ring_backpressure_stats_t
329      */
330     HTT_DBG_EXT_STATS_RING_BACKPRESSURE_STATS = 24,
331 
332     /** HTT_DBG_EXT_STATS_LATENCY_PROF_STATS
333      *  PARAMS:
334      *
335      *  RESP MSG:
336      *    - htt_latency_prof_stats_tlv showing latency profile stats for
337      *      high-level (pdev or vdev level) events such as tx/rx suspend
338      *      or resume, or UMAC, DMAC, or PMAC reset.
339      */
340     HTT_DBG_EXT_STATS_LATENCY_PROF_STATS = 25,
341 
342     /** HTT_DBG_EXT_STATS_PDEV_UL_TRIGGER
343      * PARAMS:
344      *   - No Params
345      * RESP MSG:
346      *   - htt_rx_pdev_ul_trig_stats_t
347      */
348     HTT_DBG_EXT_STATS_PDEV_UL_TRIG_STATS = 26,
349 
350     /** HTT_DBG_EXT_STATS_PDEV_UL_MUMIMO_TRIG_STATS = 27
351      * PARAMS:
352      *   - No Params
353      * RESP MSG:
354      *   - htt_rx_pdev_ul_mumimo_trig_stats_t
355      */
356     HTT_DBG_EXT_STATS_PDEV_UL_MUMIMO_TRIG_STATS = 27,
357 
358     /** HTT_DBG_EXT_STATS_FSE_RX
359      * PARAMS:
360      *   - No Params
361      * RESP MSG:
362      *   - htt_rx_fse_stats_t
363      */
364     HTT_DBG_EXT_STATS_FSE_RX = 28,
365 
366     /** HTT_DBG_EXT_PEER_CTRL_PATH_TXRX_STATS
367      * PARAMS:
368      *   - config_param0: [Bit0] : [1] for mac_addr based request
369      *   - config_param1: [Bit31 : Bit0] mac_addr31to0
370      *   - config_param2: [Bit15 : Bit0] mac_addr47to32
371      * RESP MSG:
372      *   - htt_ctrl_path_txrx_stats_t
373      */
374     HTT_DBG_EXT_PEER_CTRL_PATH_TXRX_STATS = 29,
375 
376     /** HTT_DBG_EXT_STATS_PDEV_RX_RATE_EXT
377      * PARAMS:
378      *   - No Params
379      * RESP MSG:
380      *   - htt_rx_pdev_rate_ext_stats_t
381      */
382     HTT_DBG_EXT_STATS_PDEV_RX_RATE_EXT    = 30,
383 
384     /** HTT_DBG_EXT_STATS_PDEV_TX_RATE_TXBF
385      * PARAMS:
386      *   - No Params
387      * RESP MSG:
388      *   - htt_tx_pdev_txbf_rate_stats_t
389      */
390     HTT_DBG_EXT_STATS_PDEV_TX_RATE_TXBF   = 31,
391 
392     /** HTT_DBG_EXT_STATS_TXBF_OFDMA
393      */
394     HTT_DBG_EXT_STATS_TXBF_OFDMA          = 32,
395 
396     /** HTT_DBG_EXT_STA_11AX_UL_STATS
397      * PARAMS:
398      *   - No Params
399      * RESP MSG:
400      *   - htt_sta_11ax_ul_stats
401      */
402     HTT_DBG_EXT_STA_11AX_UL_STATS = 33,
403 
404     /** HTT_DBG_EXT_VDEV_RTT_RESP_STATS
405      * PARAMS:
406      *   - config_param0:
407      *      [Bit7 : Bit0]   vdev_id:8
408      *      [Bit31 : Bit8]  rsvd:24
409      * RESP MSG:
410      *   -
411      */
412     HTT_DBG_EXT_VDEV_RTT_RESP_STATS = 34,
413 
414     /** HTT_DBG_EXT_PKTLOG_AND_HTT_RING_STATS
415      * PARAMS:
416      *   - No Params
417      * RESP MSG:
418      *   - htt_pktlog_and_htt_ring_stats_t
419      */
420     HTT_DBG_EXT_PKTLOG_AND_HTT_RING_STATS = 35,
421 
422     /** HTT_DBG_EXT_STATS_DLPAGER_STATS
423      * PARAMS:
424      *
425      * RESP MSG:
426      *   - htt_dlpager_stats_t
427      */
428     HTT_DBG_EXT_STATS_DLPAGER_STATS = 36,
429 
430     /** HTT_DBG_EXT_PHY_COUNTERS_AND_PHY_STATS
431      * PARAMS:
432      *   - No Params
433      * RESP MSG:
434      *   - htt_phy_counters_and_phy_stats_t
435      */
436     HTT_DBG_EXT_PHY_COUNTERS_AND_PHY_STATS = 37,
437 
438     /** HTT_DBG_EXT_VDEVS_TXRX_STATS
439      * PARAMS:
440      *   - No Params
441      * RESP MSG:
442      *   - htt_vdevs_txrx_stats_t
443      */
444     HTT_DBG_EXT_VDEVS_TXRX_STATS = 38,
445 
446     HTT_DBG_EXT_VDEV_RTT_INITIATOR_STATS = 39,
447 
448     /** HTT_DBG_EXT_PDEV_PER_STATS
449      * PARAMS:
450      *   - No Params
451      * RESP MSG:
452      *   - htt_tx_pdev_per_stats_t
453      */
454     HTT_DBG_EXT_PDEV_PER_STATS = 40,
455 
456     HTT_DBG_EXT_AST_ENTRIES = 41,
457 
458     /** HTT_DBG_EXT_RX_RING_STATS
459      * PARAMS:
460      *    - No Params
461      * RESP MSG:
462      *    - htt_rx_fw_ring_stats_tlv_v
463      */
464     HTT_DBG_EXT_RX_RING_STATS = 42,
465 
466     /** HTT_STRM_GEN_MPDUS_STATS, HTT_STRM_GEN_MPDUS_DETAILS_STATS
467      * PARAMS:
468      *   - No params
469      * RESP MSG: HTT_T2H STREAMING_STATS_IND (not EXT_STATS_CONF)
470      *   - HTT_STRM_GEN_MPDUS_STATS:
471      *     htt_stats_strm_gen_mpdus_tlv_t
472      *   - HTT_STRM_GEN_MPDUS_DETAILS_STATS:
473      *     htt_stats_strm_gen_mpdus_details_tlv_t
474      */
475     HTT_STRM_GEN_MPDUS_STATS = 43,
476     HTT_STRM_GEN_MPDUS_DETAILS_STATS = 44,
477 
478     /** HTT_DBG_SOC_ERROR_STATS
479      * PARAMS:
480      *    - No Params
481      * RESP MSG:
482      *    - htt_dmac_reset_stats_tlv
483      */
484     HTT_DBG_SOC_ERROR_STATS = 45,
485 
486     /** HTT_DBG_PDEV_PUNCTURE_STATS
487      * PARAMS:
488      *    - param 0: enum from htt_tx_pdev_puncture_stats_upload_t, indicating
489      *      the stats to upload
490      * RESP MSG:
491      *    - one or more htt_pdev_puncture_stats_tlv, depending on param 0
492      */
493     HTT_DBG_PDEV_PUNCTURE_STATS = 46,
494 
495     /** HTT_DBG_EXT_STATS_ML_PEERS_INFO
496      * PARAMS:
497      *    - param 0:
498      *      Bit 0 -> HTT_ML_PEER_DETAILS_TLV always enabled by default
499      *      Bit 1 -> HTT_ML_PEER_EXT_DETAILS_TLV will be uploaded when
500      *               this bit is set
501      *      Bit 2 -> HTT_ML_LINK_INFO_TLV will be uploaded when this bit is set
502      *  RESP MSG:
503      *    - htt_ml_peer_stats_t
504      */
505     HTT_DBG_EXT_STATS_ML_PEERS_INFO = 47,
506 
507     /** HTT_DBG_ODD_MANDATORY_STATS
508      * params:
509      *          None
510      * Response MSG:
511      *          htt_odd_mandatory_pdev_stats_tlv
512      */
513     HTT_DBG_ODD_MANDATORY_STATS = 48,
514 
515     /** HTT_DBG_PDEV_SCHED_ALGO_STATS
516      * PARAMS:
517      *      - No Params
518      * RESP MSG:
519      *   - htt_pdev_sched_algo_ofdma_stats_tlv
520      */
521     HTT_DBG_PDEV_SCHED_ALGO_STATS = 49,
522 
523     /** HTT_DBG_ODD_MANDATORY_MUMIMO_STATS
524      * params:
525      *          None
526      * Response MSG:
527      *          htt_odd_mandatory_mumimo_pdev_stats_tlv
528      */
529     HTT_DBG_ODD_MANDATORY_MUMIMO_STATS = 50,
530     /** HTT_DBG_ODD_MANDATORY_MUOFDMA_STATS
531      * params:
532      *          None
533      * Response MSG:
534      *          htt_odd_mandatory_muofdma_pdev_stats_tlv
535      */
536     HTT_DBG_ODD_MANDATORY_MUOFDMA_STATS = 51,
537 
538     /** HTT_DBG_EXT_PHY_PROF_CAL_STATS
539      * params:
540      *          None
541      * Response MSG:
542      *          htt_stats_latency_prof_cal_data_tlv
543      */
544     HTT_DBG_EXT_PHY_PROF_CAL_STATS = 52,
545 
546     /** HTT_DBG_EXT_STATS_PDEV_BW_MGR
547      * PARAMS:
548      *   - No Params
549      * RESP MSG:
550      *   - htt_pdev_bw_mgr_stats_t
551      */
552     HTT_DBG_EXT_STATS_PDEV_BW_MGR = 53,
553 
554     /** HTT_DBG_PDEV_MBSSID_CTRL_FRAME_STATS
555      * PARAMS:
556      *   - No Params
557      * RESP MSG:
558      *   - htt_pdev_mbssid_ctrl_frame_stats
559      */
560     HTT_DBG_PDEV_MBSSID_CTRL_FRAME_STATS = 54,
561 
562     /** HTT_DBG_SOC_SSR_STATS
563      * Used for non-MLO UMAC recovery stats.
564      * PARAMS:
565      *    - No Params
566      * RESP MSG:
567      *    - htt_umac_ssr_stats_tlv
568      */
569     HTT_DBG_SOC_SSR_STATS = 55,
570 
571     /** HTT_DBG_MLO_UMAC_SSR_STATS
572      * Used for MLO UMAC recovery stats.
573      * PARAMS:
574      *    - No Params
575      * RESP MSG:
576      *    - htt_mlo_umac_ssr_stats_tlv
577      */
578     HTT_DBG_MLO_UMAC_SSR_STATS = 56,
579 
580     /** HTT_DBG_PDEV_TDMA_STATS
581      * PARAMS:
582      *    - No Params
583      * RESP MSG:
584      *    - htt_pdev_tdma_stats_tlv
585      */
586     HTT_DBG_PDEV_TDMA_STATS = 57,
587 
588     /** HTT_DBG_CODEL_STATS
589      * PARAMS:
590      *    - No Params
591      * RESP MSG:
592      *    - htt_codel_svc_class_stats_tlv
593      *    - htt_codel_msduq_stats_tlv
594      */
595     HTT_DBG_CODEL_STATS = 58,
596 
597     /** HTT_DBG_ODD_PDEV_BE_TX_MU_OFDMA_STATS
598      * PARAMS:
599      *   - No Params
600      * RESP MSG:
601      *   - htt_tx_pdev_mpdu_stats_tlv
602      */
603     HTT_DBG_ODD_PDEV_BE_TX_MU_OFDMA_STATS = 59,
604 
605     /** HTT_DBG_EXT_STATS_PDEV_UL_TRIGGER
606      * PARAMS:
607      *   - No Params
608      * RESP MSG:
609      *   - htt_rx_pdev_be_ul_ofdma_user_stats_tlv
610      */
611     HTT_DBG_ODD_UL_BE_OFDMA_STATS = 60,
612 
613     /** HTT_DBG_ODD_BE_TXBF_OFDMA_STATS
614      */
615     HTT_DBG_ODD_BE_TXBF_OFDMA_STATS = 61,
616 
617     /** HTT_DBG_ODD_STATS_PDEV_BE_UL_MUMIMO_TRIG_STATS
618      * PARAMS:
619      *   - No Params
620      * RESP MSG:
621      *   - htt_rx_pdev_be_ul_ofdma_user_stats_tlv
622      */
623     HTT_DBG_ODD_STATS_PDEV_BE_UL_MUMIMO_TRIG_STATS = 62,
624 
625     /** HTT_DBG_MLO_SCHED_STATS
626      * PARAMS:
627      *    - No Params
628      * RESP MSG:
629      *    - htt_pdev_mlo_sched_stats_tlv
630      */
631     HTT_DBG_MLO_SCHED_STATS = 63,
632 
633     /** HTT_DBG_PDEV_MLO_IPC_STATS
634      * PARAMS:
635      *    - No Params
636      * RESP MSG:
637      *    - htt_pdev_mlo_ipc_stats_tlv
638      */
639     HTT_DBG_PDEV_MLO_IPC_STATS = 64,
640 
641     /** HTT_DBG_EXT_PDEV_RTT_RESP_STATS
642      * PARAMS:
643      *    - No Params
644      * RESP MSG:
645      *    -  htt_stats_pdev_rtt_resp_stats_tlv
646      *    -  htt_stats_pdev_rtt_hw_stats_tlv
647      *    -  htt_stats_pdev_rtt_tbr_selfgen_queued_stats_tlv
648      *    -  htt_stats_pdev_rtt_tbr_cmd_result_stats_tlv
649      */
650     HTT_DBG_EXT_PDEV_RTT_RESP_STATS = 65,
651 
652     /** HTT_DBG_EXT_PDEV_RTT_INITIATOR_STATS
653      * PARAMS:
654      *    - No Params
655      * RESP MSG:
656      *    -  htt_stats_pdev_rtt_init_stats_tlv
657      *    -  htt_stats_pdev_rtt_hw_stats_tlv
658      */
659     HTT_DBG_EXT_PDEV_RTT_INITIATOR_STATS = 66,
660 
661     /** HTT_DBG_EXT_STATS_LATENCY_PROF_STATS_LO
662      *  PARAMS:
663      *
664      *  RESP MSG:
665      *    - htt_latency_prof_stats_tlv showing latency profile stats for
666      *      finer-grained events than HTT_DBG_EXT_STATS_LATENCY_PROF_STATS,
667      *      such as individual steps within a larger pdev or vdev event.
668      */
669     HTT_DBG_EXT_STATS_LATENCY_PROF_STATS_LO = 67,
670 
671     /** HTT_DBG_GTX_STATS
672      * PARAMS:
673      *    - No Params
674      * RESP MSG:
675      *    - htt_pdev_gtx_stats_tlv
676      */
677     HTT_DBG_GTX_STATS = 68,
678 
679 
680     /* keep this last */
681     HTT_DBG_NUM_EXT_STATS = 256,
682 };
683 
684 /*
685  * Macros to get/set the bit field in config param[3] that indicates to
686  * clear corresponding per peer stats specified by config param 1
687  */
688 #define HTT_DBG_EXT_PEER_STATS_RESET_M 0x00010000
689 #define HTT_DBG_EXT_PEER_STATS_RESET_S 16
690 
691 #define HTT_DBG_EXT_PEER_STATS_RESET_GET(_var) \
692     (((_var) & HTT_DBG_EXT_PEER_STATS_RESET_M) >> \
693      HTT_DBG_EXT_PEER_STATS_RESET_S)
694 
695 #define HTT_DBG_EXT_PEER_STATS_RESET_SET(_var, _val) \
696     do { \
697         HTT_CHECK_SET_VAL(HTT_DBG_EXT_PEER_STATS_RESET, _val); \
698         ((_var) |= ((_val) << HTT_DBG_EXT_PEER_STATS_RESET_S)); \
699     } while (0)
700 
701 #define HTT_STATS_SUBTYPE_MAX 16
702 
703 /* htt_mu_stats_upload_t
704  * Enumerations for specifying whether to upload all MU stats in response to
705  * HTT_DBG_EXT_STATS_PDEV_TX_MU, or if not all, then which subset.
706  */
707 typedef enum {
708     /* HTT_UPLOAD_MU_STATS: upload all MU stats:
709      * UL MU-MIMO + DL MU-MIMO + UL MU-OFDMA + DL MU-OFDMA
710      * (note: included OFDMA stats are limited to 11ax)
711      */
712     HTT_UPLOAD_MU_STATS,
713 
714     /* HTT_UPLOAD_MU_MIMO_STATS: upload UL MU-MIMO + DL MU-MIMO stats */
715     HTT_UPLOAD_MU_MIMO_STATS,
716 
717     /* HTT_UPLOAD_MU_OFDMA_STATS:
718      * upload UL MU-OFDMA + DL MU-OFDMA stats (note: 11ax only stats)
719      */
720     HTT_UPLOAD_MU_OFDMA_STATS,
721 
722     HTT_UPLOAD_DL_MU_MIMO_STATS,
723     HTT_UPLOAD_UL_MU_MIMO_STATS,
724     /* HTT_UPLOAD_DL_MU_OFDMA_STATS:
725      * upload DL MU-OFDMA stats (note: 11ax only stats)
726      */
727     HTT_UPLOAD_DL_MU_OFDMA_STATS,
728     /* HTT_UPLOAD_UL_MU_OFDMA_STATS:
729      * upload UL MU-OFDMA stats (note: 11ax only stats)
730      */
731     HTT_UPLOAD_UL_MU_OFDMA_STATS,
732 
733     /*
734      * Upload BE UL MU-OFDMA + BE DL MU-OFDMA stats,
735      * TLV: htt_tx_pdev_dl_be_mu_ofdma_sch_stats_tlv and
736      * htt_tx_pdev_ul_be_mu_ofdma_sch_stats_tlv
737      */
738     HTT_UPLOAD_BE_MU_OFDMA_STATS,
739 
740     /*
741      * Upload BE DL MU-OFDMA
742      * TLV: htt_tx_pdev_dl_be_mu_ofdma_sch_stats_tlv
743      */
744     HTT_UPLOAD_BE_DL_MU_OFDMA_STATS,
745 
746     /*
747      * Upload BE UL MU-OFDMA
748      * TLV: htt_tx_pdev_ul_be_mu_ofdma_sch_stats_tlv
749      */
750     HTT_UPLOAD_BE_UL_MU_OFDMA_STATS,
751 } htt_mu_stats_upload_t;
752 
753 /* htt_tx_rate_stats_upload_t
754  * Enumerations for specifying which stats to upload in response to
755  * HTT_DBG_EXT_STATS_PDEV_TX_RATE.
756  */
757 typedef enum {
758     /* 11abgn, 11ac, and 11ax TX stats, and a few 11be SU stats
759      *
760      * TLV: htt_tx_pdev_rate_stats_tlv
761      */
762     HTT_TX_RATE_STATS_DEFAULT,
763 
764     /*
765      * Upload 11be OFDMA TX stats
766      *
767      * TLV: htt_tx_pdev_rate_stats_be_ofdma_tlv
768      */
769     HTT_TX_RATE_STATS_UPLOAD_11BE_OFDMA,
770 } htt_tx_rate_stats_upload_t;
771 
772 /* htt_rx_ul_trigger_stats_upload_t
773  * Enumerations for specifying which stats to upload in response to
774  * HTT_DBG_EXT_STATS_PDEV_TX_RATE.
775  */
776 typedef enum {
777     /* Upload 11ax UL OFDMA RX Trigger stats
778      *
779      * TLV: htt_rx_pdev_ul_trigger_stats_tlv
780      */
781     HTT_RX_UL_TRIGGER_STATS_UPLOAD_11AX_OFDMA,
782 
783     /*
784      * Upload 11be UL OFDMA RX Trigger stats
785      *
786      * TLV: htt_rx_pdev_be_ul_trigger_stats_tlv
787      */
788     HTT_RX_UL_TRIGGER_STATS_UPLOAD_11BE_OFDMA,
789 } htt_rx_ul_trigger_stats_upload_t;
790 
791 /*
792  * The htt_rx_ul_mumimo_trigger_stats_upload_t enum values are
793  * provided by the host as one of the config param elements in
794  * the HTT_H2T EXT_STATS_REQ message, for stats type ==
795  * HTT_DBG_EXT_STATS_PDEV_UL_MUMIMO_TRIG_STATS.
796  */
797 typedef enum {
798     /*
799      * Upload 11ax UL MUMIMO RX Trigger stats
800      * TLV: htt_rx_pdev_ul_mumimo_trig_stats_tlv
801      */
802     HTT_RX_UL_MUMIMO_TRIGGER_STATS_UPLOAD_11AX,
803 
804     /*
805      * Upload 11be UL MUMIMO RX Trigger stats
806      * TLV: htt_rx_pdev_ul_mumimo_trig_be_stats_tlv
807      */
808     HTT_RX_UL_MUMIMO_TRIGGER_STATS_UPLOAD_11BE,
809 } htt_rx_ul_mumimo_trigger_stats_upload_t;
810 
811 /* htt_tx_pdev_txbf_ofdma_stats_upload_t
812  * Enumerations for specifying which stats to upload in response to
813  * HTT_DBG_EXT_STATS_TXBF_OFDMA.
814  */
815 typedef enum {
816     /* upload 11ax TXBF OFDMA stats
817      *
818      * TLV: htt_tx_pdev_ax_txbf_ofdma_stats_t
819      */
820     HTT_UPLOAD_AX_TXBF_OFDMA_STATS,
821 
822     /*
823      * Upload 11be TXBF OFDMA stats
824      *
825      * TLV: htt_tx_pdev_be_txbf_ofdma_stats_t
826      */
827     HTT_UPLOAD_BE_TXBF_OFDMA_STATS,
828 } htt_tx_pdev_txbf_ofdma_stats_upload_t;
829 
830 /* htt_tx_pdev_puncture_stats_upload_t
831  * Enumerations for specifying which stats to upload in response to
832  * HTT_DBG_PDEV_PUNCTURE_STATS.
833  */
834 typedef enum {
835     /* upload puncture stats for all supported modes, both TX and RX */
836     HTT_UPLOAD_PUNCTURE_STATS_ALL,
837 
838     /* upload puncture stats for all supported TX modes */
839     HTT_UPLOAD_PUNCTURE_STATS_TX,
840 
841     /* upload puncture stats for all supported RX modes */
842     HTT_UPLOAD_PUNCTURE_STATS_RX,
843 } htt_tx_pdev_puncture_stats_upload_t;
844 
845 #define HTT_STATS_MAX_STRING_SZ32 4
846 #define HTT_STATS_MACID_INVALID 0xff
847 #define HTT_TX_HWQ_MAX_DIFS_LATENCY_BINS 10
848 #define HTT_TX_HWQ_MAX_CMD_RESULT_STATS 13
849 #define HTT_TX_HWQ_MAX_CMD_STALL_STATS 5
850 #define HTT_TX_HWQ_MAX_FES_RESULT_STATS 10
851 #define HTT_PDEV_STATS_PPDU_DUR_HIST_BINS 16
852 #define HTT_PDEV_STATS_PPDU_DUR_HIST_INTERVAL_US 250
853 
854 typedef enum {
855     HTT_STATS_TX_PDEV_NO_DATA_UNDERRUN = 0,
856     HTT_STATS_TX_PDEV_DATA_UNDERRUN_BETWEEN_MPDU = 1,
857     HTT_STATS_TX_PDEV_DATA_UNDERRUN_WITHIN_MPDU = 2,
858     HTT_TX_PDEV_MAX_URRN_STATS = 3,
859 } htt_tx_pdev_underrun_enum;
860 
861 #define HTT_TX_PDEV_MAX_FLUSH_REASON_STATS 150
862 #define HTT_TX_PDEV_MAX_SIFS_BURST_STATS 9
863 #define HTT_TX_PDEV_MAX_SIFS_BURST_HIST_STATS 10
864 #define HTT_TX_PDEV_MAX_PHY_ERR_STATS 18
865 /* HTT_TX_PDEV_SCHED_TX_MODE_MAX:
866  * DEPRECATED - num sched tx mode max is 8
867  */
868 #define HTT_TX_PDEV_SCHED_TX_MODE_MAX 4
869 #define HTT_TX_PDEV_NUM_SCHED_ORDER_LOG 20
870 
871 #define HTT_RX_STATS_REFILL_MAX_RING 4
872 #define HTT_RX_STATS_RXDMA_MAX_ERR 16
873 #define HTT_RX_STATS_FW_DROP_REASON_MAX 16
874 
875 /* Bytes stored in little endian order */
876 /* Length should be multiple of DWORD */
877 typedef struct {
878     htt_tlv_hdr_t tlv_hdr;
879     HTT_STATS_VAR_LEN_ARRAY1(A_UINT32, data); /* Can be variable length */
880 } htt_stats_string_tlv;
881 
882 #define HTT_TX_PDEV_STATS_CMN_MAC_ID_M 0x000000ff
883 #define HTT_TX_PDEV_STATS_CMN_MAC_ID_S 0
884 
885 #define HTT_TX_PDEV_STATS_CMN_MAC_ID_GET(_var) \
886     (((_var) & HTT_TX_PDEV_STATS_CMN_MAC_ID_M) >> \
887      HTT_TX_PDEV_STATS_CMN_MAC_ID_S)
888 
889 #define HTT_TX_PDEV_STATS_CMN_MAC_ID_SET(_var, _val) \
890     do { \
891         HTT_CHECK_SET_VAL(HTT_TX_PDEV_STATS_CMN_MAC_ID, _val); \
892         ((_var) |= ((_val) << HTT_TX_PDEV_STATS_CMN_MAC_ID_S)); \
893     } while (0)
894 
895 /* == TX PDEV STATS == */
896 typedef struct {
897     htt_tlv_hdr_t tlv_hdr;
898 
899     /**
900      * BIT [ 7 :  0]   :- mac_id
901      * BIT [31 :  8]   :- reserved
902      */
903     A_UINT32 mac_id__word;
904     /** Num PPDUs queued to HW */
905     A_UINT32 hw_queued;
906     /** Num PPDUs reaped from HW */
907     A_UINT32 hw_reaped;
908     /** Num underruns */
909     A_UINT32 underrun;
910     /** Num HW Paused counter */
911     A_UINT32 hw_paused;
912     /** Num HW flush counter */
913     A_UINT32 hw_flush;
914     /** Num HW filtered counter */
915     A_UINT32 hw_filt;
916     /** Num PPDUs cleaned up in TX abort */
917     A_UINT32 tx_abort;
918     /** Num MPDUs requeued by SW */
919     A_UINT32 mpdu_requed;
920     /** excessive retries */
921     A_UINT32 tx_xretry;
922     /** Last used data hw rate code */
923     A_UINT32 data_rc;
924     /** frames dropped due to excessive SW retries */
925     A_UINT32 mpdu_dropped_xretry;
926     /** illegal rate phy errors */
927     A_UINT32 illgl_rate_phy_err;
928     /** wal pdev continuous xretry */
929     A_UINT32 cont_xretry;
930     /** wal pdev tx timeout */
931     A_UINT32 tx_timeout;
932     /** wal pdev resets  */
933     A_UINT32 pdev_resets;
934     /** PHY/BB underrun */
935     A_UINT32 phy_underrun;
936     /** MPDU is more than txop limit */
937     A_UINT32 txop_ovf;
938     /** Number of Sequences posted */
939     A_UINT32 seq_posted;
940     /** Number of Sequences failed queueing */
941     A_UINT32 seq_failed_queueing;
942     /** Number of Sequences completed */
943     A_UINT32 seq_completed;
944     /** Number of Sequences restarted */
945     A_UINT32 seq_restarted;
946     /** Number of MU Sequences posted */
947     A_UINT32 mu_seq_posted;
948     /** Number of time HW ring is paused between seq switch within ISR */
949     A_UINT32 seq_switch_hw_paused;
950     /** Number of times seq continuation in DSR */
951     A_UINT32 next_seq_posted_dsr;
952     /** Number of times seq continuation in ISR */
953     A_UINT32 seq_posted_isr;
954     /** Number of seq_ctrl cached. */
955     A_UINT32 seq_ctrl_cached;
956     /** Number of MPDUs successfully transmitted */
957     A_UINT32 mpdu_count_tqm;
958     /** Number of MSDUs successfully transmitted */
959     A_UINT32 msdu_count_tqm;
960     /** Number of MPDUs dropped */
961     A_UINT32 mpdu_removed_tqm;
962     /** Number of MSDUs dropped */
963     A_UINT32 msdu_removed_tqm;
964     /** Num MPDUs flushed by SW, HWPAUSED, SW TXABORT (Reset,channel change) */
965     A_UINT32 mpdus_sw_flush;
966     /** Num MPDUs filtered by HW, all filter condition (TTL expired) */
967     A_UINT32 mpdus_hw_filter;
968     /**
969      * Num MPDUs truncated by PDG
970      * (TXOP, TBTT, PPDU_duration based on rate, dyn_bw)
971      */
972     A_UINT32 mpdus_truncated;
973     /** Num MPDUs that was tried but didn't receive ACK or BA */
974     A_UINT32 mpdus_ack_failed;
975     /** Num MPDUs that was dropped due to expiry (MSDU TTL) */
976     A_UINT32 mpdus_expired;
977     /** Num MPDUs that was retried within seq_ctrl (MGMT/LEGACY) */
978     A_UINT32 mpdus_seq_hw_retry;
979     /** Num of TQM acked cmds processed */
980     A_UINT32 ack_tlv_proc;
981     /** coex_abort_mpdu_cnt valid */
982     A_UINT32 coex_abort_mpdu_cnt_valid;
983     /** coex_abort_mpdu_cnt from TX FES stats */
984     A_UINT32 coex_abort_mpdu_cnt;
985     /**
986      * Number of total PPDUs
987      * (DATA, MGMT, excludes selfgen) tried over the air (OTA)
988      */
989     A_UINT32 num_total_ppdus_tried_ota;
990     /** Number of data PPDUs tried over the air (OTA) */
991     A_UINT32 num_data_ppdus_tried_ota;
992     /** Num Local control/mgmt frames (MSDUs) queued */
993     A_UINT32 local_ctrl_mgmt_enqued;
994     /**
995      * Num Local control/mgmt frames (MSDUs) done
996      * It includes all local ctrl/mgmt completions
997      * (acked, no ack, flush, TTL, etc)
998      */
999     A_UINT32 local_ctrl_mgmt_freed;
1000     /** Num Local data frames (MSDUs) queued */
1001     A_UINT32 local_data_enqued;
1002     /**
1003      * Num Local data frames (MSDUs) done
1004      * It includes all local data completions
1005      * (acked, no ack, flush, TTL, etc)
1006      */
1007     A_UINT32 local_data_freed;
1008 
1009     /** Num MPDUs tried by SW */
1010     A_UINT32 mpdu_tried;
1011     /** Num of waiting seq posted in ISR completion handler */
1012     A_UINT32 isr_wait_seq_posted;
1013 
1014     A_UINT32 tx_active_dur_us_low;
1015     A_UINT32 tx_active_dur_us_high;
1016     /** Number of MPDUs dropped after max retries */
1017     A_UINT32 remove_mpdus_max_retries;
1018     /** Num HTT cookies dispatched */
1019     A_UINT32 comp_delivered;
1020     /** successful ppdu transmissions */
1021     A_UINT32 ppdu_ok;
1022     /** Scheduler self triggers */
1023     A_UINT32 self_triggers;
1024     /** FES duration of last tx data PPDU in us (sch_eval_end - ppdu_start) */
1025     A_UINT32 tx_time_dur_data;
1026     /** Num of times sequence terminated due to ppdu duration < burst limit */
1027     A_UINT32 seq_qdepth_repost_stop;
1028     /** Num of times MU sequence terminated due to MSDUs reaching threshold */
1029     A_UINT32 mu_seq_min_msdu_repost_stop;
1030     /** Num of times SU sequence terminated due to MSDUs reaching threshold */
1031     A_UINT32 seq_min_msdu_repost_stop;
1032     /** Num of times sequence terminated due to no TXOP available */
1033     A_UINT32 seq_txop_repost_stop;
1034     /** Num of times the next sequence got cancelled */
1035     A_UINT32 next_seq_cancel;
1036     /** Num of times fes offset was misaligned */
1037     A_UINT32 fes_offsets_err_cnt;
1038     /** Num of times peer denylisted for MU-MIMO transmission */
1039     A_UINT32 num_mu_peer_blacklisted;
1040     /** Num of times mu_ofdma seq posted */
1041     A_UINT32 mu_ofdma_seq_posted;
1042     /** Num of times UL MU MIMO seq posted */
1043     A_UINT32 ul_mumimo_seq_posted;
1044     /** Num of times UL OFDMA seq posted */
1045     A_UINT32 ul_ofdma_seq_posted;
1046     /** Num of times Thermal module suspended scheduler */
1047     A_UINT32 thermal_suspend_cnt;
1048     /** Num of times DFS module suspended scheduler */
1049     A_UINT32 dfs_suspend_cnt;
1050     /** Num of times TX abort module suspended scheduler */
1051     A_UINT32 tx_abort_suspend_cnt;
1052     /**
1053      * This field is a target-specific bit mask of suspended PPDU tx queues.
1054      * Since the bit mask definition is different for different targets,
1055      * this field is not meant for general use, but rather for debugging use.
1056      */
1057     A_UINT32 tgt_specific_opaque_txq_suspend_info;
1058     /**
1059      * Last SCHEDULER suspend reason
1060      * 1 -> Thermal Module
1061      * 2 -> DFS Module
1062      * 3 -> Tx Abort Module
1063      */
1064     A_UINT32 last_suspend_reason;
1065     /** Num of dynamic mimo ps dlmumimo sequences posted */
1066     A_UINT32 num_dyn_mimo_ps_dlmumimo_sequences;
1067     /** Num of times su bf sequences are denylisted */
1068     A_UINT32 num_su_txbf_denylisted;
1069     /** pdev uptime in microseconds **/
1070     A_UINT32 pdev_up_time_us_low;
1071     A_UINT32 pdev_up_time_us_high;
1072     /** count of ofdma sequences flushed */
1073     A_UINT32 ofdma_seq_flush;
1074 } htt_stats_tx_pdev_cmn_tlv;
1075 /* preserve old name alias for new name consistent with the tag name */
1076 typedef htt_stats_tx_pdev_cmn_tlv htt_tx_pdev_stats_cmn_tlv;
1077 
1078 #define HTT_TX_PDEV_STATS_URRN_TLV_SZ(_num_elems) (sizeof(A_UINT32) * (_num_elems))
1079 /* NOTE: Variable length TLV, use length spec to infer array size */
1080 typedef struct {
1081     htt_tlv_hdr_t tlv_hdr;
1082 
1083     /* HTT_TX_PDEV_MAX_URRN_STATS */
1084     HTT_STATS_VAR_LEN_ARRAY1(A_UINT32, urrn_stats);
1085 } htt_stats_tx_pdev_underrun_tlv;
1086 /* preserve old name alias for new name consistent with the tag name */
1087 typedef htt_stats_tx_pdev_underrun_tlv htt_tx_pdev_stats_urrn_tlv_v;
1088 
1089 #define HTT_TX_PDEV_STATS_FLUSH_TLV_SZ(_num_elems) (sizeof(A_UINT32) * (_num_elems))
1090 /* NOTE: Variable length TLV, use length spec to infer array size */
1091 typedef struct {
1092     htt_tlv_hdr_t tlv_hdr;
1093 
1094     /* HTT_TX_PDEV_MAX_FLUSH_REASON_STATS */
1095     HTT_STATS_VAR_LEN_ARRAY1(A_UINT32, flush_errs);
1096 } htt_stats_tx_pdev_flush_tlv;
1097 /* preserve old name alias for new name consistent with the tag name */
1098 typedef htt_stats_tx_pdev_flush_tlv htt_tx_pdev_stats_flush_tlv_v;
1099 
1100 #define HTT_TX_PDEV_STATS_MLO_ABORT_TLV_SZ(_num_elems) (sizeof(A_UINT32) * (_num_elems))
1101 /* NOTE: Variable length TLV, use length spec to infer array size */
1102 typedef struct {
1103     htt_tlv_hdr_t tlv_hdr;
1104 
1105     /* HTT_TX_PDEV_MAX_MLO_ABORT_REASON_STATS */
1106     HTT_STATS_VAR_LEN_ARRAY1(A_UINT32, mlo_abort_cnt);
1107 } htt_stats_tx_pdev_mlo_abort_tlv;
1108 /* preserve old name alias for new name consistent with the tag name */
1109 typedef htt_stats_tx_pdev_mlo_abort_tlv htt_tx_pdev_stats_mlo_abort_tlv_v;
1110 
1111 #define HTT_TX_PDEV_STATS_MLO_TXOP_ABORT_TLV_SZ(_num_elems) (sizeof(A_UINT32) * (_num_elems))
1112 /* NOTE: Variable length TLV, use length spec to infer array size */
1113 typedef struct {
1114     htt_tlv_hdr_t tlv_hdr;
1115 
1116     /* HTT_TX_PDEV_MAX_MLO_ABORT_REASON_STATS */
1117     HTT_STATS_VAR_LEN_ARRAY1(A_UINT32, mlo_txop_abort_cnt);
1118 } htt_stats_tx_pdev_mlo_txop_abort_tlv;
1119 /* preserve old name alias for new name consistent with the tag name */
1120 typedef htt_stats_tx_pdev_mlo_txop_abort_tlv
1121     htt_tx_pdev_stats_mlo_txop_abort_tlv_v;
1122 
1123 #define HTT_TX_PDEV_STATS_SIFS_TLV_SZ(_num_elems) (sizeof(A_UINT32) * (_num_elems))
1124 /* NOTE: Variable length TLV, use length spec to infer array size */
1125 typedef struct {
1126     htt_tlv_hdr_t tlv_hdr;
1127 
1128     /* HTT_TX_PDEV_MAX_SIFS_BURST_STATS */
1129     HTT_STATS_VAR_LEN_ARRAY1(A_UINT32, sifs_status);
1130 } htt_stats_tx_pdev_sifs_tlv;
1131 /* preserve old name alias for new name consistent with the tag name */
1132 typedef htt_stats_tx_pdev_sifs_tlv htt_tx_pdev_stats_sifs_tlv_v;
1133 
1134 #define HTT_TX_PDEV_STATS_PHY_ERR_TLV_SZ(_num_elems) (sizeof(A_UINT32) * (_num_elems))
1135 /* NOTE: Variable length TLV, use length spec to infer array size */
1136 typedef struct {
1137     htt_tlv_hdr_t tlv_hdr;
1138 
1139     /* HTT_TX_PDEV_MAX_PHY_ERR_STATS */
1140     HTT_STATS_VAR_LEN_ARRAY1(A_UINT32, phy_errs);
1141 } htt_stats_tx_pdev_phy_err_tlv;
1142 /* preserve old name alias for new name consistent with the tag name */
1143 typedef htt_stats_tx_pdev_phy_err_tlv htt_tx_pdev_stats_phy_err_tlv_v;
1144 
1145 /*
1146  * Each array in the below struct has 16 elements, to cover the 16 possible
1147  * values for the CW and AIFS parameters.  Each element within the array
1148  * stores the counter indicating how many transmissions have occurred with
1149  * that particular value for the MU EDCA parameter in question.
1150  */
1151 #define HTT_STATS_MUEDCA_VALUE_MAX 16
1152 typedef struct { /* DEPRECATED */
1153     htt_tlv_hdr_t tlv_hdr;
1154     A_UINT32 aifs[HTT_NUM_AC_WMM][HTT_STATS_MUEDCA_VALUE_MAX];
1155     A_UINT32 cw_min[HTT_NUM_AC_WMM][HTT_STATS_MUEDCA_VALUE_MAX];
1156     A_UINT32 cw_max[HTT_NUM_AC_WMM][HTT_STATS_MUEDCA_VALUE_MAX];
1157 } htt_stats_tx_pdev_muedca_params_stats_tlv;
1158 /* preserve old name alias for new name consistent with the tag name */
1159 typedef htt_stats_tx_pdev_muedca_params_stats_tlv
1160     htt_tx_pdev_muedca_params_stats_tlv_v;
1161 
1162 typedef struct {
1163     htt_tlv_hdr_t tlv_hdr;
1164     A_UINT32 relaxed_mu_edca[HTT_NUM_AC_WMM];
1165     A_UINT32 mumimo_aggressive_mu_edca[HTT_NUM_AC_WMM];
1166     A_UINT32 mumimo_relaxed_mu_edca[HTT_NUM_AC_WMM];
1167     A_UINT32 muofdma_aggressive_mu_edca[HTT_NUM_AC_WMM];
1168     A_UINT32 muofdma_relaxed_mu_edca[HTT_NUM_AC_WMM];
1169     A_UINT32 latency_mu_edca[HTT_NUM_AC_WMM];
1170     A_UINT32 psd_boost_mu_edca[HTT_NUM_AC_WMM];
1171 } htt_stats_tx_pdev_mu_edca_params_stats_tlv;
1172 /* preserve old name alias for new name consistent with the tag name */
1173 typedef htt_stats_tx_pdev_mu_edca_params_stats_tlv
1174     htt_tx_pdev_mu_edca_params_stats_tlv_v;
1175 
1176 typedef struct {
1177     htt_tlv_hdr_t tlv_hdr;
1178     A_UINT32 ul_mumimo_less_aggressive[HTT_NUM_AC_WMM];
1179     A_UINT32 ul_mumimo_medium_aggressive[HTT_NUM_AC_WMM];
1180     A_UINT32 ul_mumimo_highly_aggressive[HTT_NUM_AC_WMM];
1181     A_UINT32 ul_mumimo_default_relaxed[HTT_NUM_AC_WMM];
1182     A_UINT32 ul_muofdma_less_aggressive[HTT_NUM_AC_WMM];
1183     A_UINT32 ul_muofdma_medium_aggressive[HTT_NUM_AC_WMM];
1184     A_UINT32 ul_muofdma_highly_aggressive[HTT_NUM_AC_WMM];
1185     A_UINT32 ul_muofdma_default_relaxed[HTT_NUM_AC_WMM];
1186 } htt_stats_tx_pdev_ap_edca_params_stats_tlv;
1187 /* preserve old name alias for new name consistent with the tag name */
1188 typedef htt_stats_tx_pdev_ap_edca_params_stats_tlv
1189     htt_tx_pdev_ap_edca_params_stats_tlv_v;
1190 
1191 #define HTT_TX_PDEV_SIFS_BURST_HIST_STATS 10
1192 #define HTT_TX_PDEV_STATS_SIFS_HIST_TLV_SZ(_num_elems) (sizeof(A_UINT32) * (_num_elems))
1193 /* NOTE: Variable length TLV, use length spec to infer array size */
1194 typedef struct {
1195     htt_tlv_hdr_t tlv_hdr;
1196 
1197     /* HTT_TX_PDEV_SIFS_BURST_HIST_STATS */
1198     HTT_STATS_VAR_LEN_ARRAY1(A_UINT32, sifs_hist_status);
1199 } htt_stats_tx_pdev_sifs_hist_tlv;
1200 /* preserve old name alias for new name consistent with the tag name */
1201 typedef htt_stats_tx_pdev_sifs_hist_tlv htt_tx_pdev_stats_sifs_hist_tlv_v;
1202 
1203 typedef struct {
1204     htt_tlv_hdr_t tlv_hdr;
1205     A_UINT32      num_data_ppdus_legacy_su;
1206     A_UINT32      num_data_ppdus_ac_su;
1207     A_UINT32      num_data_ppdus_ax_su;
1208     A_UINT32      num_data_ppdus_ac_su_txbf;
1209     A_UINT32      num_data_ppdus_ax_su_txbf;
1210 } htt_stats_tx_pdev_tx_ppdu_stats_tlv;
1211 /* preserve old name alias for new name consistent with the tag name */
1212 typedef htt_stats_tx_pdev_tx_ppdu_stats_tlv
1213     htt_tx_pdev_stats_tx_ppdu_stats_tlv_v;
1214 
1215 typedef enum {
1216     HTT_TX_WAL_ISR_SCHED_SUCCESS,
1217     HTT_TX_WAL_ISR_SCHED_FILTER,
1218     HTT_TX_WAL_ISR_SCHED_RESP_TIMEOUT,
1219     HTT_TX_WAL_ISR_SCHED_RATES_EXHAUSTED,
1220     HTT_TX_WAL_ISR_SCHED_DATA_EXHAUSTED,
1221     HTT_TX_WAL_ISR_SCHED_SEQ_ABORT,
1222     HTT_TX_WAL_ISR_SCHED_NOTIFY_FRAME_ENCOUNTERED,
1223     HTT_TX_WAL_ISR_SCHED_COMPLETION,
1224     HTT_TX_WAL_ISR_SCHED_IN_PROGRESS,
1225 } htt_tx_wal_tx_isr_sched_status;
1226 
1227 /* [0]- nr4 , [1]- nr8 */
1228 #define HTT_STATS_NUM_NR_BINS 2
1229 /* Termination status stated in htt_tx_wal_tx_isr_sched_status */
1230 #define HTT_STATS_MAX_NUM_SCHED_STATUS  9
1231 #define HTT_STATS_MAX_NUM_MU_PPDU_PER_BURST 10
1232 #define HTT_STATS_MAX_NUM_SCHED_STATUS_WORDS \
1233     (HTT_STATS_NUM_NR_BINS * HTT_STATS_MAX_NUM_SCHED_STATUS)
1234 #define HTT_STATS_MAX_NUM_MU_PPDU_PER_BURST_WORDS \
1235     (HTT_STATS_NUM_NR_BINS * HTT_STATS_MAX_NUM_MU_PPDU_PER_BURST)
1236 
1237 typedef enum {
1238     HTT_STATS_HWMODE_AC = 0,
1239     HTT_STATS_HWMODE_AX = 1,
1240     HTT_STATS_HWMODE_BE = 2,
1241 } htt_stats_hw_mode;
1242 
1243 typedef struct {
1244     htt_tlv_hdr_t tlv_hdr;
1245 
1246     A_UINT32 hw_mode; /* HTT_STATS_HWMODE_xx */
1247 
1248     A_UINT32 mu_mimo_num_seq_term_status[HTT_STATS_MAX_NUM_SCHED_STATUS_WORDS];
1249 
1250     A_UINT32 mu_mimo_num_ppdu_completed_per_burst[HTT_STATS_MAX_NUM_MU_PPDU_PER_BURST_WORDS];
1251 
1252     A_UINT32 mu_mimo_num_seq_posted[HTT_STATS_NUM_NR_BINS];
1253 
1254     A_UINT32 mu_mimo_num_ppdu_posted_per_burst[HTT_STATS_MAX_NUM_MU_PPDU_PER_BURST_WORDS];
1255 } htt_stats_mu_ppdu_dist_tlv;
1256 /* preserve old name alias for new name consistent with the tag name */
1257 typedef htt_stats_mu_ppdu_dist_tlv htt_pdev_mu_ppdu_dist_tlv_v;
1258 
1259 #define HTT_TX_PDEV_STATS_TRIED_MPDU_CNT_HIST_TLV_SZ(_num_elems) (sizeof(A_UINT32) * (_num_elems))
1260 /* NOTE: Variable length TLV, use length spec to infer array size .
1261  *
1262  *  Tried_mpdu_cnt_hist is the histogram of MPDUs tries per HWQ.
1263  *  The tries here is the count of the  MPDUS within a PPDU that the
1264  *  HW had attempted to transmit on  air, for the HWSCH Schedule
1265  *  command submitted by FW.It is not the retry attempts.
1266  *  The histogram bins are  0-29, 30-59, 60-89 and so on. The are
1267  *   10 bins in this histogram. They are defined in FW using the
1268  *  following macros
1269  *  #define WAL_MAX_TRIED_MPDU_CNT_HISTOGRAM 9
1270  *  #define WAL_TRIED_MPDU_CNT_HISTOGRAM_INTERVAL 30
1271  *
1272  */
1273 typedef struct {
1274     htt_tlv_hdr_t tlv_hdr;
1275     A_UINT32      hist_bin_size;
1276 
1277     /* HTT_TX_PDEV_TRIED_MPDU_CNT_HIST */
1278     HTT_STATS_VAR_LEN_ARRAY1(A_UINT32, tried_mpdu_cnt_hist);
1279 } htt_stats_tx_pdev_tried_mpdu_cnt_hist_tlv;
1280 /* preserve old name alias for new name consistent with the tag name */
1281 typedef htt_stats_tx_pdev_tried_mpdu_cnt_hist_tlv
1282     htt_tx_pdev_stats_tried_mpdu_cnt_hist_tlv_v;
1283 
1284 typedef struct {
1285     htt_tlv_hdr_t tlv_hdr;
1286     /* Num MGMT MPDU transmitted by the target */
1287     A_UINT32 fw_tx_mgmt_subtype[HTT_STATS_SUBTYPE_MAX];
1288 } htt_stats_pdev_ctrl_path_tx_stats_tlv;
1289 /* preserve old name alias for new name consistent with the tag name */
1290 typedef htt_stats_pdev_ctrl_path_tx_stats_tlv htt_pdev_ctrl_path_tx_stats_tlv_v;
1291 
1292 /* STATS_TYPE: HTT_DBG_EXT_STATS_PDEV_TX
1293  * TLV_TAGS:
1294  *      - HTT_STATS_TX_PDEV_CMN_TAG
1295  *      - HTT_STATS_TX_PDEV_URRN_TAG
1296  *      - HTT_STATS_TX_PDEV_SIFS_TAG
1297  *      - HTT_STATS_TX_PDEV_FLUSH_TAG
1298  *      - HTT_STATS_TX_PDEV_PHY_ERR_TAG
1299  *      - HTT_STATS_TX_PDEV_SIFS_HIST_TAG
1300  *      - HTT_STATS_TX_PDEV_TX_PPDU_STATS_TAG
1301  *      - HTT_STATS_TX_PDEV_TRIED_MPDU_CNT_HIST_TAG
1302  *      - HTT_STATS_PDEV_CTRL_PATH_TX_STATS_TAG
1303  *      - HTT_STATS_MU_PPDU_DIST_TAG
1304  */
1305 /* NOTE:
1306  * This structure is for documentation, and cannot be safely used directly.
1307  * Instead, use the constituent TLV structures to fill/parse.
1308  */
1309 #ifdef ATH_TARGET
1310 typedef struct _htt_tx_pdev_stats {
1311     htt_stats_tx_pdev_cmn_tlv                   cmn_tlv;
1312     htt_stats_tx_pdev_underrun_tlv              underrun_tlv;
1313     htt_stats_tx_pdev_sifs_tlv                  sifs_tlv;
1314     htt_stats_tx_pdev_flush_tlv                 flush_tlv;
1315     htt_stats_tx_pdev_phy_err_tlv               phy_err_tlv;
1316     htt_stats_tx_pdev_sifs_hist_tlv             sifs_hist_tlv;
1317     htt_stats_tx_pdev_tx_ppdu_stats_tlv         tx_su_tlv;
1318     htt_stats_tx_pdev_tried_mpdu_cnt_hist_tlv   tried_mpdu_cnt_hist_tlv;
1319     htt_stats_pdev_ctrl_path_tx_stats_tlv       ctrl_path_tx_tlv;
1320     htt_stats_mu_ppdu_dist_tlv                  mu_ppdu_dist_tlv;
1321 } htt_tx_pdev_stats_t;
1322 #endif /* ATH_TARGET */
1323 
1324 /* == SOC ERROR STATS == */
1325 
1326 /* =============== PDEV ERROR STATS ============== */
1327 #define HTT_STATS_MAX_HW_INTR_NAME_LEN 8
1328 typedef struct {
1329     htt_tlv_hdr_t tlv_hdr;
1330     /* Stored as little endian */
1331     A_UINT8  hw_intr_name[HTT_STATS_MAX_HW_INTR_NAME_LEN];
1332     A_UINT32 mask;
1333     A_UINT32 count;
1334 } htt_stats_hw_intr_misc_tlv;
1335 /* preserve old name alias for new name consistent with the tag name */
1336 typedef htt_stats_hw_intr_misc_tlv htt_hw_stats_intr_misc_tlv;
1337 
1338 #define HTT_STATS_MAX_HW_MODULE_NAME_LEN 8
1339 typedef struct {
1340     htt_tlv_hdr_t tlv_hdr;
1341     /* Stored as little endian */
1342     A_UINT8  hw_module_name[HTT_STATS_MAX_HW_MODULE_NAME_LEN];
1343     A_UINT32 count;
1344 } htt_stats_hw_wd_timeout_tlv;
1345 /* preserve old name alias for new name consistent with the tag name */
1346 typedef htt_stats_hw_wd_timeout_tlv htt_hw_stats_wd_timeout_tlv;
1347 
1348 #define HTT_HW_STATS_PDEV_ERRS_MAC_ID_M 0x000000ff
1349 #define HTT_HW_STATS_PDEV_ERRS_MAC_ID_S 0
1350 
1351 #define HTT_HW_STATS_PDEV_ERRS_MAC_ID_GET(_var) \
1352     (((_var) & HTT_HW_STATS_PDEV_ERRS_MAC_ID_M) >> \
1353      HTT_HW_STATS_PDEV_ERRS_MAC_ID_S)
1354 
1355 #define HTT_HW_STATS_PDEV_ERRS_MAC_ID_SET(_var, _val) \
1356     do { \
1357         HTT_CHECK_SET_VAL(HTT_HW_STATS_PDEV_ERRS_MAC_ID, _val); \
1358         ((_var) |= ((_val) << HTT_HW_STATS_PDEV_ERRS_MAC_ID_S)); \
1359     } while (0)
1360 
1361 typedef struct {
1362     htt_tlv_hdr_t tlv_hdr;
1363 
1364     /* BIT [ 7 :  0]   :- mac_id
1365      * BIT [31 :  8]   :- reserved
1366      */
1367     A_UINT32 mac_id__word;
1368     A_UINT32 tx_abort;
1369     A_UINT32 tx_abort_fail_count;
1370     A_UINT32 rx_abort;
1371     A_UINT32 rx_abort_fail_count;
1372     A_UINT32 warm_reset;
1373     A_UINT32 cold_reset;
1374     A_UINT32 tx_flush;
1375     A_UINT32 tx_glb_reset;
1376     A_UINT32 tx_txq_reset;
1377     A_UINT32 rx_timeout_reset;
1378     A_UINT32 mac_cold_reset_restore_cal;
1379     A_UINT32 mac_cold_reset;
1380     A_UINT32 mac_warm_reset;
1381     A_UINT32 mac_only_reset;
1382     A_UINT32 phy_warm_reset;
1383     A_UINT32 phy_warm_reset_ucode_trig;
1384     A_UINT32 mac_warm_reset_restore_cal;
1385     A_UINT32 mac_sfm_reset;
1386     A_UINT32 phy_warm_reset_m3_ssr;
1387     A_UINT32 phy_warm_reset_reason_phy_m3;
1388     A_UINT32 phy_warm_reset_reason_tx_hw_stuck;
1389     A_UINT32 phy_warm_reset_reason_num_cca_rx_frame_stuck;
1390     A_UINT32 phy_warm_reset_reason_wal_rx_recovery_rst_rx_busy;
1391     A_UINT32 phy_warm_reset_reason_wal_rx_recovery_rst_mac_hang;
1392     A_UINT32 phy_warm_reset_reason_mac_reset_converted_phy_reset;
1393 
1394     A_UINT32 wal_rx_recovery_rst_mac_hang_count;
1395     A_UINT32 wal_rx_recovery_rst_known_sig_count;
1396     A_UINT32 wal_rx_recovery_rst_no_rx_count;
1397     A_UINT32 wal_rx_recovery_rst_no_rx_consecutive_count;
1398     A_UINT32 wal_rx_recovery_rst_rx_busy_count;
1399     A_UINT32 wal_rx_recovery_rst_phy_mac_hang_count;
1400     A_UINT32 rx_flush_cnt; /* Num rx flush issued */
1401     A_UINT32 phy_warm_reset_reason_tx_lifetime_expiry_cca_stuck;
1402     A_UINT32 phy_warm_reset_reason_tx_consecutive_flush9_war;
1403     A_UINT32 phy_warm_reset_reason_tx_hwsch_reset_war;
1404     A_UINT32 phy_warm_reset_reason_hwsch_wdog_or_cca_wdog_war;
1405     A_UINT32 fw_rx_rings_reset;
1406     /**
1407      * Num of iterations rx leak prevention successfully done.
1408      */
1409     A_UINT32 rx_dest_drain_rx_descs_leak_prevention_done;
1410     /**
1411      * Num of rx descs successfully saved by rx leak prevention.
1412      */
1413     A_UINT32 rx_dest_drain_rx_descs_saved_cnt;
1414     /*
1415      * Stats to debug reason Rx leak prevention
1416      * was not required to be kicked in.
1417      */
1418     A_UINT32 rx_dest_drain_rxdma2reo_leak_detected;
1419     A_UINT32 rx_dest_drain_rxdma2fw_leak_detected;
1420     A_UINT32 rx_dest_drain_rxdma2wbm_leak_detected;
1421     A_UINT32 rx_dest_drain_rxdma1_2sw_leak_detected;
1422     A_UINT32 rx_dest_drain_rx_drain_ok_mac_idle;
1423     A_UINT32 rx_dest_drain_ok_mac_not_idle;
1424     A_UINT32 rx_dest_drain_prerequisite_invld;
1425     A_UINT32 rx_dest_drain_skip_for_non_lmac_reset;
1426     A_UINT32 rx_dest_drain_hw_fifo_not_empty_post_drain_wait;
1427 } htt_stats_hw_pdev_errs_tlv;
1428 /* preserve old name alias for new name consistent with the tag name */
1429 typedef htt_stats_hw_pdev_errs_tlv htt_hw_stats_pdev_errs_tlv;
1430 
1431 typedef struct {
1432     htt_tlv_hdr_t tlv_hdr;
1433 
1434     /* BIT [ 7 :  0]   :- mac_id
1435      * BIT [31 :  8]   :- reserved
1436      */
1437     A_UINT32 mac_id__word;
1438     A_UINT32 last_unpause_ppdu_id;
1439     A_UINT32 hwsch_unpause_wait_tqm_write;
1440     A_UINT32 hwsch_dummy_tlv_skipped;
1441     A_UINT32 hwsch_misaligned_offset_received;
1442     A_UINT32 hwsch_reset_count;
1443     A_UINT32 hwsch_dev_reset_war;
1444     A_UINT32 hwsch_delayed_pause;
1445     A_UINT32 hwsch_long_delayed_pause;
1446     A_UINT32 sch_rx_ppdu_no_response;
1447     A_UINT32 sch_selfgen_response;
1448     A_UINT32 sch_rx_sifs_resp_trigger;
1449 } htt_stats_whal_tx_tlv;
1450 /* preserve old name alias for new name consistent with the tag name */
1451 typedef htt_stats_whal_tx_tlv htt_hw_stats_whal_tx_tlv;
1452 
1453 typedef struct {
1454     htt_tlv_hdr_t tlv_hdr;
1455 
1456     A_UINT32 wsib_event_watchdog_timeout;
1457     A_UINT32 wsib_event_slave_tlv_length_error;
1458     A_UINT32 wsib_event_slave_parity_error;
1459     A_UINT32 wsib_event_slave_direct_message;
1460     A_UINT32 wsib_event_slave_backpressure_error;
1461     A_UINT32 wsib_event_master_tlv_length_error;
1462 } htt_stats_whal_wsi_tlv;
1463 
1464 typedef struct {
1465     htt_tlv_hdr_t tlv_hdr;
1466     /**
1467      * BIT [ 7 :  0]   :- mac_id
1468      * BIT [31 :  8]   :- reserved
1469      */
1470     union {
1471         struct {
1472             A_UINT32 mac_id:    8,
1473                      reserved: 24;
1474         };
1475         A_UINT32 mac_id__word;
1476     };
1477 
1478     /**
1479      * hw_wars is a variable-length array, with each element counting
1480      * the number of occurrences of the corresponding type of HW WAR.
1481      * That is, hw_wars[0] indicates how many times HW WAR 0 occurred,
1482      * hw_wars[1] indicates how many times HW WAR 1 occurred, etc.
1483      * The target has an internal HW WAR mapping that it uses to keep
1484      * track of which HW WAR is WAR 0, which HW WAR is WAR 1, etc.
1485      */
1486     HTT_STATS_VAR_LEN_ARRAY1(A_UINT32, hw_wars);
1487 } htt_stats_hw_war_tlv;
1488 /* preserve old name alias for new name consistent with the tag name */
1489 typedef htt_stats_hw_war_tlv htt_hw_war_stats_tlv;
1490 /* provide properly-named macro */
1491 #define HTT_STATS_HW_WAR_MAC_ID_GET(word) (word & 0xff)
1492 
1493 /* STATS_TYPE: HTT_DBG_EXT_STATS_PDEV_ERROR
1494  * TLV_TAGS:
1495  *     - HTT_STATS_HW_PDEV_ERRS_TAG
1496  *     - HTT_STATS_HW_INTR_MISC_TAG (multiple)
1497  *     - HTT_STATS_HW_WD_TIMEOUT_TAG (multiple)
1498  *     - HTT_STATS_WHAL_TX_TAG
1499  *     - HTT_STATS_HW_WAR_TAG
1500  */
1501 /* NOTE:
1502  * This structure is for documentation, and cannot be safely used directly.
1503  * Instead, use the constituent TLV structures to fill/parse.
1504  */
1505 #ifdef ATH_TARGET
1506 typedef struct _htt_pdev_err_stats {
1507     htt_stats_hw_pdev_errs_tlv  pdev_errs;
1508     htt_stats_hw_intr_misc_tlv  misc_stats[1];
1509     htt_stats_hw_wd_timeout_tlv wd_timeout[1];
1510     htt_stats_whal_tx_tlv       whal_tx_stats;
1511     htt_stats_hw_war_tlv        hw_war;
1512 } htt_hw_err_stats_t;
1513 #endif /* ATH_TARGET */
1514 
1515 /* ============ PEER STATS ============ */
1516 
1517 #define HTT_MSDU_FLOW_STATS_TX_FLOW_NUM_M 0x0000ffff
1518 #define HTT_MSDU_FLOW_STATS_TX_FLOW_NUM_S 0
1519 #define HTT_MSDU_FLOW_STATS_TID_NUM_M 0x000f0000
1520 #define HTT_MSDU_FLOW_STATS_TID_NUM_S 16
1521 #define HTT_MSDU_FLOW_STATS_DROP_M 0x00100000
1522 #define HTT_MSDU_FLOW_STATS_DROP_S 20
1523 
1524 #define HTT_MSDU_FLOW_STATS_TX_FLOW_NUM_GET(_var) \
1525     (((_var) & HTT_MSDU_FLOW_STATS_TX_FLOW_NUM_M) >> \
1526      HTT_MSDU_FLOW_STATS_TX_FLOW_NUM_S)
1527 
1528 #define HTT_MSDU_FLOW_STATS_TX_FLOW_NUM_SET(_var, _val) \
1529     do { \
1530         HTT_CHECK_SET_VAL(HTT_MSDU_FLOW_STATS_TX_FLOW_NUM, _val); \
1531         ((_var) |= ((_val) << HTT_MSDU_FLOW_STATS_TX_FLOW_NUM_S)); \
1532     } while (0)
1533 
1534 #define HTT_MSDU_FLOW_STATS_TID_NUM_GET(_var) \
1535     (((_var) & HTT_MSDU_FLOW_STATS_TID_NUM_M) >> \
1536      HTT_MSDU_FLOW_STATS_TID_NUM_S)
1537 
1538 #define HTT_MSDU_FLOW_STATS_TID_NUM_SET(_var, _val) \
1539     do { \
1540         HTT_CHECK_SET_VAL(HTT_MSDU_FLOW_STATS_TID_NUM, _val); \
1541         ((_var) |= ((_val) << HTT_MSDU_FLOW_STATS_TID_NUM_S)); \
1542     } while (0)
1543 
1544 #define HTT_MSDU_FLOW_STATS_DROP_GET(_var) \
1545     (((_var) & HTT_MSDU_FLOW_STATS_DROP_M) >> \
1546      HTT_MSDU_FLOW_STATS_DROP_S)
1547 
1548 #define HTT_MSDU_FLOW_STATS_DROP_SET(_var, _val) \
1549     do { \
1550         HTT_CHECK_SET_VAL(HTT_MSDU_FLOW_STATS_DROP, _val); \
1551         ((_var) |= ((_val) << HTT_MSDU_FLOW_STATS_DROP_S)); \
1552     } while (0)
1553 
1554 typedef struct _htt_msdu_flow_stats_tlv {
1555     htt_tlv_hdr_t tlv_hdr;
1556 
1557     A_UINT32 last_update_timestamp;
1558     A_UINT32 last_add_timestamp;
1559     A_UINT32 last_remove_timestamp;
1560     A_UINT32 total_processed_msdu_count;
1561     A_UINT32 cur_msdu_count_in_flowq;
1562     /** This will help to find which peer_id is stuck state */
1563     A_UINT32 sw_peer_id;
1564     /**
1565      * BIT [15 :  0]   :- tx_flow_number
1566      * BIT [19 : 16]   :- tid_num
1567      * BIT [20 : 20]   :- drop_rule
1568      * BIT [31 : 21]   :- reserved
1569      */
1570     A_UINT32 tx_flow_no__tid_num__drop_rule;
1571     A_UINT32 last_cycle_enqueue_count;
1572     A_UINT32 last_cycle_dequeue_count;
1573     A_UINT32 last_cycle_drop_count;
1574     /**
1575      * BIT [15 :  0]   :- current_drop_th
1576      * BIT [31 : 16]   :- reserved
1577      */
1578     A_UINT32 current_drop_th;
1579 } htt_stats_peer_msdu_flowq_tlv;
1580 /* preserve old name alias for new name consistent with the tag name */
1581 typedef htt_stats_peer_msdu_flowq_tlv htt_msdu_flow_stats_tlv;
1582 
1583 #define MAX_HTT_TID_NAME 8
1584 
1585 /* DWORD sw_peer_id__tid_num */
1586 #define HTT_TX_TID_STATS_SW_PEER_ID_M 0x0000ffff
1587 #define HTT_TX_TID_STATS_SW_PEER_ID_S 0
1588 #define HTT_TX_TID_STATS_TID_NUM_M 0xffff0000
1589 #define HTT_TX_TID_STATS_TID_NUM_S 16
1590 
1591 #define HTT_TX_TID_STATS_SW_PEER_ID_GET(_var) \
1592     (((_var) & HTT_TX_TID_STATS_SW_PEER_ID_M) >> \
1593      HTT_TX_TID_STATS_SW_PEER_ID_S)
1594 
1595 #define HTT_TX_TID_STATS_SW_PEER_ID_SET(_var, _val) \
1596     do { \
1597         HTT_CHECK_SET_VAL(HTT_TX_TID_STATS_SW_PEER_ID, _val); \
1598         ((_var) |= ((_val) << HTT_TX_TID_STATS_SW_PEER_ID_S)); \
1599     } while (0)
1600 
1601 #define HTT_TX_TID_STATS_TID_NUM_GET(_var) \
1602     (((_var) & HTT_TX_TID_STATS_TID_NUM_M) >> \
1603      HTT_TX_TID_STATS_TID_NUM_S)
1604 
1605 #define HTT_TX_TID_STATS_TID_NUM_SET(_var, _val) \
1606     do { \
1607         HTT_CHECK_SET_VAL(HTT_TX_TID_STATS_TID_NUM, _val); \
1608         ((_var) |= ((_val) << HTT_TX_TID_STATS_TID_NUM_S)); \
1609     } while (0)
1610 
1611 /* DWORD num_sched_pending__num_ppdu_in_hwq */
1612 #define HTT_TX_TID_STATS_NUM_SCHED_PENDING_M 0x000000ff
1613 #define HTT_TX_TID_STATS_NUM_SCHED_PENDING_S 0
1614 #define HTT_TX_TID_STATS_NUM_PPDU_IN_HWQ_M 0x0000ff00
1615 #define HTT_TX_TID_STATS_NUM_PPDU_IN_HWQ_S 8
1616 
1617 #define HTT_TX_TID_STATS_NUM_SCHED_PENDING_GET(_var) \
1618     (((_var) & HTT_TX_TID_STATS_NUM_SCHED_PENDING_M) >> \
1619      HTT_TX_TID_STATS_NUM_SCHED_PENDING_S)
1620 
1621 #define HTT_TX_TID_STATS_NUM_SCHED_PENDING_SET(_var, _val) \
1622     do { \
1623         HTT_CHECK_SET_VAL(HTT_TX_TID_STATS_NUM_SCHED_PENDING, _val); \
1624         ((_var) |= ((_val) << HTT_TX_TID_STATS_NUM_SCHED_PENDING_S)); \
1625     } while (0)
1626 
1627 #define HTT_TX_TID_STATS_NUM_PPDU_IN_HWQ_GET(_var) \
1628     (((_var) & HTT_TX_TID_STATS_NUM_PPDU_IN_HWQ_M) >> \
1629      HTT_TX_TID_STATS_NUM_PPDU_IN_HWQ_S)
1630 
1631 #define HTT_TX_TID_STATS_NUM_PPDU_IN_HWQ_SET(_var, _val) \
1632     do { \
1633         HTT_CHECK_SET_VAL(HTT_TX_TID_STATS_NUM_PPDU_IN_HWQ, _val); \
1634         ((_var) |= ((_val) << HTT_TX_TID_STATS_NUM_PPDU_IN_HWQ_S)); \
1635     } while (0)
1636 
1637 /* Tidq stats */
1638 typedef struct _htt_tx_tid_stats_tlv {
1639     htt_tlv_hdr_t tlv_hdr;
1640 
1641     /** Stored as little endian */
1642     A_UINT8 tid_name[MAX_HTT_TID_NAME];
1643     /**
1644      * BIT [15 :  0]   :- sw_peer_id
1645      * BIT [31 : 16]   :- tid_num
1646      */
1647     A_UINT32 sw_peer_id__tid_num;
1648     /**
1649      * BIT [ 7 :  0]   :- num_sched_pending
1650      * BIT [15 :  8]   :- num_ppdu_in_hwq
1651      * BIT [31 : 16]   :- reserved
1652      */
1653     A_UINT32 num_sched_pending__num_ppdu_in_hwq;
1654     A_UINT32 tid_flags;
1655     /** per tid # of hw_queued ppdu */
1656     A_UINT32 hw_queued;
1657     /** number of per tid successful PPDU */
1658     A_UINT32 hw_reaped;
1659     /** per tid Num MPDUs filtered by HW */
1660     A_UINT32 mpdus_hw_filter;
1661 
1662     A_UINT32 qdepth_bytes;
1663     A_UINT32 qdepth_num_msdu;
1664     A_UINT32 qdepth_num_mpdu;
1665     A_UINT32 last_scheduled_tsmp;
1666     A_UINT32 pause_module_id;
1667     A_UINT32 block_module_id;
1668     /** tid tx airtime in sec */
1669     A_UINT32 tid_tx_airtime;
1670 } htt_stats_tx_tid_details_tlv;
1671 /* preserve old name alias for new name consistent with the tag name */
1672 typedef htt_stats_tx_tid_details_tlv htt_tx_tid_stats_tlv;
1673 
1674 /* Tidq stats */
1675 typedef struct _htt_tx_tid_stats_v1_tlv {
1676     htt_tlv_hdr_t tlv_hdr;
1677     /** Stored as little endian */
1678     A_UINT8 tid_name[MAX_HTT_TID_NAME];
1679     /**
1680      * BIT [15 :  0]   :- sw_peer_id
1681      * BIT [31 : 16]   :- tid_num
1682      */
1683     A_UINT32 sw_peer_id__tid_num;
1684     /**
1685      * BIT [ 7 :  0]   :- num_sched_pending
1686      * BIT [15 :  8]   :- num_ppdu_in_hwq
1687      * BIT [31 : 16]   :- reserved
1688      */
1689     A_UINT32 num_sched_pending__num_ppdu_in_hwq;
1690     A_UINT32 tid_flags;
1691     /** Max qdepth in bytes reached by this tid */
1692     A_UINT32 max_qdepth_bytes;
1693     /** number of msdus qdepth reached max */
1694     A_UINT32 max_qdepth_n_msdus;
1695     A_UINT32 rsvd;
1696 
1697     A_UINT32 qdepth_bytes;
1698     A_UINT32 qdepth_num_msdu;
1699     A_UINT32 qdepth_num_mpdu;
1700     A_UINT32 last_scheduled_tsmp;
1701     A_UINT32 pause_module_id;
1702     A_UINT32 block_module_id;
1703     /** tid tx airtime in sec */
1704     A_UINT32 tid_tx_airtime;
1705     A_UINT32 allow_n_flags;
1706     /**
1707      * BIT [15 :  0]   :- sendn_frms_allowed
1708      * BIT [31 : 16]   :- reserved
1709      */
1710     A_UINT32 sendn_frms_allowed;
1711     /*
1712      * tid_ext_flags, tid_ext2_flags, and tid_flush_reason are opaque fields
1713      * that cannot be interpreted by the host.
1714      * They are only for off-line debug.
1715      */
1716     A_UINT32 tid_ext_flags;
1717     A_UINT32 tid_ext2_flags;
1718     A_UINT32 tid_flush_reason;
1719     A_UINT32 mlo_flush_tqm_status_pending_low;
1720     A_UINT32 mlo_flush_tqm_status_pending_high;
1721     A_UINT32 mlo_flush_partner_info_low;
1722     A_UINT32 mlo_flush_partner_info_high;
1723     A_UINT32 mlo_flush_initator_info_low;
1724     A_UINT32 mlo_flush_initator_info_high;
1725     /*
1726      * head_msdu_tqm_timestamp_us:
1727      *     MSDU enqueue timestamp (TQM reference timestamp) for the MSDU
1728      *     at the head of the MPDU queue
1729      * head_msdu_tqm_latency_us:
1730      *     The age of the MSDU that is at the head of the MPDU queue,
1731      *     i.e. the delta between the current TQM time and the MSDU's
1732      *     enqueue timestamp.
1733      */
1734     A_UINT32 head_msdu_tqm_timestamp_us;
1735     A_UINT32 head_msdu_tqm_latency_us;
1736 } htt_stats_tx_tid_details_v1_tlv;
1737 /* preserve old name alias for new name consistent with the tag name */
1738 typedef htt_stats_tx_tid_details_v1_tlv htt_tx_tid_stats_v1_tlv;
1739 
1740 #define HTT_RX_TID_STATS_SW_PEER_ID_M 0x0000ffff
1741 #define HTT_RX_TID_STATS_SW_PEER_ID_S 0
1742 #define HTT_RX_TID_STATS_TID_NUM_M 0xffff0000
1743 #define HTT_RX_TID_STATS_TID_NUM_S 16
1744 
1745 #define HTT_RX_TID_STATS_SW_PEER_ID_GET(_var) \
1746     (((_var) & HTT_RX_TID_STATS_SW_PEER_ID_M) >> \
1747      HTT_RX_TID_STATS_SW_PEER_ID_S)
1748 
1749 #define HTT_RX_TID_STATS_SW_PEER_ID_SET(_var, _val) \
1750     do { \
1751         HTT_CHECK_SET_VAL(HTT_RX_TID_STATS_SW_PEER_ID, _val); \
1752         ((_var) |= ((_val) << HTT_RX_TID_STATS_SW_PEER_ID_S)); \
1753     } while (0)
1754 
1755 #define HTT_RX_TID_STATS_TID_NUM_GET(_var) \
1756     (((_var) & HTT_RX_TID_STATS_TID_NUM_M) >> \
1757      HTT_RX_TID_STATS_TID_NUM_S)
1758 
1759 #define HTT_RX_TID_STATS_TID_NUM_SET(_var, _val) \
1760     do { \
1761         HTT_CHECK_SET_VAL(HTT_RX_TID_STATS_TID_NUM, _val); \
1762         ((_var) |= ((_val) << HTT_RX_TID_STATS_TID_NUM_S)); \
1763     } while (0)
1764 
1765 typedef struct _htt_rx_tid_stats_tlv {
1766     htt_tlv_hdr_t tlv_hdr;
1767 
1768     /**
1769      * BIT [15 : 0] : sw_peer_id
1770      * BIT [31 : 16] : tid_num
1771      */
1772     A_UINT32 sw_peer_id__tid_num;
1773     /** Stored as little endian */
1774     A_UINT8 tid_name[MAX_HTT_TID_NAME];
1775     /**
1776      * dup_in_reorder not collected per tid for now,
1777      * as there is no wal_peer back ptr in data rx peer.
1778      */
1779     A_UINT32 dup_in_reorder;
1780     A_UINT32 dup_past_outside_window;
1781     A_UINT32 dup_past_within_window;
1782     /** Number of per tid MSDUs with flag of decrypt_err */
1783     A_UINT32 rxdesc_err_decrypt;
1784     /** tid rx airtime in sec */
1785     A_UINT32 tid_rx_airtime;
1786 } htt_stats_rx_tid_details_tlv;
1787 /* preserve old name alias for new name consistent with the tag name */
1788 typedef htt_stats_rx_tid_details_tlv htt_rx_tid_stats_tlv;
1789 
1790 #define HTT_MAX_COUNTER_NAME 8
1791 typedef struct {
1792     htt_tlv_hdr_t tlv_hdr;
1793     /** Stored as little endian */
1794     A_UINT8  counter_name[HTT_MAX_COUNTER_NAME];
1795     A_UINT32 count;
1796 } htt_stats_counter_name_tlv;
1797 /* preserve old name alias for new name consistent with the tag name */
1798 typedef htt_stats_counter_name_tlv htt_counter_tlv;
1799 
1800 typedef struct {
1801     htt_tlv_hdr_t tlv_hdr;
1802     /** Number of rx PPDU */
1803     A_UINT32 ppdu_cnt;
1804     /** Number of rx MPDU */
1805     A_UINT32 mpdu_cnt;
1806     /** Number of rx MSDU */
1807     A_UINT32 msdu_cnt;
1808     /** pause bitmap */
1809     A_UINT32 pause_bitmap;
1810     /** block bitmap */
1811     A_UINT32 block_bitmap;
1812     /** current timestamp */
1813     A_UINT32 current_timestamp;
1814     /** Peer cumulative tx airtime in sec */
1815     A_UINT32 peer_tx_airtime;
1816     /** Peer cumulative rx airtime in sec */
1817     A_UINT32 peer_rx_airtime;
1818     /** Peer current rssi in dBm */
1819     A_INT32 rssi;
1820     /** Total enqueued, dequeued and dropped MSDU's for peer */
1821     A_UINT32 peer_enqueued_count_low;
1822     A_UINT32 peer_enqueued_count_high;
1823     A_UINT32 peer_dequeued_count_low;
1824     A_UINT32 peer_dequeued_count_high;
1825     A_UINT32 peer_dropped_count_low;
1826     A_UINT32 peer_dropped_count_high;
1827     /** Total ppdu transmitted bytes for peer: includes MAC header overhead */
1828     A_UINT32 ppdu_transmitted_bytes_low;
1829     A_UINT32 ppdu_transmitted_bytes_high;
1830     A_UINT32 peer_ttl_removed_count;
1831     /**
1832      * inactive_time
1833      * Running duration of the time since last tx/rx activity by this peer,
1834      * units = seconds.
1835      * If the peer is currently active, this inactive_time will be 0x0.
1836      */
1837     A_UINT32 inactive_time;
1838     /** Number of MPDUs dropped after max retries */
1839     A_UINT32 remove_mpdus_max_retries;
1840 } htt_stats_peer_stats_cmn_tlv;
1841 /* preserve old name alias for new name consistent with the tag name */
1842 typedef htt_stats_peer_stats_cmn_tlv htt_peer_stats_cmn_tlv;
1843 
1844 #define HTT_PEER_DETAILS_ML_PEER_OFFSET_BYTES 32
1845 #define HTT_PEER_DETAILS_ML_PEER_OFFSET_DWORD 8
1846 #define HTT_PEER_DETAILS_ML_PEER_ID_VALID_M   0x00000001
1847 #define HTT_PEER_DETAILS_ML_PEER_ID_VALID_S   0
1848 #define HTT_PEER_DETAILS_ML_PEER_ID_M         0x00001ffe
1849 #define HTT_PEER_DETAILS_ML_PEER_ID_S         1
1850 #define HTT_PEER_DETAILS_LINK_IDX_M           0x001fe000
1851 #define HTT_PEER_DETAILS_LINK_IDX_S           13
1852 #define HTT_PEER_DETAILS_USE_PPE_M            0x00200000
1853 #define HTT_PEER_DETAILS_USE_PPE_S            21
1854 
1855 
1856 #define HTT_PEER_DETAILS_SRC_INFO_M           0x00000fff
1857 #define HTT_PEER_DETAILS_SRC_INFO_S           0
1858 
1859 
1860 #define HTT_PEER_DETAILS_SET(word, httsym, val)  \
1861     do {                                         \
1862         HTT_CHECK_SET_VAL(HTT_PEER_DETAILS_ ## httsym, val);          \
1863             (word) |= ((val) << HTT_PEER_DETAILS_ ## httsym ## _S);         \
1864     } while(0)
1865 
1866 #define HTT_PEER_DETAILS_GET(word, httsym) \
1867     (((word) & HTT_PEER_DETAILS_ ## httsym ## _M) >> HTT_PEER_DETAILS_ ## httsym ## _S)
1868 
1869 typedef struct {
1870     htt_tlv_hdr_t tlv_hdr;
1871     /** This enum type of HTT_PEER_TYPE */
1872     A_UINT32 peer_type;
1873     A_UINT32 sw_peer_id;
1874     /**
1875      * BIT [7 : 0]   :- vdev_id
1876      * BIT [15 : 8]  :- pdev_id
1877      * BIT [31 : 16] :- ast_indx
1878      */
1879     A_UINT32     vdev_pdev_ast_idx;
1880     htt_mac_addr mac_addr;
1881     A_UINT32     peer_flags;
1882     A_UINT32     qpeer_flags;
1883 
1884     /* Dword 8 */
1885     union {
1886         A_UINT32 word__ml_peer_id_valid__ml_peer_id__link_idx__use_ppe;
1887         struct {
1888             A_UINT32     ml_peer_id_valid  : 1,   /* [0:0] */
1889                          ml_peer_id        : 12,  /* [12:1] */
1890                          link_idx          : 8,   /* [20:13] */
1891                          use_ppe           : 1,   /* [21:21] */
1892                          rsvd0             : 10;  /* [31:22] */
1893         };
1894     };
1895 
1896     /* Dword 9 */
1897     union {
1898         A_UINT32 word__src_info;
1899         struct {
1900             A_UINT32     src_info          : 12,  /* [11:0] */
1901                          rsvd1             : 20;  /* [31:12] */
1902         };
1903     };
1904 } htt_stats_peer_details_tlv;
1905 /* preserve old name alias for new name consistent with the tag name */
1906 typedef htt_stats_peer_details_tlv htt_peer_details_tlv;
1907 
1908 #define HTT_STATS_PEER_DETAILS_ML_PEER_ID_VALID_GET(word) ((word >> 0) & 0x1)
1909 #define HTT_STATS_PEER_DETAILS_ML_PEER_ID_GET(word)       ((word >> 1) & 0xfff)
1910 #define HTT_STATS_PEER_DETAILS_LINK_IDX_GET(word)         ((word >> 13) & 0xff)
1911 #define HTT_STATS_PEER_DETAILS_USE_PPE_GET(word)          ((word >> 21) & 0x1)
1912 
1913 #define HTT_STATS_PEER_DETAILS_SRC_INFO_GET(word) ((word >> 0) & 0xfff)
1914 
1915 typedef struct {
1916     htt_tlv_hdr_t tlv_hdr;
1917     A_UINT32     sw_peer_id;
1918     A_UINT32     ast_index;
1919     htt_mac_addr mac_addr;
1920     A_UINT32
1921         pdev_id        : 2,
1922         vdev_id        : 8,
1923         next_hop       : 1,
1924         mcast          : 1,
1925         monitor_direct : 1,
1926         mesh_sta       : 1,
1927         mec            : 1,
1928         intra_bss      : 1,
1929         chip_id        : 2,
1930         ml_peer_id     : 13,
1931         on_chip        : 1;
1932     A_UINT32
1933         tx_monitor_override_sta : 1,
1934         rx_monitor_override_sta : 1,
1935         reserved1               : 30;
1936 } htt_stats_ast_entry_tlv;
1937 /* preserve old name alias for new name consistent with the tag name */
1938 typedef htt_stats_ast_entry_tlv htt_ast_entry_tlv;
1939 
1940 typedef enum {
1941     HTT_STATS_DIRECTION_TX,
1942     HTT_STATS_DIRECTION_RX,
1943 } HTT_STATS_DIRECTION;
1944 
1945 typedef enum {
1946     HTT_STATS_PPDU_TYPE_MODE_SU,
1947     HTT_STATS_PPDU_TYPE_DL_MU_MIMO,
1948     HTT_STATS_PPDU_TYPE_UL_MU_MIMO,
1949     HTT_STATS_PPDU_TYPE_DL_MU_OFDMA,
1950     HTT_STATS_PPDU_TYPE_UL_MU_OFDMA,
1951 } HTT_STATS_PPDU_TYPE;
1952 
1953 typedef enum {
1954     HTT_STATS_PREAM_OFDM,
1955     HTT_STATS_PREAM_CCK,
1956     HTT_STATS_PREAM_HT,
1957     HTT_STATS_PREAM_VHT,
1958     HTT_STATS_PREAM_HE,
1959     HTT_STATS_PREAM_EHT,
1960     HTT_STATS_PREAM_RSVD1,
1961 
1962     HTT_STATS_PREAM_COUNT,
1963 } HTT_STATS_PREAM_TYPE;
1964 
1965 #define HTT_TX_PEER_STATS_NUM_MCS_COUNTERS 12 /* 0-11 */
1966 #define HTT_TX_PEER_STATS_NUM_EXTRA_MCS_COUNTERS 2 /* 12, 13 */
1967 #define HTT_TX_PEER_STATS_NUM_EXTRA2_MCS_COUNTERS 2 /* 14, 15 */
1968 /* HTT_TX_PEER_STATS_NUM_GI_COUNTERS:
1969  * GI Index 0:  WHAL_GI_800
1970  * GI Index 1:  WHAL_GI_400
1971  * GI Index 2:  WHAL_GI_1600
1972  * GI Index 3:  WHAL_GI_3200
1973  */
1974 #define HTT_TX_PEER_STATS_NUM_GI_COUNTERS 4
1975 #define HTT_TX_PEER_STATS_NUM_DCM_COUNTERS 5
1976  /* HTT_TX_PEER_STATS_NUM_BW_COUNTERS:
1977   * bw index 0: rssi_pri20_chain0
1978   * bw index 1: rssi_ext20_chain0
1979   * bw index 2: rssi_ext40_low20_chain0
1980   * bw index 3: rssi_ext40_high20_chain0
1981   */
1982 #define HTT_TX_PEER_STATS_NUM_BW_COUNTERS 4
1983 /* HTT_RX_PEER_STATS_NUM_BW_EXT_COUNTERS:
1984  * bw index 4 (bw ext index 0): rssi_ext80_low20_chain0
1985  * bw index 5 (bw ext index 1): rssi_ext80_low_high20_chain0
1986  * bw index 6 (bw ext index 2): rssi_ext80_high_low20_chain0
1987  * bw index 7 (bw ext index 3): rssi_ext80_high20_chain0
1988  */
1989 #define HTT_RX_PEER_STATS_NUM_BW_EXT_COUNTERS 4
1990 #define HTT_RX_PDEV_STATS_NUM_BW_EXT_COUNTERS 4
1991 
1992 /* HTT_RX  STATS_NUM_BW_EXT_2_COUNTERS:
1993  * bw index 8  (bw ext_2 index 0): rssi_ext160_0_chainX
1994  * bw index 9  (bw ext_2 index 1): rssi_ext160_1_chainX
1995  * bw index 10 (bw ext_2 index 2): rssi_ext160_2_chainX
1996  * bw index 11 (bw ext_2 index 3): rssi_ext160_3_chainX
1997  * bw index 12 (bw ext_2 index 4): rssi_ext160_4_chainX
1998  * bw index 13 (bw ext_2 index 5): rssi_ext160_5_chainX
1999  * bw index 14 (bw ext_2 index 6): rssi_ext160_6_chainX
2000  * bw index 15 (bw ext_2 index 7): rssi_ext160_7_chainX
2001  */
2002 #define HTT_RX_PDEV_STATS_NUM_BW_EXT_2_COUNTERS 8
2003 
2004 #define HTT_TX_PEER_STATS_NUM_SPATIAL_STREAMS 8
2005 #define HTT_TX_PEER_STATS_NUM_PREAMBLE_TYPES HTT_STATS_PREAM_COUNT
2006 #define HTT_TX_PEER_STATS_NUM_REDUCED_CHAN_TYPES 2 /* 0 - Half, 1 - Quarter */
2007 
2008 typedef struct _htt_tx_peer_rate_stats_tlv {
2009     htt_tlv_hdr_t tlv_hdr;
2010 
2011     /** Number of tx LDPC packets */
2012     A_UINT32 tx_ldpc;
2013     /** Number of tx RTS packets */
2014     A_UINT32 rts_cnt;
2015     /** RSSI value of last ack packet (units = dB above noise floor) */
2016     A_UINT32 ack_rssi;
2017 
2018     A_UINT32 tx_mcs[HTT_TX_PEER_STATS_NUM_MCS_COUNTERS];
2019     A_UINT32 tx_su_mcs[HTT_TX_PEER_STATS_NUM_MCS_COUNTERS];
2020     A_UINT32 tx_mu_mcs[HTT_TX_PEER_STATS_NUM_MCS_COUNTERS];
2021     /**
2022      * element 0,1, ...7 -> NSS 1,2, ...8
2023      */
2024     A_UINT32 tx_nss[HTT_TX_PEER_STATS_NUM_SPATIAL_STREAMS];
2025     /**
2026      * element 0: 20 MHz, 1: 40 MHz, 2: 80 MHz, 3: 160 and 80+80 MHz
2027      */
2028     A_UINT32 tx_bw[HTT_TX_PEER_STATS_NUM_BW_COUNTERS];
2029     A_UINT32 tx_stbc[HTT_TX_PEER_STATS_NUM_MCS_COUNTERS];
2030     A_UINT32 tx_pream[HTT_TX_PEER_STATS_NUM_PREAMBLE_TYPES];
2031 
2032     /**
2033      * Counters to track number of tx packets in each GI
2034      * (400us, 800us, 1600us & 3200us) in each mcs (0-11)
2035      */
2036     A_UINT32 tx_gi[HTT_TX_PEER_STATS_NUM_GI_COUNTERS][HTT_TX_PEER_STATS_NUM_MCS_COUNTERS];
2037 
2038     /** Counters to track packets in dcm mcs (MCS 0, 1, 3, 4) */
2039     A_UINT32 tx_dcm[HTT_TX_PEER_STATS_NUM_DCM_COUNTERS];
2040 
2041     /** Stats for MCS 12/13 */
2042     A_UINT32 tx_mcs_ext[HTT_TX_PEER_STATS_NUM_EXTRA_MCS_COUNTERS];
2043     A_UINT32 tx_su_mcs_ext[HTT_TX_PEER_STATS_NUM_EXTRA_MCS_COUNTERS];
2044     A_UINT32 tx_mu_mcs_ext[HTT_TX_PEER_STATS_NUM_EXTRA_MCS_COUNTERS];
2045     A_UINT32 tx_stbc_ext[HTT_TX_PEER_STATS_NUM_EXTRA_MCS_COUNTERS];
2046     A_UINT32 tx_gi_ext[HTT_TX_PEER_STATS_NUM_GI_COUNTERS][HTT_TX_PEER_STATS_NUM_EXTRA_MCS_COUNTERS];
2047     A_UINT32 reduced_tx_bw[HTT_TX_PEER_STATS_NUM_REDUCED_CHAN_TYPES][HTT_TX_PEER_STATS_NUM_BW_COUNTERS];
2048     A_UINT32 tx_bw_320mhz;
2049     /* MCS 14,15 */
2050     A_UINT32 tx_mcs_ext_2[HTT_TX_PEER_STATS_NUM_EXTRA2_MCS_COUNTERS];
2051 } htt_stats_peer_tx_rate_stats_tlv;
2052 /* preserve old name alias for new name consistent with the tag name */
2053 typedef htt_stats_peer_tx_rate_stats_tlv htt_tx_peer_rate_stats_tlv;
2054 
2055 #define HTT_RX_PEER_STATS_NUM_MCS_COUNTERS 12 /* 0-11 */
2056 #define HTT_RX_PEER_STATS_NUM_EXTRA_MCS_COUNTERS 2 /* 12, 13 */
2057 #define HTT_RX_PEER_STATS_NUM_EXTRA2_MCS_COUNTERS 2 /* 14, 15 */
2058 #define HTT_RX_PEER_STATS_NUM_GI_COUNTERS 4
2059 #define HTT_RX_PEER_STATS_NUM_DCM_COUNTERS 5
2060 #define HTT_RX_PEER_STATS_NUM_BW_COUNTERS 4
2061 #define HTT_RX_PEER_STATS_NUM_SPATIAL_STREAMS 8
2062 #define HTT_RX_PEER_STATS_NUM_PREAMBLE_TYPES HTT_STATS_PREAM_COUNT
2063 #define HTT_RX_PEER_STATS_NUM_REDUCED_CHAN_TYPES 2 /* 0 - Half, 1 - Quarter */
2064 
2065 typedef struct _htt_rx_peer_rate_stats_tlv {
2066     htt_tlv_hdr_t tlv_hdr;
2067     A_UINT32      nsts;
2068 
2069     /** Number of rx LDPC packets */
2070     A_UINT32 rx_ldpc;
2071     /** Number of rx RTS packets */
2072     A_UINT32 rts_cnt;
2073 
2074     /** units = dB above noise floor */
2075     A_UINT32 rssi_mgmt;
2076     /** units = dB above noise floor */
2077     A_UINT32 rssi_data;
2078     /** units = dB above noise floor */
2079     A_UINT32 rssi_comb;
2080     A_UINT32 rx_mcs[HTT_RX_PEER_STATS_NUM_MCS_COUNTERS];
2081     /**
2082      * element 0,1, ...7 -> NSS 1,2, ...8
2083      */
2084     A_UINT32 rx_nss[HTT_RX_PEER_STATS_NUM_SPATIAL_STREAMS];
2085     A_UINT32 rx_dcm[HTT_RX_PEER_STATS_NUM_DCM_COUNTERS];
2086     A_UINT32 rx_stbc[HTT_RX_PEER_STATS_NUM_MCS_COUNTERS];
2087     /**
2088      * element 0: 20 MHz, 1: 40 MHz, 2: 80 MHz, 3: 160 and 80+80 MHz
2089      */
2090     A_UINT32 rx_bw[HTT_RX_PEER_STATS_NUM_BW_COUNTERS];
2091     A_UINT32 rx_pream[HTT_RX_PEER_STATS_NUM_PREAMBLE_TYPES];
2092     /** units = dB above noise floor */
2093     A_UINT8  rssi_chain[HTT_RX_PEER_STATS_NUM_SPATIAL_STREAMS][HTT_RX_PEER_STATS_NUM_BW_COUNTERS];
2094 
2095     /** Counters to track number of rx packets in each GI in each mcs (0-11) */
2096     A_UINT32 rx_gi[HTT_RX_PEER_STATS_NUM_GI_COUNTERS][HTT_RX_PEER_STATS_NUM_MCS_COUNTERS];
2097 
2098     A_UINT32 rx_ulofdma_non_data_ppdu; /** PPDU level */
2099     A_UINT32 rx_ulofdma_data_ppdu;     /** PPDU level */
2100     A_UINT32 rx_ulofdma_mpdu_ok;       /** MPDU level */
2101     A_UINT32 rx_ulofdma_mpdu_fail;     /** MPDU level */
2102     A_INT8   rx_ul_fd_rssi[HTT_RX_PEER_STATS_NUM_SPATIAL_STREAMS]; /* dBm unit */
2103     /* per_chain_rssi_pkt_type:
2104      * This field shows what type of rx frame the per-chain RSSI was computed
2105      * on, by recording the frame type and sub-type as bit-fields within this
2106      * field:
2107      * BIT [3 : 0]    :- IEEE80211_FC0_TYPE
2108      * BIT [7 : 4]    :- IEEE80211_FC0_SUBTYPE
2109      * BIT [31 : 8]   :- Reserved
2110      */
2111     A_UINT32 per_chain_rssi_pkt_type;
2112     A_INT8   rx_per_chain_rssi_in_dbm[HTT_RX_PEER_STATS_NUM_SPATIAL_STREAMS][HTT_RX_PEER_STATS_NUM_BW_COUNTERS];
2113 
2114     /** PPDU level */
2115     A_UINT32 rx_ulmumimo_non_data_ppdu;
2116     /** PPDU level */
2117     A_UINT32 rx_ulmumimo_data_ppdu;
2118     /** MPDU level */
2119     A_UINT32 rx_ulmumimo_mpdu_ok;
2120     /** mpdu level */
2121     A_UINT32 rx_ulmumimo_mpdu_fail;
2122 
2123     /** units = dB above noise floor */
2124     A_UINT8  rssi_chain_ext[HTT_RX_PEER_STATS_NUM_SPATIAL_STREAMS][HTT_RX_PEER_STATS_NUM_BW_EXT_COUNTERS];
2125 
2126     /** Stats for MCS 12/13 */
2127     A_UINT32 rx_mcs_ext[HTT_RX_PEER_STATS_NUM_EXTRA_MCS_COUNTERS];
2128     A_UINT32 rx_stbc_ext[HTT_RX_PEER_STATS_NUM_EXTRA_MCS_COUNTERS];
2129     A_UINT32 rx_gi_ext[HTT_RX_PEER_STATS_NUM_GI_COUNTERS][HTT_RX_PEER_STATS_NUM_EXTRA_MCS_COUNTERS];
2130     A_UINT32 reduced_rx_bw[HTT_RX_PEER_STATS_NUM_REDUCED_CHAN_TYPES][HTT_RX_PEER_STATS_NUM_BW_COUNTERS];
2131     A_INT8   rx_per_chain_rssi_in_dbm_ext[HTT_RX_PEER_STATS_NUM_SPATIAL_STREAMS][HTT_RX_PEER_STATS_NUM_BW_EXT_COUNTERS];
2132     A_UINT32 rx_bw_320mhz;
2133     /* MCS 14,15 */
2134     A_UINT32 rx_mcs_ext_2[HTT_RX_PEER_STATS_NUM_EXTRA2_MCS_COUNTERS];
2135 } htt_stats_peer_rx_rate_stats_tlv;
2136 /* preserve old name alias for new name consistent with the tag name */
2137 typedef htt_stats_peer_rx_rate_stats_tlv htt_rx_peer_rate_stats_tlv;
2138 
2139 typedef enum {
2140     HTT_PEER_STATS_REQ_MODE_NO_QUERY,
2141     HTT_PEER_STATS_REQ_MODE_QUERY_TQM,
2142     HTT_PEER_STATS_REQ_MODE_FLUSH_TQM,
2143 } htt_peer_stats_req_mode_t;
2144 
2145 typedef enum {
2146     HTT_PEER_STATS_CMN_TLV      = 0,
2147     HTT_PEER_DETAILS_TLV        = 1,
2148     HTT_TX_PEER_RATE_STATS_TLV  = 2,
2149     HTT_RX_PEER_RATE_STATS_TLV  = 3,
2150     HTT_TX_TID_STATS_TLV        = 4,
2151     HTT_RX_TID_STATS_TLV        = 5,
2152     HTT_MSDU_FLOW_STATS_TLV     = 6,
2153     HTT_PEER_SCHED_STATS_TLV    = 7,
2154     HTT_PEER_AX_OFDMA_STATS_TLV = 8,
2155     HTT_PEER_BE_OFDMA_STATS_TLV = 9,
2156 
2157     HTT_PEER_STATS_MAX_TLV      = 31,
2158 } htt_peer_stats_tlv_enum;
2159 
2160 typedef struct {
2161     htt_tlv_hdr_t tlv_hdr;
2162     A_UINT32 peer_id;
2163     /** Num of DL schedules for peer */
2164     A_UINT32 num_sched_dl;
2165     /** Num od UL schedules for peer */
2166     A_UINT32 num_sched_ul;
2167     /** Peer TX time */
2168     A_UINT32 peer_tx_active_dur_us_low;
2169     A_UINT32 peer_tx_active_dur_us_high;
2170     /** Peer RX time */
2171     A_UINT32 peer_rx_active_dur_us_low;
2172     A_UINT32 peer_rx_active_dur_us_high;
2173     A_UINT32 peer_curr_rate_kbps;
2174 } htt_stats_peer_sched_stats_tlv;
2175 /* preserve old name alias for new name consistent with the tag name */
2176 typedef htt_stats_peer_sched_stats_tlv htt_peer_sched_stats_tlv;
2177 
2178 typedef struct {
2179     htt_tlv_hdr_t tlv_hdr;
2180     A_UINT32 peer_id;
2181     A_UINT32 ax_basic_trig_count;
2182     A_UINT32 ax_basic_trig_err;
2183     A_UINT32 ax_bsr_trig_count;
2184     A_UINT32 ax_bsr_trig_err;
2185     A_UINT32 ax_mu_bar_trig_count;
2186     A_UINT32 ax_mu_bar_trig_err;
2187     A_UINT32 ax_basic_trig_with_per;
2188     A_UINT32 ax_bsr_trig_with_per;
2189     A_UINT32 ax_mu_bar_trig_with_per;
2190     /* is_airtime_large_for_dl_ofdma, is_airtime_large_for_ul_ofdma
2191      * These fields contain 2 counters each.  The first element in each
2192      * array counts how many times the airtime is short enough to use
2193      * OFDMA, and the second element in each array counts how many times the
2194      * airtime is too large to select OFDMA for the PPDUs involving the peer.
2195      */
2196     A_UINT32 is_airtime_large_for_dl_ofdma[2];
2197     A_UINT32 is_airtime_large_for_ul_ofdma[2];
2198     /* Last updated value of DL and UL queue depths for each peer per AC */
2199     A_UINT32 last_updated_dl_qdepth[HTT_NUM_AC_WMM];
2200     A_UINT32 last_updated_ul_qdepth[HTT_NUM_AC_WMM];
2201     /* Per peer Manual 11ax UL OFDMA trigger and trigger error counts */
2202     A_UINT32 ax_manual_ulofdma_trig_count;
2203     A_UINT32 ax_manual_ulofdma_trig_err_count;
2204 } htt_stats_peer_ax_ofdma_stats_tlv;
2205 /* preserve old name alias for new name consistent with the tag name */
2206 typedef htt_stats_peer_ax_ofdma_stats_tlv htt_peer_ax_ofdma_stats_tlv;
2207 
2208 typedef struct {
2209     htt_tlv_hdr_t tlv_hdr;
2210     A_UINT32 peer_id;
2211     /* Per peer Manual 11be UL OFDMA trigger and trigger error counts */
2212     A_UINT32 be_manual_ulofdma_trig_count;
2213     A_UINT32 be_manual_ulofdma_trig_err_count;
2214 } htt_stats_peer_be_ofdma_stats_tlv;
2215 /* preserve old name alias for new name consistent with the tag name */
2216 typedef htt_stats_peer_be_ofdma_stats_tlv htt_peer_be_ofdma_stats_tlv;
2217 
2218 
2219 /* config_param0 */
2220 
2221 #define HTT_DBG_EXT_PEER_CTRL_PATH_TXRX_STATS_IS_MAC_ADDR_M 0x00000001
2222 #define HTT_DBG_EXT_PEER_CTRL_PATH_TXRX_STATS_IS_MAC_ADDR_S 0
2223 
2224 #define HTT_DBG_EXT_PEER_CTRL_PATH_TXRX_STATS_IS_MAC_ADDR_GET(_var) \
2225     (((_var) & HTT_DBG_EXT_PEER_CTRL_PATH_TXRX_STATS_IS_MAC_ADDR_M) >> \
2226      HTT_DBG_EXT_PEER_CTRL_PATH_TXRX_STATS_IS_MAC_ADDR_S)
2227 
2228 #define HTT_DBG_EXT_PEER_CTRL_PATH_TXRX_STATS_IS_MAC_ADDR_SET(_var, _val) \
2229     do { \
2230         HTT_CHECK_SET_VAL(HTT_DBG_EXT_PEER_CTRL_PATH_TXRX_STATS_IS_MAC_ADDR, _val); \
2231         ((_var) |= ((_val) << HTT_DBG_EXT_PEER_CTRL_PATH_TXRX_STATS_IS_MAC_ADDR_S)); \
2232     } while (0)
2233 /* DEPRECATED
2234  * The old IS_peer_MAC_ADDR_SET macro name is being retained for now,
2235  * as an alias for the corrected macro name.
2236  * If/when all references to the old name are removed, the definition of
2237  * the old name will also be removed.
2238  */
2239 #define HTT_DBG_EXT_PEER_CTRL_PATH_TXRX_STATS_IS_peer_MAC_ADDR_SET HTT_DBG_EXT_PEER_CTRL_PATH_TXRX_STATS_IS_MAC_ADDR_SET
2240 
2241 #define HTT_DBG_EXT_STATS_PEER_INFO_IS_MAC_ADDR_M 0x00000001
2242 #define HTT_DBG_EXT_STATS_PEER_INFO_IS_MAC_ADDR_S 0
2243 
2244 #define HTT_DBG_EXT_STATS_PEER_REQ_MODE_M 0x0000FFFE
2245 #define HTT_DBG_EXT_STATS_PEER_REQ_MODE_S 1
2246 
2247 #define HTT_DBG_EXT_STATS_PEER_INFO_SW_PEER_ID_M 0xFFFF0000
2248 #define HTT_DBG_EXT_STATS_PEER_INFO_SW_PEER_ID_S 16
2249 
2250 #define HTT_DBG_EXT_STATS_PEER_INFO_IS_MAC_ADDR_SET(_var, _val) \
2251     do { \
2252         HTT_CHECK_SET_VAL(HTT_DBG_EXT_STATS_PEER_INFO_IS_MAC_ADDR, _val); \
2253         ((_var) |= ((_val) << HTT_DBG_EXT_STATS_PEER_INFO_IS_MAC_ADDR_S)); \
2254     } while (0)
2255 
2256 #define HTT_DBG_EXT_STATS_PEER_INFO_IS_MAC_ADDR_GET(_var) \
2257     (((_var) & HTT_DBG_EXT_STATS_PEER_INFO_IS_MAC_ADDR_M) >> \
2258      HTT_DBG_EXT_STATS_PEER_INFO_IS_MAC_ADDR_S)
2259 
2260 #define HTT_DBG_EXT_STATS_PEER_REQ_MODE_GET(_var) \
2261     (((_var) & HTT_DBG_EXT_STATS_PEER_REQ_MODE_M) >> \
2262      HTT_DBG_EXT_STATS_PEER_REQ_MODE_S)
2263 
2264 #define HTT_DBG_EXT_STATS_PEER_REQ_MODE_SET(_var, _val) \
2265     do { \
2266         ((_var) |= ((_val) << HTT_DBG_EXT_STATS_PEER_REQ_MODE_S)); \
2267     } while (0)
2268 
2269 #define HTT_DBG_EXT_STATS_PEER_INFO_SW_PEER_ID_GET(_var) \
2270     (((_var) & HTT_DBG_EXT_STATS_PEER_INFO_SW_PEER_ID_M) >> \
2271      HTT_DBG_EXT_STATS_PEER_INFO_SW_PEER_ID_S)
2272 
2273 #define HTT_DBG_EXT_STATS_PEER_INFO_SW_PEER_ID_SET(_var, _val) \
2274     do { \
2275         ((_var) |= ((_val) << HTT_DBG_EXT_STATS_PEER_INFO_SW_PEER_ID_S)); \
2276     } while (0)
2277 
2278 /* STATS_TYPE : HTT_DBG_EXT_STATS_PEER_INFO
2279  * TLV_TAGS:
2280  *   - HTT_STATS_PEER_STATS_CMN_TAG
2281  *   - HTT_STATS_PEER_DETAILS_TAG
2282  *   - HTT_STATS_PEER_TX_RATE_STATS_TAG
2283  *   - HTT_STATS_PEER_RX_RATE_STATS_TAG
2284  *   - HTT_STATS_TX_TID_DETAILS_TAG (multiple) (deprecated, so 0 elements in updated systems)
2285  *   - HTT_STATS_RX_TID_DETAILS_TAG (multiple)
2286  *   - HTT_STATS_PEER_MSDU_FLOWQ_TAG (multiple)
2287  *   - HTT_STATS_TX_TID_DETAILS_V1_TAG (multiple)
2288  *   - HTT_STATS_PEER_SCHED_STATS_TAG
2289  *   - HTT_STATS_PEER_AX_OFDMA_STATS_TAG
2290  */
2291 /* NOTE:
2292  * This structure is for documentation, and cannot be safely used directly.
2293  * Instead, use the constituent TLV structures to fill/parse.
2294  */
2295 #ifdef ATH_TARGET
2296 typedef struct _htt_peer_stats {
2297     htt_stats_peer_stats_cmn_tlv      cmn_tlv;
2298 
2299     htt_stats_peer_details_tlv        peer_details;
2300     /* from g_rate_info_stats */
2301     htt_stats_peer_tx_rate_stats_tlv  tx_rate;
2302     htt_stats_peer_rx_rate_stats_tlv  rx_rate;
2303     htt_stats_tx_tid_details_tlv      tx_tid_stats[1];
2304     htt_stats_rx_tid_details_tlv      rx_tid_stats[1];
2305     htt_stats_peer_msdu_flowq_tlv     msdu_flowq[1];
2306     htt_stats_tx_tid_details_v1_tlv   tx_tid_stats_v1[1];
2307     htt_stats_peer_sched_stats_tlv    peer_sched_stats;
2308     htt_stats_peer_ax_ofdma_stats_tlv ax_ofdma_stats;
2309     htt_stats_peer_be_ofdma_stats_tlv be_ofdma_stats;
2310 } htt_peer_stats_t;
2311 #endif /* ATH_TARGET */
2312 
2313 /* =========== ACTIVE PEER LIST ========== */
2314 
2315 /* STATS_TYPE: HTT_DBG_EXT_STATS_ACTIVE_PEERS_LIST
2316  * TLV_TAGS:
2317  *     - HTT_STATS_PEER_DETAILS_TAG
2318  */
2319 /* NOTE:
2320  * This structure is for documentation, and cannot be safely used directly.
2321  * Instead, use the constituent TLV structures to fill/parse.
2322  */
2323 #ifdef ATH_TARGET
2324 typedef struct {
2325     htt_stats_peer_details_tlv peer_details[1];
2326 } htt_active_peer_details_list_t;
2327 #endif /* ATH_TARGET */
2328 
2329 /* =========== MUMIMO HWQ stats =========== */
2330 
2331 /* MU MIMO stats per hwQ */
2332 typedef struct {
2333     htt_tlv_hdr_t tlv_hdr;
2334     /** number of MU MIMO schedules posted to HW */
2335     A_UINT32      mu_mimo_sch_posted;
2336     /** number of MU MIMO schedules failed to post */
2337     A_UINT32      mu_mimo_sch_failed;
2338     /** number of MU MIMO PPDUs posted to HW */
2339     A_UINT32      mu_mimo_ppdu_posted;
2340 } htt_stats_tx_hwq_mumimo_sch_stats_tlv;
2341 /* preserve old name alias for new name consistent with the tag name */
2342 typedef htt_stats_tx_hwq_mumimo_sch_stats_tlv htt_tx_hwq_mu_mimo_sch_stats_tlv;
2343 
2344 typedef struct {
2345     htt_tlv_hdr_t tlv_hdr;
2346     /** 11AC DL MU MIMO number of mpdus queued to HW, per user */
2347     A_UINT32      mu_mimo_mpdus_queued_usr;
2348     /** 11AC DL MU MIMO number of mpdus tried over the air, per user */
2349     A_UINT32      mu_mimo_mpdus_tried_usr;
2350     /** 11AC DL MU MIMO number of mpdus failed acknowledgement, per user */
2351     A_UINT32      mu_mimo_mpdus_failed_usr;
2352     /** 11AC DL MU MIMO number of mpdus re-queued to HW, per user */
2353     A_UINT32      mu_mimo_mpdus_requeued_usr;
2354     /** 11AC DL MU MIMO BA not received, per user */
2355     A_UINT32      mu_mimo_err_no_ba_usr;
2356     /** 11AC DL MU MIMO mpdu underrun encountered, per user */
2357     A_UINT32      mu_mimo_mpdu_underrun_usr;
2358     /** 11AC DL MU MIMO ampdu underrun encountered, per user */
2359     A_UINT32      mu_mimo_ampdu_underrun_usr;
2360 } htt_stats_tx_hwq_mumimo_mpdu_stats_tlv;
2361 /* preserve old name alias for new name consistent with the tag name */
2362 typedef htt_stats_tx_hwq_mumimo_mpdu_stats_tlv
2363     htt_tx_hwq_mu_mimo_mpdu_stats_tlv;
2364 
2365 #define HTT_TX_HWQ_MU_MIMO_CMN_STATS_MAC_ID_M 0x000000ff
2366 #define HTT_TX_HWQ_MU_MIMO_CMN_STATS_MAC_ID_S 0
2367 
2368 #define HTT_TX_HWQ_MU_MIMO_CMN_STATS_HWQ_ID_M 0x0000ff00
2369 #define HTT_TX_HWQ_MU_MIMO_CMN_STATS_HWQ_ID_S 8
2370 
2371 #define HTT_TX_HWQ_MU_MIMO_CMN_STATS_MAC_ID_GET(_var) \
2372     (((_var) & HTT_TX_HWQ_MU_MIMO_CMN_STATS_MAC_ID_M) >> \
2373      HTT_TX_HWQ_MU_MIMO_CMN_STATS_MAC_ID_S)
2374 
2375 #define HTT_TX_HWQ_MU_MIMO_CMN_STATS_MAC_ID_SET(_var, _val) \
2376     do { \
2377         HTT_CHECK_SET_VAL(HTT_TX_HWQ_MU_MIMO_CMN_STATS_MAC_ID, _val); \
2378         ((_var) |= ((_val) << HTT_TX_HWQ_MU_MIMO_CMN_STATS_MAC_ID_S)); \
2379     } while (0)
2380 
2381 #define HTT_TX_HWQ_MU_MIMO_CMN_STATS_HWQ_ID_GET(_var) \
2382     (((_var) & HTT_TX_HWQ_MU_MIMO_CMN_STATS_HWQ_ID_M) >> \
2383      HTT_TX_HWQ_MU_MIMO_CMN_STATS_HWQ_ID_S)
2384 
2385 #define HTT_TX_HWQ_MU_MIMO_CMN_STATS_HWQ_ID_SET(_var, _val) \
2386     do { \
2387         HTT_CHECK_SET_VAL(HTT_TX_HWQ_MU_MIMO_CMN_STATS_HWQ_ID, _val); \
2388         ((_var) |= ((_val) << HTT_TX_HWQ_MU_MIMO_CMN_STATS_HWQ_ID_S)); \
2389     } while (0)
2390 
2391 typedef struct {
2392     htt_tlv_hdr_t tlv_hdr;
2393 
2394     /**
2395      * BIT [ 7 :  0]   :- mac_id
2396      * BIT [15 :  8]   :- hwq_id
2397      * BIT [31 : 16]   :- reserved
2398      */
2399     A_UINT32 mac_id__hwq_id__word;
2400 } htt_stats_tx_hwq_mumimo_cmn_stats_tlv;
2401 /* preserve old name alias for new name consistent with the tag name */
2402 typedef htt_stats_tx_hwq_mumimo_cmn_stats_tlv htt_tx_hwq_mu_mimo_cmn_stats_tlv;
2403 
2404 /* NOTE:
2405  * This structure is for documentation, and cannot be safely used directly.
2406  * Instead, use the constituent TLV structures to fill/parse.
2407  */
2408 #ifdef ATH_TARGET
2409 typedef struct {
2410     struct {
2411         htt_stats_tx_hwq_mumimo_cmn_stats_tlv cmn_tlv;
2412         /** WAL_TX_STATS_MAX_GROUP_SIZE */
2413         htt_stats_tx_hwq_mumimo_sch_stats_tlv  mu_mimo_sch_stats_tlv[1];
2414         /** WAL_TX_STATS_TX_MAX_NUM_USERS */
2415         htt_stats_tx_hwq_mumimo_mpdu_stats_tlv mu_mimo_mpdu_stats_tlv[1];
2416     } hwq[1];
2417 } htt_tx_hwq_mu_mimo_stats_t;
2418 #endif /* ATH_TARGET */
2419 
2420 /* == TX HWQ STATS == */
2421 #define HTT_TX_HWQ_STATS_CMN_MAC_ID_M 0x000000ff
2422 #define HTT_TX_HWQ_STATS_CMN_MAC_ID_S 0
2423 
2424 #define HTT_TX_HWQ_STATS_CMN_HWQ_ID_M 0x0000ff00
2425 #define HTT_TX_HWQ_STATS_CMN_HWQ_ID_S 8
2426 
2427 #define HTT_TX_HWQ_STATS_CMN_MAC_ID_GET(_var) \
2428     (((_var) & HTT_TX_HWQ_STATS_CMN_MAC_ID_M) >> \
2429      HTT_TX_HWQ_STATS_CMN_MAC_ID_S)
2430 
2431 #define HTT_TX_HWQ_STATS_CMN_MAC_ID_SET(_var, _val) \
2432     do { \
2433         HTT_CHECK_SET_VAL(HTT_TX_HWQ_STATS_CMN_MAC_ID, _val); \
2434         ((_var) |= ((_val) << HTT_TX_HWQ_STATS_CMN_MAC_ID_S)); \
2435     } while (0)
2436 
2437 #define HTT_TX_HWQ_STATS_CMN_HWQ_ID_GET(_var) \
2438     (((_var) & HTT_TX_HWQ_STATS_CMN_HWQ_ID_M) >> \
2439      HTT_TX_HWQ_STATS_CMN_HWQ_ID_S)
2440 
2441 #define HTT_TX_HWQ_STATS_CMN_HWQ_ID_SET(_var, _val) \
2442     do { \
2443         HTT_CHECK_SET_VAL(HTT_TX_HWQ_STATS_CMN_HWQ_ID, _val); \
2444         ((_var) |= ((_val) << HTT_TX_HWQ_STATS_CMN_HWQ_ID_S)); \
2445     } while (0)
2446 
2447 typedef struct {
2448     htt_tlv_hdr_t tlv_hdr;
2449 
2450     /**
2451      * BIT [ 7 :  0]   :- mac_id
2452      * BIT [15 :  8]   :- hwq_id
2453      * BIT [31 : 16]   :- reserved
2454      */
2455     A_UINT32 mac_id__hwq_id__word;
2456 
2457     /*--- PPDU level stats */
2458     /** Number of times ack is failed for the PPDU scheduled on this txQ */
2459     A_UINT32 xretry;
2460     /** Number of times sched cmd status reported mpdu underrun */
2461     A_UINT32 underrun_cnt;
2462     /** Number of times sched cmd is flushed */
2463     A_UINT32 flush_cnt;
2464     /** Number of times sched cmd is filtered */
2465     A_UINT32 filt_cnt;
2466     /** Number of times HWSCH uploaded null mpdu bitmap */
2467     A_UINT32 null_mpdu_bmap;
2468     /**
2469      * Number of times user ack or BA TLV is not seen on FES ring
2470      * where it is expected to be
2471      */
2472     A_UINT32 user_ack_failure;
2473     /** Number of times TQM processed ack TLV received from HWSCH */
2474     A_UINT32 ack_tlv_proc;
2475     /** Cache latest processed scheduler ID received from ack BA TLV */
2476     A_UINT32 sched_id_proc;
2477     /** Number of times TxPCU reported MPDUs transmitted for a user is zero */
2478     A_UINT32 null_mpdu_tx_count;
2479     /**
2480      * Number of times SW did not see any MPDU info bitmap TLV
2481      * on FES status ring
2482      */
2483     A_UINT32 mpdu_bmap_not_recvd;
2484 
2485     /*--- Selfgen stats per hwQ */
2486     /** Number of SU/MU BAR frames posted to hwQ */
2487     A_UINT32 num_bar;
2488     /** Number of RTS frames posted to hwQ */
2489     A_UINT32 rts;
2490     /** Number of cts2self frames posted to hwQ */
2491     A_UINT32 cts2self;
2492     /** Number of qos null frames posted to hwQ */
2493     A_UINT32 qos_null;
2494 
2495     /*--- MPDU level stats */
2496     /** mpdus tried Tx by HWSCH/TQM */
2497     A_UINT32 mpdu_tried_cnt;
2498     /** mpdus queued to HWSCH */
2499     A_UINT32 mpdu_queued_cnt;
2500     /** mpdus tried but ack was not received */
2501     A_UINT32 mpdu_ack_fail_cnt;
2502     /** This will include sched cmd flush and time based discard */
2503     A_UINT32 mpdu_filt_cnt;
2504     /** Number of MPDUs for which ACK was successful but no Tx happened */
2505     A_UINT32 false_mpdu_ack_count;
2506 
2507     /** Number of times txq timeout happened */
2508     A_UINT32 txq_timeout;
2509 } htt_stats_tx_hwq_cmn_tlv;
2510 /* preserve old name alias for new name consistent with the tag name */
2511 typedef htt_stats_tx_hwq_cmn_tlv htt_tx_hwq_stats_cmn_tlv;
2512 
2513 #define HTT_TX_HWQ_DIFS_LATENCY_STATS_TLV_SZ(_num_elems) (sizeof(A_UINT32) + /* hist_intvl */ \
2514                                                           (sizeof(A_UINT32) * (_num_elems)))
2515 /* NOTE: Variable length TLV, use length spec to infer array size */
2516 typedef struct {
2517     htt_tlv_hdr_t tlv_hdr;
2518     A_UINT32      hist_intvl;
2519     /** difs_latency_hist:
2520      * histogram of ppdu post to hwsch - > cmd status receive,
2521      * HTT_TX_HWQ_MAX_DIFS_LATENCY_BINS
2522      */
2523     HTT_STATS_VAR_LEN_ARRAY1(A_UINT32, difs_latency_hist);
2524 } htt_stats_tx_hwq_difs_latency_tlv;
2525 /* preserve old name alias for new name consistent with the tag name */
2526 typedef htt_stats_tx_hwq_difs_latency_tlv htt_tx_hwq_difs_latency_stats_tlv_v;
2527 
2528 #define HTT_TX_HWQ_CMD_RESULT_STATS_TLV_SZ(_num_elems) (sizeof(A_UINT32) * (_num_elems))
2529 
2530 /* NOTE: Variable length TLV, use length spec to infer array size */
2531 typedef struct {
2532     htt_tlv_hdr_t tlv_hdr;
2533     /** cmd_result:
2534      * Histogram of sched cmd result,
2535      * HTT_TX_HWQ_MAX_CMD_RESULT_STATS
2536      */
2537     HTT_STATS_VAR_LEN_ARRAY1(A_UINT32, cmd_result);
2538 } htt_stats_tx_hwq_cmd_result_tlv;
2539 /* preserve old name alias for new name consistent with the tag name */
2540 typedef htt_stats_tx_hwq_cmd_result_tlv htt_tx_hwq_cmd_result_stats_tlv_v;
2541 
2542 #define HTT_TX_HWQ_CMD_STALL_STATS_TLV_SZ(_num_elems) (sizeof(A_UINT32) * (_num_elems))
2543 
2544 /* NOTE: Variable length TLV, use length spec to infer array size */
2545 typedef struct {
2546     htt_tlv_hdr_t tlv_hdr;
2547     /** cmd_stall_status:
2548      * Histogram of various pause conitions
2549      * HTT_TX_HWQ_MAX_CMD_STALL_STATS
2550      */
2551     HTT_STATS_VAR_LEN_ARRAY1(A_UINT32, cmd_stall_status);
2552 } htt_stats_tx_hwq_cmd_stall_tlv;
2553 /* preserve old name alias for new name consistent with the tag name */
2554 typedef htt_stats_tx_hwq_cmd_stall_tlv htt_tx_hwq_cmd_stall_stats_tlv_v;
2555 
2556 #define HTT_TX_HWQ_FES_RESULT_STATS_TLV_SZ(_num_elems) (sizeof(A_UINT32) * (_num_elems))
2557 
2558 /* NOTE: Variable length TLV, use length spec to infer array size */
2559 typedef struct {
2560     htt_tlv_hdr_t tlv_hdr;
2561     /** fes_result:
2562      * Histogram of number of user fes result,
2563      * HTT_TX_HWQ_MAX_FES_RESULT_STATS
2564      */
2565     HTT_STATS_VAR_LEN_ARRAY1(A_UINT32, fes_result);
2566 } htt_stats_tx_hwq_fes_status_tlv;
2567 /* preserve old name alias for new name consistent with the tag name */
2568 typedef htt_stats_tx_hwq_fes_status_tlv htt_tx_hwq_fes_result_stats_tlv_v;
2569 
2570 #define HTT_TX_HWQ_TRIED_MPDU_CNT_HIST_TLV_SZ(_num_elems) (sizeof(A_UINT32) * (_num_elems))
2571 /* NOTE: Variable length TLV, use length spec to infer array size
2572  *
2573  *  The hwq_tried_mpdu_cnt_hist is a  histogram of MPDUs tries per HWQ.
2574  *  The tries here is the count of the  MPDUS within a PPDU that the HW
2575  *  had attempted to transmit on  air, for the HWSCH Schedule command
2576  *  submitted by FW in this HWQ .It is not the retry attempts. The
2577  *  histogram bins are  0-29, 30-59, 60-89 and so on. The are 10 bins
2578  *  in this histogram.
2579  *  they are defined in FW using the following macros
2580  *  #define WAL_MAX_TRIED_MPDU_CNT_HISTOGRAM 9
2581  *  #define WAL_TRIED_MPDU_CNT_HISTOGRAM_INTERVAL 30
2582  *
2583  * */
2584 typedef struct {
2585     htt_tlv_hdr_t tlv_hdr;
2586     A_UINT32      hist_bin_size;
2587     /** tried_mpdu_cnt_hist:
2588      * Histogram of number of mpdus on tried mpdu,
2589      * HTT_TX_HWQ_TRIED_MPDU_CNT_HIST
2590      */
2591     HTT_STATS_VAR_LEN_ARRAY1(A_UINT32, tried_mpdu_cnt_hist);
2592 } htt_stats_tx_hwq_tried_mpdu_cnt_hist_tlv;
2593 /* preserve old name alias for new name consistent with the tag name */
2594 typedef htt_stats_tx_hwq_tried_mpdu_cnt_hist_tlv
2595     htt_tx_hwq_tried_mpdu_cnt_hist_tlv_v;
2596 
2597 #define HTT_TX_HWQ_TXOP_USED_CNT_HIST_TLV_SZ(_num_elems) (sizeof(A_UINT32) * (_num_elems))
2598 /* NOTE: Variable length TLV, use length spec to infer array size
2599  *
2600  * The txop_used_cnt_hist is the histogram of txop per burst. After
2601  * completing the burst, we identify the txop used in the burst and
2602  * incr the corresponding bin.
2603  * Each bin represents 1ms & we have 10 bins in this histogram.
2604  * they are defined in FW using the following macros
2605  * #define WAL_MAX_TXOP_USED_CNT_HISTOGRAM 10
2606  * #define WAL_TXOP_USED_HISTOGRAM_INTERVAL 1000 ( 1 ms )
2607  *
2608  * */
2609 typedef struct {
2610     htt_tlv_hdr_t tlv_hdr;
2611     /** txop_used_cnt_hist:
2612      * Histogram of txop used cnt,
2613      * HTT_TX_HWQ_TXOP_USED_CNT_HIST
2614      */
2615     HTT_STATS_VAR_LEN_ARRAY1(A_UINT32, txop_used_cnt_hist);
2616 } htt_stats_tx_hwq_txop_used_cnt_hist_tlv;
2617 /* preserve old name alias for new name consistent with the tag name */
2618 typedef htt_stats_tx_hwq_txop_used_cnt_hist_tlv
2619     htt_tx_hwq_txop_used_cnt_hist_tlv_v;
2620 
2621 /* STATS_TYPE : HTT_DBG_EXT_STATS_PDEV_TX_HWQ
2622  * TLV_TAGS:
2623  *    - HTT_STATS_STRING_TAG
2624  *    - HTT_STATS_TX_HWQ_CMN_TAG
2625  *    - HTT_STATS_TX_HWQ_DIFS_LATENCY_TAG
2626  *    - HTT_STATS_TX_HWQ_CMD_RESULT_TAG
2627  *    - HTT_STATS_TX_HWQ_CMD_STALL_TAG
2628  *    - HTT_STATS_TX_HWQ_FES_STATUS_TAG
2629  *    - HTT_STATS_TX_HWQ_TRIED_MPDU_CNT_HIST_TAG
2630  *    - HTT_STATS_TX_HWQ_TXOP_USED_CNT_HIST_TAG
2631  */
2632 /* NOTE:
2633  * This structure is for documentation, and cannot be safely used directly.
2634  * Instead, use the constituent TLV structures to fill/parse.
2635  * General  HWQ stats Mechanism:
2636  * Once the host request for the stats, FW fill all the HWQ TAGS in a buffer
2637  * for all the HWQ requested. & the FW send the  buffer to  host. In the
2638  * buffer the HWQ ID  is filled in mac_id__hwq_id, thus identifying each
2639  * HWQ distinctly.
2640  */
2641 #ifdef ATH_TARGET
2642 typedef struct _htt_tx_hwq_stats {
2643     htt_stats_string_tlv                     hwq_str_tlv;
2644     htt_stats_tx_hwq_cmn_tlv                 cmn_tlv;
2645     htt_stats_tx_hwq_difs_latency_tlv        difs_tlv;
2646     htt_stats_tx_hwq_cmd_result_tlv          cmd_result_tlv;
2647     htt_stats_tx_hwq_cmd_stall_tlv           cmd_stall_tlv;
2648     htt_stats_tx_hwq_fes_status_tlv          fes_stats_tlv;
2649     htt_stats_tx_hwq_tried_mpdu_cnt_hist_tlv tried_mpdu_tlv;
2650     htt_stats_tx_hwq_txop_used_cnt_hist_tlv  txop_used_tlv;
2651 } htt_tx_hwq_stats_t;
2652 #endif /* ATH_TARGET */
2653 
2654 /* == TX SELFGEN STATS == */
2655 
2656 #define HTT_TX_SELFGEN_CMN_STATS_MAC_ID_M 0x000000ff
2657 #define HTT_TX_SELFGEN_CMN_STATS_MAC_ID_S 0
2658 
2659 #define HTT_TX_SELFGEN_CMN_STATS_MAC_ID_GET(_var) \
2660     (((_var) & HTT_TX_SELFGEN_CMN_STATS_MAC_ID_M) >> \
2661      HTT_TX_SELFGEN_CMN_STATS_MAC_ID_S)
2662 
2663 #define HTT_TX_SELFGEN_CMN_STATS_MAC_ID_SET(_var, _val) \
2664     do { \
2665         HTT_CHECK_SET_VAL(HTT_TX_SELFGEN_CMN_STATS_MAC_ID, _val); \
2666         ((_var) |= ((_val) << HTT_TX_SELFGEN_CMN_STATS_MAC_ID_S)); \
2667     } while (0)
2668 
2669 typedef enum {
2670     HTT_TXERR_NONE,
2671     HTT_TXERR_RESP,    /* response timeout, mismatch,
2672                         * BW mismatch, mimo ctrl mismatch,
2673                         * CRC error.. */
2674     HTT_TXERR_FILT,    /* blocked by tx filtering */
2675     HTT_TXERR_FIFO,    /* fifo, misc errors in HW */
2676     HTT_TXERR_SWABORT, /* software initialted abort (TX_ABORT) */
2677 
2678     HTT_TXERR_RESERVED1,
2679     HTT_TXERR_RESERVED2,
2680     HTT_TX_PDEV_STATS_NUM_TX_ERR_STATUS = 7,
2681 
2682     HTT_TXERR_INVALID = 0xff,
2683 } htt_tx_err_status_t;
2684 
2685 
2686 /* Matching enum for htt_tx_selfgen_sch_tsflag_error_stats */
2687 typedef enum {
2688     HTT_TX_SELFGEN_SCH_TSFLAG_FLUSH_RCVD_ERR,
2689     HTT_TX_SELFGEN_SCH_TSFLAG_FILT_SCHED_CMD_ERR,
2690     HTT_TX_SELFGEN_SCH_TSFLAG_RESP_MISMATCH_ERR,
2691     HTT_TX_SELFGEN_SCH_TSFLAG_RESP_CBF_MIMO_CTRL_MISMATCH_ERR,
2692     HTT_TX_SELFGEN_SCH_TSFLAG_RESP_CBF_BW_MISMATCH_ERR,
2693     HTT_TX_SELFGEN_SCH_TSFLAG_RETRY_COUNT_FAIL_ERR,
2694     HTT_TX_SELFGEN_SCH_TSFLAG_RESP_TOO_LATE_RECEIVED_ERR,
2695     HTT_TX_SELFGEN_SCH_TSFLAG_SIFS_STALL_NO_NEXT_CMD_ERR,
2696 
2697     HTT_TX_SELFGEN_NUM_SCH_TSFLAG_ERROR_STATS = 8,
2698     HTT_TX_SELFGEN_SCH_TSFLAG_ERROR_STATS_VALID = 8
2699 } htt_tx_selfgen_sch_tsflag_error_stats;
2700 
2701 typedef enum {
2702     HTT_TX_MUMIMO_GRP_VALID,
2703     HTT_TX_MUMIMO_GRP_INVALID_NUM_MU_USERS_EXCEEDED_MU_MAX_USERS,
2704     HTT_TX_MUMIMO_GRP_INVALID_SCHED_ALGO_NOT_MU_COMPATIBLE_GID,
2705     HTT_TX_MUMIMO_GRP_INVALID_NON_PRIMARY_GRP,
2706     HTT_TX_MUMIMO_GRP_INVALID_ZERO_CANDIDATES,
2707     HTT_TX_MUMIMO_GRP_INVALID_MORE_CANDIDATES,
2708     HTT_TX_MUMIMO_GRP_INVALID_GROUP_SIZE_EXCEED_NSS,
2709     HTT_TX_MUMIMO_GRP_INVALID_GROUP_INELIGIBLE,
2710     HTT_TX_MUMIMO_GRP_INVALID,
2711     HTT_TX_MUMIMO_GRP_INVALID_GROUP_EFF_MU_TPUT_OMBPS,
2712     HTT_TX_MUMIMO_GRP_INVALID_MAX_REASON_CODE,
2713 } htt_tx_mumimo_grp_invalid_reason_code_stats;
2714 
2715 #define HTT_TX_PDEV_STATS_NUM_AC_MUMIMO_USER_STATS 4
2716 #define HTT_TX_PDEV_STATS_NUM_AX_MUMIMO_USER_STATS 8
2717 #define HTT_TX_PDEV_STATS_NUM_BE_MUMIMO_USER_STATS 8
2718 #define HTT_TX_PDEV_STATS_NUM_OFDMA_USER_STATS 74
2719 #define HTT_TX_PDEV_STATS_NUM_UL_MUMIMO_USER_STATS 8
2720 #define HTT_STATS_MAX_MUMIMO_GRP_SZ 8
2721 /*
2722  * Each bin represents a 300 mbps throughput
2723  *  [0] - 0-300mbps;     [1] - 300-600mbps    [2] - 600-900mbps;    [3] - 900-1200mbps;  [4] - 1200-1500mbps
2724  *  [5] - 1500-1800mbps; [6] - 1800-2100mbps; [7] - 2100-2400mbps;  [8] - 2400-2700mbps; [9] - >=2700mbps
2725  */
2726 #define HTT_STATS_MUMIMO_TPUT_NUM_BINS 10
2727 #define HTT_STATS_MAX_INVALID_REASON_CODE \
2728     HTT_TX_MUMIMO_GRP_INVALID_MAX_REASON_CODE
2729 /* Reasons stated in htt_tx_mumimo_grp_invalid_reason_code_stats */
2730 #define HTT_TX_NUM_MUMIMO_GRP_INVALID_WORDS \
2731     (HTT_STATS_MAX_MUMIMO_GRP_SZ * HTT_STATS_MAX_INVALID_REASON_CODE)
2732 
2733 #define HTT_MAX_NUM_SBT_INTR 4
2734 
2735 typedef struct {
2736     htt_tlv_hdr_t tlv_hdr;
2737 
2738     /*
2739      * BIT [ 7 :  0]   :- mac_id
2740      * BIT [31 :  8]   :- reserved
2741      */
2742     A_UINT32 mac_id__word;
2743     /** BAR sent out for SU transmission */
2744     A_UINT32 su_bar;
2745     /** SW generated RTS frame sent */
2746     A_UINT32 rts;
2747     /** SW generated CTS-to-self frame sent */
2748     A_UINT32 cts2self;
2749     /** SW generated QOS NULL frame sent */
2750     A_UINT32 qos_null;
2751     /** BAR sent for MU user 1 */
2752     A_UINT32 delayed_bar_1;
2753     /** BAR sent for MU user 2 */
2754     A_UINT32 delayed_bar_2;
2755     /** BAR sent for MU user 3 */
2756     A_UINT32 delayed_bar_3;
2757     /** BAR sent for MU user 4 */
2758     A_UINT32 delayed_bar_4;
2759     /** BAR sent for MU user 5 */
2760     A_UINT32 delayed_bar_5;
2761     /** BAR sent for MU user 6 */
2762     A_UINT32 delayed_bar_6;
2763     /** BAR sent for MU user 7 */
2764     A_UINT32 delayed_bar_7;
2765     A_UINT32 bar_with_tqm_head_seq_num;
2766     A_UINT32 bar_with_tid_seq_num;
2767     /** SW generated RTS frame queued to the HW */
2768     A_UINT32 su_sw_rts_queued;
2769     /** SW generated RTS frame sent over the air */
2770     A_UINT32 su_sw_rts_tried;
2771     /** SW generated RTS frame completed with error */
2772     A_UINT32 su_sw_rts_err;
2773     /** SW generated RTS frame flushed */
2774     A_UINT32 su_sw_rts_flushed;
2775     /** CTS (RTS response) received in different BW */
2776     A_UINT32 su_sw_rts_rcvd_cts_diff_bw;
2777 /* START DEPRECATED FIELDS */
2778     /** 11AX HE MU Combined Freq. BSRP Trigger frame sent over the air */
2779     A_UINT32 combined_ax_bsr_trigger_tried[HTT_NUM_AC_WMM];
2780     /** 11AX HE MU Combined Freq. BSRP Trigger completed with error(s) */
2781     A_UINT32 combined_ax_bsr_trigger_err[HTT_NUM_AC_WMM];
2782     /** 11AX HE MU Standalone Freq. BSRP Trigger frame sent over the air */
2783     A_UINT32 standalone_ax_bsr_trigger_tried[HTT_NUM_AC_WMM];
2784     /** 11AX HE MU Standalone Freq. BSRP Trigger completed with error(s) */
2785     A_UINT32 standalone_ax_bsr_trigger_err[HTT_NUM_AC_WMM];
2786 /* END DEPRECATED FIELDS */
2787     /** smart_basic_trig_sch_histogram:
2788      * Count how many times the interval between predictive basic triggers
2789      * sent to a given STA based on analysis of that STA's traffic patterns
2790      * is within a given range:
2791      *
2792      * smart_basic_trig_sch_histogram[0]: SBT interval <= 10 ms
2793      * smart_basic_trig_sch_histogram[1]: 10 ms < SBT interval <= 20 ms
2794      * smart_basic_trig_sch_histogram[2]: 20 ms < SBT interval <= 30 ms
2795      * smart_basic_trig_sch_histogram[3]: 30 ms < SBT interval <= 40 ms
2796      *
2797      * (Smart basic triggers are only used with intervals <= 40 ms.)
2798      */
2799     A_UINT32 smart_basic_trig_sch_histogram[HTT_MAX_NUM_SBT_INTR];
2800 } htt_stats_tx_selfgen_cmn_stats_tlv;
2801 /* preserve old name alias for new name consistent with the tag name */
2802 typedef htt_stats_tx_selfgen_cmn_stats_tlv htt_tx_selfgen_cmn_stats_tlv;
2803 
2804 typedef struct {
2805     htt_tlv_hdr_t tlv_hdr;
2806     /** 11AC VHT SU NDPA frame sent over the air */
2807     A_UINT32 ac_su_ndpa;
2808     /** 11AC VHT SU NDP frame sent over the air */
2809     A_UINT32 ac_su_ndp;
2810     /** 11AC VHT MU MIMO NDPA frame sent over the air */
2811     A_UINT32 ac_mu_mimo_ndpa;
2812     /** 11AC VHT MU MIMO NDP frame sent over the air */
2813     A_UINT32 ac_mu_mimo_ndp;
2814     /** 11AC VHT MU MIMO BR-POLL for user 1 sent over the air */
2815     A_UINT32 ac_mu_mimo_brpoll_1;
2816     /** 11AC VHT MU MIMO BR-POLL for user 2 sent over the air */
2817     A_UINT32 ac_mu_mimo_brpoll_2;
2818     /** 11AC VHT MU MIMO BR-POLL for user 3 sent over the air */
2819     A_UINT32 ac_mu_mimo_brpoll_3;
2820     /** 11AC VHT SU NDPA frame queued to the HW */
2821     A_UINT32 ac_su_ndpa_queued;
2822     /** 11AC VHT SU NDP frame queued to the HW */
2823     A_UINT32 ac_su_ndp_queued;
2824     /** 11AC VHT MU MIMO NDPA frame queued to the HW */
2825     A_UINT32 ac_mu_mimo_ndpa_queued;
2826     /** 11AC VHT MU MIMO NDP frame queued to the HW */
2827     A_UINT32 ac_mu_mimo_ndp_queued;
2828     /** 11AC VHT MU MIMO BR-POLL for user 1 frame queued to the HW */
2829     A_UINT32 ac_mu_mimo_brpoll_1_queued;
2830     /** 11AC VHT MU MIMO BR-POLL for user 2 frame queued to the HW */
2831     A_UINT32 ac_mu_mimo_brpoll_2_queued;
2832     /** 11AC VHT MU MIMO BR-POLL for user 3 frame queued to the HW */
2833     A_UINT32 ac_mu_mimo_brpoll_3_queued;
2834 } htt_stats_tx_selfgen_ac_stats_tlv;
2835 /* preserve old name alias for new name consistent with the tag name */
2836 typedef htt_stats_tx_selfgen_ac_stats_tlv htt_tx_selfgen_ac_stats_tlv;
2837 
2838 typedef struct {
2839     htt_tlv_hdr_t tlv_hdr;
2840     /** 11AX HE SU NDPA frame sent over the air */
2841     A_UINT32 ax_su_ndpa;
2842     /** 11AX HE NDP frame sent over the air */
2843     A_UINT32 ax_su_ndp;
2844     /** 11AX HE MU MIMO NDPA frame sent over the air */
2845     A_UINT32 ax_mu_mimo_ndpa;
2846     /** 11AX HE MU MIMO NDP frame sent over the air */
2847     A_UINT32 ax_mu_mimo_ndp;
2848     union {
2849         struct {
2850             /* deprecated old names */
2851             A_UINT32 ax_mu_mimo_brpoll_1;
2852             A_UINT32 ax_mu_mimo_brpoll_2;
2853             A_UINT32 ax_mu_mimo_brpoll_3;
2854             A_UINT32 ax_mu_mimo_brpoll_4;
2855             A_UINT32 ax_mu_mimo_brpoll_5;
2856             A_UINT32 ax_mu_mimo_brpoll_6;
2857             A_UINT32 ax_mu_mimo_brpoll_7;
2858         };
2859         /** 11AX HE MU BR-POLL frame for users 1 - 7 sent over the air */
2860         A_UINT32 ax_mu_mimo_brpoll[HTT_TX_PDEV_STATS_NUM_AX_MUMIMO_USER_STATS - 1];
2861     };
2862     /** 11AX HE MU Basic Trigger frame sent over the air */
2863     A_UINT32 ax_basic_trigger;
2864     /** 11AX HE MU BSRP Trigger frame sent over the air */
2865     A_UINT32 ax_bsr_trigger;
2866     /** 11AX HE MU BAR Trigger frame sent over the air */
2867     A_UINT32 ax_mu_bar_trigger;
2868     /** 11AX HE MU RTS Trigger frame sent over the air */
2869     A_UINT32 ax_mu_rts_trigger;
2870     /** 11AX HE MU UL-MUMIMO Trigger frame sent over the air */
2871     A_UINT32 ax_ulmumimo_trigger;
2872     /** 11AX HE SU NDPA frame queued to the HW */
2873     A_UINT32 ax_su_ndpa_queued;
2874     /** 11AX HE SU NDP frame queued to the HW */
2875     A_UINT32 ax_su_ndp_queued;
2876     /** 11AX HE MU MIMO NDPA frame queued to the HW */
2877     A_UINT32 ax_mu_mimo_ndpa_queued;
2878     /** 11AX HE MU MIMO NDP frame queued to the HW */
2879     A_UINT32 ax_mu_mimo_ndp_queued;
2880     /** 11AX HE MU BR-POLL frame for users 1 - 7 queued to the HW */
2881     A_UINT32 ax_mu_mimo_brpoll_queued[HTT_TX_PDEV_STATS_NUM_AX_MUMIMO_USER_STATS - 1];
2882     /**
2883      * 11AX HE UL-MUMIMO Trigger frame for users 0 - 7
2884      * successfully sent over the air
2885      */
2886     A_UINT32 ax_ul_mumimo_trigger[HTT_TX_PDEV_STATS_NUM_AX_MUMIMO_USER_STATS];
2887     /** 11AX HE MU Combined Freq. BSRP Trigger frame sent over the air */
2888     A_UINT32 combined_ax_bsr_trigger_tried[HTT_NUM_AC_WMM];
2889     /** 11AX HE MU Combined Freq. BSRP Trigger completed with error(s) */
2890     A_UINT32 combined_ax_bsr_trigger_err[HTT_NUM_AC_WMM];
2891     /** 11AX HE MU Standalone Freq. BSRP Trigger frame sent over the air */
2892     A_UINT32 standalone_ax_bsr_trigger_tried[HTT_NUM_AC_WMM];
2893     /** 11AX HE MU Standalone Freq. BSRP Trigger completed with error(s) */
2894     A_UINT32 standalone_ax_bsr_trigger_err[HTT_NUM_AC_WMM];
2895     /** 11AX HE Manual Single-User UL OFDMA Trigger frame sent over the air */
2896     A_UINT32 manual_ax_su_ulofdma_basic_trigger[HTT_NUM_AC_WMM];
2897     /** 11AX HE Manual Single-User UL OFDMA Trigger completed with error(s) */
2898     A_UINT32 manual_ax_su_ulofdma_basic_trigger_err[HTT_NUM_AC_WMM];
2899     /** 11AX HE Manual Multi-User UL OFDMA Trigger frame sent over the air */
2900     A_UINT32 manual_ax_mu_ulofdma_basic_trigger[HTT_NUM_AC_WMM];
2901     /** 11AX HE Manual Multi-User UL OFDMA Trigger completed with error(s) */
2902     A_UINT32 manual_ax_mu_ulofdma_basic_trigger_err[HTT_NUM_AC_WMM];
2903     /** 11AX HE UL OFDMA Basic Trigger frames per AC */
2904     A_UINT32 ax_basic_trigger_per_ac[HTT_NUM_AC_WMM];
2905     /** 11AX HE UL OFDMA Basic Trigger frames per AC completed with error(s) */
2906     A_UINT32 ax_basic_trigger_errors_per_ac[HTT_NUM_AC_WMM];
2907     /** 11AX HE MU-BAR Trigger frames per AC */
2908     A_UINT32 ax_mu_bar_trigger_per_ac[HTT_NUM_AC_WMM];
2909     /** 11AX HE MU-BAR Trigger frames per AC completed with error(s) */
2910     A_UINT32 ax_mu_bar_trigger_errors_per_ac[HTT_NUM_AC_WMM];
2911 } htt_stats_tx_selfgen_ax_stats_tlv;
2912 /* preserve old name alias for new name consistent with the tag name */
2913 typedef htt_stats_tx_selfgen_ax_stats_tlv htt_tx_selfgen_ax_stats_tlv;
2914 
2915 typedef struct {
2916     htt_tlv_hdr_t tlv_hdr;
2917     /** 11be EHT SU NDPA frame sent over the air */
2918     A_UINT32 be_su_ndpa;
2919     /** 11be EHT NDP frame sent over the air */
2920     A_UINT32 be_su_ndp;
2921     /** 11be EHT MU MIMO NDPA frame sent over the air */
2922     A_UINT32 be_mu_mimo_ndpa;
2923     /** 11be EHT MU MIMO NDP frame sent over theT air */
2924     A_UINT32 be_mu_mimo_ndp;
2925     /** 11be EHT MU BR-POLL frame for users 1 - 7 sent over the air */
2926     A_UINT32 be_mu_mimo_brpoll[HTT_TX_PDEV_STATS_NUM_BE_MUMIMO_USER_STATS - 1];
2927     /** 11be EHT MU Basic Trigger frame sent over the air */
2928     A_UINT32 be_basic_trigger;
2929     /** 11be EHT MU BSRP Trigger frame sent over the air */
2930     A_UINT32 be_bsr_trigger;
2931     /** 11be EHT MU BAR Trigger frame sent over the air */
2932     A_UINT32 be_mu_bar_trigger;
2933     /** 11be EHT MU RTS Trigger frame sent over the air */
2934     A_UINT32 be_mu_rts_trigger;
2935     /** 11be EHT MU UL-MUMIMO Trigger frame sent over the air */
2936     A_UINT32 be_ulmumimo_trigger;
2937     /** 11be EHT SU NDPA frame queued to the HW */
2938     A_UINT32 be_su_ndpa_queued;
2939     /** 11be EHT SU NDP frame queued to the HW */
2940     A_UINT32 be_su_ndp_queued;
2941     /** 11be EHT MU MIMO NDPA frame queued to the HW */
2942     A_UINT32 be_mu_mimo_ndpa_queued;
2943     /** 11be EHT MU MIMO NDP frame queued to the HW */
2944     A_UINT32 be_mu_mimo_ndp_queued;
2945     /** 11be EHT MU BR-POLL frame for users 1 - 7 queued to the HW */
2946     A_UINT32 be_mu_mimo_brpoll_queued[HTT_TX_PDEV_STATS_NUM_BE_MUMIMO_USER_STATS - 1];
2947     /**
2948      * 11be EHT UL-MUMIMO Trigger frame for users 0 - 7
2949      * successfully sent over the air
2950      */
2951     A_UINT32 be_ul_mumimo_trigger[HTT_TX_PDEV_STATS_NUM_BE_MUMIMO_USER_STATS];
2952     /** 11BE EHT MU Combined Freq. BSRP Trigger frame sent over the air */
2953     A_UINT32 combined_be_bsr_trigger_tried[HTT_NUM_AC_WMM];
2954     /** 11BE EHT MU Combined Freq. BSRP Trigger completed with error(s) */
2955     A_UINT32 combined_be_bsr_trigger_err[HTT_NUM_AC_WMM];
2956     /** 11BE EHT MU Standalone Freq. BSRP Trigger frame sent over the air */
2957     A_UINT32 standalone_be_bsr_trigger_tried[HTT_NUM_AC_WMM];
2958     /** 11BE EHT MU Standalone Freq. BSRP Trigger completed with error(s) */
2959     A_UINT32 standalone_be_bsr_trigger_err[HTT_NUM_AC_WMM];
2960     /** 11BE EHT Manual Single-User UL OFDMA Trigger frame sent over the air */
2961     A_UINT32 manual_be_su_ulofdma_basic_trigger[HTT_NUM_AC_WMM];
2962     /** 11BE EHT Manual Single-User UL OFDMA Trigger completed with error(s) */
2963     A_UINT32 manual_be_su_ulofdma_basic_trigger_err[HTT_NUM_AC_WMM];
2964     /** 11BE EHT Manual Multi-User UL OFDMA Trigger frame sent over the air */
2965     A_UINT32 manual_be_mu_ulofdma_basic_trigger[HTT_NUM_AC_WMM];
2966     /** 11BE EHT Manual Multi-User UL OFDMA Trigger completed with error(s) */
2967     A_UINT32 manual_be_mu_ulofdma_basic_trigger_err[HTT_NUM_AC_WMM];
2968     /** 11BE EHT UL OFDMA Basic Trigger frames per AC */
2969     A_UINT32 be_basic_trigger_per_ac[HTT_NUM_AC_WMM];
2970     /** 11BE EHT UL OFDMA Basic Trigger frames per AC completed with error(s) */
2971     A_UINT32 be_basic_trigger_errors_per_ac[HTT_NUM_AC_WMM];
2972     /** 11BE EHT MU-BAR Trigger frames per AC */
2973     A_UINT32 be_mu_bar_trigger_per_ac[HTT_NUM_AC_WMM];
2974     /** 11BE EHT MU-BAR Trigger frames per AC completed with error(s) */
2975     A_UINT32 be_mu_bar_trigger_errors_per_ac[HTT_NUM_AC_WMM];
2976 } htt_stats_tx_selfgen_be_stats_tlv;
2977 /* preserve old name alias for new name consistent with the tag name */
2978 typedef htt_stats_tx_selfgen_be_stats_tlv htt_tx_selfgen_be_stats_tlv;
2979 
2980 typedef struct { /* DEPRECATED */
2981     htt_tlv_hdr_t tlv_hdr;
2982     /** 11AX HE OFDMA NDPA frame queued to the HW */
2983     A_UINT32 ax_ofdma_ndpa_queued[HTT_TX_PDEV_STATS_NUM_OFDMA_USER_STATS];
2984     /** 11AX HE OFDMA NDPA frame sent over the air */
2985     A_UINT32 ax_ofdma_ndpa_tried[HTT_TX_PDEV_STATS_NUM_OFDMA_USER_STATS];
2986     /** 11AX HE OFDMA NDPA frame flushed by HW */
2987     A_UINT32 ax_ofdma_ndpa_flushed[HTT_TX_PDEV_STATS_NUM_OFDMA_USER_STATS];
2988     /** 11AX HE OFDMA NDPA frame completed with error(s) */
2989     A_UINT32 ax_ofdma_ndpa_err[HTT_TX_PDEV_STATS_NUM_OFDMA_USER_STATS];
2990 } htt_stats_txbf_ofdma_ndpa_stats_tlv;
2991 /* preserve old name alias for new name consistent with the tag name */
2992 typedef htt_stats_txbf_ofdma_ndpa_stats_tlv htt_txbf_ofdma_ndpa_stats_tlv;
2993 
2994 typedef struct { /* DEPRECATED */
2995     htt_tlv_hdr_t tlv_hdr;
2996     /** 11AX HE OFDMA NDP frame queued to the HW */
2997     A_UINT32 ax_ofdma_ndp_queued[HTT_TX_PDEV_STATS_NUM_OFDMA_USER_STATS];
2998     /** 11AX HE OFDMA NDPA frame sent over the air */
2999     A_UINT32 ax_ofdma_ndp_tried[HTT_TX_PDEV_STATS_NUM_OFDMA_USER_STATS];
3000     /** 11AX HE OFDMA NDPA frame flushed by HW */
3001     A_UINT32 ax_ofdma_ndp_flushed[HTT_TX_PDEV_STATS_NUM_OFDMA_USER_STATS];
3002     /** 11AX HE OFDMA NDPA frame completed with error(s) */
3003     A_UINT32 ax_ofdma_ndp_err[HTT_TX_PDEV_STATS_NUM_OFDMA_USER_STATS];
3004 } htt_stats_txbf_ofdma_ndp_stats_tlv;
3005 /* preserve old name alias for new name consistent with the tag name */
3006 typedef htt_stats_txbf_ofdma_ndp_stats_tlv htt_txbf_ofdma_ndp_stats_tlv;
3007 
3008 typedef struct { /* DEPRECATED */
3009     htt_tlv_hdr_t tlv_hdr;
3010     /** 11AX HE OFDMA MU BRPOLL frame queued to the HW */
3011     A_UINT32 ax_ofdma_brpoll_queued[HTT_TX_PDEV_STATS_NUM_OFDMA_USER_STATS];
3012     /** 11AX HE OFDMA MU BRPOLL frame sent over the air */
3013     A_UINT32 ax_ofdma_brpoll_tried[HTT_TX_PDEV_STATS_NUM_OFDMA_USER_STATS];
3014     /** 11AX HE OFDMA MU BRPOLL frame flushed by HW */
3015     A_UINT32 ax_ofdma_brpoll_flushed[HTT_TX_PDEV_STATS_NUM_OFDMA_USER_STATS];
3016     /** 11AX HE OFDMA MU BRPOLL frame completed with error(s) */
3017     A_UINT32 ax_ofdma_brp_err[HTT_TX_PDEV_STATS_NUM_OFDMA_USER_STATS];
3018     /**
3019      * Number of CBF(s) received when 11AX HE OFDMA MU BRPOLL frame
3020      * completed with error(s)
3021      */
3022     A_UINT32 ax_ofdma_brp_err_num_cbf_rcvd[HTT_TX_PDEV_STATS_NUM_OFDMA_USER_STATS+1];
3023 } htt_stats_txbf_ofdma_brp_stats_tlv;
3024 /* preserve old name alias for new name consistent with the tag name */
3025 typedef htt_stats_txbf_ofdma_brp_stats_tlv htt_txbf_ofdma_brp_stats_tlv;
3026 
3027 typedef struct { /* DEPRECATED */
3028     htt_tlv_hdr_t tlv_hdr;
3029     /**
3030      * 11AX HE OFDMA PPDUs that were sent over the air with steering
3031      * (TXBF + OFDMA)
3032      */
3033     A_UINT32 ax_ofdma_num_ppdu_steer[HTT_TX_PDEV_STATS_NUM_OFDMA_USER_STATS];
3034     /** 11AX HE OFDMA PPDUs that were sent over the air in open loop */
3035     A_UINT32 ax_ofdma_num_ppdu_ol[HTT_TX_PDEV_STATS_NUM_OFDMA_USER_STATS];
3036     /**
3037      * 11AX HE OFDMA number of users for which CBF prefetch was initiated
3038      * to PHY HW during TX
3039      */
3040     A_UINT32 ax_ofdma_num_usrs_prefetch[HTT_TX_PDEV_STATS_NUM_OFDMA_USER_STATS];
3041     /**
3042      * 11AX HE OFDMA number of users for which sounding was initiated
3043      * during TX
3044      */
3045     A_UINT32 ax_ofdma_num_usrs_sound[HTT_TX_PDEV_STATS_NUM_OFDMA_USER_STATS];
3046     /** 11AX HE OFDMA number of users for which sounding was forced during TX */
3047     A_UINT32 ax_ofdma_num_usrs_force_sound[HTT_TX_PDEV_STATS_NUM_OFDMA_USER_STATS];
3048 } htt_stats_txbf_ofdma_steer_stats_tlv;
3049 /* preserve old name alias for new name consistent with the tag name */
3050 typedef htt_stats_txbf_ofdma_steer_stats_tlv htt_txbf_ofdma_steer_stats_tlv;
3051 
3052 /* Note:
3053  * This struct htt_tx_pdev_txbf_ofdma_stats_t and all its constituent
3054  * struct TLVs are deprecated, due to the need for restructuring these
3055  * stats into a variable length array
3056  */
3057 #ifdef ATH_TARGET
3058 typedef struct { /* DEPRECATED */
3059     htt_stats_txbf_ofdma_ndpa_stats_tlv  ofdma_ndpa_tlv;
3060     htt_stats_txbf_ofdma_ndp_stats_tlv   ofdma_ndp_tlv;
3061     htt_stats_txbf_ofdma_brp_stats_tlv   ofdma_brp_tlv;
3062     htt_stats_txbf_ofdma_steer_stats_tlv ofdma_steer_tlv;
3063 } htt_tx_pdev_txbf_ofdma_stats_t;
3064 #endif /* ATH_TARGET */
3065 
3066 typedef struct {
3067     /** 11AX HE OFDMA NDPA frame queued to the HW */
3068     A_UINT32 ax_ofdma_ndpa_queued;
3069     /** 11AX HE OFDMA NDPA frame sent over the air */
3070     A_UINT32 ax_ofdma_ndpa_tried;
3071     /** 11AX HE OFDMA NDPA frame flushed by HW */
3072     A_UINT32 ax_ofdma_ndpa_flushed;
3073     /** 11AX HE OFDMA NDPA frame completed with error(s) */
3074     A_UINT32 ax_ofdma_ndpa_err;
3075 } htt_txbf_ofdma_ax_ndpa_stats_elem_t;
3076 
3077 typedef struct {
3078     htt_tlv_hdr_t tlv_hdr;
3079     /**
3080      * This field is populated with the num of elems in the ax_ndpa[]
3081      * variable length array.
3082      */
3083     A_UINT32 num_elems_ax_ndpa_arr;
3084     /**
3085      * This field will be filled by target with value of
3086      * sizeof(htt_txbf_ofdma_ax_ndpa_stats_elem_t).
3087      * This is for allowing host to infer how much data target has provided,
3088      * even if it using different version of the struct def than what target
3089      * had used.
3090      */
3091     A_UINT32 arr_elem_size_ax_ndpa;
3092     HTT_STATS_VAR_LEN_ARRAY1(htt_txbf_ofdma_ax_ndpa_stats_elem_t, ax_ndpa);
3093 } htt_stats_txbf_ofdma_ax_ndpa_stats_tlv;
3094 /* preserve old name alias for new name consistent with the tag name */
3095 typedef htt_stats_txbf_ofdma_ax_ndpa_stats_tlv htt_txbf_ofdma_ax_ndpa_stats_tlv;
3096 
3097 typedef struct {
3098     /** 11AX HE OFDMA NDP frame queued to the HW */
3099     A_UINT32 ax_ofdma_ndp_queued;
3100     /** 11AX HE OFDMA NDPA frame sent over the air */
3101     A_UINT32 ax_ofdma_ndp_tried;
3102     /** 11AX HE OFDMA NDPA frame flushed by HW */
3103     A_UINT32 ax_ofdma_ndp_flushed;
3104     /** 11AX HE OFDMA NDPA frame completed with error(s) */
3105     A_UINT32 ax_ofdma_ndp_err;
3106 } htt_txbf_ofdma_ax_ndp_stats_elem_t;
3107 
3108 typedef struct {
3109     htt_tlv_hdr_t tlv_hdr;
3110     /**
3111      * This field is populated with the num of elems in the the ax_ndp[]
3112      * variable length array.
3113      */
3114     A_UINT32 num_elems_ax_ndp_arr;
3115     /**
3116      * This field will be filled by target with value of
3117      * sizeof(htt_txbf_ofdma_ax_ndp_stats_elem_t).
3118      * This is for allowing host to infer how much data target has provided,
3119      * even if it using different version of the struct def than what target
3120      * had used.
3121      */
3122     A_UINT32 arr_elem_size_ax_ndp;
3123     HTT_STATS_VAR_LEN_ARRAY1(htt_txbf_ofdma_ax_ndp_stats_elem_t, ax_ndp);
3124 } htt_stats_txbf_ofdma_ax_ndp_stats_tlv;
3125 /* preserve old name alias for new name consistent with the tag name */
3126 typedef htt_stats_txbf_ofdma_ax_ndp_stats_tlv htt_txbf_ofdma_ax_ndp_stats_tlv;
3127 
3128 typedef struct {
3129     /** 11AX HE OFDMA MU BRPOLL frame queued to the HW */
3130     A_UINT32 ax_ofdma_brpoll_queued;
3131     /** 11AX HE OFDMA MU BRPOLL frame sent over the air */
3132     A_UINT32 ax_ofdma_brpoll_tried;
3133     /** 11AX HE OFDMA MU BRPOLL frame flushed by HW */
3134     A_UINT32 ax_ofdma_brpoll_flushed;
3135     /** 11AX HE OFDMA MU BRPOLL frame completed with error(s) */
3136     A_UINT32 ax_ofdma_brp_err;
3137     /**
3138      * Number of CBF(s) received when 11AX HE OFDMA MU BRPOLL frame
3139      * completed with error(s)
3140      */
3141     A_UINT32 ax_ofdma_brp_err_num_cbf_rcvd;
3142 } htt_txbf_ofdma_ax_brp_stats_elem_t;
3143 
3144 typedef struct {
3145     htt_tlv_hdr_t tlv_hdr;
3146     /**
3147      * This field is populated with the num of elems in the the ax_brp[]
3148      * variable length array.
3149      */
3150     A_UINT32 num_elems_ax_brp_arr;
3151     /**
3152      * This field will be filled by target with value of
3153      * sizeof(htt_txbf_ofdma_ax_brp_stats_elem_t).
3154      * This is for allowing host to infer how much data target has provided,
3155      * even if it using different version of the struct than what target
3156      * had used.
3157      */
3158     A_UINT32 arr_elem_size_ax_brp;
3159     HTT_STATS_VAR_LEN_ARRAY1(htt_txbf_ofdma_ax_brp_stats_elem_t, ax_brp);
3160 } htt_stats_txbf_ofdma_ax_brp_stats_tlv;
3161 /* preserve old name alias for new name consistent with the tag name */
3162 typedef htt_stats_txbf_ofdma_ax_brp_stats_tlv htt_txbf_ofdma_ax_brp_stats_tlv;
3163 
3164 typedef struct {
3165     /**
3166      * 11AX HE OFDMA PPDUs that were sent over the air with steering
3167      * (TXBF + OFDMA)
3168      */
3169     A_UINT32 ax_ofdma_num_ppdu_steer;
3170     /** 11AX HE OFDMA PPDUs that were sent over the air in open loop */
3171     A_UINT32 ax_ofdma_num_ppdu_ol;
3172     /**
3173      * 11AX HE OFDMA number of users for which CBF prefetch was initiated
3174      * to PHY HW during TX
3175      */
3176     A_UINT32 ax_ofdma_num_usrs_prefetch;
3177     /**
3178      * 11AX HE OFDMA number of users for which sounding was initiated
3179      * during TX
3180      */
3181     A_UINT32 ax_ofdma_num_usrs_sound;
3182     /** 11AX HE OFDMA number of users for which sounding was forced during TX */
3183     A_UINT32 ax_ofdma_num_usrs_force_sound;
3184 } htt_txbf_ofdma_ax_steer_stats_elem_t;
3185 
3186 typedef struct {
3187     htt_tlv_hdr_t tlv_hdr;
3188     /**
3189      * This field is populated with the num of elems in the ax_steer[]
3190      * variable length array.
3191      */
3192     A_UINT32 num_elems_ax_steer_arr;
3193     /**
3194      * This field will be filled by target with value of
3195      * sizeof(htt_txbf_ofdma_ax_steer_stats_elem_t).
3196      * This is for allowing host to infer how much data target has provided,
3197      * even if it using different version of the struct than what target
3198      * had used.
3199      */
3200     A_UINT32 arr_elem_size_ax_steer;
3201     HTT_STATS_VAR_LEN_ARRAY1(htt_txbf_ofdma_ax_steer_stats_elem_t, ax_steer);
3202 } htt_stats_txbf_ofdma_ax_steer_stats_tlv;
3203 /* preserve old name alias for new name consistent with the tag name */
3204 typedef htt_stats_txbf_ofdma_ax_steer_stats_tlv
3205     htt_txbf_ofdma_ax_steer_stats_tlv;
3206 
3207 typedef struct {
3208     htt_tlv_hdr_t tlv_hdr;
3209     /* 11AX HE OFDMA MPDUs tried in rbo steering */
3210     A_UINT32 ax_ofdma_rbo_steer_mpdus_tried;
3211     /* 11AX HE OFDMA MPDUs failed in rbo steering */
3212     A_UINT32 ax_ofdma_rbo_steer_mpdus_failed;
3213     /* 11AX HE OFDMA MPDUs tried in sifs steering */
3214     A_UINT32 ax_ofdma_sifs_steer_mpdus_tried;
3215     /* 11AX HE OFDMA MPDUs failed in sifs steering */
3216     A_UINT32 ax_ofdma_sifs_steer_mpdus_failed;
3217 } htt_stats_txbf_ofdma_ax_steer_mpdu_stats_tlv;
3218 /* preserve old name alias for new name consistent with the tag name */
3219 typedef htt_stats_txbf_ofdma_ax_steer_mpdu_stats_tlv
3220     htt_txbf_ofdma_ax_steer_mpdu_stats_tlv;
3221 
3222 typedef struct {
3223     /** 11BE EHT OFDMA NDPA frame queued to the HW */
3224     A_UINT32 be_ofdma_ndpa_queued;
3225     /** 11BE EHT OFDMA NDPA frame sent over the air */
3226     A_UINT32 be_ofdma_ndpa_tried;
3227     /** 11BE EHT OFDMA NDPA frame flushed by HW */
3228     A_UINT32 be_ofdma_ndpa_flushed;
3229     /** 11BE EHT OFDMA NDPA frame completed with error(s) */
3230     A_UINT32 be_ofdma_ndpa_err;
3231 } htt_txbf_ofdma_be_ndpa_stats_elem_t;
3232 
3233 typedef struct {
3234     htt_tlv_hdr_t tlv_hdr;
3235     /**
3236      * This field is populated with the num of elems in the be_ndpa[]
3237      * variable length array.
3238      */
3239     A_UINT32 num_elems_be_ndpa_arr;
3240     /**
3241      * This field will be filled by target with value of
3242      * sizeof(htt_txbf_ofdma_be_ndpa_stats_elem_t).
3243      * This is for allowing host to infer how much data target has provided,
3244      * even if it using different version of the struct than what target
3245      * had used.
3246      */
3247     A_UINT32 arr_elem_size_be_ndpa;
3248     HTT_STATS_VAR_LEN_ARRAY1(htt_txbf_ofdma_be_ndpa_stats_elem_t, be_ndpa);
3249 } htt_stats_txbf_ofdma_be_ndpa_stats_tlv;
3250 /* preserve old name alias for new name consistent with the tag name */
3251 typedef htt_stats_txbf_ofdma_be_ndpa_stats_tlv htt_txbf_ofdma_be_ndpa_stats_tlv;
3252 
3253 typedef struct {
3254     /** 11BE EHT OFDMA NDP frame queued to the HW */
3255     A_UINT32 be_ofdma_ndp_queued;
3256     /** 11BE EHT OFDMA NDPA frame sent over the air */
3257     A_UINT32 be_ofdma_ndp_tried;
3258     /** 11BE EHT OFDMA NDPA frame flushed by HW */
3259     A_UINT32 be_ofdma_ndp_flushed;
3260     /** 11BE EHT OFDMA NDPA frame completed with error(s) */
3261     A_UINT32 be_ofdma_ndp_err;
3262 } htt_txbf_ofdma_be_ndp_stats_elem_t;
3263 
3264 typedef struct {
3265     htt_tlv_hdr_t tlv_hdr;
3266     /**
3267      * This field is populated with the num of elems in the be_ndp[]
3268      * variable length array.
3269      */
3270     A_UINT32 num_elems_be_ndp_arr;
3271     /**
3272      * This field will be filled by target with value of
3273      * sizeof(htt_txbf_ofdma_be_ndp_stats_elem_t).
3274      * This is for allowing host to infer how much data target has provided,
3275      * even if it using different version of the struct than what target
3276      * had used.
3277      */
3278     A_UINT32 arr_elem_size_be_ndp;
3279     HTT_STATS_VAR_LEN_ARRAY1(htt_txbf_ofdma_be_ndp_stats_elem_t, be_ndp);
3280 } htt_stats_txbf_ofdma_be_ndp_stats_tlv;
3281 /* preserve old name alias for new name consistent with the tag name */
3282 typedef htt_stats_txbf_ofdma_be_ndp_stats_tlv htt_txbf_ofdma_be_ndp_stats_tlv;
3283 
3284 typedef struct {
3285     /** 11BE EHT OFDMA MU BRPOLL frame queued to the HW */
3286     A_UINT32 be_ofdma_brpoll_queued;
3287     /** 11BE EHT OFDMA MU BRPOLL frame sent over the air */
3288     A_UINT32 be_ofdma_brpoll_tried;
3289     /** 11BE EHT OFDMA MU BRPOLL frame flushed by HW */
3290     A_UINT32 be_ofdma_brpoll_flushed;
3291     /** 11BE EHT OFDMA MU BRPOLL frame completed with error(s) */
3292     A_UINT32 be_ofdma_brp_err;
3293     /**
3294      * Number of CBF(s) received when 11BE EHT OFDMA MU BRPOLL frame
3295      * completed with error(s)
3296      */
3297     A_UINT32 be_ofdma_brp_err_num_cbf_rcvd;
3298 } htt_txbf_ofdma_be_brp_stats_elem_t;
3299 
3300 typedef struct {
3301     htt_tlv_hdr_t tlv_hdr;
3302     /**
3303      * This field is populated with the num of elems in the be_brp[]
3304      * variable length array.
3305      */
3306     A_UINT32 num_elems_be_brp_arr;
3307     /**
3308      * This field will be filled by target with value of
3309      * sizeof(htt_txbf_ofdma_be_brp_stats_elem_t).
3310      * This is for allowing host to infer how much data target has provided,
3311      * even if it using different version of the struct than what target
3312      * had used
3313      */
3314     A_UINT32 arr_elem_size_be_brp;
3315     HTT_STATS_VAR_LEN_ARRAY1(htt_txbf_ofdma_be_brp_stats_elem_t, be_brp);
3316 } htt_stats_txbf_ofdma_be_brp_stats_tlv;
3317 /* preserve old name alias for new name consistent with the tag name */
3318 typedef htt_stats_txbf_ofdma_be_brp_stats_tlv htt_txbf_ofdma_be_brp_stats_tlv;
3319 
3320 typedef struct {
3321     /**
3322      * 11BE EHT OFDMA PPDUs that were sent over the air with steering
3323      * (TXBF + OFDMA)
3324      */
3325     A_UINT32 be_ofdma_num_ppdu_steer;
3326     /** 11BE EHT OFDMA PPDUs that were sent over the air in open loop */
3327     A_UINT32 be_ofdma_num_ppdu_ol;
3328     /**
3329      * 11BE EHT OFDMA number of users for which CBF prefetch was initiated
3330      * to PHY HW during TX
3331      */
3332     A_UINT32 be_ofdma_num_usrs_prefetch;
3333     /**
3334      * 11BE EHT OFDMA number of users for which sounding was initiated
3335      * during TX
3336      */
3337     A_UINT32 be_ofdma_num_usrs_sound;
3338     /**
3339      * 11BE EHT OFDMA number of users for which sounding was forced during TX
3340      */
3341     A_UINT32 be_ofdma_num_usrs_force_sound;
3342 } htt_txbf_ofdma_be_steer_stats_elem_t;
3343 
3344 typedef struct {
3345     htt_tlv_hdr_t tlv_hdr;
3346     /**
3347      * This field is populated with the num of elems in the be_steer[]
3348      * variable length array.
3349      */
3350     A_UINT32 num_elems_be_steer_arr;
3351     /**
3352      * This field will be filled by target with value of
3353      * sizeof(htt_txbf_ofdma_be_steer_stats_elem_t).
3354      * This is for allowing host to infer how much data target has provided,
3355      * even if it using different version of the struct than what target
3356      * had used.
3357      */
3358     A_UINT32 arr_elem_size_be_steer;
3359     HTT_STATS_VAR_LEN_ARRAY1(htt_txbf_ofdma_be_steer_stats_elem_t, be_steer);
3360 } htt_stats_txbf_ofdma_be_steer_stats_tlv;
3361 /* preserve old name alias for new name consistent with the tag name */
3362 typedef htt_stats_txbf_ofdma_be_steer_stats_tlv
3363     htt_txbf_ofdma_be_steer_stats_tlv;
3364 
3365 typedef struct {
3366     htt_tlv_hdr_t tlv_hdr;
3367     /* 11BE EHT OFDMA MPDUs tried in rbo steering */
3368     A_UINT32 be_ofdma_rbo_steer_mpdus_tried;
3369     /* 11BE EHT OFDMA MPDUs failed in rbo steering */
3370     A_UINT32 be_ofdma_rbo_steer_mpdus_failed;
3371     /* 11BE EHT OFDMA MPDUs tried in sifs steering */
3372     A_UINT32 be_ofdma_sifs_steer_mpdus_tried;
3373     /* 11BE EHT OFDMA MPDUs failed in sifs steering */
3374     A_UINT32 be_ofdma_sifs_steer_mpdus_failed;
3375 } htt_stats_txbf_ofdma_be_steer_mpdu_stats_tlv;
3376 /* preserve old name alias for new name consistent with the tag name */
3377 typedef htt_stats_txbf_ofdma_be_steer_mpdu_stats_tlv
3378     htt_txbf_ofdma_be_steer_mpdu_stats_tlv;
3379 
3380 /* HTT_STATS_TXBF_OFDMA_BE_PARBW_TAG stats TLV:
3381  * Sent by target in response to HTT_DBG_EXT_STATS_TXBF_OFDMA stats ID request.
3382  */
3383 typedef struct {
3384     htt_tlv_hdr_t tlv_hdr;
3385     /* Num of EHT TxBF Partial Bandwidth soundings */
3386     A_UINT32 be_ofdma_parbw_user_snd;
3387     /* Num of EHT Partial Bandwidth Sounded CVs received */
3388     A_UINT32 be_ofdma_parbw_cv;
3389     /* Num of 11BE EHT Total CVs received */
3390     A_UINT32 be_ofdma_total_cv;
3391 } htt_stats_txbf_ofdma_be_parbw_tlv;
3392 
3393 /* STATS_TYPE : HTT_DBG_EXT_STATS_TXBF_OFDMA
3394  * TLV_TAGS:
3395  *      - HTT_STATS_TXBF_OFDMA_NDPA_STATS_TAG
3396  *      - HTT_STATS_TXBF_OFDMA_NDP_STATS_TAG
3397  *      - HTT_STATS_TXBF_OFDMA_BRP_STATS_TAG
3398  *      - HTT_STATS_TXBF_OFDMA_STEER_STATS_TAG
3399  *      - HTT_STATS_TXBF_OFDMA_AX_STEER_MPDU_STATS_TAG
3400  *      - HTT_STATS_TXBF_OFDMA_BE_NDPA_STATS_TAG
3401  *      - HTT_STATS_TXBF_OFDMA_BE_NDP_STATS_TAG
3402  *      - HTT_STATS_TXBF_OFDMA_BE_BRP_STATS_TAG
3403  *      - HTT_STATS_TXBF_OFDMA_BE_STEER_STATS_TAG
3404  *      - HTT_STATS_TXBF_OFDMA_BE_STEER_MPDU_STATS_TAG
3405  */
3406 
3407 typedef struct {
3408     htt_tlv_hdr_t tlv_hdr;
3409     /** 11AC VHT SU NDP frame completed with error(s) */
3410     A_UINT32 ac_su_ndp_err;
3411     /** 11AC VHT SU NDPA frame completed with error(s) */
3412     A_UINT32 ac_su_ndpa_err;
3413     /** 11AC VHT MU MIMO NDPA frame completed with error(s) */
3414     A_UINT32 ac_mu_mimo_ndpa_err;
3415     /** 11AC VHT MU MIMO NDP frame completed with error(s) */
3416     A_UINT32 ac_mu_mimo_ndp_err;
3417     /** 11AC VHT MU MIMO BRPOLL for user 1 frame completed with error(s) */
3418     A_UINT32 ac_mu_mimo_brp1_err;
3419     /** 11AC VHT MU MIMO BRPOLL for user 2 frame completed with error(s) */
3420     A_UINT32 ac_mu_mimo_brp2_err;
3421     /** 11AC VHT MU MIMO BRPOLL for user 3 frame completed with error(s) */
3422     A_UINT32 ac_mu_mimo_brp3_err;
3423     /** 11AC VHT SU NDPA frame flushed by HW */
3424     A_UINT32 ac_su_ndpa_flushed;
3425     /** 11AC VHT SU NDP frame flushed by HW */
3426     A_UINT32 ac_su_ndp_flushed;
3427     /** 11AC VHT MU MIMO NDPA frame flushed by HW */
3428     A_UINT32 ac_mu_mimo_ndpa_flushed;
3429     /** 11AC VHT MU MIMO NDP frame flushed by HW */
3430     A_UINT32 ac_mu_mimo_ndp_flushed;
3431     /** 11AC VHT MU MIMO BRPOLL for user 1 frame flushed by HW */
3432     A_UINT32 ac_mu_mimo_brpoll1_flushed;
3433     /** 11AC VHT MU MIMO BRPOLL for user 2 frame flushed by HW */
3434     A_UINT32 ac_mu_mimo_brpoll2_flushed;
3435     /** 11AC VHT MU MIMO BRPOLL for user 3 frame flushed by HW */
3436     A_UINT32 ac_mu_mimo_brpoll3_flushed;
3437 } htt_stats_tx_selfgen_ac_err_stats_tlv;
3438 /* preserve old name alias for new name consistent with the tag name */
3439 typedef htt_stats_tx_selfgen_ac_err_stats_tlv htt_tx_selfgen_ac_err_stats_tlv;
3440 
3441 typedef struct {
3442     htt_tlv_hdr_t tlv_hdr;
3443     /** 11AX HE SU NDP frame completed with error(s) */
3444     A_UINT32 ax_su_ndp_err;
3445     /** 11AX HE SU NDPA frame completed with error(s) */
3446     A_UINT32 ax_su_ndpa_err;
3447     /** 11AX HE MU MIMO NDPA frame completed with error(s) */
3448     A_UINT32 ax_mu_mimo_ndpa_err;
3449     /** 11AX HE MU MIMO NDP frame completed with error(s) */
3450     A_UINT32 ax_mu_mimo_ndp_err;
3451     union {
3452         struct {
3453             /* deprecated old names */
3454             A_UINT32 ax_mu_mimo_brp1_err;
3455             A_UINT32 ax_mu_mimo_brp2_err;
3456             A_UINT32 ax_mu_mimo_brp3_err;
3457             A_UINT32 ax_mu_mimo_brp4_err;
3458             A_UINT32 ax_mu_mimo_brp5_err;
3459             A_UINT32 ax_mu_mimo_brp6_err;
3460             A_UINT32 ax_mu_mimo_brp7_err;
3461         };
3462         /** 11AX HE MU BR-POLL frame for 1 - 7 users completed with error(s) */
3463         A_UINT32 ax_mu_mimo_brp_err[HTT_TX_PDEV_STATS_NUM_AX_MUMIMO_USER_STATS - 1];
3464     };
3465     /** 11AX HE MU Basic Trigger frame completed with error(s) */
3466     A_UINT32 ax_basic_trigger_err;
3467     /** 11AX HE MU BSRP Trigger frame completed with error(s) */
3468     A_UINT32 ax_bsr_trigger_err;
3469     /** 11AX HE MU BAR Trigger frame completed with error(s) */
3470     A_UINT32 ax_mu_bar_trigger_err;
3471     /** 11AX HE MU RTS Trigger frame completed with error(s) */
3472     A_UINT32 ax_mu_rts_trigger_err;
3473     /** 11AX HE MU ULMUMIMO Trigger frame completed with error(s) */
3474     A_UINT32 ax_ulmumimo_trigger_err;
3475     /**
3476      * Number of CBF(s) received when 11AX HE MU MIMO BRPOLL
3477      * frame completed with error(s)
3478      */
3479     A_UINT32 ax_mu_mimo_brp_err_num_cbf_received[HTT_TX_PDEV_STATS_NUM_AX_MUMIMO_USER_STATS];
3480     /** 11AX HE SU NDPA frame flushed by HW */
3481     A_UINT32 ax_su_ndpa_flushed;
3482     /** 11AX HE SU NDP frame flushed by HW */
3483     A_UINT32 ax_su_ndp_flushed;
3484     /** 11AX HE MU MIMO NDPA frame flushed by HW */
3485     A_UINT32 ax_mu_mimo_ndpa_flushed;
3486     /** 11AX HE MU MIMO NDP frame flushed by HW */
3487     A_UINT32 ax_mu_mimo_ndp_flushed;
3488     /** 11AX HE MU BR-POLL frame for users 1 - 7 flushed by HW */
3489     A_UINT32 ax_mu_mimo_brpoll_flushed[HTT_TX_PDEV_STATS_NUM_AX_MUMIMO_USER_STATS - 1];
3490     /**
3491      * 11AX HE UL-MUMIMO Trigger frame for users 0 - 7 completed with error(s)
3492      */
3493     A_UINT32 ax_ul_mumimo_trigger_err[HTT_TX_PDEV_STATS_NUM_AX_MUMIMO_USER_STATS];
3494 
3495     /** 11AX HE MU OFDMA Basic Trigger frame completed with partial user response */
3496     A_UINT32 ax_basic_trigger_partial_resp;
3497     /** 11AX HE MU BSRP Trigger frame completed with partial user response */
3498     A_UINT32 ax_bsr_trigger_partial_resp;
3499     /** 11AX HE MU BAR Trigger frame completed with partial user response */
3500     A_UINT32 ax_mu_bar_trigger_partial_resp;
3501 } htt_stats_tx_selfgen_ax_err_stats_tlv;
3502 /* preserve old name alias for new name consistent with the tag name */
3503 typedef htt_stats_tx_selfgen_ax_err_stats_tlv htt_tx_selfgen_ax_err_stats_tlv;
3504 
3505 typedef struct {
3506     htt_tlv_hdr_t tlv_hdr;
3507     /** 11BE EHT SU NDP frame completed with error(s) */
3508     A_UINT32 be_su_ndp_err;
3509     /** 11BE EHT SU NDPA frame completed with error(s) */
3510     A_UINT32 be_su_ndpa_err;
3511     /** 11BE EHT MU MIMO NDPA frame completed with error(s) */
3512     A_UINT32 be_mu_mimo_ndpa_err;
3513     /** 11BE EHT MU MIMO NDP frame completed with error(s) */
3514     A_UINT32 be_mu_mimo_ndp_err;
3515     /** 11BE EHT MU BR-POLL frame for 1 - 7 users completed with error(s) */
3516     A_UINT32 be_mu_mimo_brp_err[HTT_TX_PDEV_STATS_NUM_BE_MUMIMO_USER_STATS - 1];
3517     /** 11BE EHT MU Basic Trigger frame completed with error(s) */
3518     A_UINT32 be_basic_trigger_err;
3519     /** 11BE EHT MU BSRP Trigger frame completed with error(s) */
3520     A_UINT32 be_bsr_trigger_err;
3521     /** 11BE EHT MU BAR Trigger frame completed with error(s) */
3522     A_UINT32 be_mu_bar_trigger_err;
3523     /** 11BE EHT MU RTS Trigger frame completed with error(s) */
3524     A_UINT32 be_mu_rts_trigger_err;
3525     /** 11BE EHT MU ULMUMIMO Trigger frame completed with error(s) */
3526     A_UINT32 be_ulmumimo_trigger_err;
3527     /**
3528      * Number of CBF(s) received when 11BE EHT MU MIMO BRPOLL frame
3529      * completed with error(s)
3530      */
3531     A_UINT32 be_mu_mimo_brp_err_num_cbf_received[HTT_TX_PDEV_STATS_NUM_BE_MUMIMO_USER_STATS];
3532     /** 11BE EHT SU NDPA frame flushed by HW */
3533     A_UINT32 be_su_ndpa_flushed;
3534     /** 11BE EHT SU NDP frame flushed by HW */
3535     A_UINT32 be_su_ndp_flushed;
3536     /** 11BE EHT MU MIMO NDPA frame flushed by HW */
3537     A_UINT32 be_mu_mimo_ndpa_flushed;
3538     /** 11BE HT MU MIMO NDP frame flushed by HW */
3539     A_UINT32 be_mu_mimo_ndp_flushed;
3540     /** 11BE EHT MU BR-POLL frame for users 1 - 7 flushed by HW */
3541     A_UINT32 be_mu_mimo_brpoll_flushed[HTT_TX_PDEV_STATS_NUM_BE_MUMIMO_USER_STATS - 1];
3542     /**
3543      * 11BE EHT UL-MUMIMO Trigger frame for users 0 - 7 completed with error(s)
3544      */
3545     A_UINT32 be_ul_mumimo_trigger_err[HTT_TX_PDEV_STATS_NUM_BE_MUMIMO_USER_STATS];
3546 
3547     /** 11BE EHT MU OFDMA Basic Trigger frame completed with partial user response */
3548     A_UINT32 be_basic_trigger_partial_resp;
3549     /** 11BE EHT MU BSRP Trigger frame completed with partial user response */
3550     A_UINT32 be_bsr_trigger_partial_resp;
3551     /** 11BE EHT MU BAR Trigger frame completed with partial user response */
3552     A_UINT32 be_mu_bar_trigger_partial_resp;
3553     /** 11BE EHT MU RTS Trigger frame blocked due to partner link TX/RX(eMLSR) */
3554     A_UINT32 be_mu_rts_trigger_blocked;
3555     /** 11BE EHT MU BSR Trigger frame blocked due to partner link TX/RX(eMLSR) */
3556     A_UINT32 be_bsr_trigger_blocked;
3557 } htt_stats_tx_selfgen_be_err_stats_tlv;
3558 /* preserve old name alias for new name consistent with the tag name */
3559 typedef htt_stats_tx_selfgen_be_err_stats_tlv htt_tx_selfgen_be_err_stats_tlv;
3560 
3561 /*
3562  * Scheduler completion status reason code.
3563  * (0) HTT_TXERR_NONE - No error (Success).
3564  * (1) HTT_TXERR_RESP - Response timeout, response mismatch, BW mismatch,
3565  *     MIMO control mismatch, CRC error etc.
3566  * (2) HTT_TXERR_FILT - Blocked by HW tx filtering.
3567  * (3) HTT_TXERR_FIFO - FIFO, misc. errors in HW.
3568  * (4) HTT_TXERR_SWABORT - Software initialted abort (TX_ABORT).
3569  * (5) HTT_TXERR_RESERVED1 - Currently reserved.
3570  * (6) HTT_TXERR_RESERVED2 - Currently reserved.
3571  */
3572 
3573 /* Scheduler error code.
3574  * (0) HTT_TX_SELFGEN_SCH_TSFLAG_FLUSH_RCVD_ERR - Flush received from HW.
3575  * (1) HTT_TX_SELFGEN_SCH_TSFLAG_FILT_SCHED_CMD_ERR - Scheduler command was
3576  *     filtered by HW.
3577  * (2) HTT_TX_SELFGEN_SCH_TSFLAG_RESP_MISMATCH_ERR - Response frame mismatch
3578  *     error.
3579  * (3) HTT_TX_SELFGEN_SCH_TSFLAG_RESP_CBF_MIMO_CTRL_MISMATCH_ERR - CBF
3580  *     received with MIMO control mismatch.
3581  * (4) HTT_TX_SELFGEN_SCH_TSFLAG_RESP_CBF_BW_MISMATCH_ERR - CBF received with
3582  *     BW mismatch.
3583  * (5) HTT_TX_SELFGEN_SCH_TSFLAG_RETRY_COUNT_FAIL_ERR - Error in transmitting
3584  *     frame even after maximum retries.
3585  * (6) HTT_TX_SELFGEN_SCH_TSFLAG_RESP_TOO_LATE_RECEIVED_ERR - Response frame
3586  *     received outside RX window.
3587  * (7) HTT_TX_SELFGEN_SCH_TSFLAG_SIFS_STALL_NO_NEXT_CMD_ERR - No frame
3588  *     received by HW for queuing within SIFS interval.
3589  */
3590 
3591 typedef struct {
3592     htt_tlv_hdr_t tlv_hdr;
3593     /** 11AC VHT SU NDPA scheduler completion status reason code */
3594     A_UINT32 ac_su_ndpa_sch_status[HTT_TX_PDEV_STATS_NUM_TX_ERR_STATUS];
3595     /** 11AC VHT SU NDP scheduler completion status reason code */
3596     A_UINT32 ac_su_ndp_sch_status[HTT_TX_PDEV_STATS_NUM_TX_ERR_STATUS];
3597     /** 11AC VHT SU NDP scheduler error code */
3598     A_UINT32 ac_su_ndp_sch_flag_err[HTT_TX_SELFGEN_NUM_SCH_TSFLAG_ERROR_STATS];
3599     /** 11AC VHT MU MIMO NDPA scheduler completion status reason code */
3600     A_UINT32 ac_mu_mimo_ndpa_sch_status[HTT_TX_PDEV_STATS_NUM_TX_ERR_STATUS];
3601     /** 11AC VHT MU MIMO NDP scheduler completion status reason code */
3602     A_UINT32 ac_mu_mimo_ndp_sch_status[HTT_TX_PDEV_STATS_NUM_TX_ERR_STATUS];
3603     /** 11AC VHT MU MIMO NDP scheduler error code */
3604     A_UINT32 ac_mu_mimo_ndp_sch_flag_err[HTT_TX_SELFGEN_NUM_SCH_TSFLAG_ERROR_STATS];
3605     /** 11AC VHT MU MIMO BRPOLL scheduler completion status reason code */
3606     A_UINT32 ac_mu_mimo_brp_sch_status[HTT_TX_PDEV_STATS_NUM_TX_ERR_STATUS];
3607     /** 11AC VHT MU MIMO BRPOLL scheduler error code */
3608     A_UINT32 ac_mu_mimo_brp_sch_flag_err[HTT_TX_SELFGEN_NUM_SCH_TSFLAG_ERROR_STATS];
3609 } htt_stats_tx_selfgen_ac_sched_status_stats_tlv;
3610 /* preserve old name alias for new name consistent with the tag name */
3611 typedef htt_stats_tx_selfgen_ac_sched_status_stats_tlv
3612     htt_tx_selfgen_ac_sched_status_stats_tlv;
3613 
3614 typedef struct {
3615     htt_tlv_hdr_t tlv_hdr;
3616     /** 11AX HE SU NDPA scheduler completion status reason code */
3617     A_UINT32 ax_su_ndpa_sch_status[HTT_TX_PDEV_STATS_NUM_TX_ERR_STATUS];
3618     /** 11AX SU NDP scheduler completion status reason code */
3619     A_UINT32 ax_su_ndp_sch_status[HTT_TX_PDEV_STATS_NUM_TX_ERR_STATUS];
3620     /** 11AX HE SU NDP scheduler error code */
3621     A_UINT32 ax_su_ndp_sch_flag_err[HTT_TX_SELFGEN_NUM_SCH_TSFLAG_ERROR_STATS];
3622     /** 11AX HE MU MIMO NDPA scheduler completion status reason code */
3623     A_UINT32 ax_mu_mimo_ndpa_sch_status[HTT_TX_PDEV_STATS_NUM_TX_ERR_STATUS];
3624     /** 11AX HE MU MIMO NDP scheduler completion status reason code */
3625     A_UINT32 ax_mu_mimo_ndp_sch_status[HTT_TX_PDEV_STATS_NUM_TX_ERR_STATUS];
3626     /** 11AX HE MU MIMO NDP scheduler error code */
3627     A_UINT32 ax_mu_mimo_ndp_sch_flag_err[HTT_TX_SELFGEN_NUM_SCH_TSFLAG_ERROR_STATS];
3628     /** 11AX HE MU MIMO MU BRPOLL scheduler completion status reason code */
3629     A_UINT32 ax_mu_brp_sch_status[HTT_TX_PDEV_STATS_NUM_TX_ERR_STATUS];
3630     /** 11AX HE MU MIMO MU BRPOLL scheduler error code */
3631     A_UINT32 ax_mu_brp_sch_flag_err[HTT_TX_SELFGEN_NUM_SCH_TSFLAG_ERROR_STATS];
3632     /** 11AX HE MU BAR scheduler completion status reason code */
3633     A_UINT32 ax_mu_bar_sch_status[HTT_TX_PDEV_STATS_NUM_TX_ERR_STATUS];
3634     /** 11AX HE MU BAR scheduler error code */
3635     A_UINT32 ax_mu_bar_sch_flag_err[HTT_TX_SELFGEN_NUM_SCH_TSFLAG_ERROR_STATS];
3636     /**
3637      * 11AX HE UL OFDMA Basic Trigger scheduler completion status reason code
3638      */
3639     A_UINT32 ax_basic_trig_sch_status[HTT_TX_PDEV_STATS_NUM_TX_ERR_STATUS];
3640     /** 11AX HE UL OFDMA Basic Trigger scheduler error code */
3641     A_UINT32 ax_basic_trig_sch_flag_err[HTT_TX_SELFGEN_NUM_SCH_TSFLAG_ERROR_STATS];
3642     /**
3643      * 11AX HE UL MUMIMO Basic Trigger scheduler completion status reason code
3644      */
3645     A_UINT32 ax_ulmumimo_trig_sch_status[HTT_TX_PDEV_STATS_NUM_TX_ERR_STATUS];
3646     /** 11AX HE UL MUMIMO Basic Trigger scheduler error code */
3647     A_UINT32 ax_ulmumimo_trig_sch_flag_err[HTT_TX_SELFGEN_NUM_SCH_TSFLAG_ERROR_STATS];
3648 } htt_stats_tx_selfgen_ax_sched_status_stats_tlv;
3649 /* preserve old name alias for new name consistent with the tag name */
3650 typedef htt_stats_tx_selfgen_ax_sched_status_stats_tlv
3651     htt_tx_selfgen_ax_sched_status_stats_tlv;
3652 
3653 typedef struct {
3654     htt_tlv_hdr_t tlv_hdr;
3655     /** 11BE EHT SU NDPA scheduler completion status reason code */
3656     A_UINT32 be_su_ndpa_sch_status[HTT_TX_PDEV_STATS_NUM_TX_ERR_STATUS];
3657     /** 11BE SU NDP scheduler completion status reason code */
3658     A_UINT32 be_su_ndp_sch_status[HTT_TX_PDEV_STATS_NUM_TX_ERR_STATUS];
3659     /** 11BE EHT SU NDP scheduler error code */
3660     A_UINT32 be_su_ndp_sch_flag_err[HTT_TX_SELFGEN_NUM_SCH_TSFLAG_ERROR_STATS];
3661     /** 11BE EHT MU MIMO NDPA scheduler completion status reason code */
3662     A_UINT32 be_mu_mimo_ndpa_sch_status[HTT_TX_PDEV_STATS_NUM_TX_ERR_STATUS];
3663     /** 11BE EHT MU MIMO NDP scheduler completion status reason code */
3664     A_UINT32 be_mu_mimo_ndp_sch_status[HTT_TX_PDEV_STATS_NUM_TX_ERR_STATUS];
3665     /** 11BE EHT MU MIMO NDP scheduler error code */
3666     A_UINT32 be_mu_mimo_ndp_sch_flag_err[HTT_TX_SELFGEN_NUM_SCH_TSFLAG_ERROR_STATS];
3667     /** 11BE EHT MU MIMO MU BRPOLL scheduler completion status reason code */
3668     A_UINT32 be_mu_brp_sch_status[HTT_TX_PDEV_STATS_NUM_TX_ERR_STATUS];
3669     /** 11BE EHT MU MIMO MU BRPOLL scheduler error code */
3670     A_UINT32 be_mu_brp_sch_flag_err[HTT_TX_SELFGEN_NUM_SCH_TSFLAG_ERROR_STATS];
3671     /** 11BE EHT MU BAR scheduler completion status reason code */
3672     A_UINT32 be_mu_bar_sch_status[HTT_TX_PDEV_STATS_NUM_TX_ERR_STATUS];
3673     /** 11BE EHT MU BAR scheduler error code */
3674     A_UINT32 be_mu_bar_sch_flag_err[HTT_TX_SELFGEN_NUM_SCH_TSFLAG_ERROR_STATS];
3675     /**
3676      * 11BE EHT UL OFDMA Basic Trigger scheduler completion status reason code
3677      */
3678     A_UINT32 be_basic_trig_sch_status[HTT_TX_PDEV_STATS_NUM_TX_ERR_STATUS];
3679     /** 11BE EHT UL OFDMA Basic Trigger scheduler error code */
3680     A_UINT32 be_basic_trig_sch_flag_err[HTT_TX_SELFGEN_NUM_SCH_TSFLAG_ERROR_STATS];
3681     /**
3682      * 11BE EHT UL MUMIMO Basic Trigger scheduler completion status reason code
3683      */
3684     A_UINT32 be_ulmumimo_trig_sch_status[HTT_TX_PDEV_STATS_NUM_TX_ERR_STATUS];
3685     /** 11BE EHT UL MUMIMO Basic Trigger scheduler error code */
3686     A_UINT32 be_ulmumimo_trig_sch_flag_err[HTT_TX_SELFGEN_NUM_SCH_TSFLAG_ERROR_STATS];
3687 } htt_stats_tx_selfgen_be_sched_status_stats_tlv;
3688 /* preserve old name alias for new name consistent with the tag name */
3689 typedef htt_stats_tx_selfgen_be_sched_status_stats_tlv
3690     htt_tx_selfgen_be_sched_status_stats_tlv;
3691 
3692 /* STATS_TYPE : HTT_DBG_EXT_STATS_TX_SELFGEN_INFO
3693  * TLV_TAGS:
3694  *      - HTT_STATS_TX_SELFGEN_CMN_STATS_TAG
3695  *      - HTT_STATS_TX_SELFGEN_AC_STATS_TAG
3696  *      - HTT_STATS_TX_SELFGEN_AX_STATS_TAG
3697  *      - HTT_STATS_TX_SELFGEN_AC_ERR_STATS_TAG
3698  *      - HTT_STATS_TX_SELFGEN_AX_ERR_STATS_TAG
3699  *      - HTT_STATS_TX_SELFGEN_AC_SCHED_STATUS_STATS_TAG
3700  *      - HTT_STATS_TX_SELFGEN_AX_SCHED_STATUS_STATS_TAG
3701  *      - HTT_STATS_TX_SELFGEN_BE_STATS_TAG
3702  *      - HTT_STATS_TX_SELFGEN_BE_ERR_STATS_TAG
3703  *      - HTT_STATS_TX_SELFGEN_BE_SCHED_STATUS_STATS_TAG
3704  */
3705 /* NOTE:
3706  * This structure is for documentation, and cannot be safely used directly.
3707  * Instead, use the constituent TLV structures to fill/parse.
3708  */
3709 #ifdef ATH_TARGET
3710 typedef struct {
3711     htt_stats_tx_selfgen_cmn_stats_tlv cmn_tlv;
3712     htt_stats_tx_selfgen_ac_stats_tlv ac_tlv;
3713     htt_stats_tx_selfgen_ax_stats_tlv ax_tlv;
3714     htt_stats_tx_selfgen_ac_err_stats_tlv ac_err_tlv;
3715     htt_stats_tx_selfgen_ax_err_stats_tlv ax_err_tlv;
3716     htt_stats_tx_selfgen_ac_sched_status_stats_tlv ac_sched_status_tlv;
3717     htt_stats_tx_selfgen_ax_sched_status_stats_tlv ax_sched_status_tlv;
3718     htt_stats_tx_selfgen_be_stats_tlv be_tlv;
3719     htt_stats_tx_selfgen_be_err_stats_tlv be_err_tlv;
3720     htt_stats_tx_selfgen_be_sched_status_stats_tlv be_sched_status_tlv;
3721 } htt_tx_pdev_selfgen_stats_t;
3722 #endif /* ATH_TARGET */
3723 
3724 /* == TX MU STATS == */
3725 
3726 typedef struct {
3727     htt_tlv_hdr_t tlv_hdr;
3728     /** Number of MU MIMO schedules posted to HW */
3729     A_UINT32 mu_mimo_sch_posted;
3730     /** Number of MU MIMO schedules failed to post */
3731     A_UINT32 mu_mimo_sch_failed;
3732     /** Number of MU MIMO PPDUs posted to HW */
3733     A_UINT32 mu_mimo_ppdu_posted;
3734     /*
3735      * This is the common description for the below sch stats.
3736      * Counts the number of transmissions of each number of MU users
3737      * in each TX mode.
3738      * The array index is the "number of users - 1".
3739      * For example, ac_mu_mimo_sch_nusers[1] counts the number of 11AC MU2
3740      * TX PPDUs, ac_mu_mimo_sch_nusers[2] counts the number of 11AC MU3
3741      * TX PPDUs and so on.
3742      * The same is applicable for the other TX mode stats.
3743      */
3744     /** Represents the count for 11AC DL MU MIMO sequences */
3745     A_UINT32 ac_mu_mimo_sch_nusers[HTT_TX_PDEV_STATS_NUM_AC_MUMIMO_USER_STATS];
3746     /** Represents the count for 11AX DL MU MIMO sequences */
3747     A_UINT32 ax_mu_mimo_sch_nusers[HTT_TX_PDEV_STATS_NUM_AX_MUMIMO_USER_STATS];
3748     /** Represents the count for 11AX DL MU OFDMA sequences */
3749     A_UINT32 ax_ofdma_sch_nusers[HTT_TX_PDEV_STATS_NUM_OFDMA_USER_STATS];
3750     /**
3751      * Represents the count for 11AX UL MU OFDMA sequences with Basic Triggers
3752      */
3753     A_UINT32 ax_ul_ofdma_basic_sch_nusers[HTT_TX_PDEV_STATS_NUM_OFDMA_USER_STATS];
3754     /** Represents the count for 11AX UL MU OFDMA sequences with BSRP Triggers */
3755     A_UINT32 ax_ul_ofdma_bsr_sch_nusers[HTT_TX_PDEV_STATS_NUM_OFDMA_USER_STATS];
3756     /** Represents the count for 11AX UL MU OFDMA sequences with BAR Triggers */
3757     A_UINT32 ax_ul_ofdma_bar_sch_nusers[HTT_TX_PDEV_STATS_NUM_OFDMA_USER_STATS];
3758     /** Represents the count for 11AX UL MU OFDMA sequences with BRP Triggers */
3759     A_UINT32 ax_ul_ofdma_brp_sch_nusers[HTT_TX_PDEV_STATS_NUM_OFDMA_USER_STATS];
3760     /**
3761      * Represents the count for 11AX UL MU MIMO sequences with Basic Triggers
3762      */
3763     A_UINT32 ax_ul_mumimo_basic_sch_nusers[HTT_TX_PDEV_STATS_NUM_UL_MUMIMO_USER_STATS];
3764     /** Represents the count for 11AX UL MU MIMO sequences with BRP Triggers */
3765     A_UINT32 ax_ul_mumimo_brp_sch_nusers[HTT_TX_PDEV_STATS_NUM_UL_MUMIMO_USER_STATS];
3766     /** Number of 11AC DL MU MIMO schedules posted per group size (0-3) */
3767     A_UINT32 ac_mu_mimo_sch_posted_per_grp_sz[HTT_TX_PDEV_STATS_NUM_AC_MUMIMO_USER_STATS];
3768     /** Number of 11AX DL MU MIMO schedules posted per group size */
3769     A_UINT32 ax_mu_mimo_sch_posted_per_grp_sz[HTT_TX_PDEV_STATS_NUM_AX_MUMIMO_USER_STATS];
3770     /** Represents the count for 11BE DL MU MIMO sequences */
3771     A_UINT32 be_mu_mimo_sch_nusers[HTT_TX_PDEV_STATS_NUM_BE_MUMIMO_USER_STATS];
3772     /** Number of 11BE DL MU MIMO schedules posted per group size */
3773     A_UINT32 be_mu_mimo_sch_posted_per_grp_sz[HTT_TX_PDEV_STATS_NUM_BE_MUMIMO_USER_STATS];
3774     /** Number of 11AC DL MU MIMO schedules posted per group size (4-7) */
3775     A_UINT32 ac_mu_mimo_sch_posted_per_grp_sz_ext[HTT_TX_PDEV_STATS_NUM_AC_MUMIMO_USER_STATS];
3776 } htt_stats_tx_pdev_mu_mimo_stats_tlv;
3777 /* preserve old name alias for new name consistent with the tag name */
3778 typedef htt_stats_tx_pdev_mu_mimo_stats_tlv htt_tx_pdev_mu_mimo_sch_stats_tlv;
3779 
3780 typedef struct {
3781     htt_tlv_hdr_t tlv_hdr;
3782     A_UINT32 dl_mumimo_grp_best_grp_size[HTT_STATS_MAX_MUMIMO_GRP_SZ];
3783 
3784     A_UINT32 dl_mumimo_grp_best_num_usrs[HTT_TX_PDEV_STATS_NUM_AX_MUMIMO_USER_STATS];
3785 
3786     A_UINT32 dl_mumimo_grp_eligible[HTT_STATS_MAX_MUMIMO_GRP_SZ];
3787 
3788     A_UINT32 dl_mumimo_grp_ineligible[HTT_STATS_MAX_MUMIMO_GRP_SZ];
3789 
3790     A_UINT32 dl_mumimo_grp_invalid[HTT_TX_NUM_MUMIMO_GRP_INVALID_WORDS];
3791 
3792     A_UINT32 dl_mumimo_grp_tputs[HTT_STATS_MUMIMO_TPUT_NUM_BINS];
3793 
3794     A_UINT32 ul_mumimo_grp_best_grp_size[HTT_STATS_MAX_MUMIMO_GRP_SZ];
3795 
3796     A_UINT32 ul_mumimo_grp_best_num_usrs[HTT_TX_PDEV_STATS_NUM_AX_MUMIMO_USER_STATS];
3797 
3798     A_UINT32 ul_mumimo_grp_tputs[HTT_STATS_MUMIMO_TPUT_NUM_BINS];
3799 } htt_stats_tx_pdev_mumimo_grp_stats_tlv;
3800 /* preserve old name alias for new name consistent with the tag name */
3801 typedef htt_stats_tx_pdev_mumimo_grp_stats_tlv htt_tx_pdev_mumimo_grp_stats_tlv;
3802 
3803 typedef struct {
3804     htt_tlv_hdr_t tlv_hdr;
3805     /** Number of MU MIMO schedules posted to HW */
3806     A_UINT32 mu_mimo_sch_posted;
3807     /** Number of MU MIMO schedules failed to post */
3808     A_UINT32 mu_mimo_sch_failed;
3809     /** Number of MU MIMO PPDUs posted to HW */
3810     A_UINT32 mu_mimo_ppdu_posted;
3811     /*
3812      * This is the common description for the below sch stats.
3813      * Counts the number of transmissions of each number of MU users
3814      * in each TX mode.
3815      * The array index is the "number of users - 1".
3816      * For example, ac_mu_mimo_sch_nusers[1] counts the number of 11AC MU2
3817      * TX PPDUs, ac_mu_mimo_sch_nusers[2] counts the number of 11AC MU3
3818      * TX PPDUs and so on.
3819      * The same is applicable for the other TX mode stats.
3820      */
3821     /** Represents the count for 11AC DL MU MIMO sequences */
3822     A_UINT32 ac_mu_mimo_sch_nusers[HTT_TX_PDEV_STATS_NUM_AC_MUMIMO_USER_STATS];
3823     /** Represents the count for 11AX DL MU MIMO sequences */
3824     A_UINT32 ax_mu_mimo_sch_nusers[HTT_TX_PDEV_STATS_NUM_AX_MUMIMO_USER_STATS];
3825     /** Number of 11AC DL MU MIMO schedules posted per group size (0-3) */
3826     A_UINT32 ac_mu_mimo_sch_posted_per_grp_sz[HTT_TX_PDEV_STATS_NUM_AC_MUMIMO_USER_STATS];
3827     /** Number of 11AX DL MU MIMO schedules posted per group size */
3828     A_UINT32 ax_mu_mimo_sch_posted_per_grp_sz[HTT_TX_PDEV_STATS_NUM_AX_MUMIMO_USER_STATS];
3829     /** Represents the count for 11BE DL MU MIMO sequences */
3830     A_UINT32 be_mu_mimo_sch_nusers[HTT_TX_PDEV_STATS_NUM_BE_MUMIMO_USER_STATS];
3831     /** Number of 11BE DL MU MIMO schedules posted per group size */
3832     A_UINT32 be_mu_mimo_sch_posted_per_grp_sz[HTT_TX_PDEV_STATS_NUM_BE_MUMIMO_USER_STATS];
3833     /** Number of 11AC DL MU MIMO schedules posted per group size (4 - 7)*/
3834     A_UINT32 ac_mu_mimo_sch_posted_per_grp_sz_ext[HTT_TX_PDEV_STATS_NUM_AC_MUMIMO_USER_STATS];
3835 } htt_stats_tx_pdev_dl_mu_mimo_stats_tlv;
3836 /* preserve old name alias for new name consistent with the tag name */
3837 typedef htt_stats_tx_pdev_dl_mu_mimo_stats_tlv
3838     htt_tx_pdev_dl_mu_mimo_sch_stats_tlv;
3839 
3840 typedef struct {
3841     htt_tlv_hdr_t tlv_hdr;
3842     /** Represents the count for 11AX DL MU OFDMA sequences */
3843     A_UINT32 ax_mu_ofdma_sch_nusers[HTT_TX_PDEV_STATS_NUM_OFDMA_USER_STATS];
3844 } htt_stats_tx_pdev_dl_mu_ofdma_stats_tlv;
3845 /* preserve old name alias for new name consistent with the tag name */
3846 typedef htt_stats_tx_pdev_dl_mu_ofdma_stats_tlv
3847     htt_tx_pdev_dl_mu_ofdma_sch_stats_tlv;
3848 
3849 typedef struct {
3850     htt_tlv_hdr_t tlv_hdr;
3851     /** Represents the count for 11BE DL MU OFDMA sequences */
3852     A_UINT32 be_mu_ofdma_sch_nusers[HTT_TX_PDEV_STATS_NUM_OFDMA_USER_STATS];
3853 } htt_stats_tx_pdev_be_dl_mu_ofdma_stats_tlv;
3854 /* preserve old name alias for new name consistent with the tag name */
3855 typedef htt_stats_tx_pdev_be_dl_mu_ofdma_stats_tlv
3856     htt_tx_pdev_be_dl_mu_ofdma_sch_stats_tlv;
3857 
3858 typedef struct {
3859     htt_tlv_hdr_t tlv_hdr;
3860     /**
3861      * Represents the count for 11AX UL MU OFDMA sequences with Basic Triggers
3862      */
3863     A_UINT32 ax_ul_mu_ofdma_basic_sch_nusers[HTT_TX_PDEV_STATS_NUM_OFDMA_USER_STATS];
3864     /**
3865      * Represents the count for 11AX UL MU OFDMA sequences with BSRP Triggers
3866      */
3867     A_UINT32 ax_ul_mu_ofdma_bsr_sch_nusers[HTT_TX_PDEV_STATS_NUM_OFDMA_USER_STATS];
3868     /**
3869      * Represents the count for 11AX UL MU OFDMA sequences with BAR Triggers
3870      */
3871     A_UINT32 ax_ul_mu_ofdma_bar_sch_nusers[HTT_TX_PDEV_STATS_NUM_OFDMA_USER_STATS];
3872     /**
3873      * Represents the count for 11AX UL MU OFDMA sequences with BRP Triggers
3874      */
3875     A_UINT32 ax_ul_mu_ofdma_brp_sch_nusers[HTT_TX_PDEV_STATS_NUM_OFDMA_USER_STATS];
3876 } htt_stats_tx_pdev_ul_mu_ofdma_stats_tlv;
3877 /* preserve old name alias for new name consistent with the tag name */
3878 typedef htt_stats_tx_pdev_ul_mu_ofdma_stats_tlv
3879     htt_tx_pdev_ul_mu_ofdma_sch_stats_tlv;
3880 
3881 typedef struct {
3882     htt_tlv_hdr_t tlv_hdr;
3883     /**
3884      * Represents the count for 11BE UL MU OFDMA sequences with Basic Triggers
3885      */
3886     A_UINT32 be_ul_mu_ofdma_basic_sch_nusers[HTT_TX_PDEV_STATS_NUM_OFDMA_USER_STATS];
3887     /**
3888      * Represents the count for 11BE UL MU OFDMA sequences with BSRP Triggers
3889      */
3890     A_UINT32 be_ul_mu_ofdma_bsr_sch_nusers[HTT_TX_PDEV_STATS_NUM_OFDMA_USER_STATS];
3891     /**
3892      * Represents the count for 11BE UL MU OFDMA sequences with BAR Triggers
3893      */
3894     A_UINT32 be_ul_mu_ofdma_bar_sch_nusers[HTT_TX_PDEV_STATS_NUM_OFDMA_USER_STATS];
3895     /**
3896      * Represents the count for 11BE UL MU OFDMA sequences with BRP Triggers
3897      */
3898     A_UINT32 be_ul_mu_ofdma_brp_sch_nusers[HTT_TX_PDEV_STATS_NUM_OFDMA_USER_STATS];
3899 } htt_stats_tx_pdev_be_ul_mu_ofdma_stats_tlv;
3900 /* preserve old name alias for new name consistent with the tag name */
3901 typedef htt_stats_tx_pdev_be_ul_mu_ofdma_stats_tlv
3902     htt_tx_pdev_be_ul_mu_ofdma_sch_stats_tlv;
3903 
3904 typedef struct {
3905     htt_tlv_hdr_t tlv_hdr;
3906     /**
3907      * Represents the count for 11AX UL MU MIMO sequences with Basic Triggers
3908      */
3909     A_UINT32 ax_ul_mu_mimo_basic_sch_nusers[HTT_TX_PDEV_STATS_NUM_UL_MUMIMO_USER_STATS];
3910     /**
3911      * Represents the count for 11AX UL MU MIMO sequences with BRP Triggers
3912      */
3913     A_UINT32 ax_ul_mu_mimo_brp_sch_nusers[HTT_TX_PDEV_STATS_NUM_UL_MUMIMO_USER_STATS];
3914 } htt_stats_tx_pdev_ul_mu_mimo_stats_tlv;
3915 /* preserve old name alias for new name consistent with the tag name */
3916 typedef htt_stats_tx_pdev_ul_mu_mimo_stats_tlv
3917     htt_tx_pdev_ul_mu_mimo_sch_stats_tlv;
3918 
3919 typedef struct {
3920     htt_tlv_hdr_t tlv_hdr;
3921     /**
3922      * Represents the count for 11BE UL MU MIMO sequences with Basic Triggers
3923      */
3924     A_UINT32 be_ul_mu_mimo_basic_sch_nusers[HTT_TX_PDEV_STATS_NUM_UL_MUMIMO_USER_STATS];
3925     /**
3926      * Represents the count for 11BE UL MU MIMO sequences with BRP Triggers
3927      */
3928     A_UINT32 be_ul_mu_mimo_brp_sch_nusers[HTT_TX_PDEV_STATS_NUM_UL_MUMIMO_USER_STATS];
3929 } htt_stats_tx_pdev_be_ul_mu_mimo_stats_tlv;
3930 /* preserve old name alias for new name consistent with the tag name */
3931 typedef htt_stats_tx_pdev_be_ul_mu_mimo_stats_tlv
3932     htt_tx_pdev_be_ul_mu_mimo_sch_stats_tlv;
3933 
3934 typedef struct {
3935     htt_tlv_hdr_t tlv_hdr;
3936     /** 11AC DL MU MIMO number of mpdus queued to HW, per user */
3937     A_UINT32 mu_mimo_mpdus_queued_usr;
3938     /** 11AC DL MU MIMO number of mpdus tried over the air, per user */
3939     A_UINT32 mu_mimo_mpdus_tried_usr;
3940     /** 11AC DL MU MIMO number of mpdus failed acknowledgement, per user */
3941     A_UINT32 mu_mimo_mpdus_failed_usr;
3942     /** 11AC DL MU MIMO number of mpdus re-queued to HW, per user */
3943     A_UINT32 mu_mimo_mpdus_requeued_usr;
3944     /** 11AC DL MU MIMO BA not received, per user */
3945     A_UINT32 mu_mimo_err_no_ba_usr;
3946     /** 11AC DL MU MIMO mpdu underrun encountered, per user */
3947     A_UINT32 mu_mimo_mpdu_underrun_usr;
3948     /** 11AC DL MU MIMO ampdu underrun encountered, per user */
3949     A_UINT32 mu_mimo_ampdu_underrun_usr;
3950 
3951     /** 11AX MU MIMO number of mpdus queued to HW, per user */
3952     A_UINT32 ax_mu_mimo_mpdus_queued_usr;
3953     /** 11AX MU MIMO number of mpdus tried over the air, per user */
3954     A_UINT32 ax_mu_mimo_mpdus_tried_usr;
3955     /** 11AX DL MU MIMO number of mpdus failed acknowledgement, per user */
3956     A_UINT32 ax_mu_mimo_mpdus_failed_usr;
3957     /** 11AX DL MU MIMO number of mpdus re-queued to HW, per user */
3958     A_UINT32 ax_mu_mimo_mpdus_requeued_usr;
3959     /** 11AX DL MU MIMO BA not received, per user */
3960     A_UINT32 ax_mu_mimo_err_no_ba_usr;
3961     /** 11AX DL MU MIMO mpdu underrun encountered, per user */
3962     A_UINT32 ax_mu_mimo_mpdu_underrun_usr;
3963     /** 11AX DL MU MIMO ampdu underrun encountered, per user */
3964     A_UINT32 ax_mu_mimo_ampdu_underrun_usr;
3965 
3966     /** 11AX MU OFDMA number of mpdus queued to HW, per user */
3967     A_UINT32 ax_ofdma_mpdus_queued_usr;
3968     /** 11AX MU OFDMA number of mpdus tried over the air, per user */
3969     A_UINT32 ax_ofdma_mpdus_tried_usr;
3970     /** 11AX MU OFDMA number of mpdus failed acknowledgement, per user */
3971     A_UINT32 ax_ofdma_mpdus_failed_usr;
3972     /** 11AX MU OFDMA number of mpdus re-queued to HW, per user */
3973     A_UINT32 ax_ofdma_mpdus_requeued_usr;
3974     /** 11AX MU OFDMA BA not received, per user */
3975     A_UINT32 ax_ofdma_err_no_ba_usr;
3976     /** 11AX MU OFDMA mpdu underrun encountered, per user */
3977     A_UINT32 ax_ofdma_mpdu_underrun_usr;
3978     /** 11AX MU OFDMA ampdu underrun encountered, per user */
3979     A_UINT32 ax_ofdma_ampdu_underrun_usr;
3980 } htt_stats_tx_pdev_mumimo_mpdu_stats_tlv;
3981 /* preserve old name alias for new name consistent with the tag name */
3982 typedef htt_stats_tx_pdev_mumimo_mpdu_stats_tlv
3983     htt_tx_pdev_mu_mimo_mpdu_stats_tlv;
3984 
3985 #define HTT_STATS_TX_SCHED_MODE_MU_MIMO_AC  1 /* SCHED_TX_MODE_MU_MIMO_AC */
3986 #define HTT_STATS_TX_SCHED_MODE_MU_MIMO_AX  2 /* SCHED_TX_MODE_MU_MIMO_AX */
3987 #define HTT_STATS_TX_SCHED_MODE_MU_OFDMA_AX 3 /* SCHED_TX_MODE_MU_OFDMA_AX */
3988 #define HTT_STATS_TX_SCHED_MODE_MU_OFDMA_BE 4 /* SCHED_TX_MODE_MU_OFDMA_BE */
3989 #define HTT_STATS_TX_SCHED_MODE_MU_MIMO_BE  5 /* SCHED_TX_MODE_MU_MIMO_BE */
3990 
3991 typedef struct {
3992     htt_tlv_hdr_t tlv_hdr;
3993     /* mpdu level stats */
3994     A_UINT32 mpdus_queued_usr;
3995     A_UINT32 mpdus_tried_usr;
3996     A_UINT32 mpdus_failed_usr;
3997     A_UINT32 mpdus_requeued_usr;
3998     A_UINT32 err_no_ba_usr;
3999     A_UINT32 mpdu_underrun_usr;
4000     A_UINT32 ampdu_underrun_usr;
4001     A_UINT32 user_index;
4002     /** HTT_STATS_TX_SCHED_MODE_xxx */
4003     A_UINT32 tx_sched_mode;
4004 } htt_stats_tx_pdev_mpdu_stats_tlv;
4005 /* preserve old name alias for new name consistent with the tag name */
4006 typedef htt_stats_tx_pdev_mpdu_stats_tlv htt_tx_pdev_mpdu_stats_tlv;
4007 
4008 /* STATS_TYPE : HTT_DBG_EXT_STATS_PDEV_TX_MU
4009  * TLV_TAGS:
4010  *      - HTT_STATS_TX_PDEV_MU_MIMO_STATS_TAG (multiple)
4011  *      - HTT_STATS_TX_PDEV_MPDU_STATS_TAG (multiple)
4012  */
4013 /* NOTE:
4014  * This structure is for documentation, and cannot be safely used directly.
4015  * Instead, use the constituent TLV structures to fill/parse.
4016  */
4017 #ifdef ATH_TARGET
4018 typedef struct {
4019     htt_stats_tx_pdev_mu_mimo_stats_tlv mu_mimo_sch_stats_tlv[1]; /* WAL_TX_STATS_MAX_GROUP_SIZE */
4020     htt_stats_tx_pdev_dl_mu_mimo_stats_tlv dl_mu_mimo_sch_stats_tlv[1];
4021     htt_stats_tx_pdev_ul_mu_mimo_stats_tlv ul_mu_mimo_sch_stats_tlv[1];
4022     htt_stats_tx_pdev_dl_mu_ofdma_stats_tlv dl_mu_ofdma_sch_stats_tlv[1];
4023     htt_stats_tx_pdev_ul_mu_ofdma_stats_tlv ul_mu_ofdma_sch_stats_tlv[1];
4024     /*
4025      * Note that though mu_mimo_mpdu_stats_tlv is named MU-MIMO,
4026      * it can also hold MU-OFDMA stats.
4027      */
4028     htt_stats_tx_pdev_mpdu_stats_tlv mu_mimo_mpdu_stats_tlv[1]; /* WAL_TX_STATS_MAX_NUM_USERS */
4029     htt_stats_tx_pdev_mumimo_grp_stats_tlv mumimo_grp_stats_tlv;
4030 } htt_tx_pdev_mu_mimo_stats_t;
4031 #endif /* ATH_TARGET */
4032 
4033 /* == TX SCHED STATS == */
4034 
4035 #define HTT_SCHED_TXQ_CMD_POSTED_TLV_SZ(_num_elems) (sizeof(A_UINT32) * (_num_elems))
4036 
4037 /* NOTE: Variable length TLV, use length spec to infer array size */
4038 typedef struct {
4039     htt_tlv_hdr_t tlv_hdr;
4040     /** Scheduler command posted per tx_mode */
4041     A_UINT32 sched_cmd_posted[1/* length = num tx modes */];
4042 } htt_stats_sched_txq_cmd_posted_tlv;
4043 /* preserve old name alias for new name consistent with the tag name */
4044 typedef htt_stats_sched_txq_cmd_posted_tlv htt_sched_txq_cmd_posted_tlv_v;
4045 
4046 #define HTT_SCHED_TXQ_CMD_REAPED_TLV_SZ(_num_elems) (sizeof(A_UINT32) * (_num_elems))
4047 
4048 /* NOTE: Variable length TLV, use length spec to infer array size */
4049 typedef struct {
4050     htt_tlv_hdr_t tlv_hdr;
4051     /** Scheduler command reaped per tx_mode */
4052     A_UINT32 sched_cmd_reaped[1/* length = num tx modes */];
4053 } htt_stats_sched_txq_cmd_reaped_tlv;
4054 /* preserve old name alias for new name consistent with the tag name */
4055 typedef htt_stats_sched_txq_cmd_reaped_tlv htt_sched_txq_cmd_reaped_tlv_v;
4056 
4057 #define HTT_SCHED_TXQ_SCHED_ORDER_SU_TLV_SZ(_num_elems) (sizeof(A_UINT32) * (_num_elems))
4058 
4059 /* NOTE: Variable length TLV, use length spec to infer array size */
4060 typedef struct {
4061     htt_tlv_hdr_t tlv_hdr;
4062     /**
4063      * sched_order_su contains the peer IDs of peers chosen in the last
4064      * NUM_SCHED_ORDER_LOG scheduler instances.
4065      * The array is circular; it's unspecified which array element corresponds
4066      * to the most recent scheduler invocation, and which corresponds to
4067      * the (NUM_SCHED_ORDER_LOG-1) most recent scheduler invocation.
4068      *
4069      * HTT_TX_PDEV_NUM_SCHED_ORDER_LOG
4070      */
4071     HTT_STATS_VAR_LEN_ARRAY1(A_UINT32, sched_order_su);
4072 } htt_stats_sched_txq_sched_order_su_tlv;
4073 /* preserve old name alias for new name consistent with the tag name */
4074 typedef htt_stats_sched_txq_sched_order_su_tlv htt_sched_txq_sched_order_su_tlv_v;
4075 
4076 typedef struct {
4077     htt_tlv_hdr_t tlv_hdr;
4078     A_UINT32 htt_stats_type;
4079 } htt_stats_error_tlv_v;
4080 
4081 typedef enum {
4082     HTT_SCHED_TID_SKIP_SCHED_MASK_DISABLED = 0, /* Skip the tid when WAL_TID_DISABLE_TX_SCHED_MASK is true                                       */
4083     HTT_SCHED_TID_SKIP_NOTIFY_MPDU,             /* Skip the tid's 2nd sched_cmd when 1st cmd is ongoing                                          */
4084     HTT_SCHED_TID_SKIP_MPDU_STATE_INVALID,      /* Skip the tid when MPDU state is invalid                                                       */
4085     HTT_SCHED_TID_SKIP_SCHED_DISABLED,          /* Skip the tid when scheduling is disabled for that tid                                         */
4086     HTT_SCHED_TID_SKIP_TQM_BYPASS_CMD_PENDING,  /* Skip the TQM bypass tid when it has pending sched_cmd                                         */
4087     HTT_SCHED_TID_SKIP_SECOND_SU_SCHEDULE,      /* Skip tid from 2nd SU schedule when any of the following flag is set
4088                                                    WAL_TX_TID(SEND_BAR | TQM_MPDU_STATE_VALID | SEND_QOS_NULL | TQM_NOTIFY_MPDU | SENDN_PENDING) */
4089     HTT_SCHED_TID_SKIP_CMD_SLOT_NOT_AVAIL,      /* Skip the tid when command slot is not available                                               */
4090     HTT_SCHED_TID_SKIP_NO_DATA,                 /* Skip tid without data                                                                         */
4091     HTT_SCHED_TID_SKIP_NO_ENQ = HTT_SCHED_TID_SKIP_NO_DATA, /* deprecated old name */
4092     HTT_SCHED_TID_SKIP_LOW_ENQ,                 /* Skip the tid when enqueue is low                                                              */
4093     HTT_SCHED_TID_SKIP_PAUSED,                  /* Skipping the paused tid(sendn-frames)                                                         */
4094     HTT_SCHED_TID_SKIP_UL_RESP,                 /* skip UL response tid                                                                          */
4095     HTT_SCHED_TID_SKIP_UL = HTT_SCHED_TID_SKIP_UL_RESP, /* deprecated old name */
4096     HTT_SCHED_TID_REMOVE_PAUSED,                /* Removing the paused tid when number of sendn frames is zero                                   */
4097     HTT_SCHED_TID_REMOVE_NO_ENQ,                /* Remove tid with zero queue depth                                                              */
4098     HTT_SCHED_TID_REMOVE_UL_RESP,               /* Remove tid UL response                                                                        */
4099     HTT_SCHED_TID_REMOVE_UL = HTT_SCHED_TID_REMOVE_UL_RESP, /* deprecated old name */
4100     HTT_SCHED_TID_QUERY,                        /* Moving to next user and adding tid in prepend list when qstats update is pending              */
4101     HTT_SCHED_TID_SU_ONLY,                      /* Tid is eligible and TX_SCHED_SU_ONLY is true                                                  */
4102     HTT_SCHED_TID_ELIGIBLE,                     /* Tid is eligible for scheduling                                                                */
4103     HTT_SCHED_TID_SKIP_EXCEPT_EAPOL,            /* skip tid except eapol                                                                         */
4104     HTT_SCHED_TID_SU_LOW_PRI_ONLY,              /* su low priority tid only                                                                      */
4105     HTT_SCHED_TID_SKIP_SOUND_IN_PROGRESS,       /* skip tid  sound in progress                                                                   */
4106     HTT_SCHED_TID_SKIP_NO_UL_DATA,              /* skip ul tid when no ul data                                                                   */
4107     HTT_SCHED_TID_REMOVE_UL_NOT_CAPABLE,        /* Remove tid that are not UL capable                                                            */
4108     HTT_SCHED_TID_UL_ELIGIBLE,                  /* Tid is eligible for UL scheduling                                                             */
4109     HTT_SCHED_TID_FALLBACK_TO_PREV_DECISION,    /* Fall back to previous decision                                                                */
4110     HTT_SCHED_TID_SKIP_PEER_ALREADY_IN_TXQ,     /* skip tid, peer is already available in the txq                                                */
4111     HTT_SCHED_TID_SKIP_DELAY_UL_SCHED,          /* skip tid delay UL schedule                                                                    */
4112     HTT_SCHED_TID_SKIP_PWR_SAVE_STATE_OFF,      /* Limit UL scheduling to primary link if not in power save state                                */
4113     HTT_SCHED_TID_SKIP_TWT_SUSPEND,             /* Skip UL trigger for certain cases ex TWT suspend                                              */
4114     HTT_SCHED_TID_SKIP_DISABLE_160MHZ_OFDMA,    /* Skip ul tid if peer supports 160MHZ                                                           */
4115     HTT_SCHED_TID_SKIP_ULMU_DISABLE_FROM_OMI,   /* Skip ul tid if sta send omi to indicate to disable UL mu data                                 */
4116     HTT_SCHED_TID_SKIP_UL_MAX_SCHED_CMD_EXCEEDED,/* skip ul tid if max sched cmd is exceeded                                                     */
4117     HTT_SCHED_TID_SKIP_UL_SMALL_QDEPTH,         /* Skip ul tid for small qdepth                                                                  */
4118     HTT_SCHED_TID_SKIP_UL_TWT_PAUSED,           /* Skip ul tid if twt txq is paused                                                              */
4119     HTT_SCHED_TID_SKIP_PEER_UL_RX_NOT_ACTIVE,   /* Skip ul tid if peer ul rx is not active                                                       */
4120     HTT_SCHED_TID_SKIP_NO_FORCE_TRIGGER,        /* Skip ul tid if there is no force triggers                                                     */
4121     HTT_SCHED_TID_SKIP_SMART_BASIC_TRIGGER,     /* Skip ul tid if smart basic trigger doesn't have enough data                                   */
4122 
4123 
4124     HTT_SCHED_INELIGIBILITY_MAX,
4125 } htt_sched_txq_sched_ineligibility_tlv_enum;
4126 
4127 #define HTT_SCHED_TXQ_SCHED_INELIGIBILITY_TLV_SZ(_num_elems) (sizeof(A_UINT32) * (_num_elems))
4128 
4129 /* NOTE: Variable length TLV, use length spec to infer array size */
4130 typedef struct {
4131     htt_tlv_hdr_t tlv_hdr;
4132     /**
4133      * sched_ineligibility counts the number of occurrences of different
4134      * reasons for tid ineligibility during eligibility checks per txq
4135      * in scheduling
4136      *
4137      * Indexed by htt_sched_txq_sched_ineligibility_tlv_enum.
4138      */
4139     HTT_STATS_VAR_LEN_ARRAY1(A_UINT32, sched_ineligibility);
4140 } htt_stats_sched_txq_sched_ineligibility_tlv;
4141 /* preserve old name alias for new name consistent with the tag name */
4142 typedef htt_stats_sched_txq_sched_ineligibility_tlv
4143     htt_sched_txq_sched_ineligibility_tlv_v;
4144 
4145 typedef enum {
4146     HTT_SCHED_SUPERCYCLE_TRIGGER_NONE = 0,                 /* Supercycle not triggered */
4147     HTT_SCHED_SUPERCYCLE_TRIGGER_FORCED,                   /* forced supercycle trigger */
4148     HTT_SCHED_SUPERCYCLE_TRIGGER_LESS_NUM_TIDQ_ENTRIES,    /* Num tidq entries is less than max_client threshold */
4149     HTT_SCHED_SUPERCYCLE_TRIGGER_LESS_NUM_ACTIVE_TIDS,     /* Num active tids is less than max_client threshold */
4150     HTT_SCHED_SUPERCYCLE_TRIGGER_MAX_ITR_REACHED,          /* max sched iteration reached */
4151     HTT_SCHED_SUPERCYCLE_TRIGGER_DUR_THRESHOLD_REACHED,    /* duration threshold reached */
4152     HTT_SCHED_SUPERCYCLE_TRIGGER_TWT_TRIGGER,              /* TWT supercycle trigger */
4153     HTT_SCHED_SUPERCYCLE_TRIGGER_MAX,
4154 } htt_sched_txq_supercycle_triggers_tlv_enum;
4155 
4156 #define HTT_SCHED_TXQ_SUPERCYCLE_TRIGGERS_TLV_SZ(_num_elems) (sizeof(A_UINT32) * (_num_elems))
4157 
4158 /* NOTE: Variable length TLV, use length spec to infer array size */
4159 typedef struct {
4160     htt_tlv_hdr_t tlv_hdr;
4161     /**
4162      * supercycle_triggers[] is a histogram that counts the number of
4163      * occurrences of each different reason for a transmit scheduler
4164      * supercycle to be triggered.
4165      * The htt_sched_txq_supercycle_triggers_tlv_enum is used to index
4166      * supercycle_triggers[], e.g. supercycle_triggers[1] holds the number
4167      * of times a supercycle has been forced.
4168      * These supercycle trigger counts are not automatically reset, but
4169      * are reset upon request.
4170      */
4171     A_UINT32 supercycle_triggers[1/*HTT_SCHED_SUPERCYCLE_TRIGGER_MAX*/];
4172 } htt_stats_sched_txq_supercycle_trigger_tlv;
4173 /* preserve old name alias for new name consistent with the tag name */
4174 typedef htt_stats_sched_txq_supercycle_trigger_tlv
4175     htt_sched_txq_supercycle_triggers_tlv_v;
4176 
4177 #define HTT_TX_PDEV_STATS_SCHED_PER_TXQ_MAC_ID_M 0x000000ff
4178 #define HTT_TX_PDEV_STATS_SCHED_PER_TXQ_MAC_ID_S 0
4179 
4180 #define HTT_TX_PDEV_STATS_SCHED_PER_TXQ_TXQUEUE_ID_M 0x0000ff00
4181 #define HTT_TX_PDEV_STATS_SCHED_PER_TXQ_TXQUEUE_ID_S 8
4182 
4183 #define HTT_TX_PDEV_STATS_SCHED_PER_TXQ_MAC_ID_GET(_var) \
4184     (((_var) & HTT_TX_PDEV_STATS_SCHED_PER_TXQ_MAC_ID_M) >> \
4185      HTT_TX_PDEV_STATS_SCHED_PER_TXQ_MAC_ID_S)
4186 
4187 #define HTT_TX_PDEV_STATS_SCHED_PER_TXQ_MAC_ID_SET(_var, _val) \
4188     do { \
4189         HTT_CHECK_SET_VAL(HTT_TX_PDEV_STATS_SCHED_PER_TXQ_MAC_ID, _val); \
4190         ((_var) |= ((_val) << HTT_TX_PDEV_STATS_SCHED_PER_TXQ_MAC_ID_S)); \
4191     } while (0)
4192 
4193 #define HTT_TX_PDEV_STATS_SCHED_PER_TXQ_TXQUEUE_ID_GET(_var) \
4194     (((_var) & HTT_TX_PDEV_STATS_SCHED_PER_TXQ_TXQUEUE_ID_M) >> \
4195      HTT_TX_PDEV_STATS_SCHED_PER_TXQ_TXQUEUE_ID_S)
4196 
4197 #define HTT_TX_PDEV_STATS_SCHED_PER_TXQ_TXQUEUE_ID_SET(_var, _val) \
4198     do { \
4199         HTT_CHECK_SET_VAL(HTT_TX_PDEV_STATS_SCHED_PER_TXQ_TXQUEUE_ID, _val); \
4200         ((_var) |= ((_val) << HTT_TX_PDEV_STATS_SCHED_PER_TXQ_TXQUEUE_ID_S)); \
4201     } while (0)
4202 
4203 typedef struct {
4204     htt_tlv_hdr_t tlv_hdr;
4205 
4206     /**
4207      * BIT [ 7 :  0]   :- mac_id
4208      * BIT [15 :  8]   :- txq_id
4209      * BIT [31 : 16]   :- reserved
4210      */
4211     A_UINT32 mac_id__txq_id__word;
4212     /** Scheduler policy ised for this TxQ */
4213     A_UINT32 sched_policy;
4214     /** Timestamp of last scheduler command posted */
4215     A_UINT32 last_sched_cmd_posted_timestamp;
4216     /** Timestamp of last scheduler command completed */
4217     A_UINT32 last_sched_cmd_compl_timestamp;
4218     /** Num of Sched2TAC ring hit Low Water Mark condition */
4219     A_UINT32 sched_2_tac_lwm_count;
4220     /** Num of Sched2TAC ring full condition */
4221     A_UINT32 sched_2_tac_ring_full;
4222     /**
4223      * Num of scheduler command post failures that includes SU/MU-MIMO/MU-OFDMA
4224      * sequence type
4225      */
4226     A_UINT32 sched_cmd_post_failure;
4227     /** Num of active tids for this TxQ at current instance */
4228     A_UINT32 num_active_tids;
4229     /** Num of powersave schedules */
4230     A_UINT32 num_ps_schedules;
4231     /** Num of scheduler commands pending for this TxQ */
4232     A_UINT32 sched_cmds_pending;
4233     /** Num of tidq registration for this TxQ */
4234     A_UINT32 num_tid_register;
4235     /** Num of tidq de-registration for this TxQ */
4236     A_UINT32 num_tid_unregister;
4237     /** Num of iterations msduq stats was updated */
4238     A_UINT32 num_qstats_queried;
4239     /** qstats query update status */
4240     A_UINT32 qstats_update_pending;
4241     /** Timestamp of Last query stats made */
4242     A_UINT32 last_qstats_query_timestamp;
4243     /** Num of sched2tqm command queue full condition */
4244     A_UINT32 num_tqm_cmdq_full;
4245     /** Num of scheduler trigger from DE Module */
4246     A_UINT32 num_de_sched_algo_trigger;
4247     /** Num of scheduler trigger from RT Module */
4248     A_UINT32 num_rt_sched_algo_trigger;
4249     /** Num of scheduler trigger from TQM Module */
4250     A_UINT32 num_tqm_sched_algo_trigger;
4251     /** Num of schedules for notify frame */
4252     A_UINT32 notify_sched;
4253     /** Duration based sendn termination */
4254     A_UINT32 dur_based_sendn_term;
4255     /** scheduled via NOTIFY2 */
4256     A_UINT32 su_notify2_sched;
4257     /** schedule if queued packets are greater than avg MSDUs in PPDU */
4258     A_UINT32 su_optimal_queued_msdus_sched;
4259     /** schedule due to timeout */
4260     A_UINT32 su_delay_timeout_sched;
4261     /** delay if txtime is less than 500us */
4262     A_UINT32 su_min_txtime_sched_delay;
4263     /** scheduled via no delay */
4264     A_UINT32 su_no_delay;
4265     /** Num of supercycles for this TxQ */
4266     A_UINT32 num_supercycles;
4267     /** Num of subcycles with sort for this TxQ */
4268     A_UINT32 num_subcycles_with_sort;
4269     /** Num of subcycles without sort for this Txq */
4270     A_UINT32 num_subcycles_no_sort;
4271 } htt_stats_tx_pdev_scheduler_txq_stats_tlv;
4272 /* preserve old name alias for new name consistent with the tag name */
4273 typedef htt_stats_tx_pdev_scheduler_txq_stats_tlv
4274     htt_tx_pdev_stats_sched_per_txq_tlv;
4275 
4276 #define HTT_STATS_TX_SCHED_CMN_MAC_ID_M 0x000000ff
4277 #define HTT_STATS_TX_SCHED_CMN_MAC_ID_S 0
4278 
4279 #define HTT_STATS_TX_SCHED_CMN_MAC_ID_GET(_var) \
4280     (((_var) & HTT_STATS_TX_SCHED_CMN_MAC_ID_M) >> \
4281      HTT_STATS_TX_SCHED_CMN_MAC_ID_S)
4282 
4283 #define HTT_STATS_TX_SCHED_CMN_MAC_ID_SET(_var, _val) \
4284     do { \
4285         HTT_CHECK_SET_VAL(HTT_STATS_TX_SCHED_CMN_MAC_ID, _val); \
4286         ((_var) |= ((_val) << HTT_STATS_TX_SCHED_CMN_MAC_ID_S)); \
4287     } while (0)
4288 
4289 typedef struct {
4290     htt_tlv_hdr_t tlv_hdr;
4291 
4292     /**
4293      * BIT [ 7 :  0]   :- mac_id
4294      * BIT [31 :  8]   :- reserved
4295      */
4296     A_UINT32 mac_id__word;
4297     /** Current timestamp */
4298     A_UINT32 current_timestamp;
4299 } htt_stats_tx_sched_cmn_tlv;
4300 
4301 /* STATS_TYPE : HTT_DBG_EXT_STATS_PDEV_TX_SCHED
4302  * TLV_TAGS:
4303  *     - HTT_STATS_TX_SCHED_CMN_TAG
4304  *     - HTT_STATS_TX_PDEV_SCHEDULER_TXQ_STATS_TAG
4305  *     - HTT_STATS_SCHED_TXQ_CMD_POSTED_TAG
4306  *     - HTT_STATS_SCHED_TXQ_CMD_REAPED_TAG
4307  *     - HTT_STATS_SCHED_TXQ_SCHED_ORDER_SU_TAG
4308  *     - HTT_STATS_SCHED_TXQ_SCHED_INELIGIBILITY_TAG
4309  *     - HTT_STATS_SCHED_TXQ_SUPERCYCLE_TRIGGER_TAG
4310  */
4311 /* NOTE:
4312  * This structure is for documentation, and cannot be safely used directly.
4313  * Instead, use the constituent TLV structures to fill/parse.
4314  */
4315 typedef struct {
4316     htt_stats_tx_sched_cmn_tlv cmn_tlv;
4317     struct {
4318         htt_stats_tx_pdev_scheduler_txq_stats_tlv     txq_tlv;
4319         htt_stats_sched_txq_cmd_posted_tlv      cmd_posted_tlv;
4320         htt_stats_sched_txq_cmd_reaped_tlv      cmd_reaped_tlv;
4321         htt_stats_sched_txq_sched_order_su_tlv      sched_order_su_tlv;
4322         htt_stats_sched_txq_sched_ineligibility_tlv sched_ineligibility_tlv;
4323         htt_stats_sched_txq_supercycle_trigger_tlv  htt_sched_txq_sched_ineligibility_tlv_esched_supercycle_trigger_tlv;
4324     } txq[1];
4325 } htt_stats_tx_sched_t;
4326 
4327 /* == TQM STATS == */
4328 
4329 #define HTT_TX_TQM_MAX_GEN_MPDU_END_REASON 17
4330 #define HTT_TX_TQM_MAX_LIST_MPDU_END_REASON 16
4331 #define HTT_TX_TQM_MAX_LIST_MPDU_CNT_HISTOGRAM_BINS 16
4332 
4333 #define HTT_TX_TQM_GEN_MPDU_STATS_TLV_SZ(_num_elems) (sizeof(A_UINT32) * (_num_elems))
4334 
4335 /* NOTE: Variable length TLV, use length spec to infer array size */
4336 typedef struct {
4337     htt_tlv_hdr_t tlv_hdr;
4338 
4339     /* HTT_TX_TQM_MAX_GEN_MPDU_END_REASON */
4340     HTT_STATS_VAR_LEN_ARRAY1(A_UINT32, gen_mpdu_end_reason);
4341 } htt_stats_tx_tqm_gen_mpdu_tlv;
4342 /* preserve old name alias for new name consistent with the tag name */
4343 typedef htt_stats_tx_tqm_gen_mpdu_tlv htt_tx_tqm_gen_mpdu_stats_tlv_v;
4344 
4345 #define HTT_TX_TQM_LIST_MPDU_STATS_TLV_SZ(_num_elems) (sizeof(A_UINT32) * (_num_elems))
4346 
4347 /* NOTE: Variable length TLV, use length spec to infer array size */
4348 typedef struct {
4349     htt_tlv_hdr_t tlv_hdr;
4350 
4351     /* HTT_TX_TQM_MAX_LIST_MPDU_END_REASON */
4352     HTT_STATS_VAR_LEN_ARRAY1(A_UINT32, list_mpdu_end_reason);
4353 } htt_stats_tx_tqm_list_mpdu_tlv;
4354 /* preserve old name alias for new name consistent with the tag name */
4355 typedef htt_stats_tx_tqm_list_mpdu_tlv htt_tx_tqm_list_mpdu_stats_tlv_v;
4356 
4357 #define HTT_TX_TQM_LIST_MPDU_CNT_TLV_SZ(_num_elems) (sizeof(A_UINT32) * (_num_elems))
4358 
4359 /* NOTE: Variable length TLV, use length spec to infer array size */
4360 typedef struct {
4361     htt_tlv_hdr_t tlv_hdr;
4362 
4363     /* HTT_TX_TQM_MAX_LIST_MPDU_CNT_HISTOGRAM_BINS */
4364     HTT_STATS_VAR_LEN_ARRAY1(A_UINT32, list_mpdu_cnt_hist);
4365 } htt_stats_tx_tqm_list_mpdu_cnt_tlv;
4366 /* preserve old name alias for new name consistent with the tag name */
4367 typedef htt_stats_tx_tqm_list_mpdu_cnt_tlv htt_tx_tqm_list_mpdu_cnt_tlv_v;
4368 
4369 typedef struct {
4370     htt_tlv_hdr_t tlv_hdr;
4371     A_UINT32 msdu_count;
4372     A_UINT32 mpdu_count;
4373     A_UINT32 remove_msdu;
4374     A_UINT32 remove_mpdu;
4375     A_UINT32 remove_msdu_ttl;
4376     A_UINT32 send_bar;
4377     A_UINT32 bar_sync;
4378     A_UINT32 notify_mpdu;
4379     A_UINT32 sync_cmd;
4380     A_UINT32 write_cmd;
4381     A_UINT32 hwsch_trigger;
4382     A_UINT32 ack_tlv_proc;
4383     A_UINT32 gen_mpdu_cmd;
4384     A_UINT32 gen_list_cmd;
4385     A_UINT32 remove_mpdu_cmd;
4386     A_UINT32 remove_mpdu_tried_cmd;
4387     A_UINT32 mpdu_queue_stats_cmd;
4388     A_UINT32 mpdu_head_info_cmd;
4389     A_UINT32 msdu_flow_stats_cmd;
4390     A_UINT32 remove_msdu_cmd;
4391     A_UINT32 remove_msdu_ttl_cmd;
4392     A_UINT32 flush_cache_cmd;
4393     A_UINT32 update_mpduq_cmd;
4394     A_UINT32 enqueue;
4395     A_UINT32 enqueue_notify;
4396     A_UINT32 notify_mpdu_at_head;
4397     A_UINT32 notify_mpdu_state_valid;
4398 /*
4399  * On receiving TQM_FLOW_NOT_EMPTY_STATUS from TQM, (on MSDUs being enqueued
4400  * the flow is non empty), if the number of MSDUs is greater than the threshold,
4401  * notify is incremented. UDP_THRESH counters are for UDP MSDUs, and NONUDP are
4402  * for non-UDP MSDUs.
4403  * MSDUQ_SWNOTIFY_UDP_THRESH1 threshold    - sched_udp_notify1 is incremented
4404  * MSDUQ_SWNOTIFY_UDP_THRESH2 threshold    - sched_udp_notify2 is incremented
4405  * MSDUQ_SWNOTIFY_NONUDP_THRESH1 threshold - sched_nonudp_notify1 is incremented
4406  * MSDUQ_SWNOTIFY_NONUDP_THRESH2 threshold - sched_nonudp_notify2 is incremented
4407  *
4408  * Notify signifies that we trigger the scheduler.
4409  */
4410     A_UINT32 sched_udp_notify1;
4411     A_UINT32 sched_udp_notify2;
4412     A_UINT32 sched_nonudp_notify1;
4413     A_UINT32 sched_nonudp_notify2;
4414     A_UINT32 tqm_enqueue_msdu_count;
4415     A_UINT32 tqm_dropped_msdu_count;
4416     A_UINT32 tqm_dequeue_msdu_count;
4417 } htt_stats_tx_tqm_pdev_tlv;
4418 /* preserve old name alias for new name consistent with the tag name */
4419 typedef htt_stats_tx_tqm_pdev_tlv htt_tx_tqm_pdev_stats_tlv_v;
4420 
4421 #define HTT_TX_TQM_CMN_STATS_MAC_ID_M 0x000000ff
4422 #define HTT_TX_TQM_CMN_STATS_MAC_ID_S 0
4423 
4424 #define HTT_TX_TQM_CMN_STATS_MAC_ID_GET(_var) \
4425     (((_var) & HTT_TX_TQM_CMN_STATS_MAC_ID_M) >> \
4426      HTT_TX_TQM_CMN_STATS_MAC_ID_S)
4427 
4428 #define HTT_TX_TQM_CMN_STATS_MAC_ID_SET(_var, _val) \
4429     do { \
4430         HTT_CHECK_SET_VAL(HTT_TX_TQM_CMN_STATS_MAC_ID, _val); \
4431         ((_var) |= ((_val) << HTT_TX_TQM_CMN_STATS_MAC_ID_S)); \
4432     } while (0)
4433 
4434 typedef struct {
4435     htt_tlv_hdr_t tlv_hdr;
4436 
4437     /**
4438      * BIT [ 7 :  0]   :- mac_id
4439      * BIT [31 :  8]   :- reserved
4440      */
4441     A_UINT32 mac_id__word;
4442     A_UINT32 max_cmdq_id;
4443     A_UINT32 list_mpdu_cnt_hist_intvl;
4444 
4445     /* Global stats */
4446     A_UINT32 add_msdu;
4447     A_UINT32 q_empty;
4448     A_UINT32 q_not_empty;
4449     A_UINT32 drop_notification;
4450     A_UINT32 desc_threshold;
4451     A_UINT32 hwsch_tqm_invalid_status;
4452     A_UINT32 missed_tqm_gen_mpdus;
4453     A_UINT32 tqm_active_tids;
4454     A_UINT32 tqm_inactive_tids;
4455     A_UINT32 tqm_active_msduq_flows;
4456 
4457     /* SAWF system delay reference timestamp updation related stats */
4458     A_UINT32 total_msduq_timestamp_updates;
4459     A_UINT32 total_msduq_timestamp_updates_by_get_mpdu_head_info_cmd;
4460     A_UINT32 total_msduq_timestamp_updates_by_empty_to_nonempty_status;
4461     A_UINT32 total_get_mpdu_head_info_cmds_by_sched_algo_la_query;
4462     A_UINT32 total_get_mpdu_head_info_cmds_by_tac;
4463     A_UINT32 total_gen_mpdu_cmds_by_sched_algo_la_query;
4464     A_UINT32 high_prio_q_not_empty;
4465 } htt_stats_tx_tqm_cmn_tlv;
4466 /* preserve old name alias for new name consistent with the tag name */
4467 typedef htt_stats_tx_tqm_cmn_tlv htt_tx_tqm_cmn_stats_tlv;
4468 
4469 typedef struct {
4470     htt_tlv_hdr_t tlv_hdr;
4471     /* Error stats */
4472     A_UINT32 q_empty_failure;
4473     A_UINT32 q_not_empty_failure;
4474     A_UINT32 add_msdu_failure;
4475 
4476     /* TQM reset debug stats */
4477     A_UINT32 tqm_cache_ctl_err;
4478     A_UINT32 tqm_soft_reset;
4479     A_UINT32 tqm_reset_total_num_in_use_link_descs;
4480     A_UINT32 tqm_reset_worst_case_num_lost_link_descs;
4481     A_UINT32 tqm_reset_worst_case_num_lost_host_tx_bufs_count;
4482     A_UINT32 tqm_reset_num_in_use_link_descs_internal_tqm;
4483     A_UINT32 tqm_reset_num_in_use_link_descs_wbm_idle_link_ring;
4484     A_UINT32 tqm_reset_time_to_tqm_hang_delta_ms;
4485     A_UINT32 tqm_reset_recovery_time_ms;
4486     A_UINT32 tqm_reset_num_peers_hdl;
4487     A_UINT32 tqm_reset_cumm_dirty_hw_mpduq_proc_cnt;
4488     A_UINT32 tqm_reset_cumm_dirty_hw_msduq_proc;
4489     A_UINT32 tqm_reset_flush_cache_cmd_su_cnt;
4490     A_UINT32 tqm_reset_flush_cache_cmd_other_cnt;
4491     A_UINT32 tqm_reset_flush_cache_cmd_trig_type;
4492     A_UINT32 tqm_reset_flush_cache_cmd_trig_cfg;
4493     A_UINT32 tqm_reset_flush_cache_cmd_skip_cmd_status_null;
4494 } htt_stats_tx_tqm_error_stats_tlv;
4495 /* preserve old name alias for new name consistent with the tag name */
4496 typedef htt_stats_tx_tqm_error_stats_tlv htt_tx_tqm_error_stats_tlv;
4497 
4498 /* STATS_TYPE : HTT_DBG_EXT_STATS_PDEV_TQM
4499  * TLV_TAGS:
4500  *     - HTT_STATS_TX_TQM_CMN_TAG
4501  *     - HTT_STATS_TX_TQM_ERROR_STATS_TAG
4502  *     - HTT_STATS_TX_TQM_GEN_MPDU_TAG
4503  *     - HTT_STATS_TX_TQM_LIST_MPDU_TAG
4504  *     - HTT_STATS_TX_TQM_LIST_MPDU_CNT_TAG
4505  *     - HTT_STATS_TX_TQM_PDEV_TAG
4506  */
4507 /* NOTE:
4508  * This structure is for documentation, and cannot be safely used directly.
4509  * Instead, use the constituent TLV structures to fill/parse.
4510  */
4511 #ifdef ATH_TARGET
4512 typedef struct {
4513     htt_stats_tx_tqm_cmn_tlv           cmn_tlv;
4514     htt_stats_tx_tqm_error_stats_tlv   err_tlv;
4515     htt_stats_tx_tqm_gen_mpdu_tlv      gen_mpdu_stats_tlv;
4516     htt_stats_tx_tqm_list_mpdu_tlv     list_mpdu_stats_tlv;
4517     htt_stats_tx_tqm_list_mpdu_cnt_tlv list_mpdu_cnt_tlv;
4518     htt_stats_tx_tqm_pdev_tlv          tqm_pdev_stats_tlv;
4519 } htt_tx_tqm_pdev_stats_t;
4520 #endif /* ATH_TARGET */
4521 
4522 /* == TQM CMDQ stats == */
4523 #define HTT_TX_TQM_CMDQ_STATUS_MAC_ID_M 0x000000ff
4524 #define HTT_TX_TQM_CMDQ_STATUS_MAC_ID_S 0
4525 
4526 #define HTT_TX_TQM_CMDQ_STATUS_CMDQ_ID_M 0x0000ff00
4527 #define HTT_TX_TQM_CMDQ_STATUS_CMDQ_ID_S 8
4528 
4529 #define HTT_TX_TQM_CMDQ_STATUS_MAC_ID_GET(_var) \
4530     (((_var) & HTT_TX_TQM_CMDQ_STATUS_MAC_ID_M) >> \
4531      HTT_TX_TQM_CMDQ_STATUS_MAC_ID_S)
4532 
4533 #define HTT_TX_TQM_CMDQ_STATUS_MAC_ID_SET(_var, _val) \
4534     do { \
4535         HTT_CHECK_SET_VAL(HTT_TX_TQM_CMDQ_STATUS_MAC_ID, _val); \
4536         ((_var) |= ((_val) << HTT_TX_TQM_CMDQ_STATUS_MAC_ID_S)); \
4537     } while (0)
4538 
4539 #define HTT_TX_TQM_CMDQ_STATUS_CMDQ_ID_GET(_var) \
4540     (((_var) & HTT_TX_TQM_CMDQ_STATUS_CMDQ_ID_M) >> \
4541      HTT_TX_TQM_CMDQ_STATUS_CMDQ_ID_S)
4542 
4543 #define HTT_TX_TQM_CMDQ_STATUS_CMDQ_ID_SET(_var, _val) \
4544     do { \
4545         HTT_CHECK_SET_VAL(HTT_TX_TQM_CMDQ_STATUS_CMDQ_ID, _val); \
4546         ((_var) |= ((_val) << HTT_TX_TQM_CMDQ_STATUS_CMDQ_ID_S)); \
4547     } while (0)
4548 
4549 typedef struct {
4550     htt_tlv_hdr_t tlv_hdr;
4551 
4552     /*
4553      * BIT [ 7 :  0]   :- mac_id
4554      * BIT [15 :  8]   :- cmdq_id
4555      * BIT [31 : 16]   :- reserved
4556      */
4557     A_UINT32 mac_id__cmdq_id__word;
4558     A_UINT32 sync_cmd;
4559     A_UINT32 write_cmd;
4560     A_UINT32 gen_mpdu_cmd;
4561     A_UINT32 mpdu_queue_stats_cmd;
4562     A_UINT32 mpdu_head_info_cmd;
4563     A_UINT32 msdu_flow_stats_cmd;
4564     A_UINT32 remove_mpdu_cmd;
4565     A_UINT32 remove_msdu_cmd;
4566     A_UINT32 flush_cache_cmd;
4567     A_UINT32 update_mpduq_cmd;
4568     A_UINT32 update_msduq_cmd;
4569 } htt_stats_tx_tqm_cmdq_status_tlv;
4570 /* preserve old name alias for new name consistent with the tag name */
4571 typedef htt_stats_tx_tqm_cmdq_status_tlv htt_tx_tqm_cmdq_status_tlv;
4572 
4573 /* STATS_TYPE : HTT_DBG_EXT_STATS_TQM_CMDQ
4574  * TLV_TAGS:
4575  *     - HTT_STATS_STRING_TAG
4576  *     - HTT_STATS_TX_TQM_CMDQ_STATUS_TAG
4577  */
4578 /* NOTE:
4579  * This structure is for documentation, and cannot be safely used directly.
4580  * Instead, use the constituent TLV structures to fill/parse.
4581  */
4582 #ifdef ATH_TARGET
4583 typedef struct {
4584     struct {
4585         htt_stats_string_tlv             cmdq_str_tlv;
4586         htt_stats_tx_tqm_cmdq_status_tlv status_tlv;
4587     } q[1];
4588 } htt_tx_tqm_cmdq_stats_t;
4589 #endif /* ATH_TARGET */
4590 
4591 /* == TX-DE STATS == */
4592 
4593 /* Structures for tx de stats */
4594 typedef struct {
4595     htt_tlv_hdr_t tlv_hdr;
4596     A_UINT32 m1_packets;
4597     A_UINT32 m2_packets;
4598     A_UINT32 m3_packets;
4599     A_UINT32 m4_packets;
4600     A_UINT32 g1_packets;
4601     A_UINT32 g2_packets;
4602     A_UINT32 rc4_packets;
4603     A_UINT32 eap_packets;
4604     A_UINT32 eapol_start_packets;
4605     A_UINT32 eapol_logoff_packets;
4606     A_UINT32 eapol_encap_asf_packets;
4607     A_UINT32 m1_success;
4608     A_UINT32 m1_compl_fail;
4609     A_UINT32 m2_success;
4610     A_UINT32 m2_compl_fail;
4611     A_UINT32 m3_success;
4612     A_UINT32 m3_compl_fail;
4613     A_UINT32 m4_success;
4614     A_UINT32 m4_compl_fail;
4615     A_UINT32 g1_success;
4616     A_UINT32 g1_compl_fail;
4617     A_UINT32 g2_success;
4618     A_UINT32 g2_compl_fail;
4619 } htt_stats_tx_de_eapol_packets_tlv;
4620 /* preserve old name alias for new name consistent with the tag name */
4621 typedef htt_stats_tx_de_eapol_packets_tlv htt_tx_de_eapol_packets_stats_tlv;
4622 
4623 typedef struct {
4624     htt_tlv_hdr_t tlv_hdr;
4625     A_UINT32 ap_bss_peer_not_found;
4626     A_UINT32 ap_bcast_mcast_no_peer;
4627     A_UINT32 sta_delete_in_progress;
4628     A_UINT32 ibss_no_bss_peer;
4629     A_UINT32 invaild_vdev_type;
4630     A_UINT32 invalid_ast_peer_entry;
4631     A_UINT32 peer_entry_invalid;
4632     A_UINT32 ethertype_not_ip;
4633     A_UINT32 eapol_lookup_failed;
4634     A_UINT32 qpeer_not_allow_data;
4635     A_UINT32 fse_tid_override;
4636     A_UINT32 ipv6_jumbogram_zero_length;
4637     A_UINT32 qos_to_non_qos_in_prog;
4638     A_UINT32 ap_bcast_mcast_eapol;
4639     A_UINT32 unicast_on_ap_bss_peer;
4640     A_UINT32 ap_vdev_invalid;
4641     A_UINT32 incomplete_llc;
4642     A_UINT32 eapol_duplicate_m3;
4643     A_UINT32 eapol_duplicate_m4;
4644 } htt_stats_tx_de_classify_failed_tlv;
4645 /* preserve old name alias for new name consistent with the tag name */
4646 typedef htt_stats_tx_de_classify_failed_tlv htt_tx_de_classify_failed_stats_tlv;
4647 
4648 typedef struct {
4649     htt_tlv_hdr_t tlv_hdr;
4650     A_UINT32 arp_packets;
4651     A_UINT32 igmp_packets;
4652     A_UINT32 dhcp_packets;
4653     A_UINT32 host_inspected;
4654     A_UINT32 htt_included;
4655     A_UINT32 htt_valid_mcs;
4656     A_UINT32 htt_valid_nss;
4657     A_UINT32 htt_valid_preamble_type;
4658     A_UINT32 htt_valid_chainmask;
4659     A_UINT32 htt_valid_guard_interval;
4660     A_UINT32 htt_valid_retries;
4661     A_UINT32 htt_valid_bw_info;
4662     A_UINT32 htt_valid_power;
4663     A_UINT32 htt_valid_key_flags;
4664     A_UINT32 htt_valid_no_encryption;
4665     A_UINT32 fse_entry_count;
4666     A_UINT32 fse_priority_be;
4667     A_UINT32 fse_priority_high;
4668     A_UINT32 fse_priority_low;
4669     A_UINT32 fse_traffic_ptrn_be;
4670     A_UINT32 fse_traffic_ptrn_over_sub;
4671     A_UINT32 fse_traffic_ptrn_bursty;
4672     A_UINT32 fse_traffic_ptrn_interactive;
4673     A_UINT32 fse_traffic_ptrn_periodic;
4674     A_UINT32 fse_hwqueue_alloc;
4675     A_UINT32 fse_hwqueue_created;
4676     A_UINT32 fse_hwqueue_send_to_host;
4677     A_UINT32 mcast_entry;
4678     A_UINT32 bcast_entry;
4679     A_UINT32 htt_update_peer_cache;
4680     A_UINT32 htt_learning_frame;
4681     A_UINT32 fse_invalid_peer;
4682     /**
4683      * mec_notify is HTT TX WBM multicast echo check notification
4684      * from firmware to host.  FW sends SA addresses to host for all
4685      * multicast/broadcast packets received on STA side.
4686      */
4687     A_UINT32 mec_notify;
4688     A_UINT32 arp_response;
4689     A_UINT32 arp_request;
4690 } htt_stats_tx_de_classify_stats_tlv;
4691 /* preserve old name alias for new name consistent with the tag name */
4692 typedef htt_stats_tx_de_classify_stats_tlv htt_tx_de_classify_stats_tlv;
4693 
4694 typedef struct {
4695     htt_tlv_hdr_t tlv_hdr;
4696     A_UINT32 eok;
4697     A_UINT32 classify_done;
4698     A_UINT32 lookup_failed;
4699     A_UINT32 send_host_dhcp;
4700     A_UINT32 send_host_mcast;
4701     A_UINT32 send_host_unknown_dest;
4702     A_UINT32 send_host;
4703     A_UINT32 status_invalid;
4704 } htt_stats_tx_de_classify_status_tlv;
4705 /* preserve old name alias for new name consistent with the tag name */
4706 typedef htt_stats_tx_de_classify_status_tlv htt_tx_de_classify_status_stats_tlv;
4707 
4708 typedef struct {
4709     htt_tlv_hdr_t tlv_hdr;
4710     A_UINT32 enqueued_pkts;
4711     A_UINT32 to_tqm;
4712     A_UINT32 to_tqm_bypass;
4713 } htt_stats_tx_de_enqueue_packets_tlv;
4714 /* preserve old name alias for new name consistent with the tag name */
4715 typedef htt_stats_tx_de_enqueue_packets_tlv htt_tx_de_enqueue_packets_stats_tlv;
4716 
4717 typedef struct {
4718     htt_tlv_hdr_t tlv_hdr;
4719     A_UINT32 discarded_pkts;
4720     A_UINT32 local_frames;
4721     A_UINT32 is_ext_msdu;
4722     A_UINT32 mlo_invalid_routing_discard;
4723     A_UINT32 mlo_invalid_routing_dup_entry_discard;
4724     A_UINT32 discard_peer_unauthorized_pkts;
4725 } htt_stats_tx_de_enqueue_discard_tlv;
4726 /* preserve old name alias for new name consistent with the tag name */
4727 typedef htt_stats_tx_de_enqueue_discard_tlv htt_tx_de_enqueue_discard_stats_tlv;
4728 
4729 typedef struct {
4730     htt_tlv_hdr_t tlv_hdr;
4731     A_UINT32 tcl_dummy_frame;
4732     A_UINT32 tqm_dummy_frame;
4733     A_UINT32 tqm_notify_frame;
4734     A_UINT32 fw2wbm_enq;
4735     A_UINT32 tqm_bypass_frame;
4736 } htt_stats_tx_de_compl_stats_tlv;
4737 /* preserve old name alias for new name consistent with the tag name */
4738 typedef htt_stats_tx_de_compl_stats_tlv htt_tx_de_compl_stats_tlv;
4739 
4740 #define HTT_TX_DE_CMN_STATS_MAC_ID_M 0x000000ff
4741 #define HTT_TX_DE_CMN_STATS_MAC_ID_S 0
4742 
4743 #define HTT_TX_DE_CMN_STATS_MAC_ID_GET(_var) \
4744     (((_var) & HTT_TX_DE_CMN_STATS_MAC_ID_M) >> \
4745      HTT_TX_DE_CMN_STATS_MAC_ID_S)
4746 
4747 #define HTT_TX_DE_CMN_STATS_MAC_ID_SET(_var, _val) \
4748     do { \
4749         HTT_CHECK_SET_VAL(HTT_TX_DE_CMN_STATS_MAC_ID, _val); \
4750         ((_var) |= ((_val) << HTT_TX_DE_CMN_STATS_MAC_ID_S)); \
4751     } while (0)
4752 
4753 /*
4754  *  The htt_tx_de_fw2wbm_ring_full_hist_tlv is a histogram of time we waited
4755  *  for the fw2wbm ring buffer.  we are requesting a buffer in FW2WBM release
4756  *  ring,which may fail, due to non availability of buffer. Hence we sleep for
4757  *  200us & again request for it. This is a histogram of time we wait, with
4758  *  bin of 200ms & there are 10 bin (2 seconds max)
4759  *  They are defined by the following macros in FW
4760  *  #define ENTRIES_PER_BIN_COUNT 1000  // per bin 1000 * 200us = 200ms
4761  *  #define RING_FULL_BIN_ENTRIES (WAL_TX_DE_FW2WBM_ALLOC_TIMEOUT_COUNT /
4762  *                               ENTRIES_PER_BIN_COUNT)
4763  */
4764 typedef struct {
4765     htt_tlv_hdr_t tlv_hdr;
4766 
4767     HTT_STATS_VAR_LEN_ARRAY1(A_UINT32, fw2wbm_ring_full_hist);
4768 } htt_stats_tx_de_fw2wbm_ring_full_hist_tlv;
4769 /* preserve old name alias for new name consistent with the tag name */
4770 typedef htt_stats_tx_de_fw2wbm_ring_full_hist_tlv
4771     htt_tx_de_fw2wbm_ring_full_hist_tlv;
4772 
4773 typedef struct {
4774     htt_tlv_hdr_t tlv_hdr;
4775     /**
4776      * BIT [ 7 :  0]   :- mac_id
4777      * BIT [31 :  8]   :- reserved
4778      */
4779     A_UINT32 mac_id__word;
4780 
4781     /* Global Stats */
4782     A_UINT32 tcl2fw_entry_count;
4783     A_UINT32 not_to_fw;
4784     A_UINT32 invalid_pdev_vdev_peer;
4785     A_UINT32 tcl_res_invalid_addrx;
4786     A_UINT32 wbm2fw_entry_count;
4787     A_UINT32 invalid_pdev;
4788     A_UINT32 tcl_res_addrx_timeout;
4789     A_UINT32 invalid_vdev;
4790     A_UINT32 invalid_tcl_exp_frame_desc;
4791     A_UINT32 vdev_id_mismatch_cnt;
4792 } htt_stats_tx_de_cmn_tlv;
4793 /* preserve old name alias for new name consistent with the tag name */
4794 typedef htt_stats_tx_de_cmn_tlv htt_tx_de_cmn_stats_tlv;
4795 
4796 #define HTT_STATS_RX_FW_RING_SIZE_NUM_ENTRIES(dword) ((dword >> 0)  & 0xffff)
4797 #define HTT_STATS_RX_FW_RING_CURR_NUM_ENTRIES(dword) ((dword >> 16) & 0xffff)
4798 
4799 /* Rx debug info for status rings */
4800 typedef struct {
4801     htt_tlv_hdr_t tlv_hdr;
4802     /**
4803      * BIT [15 :  0] :- max possible number of entries in respective ring
4804      *                  (size of the ring in terms of entries)
4805      * BIT [16 : 31] :- current number of entries occupied in respective ring
4806      */
4807     A_UINT32 entry_status_sw2rxdma;
4808     A_UINT32 entry_status_rxdma2reo;
4809     A_UINT32 entry_status_reo2sw1;
4810     A_UINT32 entry_status_reo2sw4;
4811     A_UINT32 entry_status_refillringipa;
4812     A_UINT32 entry_status_refillringhost;
4813     /** datarate - Moving Average of Number of Entries */
4814     A_UINT32 datarate_refillringipa;
4815     A_UINT32 datarate_refillringhost;
4816     /**
4817      * refillringhost_backpress_hist and refillringipa_backpress_hist are
4818      * deprecated, and will be filled with 0x0 by the target.
4819      */
4820     A_UINT32 refillringhost_backpress_hist[3];
4821     A_UINT32 refillringipa_backpress_hist[3];
4822     /**
4823      * Number of times reo2sw4(IPA_DEST_RING) ring is back-pressured
4824      * in recent time periods
4825      * element 0: in last 0 to 250ms
4826      * element 1: 250ms to 500ms
4827      * element 2: above 500ms
4828      */
4829     A_UINT32 reo2sw4ringipa_backpress_hist[3];
4830 } htt_stats_rx_ring_stats_tlv;
4831 /* preserve old name alias for new name consistent with the tag name */
4832 typedef htt_stats_rx_ring_stats_tlv htt_rx_fw_ring_stats_tlv_v;
4833 
4834 /* STATS_TYPE : HTT_DBG_EXT_STATS_TX_DE_INFO
4835  * TLV_TAGS:
4836  *     - HTT_STATS_TX_DE_CMN_TAG
4837  *     - HTT_STATS_TX_DE_FW2WBM_RING_FULL_HIST_TAG
4838  *     - HTT_STATS_TX_DE_EAPOL_PACKETS_TAG
4839  *     - HTT_STATS_TX_DE_CLASSIFY_STATS_TAG
4840  *     - HTT_STATS_TX_DE_CLASSIFY_FAILED_TAG
4841  *     - HTT_STATS_TX_DE_CLASSIFY_STATUS_TAG
4842  *     - HTT_STATS_TX_DE_ENQUEUE_PACKETS_TAG
4843  *     - HTT_STATS_TX_DE_ENQUEUE_DISCARD_TAG
4844  *     - HTT_STATS_TX_DE_COMPL_STATS_TAG
4845  */
4846 /* NOTE:
4847  * This structure is for documentation, and cannot be safely used directly.
4848  * Instead, use the constituent TLV structures to fill/parse.
4849  */
4850 #ifdef ATH_TARGET
4851 typedef struct {
4852     htt_stats_tx_de_cmn_tlv                   cmn_tlv;
4853     htt_stats_tx_de_fw2wbm_ring_full_hist_tlv fw2wbm_hist_tlv;
4854     htt_stats_tx_de_eapol_packets_tlv         eapol_stats_tlv;
4855     htt_stats_tx_de_classify_stats_tlv        classify_stats_tlv;
4856     htt_stats_tx_de_classify_failed_tlv       classify_failed_tlv;
4857     htt_stats_tx_de_classify_status_tlv       classify_status_rlv;
4858     htt_stats_tx_de_enqueue_packets_tlv       enqueue_packets_tlv;
4859     htt_stats_tx_de_enqueue_discard_tlv       enqueue_discard_tlv;
4860     htt_stats_tx_de_compl_stats_tlv           comp_status_tlv;
4861 } htt_tx_de_stats_t;
4862 #endif /* ATH_TARGET */
4863 
4864 /* == RING-IF STATS == */
4865 /* DWORD num_elems__prefetch_tail_idx */
4866 #define HTT_RING_IF_STATS_NUM_ELEMS_M 0x0000ffff
4867 #define HTT_RING_IF_STATS_NUM_ELEMS_S 0
4868 
4869 #define HTT_RING_IF_STATS_PREFETCH_TAIL_IDX_M 0xffff0000
4870 #define HTT_RING_IF_STATS_PREFETCH_TAIL_IDX_S 16
4871 
4872 #define HTT_RING_IF_STATS_NUM_ELEMS_GET(_var) \
4873     (((_var) & HTT_RING_IF_STATS_NUM_ELEMS_M) >> \
4874      HTT_RING_IF_STATS_NUM_ELEMS_S)
4875 
4876 #define HTT_RING_IF_STATS_NUM_ELEMS_SET(_var, _val) \
4877     do { \
4878         HTT_CHECK_SET_VAL(HTT_RING_IF_STATS_NUM_ELEMS, _val); \
4879         ((_var) |= ((_val) << HTT_RING_IF_STATS_NUM_ELEMS_S)); \
4880     } while (0)
4881 
4882 #define HTT_RING_IF_STATS_PREFETCH_TAIL_IDX_GET(_var) \
4883     (((_var) & HTT_RING_IF_STATS_PREFETCH_TAIL_IDX_M) >> \
4884      HTT_RING_IF_STATS_PREFETCH_TAIL_IDX_S)
4885 
4886 #define HTT_RING_IF_STATS_PREFETCH_TAIL_IDX_SET(_var, _val) \
4887     do { \
4888         HTT_CHECK_SET_VAL(HTT_RING_IF_STATS_PREFETCH_TAIL_IDX, _val); \
4889         ((_var) |= ((_val) << HTT_RING_IF_STATS_PREFETCH_TAIL_IDX_S)); \
4890     } while (0)
4891 
4892 /* DWORD head_idx__tail_idx */
4893 #define HTT_RING_IF_STATS_HEAD_IDX_M 0x0000ffff
4894 #define HTT_RING_IF_STATS_HEAD_IDX_S 0
4895 
4896 #define HTT_RING_IF_STATS_TAIL_IDX_M 0xffff0000
4897 #define HTT_RING_IF_STATS_TAIL_IDX_S 16
4898 
4899 #define HTT_RING_IF_STATS_HEAD_IDX_GET(_var) \
4900     (((_var) & HTT_RING_IF_STATS_HEAD_IDX_M) >> \
4901      HTT_RING_IF_STATS_HEAD_IDX_S)
4902 
4903 #define HTT_RING_IF_STATS_HEAD_IDX_SET(_var, _val) \
4904     do { \
4905         HTT_CHECK_SET_VAL(HTT_RING_IF_STATS_HEAD_IDX, _val); \
4906         ((_var) |= ((_val) << HTT_RING_IF_STATS_HEAD_IDX_S)); \
4907     } while (0)
4908 
4909 #define HTT_RING_IF_STATS_TAIL_IDX_GET(_var) \
4910     (((_var) & HTT_RING_IF_STATS_TAIL_IDX_M) >> \
4911      HTT_RING_IF_STATS_TAIL_IDX_S)
4912 
4913 #define HTT_RING_IF_STATS_TAIL_IDX_SET(_var, _val) \
4914     do { \
4915         HTT_CHECK_SET_VAL(HTT_RING_IF_STATS_TAIL_IDX, _val); \
4916         ((_var) |= ((_val) << HTT_RING_IF_STATS_TAIL_IDX_S)); \
4917     } while (0)
4918 
4919 /* DWORD shadow_head_idx__shadow_tail_idx */
4920 #define HTT_RING_IF_STATS_SHADOW_HEAD_IDX_M 0x0000ffff
4921 #define HTT_RING_IF_STATS_SHADOW_HEAD_IDX_S 0
4922 
4923 #define HTT_RING_IF_STATS_SHADOW_TAIL_IDX_M 0xffff0000
4924 #define HTT_RING_IF_STATS_SHADOW_TAIL_IDX_S 16
4925 
4926 #define HTT_RING_IF_STATS_SHADOW_HEAD_IDX_GET(_var) \
4927     (((_var) & HTT_RING_IF_STATS_SHADOW_HEAD_IDX_M) >> \
4928      HTT_RING_IF_STATS_SHADOW_HEAD_IDX_S)
4929 
4930 #define HTT_RING_IF_STATS_SHADOW_HEAD_IDX_SET(_var, _val) \
4931     do { \
4932         HTT_CHECK_SET_VAL(HTT_RING_IF_STATS_SHADOW_HEAD_IDX, _val); \
4933         ((_var) |= ((_val) << HTT_RING_IF_STATS_SHADOW_HEAD_IDX_S)); \
4934     } while (0)
4935 
4936 #define HTT_RING_IF_STATS_SHADOW_TAIL_IDX_GET(_var) \
4937     (((_var) & HTT_RING_IF_STATS_SHADOW_TAIL_IDX_M) >> \
4938      HTT_RING_IF_STATS_SHADOW_TAIL_IDX_S)
4939 
4940 #define HTT_RING_IF_STATS_SHADOW_TAIL_IDX_SET(_var, _val) \
4941     do { \
4942         HTT_CHECK_SET_VAL(HTT_RING_IF_STATS_SHADOW_TAIL_IDX, _val); \
4943         ((_var) |= ((_val) << HTT_RING_IF_STATS_SHADOW_TAIL_IDX_S)); \
4944     } while (0)
4945 
4946 /* DWORD lwm_thresh__hwm_thresh */
4947 #define HTT_RING_IF_STATS_LWM_THRESHOLD_M 0x0000ffff
4948 #define HTT_RING_IF_STATS_LWM_THRESHOLD_S 0
4949 
4950 #define HTT_RING_IF_STATS_HWM_THRESHOLD_M 0xffff0000
4951 #define HTT_RING_IF_STATS_HWM_THRESHOLD_S 16
4952 
4953 #define HTT_RING_IF_STATS_LWM_THRESHOLD_GET(_var) \
4954     (((_var) & HTT_RING_IF_STATS_LWM_THRESHOLD_M) >> \
4955      HTT_RING_IF_STATS_LWM_THRESHOLD_S)
4956 
4957 #define HTT_RING_IF_STATS_LWM_THRESHOLD_SET(_var, _val) \
4958     do { \
4959         HTT_CHECK_SET_VAL(HTT_RING_IF_STATS_LWM_THRESHOLD, _val); \
4960         ((_var) |= ((_val) << HTT_RING_IF_STATS_LWM_THRESHOLD_S)); \
4961     } while (0)
4962 
4963 #define HTT_RING_IF_STATS_HWM_THRESHOLD_GET(_var) \
4964     (((_var) & HTT_RING_IF_STATS_HWM_THRESHOLD_M) >> \
4965      HTT_RING_IF_STATS_HWM_THRESHOLD_S)
4966 
4967 #define HTT_RING_IF_STATS_HWM_THRESHOLD_SET(_var, _val) \
4968     do { \
4969         HTT_CHECK_SET_VAL(HTT_RING_IF_STATS_HWM_THRESHOLD, _val); \
4970         ((_var) |= ((_val) << HTT_RING_IF_STATS_HWM_THRESHOLD_S)); \
4971     } while (0)
4972 
4973 #define HTT_STATS_LOW_WM_BINS 5
4974 #define HTT_STATS_HIGH_WM_BINS 5
4975 
4976 typedef struct {
4977     /** DWORD aligned base memory address of the ring */
4978     A_UINT32 base_addr;
4979 
4980     /** size of each ring element */
4981     A_UINT32 elem_size;
4982 
4983     /**
4984      * BIT [15 :  0]   :- num_elems
4985      * BIT [31 : 16]   :- prefetch_tail_idx
4986      */
4987     A_UINT32 num_elems__prefetch_tail_idx;
4988     /**
4989      * BIT [15 :  0]   :- head_idx
4990      * BIT [31 : 16]   :- tail_idx
4991      */
4992     A_UINT32 head_idx__tail_idx;
4993     /**
4994      * BIT [15 :  0]   :- shadow_head_idx
4995      * BIT [31 : 16]   :- shadow_tail_idx
4996      */
4997     A_UINT32 shadow_head_idx__shadow_tail_idx;
4998     A_UINT32 num_tail_incr;
4999     /**
5000      * BIT [15 :  0]   :- lwm_thresh
5001      * BIT [31 : 16]   :- hwm_thresh
5002      */
5003     A_UINT32 lwm_thresh__hwm_thresh;
5004     A_UINT32 overrun_hit_count;
5005     A_UINT32 underrun_hit_count;
5006     A_UINT32 prod_blockwait_count;
5007     A_UINT32 cons_blockwait_count;
5008     A_UINT32 low_wm_hit_count[HTT_STATS_LOW_WM_BINS];
5009     A_UINT32 high_wm_hit_count[HTT_STATS_HIGH_WM_BINS];
5010 } htt_stats_ring_if_tlv;
5011 /* preserve old name alias for new name consistent with the tag name */
5012 typedef htt_stats_ring_if_tlv htt_ring_if_stats_tlv;
5013 
5014 #define HTT_RING_IF_CMN_MAC_ID_M 0x000000ff
5015 #define HTT_RING_IF_CMN_MAC_ID_S 0
5016 
5017 #define HTT_RING_IF_CMN_MAC_ID_GET(_var) \
5018     (((_var) & HTT_RING_IF_CMN_MAC_ID_M) >> \
5019      HTT_RING_IF_CMN_MAC_ID_S)
5020 
5021 #define HTT_RING_IF_CMN_MAC_ID_SET(_var, _val) \
5022     do { \
5023         HTT_CHECK_SET_VAL(HTT_RING_IF_CMN_MAC_ID, _val); \
5024         ((_var) |= ((_val) << HTT_RING_IF_CMN_MAC_ID_S)); \
5025     } while (0)
5026 
5027 typedef struct {
5028     htt_tlv_hdr_t tlv_hdr;
5029 
5030     /**
5031      * BIT [ 7 :  0]   :- mac_id
5032      * BIT [31 :  8]   :- reserved
5033      */
5034     A_UINT32 mac_id__word;
5035     A_UINT32 num_records;
5036 } htt_stats_ring_if_cmn_tlv;
5037 /* preserve old name alias for new name consistent with the tag name */
5038 typedef htt_stats_ring_if_cmn_tlv htt_ring_if_cmn_tlv;
5039 
5040 /* STATS_TYPE : HTT_DBG_EXT_STATS_RING_IF_INFO
5041  * TLV_TAGS:
5042  *     - HTT_STATS_RING_IF_CMN_TAG
5043  *     - HTT_STATS_STRING_TAG
5044  *     - HTT_STATS_RING_IF_TAG
5045  */
5046 /* NOTE:
5047  * This structure is for documentation, and cannot be safely used directly.
5048  * Instead, use the constituent TLV structures to fill/parse.
5049  */
5050 #ifdef ATH_TARGET
5051 typedef struct {
5052     htt_stats_ring_if_cmn_tlv cmn_tlv;
5053     /** Variable based on the Number of records. */
5054     struct {
5055         htt_stats_string_tlv  ring_str_tlv;
5056         htt_stats_ring_if_tlv ring_tlv;
5057     } r[1];
5058 } htt_ring_if_stats_t;
5059 #endif /* ATH_TARGET */
5060 
5061 /* == SFM STATS == */
5062 
5063 #define HTT_SFM_CLIENT_USER_TLV_SZ(_num_elems) (sizeof(A_UINT32) * (_num_elems))
5064 
5065 /* NOTE: Variable length TLV, use length spec to infer array size */
5066 typedef struct {
5067     htt_tlv_hdr_t tlv_hdr;
5068     /** Number of DWORDS used per user and per client */
5069     HTT_STATS_VAR_LEN_ARRAY1(A_UINT32, dwords_used_by_user_n);
5070 } htt_stats_sfm_client_user_tlv;
5071 /* preserve old name alias for new name consistent with the tag name */
5072 typedef htt_stats_sfm_client_user_tlv htt_sfm_client_user_tlv_v;
5073 
5074 typedef struct  {
5075     htt_tlv_hdr_t tlv_hdr;
5076     /** Client ID */
5077     A_UINT32 client_id;
5078     /** Minimum number of buffers */
5079     A_UINT32 buf_min;
5080     /** Maximum number of buffers */
5081     A_UINT32 buf_max;
5082     /** Number of Busy buffers */
5083     A_UINT32 buf_busy;
5084     /** Number of Allocated buffers */
5085     A_UINT32 buf_alloc;
5086     /** Number of Available/Usable buffers */
5087     A_UINT32 buf_avail;
5088     /** Number of users */
5089     A_UINT32 num_users;
5090 } htt_stats_sfm_client_tlv;
5091 /* preserve old name alias for new name consistent with the tag name */
5092 typedef htt_stats_sfm_client_tlv htt_sfm_client_tlv;
5093 
5094 #define HTT_SFM_CMN_MAC_ID_M 0x000000ff
5095 #define HTT_SFM_CMN_MAC_ID_S 0
5096 
5097 #define HTT_SFM_CMN_MAC_ID_GET(_var) \
5098     (((_var) & HTT_SFM_CMN_MAC_ID_M) >> \
5099      HTT_SFM_CMN_MAC_ID_S)
5100 
5101 #define HTT_SFM_CMN_MAC_ID_SET(_var, _val) \
5102     do { \
5103         HTT_CHECK_SET_VAL(HTT_SFM_CMN_MAC_ID, _val); \
5104         ((_var) |= ((_val) << HTT_SFM_CMN_MAC_ID_S)); \
5105     } while (0)
5106 
5107 typedef struct {
5108     htt_tlv_hdr_t tlv_hdr;
5109 
5110     /**
5111      * BIT [ 7 :  0]   :- mac_id
5112      * BIT [31 :  8]   :- reserved
5113      */
5114     A_UINT32 mac_id__word;
5115     /**
5116      * Indicates the total number of 128 byte buffers in the CMEM
5117      * that are available for buffer sharing
5118      */
5119     A_UINT32 buf_total;
5120     /**
5121      * Indicates for certain client or all the clients there is no
5122      * dword saved in SFM, refer to SFM_R1_MEM_EMPTY
5123      */
5124     A_UINT32 mem_empty;
5125     /** DEALLOCATE_BUFFERS, refer to register SFM_R0_DEALLOCATE_BUFFERS */
5126     A_UINT32 deallocate_bufs;
5127     /** Number of Records */
5128     A_UINT32 num_records;
5129 } htt_stats_sfm_cmn_tlv;
5130 /* preserve old name alias for new name consistent with the tag name */
5131 typedef htt_stats_sfm_cmn_tlv htt_sfm_cmn_tlv;
5132 
5133 /* STATS_TYPE : HTT_DBG_EXT_STATS_RING_IF_INFO
5134  * TLV_TAGS:
5135  *    - HTT_STATS_SFM_CMN_TAG
5136  *    - HTT_STATS_STRING_TAG
5137  *    - HTT_STATS_SFM_CLIENT_TAG
5138  *    - HTT_STATS_SFM_CLIENT_USER_TAG
5139  */
5140 /* NOTE:
5141  * This structure is for documentation, and cannot be safely used directly.
5142  * Instead, use the constituent TLV structures to fill/parse.
5143  */
5144 #ifdef ATH_TARGET
5145 typedef struct {
5146     htt_stats_sfm_cmn_tlv cmn_tlv;
5147     /** Variable based on the Number of records. */
5148     struct {
5149         htt_stats_string_tlv          client_str_tlv;
5150         htt_stats_sfm_client_tlv      client_tlv;
5151         htt_stats_sfm_client_user_tlv user_tlv;
5152     } r[1];
5153 } htt_sfm_stats_t;
5154 #endif /* ATH_TARGET */
5155 
5156 /* == SRNG STATS == */
5157 /* DWORD mac_id__ring_id__arena__ep */
5158 #define HTT_SRING_STATS_MAC_ID_M 0x000000ff
5159 #define HTT_SRING_STATS_MAC_ID_S 0
5160 
5161 #define HTT_SRING_STATS_RING_ID_M 0x0000ff00
5162 #define HTT_SRING_STATS_RING_ID_S 8
5163 
5164 #define HTT_SRING_STATS_ARENA_M 0x00ff0000
5165 #define HTT_SRING_STATS_ARENA_S 16
5166 
5167 #define HTT_SRING_STATS_EP_TYPE_M 0x01000000
5168 #define HTT_SRING_STATS_EP_TYPE_S 24
5169 
5170 #define HTT_SRING_STATS_MAC_ID_GET(_var) \
5171     (((_var) & HTT_SRING_STATS_MAC_ID_M) >> \
5172      HTT_SRING_STATS_MAC_ID_S)
5173 
5174 #define HTT_SRING_STATS_MAC_ID_SET(_var, _val) \
5175     do { \
5176         HTT_CHECK_SET_VAL(HTT_SRING_STATS_MAC_ID, _val); \
5177         ((_var) |= ((_val) << HTT_SRING_STATS_MAC_ID_S)); \
5178     } while (0)
5179 
5180 #define HTT_SRING_STATS_RING_ID_GET(_var) \
5181     (((_var) & HTT_SRING_STATS_RING_ID_M) >> \
5182      HTT_SRING_STATS_RING_ID_S)
5183 
5184 #define HTT_SRING_STATS_RING_ID_SET(_var, _val) \
5185     do { \
5186         HTT_CHECK_SET_VAL(HTT_SRING_STATS_RING_ID, _val); \
5187         ((_var) |= ((_val) << HTT_SRING_STATS_RING_ID_S)); \
5188     } while (0)
5189 
5190 #define HTT_SRING_STATS_ARENA_GET(_var) \
5191     (((_var) & HTT_SRING_STATS_ARENA_M) >> \
5192      HTT_SRING_STATS_ARENA_S)
5193 
5194 #define HTT_SRING_STATS_ARENA_SET(_var, _val) \
5195     do { \
5196         HTT_CHECK_SET_VAL(HTT_SRING_STATS_ARENA, _val); \
5197         ((_var) |= ((_val) << HTT_SRING_STATS_ARENA_S)); \
5198     } while (0)
5199 
5200 #define HTT_SRING_STATS_EP_TYPE_GET(_var) \
5201     (((_var) & HTT_SRING_STATS_EP_TYPE_M) >> \
5202      HTT_SRING_STATS_EP_TYPE_S)
5203 
5204 #define HTT_SRING_STATS_EP_TYPE_SET(_var, _val) \
5205     do { \
5206         HTT_CHECK_SET_VAL(HTT_SRING_STATS_EP_TYPE, _val); \
5207         ((_var) |= ((_val) << HTT_SRING_STATS_EP_TYPE_S)); \
5208     } while (0)
5209 
5210 /* DWORD num_avail_words__num_valid_words */
5211 #define HTT_SRING_STATS_NUM_AVAIL_WORDS_M 0x0000ffff
5212 #define HTT_SRING_STATS_NUM_AVAIL_WORDS_S 0
5213 
5214 #define HTT_SRING_STATS_NUM_VALID_WORDS_M 0xffff0000
5215 #define HTT_SRING_STATS_NUM_VALID_WORDS_S 16
5216 
5217 #define HTT_SRING_STATS_NUM_AVAIL_WORDS_GET(_var) \
5218     (((_var) & HTT_SRING_STATS_NUM_AVAIL_WORDS_M) >> \
5219      HTT_SRING_STATS_NUM_AVAIL_WORDS_S)
5220 
5221 #define HTT_SRING_STATS_NUM_AVAIL_WORDS_SET(_var, _val) \
5222     do { \
5223         HTT_CHECK_SET_VAL(HTT_SRING_STATS_NUM_AVAIL_WORDS, _val); \
5224         ((_var) |= ((_val) << HTT_SRING_STATS_NUM_AVAIL_WORDS_S)); \
5225     } while (0)
5226 
5227 #define HTT_SRING_STATS_NUM_VALID_WORDS_GET(_var) \
5228     (((_var) & HTT_SRING_STATS_NUM_VALID_WORDS_M) >> \
5229      HTT_SRING_STATS_NUM_VALID_WORDS_S)
5230 
5231 #define HTT_SRING_STATS_NUM_VALID_WORDS_SET(_var, _val) \
5232     do { \
5233         HTT_CHECK_SET_VAL(HTT_SRING_STATS_NUM_VALID_WORDS, _val); \
5234         ((_var) |= ((_val) << HTT_SRING_STATS_NUM_VALID_WORDS_S)); \
5235     } while (0)
5236 
5237 /* DWORD head_ptr__tail_ptr */
5238 #define HTT_SRING_STATS_HEAD_PTR_M 0x0000ffff
5239 #define HTT_SRING_STATS_HEAD_PTR_S 0
5240 
5241 #define HTT_SRING_STATS_TAIL_PTR_M 0xffff0000
5242 #define HTT_SRING_STATS_TAIL_PTR_S 16
5243 
5244 #define HTT_SRING_STATS_HEAD_PTR_GET(_var) \
5245     (((_var) & HTT_SRING_STATS_HEAD_PTR_M) >> \
5246      HTT_SRING_STATS_HEAD_PTR_S)
5247 
5248 #define HTT_SRING_STATS_HEAD_PTR_SET(_var, _val) \
5249     do { \
5250         HTT_CHECK_SET_VAL(HTT_SRING_STATS_HEAD_PTR, _val); \
5251         ((_var) |= ((_val) << HTT_SRING_STATS_HEAD_PTR_S)); \
5252     } while (0)
5253 
5254 #define HTT_SRING_STATS_TAIL_PTR_GET(_var) \
5255     (((_var) & HTT_SRING_STATS_TAIL_PTR_M) >> \
5256      HTT_SRING_STATS_TAIL_PTR_S)
5257 
5258 #define HTT_SRING_STATS_TAIL_PTR_SET(_var, _val) \
5259     do { \
5260         HTT_CHECK_SET_VAL(HTT_SRING_STATS_TAIL_PTR, _val); \
5261         ((_var) |= ((_val) << HTT_SRING_STATS_TAIL_PTR_S)); \
5262     } while (0)
5263 
5264 /* DWORD consumer_empty__producer_full */
5265 #define HTT_SRING_STATS_CONSUMER_EMPTY_M 0x0000ffff
5266 #define HTT_SRING_STATS_CONSUMER_EMPTY_S 0
5267 
5268 #define HTT_SRING_STATS_PRODUCER_FULL_M 0xffff0000
5269 #define HTT_SRING_STATS_PRODUCER_FULL_S 16
5270 
5271 #define HTT_SRING_STATS_CONSUMER_EMPTY_GET(_var) \
5272     (((_var) & HTT_SRING_STATS_CONSUMER_EMPTY_M) >> \
5273      HTT_SRING_STATS_CONSUMER_EMPTY_S)
5274 
5275 #define HTT_SRING_STATS_CONSUMER_EMPTY_SET(_var, _val) \
5276     do { \
5277         HTT_CHECK_SET_VAL(HTT_SRING_STATS_CONSUMER_EMPTY, _val); \
5278         ((_var) |= ((_val) << HTT_SRING_STATS_CONSUMER_EMPTY_S)); \
5279     } while (0)
5280 
5281 #define HTT_SRING_STATS_PRODUCER_FULL_GET(_var) \
5282     (((_var) & HTT_SRING_STATS_PRODUCER_FULL_M) >> \
5283      HTT_SRING_STATS_PRODUCER_FULL_S)
5284 
5285 #define HTT_SRING_STATS_PRODUCER_FULL_SET(_var, _val) \
5286     do { \
5287         HTT_CHECK_SET_VAL(HTT_SRING_STATS_PRODUCER_FULL, _val); \
5288         ((_var) |= ((_val) << HTT_SRING_STATS_PRODUCER_FULL_S)); \
5289     } while (0)
5290 
5291 /* DWORD prefetch_count__internal_tail_ptr */
5292 #define HTT_SRING_STATS_PREFETCH_COUNT_M 0x0000ffff
5293 #define HTT_SRING_STATS_PREFETCH_COUNT_S 0
5294 
5295 #define HTT_SRING_STATS_INTERNAL_TP_M 0xffff0000
5296 #define HTT_SRING_STATS_INTERNAL_TP_S 16
5297 
5298 #define HTT_SRING_STATS_PREFETCH_COUNT_GET(_var) \
5299     (((_var) & HTT_SRING_STATS_PREFETCH_COUNT_M) >> \
5300      HTT_SRING_STATS_PREFETCH_COUNT_S)
5301 
5302 #define HTT_SRING_STATS_PREFETCH_COUNT_SET(_var, _val) \
5303     do { \
5304         HTT_CHECK_SET_VAL(HTT_SRING_STATS_PREFETCH_COUNT, _val); \
5305         ((_var) |= ((_val) << HTT_SRING_STATS_PREFETCH_COUNT_S)); \
5306     } while (0)
5307 
5308 #define HTT_SRING_STATS_INTERNAL_TP_GET(_var) \
5309     (((_var) & HTT_SRING_STATS_INTERNAL_TP_M) >> \
5310      HTT_SRING_STATS_INTERNAL_TP_S)
5311 
5312 #define HTT_SRING_STATS_INTERNAL_TP_SET(_var, _val) \
5313     do { \
5314         HTT_CHECK_SET_VAL(HTT_SRING_STATS_INTERNAL_TP, _val); \
5315         ((_var) |= ((_val) << HTT_SRING_STATS_INTERNAL_TP_S)); \
5316     } while (0)
5317 
5318 typedef struct {
5319     htt_tlv_hdr_t tlv_hdr;
5320 
5321     /**
5322      * BIT [ 7 :  0]   :- mac_id
5323      * BIT [15 :  8]   :- ring_id
5324      * BIT [23 : 16]   :- arena 0 -SRING_HRAM, 1 - SRING_HCRAM, 2 - SRING_HW2HW.
5325      * BIT [24 : 24]   :- EP 0 -consumer, 1 - producer
5326      * BIT [31 : 25]   :- reserved
5327      */
5328     A_UINT32 mac_id__ring_id__arena__ep;
5329     /** DWORD aligned base memory address of the ring */
5330     A_UINT32 base_addr_lsb;
5331     A_UINT32 base_addr_msb;
5332     /** size of ring */
5333     A_UINT32 ring_size;
5334     /** size of each ring element */
5335     A_UINT32 elem_size;
5336 
5337     /** Ring status
5338      *
5339      * BIT [15 :  0]   :- num_avail_words
5340      * BIT [31 : 16]   :- num_valid_words
5341      */
5342     A_UINT32 num_avail_words__num_valid_words;
5343 
5344     /** Index of head and tail
5345      * BIT [15 :  0]   :- head_ptr
5346      * BIT [31 : 16]   :- tail_ptr
5347      */
5348     A_UINT32 head_ptr__tail_ptr;
5349 
5350     /** Empty or full counter of rings
5351      * BIT [15 :  0]   :- consumer_empty
5352      * BIT [31 : 16]   :- producer_full
5353      */
5354     A_UINT32 consumer_empty__producer_full;
5355 
5356     /** Prefetch status of consumer ring
5357      * BIT [15 :  0]   :- prefetch_count
5358      * BIT [31 : 16]   :- internal_tail_ptr
5359      */
5360     A_UINT32 prefetch_count__internal_tail_ptr;
5361 } htt_stats_sring_stats_tlv;
5362 /* preserve old name alias for new name consistent with the tag name */
5363 typedef htt_stats_sring_stats_tlv htt_sring_stats_tlv;
5364 
5365 typedef struct {
5366     htt_tlv_hdr_t tlv_hdr;
5367     A_UINT32      num_records;
5368 } htt_stats_sring_cmn_tlv;
5369 /* preserve old name alias for new name consistent with the tag name */
5370 typedef htt_stats_sring_cmn_tlv htt_sring_cmn_tlv;
5371 
5372 /* STATS_TYPE : HTT_DBG_EXT_STATS_SRNG_INFO
5373  * TLV_TAGS:
5374  *     - HTT_STATS_SRING_CMN_TAG
5375  *     - HTT_STATS_STRING_TAG
5376  *     - HTT_STATS_SRING_STATS_TAG
5377  */
5378 /* NOTE:
5379  * This structure is for documentation, and cannot be safely used directly.
5380  * Instead, use the constituent TLV structures to fill/parse.
5381  */
5382 #ifdef ATH_TARGET
5383 typedef struct {
5384     htt_stats_sring_cmn_tlv cmn_tlv;
5385     /** Variable based on the Number of records */
5386     struct {
5387         htt_stats_string_tlv sring_str_tlv;
5388         htt_stats_sring_stats_tlv sring_stats_tlv;
5389     } r[1];
5390 } htt_sring_stats_t;
5391 #endif /* ATH_TARGET */
5392 
5393 /* == PDEV TX RATE CTRL STATS == */
5394 
5395 #define HTT_TX_PDEV_STATS_NUM_MCS_COUNTERS 12 /* 0-11 */
5396 #define HTT_TX_PDEV_STATS_NUM_EXTRA_MCS_COUNTERS 2 /* 12, 13 */
5397 #define HTT_TX_PDEV_STATS_NUM_EXTRA2_MCS_COUNTERS 2 /* 14, 15 */
5398 #define HTT_TX_PDEV_STATS_NUM_GI_COUNTERS 4
5399 #define HTT_TX_PDEV_STATS_NUM_DCM_COUNTERS 5
5400 #define HTT_TX_PDEV_STATS_NUM_BW_COUNTERS 4
5401 #define HTT_TX_PDEV_STATS_NUM_SPATIAL_STREAMS 8
5402 #define HTT_TX_PDEV_STATS_NUM_PREAMBLE_TYPES HTT_STATS_PREAM_COUNT
5403 #define HTT_TX_PDEV_STATS_NUM_LEGACY_CCK_STATS 4
5404 #define HTT_TX_PDEV_STATS_NUM_LEGACY_OFDM_STATS 8
5405 #define HTT_TX_PDEV_STATS_NUM_LTF 4
5406 #define HTT_TX_PDEV_STATS_NUM_11AX_TRIGGER_TYPES 6
5407 #define HTT_TX_PDEV_STATS_NUM_11BE_TRIGGER_TYPES 6
5408 #define HTT_TX_NUM_OF_SOUNDING_STATS_WORDS \
5409     (HTT_TX_PDEV_STATS_NUM_BW_COUNTERS * \
5410      HTT_TX_PDEV_STATS_NUM_AX_MUMIMO_USER_STATS)
5411 
5412 #define HTT_TX_PDEV_RATE_STATS_MAC_ID_M 0x000000ff
5413 #define HTT_TX_PDEV_RATE_STATS_MAC_ID_S 0
5414 
5415 #define HTT_TX_PDEV_RATE_STATS_MAC_ID_GET(_var) \
5416     (((_var) & HTT_TX_PDEV_RATE_STATS_MAC_ID_M) >> \
5417      HTT_TX_PDEV_RATE_STATS_MAC_ID_S)
5418 
5419 #define HTT_TX_PDEV_RATE_STATS_MAC_ID_SET(_var, _val) \
5420     do { \
5421         HTT_CHECK_SET_VAL(HTT_TX_PDEV_RATE_STATS_MAC_ID, _val); \
5422         ((_var) |= ((_val) << HTT_TX_PDEV_RATE_STATS_MAC_ID_S)); \
5423     } while (0)
5424 
5425 #define HTT_TX_PDEV_STATS_NUM_MCS_DROP_COUNTERS \
5426     (HTT_TX_PDEV_STATS_NUM_MCS_COUNTERS + \
5427      HTT_TX_PDEV_STATS_NUM_EXTRA_MCS_COUNTERS + \
5428      HTT_TX_PDEV_STATS_NUM_EXTRA2_MCS_COUNTERS)
5429 
5430 #define HTT_TX_PDEV_STATS_NUM_PER_COUNTERS 101
5431 #define HTT_MAX_POWER_LEVEL 32 /* 0 to 32 dBm */
5432 #define HTT_MAX_NEGATIVE_POWER_LEVEL 10 /* 0 to -10 dBm */
5433 
5434 /*
5435  * Introduce new TX counters to support 320MHz support and punctured modes
5436  */
5437 typedef enum {
5438     HTT_TX_PDEV_STATS_PUNCTURED_NONE = 0,
5439     HTT_TX_PDEV_STATS_PUNCTURED_20 = 1,
5440     HTT_TX_PDEV_STATS_PUNCTURED_40 = 2,
5441     HTT_TX_PDEV_STATS_PUNCTURED_80 = 3,
5442     HTT_TX_PDEV_STATS_PUNCTURED_120 = 4,
5443     HTT_TX_PDEV_STATS_NUM_PUNCTURED_MODE_COUNTERS = 5
5444 } HTT_TX_PDEV_STATS_NUM_PUNCTURED_MODE_TYPE;
5445 
5446 #define HTT_TX_PDEV_STATS_NUM_REDUCED_CHAN_TYPES 2 /* 0 - Half, 1 - Quarter */
5447 /* 11be related updates */
5448 #define HTT_TX_PDEV_STATS_NUM_BE_MCS_COUNTERS 16 /* 0...13,-2,-1 */
5449 #define HTT_TX_PDEV_STATS_NUM_BE_BW_COUNTERS  5  /* 20,40,80,160,320 MHz */
5450 
5451 #define HTT_TX_PDEV_STATS_NUM_HE_SIG_B_MCS_COUNTERS 6
5452 #define HTT_TX_PDEV_STATS_NUM_EHT_SIG_MCS_COUNTERS 4
5453 
5454 typedef enum {
5455     HTT_TX_PDEV_STATS_AX_RU_SIZE_26,
5456     HTT_TX_PDEV_STATS_AX_RU_SIZE_52,
5457     HTT_TX_PDEV_STATS_AX_RU_SIZE_106,
5458     HTT_TX_PDEV_STATS_AX_RU_SIZE_242,
5459     HTT_TX_PDEV_STATS_AX_RU_SIZE_484,
5460     HTT_TX_PDEV_STATS_AX_RU_SIZE_996,
5461     HTT_TX_PDEV_STATS_AX_RU_SIZE_996x2,
5462     HTT_TX_PDEV_STATS_NUM_AX_RU_SIZE_COUNTERS,
5463 } HTT_TX_PDEV_STATS_AX_RU_SIZE;
5464 
5465 typedef enum {
5466     HTT_TX_PDEV_STATS_BE_RU_SIZE_26,
5467     HTT_TX_PDEV_STATS_BE_RU_SIZE_52,
5468     HTT_TX_PDEV_STATS_BE_RU_SIZE_52_26,
5469     HTT_TX_PDEV_STATS_BE_RU_SIZE_106,
5470     HTT_TX_PDEV_STATS_BE_RU_SIZE_106_26,
5471     HTT_TX_PDEV_STATS_BE_RU_SIZE_242,
5472     HTT_TX_PDEV_STATS_BE_RU_SIZE_484,
5473     HTT_TX_PDEV_STATS_BE_RU_SIZE_484_242,
5474     HTT_TX_PDEV_STATS_BE_RU_SIZE_996,
5475     HTT_TX_PDEV_STATS_BE_RU_SIZE_996_484,
5476     HTT_TX_PDEV_STATS_BE_RU_SIZE_996_484_242,
5477     HTT_TX_PDEV_STATS_BE_RU_SIZE_996x2,
5478     HTT_TX_PDEV_STATS_BE_RU_SIZE_996x2_484,
5479     HTT_TX_PDEV_STATS_BE_RU_SIZE_996x3,
5480     HTT_TX_PDEV_STATS_BE_RU_SIZE_996x3_484,
5481     HTT_TX_PDEV_STATS_BE_RU_SIZE_996x4,
5482     HTT_TX_PDEV_STATS_NUM_BE_RU_SIZE_COUNTERS,
5483 } HTT_TX_PDEV_STATS_BE_RU_SIZE;
5484 
5485 typedef struct {
5486     htt_tlv_hdr_t tlv_hdr;
5487 
5488     /**
5489      * BIT [ 7 :  0]   :- mac_id
5490      * BIT [31 :  8]   :- reserved
5491      */
5492     A_UINT32 mac_id__word;
5493     /** Number of tx ldpc packets */
5494     A_UINT32 tx_ldpc;
5495     /** Number of tx rts packets */
5496     A_UINT32 rts_cnt;
5497     /** RSSI value of last ack packet (units = dB above noise floor) */
5498     A_UINT32 ack_rssi;
5499 
5500     A_UINT32 tx_mcs[HTT_TX_PDEV_STATS_NUM_MCS_COUNTERS];
5501 
5502     /** tx_xx_mcs: currently unused */
5503     A_UINT32 tx_su_mcs[HTT_TX_PDEV_STATS_NUM_MCS_COUNTERS];
5504     A_UINT32 tx_mu_mcs[HTT_TX_PDEV_STATS_NUM_MCS_COUNTERS];
5505 
5506     /* element 0,1, ...7 -> NSS 1,2, ...8 */
5507     A_UINT32 tx_nss[HTT_TX_PDEV_STATS_NUM_SPATIAL_STREAMS];
5508     /* element 0: 20 MHz, 1: 40 MHz, 2: 80 MHz, 3: 160 and 80+80 MHz */
5509     A_UINT32 tx_bw[HTT_TX_PDEV_STATS_NUM_BW_COUNTERS];
5510     A_UINT32 tx_stbc[HTT_TX_PDEV_STATS_NUM_MCS_COUNTERS];
5511     A_UINT32 tx_pream[HTT_TX_PDEV_STATS_NUM_PREAMBLE_TYPES];
5512 
5513     /**
5514      * Counters to track number of tx packets in each GI
5515      * (400us, 800us, 1600us & 3200us) in each mcs (0-11)
5516      */
5517     A_UINT32 tx_gi[HTT_TX_PDEV_STATS_NUM_GI_COUNTERS][HTT_TX_PDEV_STATS_NUM_MCS_COUNTERS];
5518 
5519     /** Counters to track packets in dcm mcs (MCS 0, 1, 3, 4) */
5520     A_UINT32 tx_dcm[HTT_TX_PDEV_STATS_NUM_DCM_COUNTERS];
5521     /** Number of CTS-acknowledged RTS packets */
5522     A_UINT32 rts_success;
5523 
5524     /**
5525      * Counters for legacy 11a and 11b transmissions.
5526      *
5527      * The index corresponds to:
5528      *
5529      * CCK: 0: 1 Mbps, 1: 2 Mbps, 2: 5.5 Mbps, 3: 11 Mbps
5530      *
5531      * OFDM: 0: 6 Mbps, 1: 9 Mbps, 2: 12 Mbps, 3: 18 Mbps,
5532      *       4: 24 Mbps, 5: 36 Mbps, 6: 48 Mbps, 7: 54 Mbps
5533      */
5534     A_UINT32 tx_legacy_cck_rate[HTT_TX_PDEV_STATS_NUM_LEGACY_CCK_STATS];
5535     A_UINT32 tx_legacy_ofdm_rate[HTT_TX_PDEV_STATS_NUM_LEGACY_OFDM_STATS];
5536 
5537     /** 11AC VHT DL MU MIMO LDPC count */
5538     A_UINT32 ac_mu_mimo_tx_ldpc;
5539     /** 11AX HE DL MU MIMO LDPC count */
5540     A_UINT32 ax_mu_mimo_tx_ldpc;
5541     /** 11AX HE DL MU OFDMA LDPC count */
5542     A_UINT32 ofdma_tx_ldpc;
5543 
5544     /**
5545      * Counters for 11ax HE LTF selection during TX.
5546      *
5547      * The index corresponds to:
5548      *
5549      * 0: unused, 1: 1x LTF, 2: 2x LTF, 3: 4x LTF
5550      */
5551     A_UINT32 tx_he_ltf[HTT_TX_PDEV_STATS_NUM_LTF];
5552 
5553     /** 11AC VHT DL MU MIMO TX MCS stats */
5554     A_UINT32 ac_mu_mimo_tx_mcs[HTT_TX_PDEV_STATS_NUM_MCS_COUNTERS];
5555     /** 11AX HE DL MU MIMO TX MCS stats */
5556     A_UINT32 ax_mu_mimo_tx_mcs[HTT_TX_PDEV_STATS_NUM_MCS_COUNTERS];
5557     /** 11AX HE DL MU OFDMA TX MCS stats */
5558     A_UINT32 ofdma_tx_mcs[HTT_TX_PDEV_STATS_NUM_MCS_COUNTERS];
5559 
5560     /** 11AC VHT DL MU MIMO TX NSS stats (Indicates NSS for individual users) */
5561     A_UINT32 ac_mu_mimo_tx_nss[HTT_TX_PDEV_STATS_NUM_SPATIAL_STREAMS];
5562     /** 11AX HE DL MU MIMO TX NSS stats (Indicates NSS for individual users) */
5563     A_UINT32 ax_mu_mimo_tx_nss[HTT_TX_PDEV_STATS_NUM_SPATIAL_STREAMS];
5564     /** 11AX HE DL MU OFDMA TX NSS stats (Indicates NSS for individual users) */
5565     A_UINT32 ofdma_tx_nss[HTT_TX_PDEV_STATS_NUM_SPATIAL_STREAMS];
5566 
5567     /** 11AC VHT DL MU MIMO TX BW stats */
5568     A_UINT32 ac_mu_mimo_tx_bw[HTT_TX_PDEV_STATS_NUM_BW_COUNTERS];
5569     /** 11AX HE DL MU MIMO TX BW stats */
5570     A_UINT32 ax_mu_mimo_tx_bw[HTT_TX_PDEV_STATS_NUM_BW_COUNTERS];
5571     /** 11AX HE DL MU OFDMA TX BW stats */
5572     A_UINT32 ofdma_tx_bw[HTT_TX_PDEV_STATS_NUM_BW_COUNTERS];
5573 
5574     /** 11AC VHT DL MU MIMO TX guard interval stats */
5575     A_UINT32 ac_mu_mimo_tx_gi[HTT_TX_PDEV_STATS_NUM_GI_COUNTERS][HTT_TX_PDEV_STATS_NUM_MCS_COUNTERS];
5576     /** 11AX HE DL MU MIMO TX guard interval stats */
5577     A_UINT32 ax_mu_mimo_tx_gi[HTT_TX_PDEV_STATS_NUM_GI_COUNTERS][HTT_TX_PDEV_STATS_NUM_MCS_COUNTERS];
5578     /** 11AX HE DL MU OFDMA TX guard interval stats */
5579     A_UINT32 ofdma_tx_gi[HTT_TX_PDEV_STATS_NUM_GI_COUNTERS][HTT_TX_PDEV_STATS_NUM_MCS_COUNTERS];
5580     A_UINT32 trigger_type_11ax[HTT_TX_PDEV_STATS_NUM_11AX_TRIGGER_TYPES];
5581     A_UINT32 tx_11ax_su_ext;
5582 
5583     /* Stats for MCS 12/13 */
5584     A_UINT32 tx_mcs_ext[HTT_TX_PDEV_STATS_NUM_EXTRA_MCS_COUNTERS];
5585     A_UINT32 tx_stbc_ext[HTT_TX_PDEV_STATS_NUM_EXTRA_MCS_COUNTERS];
5586     A_UINT32 tx_gi_ext[HTT_TX_PDEV_STATS_NUM_GI_COUNTERS][HTT_TX_PDEV_STATS_NUM_EXTRA_MCS_COUNTERS];
5587     /** 11AX VHT DL MU MIMO extended TX MCS stats for MCS 12/13 */
5588     A_UINT32 ax_mu_mimo_tx_mcs_ext[HTT_TX_PDEV_STATS_NUM_EXTRA_MCS_COUNTERS];
5589     /** 11AX VHT DL MU OFDMA extended TX MCS stats for MCS 12/13 */
5590     A_UINT32 ofdma_tx_mcs_ext[HTT_TX_PDEV_STATS_NUM_EXTRA_MCS_COUNTERS];
5591     /** 11AX VHT DL MU MIMO extended TX guard interval stats for MCS 12/13 */
5592     A_UINT32 ax_mu_mimo_tx_gi_ext[HTT_TX_PDEV_STATS_NUM_GI_COUNTERS][HTT_TX_PDEV_STATS_NUM_EXTRA_MCS_COUNTERS];
5593     /** 11AX VHT DL MU OFDMA extended TX guard interval stats for MCS 12/13 */
5594     A_UINT32 ofdma_tx_gi_ext[HTT_TX_PDEV_STATS_NUM_GI_COUNTERS][HTT_TX_PDEV_STATS_NUM_EXTRA_MCS_COUNTERS];
5595     /* Stats for MCS 14/15 */
5596     A_UINT32 tx_mcs_ext_2[HTT_TX_PDEV_STATS_NUM_EXTRA2_MCS_COUNTERS];
5597     A_UINT32 tx_bw_320mhz;
5598     A_UINT32 tx_gi_ext_2[HTT_TX_PDEV_STATS_NUM_GI_COUNTERS][HTT_TX_PDEV_STATS_NUM_EXTRA2_MCS_COUNTERS];
5599     A_UINT32 tx_su_punctured_mode[HTT_TX_PDEV_STATS_NUM_PUNCTURED_MODE_COUNTERS];
5600     A_UINT32 reduced_tx_bw[HTT_TX_PDEV_STATS_NUM_REDUCED_CHAN_TYPES][HTT_TX_PDEV_STATS_NUM_BW_COUNTERS];
5601     /** 11AC VHT DL MU MIMO TX BW stats at reduced channel config */
5602     A_UINT32 reduced_ac_mu_mimo_tx_bw[HTT_TX_PDEV_STATS_NUM_REDUCED_CHAN_TYPES][HTT_TX_PDEV_STATS_NUM_BW_COUNTERS];
5603     /** 11AX HE DL MU MIMO TX BW stats at reduced channel config */
5604     A_UINT32 reduced_ax_mu_mimo_tx_bw[HTT_TX_PDEV_STATS_NUM_REDUCED_CHAN_TYPES][HTT_TX_PDEV_STATS_NUM_BW_COUNTERS];
5605     /** 11AX HE DL MU OFDMA TX BW stats at reduced channel config */
5606     A_UINT32 reduced_ax_mu_ofdma_tx_bw[HTT_TX_PDEV_STATS_NUM_REDUCED_CHAN_TYPES][HTT_TX_PDEV_STATS_NUM_BW_COUNTERS];
5607     /** 11AX HE DL MU OFDMA TX RU Size stats */
5608     A_UINT32 ofdma_tx_ru_size[HTT_TX_PDEV_STATS_NUM_AX_RU_SIZE_COUNTERS];
5609     /** 11AX HE DL MU OFDMA HE-SIG-B MCS stats */
5610     A_UINT32 ofdma_he_sig_b_mcs[HTT_TX_PDEV_STATS_NUM_HE_SIG_B_MCS_COUNTERS];
5611     /** 11AX HE SU data + embedded trigger PPDU success stats (stats for HETP ack success PPDU cnt) */
5612     A_UINT32 ax_su_embedded_trigger_data_ppdu;
5613     /** 11AX HE SU data + embedded trigger PPDU failure stats (stats for HETP ack failure PPDU cnt) */
5614     A_UINT32 ax_su_embedded_trigger_data_ppdu_err;
5615     /** sta side trigger stats */
5616     A_UINT32 trigger_type_11be[HTT_TX_PDEV_STATS_NUM_11BE_TRIGGER_TYPES];
5617     /** Stats for Extra EHT LTF */
5618     A_UINT32 extra_eht_ltf;
5619     /** Counter for Extra EHT LTFs in OFDMA sequences */
5620     A_UINT32 extra_eht_ltf_ofdma;
5621     /** 11AX HE UL_BA RU Size stats */
5622     A_UINT32 ofdma_ba_ru_size[HTT_TX_PDEV_STATS_NUM_AX_RU_SIZE_COUNTERS];
5623 } htt_stats_tx_pdev_rate_stats_tlv;
5624 /* preserve old name alias for new name consistent with the tag name */
5625 typedef htt_stats_tx_pdev_rate_stats_tlv htt_tx_pdev_rate_stats_tlv;
5626 
5627 typedef struct {
5628      /* 11be mode pdev rate stats; placed in a separate TLV to adhere to size restrictions */
5629     htt_tlv_hdr_t tlv_hdr;
5630     /** 11BE EHT DL MU MIMO TX MCS stats */
5631     A_UINT32 be_mu_mimo_tx_mcs[HTT_TX_PDEV_STATS_NUM_BE_MCS_COUNTERS];
5632     /** 11BE EHT DL MU MIMO TX NSS stats (Indicates NSS for individual users) */
5633     A_UINT32 be_mu_mimo_tx_nss[HTT_TX_PDEV_STATS_NUM_SPATIAL_STREAMS];
5634     /** 11BE EHT DL MU MIMO TX BW stats */
5635     A_UINT32 be_mu_mimo_tx_bw[HTT_TX_PDEV_STATS_NUM_BE_BW_COUNTERS];
5636     /** 11BE EHT DL MU MIMO TX guard interval stats */
5637     A_UINT32 be_mu_mimo_tx_gi[HTT_TX_PDEV_STATS_NUM_GI_COUNTERS][HTT_TX_PDEV_STATS_NUM_BE_MCS_COUNTERS];
5638     /** 11BE DL MU MIMO LDPC count */
5639     A_UINT32 be_mu_mimo_tx_ldpc;
5640 } htt_stats_tx_pdev_be_rate_stats_tlv;
5641 /* preserve old name alias for new name consistent with the tag name */
5642 typedef htt_stats_tx_pdev_be_rate_stats_tlv htt_tx_pdev_rate_stats_be_tlv;
5643 
5644 typedef struct {
5645     /*
5646      * SAWF pdev rate stats;
5647      * placed in a separate TLV to adhere to size restrictions
5648      */
5649     htt_tlv_hdr_t tlv_hdr;
5650 
5651     /**
5652      * Counter incremented when MCS is dropped due to the successive retries
5653      * to a peer reaching the configured limit.
5654      */
5655     A_UINT32 rate_retry_mcs_drop_cnt;
5656 
5657     /**
5658      * histogram of MCS rate drop down, indexed by pre-drop MCS
5659      */
5660     A_UINT32 mcs_drop_rate[HTT_TX_PDEV_STATS_NUM_MCS_DROP_COUNTERS];
5661 
5662     /**
5663      * PPDU PER histogram - each PPDU has its PER computed,
5664      * and the bin corresponding to that PER percentage is incremented.
5665      */
5666     A_UINT32 per_histogram_cnt[HTT_TX_PDEV_STATS_NUM_PER_COUNTERS];
5667 
5668     /**
5669      * When the service class contains delay bound rate parameters which
5670      * indicate low latency and we enable latency-based RA params then
5671      * the low_latency_rate_count will be incremented.
5672      * This counts the number of peer-TIDs that have been categorized as
5673      * low-latency.
5674      */
5675     A_UINT32 low_latency_rate_cnt;
5676 
5677     /** Indicate how many times rate drop happened within SIFS burst */
5678     A_UINT32 su_burst_rate_drop_cnt;
5679 
5680     /** Indicates how many within SIFS burst failed to deliver any pkt */
5681     A_UINT32 su_burst_rate_drop_fail_cnt;
5682 } htt_stats_tx_pdev_sawf_rate_stats_tlv;
5683 /* preserve old name alias for new name consistent with the tag name */
5684 typedef htt_stats_tx_pdev_sawf_rate_stats_tlv htt_tx_pdev_rate_stats_sawf_tlv;
5685 
5686 typedef struct {
5687     htt_tlv_hdr_t tlv_hdr;
5688 
5689     /**
5690      * BIT [ 7 :  0]   :- mac_id
5691      * BIT [31 :  8]   :- reserved
5692      */
5693     A_UINT32 mac_id__word;
5694 
5695     /** 11BE EHT DL MU OFDMA LDPC count */
5696     A_UINT32 be_ofdma_tx_ldpc;
5697     /** 11BE EHT DL MU OFDMA TX MCS stats */
5698     A_UINT32 be_ofdma_tx_mcs[HTT_TX_PDEV_STATS_NUM_BE_MCS_COUNTERS];
5699     /**
5700      * 11BE EHT DL MU OFDMA TX NSS stats (Indicates NSS for individual users)
5701      */
5702     A_UINT32 be_ofdma_tx_nss[HTT_TX_PDEV_STATS_NUM_SPATIAL_STREAMS];
5703     /** 11BE EHT DL MU OFDMA TX BW stats */
5704     A_UINT32 be_ofdma_tx_bw[HTT_TX_PDEV_STATS_NUM_BE_BW_COUNTERS];
5705     /** 11BE EHT DL MU OFDMA TX guard interval stats */
5706     A_UINT32 be_ofdma_tx_gi[HTT_TX_PDEV_STATS_NUM_GI_COUNTERS][HTT_TX_PDEV_STATS_NUM_BE_MCS_COUNTERS];
5707     /** 11BE EHT DL MU OFDMA TX RU Size stats */
5708     A_UINT32 be_ofdma_tx_ru_size[HTT_TX_PDEV_STATS_NUM_BE_RU_SIZE_COUNTERS];
5709     /** 11BE EHT DL MU OFDMA EHT-SIG MCS stats */
5710     A_UINT32 be_ofdma_eht_sig_mcs[HTT_TX_PDEV_STATS_NUM_EHT_SIG_MCS_COUNTERS];
5711     A_UINT32 be_ofdma_ba_ru_size[HTT_TX_PDEV_STATS_NUM_BE_RU_SIZE_COUNTERS];
5712 } htt_stats_tx_pdev_rate_stats_be_ofdma_tlv;
5713 /* preserve old name alias for new name consistent with the tag name */
5714 typedef htt_stats_tx_pdev_rate_stats_be_ofdma_tlv
5715     htt_tx_pdev_rate_stats_be_ofdma_tlv;
5716 
5717 typedef struct {
5718     htt_tlv_hdr_t tlv_hdr;
5719     /** tx_ppdu_dur_hist:
5720      * Tx PPDU duration histogram, which holds the tx duration of PPDUs
5721      * under histogram bins of interval 250us
5722      */
5723     A_UINT32 tx_ppdu_dur_hist[HTT_PDEV_STATS_PPDU_DUR_HIST_BINS];
5724     A_UINT32 tx_success_time_us_low;
5725     A_UINT32 tx_success_time_us_high;
5726     A_UINT32 tx_fail_time_us_low;
5727     A_UINT32 tx_fail_time_us_high;
5728     A_UINT32 pdev_up_time_us_low;
5729     A_UINT32 pdev_up_time_us_high;
5730     /** tx_ofdma_ppdu_dur_hist:
5731      * Tx OFDMA PPDU duration histogram, which holds the tx duration of
5732      * OFDMA PPDUs under histogram bins of interval 250us
5733      */
5734     A_UINT32 tx_ofdma_ppdu_dur_hist[HTT_PDEV_STATS_PPDU_DUR_HIST_BINS];
5735 } htt_stats_tx_pdev_ppdu_dur_tlv;
5736 /* preserve old name alias for new name consistent with the tag name */
5737 typedef htt_stats_tx_pdev_ppdu_dur_tlv htt_tx_pdev_ppdu_dur_stats_tlv;
5738 
5739 /* STATS_TYPE : HTT_DBG_EXT_STATS_PDEV_TX_RATE
5740  * TLV_TAGS:
5741  *      - HTT_STATS_TX_PDEV_RATE_STATS_TAG
5742  */
5743 /* NOTE:
5744  * This structure is for documentation, and cannot be safely used directly.
5745  * Instead, use the constituent TLV structures to fill/parse.
5746  */
5747 #ifdef ATH_TARGET
5748 typedef struct {
5749     htt_stats_tx_pdev_rate_stats_tlv rate_tlv;
5750     htt_stats_tx_pdev_be_rate_stats_tlv rate_be_tlv;
5751     htt_stats_tx_pdev_sawf_rate_stats_tlv rate_sawf_tlv;
5752     htt_stats_tx_pdev_ppdu_dur_tlv tx_ppdu_dur_tlv;
5753 } htt_tx_pdev_rate_stats_t;
5754 #endif /* ATH_TARGET */
5755 
5756 /* == PDEV RX RATE CTRL STATS == */
5757 
5758 #define HTT_RX_PDEV_STATS_NUM_LEGACY_CCK_STATS 4
5759 #define HTT_RX_PDEV_STATS_NUM_LEGACY_OFDM_STATS 8
5760 #define HTT_RX_PDEV_STATS_NUM_MCS_COUNTERS 12 /* 0-11 */
5761 #define HTT_RX_PDEV_STATS_NUM_EXTRA_MCS_COUNTERS 2 /* 12, 13 */
5762 #define HTT_RX_PDEV_STATS_NUM_EXTRA2_MCS_COUNTERS 2 /* 14, 15 */
5763 #define HTT_RX_PDEV_STATS_NUM_MCS_COUNTERS_EXT 14 /* 0-13 */
5764 #define HTT_RX_PDEV_STATS_NUM_GI_COUNTERS 4
5765 #define HTT_RX_PDEV_STATS_NUM_DCM_COUNTERS 5
5766 #define HTT_RX_PDEV_STATS_NUM_BW_COUNTERS 4
5767 #define HTT_RX_PDEV_STATS_TOTAL_BW_COUNTERS \
5768     (HTT_RX_PDEV_STATS_NUM_BW_EXT_COUNTERS + HTT_RX_PDEV_STATS_NUM_BW_COUNTERS)
5769 #define HTT_RX_PDEV_STATS_NUM_BW_EXT2_COUNTERS 5 /* 20, 40, 80, 160, 320Mhz */
5770 #define HTT_RX_PDEV_STATS_NUM_SPATIAL_STREAMS 8
5771 #define HTT_RX_PDEV_STATS_ULMUMIMO_NUM_SPATIAL_STREAMS 8
5772 #define HTT_RX_PDEV_STATS_NUM_PREAMBLE_TYPES HTT_STATS_PREAM_COUNT
5773 #define HTT_RX_PDEV_MAX_OFDMA_NUM_USER 8
5774 #define HTT_RX_PDEV_MAX_ULMUMIMO_NUM_USER 8
5775 #define HTT_RX_PDEV_STATS_RXEVM_MAX_PILOTS_PER_NSS 16
5776 #define HTT_RX_PDEV_STATS_NUM_BE_MCS_COUNTERS 16 /* 0-13, -2, -1 */
5777 #define HTT_RX_PDEV_STATS_NUM_BE_BW_COUNTERS  5  /* 20,40,80,160,320 MHz */
5778 
5779 /* HTT_RX_PDEV_STATS_NUM_RU_SIZE_COUNTERS:
5780  * RU size index 0: HTT_UL_OFDMA_V0_RU_SIZE_RU_26
5781  * RU size index 1: HTT_UL_OFDMA_V0_RU_SIZE_RU_52
5782  * RU size index 2: HTT_UL_OFDMA_V0_RU_SIZE_RU_106
5783  * RU size index 3: HTT_UL_OFDMA_V0_RU_SIZE_RU_242
5784  * RU size index 4: HTT_UL_OFDMA_V0_RU_SIZE_RU_484
5785  * RU size index 5: HTT_UL_OFDMA_V0_RU_SIZE_RU_996
5786  */
5787 #define HTT_RX_PDEV_STATS_NUM_RU_SIZE_COUNTERS 6
5788 /* HTT_RX_PDEV_STATS_NUM_RU_SIZE_160MHZ_CNTRS:
5789  * RU size index 0: HTT_UL_OFDMA_V0_RU_SIZE_RU_26
5790  * RU size index 1: HTT_UL_OFDMA_V0_RU_SIZE_RU_52
5791  * RU size index 2: HTT_UL_OFDMA_V0_RU_SIZE_RU_106
5792  * RU size index 3: HTT_UL_OFDMA_V0_RU_SIZE_RU_242
5793  * RU size index 4: HTT_UL_OFDMA_V0_RU_SIZE_RU_484
5794  * RU size index 5: HTT_UL_OFDMA_V0_RU_SIZE_RU_996
5795  * RU size index 6: HTT_UL_OFDMA_V0_RU_SIZE_RU_996x2
5796  */
5797 #define HTT_RX_PDEV_STATS_NUM_RU_SIZE_160MHZ_CNTRS 7 /* includes 996x2 */
5798 
5799 typedef enum {
5800     HTT_RX_PDEV_STATS_BE_RU_SIZE_26,
5801     HTT_RX_PDEV_STATS_BE_RU_SIZE_52,
5802     HTT_RX_PDEV_STATS_BE_RU_SIZE_52_26,
5803     HTT_RX_PDEV_STATS_BE_RU_SIZE_106,
5804     HTT_RX_PDEV_STATS_BE_RU_SIZE_106_26,
5805     HTT_RX_PDEV_STATS_BE_RU_SIZE_242,
5806     HTT_RX_PDEV_STATS_BE_RU_SIZE_484,
5807     HTT_RX_PDEV_STATS_BE_RU_SIZE_484_242,
5808     HTT_RX_PDEV_STATS_BE_RU_SIZE_996,
5809     HTT_RX_PDEV_STATS_BE_RU_SIZE_996_484,
5810     HTT_RX_PDEV_STATS_BE_RU_SIZE_996_484_242,
5811     HTT_RX_PDEV_STATS_BE_RU_SIZE_996x2,
5812     HTT_RX_PDEV_STATS_BE_RU_SIZE_996x2_484,
5813     HTT_RX_PDEV_STATS_BE_RU_SIZE_996x3,
5814     HTT_RX_PDEV_STATS_BE_RU_SIZE_996x3_484,
5815     HTT_RX_PDEV_STATS_BE_RU_SIZE_996x4,
5816     HTT_RX_PDEV_STATS_NUM_BE_RU_SIZE_COUNTERS,
5817 } HTT_RX_PDEV_STATS_BE_RU_SIZE;
5818 
5819 #define HTT_RX_PDEV_RATE_STATS_MAC_ID_M 0x000000ff
5820 #define HTT_RX_PDEV_RATE_STATS_MAC_ID_S 0
5821 
5822 #define HTT_RX_PDEV_RATE_STATS_MAC_ID_GET(_var) \
5823     (((_var) & HTT_RX_PDEV_RATE_STATS_MAC_ID_M) >> \
5824      HTT_RX_PDEV_RATE_STATS_MAC_ID_S)
5825 
5826 #define HTT_RX_PDEV_RATE_STATS_MAC_ID_SET(_var, _val) \
5827     do { \
5828         HTT_CHECK_SET_VAL(HTT_RX_PDEV_RATE_STATS_MAC_ID, _val); \
5829         ((_var) |= ((_val) << HTT_RX_PDEV_RATE_STATS_MAC_ID_S)); \
5830     } while (0)
5831 
5832 /* Introduce new RX counters to support 320MHZ support and punctured modes */
5833 typedef enum {
5834     HTT_RX_PDEV_STATS_PUNCTURED_NONE = 0,
5835     HTT_RX_PDEV_STATS_PUNCTURED_20 = 1,
5836     HTT_RX_PDEV_STATS_PUNCTURED_40 = 2,
5837     HTT_RX_PDEV_STATS_PUNCTURED_80 = 3,
5838     HTT_RX_PDEV_STATS_PUNCTURED_120 = 4,
5839     HTT_RX_PDEV_STATS_NUM_PUNCTURED_MODE_COUNTERS = 5
5840 } HTT_RX_PDEV_STATS_NUM_PUNCTURED_MODE_TYPE;
5841 
5842 #define HTT_RX_PDEV_STATS_NUM_REDUCED_CHAN_TYPES 2 /* 0 - Half, 1 - Quarter */
5843 
5844 typedef struct {
5845     htt_tlv_hdr_t tlv_hdr;
5846 
5847     /**
5848      * BIT [ 7 :  0]   :- mac_id
5849      * BIT [31 :  8]   :- reserved
5850      */
5851     A_UINT32 mac_id__word;
5852     A_UINT32 nsts;
5853 
5854     /** Number of rx ldpc packets */
5855     A_UINT32 rx_ldpc;
5856     /** Number of rx rts packets */
5857     A_UINT32 rts_cnt;
5858 
5859     /** units = dB above noise floor */
5860     A_UINT32 rssi_mgmt;
5861     /** units = dB above noise floor */
5862     A_UINT32 rssi_data;
5863     /** units = dB above noise floor */
5864     A_UINT32 rssi_comb;
5865     A_UINT32 rx_mcs[HTT_RX_PDEV_STATS_NUM_MCS_COUNTERS];
5866     /** element 0,1, ...7 -> NSS 1,2, ...8 */
5867     A_UINT32 rx_nss[HTT_RX_PDEV_STATS_NUM_SPATIAL_STREAMS];
5868     A_UINT32 rx_dcm[HTT_RX_PDEV_STATS_NUM_DCM_COUNTERS];
5869     A_UINT32 rx_stbc[HTT_RX_PDEV_STATS_NUM_MCS_COUNTERS];
5870     /** element 0: 20 MHz, 1: 40 MHz, 2: 80 MHz, 3: 160 and 80+80 MHz */
5871     A_UINT32 rx_bw[HTT_RX_PDEV_STATS_NUM_BW_COUNTERS];
5872     A_UINT32 rx_pream[HTT_RX_PDEV_STATS_NUM_PREAMBLE_TYPES];
5873     /** units = dB above noise floor */
5874     A_UINT8  rssi_chain[HTT_RX_PDEV_STATS_NUM_SPATIAL_STREAMS][HTT_RX_PDEV_STATS_NUM_BW_COUNTERS];
5875 
5876     /** Counters to track number of rx packets in each GI in each mcs (0-11) */
5877     A_UINT32 rx_gi[HTT_RX_PDEV_STATS_NUM_GI_COUNTERS][HTT_RX_PDEV_STATS_NUM_MCS_COUNTERS];
5878     /** rx Signal Strength value in dBm unit */
5879     A_INT32  rssi_in_dbm;
5880 
5881     A_UINT32 rx_11ax_su_ext;
5882     A_UINT32 rx_11ac_mumimo;
5883     A_UINT32 rx_11ax_mumimo;
5884     A_UINT32 rx_11ax_ofdma;
5885     A_UINT32 txbf;
5886     A_UINT32 rx_legacy_cck_rate[HTT_RX_PDEV_STATS_NUM_LEGACY_CCK_STATS];
5887     A_UINT32 rx_legacy_ofdm_rate[HTT_RX_PDEV_STATS_NUM_LEGACY_OFDM_STATS];
5888     A_UINT32 rx_active_dur_us_low;
5889     A_UINT32 rx_active_dur_us_high;
5890 
5891     /** number of times UL MU MIMO RX packets received */
5892     A_UINT32 rx_11ax_ul_ofdma;
5893 
5894     /** 11AX HE UL OFDMA RX TB PPDU MCS stats */
5895     A_UINT32 ul_ofdma_rx_mcs[HTT_RX_PDEV_STATS_NUM_MCS_COUNTERS];
5896     /** 11AX HE UL OFDMA RX TB PPDU GI stats */
5897     A_UINT32 ul_ofdma_rx_gi[HTT_TX_PDEV_STATS_NUM_GI_COUNTERS][HTT_RX_PDEV_STATS_NUM_MCS_COUNTERS];
5898     /**
5899      * 11AX HE UL OFDMA RX TB PPDU NSS stats
5900      * (Increments the individual user NSS in the OFDMA PPDU received)
5901      */
5902     A_UINT32 ul_ofdma_rx_nss[HTT_TX_PDEV_STATS_NUM_SPATIAL_STREAMS];
5903     /** 11AX HE UL OFDMA RX TB PPDU BW stats */
5904     A_UINT32 ul_ofdma_rx_bw[HTT_TX_PDEV_STATS_NUM_BW_COUNTERS];
5905     /** Number of times UL OFDMA TB PPDUs received with stbc */
5906     A_UINT32 ul_ofdma_rx_stbc;
5907     /** Number of times UL OFDMA TB PPDUs received with ldpc */
5908     A_UINT32 ul_ofdma_rx_ldpc;
5909 
5910     /**
5911      * Number of non data PPDUs received for each degree (number of users)
5912      * in UL OFDMA
5913      */
5914     A_UINT32 rx_ulofdma_non_data_ppdu[HTT_RX_PDEV_MAX_OFDMA_NUM_USER];
5915     /**
5916      * Number of data ppdus received for each degree (number of users)
5917      * in UL OFDMA
5918      */
5919     A_UINT32 rx_ulofdma_data_ppdu[HTT_RX_PDEV_MAX_OFDMA_NUM_USER];
5920     /**
5921      * Number of mpdus passed for each degree (number of users)
5922      * in UL OFDMA TB PPDU
5923      */
5924     A_UINT32 rx_ulofdma_mpdu_ok[HTT_RX_PDEV_MAX_OFDMA_NUM_USER];
5925     /**
5926      * Number of mpdus failed for each degree (number of users)
5927      * in UL OFDMA TB PPDU
5928      */
5929     A_UINT32 rx_ulofdma_mpdu_fail[HTT_RX_PDEV_MAX_OFDMA_NUM_USER];
5930 
5931     A_UINT32 nss_count;
5932     A_UINT32 pilot_count;
5933     /** RxEVM stats in dB */
5934     A_INT32 rx_pilot_evm_dB[HTT_RX_PDEV_STATS_NUM_SPATIAL_STREAMS][HTT_RX_PDEV_STATS_RXEVM_MAX_PILOTS_PER_NSS];
5935     /**
5936      * EVM mean across pilots, computed as
5937      *     mean(10*log10(rx_pilot_evm_linear)) = mean(rx_pilot_evm_dB)
5938      */
5939     A_INT32 rx_pilot_evm_dB_mean[HTT_RX_PDEV_STATS_NUM_SPATIAL_STREAMS];
5940     /** dBm units */
5941     A_INT8  rx_ul_fd_rssi[HTT_RX_PDEV_STATS_NUM_SPATIAL_STREAMS][HTT_RX_PDEV_MAX_OFDMA_NUM_USER];
5942     /** per_chain_rssi_pkt_type:
5943      * This field shows what type of rx frame the per-chain RSSI was computed
5944      * on, by recording the frame type and sub-type as bit-fields within this
5945      * field:
5946      * BIT [3 : 0]    :- IEEE80211_FC0_TYPE
5947      * BIT [7 : 4]    :- IEEE80211_FC0_SUBTYPE
5948      * BIT [31 : 8]   :- Reserved
5949      */
5950     A_UINT32 per_chain_rssi_pkt_type;
5951     A_INT8   rx_per_chain_rssi_in_dbm[HTT_RX_PDEV_STATS_NUM_SPATIAL_STREAMS][HTT_RX_PDEV_STATS_NUM_BW_COUNTERS];
5952     A_UINT32 rx_su_ndpa;
5953     A_UINT32 rx_11ax_su_txbf_mcs[HTT_RX_PDEV_STATS_NUM_MCS_COUNTERS];
5954     A_UINT32 rx_mu_ndpa;
5955     A_UINT32 rx_11ax_mu_txbf_mcs[HTT_RX_PDEV_STATS_NUM_MCS_COUNTERS];
5956     A_UINT32 rx_br_poll;
5957     A_UINT32 rx_11ax_dl_ofdma_mcs[HTT_RX_PDEV_STATS_NUM_MCS_COUNTERS];
5958     A_UINT32 rx_11ax_dl_ofdma_ru[HTT_RX_PDEV_STATS_NUM_RU_SIZE_COUNTERS];
5959 
5960     /**
5961      * Number of non data ppdus received for each degree (number of users)
5962      * with UL MUMIMO
5963      */
5964     A_UINT32 rx_ulmumimo_non_data_ppdu[HTT_RX_PDEV_MAX_ULMUMIMO_NUM_USER];
5965     /**
5966      * Number of data ppdus received for each degree (number of users)
5967      * with UL MUMIMO
5968      */
5969     A_UINT32 rx_ulmumimo_data_ppdu[HTT_RX_PDEV_MAX_ULMUMIMO_NUM_USER];
5970     /**
5971      * Number of mpdus passed for each degree (number of users)
5972      * with UL MUMIMO TB PPDU
5973      */
5974     A_UINT32 rx_ulmumimo_mpdu_ok[HTT_RX_PDEV_MAX_ULMUMIMO_NUM_USER];
5975     /**
5976      * Number of mpdus failed for each degree (number of users)
5977      * with UL MUMIMO TB PPDU
5978      */
5979     A_UINT32 rx_ulmumimo_mpdu_fail[HTT_RX_PDEV_MAX_ULMUMIMO_NUM_USER];
5980     /**
5981      * Number of non data ppdus received for each degree (number of users)
5982      * in UL OFDMA
5983      */
5984     A_UINT32 rx_ulofdma_non_data_nusers[HTT_RX_PDEV_MAX_OFDMA_NUM_USER];
5985     /**
5986      *  Number of data ppdus received for each degree (number of users)
5987      *in UL OFDMA
5988      */
5989     A_UINT32 rx_ulofdma_data_nusers[HTT_RX_PDEV_MAX_OFDMA_NUM_USER];
5990 
5991     /* Stats for MCS 12/13 */
5992     A_UINT32 rx_mcs_ext[HTT_RX_PDEV_STATS_NUM_EXTRA_MCS_COUNTERS];
5993 /*
5994  * NOTE - this TLV is already large enough that it causes the HTT message
5995  * carrying it to be nearly at the message size limit that applies to
5996  * many targets/hosts.
5997  * No further fields should be added to this TLV without very careful
5998  * review to ensure the size increase is acceptable.
5999  */
6000 } htt_stats_rx_pdev_rate_stats_tlv;
6001 /* preserve old name alias for new name consistent with the tag name */
6002 typedef htt_stats_rx_pdev_rate_stats_tlv htt_rx_pdev_rate_stats_tlv;
6003 
6004 typedef struct {
6005     htt_tlv_hdr_t tlv_hdr;
6006     /** Tx PPDU duration histogram **/
6007     A_UINT32 rx_ppdu_dur_hist[HTT_PDEV_STATS_PPDU_DUR_HIST_BINS];
6008 } htt_stats_rx_pdev_ppdu_dur_tlv;
6009 /* preserve old name alias for new name consistent with the tag name */
6010 typedef htt_stats_rx_pdev_ppdu_dur_tlv htt_rx_pdev_ppdu_dur_stats_tlv;
6011 
6012 #define HTT_STATS_RX_RSSI_HIST_BINS 24
6013 #define HTT_STATS_RX_RSSI_HIST_OFFSET_DBM -30
6014 #define HTT_STATS_RX_RSSI_DB_PER_BIN -3
6015 
6016 typedef struct {
6017     htt_tlv_hdr_t tlv_hdr;
6018 
6019     /** rssi_in_dbm_ppdu_cnt :
6020      * Number of PPDUs received within each RSSI range
6021      * rssi_in_dbm_ppdu_cnt[0]  : number of PPDUs received > -30 dBm
6022      * rssi_in_dbm_ppdu_cnt[1]  : number of PPDUs received from [-30 to -32] dBm
6023      * rssi_in_dbm_ppdu_cnt[2]  : number of PPDUs received from [-33 to -35] dBm
6024      * ...
6025      * rssi_in_dbm_ppdu_cnt[22] : number of PPDUs received from [-93 to -95] dBm
6026      * rssi_in_dbm_ppdu_cnt[23] : number of PPDUs received <= -96 dBm
6027      **/
6028     A_UINT32 rssi_in_dbm_ppdu_cnt[HTT_STATS_RX_RSSI_HIST_BINS];
6029 } htt_stats_rx_pdev_rssi_hist_tlv;
6030 
6031 /* STATS_TYPE : HTT_DBG_EXT_STATS_PDEV_RX_RATE
6032  * TLV_TAGS:
6033  *      - HTT_STATS_RX_PDEV_RATE_STATS_TAG
6034  */
6035 /* NOTE:
6036  * This structure is for documentation, and cannot be safely used directly.
6037  * Instead, use the constituent TLV structures to fill/parse.
6038  */
6039 #ifdef ATH_TARGET
6040 typedef struct {
6041     htt_stats_rx_pdev_rate_stats_tlv rate_tlv;
6042     htt_stats_rx_pdev_ppdu_dur_tlv rx_ppdu_dur_tlv;
6043     htt_stats_rx_pdev_rssi_hist_tlv rx_ppdu_rssi_hist_tlv;
6044 } htt_rx_pdev_rate_stats_t;
6045 #endif /* ATH_TARGET */
6046 
6047 typedef struct {
6048     htt_tlv_hdr_t tlv_hdr;
6049     /** units = dB above noise floor */
6050     A_UINT8  rssi_chain_ext[HTT_RX_PDEV_STATS_NUM_SPATIAL_STREAMS][HTT_RX_PDEV_STATS_NUM_BW_EXT_COUNTERS];
6051     A_INT8   rx_per_chain_rssi_ext_in_dbm[HTT_RX_PDEV_STATS_NUM_SPATIAL_STREAMS][HTT_RX_PDEV_STATS_NUM_BW_EXT_COUNTERS];
6052     /** rx mcast signal strength value in dBm unit */
6053     A_INT32  rssi_mcast_in_dbm;
6054     /** rx mgmt packet signal Strength value in dBm unit */
6055     A_INT32  rssi_mgmt_in_dbm;
6056     /*
6057      * Stats for MCS 0-13 since rx_pdev_rate_stats_tlv cannot be updated,
6058      * due to message size limitations.
6059      */
6060     A_UINT32 rx_mcs_ext[HTT_RX_PDEV_STATS_NUM_MCS_COUNTERS_EXT];
6061     A_UINT32 rx_stbc_ext[HTT_RX_PDEV_STATS_NUM_MCS_COUNTERS_EXT];
6062     A_UINT32 rx_gi_ext[HTT_RX_PDEV_STATS_NUM_GI_COUNTERS][HTT_RX_PDEV_STATS_NUM_MCS_COUNTERS_EXT];
6063     A_UINT32 ul_ofdma_rx_mcs_ext[HTT_RX_PDEV_STATS_NUM_MCS_COUNTERS_EXT];
6064     A_UINT32 ul_ofdma_rx_gi_ext[HTT_TX_PDEV_STATS_NUM_GI_COUNTERS][HTT_RX_PDEV_STATS_NUM_MCS_COUNTERS_EXT];
6065     A_UINT32 rx_11ax_su_txbf_mcs_ext[HTT_RX_PDEV_STATS_NUM_MCS_COUNTERS_EXT];
6066     A_UINT32 rx_11ax_mu_txbf_mcs_ext[HTT_RX_PDEV_STATS_NUM_MCS_COUNTERS_EXT];
6067     A_UINT32 rx_11ax_dl_ofdma_mcs_ext[HTT_RX_PDEV_STATS_NUM_MCS_COUNTERS_EXT];
6068     /* MCS 14,15 */
6069     A_UINT32 rx_mcs_ext_2[HTT_RX_PDEV_STATS_NUM_EXTRA2_MCS_COUNTERS];
6070     A_UINT32 rx_bw_ext[HTT_RX_PDEV_STATS_NUM_BW_EXT2_COUNTERS];
6071     A_UINT32 rx_gi_ext_2[HTT_RX_PDEV_STATS_NUM_GI_COUNTERS][HTT_RX_PDEV_STATS_NUM_EXTRA2_MCS_COUNTERS];
6072     A_UINT32 rx_su_punctured_mode[HTT_RX_PDEV_STATS_NUM_PUNCTURED_MODE_COUNTERS];
6073     A_UINT32 reduced_rx_bw[HTT_RX_PDEV_STATS_NUM_REDUCED_CHAN_TYPES][HTT_RX_PDEV_STATS_NUM_BW_COUNTERS];
6074     A_UINT8  rssi_chain_ext_2[HTT_RX_PDEV_STATS_NUM_SPATIAL_STREAMS][HTT_RX_PDEV_STATS_NUM_BW_EXT_2_COUNTERS]; /* units = dB above noise floor */
6075     A_INT8   rx_per_chain_rssi_ext_2_in_dbm[HTT_RX_PDEV_STATS_NUM_SPATIAL_STREAMS][HTT_RX_PDEV_STATS_NUM_BW_EXT_2_COUNTERS];
6076 } htt_stats_rx_pdev_rate_ext_stats_tlv;
6077 /* preserve old name alias for new name consistent with the tag name */
6078 typedef htt_stats_rx_pdev_rate_ext_stats_tlv htt_rx_pdev_rate_ext_stats_tlv;
6079 
6080 /* STATS_TYPE : HTT_DBG_EXT_STATS_PDEV_RX_RATE_EXT
6081  * TLV_TAGS:
6082  *      - HTT_STATS_RX_PDEV_RATE_EXT_STATS_TAG
6083  */
6084 /* NOTE:
6085  * This structure is for documentation, and cannot be safely used directly.
6086  * Instead, use the constituent TLV structures to fill/parse.
6087  */
6088 #ifdef ATH_TARGET
6089 typedef struct {
6090     htt_stats_rx_pdev_rate_ext_stats_tlv rate_tlv;
6091 } htt_rx_pdev_rate_ext_stats_t;
6092 #endif /* ATH_TARGET */
6093 
6094 #define HTT_STATS_CMN_MAC_ID_M 0x000000ff
6095 #define HTT_STATS_CMN_MAC_ID_S 0
6096 
6097 #define HTT_STATS_CMN_MAC_ID_GET(_var) \
6098     (((_var) & HTT_STATS_CMN_MAC_ID_M) >> \
6099      HTT_STATS_CMN_MAC_ID_S)
6100 
6101 #define HTT_STATS_CMN_MAC_ID_SET(_var, _val) \
6102     do { \
6103         HTT_CHECK_SET_VAL(HTT_STATS_CMN_MAC_ID, _val); \
6104         ((_var) |= ((_val) << HTT_STATS_CMN_MAC_ID_S)); \
6105     } while (0)
6106 
6107 #define HTT_RX_UL_MAX_UPLINK_RSSI_TRACK 5
6108 
6109 typedef struct {
6110     htt_tlv_hdr_t tlv_hdr;
6111 
6112     /**
6113      * BIT [ 7 :  0]   :- mac_id
6114      * BIT [31 :  8]   :- reserved
6115      */
6116     A_UINT32 mac_id__word;
6117 
6118     A_UINT32 rx_11ax_ul_ofdma;
6119 
6120     A_UINT32 ul_ofdma_rx_mcs[HTT_RX_PDEV_STATS_NUM_MCS_COUNTERS];
6121     A_UINT32 ul_ofdma_rx_gi[HTT_RX_PDEV_STATS_NUM_GI_COUNTERS][HTT_RX_PDEV_STATS_NUM_MCS_COUNTERS];
6122     A_UINT32 ul_ofdma_rx_nss[HTT_RX_PDEV_STATS_NUM_SPATIAL_STREAMS];
6123     A_UINT32 ul_ofdma_rx_bw[HTT_RX_PDEV_STATS_NUM_BW_COUNTERS];
6124     A_UINT32 ul_ofdma_rx_stbc;
6125     A_UINT32 ul_ofdma_rx_ldpc;
6126 
6127     /*
6128      * These are arrays to hold the number of PPDUs that we received per RU.
6129      * E.g. PPDUs (data or non data) received in RU26 will be incremented in
6130      * array offset 0 and similarly RU52 will be incremented in array offset 1
6131      */
6132     A_UINT32 rx_ulofdma_data_ru_size_ppdu[HTT_RX_PDEV_STATS_NUM_RU_SIZE_160MHZ_CNTRS];      /* ppdu level */
6133     A_UINT32 rx_ulofdma_non_data_ru_size_ppdu[HTT_RX_PDEV_STATS_NUM_RU_SIZE_160MHZ_CNTRS];  /* ppdu level */
6134 
6135     /*
6136      * These arrays hold Target RSSI (rx power the AP wants),
6137      * FD RSSI (rx power the AP sees) & Power headroom values of STAs
6138      * which can be identified by AIDs, during trigger based RX.
6139      * Array acts a circular buffer and holds values for last 5 STAs
6140      * in the same order as RX.
6141      */
6142     /**
6143      * STA AID array for identifying which STA the
6144      * Target-RSSI / FD-RSSI / pwr headroom stats are for
6145      */
6146     A_UINT32 uplink_sta_aid[HTT_RX_UL_MAX_UPLINK_RSSI_TRACK];
6147     /**
6148      * Trig Target RSSI for STA AID in same index - UNIT(dBm)
6149      */
6150     A_INT32 uplink_sta_target_rssi[HTT_RX_UL_MAX_UPLINK_RSSI_TRACK];
6151     /**
6152      * Trig FD RSSI from STA AID in same index - UNIT(dBm)
6153      */
6154     A_INT32 uplink_sta_fd_rssi[HTT_RX_UL_MAX_UPLINK_RSSI_TRACK];
6155     /**
6156      * Trig power headroom for STA AID in same idx - UNIT(dB)
6157      */
6158     A_UINT32 uplink_sta_power_headroom[HTT_RX_UL_MAX_UPLINK_RSSI_TRACK];
6159     A_UINT32 reduced_ul_ofdma_rx_bw[HTT_RX_PDEV_STATS_NUM_REDUCED_CHAN_TYPES][HTT_RX_PDEV_STATS_NUM_BW_COUNTERS];
6160 
6161     /*
6162      * Number of HE UL OFDMA per-user responses containing only a QoS null in
6163      * response to basic trigger. Typically a data response is expected.
6164      */
6165     A_UINT32 ul_ofdma_basic_trigger_rx_qos_null_only;
6166 } htt_stats_rx_pdev_ul_trig_stats_tlv;
6167 /* preserve old name alias for new name consistent with the tag name */
6168 typedef htt_stats_rx_pdev_ul_trig_stats_tlv htt_rx_pdev_ul_trigger_stats_tlv;
6169 
6170 /* STATS_TYPE : HTT_DBG_EXT_STATS_PDEV_UL_TRIG_STATS
6171  * TLV_TAGS:
6172  *      - HTT_STATS_RX_PDEV_UL_TRIG_STATS_TAG
6173  * NOTE:
6174  * This structure is for documentation, and cannot be safely used directly.
6175  * Instead, use the constituent TLV structures to fill/parse.
6176  */
6177 #ifdef ATH_TARGET
6178 typedef struct {
6179     htt_stats_rx_pdev_ul_trig_stats_tlv ul_trigger_tlv;
6180 } htt_rx_pdev_ul_trigger_stats_t;
6181 #endif /* ATH_TARGET */
6182 
6183 typedef struct {
6184     htt_tlv_hdr_t tlv_hdr;
6185 
6186     /**
6187      * BIT [ 7 :  0]   :- mac_id
6188      * BIT [31 :  8]   :- reserved
6189      */
6190     A_UINT32 mac_id__word;
6191 
6192     A_UINT32 rx_11be_ul_ofdma;
6193 
6194     A_UINT32 be_ul_ofdma_rx_mcs[HTT_RX_PDEV_STATS_NUM_BE_MCS_COUNTERS];
6195     A_UINT32 be_ul_ofdma_rx_gi[HTT_RX_PDEV_STATS_NUM_GI_COUNTERS][HTT_RX_PDEV_STATS_NUM_BE_MCS_COUNTERS];
6196     A_UINT32 be_ul_ofdma_rx_nss[HTT_RX_PDEV_STATS_NUM_SPATIAL_STREAMS];
6197     A_UINT32 be_ul_ofdma_rx_bw[HTT_RX_PDEV_STATS_NUM_BE_BW_COUNTERS];
6198     A_UINT32 be_ul_ofdma_rx_stbc;
6199     A_UINT32 be_ul_ofdma_rx_ldpc;
6200 
6201     /*
6202      * These are arrays to hold the number of PPDUs that we received per RU.
6203      * E.g. PPDUs (data or non data) received in RU26 will be incremented in
6204      * array offset 0 and similarly RU52 will be incremented in array offset 1
6205      */
6206     /** PPDU level */
6207     A_UINT32 be_rx_ulofdma_data_ru_size_ppdu[HTT_RX_PDEV_STATS_NUM_BE_RU_SIZE_COUNTERS];
6208     /** PPDU level */
6209     A_UINT32 be_rx_ulofdma_non_data_ru_size_ppdu[HTT_RX_PDEV_STATS_NUM_BE_RU_SIZE_COUNTERS];
6210 
6211     /*
6212      * These arrays hold Target RSSI (rx power the AP wants),
6213      * FD RSSI (rx power the AP sees) & Power headroom values of STAs
6214      * which can be identified by AIDs, during trigger based RX.
6215      * Array acts a circular buffer and holds values for last 5 STAs
6216      * in the same order as RX.
6217      */
6218     /**
6219      * STA AID array for identifying which STA the
6220      * Target-RSSI / FD-RSSI / pwr headroom stats are for
6221      */
6222     A_UINT32 be_uplink_sta_aid[HTT_RX_UL_MAX_UPLINK_RSSI_TRACK];
6223     /**
6224      * Trig Target RSSI for STA AID in same index - UNIT(dBm)
6225      */
6226     A_INT32 be_uplink_sta_target_rssi[HTT_RX_UL_MAX_UPLINK_RSSI_TRACK];
6227     /**
6228      * Trig FD RSSI from STA AID in same index - UNIT(dBm)
6229      */
6230     A_INT32 be_uplink_sta_fd_rssi[HTT_RX_UL_MAX_UPLINK_RSSI_TRACK];
6231     /**
6232      * Trig power headroom for STA AID in same idx - UNIT(dB)
6233      */
6234     A_UINT32 be_uplink_sta_power_headroom[HTT_RX_UL_MAX_UPLINK_RSSI_TRACK];
6235 
6236     /*
6237      * Number of EHT UL OFDMA per-user responses containing only a QoS null in
6238      * response to basic trigger. Typically a data response is expected.
6239      */
6240     A_UINT32 be_ul_ofdma_basic_trigger_rx_qos_null_only;
6241 
6242     /* UL MLO Queue Depth Sharing Stats */
6243     A_UINT32 ul_mlo_send_qdepth_params_count;
6244     A_UINT32 ul_mlo_proc_qdepth_params_count;
6245     A_UINT32 ul_mlo_proc_accepted_qdepth_params_count;
6246     A_UINT32 ul_mlo_proc_discarded_qdepth_params_count;
6247 } htt_stats_rx_pdev_be_ul_trig_stats_tlv;
6248 /* preserve old name alias for new name consistent with the tag name */
6249 typedef htt_stats_rx_pdev_be_ul_trig_stats_tlv
6250     htt_rx_pdev_be_ul_trigger_stats_tlv;
6251 
6252 /* STATS_TYPE : HTT_DBG_EXT_STATS_PDEV_UL_TRIG_STATS
6253  * TLV_TAGS:
6254  *      - HTT_STATS_RX_PDEV_BE_UL_TRIG_STATS_TAG
6255  * NOTE:
6256  * This structure is for documentation, and cannot be safely used directly.
6257  * Instead, use the constituent TLV structures to fill/parse.
6258  */
6259 #ifdef ATH_TARGET
6260 typedef struct {
6261     htt_stats_rx_pdev_be_ul_trig_stats_tlv ul_trigger_tlv;
6262 } htt_rx_pdev_be_ul_trigger_stats_t;
6263 #endif /* ATH_TARGET */
6264 
6265 typedef struct {
6266     htt_tlv_hdr_t tlv_hdr;
6267 
6268     A_UINT32 user_index;
6269     /** PPDU level */
6270     A_UINT32 rx_ulofdma_non_data_ppdu;
6271     /** PPDU level */
6272     A_UINT32 rx_ulofdma_data_ppdu;
6273     /** MPDU level */
6274     A_UINT32 rx_ulofdma_mpdu_ok;
6275     /** MPDU level */
6276     A_UINT32 rx_ulofdma_mpdu_fail;
6277     A_UINT32 rx_ulofdma_non_data_nusers;
6278     A_UINT32 rx_ulofdma_data_nusers;
6279 } htt_stats_rx_pdev_ul_ofdma_user_stats_tlv;
6280 /* preserve old name alias for new name consistent with the tag name */
6281 typedef htt_stats_rx_pdev_ul_ofdma_user_stats_tlv
6282     htt_rx_pdev_ul_ofdma_user_stats_tlv;
6283 
6284 typedef struct {
6285     htt_tlv_hdr_t tlv_hdr;
6286 
6287     A_UINT32 user_index;
6288     /** PPDU level */
6289     A_UINT32 be_rx_ulofdma_non_data_ppdu;
6290     /** PPDU level */
6291     A_UINT32 be_rx_ulofdma_data_ppdu;
6292     /** MPDU level */
6293     A_UINT32 be_rx_ulofdma_mpdu_ok;
6294     /** MPDU level */
6295     A_UINT32 be_rx_ulofdma_mpdu_fail;
6296     A_UINT32 be_rx_ulofdma_non_data_nusers;
6297     A_UINT32 be_rx_ulofdma_data_nusers;
6298 } htt_stats_rx_pdev_be_ul_ofdma_user_stats_tlv;
6299 /* preserve old name alias for new name consistent with the tag name */
6300 typedef htt_stats_rx_pdev_be_ul_ofdma_user_stats_tlv
6301     htt_rx_pdev_be_ul_ofdma_user_stats_tlv;
6302 
6303 typedef struct {
6304     htt_tlv_hdr_t tlv_hdr;
6305 
6306     A_UINT32 user_index;
6307     /** PPDU level */
6308     A_UINT32 rx_ulmumimo_non_data_ppdu;
6309     /** PPDU level */
6310     A_UINT32 rx_ulmumimo_data_ppdu;
6311     /** MPDU level */
6312     A_UINT32 rx_ulmumimo_mpdu_ok;
6313     /** MPDU level */
6314     A_UINT32 rx_ulmumimo_mpdu_fail;
6315 } htt_stats_rx_pdev_ul_mimo_user_stats_tlv;
6316 /* preserve old name alias for new name consistent with the tag name */
6317 typedef htt_stats_rx_pdev_ul_mimo_user_stats_tlv
6318     htt_rx_pdev_ul_mimo_user_stats_tlv;
6319 
6320 typedef struct {
6321     htt_tlv_hdr_t tlv_hdr;
6322 
6323     A_UINT32 user_index;
6324     /** PPDU level */
6325     A_UINT32 be_rx_ulmumimo_non_data_ppdu;
6326     /** PPDU level */
6327     A_UINT32 be_rx_ulmumimo_data_ppdu;
6328     /** MPDU level */
6329     A_UINT32 be_rx_ulmumimo_mpdu_ok;
6330     /** MPDU level */
6331     A_UINT32 be_rx_ulmumimo_mpdu_fail;
6332 } htt_stats_rx_pdev_be_ul_mimo_user_stats_tlv;
6333 /* preserve old name alias for new name consistent with the tag name */
6334 typedef htt_stats_rx_pdev_be_ul_mimo_user_stats_tlv
6335     htt_rx_pdev_be_ul_mimo_user_stats_tlv;
6336 
6337 /* == RX PDEV/SOC STATS == */
6338 
6339 typedef struct {
6340     htt_tlv_hdr_t tlv_hdr;
6341 
6342     /**
6343      * BIT [7:0]  :- mac_id
6344      * BIT [31:8] :- reserved
6345      *
6346      * Refer to HTT_STATS_CMN_MAC_ID_GET/SET macros.
6347      */
6348     A_UINT32 mac_id__word;
6349 
6350     /** Number of times UL MUMIMO RX packets received */
6351     A_UINT32 rx_11ax_ul_mumimo;
6352 
6353     /** 11AX HE UL MU-MIMO RX TB PPDU MCS stats */
6354     A_UINT32 ul_mumimo_rx_mcs[HTT_RX_PDEV_STATS_NUM_MCS_COUNTERS];
6355     /**
6356      * 11AX HE UL MU-MIMO RX GI & LTF stats.
6357      * Index 0 indicates 1xLTF + 1.6 msec GI
6358      * Index 1 indicates 2xLTF + 1.6 msec GI
6359      * Index 2 indicates 4xLTF + 3.2 msec GI
6360      */
6361     A_UINT32 ul_mumimo_rx_gi[HTT_RX_PDEV_STATS_NUM_GI_COUNTERS][HTT_RX_PDEV_STATS_NUM_MCS_COUNTERS];
6362     /**
6363      * 11AX HE UL MU-MIMO RX TB PPDU NSS stats
6364      * (Increments the individual user NSS in the UL MU MIMO PPDU received)
6365      */
6366     A_UINT32 ul_mumimo_rx_nss[HTT_RX_PDEV_STATS_ULMUMIMO_NUM_SPATIAL_STREAMS];
6367     /** 11AX HE UL MU-MIMO RX TB PPDU BW stats */
6368     A_UINT32 ul_mumimo_rx_bw[HTT_RX_PDEV_STATS_NUM_BW_COUNTERS];
6369     /** Number of times UL MUMIMO TB PPDUs received with STBC */
6370     A_UINT32 ul_mumimo_rx_stbc;
6371     /** Number of times UL MUMIMO TB PPDUs received with LDPC */
6372     A_UINT32 ul_mumimo_rx_ldpc;
6373 
6374     /* Stats for MCS 12/13 */
6375     A_UINT32 ul_mumimo_rx_mcs_ext[HTT_RX_PDEV_STATS_NUM_EXTRA_MCS_COUNTERS];
6376     A_UINT32 ul_mumimo_rx_gi_ext[HTT_RX_PDEV_STATS_NUM_GI_COUNTERS][HTT_RX_PDEV_STATS_NUM_EXTRA_MCS_COUNTERS];
6377 
6378     /** RSSI in dBm for Rx TB PPDUs */
6379     A_INT8 rx_ul_mumimo_chain_rssi_in_dbm[HTT_RX_PDEV_STATS_ULMUMIMO_NUM_SPATIAL_STREAMS][HTT_RX_PDEV_STATS_TOTAL_BW_COUNTERS];
6380     /** Target RSSI programmed in UL MUMIMO triggers (units dBm) */
6381     A_INT8 rx_ul_mumimo_target_rssi[HTT_TX_PDEV_STATS_NUM_UL_MUMIMO_USER_STATS][HTT_RX_PDEV_STATS_NUM_BW_COUNTERS];
6382     /** FD RSSI measured for Rx UL TB PPDUs (units dBm) */
6383     A_INT8 rx_ul_mumimo_fd_rssi[HTT_TX_PDEV_STATS_NUM_UL_MUMIMO_USER_STATS][HTT_RX_PDEV_STATS_ULMUMIMO_NUM_SPATIAL_STREAMS];
6384     /** Average pilot EVM measued for RX UL TB PPDU */
6385     A_INT8 rx_ulmumimo_pilot_evm_dB_mean[HTT_TX_PDEV_STATS_NUM_UL_MUMIMO_USER_STATS][HTT_RX_PDEV_STATS_ULMUMIMO_NUM_SPATIAL_STREAMS];
6386     A_UINT32 reduced_ul_mumimo_rx_bw[HTT_RX_PDEV_STATS_NUM_REDUCED_CHAN_TYPES][HTT_RX_PDEV_STATS_NUM_BW_COUNTERS];
6387 
6388     /*
6389      * Number of HE UL MU-MIMO per-user responses containing only a QoS null in
6390      * response to basic trigger. Typically a data response is expected.
6391      */
6392     A_UINT32 ul_mumimo_basic_trigger_rx_qos_null_only;
6393 } htt_stats_rx_pdev_ul_mumimo_trig_stats_tlv;
6394 /* preserve old name alias for new name consistent with the tag name */
6395 typedef htt_stats_rx_pdev_ul_mumimo_trig_stats_tlv
6396     htt_rx_pdev_ul_mumimo_trig_stats_tlv;
6397 
6398 typedef struct {
6399     htt_tlv_hdr_t tlv_hdr;
6400 
6401     /**
6402      * BIT [7:0]  :- mac_id
6403      * BIT [31:8] :- reserved
6404      *
6405      * Refer to HTT_STATS_CMN_MAC_ID_GET/SET macros.
6406      */
6407     A_UINT32 mac_id__word;
6408 
6409     /** Number of times UL MUMIMO RX packets received */
6410     A_UINT32 rx_11be_ul_mumimo;
6411 
6412     /** 11BE EHT UL MU-MIMO RX TB PPDU MCS stats */
6413     A_UINT32 be_ul_mumimo_rx_mcs[HTT_RX_PDEV_STATS_NUM_BE_MCS_COUNTERS];
6414     /**
6415      * 11BE EHT UL MU-MIMO RX GI & LTF stats.
6416      * Index 0 indicates 1xLTF + 1.6 msec GI
6417      * Index 1 indicates 2xLTF + 1.6 msec GI
6418      * Index 2 indicates 4xLTF + 3.2 msec GI
6419      */
6420     A_UINT32 be_ul_mumimo_rx_gi[HTT_RX_PDEV_STATS_NUM_GI_COUNTERS][HTT_RX_PDEV_STATS_NUM_BE_MCS_COUNTERS];
6421     /**
6422      * 11BE EHT UL MU-MIMO RX TB PPDU NSS stats
6423      * (Increments the individual user NSS in the UL MU MIMO PPDU received)
6424      */
6425     A_UINT32 be_ul_mumimo_rx_nss[HTT_RX_PDEV_STATS_ULMUMIMO_NUM_SPATIAL_STREAMS];
6426     /** 11BE EHT UL MU-MIMO RX TB PPDU BW stats */
6427     A_UINT32 be_ul_mumimo_rx_bw[HTT_RX_PDEV_STATS_NUM_BE_BW_COUNTERS];
6428     /** Number of times UL MUMIMO TB PPDUs received with STBC */
6429     A_UINT32 be_ul_mumimo_rx_stbc;
6430     /** Number of times UL MUMIMO TB PPDUs received with LDPC */
6431     A_UINT32 be_ul_mumimo_rx_ldpc;
6432 
6433     /** RSSI in dBm for Rx TB PPDUs */
6434     A_INT8 be_rx_ul_mumimo_chain_rssi_in_dbm[HTT_RX_PDEV_STATS_ULMUMIMO_NUM_SPATIAL_STREAMS][HTT_RX_PDEV_STATS_NUM_BE_BW_COUNTERS];
6435     /** Target RSSI programmed in UL MUMIMO triggers (units dBm) */
6436     A_INT8 be_rx_ul_mumimo_target_rssi[HTT_RX_PDEV_MAX_ULMUMIMO_NUM_USER][HTT_RX_PDEV_STATS_NUM_BE_BW_COUNTERS];
6437     /** FD RSSI measured for Rx UL TB PPDUs (units dBm) */
6438     A_INT8 be_rx_ul_mumimo_fd_rssi[HTT_RX_PDEV_MAX_ULMUMIMO_NUM_USER][HTT_RX_PDEV_STATS_ULMUMIMO_NUM_SPATIAL_STREAMS];
6439     /** Average pilot EVM measued for RX UL TB PPDU */
6440     A_INT8 be_rx_ulmumimo_pilot_evm_dB_mean[HTT_RX_PDEV_MAX_ULMUMIMO_NUM_USER][HTT_RX_PDEV_STATS_ULMUMIMO_NUM_SPATIAL_STREAMS];
6441     /** Number of times UL MUMIMO TB PPDUs received in a punctured mode */
6442     A_UINT32 rx_ul_mumimo_punctured_mode[HTT_RX_PDEV_STATS_NUM_PUNCTURED_MODE_COUNTERS];
6443 
6444     /*
6445      * Number of EHT UL MU-MIMO per-user responses containing only a QoS null
6446      * in response to basic trigger. Typically a data response is expected.
6447      */
6448     A_UINT32 be_ul_mumimo_basic_trigger_rx_qos_null_only;
6449 } htt_stats_rx_pdev_ul_mumimo_trig_be_stats_tlv;
6450 /* preserve old name alias for new name consistent with the tag name */
6451 typedef htt_stats_rx_pdev_ul_mumimo_trig_be_stats_tlv
6452     htt_rx_pdev_ul_mumimo_trig_be_stats_tlv;
6453 
6454 /* STATS_TYPE : HTT_DBG_EXT_STATS_PDEV_UL_MUMIMO_TRIG_STATS
6455  * TLV_TAGS:
6456  *    - HTT_STATS_RX_PDEV_UL_MUMIMO_TRIG_STATS_TAG
6457  *    - HTT_STATS_RX_PDEV_UL_MUMIMO_TRIG_BE_STATS_TAG
6458  */
6459 #ifdef ATH_TARGET
6460 typedef struct {
6461     htt_stats_rx_pdev_ul_mumimo_trig_stats_tlv    ul_mumimo_trig_tlv;
6462     htt_stats_rx_pdev_ul_mumimo_trig_be_stats_tlv ul_mumimo_trig_be_tlv;
6463 } htt_rx_pdev_ul_mumimo_trig_stats_t;
6464 #endif /* ATH_TARGET */
6465 
6466 typedef struct {
6467     htt_tlv_hdr_t tlv_hdr;
6468     /** Num Packets received on REO FW ring */
6469     A_UINT32 fw_reo_ring_data_msdu;
6470     /** Num bc/mc packets indicated from fw to host */
6471     A_UINT32 fw_to_host_data_msdu_bcmc;
6472     /** Num unicast packets indicated from fw to host */
6473     A_UINT32 fw_to_host_data_msdu_uc;
6474     /** Num remote buf recycle from offload  */
6475     A_UINT32 ofld_remote_data_buf_recycle_cnt;
6476     /** Num remote free buf given to offload */
6477     A_UINT32 ofld_remote_free_buf_indication_cnt;
6478 
6479     /** Num unicast packets from local path indicated to host */
6480     A_UINT32 ofld_buf_to_host_data_msdu_uc;
6481     /** Num unicast packets from REO indicated to host */
6482     A_UINT32 reo_fw_ring_to_host_data_msdu_uc;
6483 
6484     /** Num Packets received from WBM SW1 ring */
6485     A_UINT32 wbm_sw_ring_reap;
6486     /** Num packets from WBM forwarded from fw to host via WBM */
6487     A_UINT32 wbm_forward_to_host_cnt;
6488     /** Num packets from WBM recycled to target refill ring */
6489     A_UINT32 wbm_target_recycle_cnt;
6490 
6491     /**
6492      * Total Num of recycled to refill ring,
6493      * including packets from WBM and REO
6494      */
6495     A_UINT32 target_refill_ring_recycle_cnt;
6496 } htt_stats_rx_soc_fw_stats_tlv;
6497 /* preserve old name alias for new name consistent with the tag name */
6498 typedef htt_stats_rx_soc_fw_stats_tlv htt_rx_soc_fw_stats_tlv;
6499 
6500 #define HTT_RX_SOC_FW_REFILL_RING_EMPTY_TLV_SZ(_num_elems) (sizeof(A_UINT32) * (_num_elems))
6501 
6502 /* NOTE: Variable length TLV, use length spec to infer array size */
6503 typedef struct {
6504     htt_tlv_hdr_t tlv_hdr;
6505     /** refill_ring_empty_cnt:
6506      * Num ring empty encountered,
6507      * HTT_RX_STATS_REFILL_MAX_RING
6508      */
6509     HTT_STATS_VAR_LEN_ARRAY1(A_UINT32, refill_ring_empty_cnt);
6510 } htt_stats_rx_soc_fw_refill_ring_empty_tlv;
6511 /* preserve old name alias for new name consistent with the tag name */
6512 typedef htt_stats_rx_soc_fw_refill_ring_empty_tlv
6513     htt_rx_soc_fw_refill_ring_empty_tlv_v;
6514 
6515 #define HTT_RX_SOC_FW_REFILL_RING_EMPTY_TLV_SZ(_num_elems) (sizeof(A_UINT32) * (_num_elems))
6516 
6517 /* NOTE: Variable length TLV, use length spec to infer array size */
6518 typedef struct {
6519     htt_tlv_hdr_t tlv_hdr;
6520     /** refill_ring_num_refill:
6521      * Num total buf refilled from refill ring,
6522      * HTT_RX_STATS_REFILL_MAX_RING
6523      */
6524     HTT_STATS_VAR_LEN_ARRAY1(A_UINT32, refill_ring_num_refill);
6525 } htt_stats_rx_soc_fw_refill_ring_num_refill_tlv;
6526 /* preserve old name alias for new name consistent with the tag name */
6527 typedef htt_stats_rx_soc_fw_refill_ring_num_refill_tlv
6528     htt_rx_soc_fw_refill_ring_num_refill_tlv_v;
6529 
6530 /* RXDMA error code from WBM released packets */
6531 typedef enum {
6532     HTT_RX_RXDMA_OVERFLOW_ERR     = 0,
6533     HTT_RX_RXDMA_MPDU_LENGTH_ERR  = 1,
6534     HTT_RX_RXDMA_FCS_ERR = 2,
6535     HTT_RX_RXDMA_DECRYPT_ERR      = 3,
6536     HTT_RX_RXDMA_TKIP_MIC_ERR     = 4,
6537     HTT_RX_RXDMA_UNECRYPTED_ERR   = 5,
6538     HTT_RX_RXDMA_MSDU_LEN_ERR     = 6,
6539     HTT_RX_RXDMA_MSDU_LIMIT_ERR   = 7,
6540     HTT_RX_RXDMA_WIFI_PARSE_ERR   = 8,
6541     HTT_RX_RXDMA_AMSDU_PARSE_ERR  = 9,
6542     HTT_RX_RXDMA_SA_TIMEOUT_ERR   = 10,
6543     HTT_RX_RXDMA_DA_TIMEOUT_ERR   = 11,
6544     HTT_RX_RXDMA_FLOW_TIMEOUT_ERR = 12,
6545     HTT_RX_RXDMA_FLUSH_REQUEST    = 13,
6546     HTT_RX_RXDMA_ERR_CODE_RVSD0   = 14,
6547     HTT_RX_RXDMA_ERR_CODE_RVSD1   = 15,
6548 
6549     /*
6550      * This MAX_ERR_CODE should not be used in any host/target messages,
6551      * so that even though it is defined within a host/target interface
6552      * definition header file, it isn't actually part of the host/target
6553      * interface, and thus can be modified.
6554      */
6555     HTT_RX_RXDMA_MAX_ERR_CODE
6556 } htt_rx_rxdma_error_code_enum;
6557 
6558 /* NOTE: Variable length TLV, use length spec to infer array size */
6559 typedef struct {
6560     htt_tlv_hdr_t tlv_hdr;
6561 
6562     /** NOTE:
6563      * The mapping of RXDMA error types to rxdma_err array elements is HW dependent.
6564      * It is expected but not required that the target will provide a rxdma_err element
6565      * for each of the htt_rx_rxdma_error_code_enum values, up to but not including
6566      * MAX_ERR_CODE.  The host should ignore any array elements whose
6567      * indices are >= the MAX_ERR_CODE value the host was compiled with.
6568      *
6569      * HTT_RX_RXDMA_MAX_ERR_CODE
6570      */
6571     HTT_STATS_VAR_LEN_ARRAY1(A_UINT32, rxdma_err);
6572 } htt_stats_rx_refill_rxdma_err_tlv;
6573 /* preserve old name alias for new name consistent with the tag name */
6574 typedef htt_stats_rx_refill_rxdma_err_tlv
6575     htt_rx_soc_fw_refill_ring_num_rxdma_err_tlv_v;
6576 
6577 /* REO error code from WBM released packets */
6578 typedef enum {
6579     HTT_RX_REO_QUEUE_DESC_ADDR_ZERO     = 0,
6580     HTT_RX_REO_QUEUE_DESC_NOT_VALID     = 1,
6581     HTT_RX_AMPDU_IN_NON_BA = 2,
6582     HTT_RX_NON_BA_DUPLICATE = 3,
6583     HTT_RX_BA_DUPLICATE = 4,
6584     HTT_RX_REGULAR_FRAME_2K_JUMP        = 5,
6585     HTT_RX_BAR_FRAME_2K_JUMP = 6,
6586     HTT_RX_REGULAR_FRAME_OOR = 7,
6587     HTT_RX_BAR_FRAME_OOR = 8,
6588     HTT_RX_BAR_FRAME_NO_BA_SESSION      = 9,
6589     HTT_RX_BAR_FRAME_SN_EQUALS_SSN      = 10,
6590     HTT_RX_PN_CHECK_FAILED = 11,
6591     HTT_RX_2K_ERROR_HANDLING_FLAG_SET   = 12,
6592     HTT_RX_PN_ERROR_HANDLING_FLAG_SET   = 13,
6593     HTT_RX_QUEUE_DESCRIPTOR_BLOCKED_SET = 14,
6594     HTT_RX_REO_ERR_CODE_RVSD = 15,
6595 
6596     /*
6597      * This MAX_ERR_CODE should not be used in any host/target messages,
6598      * so that even though it is defined within a host/target interface
6599      * definition header file, it isn't actually part of the host/target
6600      * interface, and thus can be modified.
6601      */
6602     HTT_RX_REO_MAX_ERR_CODE
6603 } htt_rx_reo_error_code_enum;
6604 
6605 /* NOTE: Variable length TLV, use length spec to infer array size */
6606 typedef struct {
6607     htt_tlv_hdr_t tlv_hdr;
6608 
6609     /** NOTE:
6610      * The mapping of REO error types to reo_err array elements is HW dependent.
6611      * It is expected but not required that the target will provide a rxdma_err element
6612      * for each of the htt_rx_reo_error_code_enum values, up to but not including
6613      * MAX_ERR_CODE.  The host should ignore any array elements whose
6614      * indices are >= the MAX_ERR_CODE value the host was compiled with.
6615      *
6616      * HTT_RX_REO_MAX_ERR_CODE
6617      */
6618     HTT_STATS_VAR_LEN_ARRAY1(A_UINT32, reo_err);
6619 } htt_stats_rx_refill_reo_err_tlv;
6620 /* preserve old name alias for new name consistent with the tag name */
6621 typedef htt_stats_rx_refill_reo_err_tlv
6622     htt_rx_soc_fw_refill_ring_num_reo_err_tlv_v;
6623 
6624 /* NOTE:
6625  * This structure is for documentation, and cannot be safely used directly.
6626  * Instead, use the constituent TLV structures to fill/parse.
6627  */
6628 #ifdef ATH_TARGET
6629 typedef struct {
6630     htt_stats_rx_soc_fw_stats_tlv              fw_tlv;
6631     htt_stats_rx_soc_fw_refill_ring_empty_tlv  fw_refill_ring_empty_tlv;
6632     htt_stats_rx_soc_fw_refill_ring_num_refill_tlv
6633                                                fw_refill_ring_num_refill_tlv;
6634     htt_stats_rx_refill_rxdma_err_tlv          fw_refill_ring_num_rxdma_err_tlv;
6635     htt_stats_rx_refill_reo_err_tlv            fw_refill_ring_num_reo_err_tlv;
6636 } htt_rx_soc_stats_t;
6637 #endif /* ATH_TARGET */
6638 
6639 /* == RX PDEV STATS == */
6640 #define HTT_RX_PDEV_FW_STATS_MAC_ID_M 0x000000ff
6641 #define HTT_RX_PDEV_FW_STATS_MAC_ID_S 0
6642 
6643 #define HTT_RX_PDEV_FW_STATS_MAC_ID_GET(_var) \
6644     (((_var) & HTT_RX_PDEV_FW_STATS_MAC_ID_M) >> \
6645      HTT_RX_PDEV_FW_STATS_MAC_ID_S)
6646 
6647 #define HTT_RX_PDEV_FW_STATS_MAC_ID_SET(_var, _val) \
6648     do { \
6649         HTT_CHECK_SET_VAL(HTT_RX_PDEV_FW_STATS_MAC_ID, _val); \
6650         ((_var) |= ((_val) << HTT_RX_PDEV_FW_STATS_MAC_ID_S)); \
6651     } while (0)
6652 
6653 typedef struct {
6654     htt_tlv_hdr_t tlv_hdr;
6655 
6656     /**
6657      * BIT [ 7 :  0]   :- mac_id
6658      * BIT [31 :  8]   :- reserved
6659      */
6660     A_UINT32 mac_id__word;
6661     /** Num PPDU status processed from HW */
6662     A_UINT32 ppdu_recvd;
6663     /** Num MPDU across PPDUs with FCS ok */
6664     A_UINT32 mpdu_cnt_fcs_ok;
6665     /** Num MPDU across PPDUs with FCS err */
6666     A_UINT32 mpdu_cnt_fcs_err;
6667     /** Num MSDU across PPDUs */
6668     A_UINT32 tcp_msdu_cnt;
6669     /** Num MSDU across PPDUs */
6670     A_UINT32 tcp_ack_msdu_cnt;
6671     /** Num MSDU across PPDUs */
6672     A_UINT32 udp_msdu_cnt;
6673     /** Num MSDU across PPDUs */
6674     A_UINT32 other_msdu_cnt;
6675     /** Num MPDU on FW ring indicated */
6676     A_UINT32 fw_ring_mpdu_ind;
6677     /** Num MGMT MPDU given to protocol */
6678     A_UINT32 fw_ring_mgmt_subtype[HTT_STATS_SUBTYPE_MAX];
6679     /** Num ctrl MPDU given to protocol */
6680     A_UINT32 fw_ring_ctrl_subtype[HTT_STATS_SUBTYPE_MAX];
6681     /** Num mcast data packet received */
6682     A_UINT32 fw_ring_mcast_data_msdu;
6683     /** Num broadcast data packet received */
6684     A_UINT32 fw_ring_bcast_data_msdu;
6685     /** Num unicast data packet received */
6686     A_UINT32 fw_ring_ucast_data_msdu;
6687     /** Num null data packet received  */
6688     A_UINT32 fw_ring_null_data_msdu;
6689     /** Num MPDU on FW ring dropped */
6690     A_UINT32 fw_ring_mpdu_drop;
6691 
6692     /** Num buf indication to offload */
6693     A_UINT32 ofld_local_data_ind_cnt;
6694     /** Num buf recycle from offload */
6695     A_UINT32 ofld_local_data_buf_recycle_cnt;
6696     /** Num buf indication to data_rx */
6697     A_UINT32 drx_local_data_ind_cnt;
6698     /** Num buf recycle from data_rx */
6699     A_UINT32 drx_local_data_buf_recycle_cnt;
6700     /** Num buf indication to protocol */
6701     A_UINT32 local_nondata_ind_cnt;
6702     /** Num buf recycle from protocol */
6703     A_UINT32 local_nondata_buf_recycle_cnt;
6704 
6705     /** Num buf fed */
6706     A_UINT32 fw_status_buf_ring_refill_cnt;
6707     /** Num ring empty encountered */
6708     A_UINT32 fw_status_buf_ring_empty_cnt;
6709     /** Num buf fed  */
6710     A_UINT32 fw_pkt_buf_ring_refill_cnt;
6711     /** Num ring empty encountered */
6712     A_UINT32 fw_pkt_buf_ring_empty_cnt;
6713     /** Num buf fed  */
6714     A_UINT32 fw_link_buf_ring_refill_cnt;
6715     /** Num ring empty encountered  */
6716     A_UINT32 fw_link_buf_ring_empty_cnt;
6717 
6718     /** Num buf fed */
6719     A_UINT32 host_pkt_buf_ring_refill_cnt;
6720     /** Num ring empty encountered */
6721     A_UINT32 host_pkt_buf_ring_empty_cnt;
6722     /** Num buf fed */
6723     A_UINT32 mon_pkt_buf_ring_refill_cnt;
6724     /** Num ring empty encountered */
6725     A_UINT32 mon_pkt_buf_ring_empty_cnt;
6726     /** Num buf fed */
6727     A_UINT32 mon_status_buf_ring_refill_cnt;
6728     /** Num ring empty encountered */
6729     A_UINT32 mon_status_buf_ring_empty_cnt;
6730     /** Num buf fed */
6731     A_UINT32 mon_desc_buf_ring_refill_cnt;
6732     /** Num ring empty encountered */
6733     A_UINT32 mon_desc_buf_ring_empty_cnt;
6734     /** Num buf fed */
6735     A_UINT32 mon_dest_ring_update_cnt;
6736     /** Num ring full encountered */
6737     A_UINT32 mon_dest_ring_full_cnt;
6738 
6739     /** Num rx suspend is attempted */
6740     A_UINT32 rx_suspend_cnt;
6741     /** Num rx suspend failed */
6742     A_UINT32 rx_suspend_fail_cnt;
6743     /** Num rx resume attempted */
6744     A_UINT32 rx_resume_cnt;
6745     /** Num rx resume failed */
6746     A_UINT32 rx_resume_fail_cnt;
6747     /** Num rx ring switch */
6748     A_UINT32 rx_ring_switch_cnt;
6749     /** Num rx ring restore */
6750     A_UINT32 rx_ring_restore_cnt;
6751     /** Num rx flush issued */
6752     A_UINT32 rx_flush_cnt;
6753     /** Num rx recovery */
6754     A_UINT32 rx_recovery_reset_cnt;
6755 } htt_stats_rx_pdev_fw_stats_tlv;
6756 /* preserve old name alias for new name consistent with the tag name */
6757 typedef htt_stats_rx_pdev_fw_stats_tlv htt_rx_pdev_fw_stats_tlv;
6758 
6759 typedef struct {
6760     htt_tlv_hdr_t tlv_hdr;
6761     /** peer mac address */
6762     htt_mac_addr peer_mac_addr;
6763     /** Num of tx mgmt frames with subtype on peer level */
6764     A_UINT32 peer_tx_mgmt_subtype[HTT_STATS_SUBTYPE_MAX];
6765     /** Num of rx mgmt frames with subtype on peer level */
6766     A_UINT32 peer_rx_mgmt_subtype[HTT_STATS_SUBTYPE_MAX];
6767 } htt_stats_peer_ctrl_path_txrx_stats_tlv;
6768 /* preserve old name alias for new name consistent with the tag name */
6769 typedef htt_stats_peer_ctrl_path_txrx_stats_tlv
6770     htt_peer_ctrl_path_txrx_stats_tlv;
6771 
6772 #define HTT_STATS_PHY_ERR_MAX 43
6773 
6774 typedef struct {
6775     htt_tlv_hdr_t tlv_hdr;
6776 
6777     /**
6778      * BIT [ 7 :  0]   :- mac_id
6779      * BIT [31 :  8]   :- reserved
6780      */
6781     A_UINT32 mac_id__word;
6782     /** Num of phy err */
6783     A_UINT32 total_phy_err_cnt;
6784     /** Counts of different types of phy errs
6785      * The mapping of PHY error types to phy_err array elements is HW dependent.
6786      * The only currently-supported mapping is shown below:
6787      *
6788      * 0 phyrx_err_phy_off Reception aborted due to receiving a PHY_OFF TLV
6789      * 1 phyrx_err_synth_off
6790      * 2 phyrx_err_ofdma_timing
6791      * 3 phyrx_err_ofdma_signal_parity
6792      * 4 phyrx_err_ofdma_rate_illegal
6793      * 5 phyrx_err_ofdma_length_illegal
6794      * 6 phyrx_err_ofdma_restart
6795      * 7 phyrx_err_ofdma_service
6796      * 8 phyrx_err_ppdu_ofdma_power_drop
6797      * 9 phyrx_err_cck_blokker
6798      * 10 phyrx_err_cck_timing
6799      * 11 phyrx_err_cck_header_crc
6800      * 12 phyrx_err_cck_rate_illegal
6801      * 13 phyrx_err_cck_length_illegal
6802      * 14 phyrx_err_cck_restart
6803      * 15 phyrx_err_cck_service
6804      * 16 phyrx_err_cck_power_drop
6805      * 17 phyrx_err_ht_crc_err
6806      * 18 phyrx_err_ht_length_illegal
6807      * 19 phyrx_err_ht_rate_illegal
6808      * 20 phyrx_err_ht_zlf
6809      * 21 phyrx_err_false_radar_ext
6810      * 22 phyrx_err_green_field
6811      * 23 phyrx_err_bw_gt_dyn_bw
6812      * 24 phyrx_err_leg_ht_mismatch
6813      * 25 phyrx_err_vht_crc_error
6814      * 26 phyrx_err_vht_siga_unsupported
6815      * 27 phyrx_err_vht_lsig_len_invalid
6816      * 28 phyrx_err_vht_ndp_or_zlf
6817      * 29 phyrx_err_vht_nsym_lt_zero
6818      * 30 phyrx_err_vht_rx_extra_symbol_mismatch
6819      * 31 phyrx_err_vht_rx_skip_group_id0
6820      * 32 phyrx_err_vht_rx_skip_group_id1to62
6821      * 33 phyrx_err_vht_rx_skip_group_id63
6822      * 34 phyrx_err_ofdm_ldpc_decoder_disabled
6823      * 35 phyrx_err_defer_nap
6824      * 36 phyrx_err_fdomain_timeout
6825      * 37 phyrx_err_lsig_rel_check
6826      * 38 phyrx_err_bt_collision
6827      * 39 phyrx_err_unsupported_mu_feedback
6828      * 40 phyrx_err_ppdu_tx_interrupt_rx
6829      * 41 phyrx_err_unsupported_cbf
6830      * 42 phyrx_err_other
6831      */
6832     A_UINT32 phy_err[HTT_STATS_PHY_ERR_MAX];
6833 } htt_stats_rx_pdev_fw_stats_phy_err_tlv;
6834 /* preserve old name alias for new name consistent with the tag name */
6835 typedef htt_stats_rx_pdev_fw_stats_phy_err_tlv htt_rx_pdev_fw_stats_phy_err_tlv;
6836 
6837 #define HTT_RX_PDEV_FW_RING_MPDU_ERR_TLV_SZ(_num_elems) (sizeof(A_UINT32) * (_num_elems))
6838 
6839 /* NOTE: Variable length TLV, use length spec to infer array size */
6840 typedef struct {
6841     htt_tlv_hdr_t tlv_hdr;
6842     /** fw_ring_mpdu_err:
6843      * Num error MPDU for each RxDMA error type,
6844      * HTT_RX_STATS_RXDMA_MAX_ERR
6845      */
6846     HTT_STATS_VAR_LEN_ARRAY1(A_UINT32, fw_ring_mpdu_err);
6847 } htt_stats_rx_pdev_fw_ring_mpdu_err_tlv;
6848 /* preserve old name alias for new name consistent with the tag name */
6849 typedef htt_stats_rx_pdev_fw_ring_mpdu_err_tlv
6850     htt_rx_pdev_fw_ring_mpdu_err_tlv_v;
6851 
6852 #define HTT_RX_PDEV_FW_MPDU_DROP_TLV_SZ(_num_elems) (sizeof(A_UINT32) * (_num_elems))
6853 
6854 /* NOTE: Variable length TLV, use length spec to infer array size */
6855 typedef struct {
6856     htt_tlv_hdr_t tlv_hdr;
6857     /** fw_mpdu_drop:
6858      * Num MPDU dropped,
6859      * HTT_RX_STATS_FW_DROP_REASON_MAX
6860      */
6861     HTT_STATS_VAR_LEN_ARRAY1(A_UINT32, fw_mpdu_drop);
6862 } htt_stats_rx_pdev_fw_mpdu_drop_tlv;
6863 /* preserve old name alias for new name consistent with the tag name */
6864 typedef htt_stats_rx_pdev_fw_mpdu_drop_tlv htt_rx_pdev_fw_mpdu_drop_tlv_v;
6865 
6866 /* STATS_TYPE : HTT_DBG_EXT_STATS_PDEV_RX
6867  * TLV_TAGS:
6868  *      - HTT_STATS_RX_SOC_FW_STATS_TAG (head TLV in soc_stats)
6869  *      - HTT_STATS_RX_SOC_FW_REFILL_RING_EMPTY_TAG (inside soc_stats)
6870  *      - HTT_STATS_RX_SOC_FW_REFILL_RING_NUM_REFILL_TAG (inside soc_stats)
6871  *      - HTT_STATS_RX_PDEV_FW_STATS_TAG
6872  *      - HTT_STATS_RX_PDEV_FW_RING_MPDU_ERR_TAG
6873  *      - HTT_STATS_RX_PDEV_FW_MPDU_DROP_TAG
6874  */
6875 /* NOTE:
6876  * This structure is for documentation, and cannot be safely used directly.
6877  * Instead, use the constituent TLV structures to fill/parse.
6878  */
6879 #ifdef ATH_TARGET
6880 typedef struct {
6881     htt_rx_soc_stats_t                     soc_stats;
6882     htt_stats_rx_pdev_fw_stats_tlv         fw_stats_tlv;
6883     htt_stats_rx_pdev_fw_ring_mpdu_err_tlv fw_ring_mpdu_err_tlv;
6884     htt_stats_rx_pdev_fw_mpdu_drop_tlv     fw_ring_mpdu_drop;
6885     htt_stats_rx_pdev_fw_stats_phy_err_tlv fw_stats_phy_err_tlv;
6886 } htt_rx_pdev_stats_t;
6887 #endif /* ATH_TARGET */
6888 
6889 /* STATS_TYPE : HTT_DBG_EXT_PEER_CTRL_PATH_TXRX_STATS
6890  * TLV_TAGS:
6891  *      - HTT_STATS_PEER_CTRL_PATH_TXRX_STATS_TAG
6892  *
6893  */
6894 #ifdef ATH_TARGET
6895 typedef struct {
6896     htt_stats_peer_ctrl_path_txrx_stats_tlv peer_ctrl_path_txrx_stats_tlv;
6897 } htt_ctrl_path_txrx_stats_t;
6898 #endif /* ATH_TARGET */
6899 
6900 #define HTT_PDEV_CCA_STATS_TX_FRAME_INFO_PRESENT (0x1)
6901 #define HTT_PDEV_CCA_STATS_RX_FRAME_INFO_PRESENT (0x2)
6902 #define HTT_PDEV_CCA_STATS_RX_CLEAR_INFO_PRESENT (0x4)
6903 #define HTT_PDEV_CCA_STATS_MY_RX_FRAME_INFO_PRESENT (0x8)
6904 #define HTT_PDEV_CCA_STATS_USEC_CNT_INFO_PRESENT (0x10)
6905 #define HTT_PDEV_CCA_STATS_MED_RX_IDLE_INFO_PRESENT (0x20)
6906 #define HTT_PDEV_CCA_STATS_MED_TX_IDLE_GLOBAL_INFO_PRESENT (0x40)
6907 #define HTT_PDEV_CCA_STATS_CCA_OBBS_USEC_INFO_PRESENT (0x80)
6908 
6909 typedef struct {
6910     htt_tlv_hdr_t tlv_hdr;
6911 
6912     /* Below values are obtained from the HW Cycles counter registers */
6913     A_UINT32 tx_frame_usec;
6914     A_UINT32 rx_frame_usec;
6915     A_UINT32 rx_clear_usec;
6916     A_UINT32 my_rx_frame_usec;
6917     A_UINT32 usec_cnt;
6918     A_UINT32 med_rx_idle_usec;
6919     A_UINT32 med_tx_idle_global_usec;
6920     A_UINT32 cca_obss_usec;
6921     A_UINT32 pre_rx_frame_usec;
6922 } htt_stats_pdev_cca_counters_tlv;
6923 /* preserve old name alias for new name consistent with the tag name */
6924 typedef htt_stats_pdev_cca_counters_tlv htt_pdev_stats_cca_counters_tlv;
6925 
6926 /* NOTE: THIS htt_pdev_cca_stats_hist_tlv STRUCTURE IS DEPRECATED,
6927  * due to lack of support in some host stats infrastructures for
6928  * TLVs nested within TLVs.
6929  */
6930 typedef struct {
6931     htt_tlv_hdr_t tlv_hdr;
6932 
6933     /** The channel number on which these stats were collected */
6934     A_UINT32 chan_num;
6935 
6936     /** num of CCA records (Num of htt_pdev_stats_cca_counters_tlv)*/
6937     A_UINT32 num_records;
6938 
6939     /**
6940      * Bit map of valid CCA counters
6941      * Bit0 - tx_frame_usec
6942      * Bit1 - rx_frame_usec
6943      * Bit2 - rx_clear_usec
6944      * Bit3 - my_rx_frame_usec
6945      * bit4 - usec_cnt
6946      * Bit5 - med_rx_idle_usec
6947      * Bit6 - med_tx_idle_global_usec
6948      * Bit7 - cca_obss_usec
6949      *
6950      * See HTT_PDEV_CCA_STATS_xxx_INFO_PRESENT defs
6951      */
6952     A_UINT32 valid_cca_counters_bitmap;
6953 
6954     /** Indicates the stats collection interval
6955      *  Valid Values:
6956      *      100        - For the 100ms interval CCA stats histogram
6957      *      1000       - For 1sec interval CCA histogram
6958      *      0xFFFFFFFF - For Cumulative CCA Stats
6959      */
6960     A_UINT32 collection_interval;
6961 
6962     /**
6963      * This will be followed by an array which contains the CCA stats
6964      * collected in the last N intervals,
6965      * if the indication is for last N intervals CCA stats.
6966      * Then the pdev_cca_stats[0] element contains the oldest CCA stats
6967      * and pdev_cca_stats[N-1] will have the most recent CCA stats.
6968      */
6969     HTT_STATS_VAR_LEN_ARRAY1(htt_stats_pdev_cca_counters_tlv, cca_hist_tlv);
6970 } htt_pdev_cca_stats_hist_tlv;
6971 
6972 typedef struct {
6973     htt_tlv_hdr_t tlv_hdr;
6974 
6975     /** The channel number on which these stats were collected */
6976     A_UINT32 chan_num;
6977 
6978     /** num of CCA records (Num of htt_pdev_stats_cca_counters_tlv)*/
6979     A_UINT32 num_records;
6980 
6981     /**
6982      * Bit map of valid CCA counters
6983      * Bit0 - tx_frame_usec
6984      * Bit1 - rx_frame_usec
6985      * Bit2 - rx_clear_usec
6986      * Bit3 - my_rx_frame_usec
6987      * bit4 - usec_cnt
6988      * Bit5 - med_rx_idle_usec
6989      * Bit6 - med_tx_idle_global_usec
6990      * Bit7 - cca_obss_usec
6991      *
6992      * See HTT_PDEV_CCA_STATS_xxx_INFO_PRESENT defs
6993      */
6994     A_UINT32 valid_cca_counters_bitmap;
6995 
6996     /** Indicates the stats collection interval
6997      *  Valid Values:
6998      *      100        - For the 100ms interval CCA stats histogram
6999      *      1000       - For 1sec interval CCA histogram
7000      *      0xFFFFFFFF - For Cumulative CCA Stats
7001      */
7002     A_UINT32 collection_interval;
7003 
7004     /**
7005      * This will be followed by an array which contains the CCA stats
7006      * collected in the last N intervals,
7007      * if the indication is for last N intervals CCA stats.
7008      * Then the pdev_cca_stats[0] element contains the oldest CCA stats
7009      * and pdev_cca_stats[N-1] will have the most recent CCA stats.
7010      * htt_pdev_stats_cca_counters_tlv cca_hist_tlv[1];
7011      */
7012 } htt_pdev_cca_stats_hist_v1_tlv;
7013 
7014 #define HTT_TWT_SESSION_FLAG_FLOW_ID_M 0x0000000f
7015 #define HTT_TWT_SESSION_FLAG_FLOW_ID_S 0
7016 
7017 #define HTT_TWT_SESSION_FLAG_BTWT_PEER_CNT_M 0x0000fff0
7018 #define HTT_TWT_SESSION_FLAG_BTWT_PEER_CNT_S 4
7019 
7020 #define HTT_TWT_SESSION_FLAG_BCAST_TWT_M 0x00010000
7021 #define HTT_TWT_SESSION_FLAG_BCAST_TWT_S 16
7022 
7023 #define HTT_TWT_SESSION_FLAG_TRIGGER_TWT_M 0x00020000
7024 #define HTT_TWT_SESSION_FLAG_TRIGGER_TWT_S 17
7025 
7026 #define HTT_TWT_SESSION_FLAG_ANNOUN_TWT_M 0x00040000
7027 #define HTT_TWT_SESSION_FLAG_ANNOUN_TWT_S 18
7028 
7029 #define HTT_TWT_SESSION_FLAG_FLOW_ID_GET(_var) \
7030     (((_var) & HTT_TWT_SESSION_FLAG_FLOW_ID_M) >> \
7031      HTT_TWT_SESSION_FLAG_FLOW_ID_S)
7032 
7033 #define HTT_TWT_SESSION_FLAG_FLOW_ID_SET(_var, _val) \
7034     do { \
7035         HTT_CHECK_SET_VAL(HTT_TWT_SESSION_FLAG_FLOW_ID, _val); \
7036         ((_var) |= ((_val) << HTT_TWT_SESSION_FLAG_FLOW_ID_S)); \
7037     } while (0)
7038 
7039 #define HTT_TWT_SESSION_FLAG_BTWT_PEER_CNT_GET(_var) \
7040     (((_var) & HTT_TWT_SESSION_FLAG_BTWT_PEER_CNT_M) >> \
7041      HTT_TWT_SESSION_FLAG_BTWT_PEER_CNT_S)
7042 
7043 #define HTT_TWT_SESSION_FLAG_BTWT_PEER_CNT_SET(_var, _val) \
7044     do { \
7045         HTT_CHECK_SET_VAL(HTT_TWT_SESSION_FLAG_BTWT_PEER_CNT, _val); \
7046         ((_var) |= ((_val) << HTT_TWT_SESSION_FLAG_BTWT_PEER_CNT_S)); \
7047     } while (0)
7048 
7049 #define HTT_TWT_SESSION_FLAG_BCAST_TWT_GET(_var) \
7050     (((_var) & HTT_TWT_SESSION_FLAG_BCAST_TWT_M) >> \
7051      HTT_TWT_SESSION_FLAG_BCAST_TWT_S)
7052 
7053 #define HTT_TWT_SESSION_FLAG_BCAST_TWT_SET(_var, _val) \
7054     do { \
7055         HTT_CHECK_SET_VAL(HTT_TWT_SESSION_FLAG_BCAST_TWT, _val); \
7056         ((_var) |= ((_val) << HTT_TWT_SESSION_FLAG_BCAST_TWT_S)); \
7057     } while (0)
7058 
7059 #define HTT_TWT_SESSION_FLAG_TRIGGER_TWT_GET(_var) \
7060     (((_var) & HTT_TWT_SESSION_FLAG_TRIGGER_TWT_M) >> \
7061      HTT_TWT_SESSION_FLAG_TRIGGER_TWT_S)
7062 
7063 #define HTT_TWT_SESSION_FLAG_TRIGGER_TWT_SET(_var, _val) \
7064     do { \
7065         HTT_CHECK_SET_VAL(HTT_TWT_SESSION_FLAG_TRIGGER_TWT, _val); \
7066         ((_var) |= ((_val) << HTT_TWT_SESSION_FLAG_TRIGGER_TWT_S)); \
7067     } while (0)
7068 
7069 #define HTT_TWT_SESSION_FLAG_ANNOUN_TWT_GET(_var) \
7070     (((_var) & HTT_TWT_SESSION_FLAG_ANNOUN_TWT_M) >> \
7071      HTT_TWT_SESSION_FLAG_ANNOUN_TWT_S)
7072 
7073 #define HTT_TWT_SESSION_FLAG_ANNOUN_TWT_SET(_var, _val) \
7074     do { \
7075         HTT_CHECK_SET_VAL(HTT_TWT_SESSION_FLAG_ANNOUN_TWT, _val); \
7076         ((_var) |= ((_val) << HTT_TWT_SESSION_FLAG_ANNOUN_TWT_S)); \
7077     } while (0)
7078 
7079 #define TWT_DIALOG_ID_UNAVAILABLE 0xFFFFFFFF
7080 
7081 typedef struct {
7082     htt_tlv_hdr_t tlv_hdr;
7083 
7084     A_UINT32     vdev_id;
7085     htt_mac_addr peer_mac;
7086     A_UINT32     flow_id_flags;
7087     /**
7088      * TWT_DIALOG_ID_UNAVAILABLE is used when TWT session is
7089      * not initiated by host
7090      */
7091     A_UINT32     dialog_id;
7092     A_UINT32     wake_dura_us;
7093     A_UINT32     wake_intvl_us;
7094     A_UINT32     sp_offset_us;
7095 } htt_stats_pdev_twt_session_tlv;
7096 /* preserve old name alias for new name consistent with the tag name */
7097 typedef htt_stats_pdev_twt_session_tlv htt_pdev_stats_twt_session_tlv;
7098 
7099 typedef struct {
7100     htt_tlv_hdr_t tlv_hdr;
7101 
7102     A_UINT32 pdev_id;
7103     A_UINT32 num_sessions;
7104 
7105     HTT_STATS_VAR_LEN_ARRAY1(htt_stats_pdev_twt_session_tlv, twt_session);
7106 } htt_stats_pdev_twt_sessions_tlv;
7107 /* preserve old name alias for new name consistent with the tag name */
7108 typedef htt_stats_pdev_twt_sessions_tlv htt_pdev_stats_twt_sessions_tlv;
7109 
7110 /* STATS_TYPE: HTT_DBG_EXT_STATS_TWT_SESSIONS
7111  * TLV_TAGS:
7112  *     - HTT_STATS_PDEV_TWT_SESSIONS_TAG
7113  *     - HTT_STATS_PDEV_TWT_SESSION_TAG
7114  */
7115 /* NOTE:
7116  * This structure is for documentation, and cannot be safely used directly.
7117  * Instead, use the constituent TLV structures to fill/parse.
7118  */
7119 #ifdef ATH_TARGET
7120 typedef struct {
7121     htt_stats_pdev_twt_session_tlv twt_sessions[1];
7122 } htt_pdev_twt_sessions_stats_t;
7123 #endif /* ATH_TARGET */
7124 
7125 typedef enum {
7126     /* Global link descriptor queued in REO */
7127     HTT_RX_REO_RESOURCE_GLOBAL_LINK_DESC_COUNT_0 = 0,
7128     HTT_RX_REO_RESOURCE_GLOBAL_LINK_DESC_COUNT_1 = 1,
7129     HTT_RX_REO_RESOURCE_GLOBAL_LINK_DESC_COUNT_2 = 2,
7130     /*Number of queue descriptors of this aging group */
7131     HTT_RX_REO_RESOURCE_BUFFERS_USED_AC0     = 3,
7132     HTT_RX_REO_RESOURCE_BUFFERS_USED_AC1     = 4,
7133     HTT_RX_REO_RESOURCE_BUFFERS_USED_AC2     = 5,
7134     HTT_RX_REO_RESOURCE_BUFFERS_USED_AC3     = 6,
7135     /* Total number of MSDUs buffered in AC */
7136     HTT_RX_REO_RESOURCE_AGING_NUM_QUEUES_AC0 = 7,
7137     HTT_RX_REO_RESOURCE_AGING_NUM_QUEUES_AC1 = 8,
7138     HTT_RX_REO_RESOURCE_AGING_NUM_QUEUES_AC2 = 9,
7139     HTT_RX_REO_RESOURCE_AGING_NUM_QUEUES_AC3 = 10,
7140 
7141     HTT_RX_REO_RESOURCE_STATS_MAX = 16
7142 } htt_rx_reo_resource_sample_id_enum;
7143 
7144 typedef struct {
7145     htt_tlv_hdr_t tlv_hdr;
7146     /* Variable based on the Number of records. HTT_RX_REO_RESOURCE_STATS_MAX */
7147     /** htt_rx_reo_debug_sample_id_enum */
7148     A_UINT32 sample_id;
7149     /** Max value of all samples */
7150     A_UINT32 total_max;
7151     /** Average value of total samples */
7152     A_UINT32 total_avg;
7153     /** Num of samples including both zeros and non zeros ones*/
7154     A_UINT32 total_sample;
7155     /** Average value of all non zeros samples */
7156     A_UINT32 non_zeros_avg;
7157     /** Num of non zeros samples */
7158     A_UINT32 non_zeros_sample;
7159     /** Max value of last N non zero samples (N = last_non_zeros_sample) */
7160     A_UINT32 last_non_zeros_max;
7161     /** Min value of last N non zero samples (N = last_non_zeros_sample) */
7162     A_UINT32 last_non_zeros_min;
7163     /** Average value of last N non zero samples (N = last_non_zeros_sample) */
7164     A_UINT32 last_non_zeros_avg;
7165     /** Num of last non zero samples */
7166     A_UINT32 last_non_zeros_sample;
7167 } htt_stats_rx_reo_resource_stats_tlv;
7168 /* preserve old name alias for new name consistent with the tag name */
7169 typedef htt_stats_rx_reo_resource_stats_tlv htt_rx_reo_resource_stats_tlv_v;
7170 
7171 /* STATS_TYPE: HTT_DBG_EXT_STATS_REO_RESOURCE_STATS
7172  * TLV_TAGS:
7173  *     - HTT_STATS_RX_REO_RESOURCE_STATS_TAG
7174  */
7175 /* NOTE:
7176  * This structure is for documentation, and cannot be safely used directly.
7177  * Instead, use the constituent TLV structures to fill/parse.
7178  */
7179 #ifdef ATH_TARGET
7180 typedef struct {
7181     htt_stats_rx_reo_resource_stats_tlv reo_resource_stats;
7182 } htt_soc_reo_resource_stats_t;
7183 #endif /* ATH_TARGET */
7184 
7185 /* == TX SOUNDING STATS == */
7186 
7187 /* config_param0 */
7188 
7189 #define HTT_DBG_EXT_STATS_SET_VDEV_MASK(_var) ((_var << 1) | 0x1)
7190 #define HTT_DBG_EXT_STATS_GET_VDEV_ID_FROM_VDEV_MASK(_var) ((_var >> 1) & 0xFF)
7191 #define HTT_DBG_EXT_STATS_IS_VDEV_ID_SET(_var) ((_var) & 0x1)
7192 
7193 typedef enum {
7194     /* Implicit beamforming stats */
7195     HTT_IMPLICIT_TXBF_STEER_STATS = 0,
7196     /* Single user short inter frame sequence steer stats */
7197     HTT_EXPLICIT_TXBF_SU_SIFS_STEER_STATS = 1,
7198     /* Single user random back off steer stats */
7199     HTT_EXPLICIT_TXBF_SU_RBO_STEER_STATS  = 2,
7200     /* Multi user short inter frame sequence steer stats */
7201     HTT_EXPLICIT_TXBF_MU_SIFS_STEER_STATS = 3,
7202     /* Multi user random back off steer stats */
7203     HTT_EXPLICIT_TXBF_MU_RBO_STEER_STATS  = 4,
7204     /* For backward compatibility new modes cannot be added */
7205     HTT_TXBF_MAX_NUM_OF_MODES = 5
7206 } htt_txbf_sound_steer_modes;
7207 
7208 typedef enum {
7209     HTT_TX_AC_SOUNDING_MODE  = 0,
7210     HTT_TX_AX_SOUNDING_MODE  = 1,
7211     HTT_TX_BE_SOUNDING_MODE  = 2,
7212     HTT_TX_CMN_SOUNDING_MODE = 3,
7213     HTT_TX_CV_CORR_MODE      = 4,
7214 } htt_stats_sounding_tx_mode;
7215 
7216 #define HTT_TX_CV_CORR_MAX_NUM_COLUMNS 8
7217 
7218 typedef struct {
7219     htt_tlv_hdr_t tlv_hdr;
7220     A_UINT32      tx_sounding_mode; /* HTT_TX_XX_SOUNDING_MODE */
7221     /* Counts number of soundings for all steering modes in each bw */
7222     A_UINT32 cbf_20[HTT_TXBF_MAX_NUM_OF_MODES];
7223     A_UINT32 cbf_40[HTT_TXBF_MAX_NUM_OF_MODES];
7224     A_UINT32 cbf_80[HTT_TXBF_MAX_NUM_OF_MODES];
7225     A_UINT32 cbf_160[HTT_TXBF_MAX_NUM_OF_MODES];
7226     /**
7227      * The sounding array is a 2-D array stored as an 1-D array of
7228      * A_UINT32. The stats for a particular user/bw combination is
7229      * referenced with the following:
7230      *
7231      *          sounding[(user* max_bw) + bw]
7232      *
7233      * ... where max_bw == 4 for 160mhz
7234      */
7235     A_UINT32 sounding[HTT_TX_NUM_OF_SOUNDING_STATS_WORDS];
7236 
7237     /* cv upload handler stats */
7238     /** total times CV nc mismatched */
7239     A_UINT32 cv_nc_mismatch_err;
7240     /** total times CV has FCS error */
7241     A_UINT32 cv_fcs_err;
7242     /** total times CV has invalid NSS index */
7243     A_UINT32 cv_frag_idx_mismatch;
7244     /** total times CV has invalid SW peer ID */
7245     A_UINT32 cv_invalid_peer_id;
7246     /** total times CV rejected because TXBF is not setup in peer */
7247     A_UINT32 cv_no_txbf_setup;
7248     /** total times CV expired while in updating state */
7249     A_UINT32 cv_expiry_in_update;
7250     /** total times Pkt b/w exceeding the cbf_bw */
7251     A_UINT32 cv_pkt_bw_exceed;
7252     /** total times CV DMA not completed */
7253     A_UINT32 cv_dma_not_done_err;
7254     /** total times CV update to peer failed */
7255     A_UINT32 cv_update_failed;
7256 
7257     /* cv query stats */
7258     /** total times CV query happened */
7259     A_UINT32 cv_total_query;
7260     /** total pattern based CV query */
7261     A_UINT32 cv_total_pattern_query;
7262     /** total BW based CV query */
7263     A_UINT32 cv_total_bw_query;
7264     /** incorrect encoding in CV flags */
7265     A_UINT32 cv_invalid_bw_coding;
7266     /** forced sounding enabled for the peer */
7267     A_UINT32 cv_forced_sounding;
7268     /** standalone sounding sequence on-going */
7269     A_UINT32 cv_standalone_sounding;
7270     /** NC of available CV lower than expected */
7271     A_UINT32 cv_nc_mismatch;
7272     /** feedback type different from expected */
7273     A_UINT32 cv_fb_type_mismatch;
7274     /** CV BW not equal to expected BW for OFDMA */
7275     A_UINT32 cv_ofdma_bw_mismatch;
7276     /** CV BW not greater than or equal to expected BW */
7277     A_UINT32 cv_bw_mismatch;
7278     /** CV pattern not matching with the expected pattern */
7279     A_UINT32 cv_pattern_mismatch;
7280     /** CV available is of different preamble type than expected. */
7281     A_UINT32 cv_preamble_mismatch;
7282     /** NR of available CV is lower than expected. */
7283     A_UINT32 cv_nr_mismatch;
7284     /** CV in use count has exceeded threshold and cannot be used further. */
7285     A_UINT32 cv_in_use_cnt_exceeded;
7286     /** A valid CV has been found. */
7287     A_UINT32 cv_found;
7288     /** No valid CV was found. */
7289     A_UINT32 cv_not_found;
7290     /** Sounding per user in 320MHz bandwidth */
7291     A_UINT32 sounding_320[HTT_TX_PDEV_STATS_NUM_BE_MUMIMO_USER_STATS];
7292     /** Counts number of soundings for all steering modes in 320MHz bandwidth */
7293     A_UINT32 cbf_320[HTT_TXBF_MAX_NUM_OF_MODES];
7294     /* This part can be used for new counters added for CV query/upload. */
7295     /** non-trigger based ranging sequence on-going */
7296     A_UINT32 cv_ntbr_sounding;
7297     /** CV found, but upload is in progress. */
7298     A_UINT32 cv_found_upload_in_progress;
7299     /** Expired CV found during query. */
7300     A_UINT32 cv_expired_during_query;
7301     /** total times CV dma timeout happened */
7302     A_UINT32 cv_dma_timeout_error;
7303     /** total times CV bufs uploaded for IBF case */
7304     A_UINT32 cv_buf_ibf_uploads;
7305     /** total times CV bufs uploaded for EBF case */
7306     A_UINT32 cv_buf_ebf_uploads;
7307     /** total times CV bufs received from IPC ring */
7308     A_UINT32 cv_buf_received;
7309     /** total times CV bufs fed back to the IPC ring */
7310     A_UINT32 cv_buf_fed_back;
7311     /** Total times CV query happened for IBF case */
7312     A_UINT32 cv_total_query_ibf;
7313     /** A valid CV has been found for IBF case */
7314     A_UINT32 cv_found_ibf;
7315     /** A valid CV has not been found for IBF case */
7316     A_UINT32 cv_not_found_ibf;
7317     /** Expired CV found during query for IBF case */
7318     A_UINT32 cv_expired_during_query_ibf;
7319     /** Total number of times adaptive sounding logic has been queried */
7320     A_UINT32 adaptive_snd_total_query;
7321     /**
7322      * Total number of times adaptive sounding mcs drop has been computed
7323      * and recorded.
7324      */
7325     A_UINT32 adaptive_snd_total_mcs_drop[HTT_TX_PDEV_STATS_NUM_MCS_COUNTERS + HTT_TX_PDEV_STATS_NUM_EXTRA_MCS_COUNTERS];
7326     /** Total number of times adaptive sounding logic kicked in */
7327     A_UINT32 adaptive_snd_kicked_in;
7328     /** Total number of times we switched back to normal sounding interval */
7329     A_UINT32 adaptive_snd_back_to_default;
7330 
7331     /**
7332      * Below are CV correlation feature related stats.
7333      * This feature is used for DL MU MIMO, but is not available
7334      * from certain legacy targets.
7335      */
7336 
7337     /** number of CV Correlation triggers for online mode */
7338     A_UINT32 cv_corr_trigger_online_mode;
7339     /** number of CV Correlation triggers for offline mode */
7340     A_UINT32 cv_corr_trigger_offline_mode;
7341     /** number of CV Correlation triggers for hybrid mode */
7342     A_UINT32 cv_corr_trigger_hybrid_mode;
7343     /** number of CV Correlation triggers with computation level 0 */
7344     A_UINT32 cv_corr_trigger_computation_level_0;
7345     /** number of CV Correlation triggers with computation level 1 */
7346     A_UINT32 cv_corr_trigger_computation_level_1;
7347     /** number of CV Correlation triggers with computation level 2 */
7348     A_UINT32 cv_corr_trigger_computation_level_2;
7349     /** number of users for which CV Correlation was triggered */
7350     A_UINT32 cv_corr_trigger_num_users[HTT_TX_CV_CORR_MAX_NUM_COLUMNS];
7351     /** number of streams for which CV Correlation was triggered */
7352     A_UINT32 cv_corr_trigger_num_streams[HTT_TX_CV_CORR_MAX_NUM_COLUMNS];
7353     /** number of CV Correlation buffers received through IPC tickle */
7354     A_UINT32 cv_corr_upload_total_buf_received;
7355     /** number of CV Correlation buffers fed back to the IPC ring */
7356     A_UINT32 cv_corr_upload_total_buf_fed_back;
7357     /** number of CV Correlation buffers for which processing failed */
7358     A_UINT32 cv_corr_upload_total_processing_failed;
7359     /**
7360      * number of CV Correlation buffers for which processing failed,
7361      * due to no users being present in parsed buffer
7362      */
7363     A_UINT32 cv_corr_upload_failed_total_users_zero;
7364     /**
7365      * number of CV Correlation buffers for which processing failed,
7366      * due to number of users present in parsed buffer exceeded
7367      * CV_CORR_MAX_NUM_COLUMNS
7368      */
7369     A_UINT32 cv_corr_upload_failed_total_users_exceeded;
7370     /**
7371      * number of CV Correlation buffers for which processing failed,
7372      * due to peer pointer for parsed peer not available
7373      */
7374     A_UINT32 cv_corr_upload_failed_peer_not_found;
7375     /**
7376      * number of CV Correlation buffers for which processing encountered,
7377      * Nss of peer exceeding SCHED_ALGO_MAX_SUPPORTED_MUMIMO_NSS
7378      */
7379     A_UINT32 cv_corr_upload_user_nss_exceeded;
7380     /**
7381      * number of CV Correlation buffers for which processing encountered,
7382      * invalid reverse look up index for fetching CV correlation results
7383      */
7384     A_UINT32 cv_corr_upload_invalid_lookup_index;
7385     /** number of users present in uploaded CV Correlation results buffer */
7386     A_UINT32 cv_corr_upload_total_num_users[HTT_TX_CV_CORR_MAX_NUM_COLUMNS];
7387     /** number of streams present in uploaded CV Correlation results buffer */
7388     A_UINT32 cv_corr_upload_total_num_streams[HTT_TX_CV_CORR_MAX_NUM_COLUMNS];
7389 } htt_stats_tx_sounding_stats_tlv;
7390 /* preserve old name alias for new name consistent with the tag name */
7391 typedef htt_stats_tx_sounding_stats_tlv htt_tx_sounding_stats_tlv;
7392 
7393 /* STATS_TYPE : HTT_DBG_EXT_STATS_TX_SOUNDING_INFO
7394  * TLV_TAGS:
7395  *      - HTT_STATS_TX_SOUNDING_STATS_TAG
7396  */
7397 /* NOTE:
7398  * This structure is for documentation, and cannot be safely used directly.
7399  * Instead, use the constituent TLV structures to fill/parse.
7400  */
7401 #ifdef ATH_TARGET
7402 typedef struct {
7403     htt_stats_tx_sounding_stats_tlv sounding_tlv;
7404 } htt_tx_sounding_stats_t;
7405 #endif /* ATH_TARGET */
7406 
7407 typedef struct {
7408     htt_tlv_hdr_t tlv_hdr;
7409 
7410     A_UINT32 num_obss_tx_ppdu_success;
7411     A_UINT32 num_obss_tx_ppdu_failure;
7412     /** num_sr_tx_transmissions:
7413      * Counter of TX done by aborting other BSS RX with spatial reuse
7414      * (for cases where rx RSSI from other BSS is below the packet-detection
7415      * threshold for doing spatial reuse)
7416      */
7417     union {
7418         A_UINT32 num_sr_tx_transmissions; /* CORRECTED - use this one */
7419         A_UINT32 num_sr_tx_tranmissions;  /* DEPRECATED - has typo in name */
7420     };
7421     union {
7422         /**
7423          * Count the number of times the RSSI from an other-BSS signal
7424          * is below the spatial reuse power threshold, thus providing an
7425          * opportunity for spatial reuse since OBSS interference will be
7426          * inconsequential.
7427          */
7428         A_UINT32 num_spatial_reuse_opportunities;
7429 
7430         /* DEPRECATED: num_sr_rx_ge_pd_rssi_thr
7431          * This old name has been deprecated because it does not
7432          * clearly and accurately reflect the information stored within
7433          * this field.
7434          * Use the new name (num_spatial_reuse_opportunities) instead of
7435          * the deprecated old name (num_sr_rx_ge_pd_rssi_thr).
7436          */
7437         A_UINT32 num_sr_rx_ge_pd_rssi_thr;
7438     };
7439 
7440     /**
7441      * Count of number of times OBSS frames were aborted and non-SRG
7442      * opportunities were created. Non-SRG opportunities are created when
7443      * incoming OBSS RSSI is lesser than the global configured non-SRG RSSI
7444      * threshold and non-SRG OBSS color / non-SRG OBSS BSSID registers
7445      * allow non-SRG TX.
7446      */
7447     A_UINT32 num_non_srg_opportunities;
7448     /**
7449      * Count of number of times TX PPDU were transmitted using non-SRG
7450      * opportunities created. Incoming OBSS frame RSSI is compared with per
7451      * PPDU non-SRG RSSI threshold configured in each PPDU. If incoming OBSS
7452      * RSSI < non-SRG RSSI threshold configured in each PPDU, then non-SRG
7453      * transmission happens.
7454      */
7455     A_UINT32 num_non_srg_ppdu_tried;
7456     /**
7457      * Count of number of times non-SRG based TX transmissions were successful
7458      */
7459     A_UINT32 num_non_srg_ppdu_success;
7460     /**
7461      * Count of number of times OBSS frames were aborted and SRG opportunities
7462      * were created. Srg opportunities are created when incoming OBSS RSSI
7463      * is less than the global configured SRG RSSI threshold and SRC OBSS
7464      * color / SRG OBSS BSSID / SRG partial bssid / SRG BSS color bitmap
7465      * registers allow SRG TX.
7466      */
7467     A_UINT32 num_srg_opportunities;
7468     /**
7469      * Count of number of times TX PPDU were transmitted using SRG
7470      * opportunities created.
7471      * Incoming OBSS frame RSSI is compared with per PPDU SRG RSSI
7472      * threshold configured in each PPDU.
7473      * If incoming OBSS RSSI < SRG RSSI threshold configured in each PPDU,
7474      * then SRG transmission happens.
7475      */
7476     A_UINT32 num_srg_ppdu_tried;
7477     /**
7478      * Count of number of times SRG based TX transmissions were successful
7479      */
7480     A_UINT32 num_srg_ppdu_success;
7481     /**
7482      * Count of number of times PSR opportunities were created by aborting
7483      * OBSS UL OFDMA HE-TB PPDU frame. HE-TB ppdu frames are aborted if the
7484      * spatial reuse info in the OBSS trigger common field is set to allow PSR
7485      * based spatial reuse.
7486      */
7487     A_UINT32 num_psr_opportunities;
7488     /**
7489      * Count of number of times TX PPDU were transmitted using PSR
7490      * opportunities created.
7491      */
7492     A_UINT32 num_psr_ppdu_tried;
7493     /**
7494      * Count of number of times PSR based TX transmissions were successful.
7495      */
7496     A_UINT32 num_psr_ppdu_success;
7497     /**
7498      * Count of number of times TX PPDU per access category were transmitted
7499      * using non-SRG opportunities created.
7500      */
7501     A_UINT32 num_non_srg_ppdu_tried_per_ac[HTT_NUM_AC_WMM];
7502     /**
7503      * Count of number of times non-SRG based TX transmissions per access
7504      * category were successful
7505      */
7506     A_UINT32 num_non_srg_ppdu_success_per_ac[HTT_NUM_AC_WMM];
7507     /**
7508      * Count of number of times TX PPDU per access category were transmitted
7509      * using SRG opportunities created.
7510      */
7511     A_UINT32 num_srg_ppdu_tried_per_ac[HTT_NUM_AC_WMM];
7512     /**
7513      * Count of number of times SRG based TX transmissions per access
7514      * category were successful
7515      */
7516     A_UINT32 num_srg_ppdu_success_per_ac[HTT_NUM_AC_WMM];
7517     /**
7518      * Count of number of times ppdu was flushed due to ongoing OBSS
7519      * frame duration value lesser than minimum required frame duration.
7520      */
7521     A_UINT32 num_obss_min_duration_check_flush_cnt;
7522     /**
7523      * Count of number of times ppdu was flushed due to ppdu duration
7524      * exceeding aborted OBSS frame duration
7525      */
7526     A_UINT32 num_sr_ppdu_abort_flush_cnt;
7527 } htt_stats_pdev_obss_pd_tlv;
7528 /* preserve old name alias for new name consistent with the tag name */
7529 typedef htt_stats_pdev_obss_pd_tlv htt_pdev_obss_pd_stats_tlv;
7530 
7531 /* NOTE:
7532  * This structure is for documentation, and cannot be safely used directly.
7533  * Instead, use the constituent TLV structures to fill/parse.
7534  */
7535 #ifdef ATH_TARGET
7536 typedef struct {
7537     htt_stats_pdev_obss_pd_tlv obss_pd_stat;
7538 } htt_pdev_obss_pd_stats_t;
7539 #endif /* ATH_TARGET */
7540 
7541 typedef struct {
7542     htt_tlv_hdr_t tlv_hdr;
7543     A_UINT32 pdev_id;
7544     A_UINT32 current_head_idx;
7545     A_UINT32 current_tail_idx;
7546     A_UINT32 num_htt_msgs_sent;
7547     /**
7548      * Time in milliseconds for which the ring has been in
7549      * its current backpressure condition
7550      */
7551     A_UINT32 backpressure_time_ms;
7552     /** backpressure_hist -
7553      * histogram showing how many times different degrees of backpressure
7554      * duration occurred:
7555      * Index 0 indicates the number of times ring was
7556      * continuously in backpressure state for 100 - 200ms.
7557      * Index 1 indicates the number of times ring was
7558      * continuously in backpressure state for 200 - 300ms.
7559      * Index 2 indicates the number of times ring was
7560      * continuously in backpressure state for 300 - 400ms.
7561      * Index 3 indicates the number of times ring was
7562      * continuously in backpressure state for 400 - 500ms.
7563      * Index 4 indicates the number of times ring was
7564      * continuously in backpressure state beyond 500ms.
7565      */
7566     A_UINT32 backpressure_hist[5];
7567 } htt_stats_ring_backpressure_stats_tlv;
7568 /* preserve old name alias for new name consistent with the tag name */
7569 typedef htt_stats_ring_backpressure_stats_tlv htt_ring_backpressure_stats_tlv;
7570 
7571 /* STATS_TYPE : HTT_STATS_RING_BACKPRESSURE_STATS_INFO
7572  * TLV_TAGS:
7573  *      - HTT_STATS_RING_BACKPRESSURE_STATS_TAG
7574  */
7575 /* NOTE:
7576  * This structure is for documentation, and cannot be safely used directly.
7577  * Instead, use the constituent TLV structures to fill/parse.
7578  */
7579 #ifdef ATH_TARGET
7580 typedef struct {
7581     htt_stats_sring_cmn_tlv cmn_tlv;
7582     struct {
7583         htt_stats_string_tlv sring_str_tlv;
7584         htt_stats_ring_backpressure_stats_tlv backpressure_stats_tlv;
7585     } r[1]; /* variable-length array */
7586 } htt_ring_backpressure_stats_t;
7587 #endif /* ATH_TARGET */
7588 
7589 #define HTT_LATENCY_PROFILE_MAX_HIST        3
7590 #define HTT_STATS_MAX_PROF_STATS_NAME_LEN  32
7591 #define HTT_INTERRUPTS_LATENCY_PROFILE_MAX_HIST 3
7592 typedef struct {
7593     htt_tlv_hdr_t   tlv_hdr;
7594     /** print_header:
7595      * This field suggests whether the host should print a header when
7596      * displaying the TLV (because this is the first latency_prof_stats
7597      * TLV within a series), or if only the TLV contents should be displayed
7598      * without a header (because this is not the first TLV within the series).
7599      */
7600     A_UINT32 print_header;
7601     A_UINT8 latency_prof_name[HTT_STATS_MAX_PROF_STATS_NAME_LEN];
7602     /** number of data values included in the tot sum */
7603     A_UINT32 cnt;
7604     /** time in us */
7605     A_UINT32 min;
7606     /** time in us */
7607     A_UINT32 max;
7608     A_UINT32 last;
7609     /** time in us */
7610     A_UINT32 tot;
7611     /** time in us */
7612     A_UINT32 avg;
7613     /** hist_intvl:
7614      * Histogram interval, i.e. the latency range covered by each
7615      * bin of the histogram, in microsecond units.
7616      * hist[0] counts how many latencies were between 0 to hist_intvl
7617      * hist[1] counts how many latencies were between hist_intvl to 2*hist_intvl
7618      * hist[2] counts how many latencies were more than 2*hist_intvl
7619      */
7620     A_UINT32 hist_intvl;
7621     A_UINT32 hist[HTT_LATENCY_PROFILE_MAX_HIST];
7622     /** max page faults in any 1 sampling window */
7623     A_UINT32 page_fault_max;
7624     /** summed over all sampling windows */
7625     A_UINT32 page_fault_total;
7626     /** ignored_latency_count:
7627      * ignore some of profile latency to avoid avg skewing
7628      */
7629     A_UINT32 ignored_latency_count;
7630     /** interrupts_max: max interrupts within any single sampling window */
7631     A_UINT32 interrupts_max;
7632     /** interrupts_hist: histogram of interrupt rate
7633      * bin0 contains the number of sampling windows that had 0 interrupts,
7634      * bin1 contains the number of sampling windows that had 1-4 interrupts,
7635      * bin2 contains the number of sampling windows that had > 4 interrupts
7636      */
7637     A_UINT32 interrupts_hist[HTT_INTERRUPTS_LATENCY_PROFILE_MAX_HIST];
7638     /* min time in us for pcycles spent on q6 core on all HW threads */
7639     A_UINT32 min_pcycles_time;
7640     /* max time in us for pcycles spent on q6 core on all HW threads */
7641     A_UINT32 max_pcycles_time;
7642     /* total time in us for pcycles spent on q6 core on all HW threads */
7643     A_UINT32 tot_pcycles_time;
7644     /* avg time in us for pcycles spent on q6 core on all HW threads */
7645     A_UINT32 avg_pcycles_time;
7646 } htt_stats_latency_prof_stats_tlv;
7647 /* preserve old name alias for new name consistent with the tag name */
7648 typedef htt_stats_latency_prof_stats_tlv htt_latency_prof_stats_tlv;
7649 
7650 typedef struct {
7651     htt_tlv_hdr_t   tlv_hdr;
7652     /** duration:
7653      * Time period over which counts were gathered, units = microseconds.
7654      */
7655     A_UINT32 duration;
7656     A_UINT32 tx_msdu_cnt;
7657     A_UINT32 tx_mpdu_cnt;
7658     A_UINT32 tx_ppdu_cnt;
7659     A_UINT32 rx_msdu_cnt;
7660     A_UINT32 rx_mpdu_cnt;
7661 } htt_stats_latency_ctx_tlv;
7662 /* preserve old name alias for new name consistent with the tag name */
7663 typedef htt_stats_latency_ctx_tlv htt_latency_prof_ctx_tlv;
7664 
7665 typedef struct {
7666     htt_tlv_hdr_t   tlv_hdr;
7667     /** count of enabled profiles */
7668     A_UINT32 prof_enable_cnt;
7669 } htt_stats_latency_cnt_tlv;
7670 /* preserve old name alias for new name consistent with the tag name */
7671 typedef htt_stats_latency_cnt_tlv htt_latency_prof_cnt_tlv;
7672 
7673 /* STATS_TYPE : HTT_DBG_EXT_STATS_LATENCY_PROF_STATS
7674  * TLV_TAGS:
7675  *      HTT_STATS_LATENCY_PROF_STATS_TAG / htt_latency_prof_stats_tlv
7676  *      HTT_STATS_LATENCY_CTX_TAG / htt_latency_prof_ctx_tlv
7677  *      HTT_STATS_LATENCY_CNT_TAG / htt_latency_prof_cnt_tlv
7678  */
7679 /* NOTE:
7680  * This structure is for documentation, and cannot be safely used directly.
7681  * Instead, use the constituent TLV structures to fill/parse.
7682  */
7683 #ifdef ATH_TARGET
7684 typedef struct {
7685     htt_stats_latency_prof_stats_tlv latency_prof_stat;
7686     htt_stats_latency_ctx_tlv latency_ctx_stat;
7687     htt_stats_latency_cnt_tlv latency_cnt_stat;
7688 } htt_soc_latency_stats_t;
7689 #endif /* ATH_TARGET */
7690 
7691 #define HTT_RX_MAX_PEAK_OCCUPANCY_INDEX 10
7692 #define HTT_RX_MAX_CURRENT_OCCUPANCY_INDEX 10
7693 #define HTT_RX_SQUARE_INDEX 6
7694 #define HTT_RX_MAX_PEAK_SEARCH_INDEX 4
7695 #define HTT_RX_MAX_PENDING_SEARCH_INDEX 4
7696 
7697 /* STATS_TYPE : HTT_DBG_EXT_RX_FSE_STATS
7698  * TLV_TAGS:
7699  *    - HTT_STATS_RX_FSE_STATS_TAG
7700  */
7701 typedef struct {
7702     htt_tlv_hdr_t tlv_hdr;
7703 
7704     /**
7705      * Number of times host requested for fse enable/disable
7706      */
7707     A_UINT32 fse_enable_cnt;
7708     A_UINT32 fse_disable_cnt;
7709     /**
7710      * Number of times host requested for fse cache invalidation
7711      * individual entries or full cache
7712      */
7713     A_UINT32 fse_cache_invalidate_entry_cnt;
7714     A_UINT32 fse_full_cache_invalidate_cnt;
7715 
7716     /**
7717      * Cache hits count will increase if there is a matching flow in the cache
7718      * There is no register for cache miss but the number of cache misses can
7719      * be calculated as
7720      *    cache miss = (num_searches - cache_hits)
7721      * Thus, there is no need to have a separate variable for cache misses.
7722      * Num searches is flow search times done in the cache.
7723      */
7724     A_UINT32 fse_num_cache_hits_cnt;
7725     A_UINT32 fse_num_searches_cnt;
7726     /**
7727      * Cache Occupancy holds 2 types of values: Peak and Current.
7728      * 10 bins are used to keep track of peak occupancy.
7729      * 8 of these bins represent ranges of values, while the first and last
7730      * bins represent the extreme cases of the cache being completely empty
7731      * or completely full.
7732      * For the non-extreme bins, the number of cache occupancy values per
7733      * bin is the maximum cache occupancy (128), divided by the number of
7734      * non-extreme bins (8), so 128/8 = 16 values per bin.
7735      * The range of values for each histogram bins is specified below:
7736      * Bin0 = Counter increments when cache occupancy is empty
7737      * Bin1 = Counter increments when cache occupancy is within [1 to 16]
7738      * Bin2 = Counter increments when cache occupancy is within [17 to 32]
7739      * Bin3 = Counter increments when cache occupancy is within [33 to 48]
7740      * Bin4 = Counter increments when cache occupancy is within [49 to 64]
7741      * Bin5 = Counter increments when cache occupancy is within [65 to 80]
7742      * Bin6 = Counter increments when cache occupancy is within [81 to 96]
7743      * Bin7 = Counter increments when cache occupancy is within [97 to 112]
7744      * Bin8 = Counter increments when cache occupancy is within [113 to 127]
7745      * Bin9 = Counter increments when cache occupancy is equal to 128
7746      * The above histogram bin definitions apply to both the peak-occupancy
7747      * histogram and the current-occupancy histogram.
7748      *
7749      * @fse_cache_occupancy_peak_cnt:
7750      * Array records periodically PEAK cache occupancy values.
7751      * Peak Occupancy will increment only if it is greater than current
7752      * occupancy value.
7753      *
7754      * @fse_cache_occupancy_curr_cnt:
7755      * Array records periodically current cache occupancy value.
7756      * Current Cache occupancy always holds instant snapshot of
7757      * current number of cache entries.
7758      **/
7759     A_UINT32 fse_cache_occupancy_peak_cnt[HTT_RX_MAX_PEAK_OCCUPANCY_INDEX];
7760     A_UINT32 fse_cache_occupancy_curr_cnt[HTT_RX_MAX_CURRENT_OCCUPANCY_INDEX];
7761     /**
7762      * Square stat is sum of squares of cache occupancy to better understand
7763      * any variation/deviation within each cache set, over a given time-window.
7764      *
7765      * Square stat is calculated this way:
7766      *     Square =  SUM(Squares of all Occupancy in a Set) / 8
7767      * The cache has 16-way set associativity, so the occupancy of a
7768      * set can vary from 0 to 16.  There are 8 sets within the cache.
7769      * Therefore, the minimum possible square value is 0, and the maximum
7770      * possible square value is (8*16^2) / 8 = 256.
7771      *
7772      * 6 bins are used to keep track of square stats:
7773      * Bin0 = increments when square of current cache occupancy is zero
7774      * Bin1 = increments when square of current cache occupancy is within
7775      *        [1 to 50]
7776      * Bin2 = increments when square of current cache occupancy is within
7777      *        [51 to 100]
7778      * Bin3 = increments when square of current cache occupancy is within
7779      *        [101 to 200]
7780      * Bin4 = increments when square of current cache occupancy is within
7781      *        [201 to 255]
7782      * Bin5 = increments when square of current cache occupancy is 256
7783      */
7784     A_UINT32 fse_search_stat_square_cnt[HTT_RX_SQUARE_INDEX];
7785     /**
7786      * Search stats has 2 types of values: Peak Pending and Number of
7787      * Search Pending.
7788      * GSE command ring for FSE can hold maximum of 5 Pending searches
7789      * at any given time.
7790      *
7791      * 4 bins are used to keep track of search stats:
7792      * Bin0 = Counter increments when there are NO pending searches
7793      *        (For peak, it will be number of pending searches greater
7794      *        than GSE command ring FIFO outstanding requests.
7795      *        For Search Pending, it will be number of pending search
7796      *        inside GSE command ring FIFO.)
7797      * Bin1 = Counter increments when number of pending searches are within
7798      *        [1 to 2]
7799      * Bin2 = Counter increments when number of pending searches are within
7800      *        [3 to 4]
7801      * Bin3 = Counter increments when number of pending searches are
7802      *        greater/equal to [ >= 5]
7803      */
7804     A_UINT32 fse_search_stat_peak_cnt[HTT_RX_MAX_PEAK_SEARCH_INDEX];
7805     A_UINT32 fse_search_stat_search_pending_cnt[HTT_RX_MAX_PENDING_SEARCH_INDEX];
7806 } htt_stats_rx_fse_stats_tlv;
7807 /* preserve old name alias for new name consistent with the tag name */
7808 typedef htt_stats_rx_fse_stats_tlv htt_rx_fse_stats_tlv;
7809 
7810 /* NOTE:
7811  * This structure is for documentation, and cannot be safely used directly.
7812  * Instead, use the constituent TLV structures to fill/parse.
7813  */
7814 #ifdef ATH_TARGET
7815 typedef struct {
7816     htt_stats_rx_fse_stats_tlv rx_fse_stats;
7817 } htt_rx_fse_stats_t;
7818 #endif /* ATH_TARGET */
7819 
7820 #define HTT_TX_TXBF_RATE_STATS_NUM_MCS_COUNTERS 14
7821 #define HTT_TX_TXBF_RATE_STATS_NUM_BW_COUNTERS 5 /* 20, 40, 80, 160, 320 */
7822 
7823 #define HTT_TX_TXBF_RATE_STATS_NUM_REDUCED_CHAN_TYPES 2/* 0: Half, 1: Quarter */
7824 
7825 typedef struct {
7826     htt_tlv_hdr_t tlv_hdr;
7827     /** SU TxBF TX MCS stats */
7828     A_UINT32 tx_su_txbf_mcs[HTT_TX_TXBF_RATE_STATS_NUM_MCS_COUNTERS];
7829     /** Implicit BF TX MCS stats */
7830     A_UINT32 tx_su_ibf_mcs[HTT_TX_TXBF_RATE_STATS_NUM_MCS_COUNTERS];
7831     /** Open loop TX MCS stats */
7832     A_UINT32 tx_su_ol_mcs[HTT_TX_TXBF_RATE_STATS_NUM_MCS_COUNTERS];
7833     /** SU TxBF TX NSS stats */
7834     A_UINT32 tx_su_txbf_nss[HTT_TX_PDEV_STATS_NUM_SPATIAL_STREAMS];
7835     /** Implicit BF TX NSS stats */
7836     A_UINT32 tx_su_ibf_nss[HTT_TX_PDEV_STATS_NUM_SPATIAL_STREAMS];
7837     /** Open loop TX NSS stats */
7838     A_UINT32 tx_su_ol_nss[HTT_TX_PDEV_STATS_NUM_SPATIAL_STREAMS];
7839     /** SU TxBF TX BW stats */
7840     A_UINT32 tx_su_txbf_bw[HTT_TX_TXBF_RATE_STATS_NUM_BW_COUNTERS];
7841     /** Implicit BF TX BW stats */
7842     A_UINT32 tx_su_ibf_bw[HTT_TX_TXBF_RATE_STATS_NUM_BW_COUNTERS];
7843     /** Open loop TX BW stats */
7844     A_UINT32 tx_su_ol_bw[HTT_TX_TXBF_RATE_STATS_NUM_BW_COUNTERS];
7845     /** Legacy and OFDM TX rate stats */
7846     A_UINT32 tx_legacy_ofdm_rate[HTT_TX_PDEV_STATS_NUM_LEGACY_OFDM_STATS];
7847     /** SU TxBF TX BW stats */
7848     A_UINT32 reduced_tx_su_txbf_bw[HTT_TX_TXBF_RATE_STATS_NUM_REDUCED_CHAN_TYPES][HTT_TX_TXBF_RATE_STATS_NUM_BW_COUNTERS];
7849     /** Implicit BF TX BW stats */
7850     A_UINT32 reduced_tx_su_ibf_bw[HTT_TX_TXBF_RATE_STATS_NUM_REDUCED_CHAN_TYPES][HTT_TX_TXBF_RATE_STATS_NUM_BW_COUNTERS];
7851     /** Open loop TX BW stats */
7852     A_UINT32 reduced_tx_su_ol_bw[HTT_TX_TXBF_RATE_STATS_NUM_REDUCED_CHAN_TYPES][HTT_TX_TXBF_RATE_STATS_NUM_BW_COUNTERS];
7853     /** Txbf flag reason stats */
7854     A_UINT32 txbf_flag_set_mu_mode;
7855     A_UINT32 txbf_flag_set_final_status;
7856     A_UINT32 txbf_flag_not_set_verified_txbf_mode;
7857     A_UINT32 txbf_flag_not_set_disable_p2p_access;
7858     A_UINT32 txbf_flag_not_set_max_nss_reached_in_he160;
7859     A_UINT32 txbf_flag_not_set_disable_ul_dl_ofdma;
7860     A_UINT32 txbf_flag_not_set_mcs_threshold_value;
7861     A_UINT32 txbf_flag_not_set_final_status;
7862 } htt_stats_pdev_tx_rate_txbf_stats_tlv;
7863 /* preserve old name alias for new name consistent with the tag name */
7864 typedef htt_stats_pdev_tx_rate_txbf_stats_tlv htt_tx_pdev_txbf_rate_stats_tlv;
7865 
7866 typedef enum {
7867     HTT_STATS_RC_MODE_DLSU     = 0,
7868     HTT_STATS_RC_MODE_DLMUMIMO = 1,
7869     HTT_STATS_RC_MODE_DLOFDMA  = 2,
7870     HTT_STATS_RC_MODE_ULMUMIMO = 3,
7871     HTT_STATS_RC_MODE_ULOFDMA  = 4,
7872 } htt_stats_rc_mode;
7873 
7874 typedef struct {
7875     A_UINT32 ppdus_tried;
7876     A_UINT32 ppdus_ack_failed;
7877     A_UINT32 mpdus_tried;
7878     A_UINT32 mpdus_failed;
7879 } htt_tx_rate_stats_t;
7880 
7881 typedef enum {
7882     HTT_RC_MODE_SU_OL,
7883     HTT_RC_MODE_SU_BF,
7884     HTT_RC_MODE_MU1_INTF,
7885     HTT_RC_MODE_MU2_INTF,
7886     HTT_Rc_MODE_MU3_INTF,
7887     HTT_RC_MODE_MU4_INTF,
7888     HTT_RC_MODE_MU5_INTF,
7889     HTT_RC_MODE_MU6_INTF,
7890     HTT_RC_MODE_MU7_INTF,
7891     HTT_RC_MODE_2D_COUNT,
7892 } HTT_RC_MODE;
7893 
7894 typedef enum {
7895     HTT_STATS_RU_TYPE_INVALID             = 0,
7896     HTT_STATS_RU_TYPE_SINGLE_RU_ONLY      = 1,
7897     HTT_STATS_RU_TYPE_SINGLE_AND_MULTI_RU = 2,
7898 } htt_stats_ru_type;
7899 
7900 typedef struct {
7901     htt_tlv_hdr_t tlv_hdr;
7902 
7903     /** HTT_STATS_RC_MODE_XX */
7904     A_UINT32 rc_mode;
7905 
7906     A_UINT32 last_probed_mcs;
7907 
7908     A_UINT32 last_probed_nss;
7909 
7910     A_UINT32 last_probed_bw;
7911 
7912     htt_tx_rate_stats_t per_bw[HTT_TX_PDEV_STATS_NUM_BW_COUNTERS];
7913 
7914     htt_tx_rate_stats_t per_nss[HTT_TX_PDEV_STATS_NUM_SPATIAL_STREAMS];
7915 
7916     htt_tx_rate_stats_t per_mcs[HTT_TX_TXBF_RATE_STATS_NUM_MCS_COUNTERS];
7917 
7918     /** 320MHz extension for PER */
7919     htt_tx_rate_stats_t per_bw320;
7920 
7921     A_UINT32 probe_cnt_per_rcmode[HTT_RC_MODE_2D_COUNT];
7922 
7923     A_UINT32 ru_type; /* refer to htt_stats_ru_type enum */
7924     htt_tx_rate_stats_t per_ru[HTT_TX_PDEV_STATS_NUM_BE_RU_SIZE_COUNTERS];
7925 } htt_stats_per_rate_stats_tlv;
7926 /* preserve old name alias for new name consistent with the tag name */
7927 typedef htt_stats_per_rate_stats_tlv htt_tx_rate_stats_per_tlv;
7928 
7929 /* NOTE:
7930  * This structure is for documentation, and cannot be safely used directly.
7931  * Instead, use the constituent TLV structures to fill/parse.
7932  */
7933 #ifdef ATH_TARGET
7934 typedef struct {
7935     htt_stats_pdev_tx_rate_txbf_stats_tlv txbf_rate_stats;
7936 } htt_pdev_txbf_rate_stats_t;
7937 #endif /* ATH_TARGET */
7938 
7939 #ifdef ATH_TARGET
7940 typedef struct {
7941     htt_stats_per_rate_stats_tlv per_stats;
7942 } htt_tx_pdev_per_stats_t;
7943 #endif /* ATH_TARGET */
7944 
7945 typedef enum {
7946     HTT_ULTRIG_QBOOST_TRIGGER = 0,
7947     HTT_ULTRIG_PSPOLL_TRIGGER,
7948     HTT_ULTRIG_UAPSD_TRIGGER,
7949     HTT_ULTRIG_11AX_TRIGGER,
7950     HTT_ULTRIG_11AX_WILDCARD_TRIGGER,
7951     HTT_ULTRIG_11AX_UNASSOC_WILDCARD_TRIGGER,
7952     HTT_STA_UL_OFDMA_NUM_TRIG_TYPE,
7953 } HTT_STA_UL_OFDMA_RX_TRIG_TYPE;
7954 
7955 typedef enum {
7956     HTT_11AX_TRIGGER_BASIC_E                             = 0,
7957     HTT_11AX_TRIGGER_BRPOLL_E                            = 1,
7958     HTT_11AX_TRIGGER_MU_BAR_E                            = 2,
7959     HTT_11AX_TRIGGER_MU_RTS_E                            = 3,
7960     HTT_11AX_TRIGGER_BUFFER_SIZE_E                       = 4,
7961     HTT_11AX_TRIGGER_GCR_MU_BAR_E                        = 5,
7962     HTT_11AX_TRIGGER_BQRP_E                              = 6,
7963     HTT_11AX_TRIGGER_NDP_FB_REPORT_POLL_E                = 7,
7964     HTT_11AX_TRIGGER_RESERVED_8_E                        = 8,
7965     HTT_11AX_TRIGGER_RESERVED_9_E                        = 9,
7966     HTT_11AX_TRIGGER_RESERVED_10_E                       = 10,
7967     HTT_11AX_TRIGGER_RESERVED_11_E                       = 11,
7968     HTT_11AX_TRIGGER_RESERVED_12_E                       = 12,
7969     HTT_11AX_TRIGGER_RESERVED_13_E                       = 13,
7970     HTT_11AX_TRIGGER_RESERVED_14_E                       = 14,
7971     HTT_11AX_TRIGGER_RESERVED_15_E                       = 15,
7972     HTT_STA_UL_OFDMA_NUM_11AX_TRIG_TYPE,
7973 } HTT_STA_UL_OFDMA_11AX_TRIG_TYPE;
7974 
7975 /* UL RESP Queues 0 - HIPRI, 1 - LOPRI & 2 - BSR */
7976 #define HTT_STA_UL_OFDMA_NUM_UL_QUEUES 3
7977 /* Actual resp type sent by STA for trigger
7978  * 0 - HE TB PPDU, 1 - NULL Delimiter */
7979 #define HTT_STA_UL_OFDMA_NUM_RESP_END_TYPE 2
7980 /* Counter for MCS 0-13 */
7981 #define HTT_STA_UL_OFDMA_NUM_MCS_COUNTERS 14
7982 /* Counters BW 20,40,80,160,320 */
7983 #define HTT_STA_UL_OFDMA_NUM_BW_COUNTERS 5
7984 #define HTT_STA_UL_OFDMA_NUM_REDUCED_CHAN_TYPES 2 /* 0 - Half, 1 - Quarter */
7985 
7986 /* STATS_TYPE : HTT_DBG_EXT_STA_11AX_UL_STATS
7987  * TLV_TAGS:
7988  *    - HTT_STATS_STA_UL_OFDMA_STATS_TAG
7989  */
7990 typedef struct {
7991     htt_tlv_hdr_t tlv_hdr;
7992 
7993     A_UINT32 pdev_id;
7994 
7995     /**
7996      * Trigger Type reported by HWSCH on RX reception
7997      * Each index populate enum HTT_STA_UL_OFDMA_RX_TRIG_TYPE
7998      */
7999     A_UINT32 rx_trigger_type[HTT_STA_UL_OFDMA_NUM_TRIG_TYPE];
8000     /**
8001      * 11AX Trigger Type on RX reception
8002      * Each index populate enum HTT_STA_UL_OFDMA_11AX_TRIG_TYPE
8003      */
8004     A_UINT32 ax_trigger_type[HTT_STA_UL_OFDMA_NUM_11AX_TRIG_TYPE];
8005 
8006     /** Num data PPDUs/Delims responded to trigs. per HWQ for UL RESP */
8007     A_UINT32 num_data_ppdu_responded_per_hwq[HTT_STA_UL_OFDMA_NUM_UL_QUEUES];
8008     A_UINT32 num_null_delimiters_responded_per_hwq[HTT_STA_UL_OFDMA_NUM_UL_QUEUES];
8009     /**
8010      * Overall UL STA RESP Status 0 - HE TB PPDU, 1 - NULL Delimiter
8011      * Super set of num_data_ppdu_responded_per_hwq,
8012      * num_null_delimiters_responded_per_hwq
8013      */
8014     A_UINT32 num_total_trig_responses[HTT_STA_UL_OFDMA_NUM_RESP_END_TYPE];
8015 
8016     /**
8017      * Time interval between current time ms and last successful trigger RX
8018      * 0xFFFFFFFF denotes no trig received / timestamp roll back
8019      */
8020     A_UINT32 last_trig_rx_time_delta_ms;
8021 
8022     /**
8023      * Rate Statistics for UL OFDMA
8024      * UL TB PPDU TX MCS, NSS, GI, BW from STA HWQ
8025      */
8026     A_UINT32 ul_ofdma_tx_mcs[HTT_STA_UL_OFDMA_NUM_MCS_COUNTERS];
8027     A_UINT32 ul_ofdma_tx_nss[HTT_TX_PDEV_STATS_NUM_SPATIAL_STREAMS];
8028     A_UINT32 ul_ofdma_tx_gi[HTT_TX_PDEV_STATS_NUM_GI_COUNTERS][HTT_STA_UL_OFDMA_NUM_MCS_COUNTERS];
8029     A_UINT32 ul_ofdma_tx_ldpc;
8030     A_UINT32 ul_ofdma_tx_bw[HTT_STA_UL_OFDMA_NUM_BW_COUNTERS];
8031 
8032     /** Trig based PPDU TX/ RBO based PPDU TX Count */
8033     A_UINT32 trig_based_ppdu_tx;
8034     A_UINT32 rbo_based_ppdu_tx;
8035     /** Switch MU EDCA to SU EDCA Count */
8036     A_UINT32 mu_edca_to_su_edca_switch_count;
8037     /** Num MU EDCA applied Count */
8038     A_UINT32 num_mu_edca_param_apply_count;
8039 
8040     /**
8041      * Current MU EDCA Parameters for WMM ACs
8042      * Mode - 0 - SU EDCA, 1- MU EDCA
8043      */
8044     A_UINT32 current_edca_hwq_mode[HTT_NUM_AC_WMM];
8045     /** Contention Window minimum. Range: 1 - 10 */
8046     A_UINT32 current_cw_min[HTT_NUM_AC_WMM];
8047     /** Contention Window maximum. Range: 1 - 10 */
8048     A_UINT32 current_cw_max[HTT_NUM_AC_WMM];
8049     /** AIFS value - 0 -255 */
8050     A_UINT32 current_aifs[HTT_NUM_AC_WMM];
8051     A_UINT32 reduced_ul_ofdma_tx_bw[HTT_STA_UL_OFDMA_NUM_REDUCED_CHAN_TYPES][HTT_STA_UL_OFDMA_NUM_BW_COUNTERS];
8052 } htt_stats_sta_ul_ofdma_stats_tlv;
8053 /* preserve old name alias for new name consistent with the tag name */
8054 typedef htt_stats_sta_ul_ofdma_stats_tlv htt_sta_ul_ofdma_stats_tlv;
8055 
8056 /* NOTE:
8057  * This structure is for documentation, and cannot be safely used directly.
8058  * Instead, use the constituent TLV structures to fill/parse.
8059  */
8060 #ifdef ATH_TARGET
8061 typedef struct {
8062     htt_stats_sta_ul_ofdma_stats_tlv ul_ofdma_sta_stats;
8063 } htt_sta_11ax_ul_stats_t;
8064 #endif /* ATH_TARGET */
8065 
8066 typedef struct {
8067     htt_tlv_hdr_t tlv_hdr;
8068     /** No of Fine Timing Measurement frames transmitted successfully */
8069     A_UINT32 tx_ftm_suc;
8070     /**
8071      * No of Fine Timing Measurement frames transmitted successfully
8072      * after retry
8073       */
8074     A_UINT32 tx_ftm_suc_retry;
8075     /** No of Fine Timing Measurement frames not transmitted successfully */
8076     A_UINT32 tx_ftm_fail;
8077     /**
8078      * No of Fine Timing Measurement Request frames received,
8079      * including initial, non-initial, and duplicates
8080      */
8081     A_UINT32 rx_ftmr_cnt;
8082     /**
8083      * No of duplicate Fine Timing Measurement Request frames received,
8084      * including both initial and non-initial
8085       */
8086     A_UINT32 rx_ftmr_dup_cnt;
8087     /** No of initial Fine Timing Measurement Request frames received */
8088     A_UINT32 rx_iftmr_cnt;
8089     /**
8090      * No of duplicate initial Fine Timing Measurement Request frames received
8091      */
8092     A_UINT32 rx_iftmr_dup_cnt;
8093     /** No of responder sessions rejected when initiator was active */
8094     A_UINT32 initiator_active_responder_rejected_cnt;
8095     /** Responder terminate count */
8096     A_UINT32 responder_terminate_cnt;
8097     A_UINT32 vdev_id;
8098 } htt_stats_vdev_rtt_resp_stats_tlv;
8099 /* preserve old name alias for new name consistent with the tag name */
8100 typedef htt_stats_vdev_rtt_resp_stats_tlv htt_vdev_rtt_resp_stats_tlv;
8101 
8102 #ifdef ATH_TARGET
8103 typedef struct {
8104     htt_stats_vdev_rtt_resp_stats_tlv vdev_rtt_resp_stats;
8105 } htt_vdev_rtt_resp_stats_t;
8106 #endif /* ATH_TARGET */
8107 
8108 typedef struct {
8109     htt_tlv_hdr_t tlv_hdr;
8110 
8111     A_UINT32 vdev_id;
8112     /**
8113      * No of Fine Timing Measurement request frames transmitted successfully
8114      */
8115     A_UINT32 tx_ftmr_cnt;
8116     /**
8117      * No of Fine Timing Measurement request frames not transmitted successfully
8118      */
8119     A_UINT32 tx_ftmr_fail;
8120     /**
8121      * No of Fine Timing Measurement request frames transmitted successfully
8122      * after retry
8123      */
8124     A_UINT32 tx_ftmr_suc_retry;
8125     /**
8126      * No of Fine Timing Measurement frames received, including initial,
8127      * non-initial, and duplicates
8128      */
8129     A_UINT32 rx_ftm_cnt;
8130     /** Initiator Terminate count */
8131     A_UINT32 initiator_terminate_cnt;
8132     /** Debug count to check the Measurement request from host */
8133     A_UINT32 tx_meas_req_count;
8134 } htt_stats_vdev_rtt_init_stats_tlv;
8135 /* preserve old name alias for new name consistent with the tag name */
8136 typedef htt_stats_vdev_rtt_init_stats_tlv htt_vdev_rtt_init_stats_tlv;
8137 
8138 #ifdef ATH_TARGET
8139 typedef struct {
8140     htt_stats_vdev_rtt_init_stats_tlv vdev_rtt_init_stats;
8141 } htt_vdev_rtt_init_stats_t;
8142 #endif /* ATH_TARGET */
8143 
8144 
8145 #define HTT_STATS_MAX_SCH_CMD_RESULT 25
8146 
8147 /* TXSEND self generated frames */
8148 typedef enum {
8149     HTT_TXSEND_FTYPE_SGEN_TF_POLL,
8150     HTT_TXSEND_FTYPE_SGEN_TF_SOUND,
8151     HTT_TXSEND_FTYPE_SGEN_TBR_NDPA,
8152     HTT_TXSEND_FTYPE_SGEN_TBR_NDP,
8153     HTT_TXSEND_FTYPE_SGEN_TBR_LMR,
8154     HTT_TXSEND_FTYPE_SGEN_TF_REPORT,
8155 
8156     HTT_TXSEND_FTYPE_MAX
8157 }
8158 htt_stats_txsend_ftype_t;
8159 
8160 typedef struct {
8161     htt_tlv_hdr_t tlv_hdr;
8162     /* 11AZ TBR SU Stats */
8163     A_UINT32 tbr_su_ftype_queued[HTT_TXSEND_FTYPE_MAX];
8164     /* 11AZ TBR MU Stats */
8165     A_UINT32 tbr_mu_ftype_queued[HTT_TXSEND_FTYPE_MAX];
8166 } htt_stats_pdev_rtt_tbr_selfgen_queued_stats_tlv;
8167 
8168 typedef struct {
8169     htt_tlv_hdr_t tlv_hdr;
8170     /** tbr_num_sch_cmd_result_buckets:
8171      * Number of sch cmd results buckets in use per chip
8172      * Each bucket contains the counter of the number of times that bucket
8173      * index was seen in the sch_cmd_result. The last bucket will capture
8174      * the count of sch_cmd_result matching the last bucket index and the
8175      * count of all the sch_cmd_results that exceeded the last bucket index
8176      * value.
8177      * tbr_num_sch_cmd_result_buckets must be <= HTT_STATS_MAX_SCH_CMD_RESULT
8178      */
8179     A_UINT32 tbr_num_sch_cmd_result_buckets;
8180     /* cmd result status for SU frames in case of TB ranging */
8181     A_UINT32 opaque_tbr_su_ftype_cmd_result[HTT_TXSEND_FTYPE_MAX][HTT_STATS_MAX_SCH_CMD_RESULT];
8182     /* cmd result status for MU frames in case of TB ranging */
8183     A_UINT32 opaque_tbr_mu_ftype_cmd_result[HTT_TXSEND_FTYPE_MAX][HTT_STATS_MAX_SCH_CMD_RESULT];
8184 } htt_stats_pdev_rtt_tbr_cmd_result_stats_tlv;
8185 
8186 typedef struct {
8187     htt_tlv_hdr_t tlv_hdr;
8188     /** ista_ranging_ndpa_cnt:
8189      * Indicates the number of Ranging NDPA sent successfully.
8190      */
8191     A_UINT32 ista_ranging_ndpa_cnt;
8192     /** ista_ranging_ndp_cnt:
8193      * Indicates the number of Ranging NDP sent successfully.
8194      */
8195     A_UINT32 ista_ranging_ndp_cnt;
8196     /** ista_ranging_i2r_lmr_cnt:
8197      * Indicates the number of Ranging I2R LMR sent successfully.
8198      */
8199     A_UINT32 ista_ranging_i2r_lmr_cnt;
8200     /** rtsa_ranging_resp_cnt
8201      * Indicates the number of times RXPCU initiates a Ranging response
8202      * as a RSTA.
8203      */
8204     A_UINT32 rtsa_ranging_resp_cnt;
8205     /** rtsa_ranging_ndp_cnt:
8206      * Indicates the number of Ranging NDP response sent successfully.
8207      */
8208     A_UINT32 rtsa_ranging_ndp_cnt;
8209     /** rsta_ranging_lmr_cnt:
8210      * Indicates the number of Ranging R2I LMR response sent successfully.
8211      */
8212     A_UINT32 rsta_ranging_lmr_cnt;
8213     /** tb_ranging_cts2s_rcvd_cnt:
8214      * Indicates the number of expected CTS2S response received for TF Poll
8215      * sent.
8216      */
8217     A_UINT32 tb_ranging_cts2s_rcvd_cnt;
8218     /** tb_ranging_ndp_rcvd_cnt:
8219      * Indicates the number of expected NDP response received for TF Sound
8220      * or Secure Sound sent.
8221      */
8222     A_UINT32 tb_ranging_ndp_rcvd_cnt;
8223     /** tb_ranging_lmr_rcvd_cnt:
8224      * Indicates the number of expected LMR response received for TF Report
8225      * sent.
8226      */
8227     A_UINT32 tb_ranging_lmr_rcvd_cnt;
8228     /** tb_ranging_tf_poll_resp_sent_cnt:
8229      * Indicates the number of successful responses sent for TF Poll
8230      * received.
8231      */
8232     A_UINT32 tb_ranging_tf_poll_resp_sent_cnt;
8233     /** tb_ranging_tf_sound_resp_sent_cnt:
8234      * Indicates the number of successful responses sent for TF Sound
8235      * (or Secure) received.
8236      */
8237     A_UINT32 tb_ranging_tf_sound_resp_sent_cnt;
8238     /** tb_ranging_tf_report_resp_sent_cnt:
8239      * Indicates the number of successful responses sent for TF Report
8240      * received.
8241      */
8242     A_UINT32 tb_ranging_tf_report_resp_sent_cnt;
8243 } htt_stats_pdev_rtt_hw_stats_tlv;
8244 
8245 typedef struct {
8246     htt_tlv_hdr_t tlv_hdr;
8247     A_UINT32 pdev_id;
8248     /** tx_11mc_ftm_suc:
8249      * Number of 11mc Fine Timing Measurement frames transmitted successfully.
8250      */
8251     A_UINT32 tx_11mc_ftm_suc;
8252     /** tx_11mc_ftm_suc_retry:
8253      * Number of Fine Timing Measurement frames transmitted successfully
8254      * after retrying.
8255      */
8256     A_UINT32 tx_11mc_ftm_suc_retry;
8257     /** tx_11mc_ftm_fail:
8258      * Number of Fine Timing Measurement frames not transmitted successfully.
8259      */
8260     A_UINT32 tx_11mc_ftm_fail;
8261     /** rx_11mc_ftmr_cnt:
8262      * Number of FTMR frames received, including initial, non-initial,
8263      * and duplicates.
8264      */
8265     A_UINT32 rx_11mc_ftmr_cnt;
8266     /** rx_11mc_ftmr_dup_cnt:
8267      * Number of duplicate Fine Timing Measurement Request frames received,
8268      * including both initial and non-initial.
8269      */
8270     A_UINT32 rx_11mc_ftmr_dup_cnt;
8271     /** rx_11mc_iftmr_cnt:
8272      * Number of initial Fine Timing Measurement Request frames received.
8273      */
8274     A_UINT32 rx_11mc_iftmr_cnt;
8275     /** rx_11mc_iftmr_dup_cnt:
8276      * Number of duplicate initial Fine Timing Measurement Request frames
8277      * received.
8278      */
8279     A_UINT32 rx_11mc_iftmr_dup_cnt;
8280     /** ftmr_drop_11mc_resp_role_not_enabled_cnt:
8281      * Number of FTMR frames dropped as 11mc is not supported for this VAP.
8282      */
8283     A_UINT32 ftmr_drop_11mc_resp_role_not_enabled_cnt;
8284     /** initiator_active_responder_rejected_cnt:
8285      * Number of responder sessions rejected when initiator was active.
8286      */
8287     A_UINT32 initiator_active_responder_rejected_cnt;
8288     /** responder_terminate_cnt:
8289      * Number of times Responder session got terminated.
8290      */
8291     A_UINT32 responder_terminate_cnt;
8292     /** active_rsta_open:
8293      * Number of active responder contexts in open mode.
8294      */
8295     A_UINT32 active_rsta_open;
8296     /** active_rsta_mac:
8297      * Number of active responder contexts in mac security mode.
8298      */
8299     A_UINT32 active_rsta_mac;
8300     /** active_rsta_mac_phy:
8301      * Number of active responder contexts in mac_phy security mode.
8302      */
8303     A_UINT32 active_rsta_mac_phy;
8304     /** num_assoc_ranging_peers:
8305      * Number of active associated ISTA ranging peers.
8306      */
8307     A_UINT32 num_assoc_ranging_peers;
8308     /** num_unassoc_ranging_peers:
8309      * Number of active un-associated ISTA ranging peers.
8310      */
8311     A_UINT32 num_unassoc_ranging_peers;
8312     /** responder_alloc_cnt:
8313      * Number of responder contexts allocated.
8314      */
8315     A_UINT32 responder_alloc_cnt;
8316     /** responder_alloc_failure:
8317      * Number of times responder context failed to be allocated.
8318      */
8319     A_UINT32 responder_alloc_failure;
8320     /** pn_check_failure_cnt:
8321      * Number of times PN check failed.
8322      */
8323     A_UINT32 pn_check_failure_cnt;
8324     /** pasn_m1_auth_recv_cnt:
8325      * Num of M1 auth frames received for PASN over the air from iSTA.
8326      */
8327     A_UINT32 pasn_m1_auth_recv_cnt;
8328     /** pasn_m1_auth_drop_cnt:
8329      * Number of M1 auth frames received for PASN over the air from iSTA
8330      * but dropped in FW due to any reason (such as unavailability of
8331      * responder ctxt or any other check).
8332      */
8333     A_UINT32 pasn_m1_auth_drop_cnt;
8334     /** pasn_m2_auth_recv_cnt:
8335      * Number of M2 auth frames received in FW for PASN from Host driver.
8336      */
8337     A_UINT32 pasn_m2_auth_recv_cnt;
8338     /** pasn_m2_auth_tx_fail_cnt:
8339      * Number of M2 auth frames received in FW but Tx failed.
8340      */
8341     A_UINT32 pasn_m2_auth_tx_fail_cnt;
8342     /** pasn_m3_auth_recv_cnt:
8343      * Number of M3 auth frames received for PASN.
8344      */
8345     A_UINT32 pasn_m3_auth_recv_cnt;
8346     /** pasn_m3_auth_drop_cnt:
8347      * Number of M3 auth frames received for PASN over the air from iSTA but
8348      * dropped in FW due to any reason.
8349      */
8350     A_UINT32 pasn_m3_auth_drop_cnt;
8351     /** pasn_peer_create_request_cnt:
8352      * Number of times FW requested PASN peer create request to Host.
8353      */
8354     A_UINT32 pasn_peer_create_request_cnt;
8355     /** pasn_peer_create_timeout_cnt:
8356      * Number of times PASN peer was not created within timeout period.
8357      */
8358     A_UINT32 pasn_peer_create_timeout_cnt;
8359     /** pasn_peer_created_cnt:
8360      * Number of times Host sent PASN peer create request to FW.
8361      */
8362     A_UINT32 pasn_peer_created_cnt;
8363     /** sec_ranging_not_supported_mfp_not_setup:
8364      * management frame protection not setup, drop secure ranging request.
8365      */
8366     A_UINT32 sec_ranging_not_supported_mfp_not_setup;
8367     /** non_sec_ranging_discarded_for_assoc_peer_with_mfpr_set:
8368      * Non secured ranging request discarded for Assoc peer with MFPR set.
8369      */
8370     A_UINT32 non_sec_ranging_discarded_for_assoc_peer_with_mfpr_set;
8371     /** open_ranging_discarded_with_URNM_MFPR_set_for_pasn_peer:
8372      * Failure in case non-secured frame is received for PASN peer and
8373      * URNM_MFPR is set.
8374      */
8375     A_UINT32 open_ranging_discarded_with_URNM_MFPR_set_for_pasn_peer;
8376     /** unassoc_non_pasn_ranging_not_supported_with_URNM_MFPR:
8377      * Failure in case non-assoc/non-PASN sta is sending open FTMR and
8378      * RSTA does not support un-secured ranging.
8379      */
8380     A_UINT32 unassoc_non_pasn_ranging_not_supported_with_URNM_MFPR;
8381     /** num_req_bw_20_MHz:
8382      * Number of requests with BW 20 MHz.
8383      */
8384     A_UINT32 num_req_bw_20_MHz;
8385     /** num_req_bw_40_MHz:
8386      * Number of requests with BW 40 MHz.
8387      */
8388     A_UINT32 num_req_bw_40_MHz;
8389     /** num_req_bw_80_MHz:
8390      * Number of requests with BW 80 MHz.
8391      */
8392     A_UINT32 num_req_bw_80_MHz;
8393     /** num_req_bw_160_MHz:
8394      * Number of requests with BW 160 MHz.
8395      */
8396     A_UINT32 num_req_bw_160_MHz;
8397     /** tx_11az_ftm_successful:
8398      * Number of 11AZ FTM frames transmitted successfully.
8399      */
8400     A_UINT32 tx_11az_ftm_successful;
8401     /** tx_11az_ftm_failed:
8402      * Number of 11AZ FTM frames for which Tx failed.
8403      */
8404     A_UINT32 tx_11az_ftm_failed;
8405     /** rx_11az_ftmr_cnt:
8406      * Number of 11AZ FTM frames received.
8407      */
8408     A_UINT32 rx_11az_ftmr_cnt;
8409     /** rx_11az_ftmr_dup_cnt:
8410      * Number of duplicate 11az ftmr frames dropped.
8411      */
8412     A_UINT32 rx_11az_ftmr_dup_cnt;
8413     /** rx_11az_iftmr_dup_cnt:
8414      * Number of duplicate 11az iftmr frames dropped.
8415      */
8416     A_UINT32 rx_11az_iftmr_dup_cnt;
8417     /** malformed_ftmr:
8418      * Number of malformed FTMR frames received from client leading to
8419      * frame parse error.
8420      */
8421     A_UINT32 malformed_ftmr;
8422     /** ftmr_drop_ntb_resp_role_not_enabled_cnt:
8423      * Number of FTMR frames dropped as NTB is not supported for this VAP.
8424      */
8425     A_UINT32 ftmr_drop_ntb_resp_role_not_enabled_cnt;
8426     /** ftmr_drop_tb_resp_role_not_enabled_cnt:
8427      * Number of FTMR frames dropped as TB is not supported for this VAP.
8428      */
8429     A_UINT32 ftmr_drop_tb_resp_role_not_enabled_cnt;
8430     /** invalid_ftm_request_params:
8431      * Number of FTMR frames received with invalid params.
8432      */
8433     A_UINT32 invalid_ftm_request_params;
8434     /** requested_bw_format_not_supported:
8435      * FTMR rejected as requested format is lower or higher than AP's
8436      * capability, or unknown.
8437      */
8438     A_UINT32 requested_bw_format_not_supported;
8439     /** ntb_unsec_unassoc_mode_ranging_peer_alloc_failed:
8440      * AST entry creation failed for NTB unsecured mode.
8441      */
8442     A_UINT32 ntb_unsec_unassoc_mode_ranging_peer_alloc_failed;
8443     /** tb_unassoc_unsec_mode_pasn_peer_creation_failed:
8444      * PASN peer creation failed for unsecured mode TBR.
8445      */
8446     A_UINT32 tb_unassoc_unsec_mode_pasn_peer_creation_failed;
8447     /** num_ranging_sequences_processed:
8448      * Number of ranging sequences processed for NTB and TB.
8449      */
8450     A_UINT32 num_ranging_sequences_processed;
8451     /** Number of NDPs transmitted for NTBR */
8452     A_UINT32 ntb_tx_ndp;
8453     A_UINT32 ndp_rx_cnt;
8454     /** Number of NDPAs received for 11AZ NTB ranging */
8455     A_UINT32 num_ntb_ranging_NDPAs_recv;
8456     /** Number of LMR frames received */
8457     A_UINT32 recv_lmr;
8458     /** invalid_ftmr_cnt:
8459      * Number of invalid FTMR frames received
8460      * iftmr with null ie element is invalid
8461      * The Frame is valid if any of the following combination is present:
8462      * a. LCI sub ie + parameter ie
8463      * b. LCR sub ie + parameter ie
8464      * c. parameter ie
8465      * d. LCI sub ie + LCR sub ie + parameter ie
8466      */
8467     A_UINT32 invalid_ftmr_cnt;
8468     /** Number of times the 'max time b/w measurement' timer got expired */
8469     A_UINT32 max_time_bw_meas_exp_cnt;
8470 } htt_stats_pdev_rtt_resp_stats_tlv;
8471 
8472 /* STATS_TYPE: HTT_DBG_EXT_PDEV_RTT_RESP_STATS
8473  * TLV_TAGS:
8474  *  HTT_STATS_PDEV_RTT_RESP_STATS_TAG
8475  *  HTT_STATS_PDEV_RTT_HW_STATS_TAG
8476  *  HTT_STATS_PDEV_RTT_TBR_SELFGEN_QUEUED_STATS_TAG
8477  *  HTT_STATS_PDEV_RTT_TBR_CMD_RESULT_STATS_TAG
8478  */
8479 #ifdef ATH_TARGET
8480 typedef struct {
8481     htt_stats_pdev_rtt_resp_stats_tlv pdev_rtt_resp_stats;
8482     htt_stats_pdev_rtt_hw_stats_tlv pdev_rtt_hw_stats;
8483     htt_stats_pdev_rtt_tbr_selfgen_queued_stats_tlv pdev_rtt_tbr_selfgen_queued_stats;
8484     htt_stats_pdev_rtt_tbr_cmd_result_stats_tlv pdev_rtt_tbr_cmd_result_stats;
8485 } htt_pdev_rtt_resp_stats_t;
8486 #endif /* ATH_TARGET */
8487 
8488 typedef struct {
8489     htt_tlv_hdr_t tlv_hdr;
8490     A_UINT32 pdev_id;
8491     /** tx_11mc_ftmr_cnt:
8492      * Number of 11mc Fine Timing Measurement request frames transmitted
8493      * successfully.
8494      */
8495     A_UINT32 tx_11mc_ftmr_cnt;
8496     /** tx_11mc_ftmr_fail:
8497      * Number of 11mc Fine Timing Measurement request frames not transmitted
8498      * successfully.
8499      */
8500     A_UINT32 tx_11mc_ftmr_fail;
8501     /** tx_11mc_ftmr_suc_retry:
8502      * Number of 11mc Fine Timing Measurement request frames transmitted
8503      * successfully after retrying.
8504      */
8505     A_UINT32 tx_11mc_ftmr_suc_retry;
8506     /** rx_11mc_ftm_cnt:
8507      * Number of 11mc Fine Timing Measurement frames received, including
8508      * initial, non-initial, and duplicates.
8509      */
8510     A_UINT32 rx_11mc_ftm_cnt;
8511     /** Count of Ranging Measurement requests received from host */
8512     A_UINT32 tx_meas_req_count;
8513     /** Initiator role not supported on the vdev */
8514     A_UINT32 init_role_not_enabled;
8515     /** Number of times Initiator context got terminated */
8516     A_UINT32 initiator_terminate_cnt;
8517     /** Number of times Tx of FTMR failed */
8518     A_UINT32 tx_11az_ftmr_fail;
8519     /** tx_11az_ftmr_start:
8520      * Number of Fine Timing Measurement start requests transmitted
8521      * successfully.
8522      */
8523     A_UINT32 tx_11az_ftmr_start;
8524     /** tx_11az_ftmr_stop:
8525      * Number of Fine Timing Measurement stop requests transmitted
8526      * successfully.
8527      */
8528     A_UINT32 tx_11az_ftmr_stop;
8529     /** Number of FTM frames received successfully */
8530     A_UINT32 rx_11az_ftm_cnt;
8531     /** Number of active ISTA sessions */
8532     A_UINT32 active_ista;
8533     /** HE preamble not enabled on Initiator side */
8534     A_UINT32 invalid_preamble;
8535     /** Initiator invalid channel bw format */
8536     A_UINT32 invalid_chan_bw_format;
8537     /* mgmt_buff_alloc_fail_cnt Management Buffer allocation failure count */
8538     A_UINT32 mgmt_buff_alloc_fail_cnt;
8539     /** ftm_parse_failure:
8540      * Count of FTM frame IE parse failure or RSTA sending measurement
8541      * negotiation failure.
8542      */
8543     A_UINT32 ftm_parse_failure;
8544     /** Count of NTB/TB ranging negotiation completed successfully */
8545     A_UINT32 ranging_negotiation_successful_cnt;
8546     /** incompatible_ftm_params:
8547      * Number of occurrences of failure due to incompatible parameters
8548      * suggested by rSTA during negotiation.
8549      */
8550     A_UINT32 incompatible_ftm_params;
8551     /** sec_ranging_req_in_open_mode:
8552      * Number of occurrences of failure if BSS peer exists in open mode and
8553      * secured mode RTT ranging is requested.
8554      */
8555     A_UINT32 sec_ranging_req_in_open_mode;
8556     /** ftmr_tx_failed_null_11az_peer:
8557      * Number of occurrences where FTMR was not transmitted as there was
8558      * no 11AZ peer.
8559      */
8560     A_UINT32 ftmr_tx_failed_null_11az_peer;
8561     /** Number of times ftmr retry timed out */
8562     A_UINT32 ftmr_retry_timeout;
8563     /** Number of times the 'max time b/w measurement' timer got expired */
8564     A_UINT32 max_time_bw_meas_exp_cnt;
8565     /** tb_meas_duration_expiry_cnt:
8566      * Number of times TBR measurement duration expired.
8567      */
8568     A_UINT32 tb_meas_duration_expiry_cnt;
8569     /** num_tb_ranging_requests:
8570      * Number of TB ranging requests ready for negotiation.
8571      */
8572     A_UINT32 num_tb_ranging_requests;
8573     /** Number of times NTB ranging was triggered successfully */
8574     A_UINT32 ntbr_triggered_successfully;
8575     /** Number of times NTB ranging failed to be triggered */
8576     A_UINT32 ntbr_trigger_failed;
8577     /** No valid index found for programming vreg settings */
8578     A_UINT32 invalid_or_no_vreg_idx;
8579     /** Number of times VREG setting failed */
8580     A_UINT32 set_vreg_params_failed;
8581     /** Number of occurrences of SAC mismatch */
8582     A_UINT32 sac_mismatch;
8583     /** pasn_m1_auth_recv_cnt:
8584      * Number of M1 auth frames received for PASN from Host.
8585      */
8586     A_UINT32 pasn_m1_auth_recv_cnt;
8587     /** pasn_m1_auth_tx_fail_cnt:
8588      * Number of M1 auth frames received in FW but Tx failed.
8589      */
8590     A_UINT32 pasn_m1_auth_tx_fail_cnt;
8591     /** pasn_m2_auth_recv_cnt:
8592      * Number of M2 auth frames received in FW for PASN over the air from rSTA.
8593      */
8594     A_UINT32 pasn_m2_auth_recv_cnt;
8595     /** pasn_m2_auth_drop_cnt:
8596      * Number of M2 auth frames received in FW but dropped due to any reason.
8597      */
8598     A_UINT32 pasn_m2_auth_drop_cnt;
8599     /** pasn_m3_auth_recv_cnt:
8600      * Number of M3 auth frames received for PASN from Host.
8601      */
8602     A_UINT32 pasn_m3_auth_recv_cnt;
8603     /** pasn_m3_auth_tx_fail_cnt:
8604      * Number of M3 auth frames received in FW but Tx failed.
8605      */
8606     A_UINT32 pasn_m3_auth_tx_fail_cnt;
8607     /** pasn_peer_create_request_cnt:
8608      * Number of times FW requested PASN peer create request to Host.
8609      */
8610     A_UINT32 pasn_peer_create_request_cnt;
8611     /** pasn_peer_create_timeout_cnt:
8612      * Number of times PASN peer was not created within timeout period.
8613      */
8614     A_UINT32 pasn_peer_create_timeout_cnt;
8615     /** pasn_peer_created_cnt:
8616      * Number of times Host sent PASN peer create request to FW.
8617      */
8618     A_UINT32 pasn_peer_created_cnt;
8619     /** Number of occurrences of Tx of NDPA failing */
8620     A_UINT32 ntbr_ndpa_failed;
8621     /** ntbr_sequence_successful:
8622      * The NDPA, NDP and LMR exchanges are successful and sched cmd status
8623      * is 0.
8624      */
8625     A_UINT32 ntbr_sequence_successful;
8626     /** ntbr_ndp_failed:
8627      * Number of occurrences of NDPA being transmitted successfully
8628      * but NDP failing for NTB ranging.
8629      */
8630     A_UINT32 ntbr_ndp_failed;
8631     /** sch_cmd_status_cnts:
8632      * Elements 0-7 count the number of times the sch_cmd_status was equal to
8633      * the corresponding value of the index of the array sch_cmd_status_cnts[],
8634      * and element 8 counts the numbers of times the status was some other
8635      * value >=8.
8636      */
8637     A_UINT32 sch_cmd_status_cnts[9];
8638     /** Number of times LMR reception timed out */
8639     A_UINT32 lmr_timeout;
8640     /** Number of LMR frames received */
8641     A_UINT32 lmr_recv;
8642     /** Number of trigger frames received */
8643     A_UINT32 num_trigger_frames_received;
8644     /** Number of NDPAs received for TBR */
8645     A_UINT32 num_tb_ranging_NDPAs_recv;
8646     /** Number of ranging NDPs received for NTBR/TB */
8647     A_UINT32 ndp_rx_cnt;
8648 } htt_stats_pdev_rtt_init_stats_tlv;
8649 
8650 /* STATS_TYPE: HTT_DBG_EXT_PDEV_RTT_INITIATOR_STATS
8651  * TLV_TAGS:
8652  *  HTT_STATS_PDEV_RTT_INIT_STATS_TAG
8653  *  HTT_STATS_PDEV_RTT_HW_STATS_TAG
8654  */
8655 #ifdef ATH_TARGET
8656 typedef struct {
8657     htt_stats_pdev_rtt_init_stats_tlv pdev_rtt_init_stats;
8658     htt_stats_pdev_rtt_hw_stats_tlv pdev_rtt_hw_stats;
8659 } htt_pdev_rtt_init_stats_t;
8660 #endif /* ATH_TARGET */
8661 
8662 enum {
8663     HTT_STATS_WIFI_RADAR_CAL_TYPE_NONE = 0,
8664     HTT_STATS_WIFI_RADAR_CAL_TYPE_GAIN_BINARY_SEARCH = 1,
8665     HTT_STATS_WIFI_RADAR_CAL_TYPE_TX_GAIN_BINARY_SEARCH = 2,
8666     HTT_STATS_WIFI_RADAR_CAL_TYPE_RECAL_GAIN_VALIDATION = 3,
8667     HTT_STATS_WIFI_RADAR_CAL_TYPE_RECAL_GAIN_BINARY_SEARCH = 4,
8668     /* the value 5 is reserved for future use */
8669 
8670     HTT_STATS_NUM_WIFI_RADAR_CAL_TYPES = 6
8671 };
8672 
8673 enum {
8674     HTT_STATS_WIFI_RADAR_CAL_FAILURE_NONE = 0,
8675     HTT_STATS_WIFI_RADAR_CAL_FAILURE_DPD_ABORT = 1,
8676     HTT_STATS_WIFI_RADAR_CAL_FAILURE_CONVERGENCE = 2,
8677     HTT_STATS_WIFI_RADAR_CAL_FAILURE_TX_EXCEEDS_RETRY = 3,
8678     HTT_STATS_WIFI_RADAR_CAL_FAILURE_CAPTURE = 4,
8679     HTT_STATS_WIFI_RADAR_CAL_FAILURE_NEW_CHANNEL_CHANGE = 5,
8680     HTT_STATS_WIFI_RADAR_CAL_FAILURE_NEW_CAL_REQ = 6,
8681     /* the values 7-9 are reserved for future use */
8682 
8683     HTT_STATS_NUM_WIFI_RADAR_CAL_FAILURE_REASONS = 10
8684 };
8685 
8686 typedef struct {
8687     htt_tlv_hdr_t tlv_hdr;
8688     A_UINT32 capture_in_progress;
8689     A_UINT32 calibration_in_progress;
8690     /* Capture time interval, in ms */
8691     A_UINT32 periodicity;
8692     /* Last user request timestamp, in ms */
8693     A_UINT32 latest_req_timestamp;
8694     /* Last target res timestamp, in ms */
8695     A_UINT32 latest_resp_timestamp;
8696     /* Time taken by last calibration to end, in ms */
8697     A_UINT32 latest_calibration_timing;
8698     /* Time taken by last calibration to end, in ms for each chain */
8699     A_UINT32 calibration_timing_per_chain[HTT_STATS_MAX_CHAINS];
8700     /* To log user request count */
8701     A_UINT32 wifi_radar_req_count;
8702     /* Total packet success count */
8703     A_UINT32 num_wifi_radar_pkt_success;
8704     /* Total packet queued count */
8705     A_UINT32 num_wifi_radar_pkt_queued;
8706     /* Total packet success count during latest calibration alone */
8707     A_UINT32 num_wifi_radar_cal_pkt_success;
8708     /* Tx Gain Calibration Output - Initial Tx Gain index*/
8709     A_UINT32 wifi_radar_cal_init_tx_gain;
8710     /* Last Calibration Type, refer to HTT_STATS_WIFI_RADAR_CAL_TYPE_ consts */
8711     A_UINT32 latest_wifi_radar_cal_type;
8712     /* Calibration Type counters */
8713     A_UINT32 wifi_radar_cal_type_counts[HTT_STATS_NUM_WIFI_RADAR_CAL_TYPES];
8714     /*
8715      * Last Calibration Fail Reason,
8716      * refer to HTT_STATS_WIFI_RADAR_CAL_FAILURE_ consts
8717      */
8718     A_UINT32 latest_wifi_radar_cal_fail_reason;
8719     /* Calibration Fail Reason counters */
8720     A_UINT32 wifi_radar_cal_fail_reason_counts[HTT_STATS_NUM_WIFI_RADAR_CAL_FAILURE_REASONS];
8721     /* WiFi Radar Licensed for SKU: 0 - No; 1 - Yes */
8722     A_UINT32 wifi_radar_licensed;
8723     /*
8724      * cmd result to show failure count of CTS2SELF across MAX_CMD_RESULT
8725      * reasons
8726      */
8727     A_UINT32 cmd_results_cts2self[HTT_STATS_MAX_SCH_CMD_RESULT];
8728     /*
8729      * cmd result to show failure count of wifi radar across MAX_CMD_RESULT
8730      * reasons
8731      */
8732     A_UINT32 cmd_results_wifi_radar[HTT_STATS_MAX_SCH_CMD_RESULT];
8733     /* Tx gain index from gain table obtained/used for calibration */
8734     A_UINT32 wifi_radar_tx_gains[HTT_STATS_MAX_CHAINS];
8735     /* Rx gain index from gain table obtained/used from calibration */
8736     A_UINT32 wifi_radar_rx_gains[HTT_STATS_MAX_CHAINS][HTT_STATS_MAX_CHAINS];
8737 } htt_stats_tx_pdev_wifi_radar_tlv;
8738 
8739 /* STATS_TYPE : HTT_DBG_EXT_PKTLOG_AND_HTT_RING_STATS
8740  * TLV_TAGS:
8741  *    - HTT_STATS_PKTLOG_AND_HTT_RING_STATS_TAG
8742  */
8743 /* NOTE:
8744  * This structure is for documentation, and cannot be safely used directly.
8745  * Instead, use the constituent TLV structures to fill/parse.
8746  */
8747 typedef struct {
8748     htt_tlv_hdr_t   tlv_hdr;
8749 
8750     /** No of pktlog payloads that were dropped in htt_ppdu_stats path */
8751     A_UINT32 pktlog_lite_drop_cnt;
8752     /** No of pktlog payloads that were dropped in TQM path */
8753     A_UINT32 pktlog_tqm_drop_cnt;
8754     /** No of pktlog ppdu stats payloads that were dropped */
8755     A_UINT32 pktlog_ppdu_stats_drop_cnt;
8756     /** No of pktlog ppdu ctrl payloads that were dropped */
8757     A_UINT32 pktlog_ppdu_ctrl_drop_cnt;
8758     /** No of pktlog sw events payloads that were dropped */
8759     A_UINT32 pktlog_sw_events_drop_cnt;
8760 } htt_stats_pktlog_and_htt_ring_stats_tlv;
8761 /* preserve old name alias for new name consistent with the tag name */
8762 typedef htt_stats_pktlog_and_htt_ring_stats_tlv
8763     htt_pktlog_and_htt_ring_stats_tlv;
8764 
8765 #define HTT_DLPAGER_STATS_MAX_HIST            10
8766 #define HTT_DLPAGER_ASYNC_LOCKED_PAGE_COUNT_M 0x000000FF
8767 #define HTT_DLPAGER_ASYNC_LOCKED_PAGE_COUNT_S 0
8768 #define HTT_DLPAGER_SYNC_LOCKED_PAGE_COUNT_M  0x0000FF00
8769 #define HTT_DLPAGER_SYNC_LOCKED_PAGE_COUNT_S  8
8770 #define HTT_DLPAGER_TOTAL_LOCKED_PAGES_M      0x0000FFFF
8771 #define HTT_DLPAGER_TOTAL_LOCKED_PAGES_S      0
8772 #define HTT_DLPAGER_TOTAL_FREE_PAGES_M        0xFFFF0000
8773 #define HTT_DLPAGER_TOTAL_FREE_PAGES_S        16
8774 #define HTT_DLPAGER_LAST_LOCKED_PAGE_IDX_M    0x0000FFFF
8775 #define HTT_DLPAGER_LAST_LOCKED_PAGE_IDX_S    0
8776 #define HTT_DLPAGER_LAST_UNLOCKED_PAGE_IDX_M  0xFFFF0000
8777 #define HTT_DLPAGER_LAST_UNLOCKED_PAGE_IDX_S  16
8778 
8779 #define HTT_DLPAGER_ASYNC_LOCK_PAGE_COUNT_GET(_var) \
8780     (((_var) & HTT_DLPAGER_ASYNC_LOCKED_PAGE_COUNT_M) >> \
8781      HTT_DLPAGER_ASYNC_LOCKED_PAGE_COUNT_S)
8782 #define HTT_STATS_DLPAGER_STATS_DL_PAGER_STATS_ASYNC_LOCK_GET(_var) \
8783     HTT_DLPAGER_ASYNC_LOCK_PAGE_COUNT_GET(_var)
8784 
8785 
8786 #define HTT_DLPAGER_ASYNC_LOCK_PAGE_COUNT_SET(_var, _val) \
8787     do { \
8788         HTT_CHECK_SET_VAL(HTT_DLPAGER_ASYNC_LOCKED_PAGE_COUNT, _val); \
8789         ((_var) &= ~(HTT_DLPAGER_ASYNC_LOCKED_PAGE_COUNT_M));\
8790         ((_var) |= ((_val) << HTT_DLPAGER_ASYNC_LOCKED_PAGE_COUNT_S)); \
8791     } while (0)
8792 
8793 #define HTT_DLPAGER_SYNC_LOCK_PAGE_COUNT_GET(_var) \
8794     (((_var) & HTT_DLPAGER_SYNC_LOCKED_PAGE_COUNT_M) >> \
8795      HTT_DLPAGER_SYNC_LOCKED_PAGE_COUNT_S)
8796 #define HTT_STATS_DLPAGER_STATS_DL_PAGER_STATS_SYNC_LOCK_GET(_var) \
8797     HTT_DLPAGER_SYNC_LOCK_PAGE_COUNT_GET(_var)
8798 
8799 #define HTT_DLPAGER_SYNC_LOCK_PAGE_COUNT_SET(_var, _val) \
8800     do { \
8801         HTT_CHECK_SET_VAL(HTT_DLPAGER_SYNC_LOCKED_PAGE_COUNT, _val); \
8802         ((_var) &= ~(HTT_DLPAGER_SYNC_LOCKED_PAGE_COUNT_M));\
8803         ((_var) |= ((_val) << HTT_DLPAGER_SYNC_LOCKED_PAGE_COUNT_S)); \
8804     } while (0)
8805 
8806 #define HTT_DLPAGER_TOTAL_LOCKED_PAGES_GET(_var) \
8807     (((_var) & HTT_DLPAGER_TOTAL_LOCKED_PAGES_M) >> \
8808      HTT_DLPAGER_TOTAL_LOCKED_PAGES_S)
8809 #define HTT_STATS_DLPAGER_STATS_DL_PAGER_STATS_TOTAL_LOCKED_PAGES_GET(_var) \
8810     HTT_DLPAGER_TOTAL_LOCKED_PAGES_GET(_var)
8811 
8812 #define HTT_DLPAGER_TOTAL_LOCKED_PAGES_SET(_var, _val) \
8813     do { \
8814         HTT_CHECK_SET_VAL(HTT_DLPAGER_TOTAL_LOCKED_PAGES, _val); \
8815         ((_var) &= ~(HTT_DLPAGER_TOTAL_LOCKED_PAGES_M)); \
8816         ((_var) |= ((_val) << HTT_DLPAGER_TOTAL_LOCKED_PAGES_S)); \
8817     } while (0)
8818 
8819 #define HTT_DLPAGER_TOTAL_FREE_PAGES_GET(_var) \
8820     (((_var) & HTT_DLPAGER_TOTAL_FREE_PAGES_M) >> \
8821      HTT_DLPAGER_TOTAL_FREE_PAGES_S)
8822 #define HTT_STATS_DLPAGER_STATS_DL_PAGER_STATS_TOTAL_FREE_PAGES_GET(_var) \
8823     HTT_DLPAGER_TOTAL_FREE_PAGES_GET(_var)
8824 
8825 #define HTT_DLPAGER_TOTAL_FREE_PAGES_SET(_var, _val) \
8826     do { \
8827         HTT_CHECK_SET_VAL(HTT_DLPAGER_TOTAL_FREE_PAGES, _val); \
8828         ((_var) &= ~(HTT_DLPAGER_TOTAL_FREE_PAGES_M)); \
8829         ((_var) |= ((_val) << HTT_DLPAGER_TOTAL_FREE_PAGES_S)); \
8830     } while (0)
8831 
8832 #define HTT_DLPAGER_LAST_LOCKED_PAGE_IDX_GET(_var) \
8833     (((_var) & HTT_DLPAGER_LAST_LOCKED_PAGE_IDX_M) >> \
8834      HTT_DLPAGER_LAST_LOCKED_PAGE_IDX_S)
8835 #define HTT_STATS_DLPAGER_STATS_DL_PAGER_STATS_LAST_LOCKED_PAGE_IDX_GET(_var) \
8836     HTT_DLPAGER_LAST_LOCKED_PAGE_IDX_GET(_var)
8837 
8838 #define HTT_DLPAGER_LAST_LOCKED_PAGE_IDX_SET(_var, _val) \
8839     do { \
8840         HTT_CHECK_SET_VAL(HTT_DLPAGER_LAST_LOCKED_PAGE_IDX, _val); \
8841         ((_var) &= ~(HTT_DLPAGER_LAST_LOCKED_PAGE_IDX_M)); \
8842         ((_var) |= ((_val) << HTT_DLPAGER_LAST_LOCKED_PAGE_IDX_S)); \
8843     } while (0)
8844 
8845 #define HTT_DLPAGER_LAST_UNLOCKED_PAGE_IDX_GET(_var) \
8846     (((_var) & HTT_DLPAGER_LAST_UNLOCKED_PAGE_IDX_M) >> \
8847      HTT_DLPAGER_LAST_UNLOCKED_PAGE_IDX_S)
8848 #define HTT_STATS_DLPAGER_STATS_DL_PAGER_STATS_LAST_UNLOCKED_PAGE_IDX_GET(_var) \
8849      HTT_DLPAGER_LAST_UNLOCKED_PAGE_IDX_GET(_var)
8850 
8851 #define HTT_DLPAGER_LAST_UNLOCKED_PAGE_IDX_SET(_var, _val) \
8852     do { \
8853         HTT_CHECK_SET_VAL(HTT_DLPAGER_LAST_UNLOCKED_PAGE_IDX, _val); \
8854         ((_var) &= ~(HTT_DLPAGER_LAST_UNLOCKED_PAGE_IDX_M)); \
8855         ((_var) |= ((_val) << HTT_DLPAGER_LAST_UNLOCKED_PAGE_IDX_S)); \
8856     } while (0)
8857 
8858 enum {
8859     HTT_STATS_PAGE_LOCKED = 0,
8860     HTT_STATS_PAGE_UNLOCKED = 1,
8861     HTT_STATS_NUM_PAGE_LOCK_STATES
8862 };
8863 
8864 /* dlPagerStats structure
8865  * Number of lock/unlock pages with last 10 lock/unlock occurrences are recorded */
8866 typedef struct{
8867     /** msg_dword_1 bitfields:
8868      *     async_lock                 : 8,
8869      *     sync_lock                  : 8,
8870      *     reserved                   : 16;
8871      */
8872     union {
8873         struct {
8874             A_UINT32 async_lock: 8,
8875                      sync_lock: 8,
8876                      reserved1: 16;
8877 
8878         };
8879         A_UINT32     msg_dword_1;
8880     };
8881     /** mst_dword_2 bitfields:
8882      *     total_locked_pages         : 16,
8883      *     total_free_pages           : 16;
8884      */
8885     union {
8886         struct {
8887             A_UINT32 total_locked_pages: 16,
8888                      total_free_pages: 16;
8889         };
8890         A_UINT32     msg_dword_2;
8891     };
8892     /** msg_dword_3 bitfields:
8893      *     last_locked_page_idx       : 16,
8894      *     last_unlocked_page_idx     : 16;
8895      */
8896     union {
8897         struct {
8898             A_UINT32 last_locked_page_idx: 16,
8899                      last_unlocked_page_idx: 16;
8900         };
8901         A_UINT32     msg_dword_3;
8902     };
8903 
8904     struct {
8905         A_UINT32 page_num;
8906         A_UINT32 num_of_pages;
8907         /** timestamp is in microsecond units, from SoC timer clock */
8908         A_UINT32 timestamp_lsbs;
8909         A_UINT32 timestamp_msbs;
8910     } last_pages_info[HTT_STATS_NUM_PAGE_LOCK_STATES][HTT_DLPAGER_STATS_MAX_HIST];
8911 } htt_dl_pager_stats_tlv;
8912 
8913 /* NOTE:
8914  *  This structure is for documentation, and cannot be safely used directly.
8915  *  Instead, use the constituent TLV structures to fill/parse.
8916  *  STATS_TYPE : HTT_DBG_EXT_STATS_DLPAGER_STATS
8917  *  TLV_TAGS:
8918  *      - HTT_STATS_DLPAGER_STATS_TAG
8919  */
8920 typedef struct {
8921     htt_tlv_hdr_t tlv_hdr;
8922     htt_dl_pager_stats_tlv dl_pager_stats;
8923 } htt_stats_dlpager_stats_tlv;
8924 /* preserve old name alias for new name consistent with the tag name */
8925 typedef htt_stats_dlpager_stats_tlv htt_dlpager_stats_t;
8926 
8927 
8928 /*======= PHY STATS ====================*/
8929 /*
8930  * STATS TYPE : HTT_DBG_EXT_PHY_COUNTERS_AND_PHY_STATS
8931  * TLV_TAGS:
8932  *    - HTT_STATS_PHY_COUNTERS_TAG
8933  *    - HTT_STATS_PHY_STATS_TAG
8934  */
8935 
8936 #define HTT_MAX_RX_PKT_CNT 8
8937 #define HTT_MAX_RX_PKT_CRC_PASS_CNT 8
8938 #define HTT_MAX_PER_BLK_ERR_CNT 20
8939 #define HTT_MAX_RX_OTA_ERR_CNT 14
8940 #define HTT_MAX_RX_PKT_CNT_EXT 4
8941 #define HTT_MAX_RX_PKT_CRC_PASS_CNT_EXT 4
8942 #define HTT_MAX_RX_PKT_MU_CNT 14
8943 #define HTT_MAX_TX_PKT_CNT 10
8944 #define HTT_MAX_PHY_TX_ABORT_CNT 10
8945 
8946 typedef enum {
8947     HTT_STATS_CHANNEL_HALF_RATE          = 0x0001,   /* Half rate */
8948     HTT_STATS_CHANNEL_QUARTER_RATE       = 0x0002,   /* Quarter rate */
8949     HTT_STATS_CHANNEL_DFS                = 0x0004,   /* Enable radar event reporting */
8950     HTT_STATS_CHANNEL_HOME               = 0x0008,   /* Home channel */
8951     HTT_STATS_CHANNEL_PASSIVE_SCAN       = 0x0010,   /*Passive Scan */
8952     HTT_STATS_CHANNEL_DFS_SAP_NOT_UP     = 0x0020,   /* set when VDEV_START_REQUEST, clear when VDEV_UP */
8953     HTT_STATS_CHANNEL_PASSIVE_SCAN_CAL   = 0x0040,   /* need to do passive scan calibration to avoid "spikes" */
8954     HTT_STATS_CHANNEL_DFS_SAP_UP         = 0x0080,   /* DFS master */
8955     HTT_STATS_CHANNEL_DFS_CFREQ2         = 0x0100,   /* Enable radar event reporting for sec80 in VHT80p80 */
8956     HTT_STATS_CHANNEL_DTIM_SYNTH         = 0x0200,   /* Enable DTIM */
8957     HTT_STATS_CHANNEL_FORCE_GAIN         = 0x0400,   /* Force gain mmode (only used for FTM) */
8958     HTT_STATS_CHANNEL_PERFORM_NF_CAL     = 0x0800,   /* Perform NF cal in channel change (only used for FTM) */
8959     HTT_STATS_CHANNEL_165_MODE_0         = 0x1000,   /* 165 MHz mode 0 */
8960     HTT_STATS_CHANNEL_165_MODE_1         = 0x2000,   /* 165 MHz mode 1 */
8961     HTT_STATS_CHANNEL_165_MODE_2         = 0x3000,   /* 165 MHz mode 2 */
8962     HTT_STATS_CHANNEL_165_MODE_MASK      = 0x3000,   /* 165 MHz 2-bit mode mask */
8963 } HTT_STATS_CHANNEL_FLAGS;
8964 
8965 typedef enum {
8966     HTT_STATS_RF_MODE_MIN          = 0,
8967     HTT_STATS_RF_MODE_PHYA_ONLY    = 0,        // only PHYA is active
8968     HTT_STATS_RF_MODE_DBS          = 1,        // PHYA/5G and PHYB/2G
8969     HTT_STATS_RF_MODE_SBS          = 2,        // PHYA/5G and PHYB/5G in HL/NPR; PHYA0/5G and PHYA1/5G in HK
8970     HTT_STATS_RF_MODE_PHYB_ONLY    = 3,        // only PHYB is active
8971     HTT_STATS_RF_MODE_DBS_SBS      = 4,        // PHYA0/5G, PHYA1/5G and PHYB/2G in HK (the 2 5G are in different channel)
8972     HTT_STATS_RF_MODE_DBS_OR_SBS   = 5,        // PHYA0/5G, PHYA1/5G and PHYB/5G or 2G in HK
8973     HTT_STATS_RF_MODE_INVALID      = 0xff,
8974 } HTT_STATS_RF_MODE;
8975 
8976 typedef enum {
8977     HTT_STATS_RESET_CAUSE_FIRST_RESET      = 0x00000001, /* First reset by application */
8978     HTT_STATS_RESET_CAUSE_ERROR            = 0x00000002, /* Triggered due to error */
8979     HTT_STATS_RESET_CAUSE_DEEP_SLEEP       = 0x00000004, /* Reset after deep sleep */
8980     HTT_STATS_RESET_CAUSE_FULL_RESET       = 0x00000008, /* Full reset without any optimizations */
8981     HTT_STATS_RESET_CAUSE_CHANNEL_CHANGE   = 0x00000010, /* For normal channel change */
8982     HTT_STATS_RESET_CAUSE_BAND_CHANGE      = 0x00000020, /* Triggered due to band change */
8983     HTT_STATS_RESET_CAUSE_DO_CAL           = 0x00000040, /* Triggered due to calibrations */
8984     HTT_STATS_RESET_CAUSE_MCI_ERROR        = 0x00000080, /* Triggered due to MCI ERROR */
8985     HTT_STATS_RESET_CAUSE_CHWIDTH_CHANGE   = 0x00000100, /* Triggered due to channel width change */
8986     HTT_STATS_RESET_CAUSE_WARM_RESTORE_CAL = 0x00000200, /* Triggered due to warm reset we want to just restore calibrations */
8987     HTT_STATS_RESET_CAUSE_COLD_RESTORE_CAL = 0x00000400, /* Triggered due to cold reset we want to just restore calibrations */
8988     HTT_STATS_RESET_CAUSE_PHY_WARM_RESET   = 0x00000800, /* Triggered due to phy warm reset we want to just restore calibrations */
8989     HTT_STATS_RESET_CAUSE_M3_SSR           = 0x00001000, /* Triggered due to SSR Restart */
8990     HTT_STATS_RESET_CAUSE_FORCE_CAL        = 0x00002000, /* Reset to force the calibration */
8991     /* 0x00004000, 0x00008000 reserved */
8992     HTT_STATS_NO_RESET_CHANNEL_CHANGE      = 0x00010000, /* No reset, normal channel change */
8993     HTT_STATS_NO_RESET_BAND_CHANGE         = 0x00020000, /* No reset, channel change across band */
8994     HTT_STATS_NO_RESET_CHWIDTH_CHANGE      = 0x00040000, /* No reset, channel change across channel width */
8995     HTT_STATS_NO_RESET_CHAINMASK_CHANGE    = 0x00080000, /* No reset, chainmask change */
8996     HTT_STATS_RESET_CAUSE_PHY_WARM_RESET_UCODE_TRIG = 0x00100000, /* Triggered due to phy warm reset we want to just restore calibrations */
8997     HTT_STATS_RESET_CAUSE_PHY_OFF_TIMEOUT_RESET  = 0x00200000, /* Reset ucode because phy off ack timeout*/
8998     HTT_STATS_RESET_CAUSE_LMAC_RESET_UMAC_NOC_ERR = 0x00400000, /* LMAC reset triggered due to NOC Address/Slave error originating at LMAC */
8999     HTT_STATS_NO_RESET_SCAN_BACK_TO_SAME_HOME_CHANNEL_CHANGE = 0x00800000, /* No reset, scan to home channel change */
9000 } HTT_STATS_RESET_CAUSE;
9001 
9002 typedef enum {
9003     HTT_CHANNEL_RATE_FULL,
9004     HTT_CHANNEL_RATE_HALF,
9005     HTT_CHANNEL_RATE_QUARTER,
9006 
9007     HTT_CHANNEL_RATE_COUNT
9008 } HTT_CHANNEL_RATE;
9009 
9010 typedef enum {
9011     HTT_PHY_BW_IDX_20MHz    = 0,
9012     HTT_PHY_BW_IDX_40MHz    = 1,
9013     HTT_PHY_BW_IDX_80MHz    = 2,
9014     HTT_PHY_BW_IDX_80Plus80 = 3,
9015     HTT_PHY_BW_IDX_160MHz   = 4,
9016     HTT_PHY_BW_IDX_10MHz    = 5,
9017     HTT_PHY_BW_IDX_5MHz     = 6,
9018     HTT_PHY_BW_IDX_165MHz   = 7,
9019 
9020 } HTT_PHY_BW_IDX;
9021 
9022 typedef enum {
9023     HTT_WHAL_CONFIG_NONE                = 0x00000000,
9024     HTT_WHAL_CONFIG_NF_WAR              = 0x00000001,
9025     HTT_WHAL_CONFIG_CAL_WAR             = 0x00000002,
9026     HTT_WHAL_CONFIG_DO_NF_CAL           = 0x00000004,
9027     HTT_WHAL_CONFIG_SET_WAIT_FOR_NF_CAL = 0x00000008,
9028     HTT_WHAL_CONFIG_FORCED_TX_PWR       = 0x00000010,
9029     HTT_WHAL_CONFIG_FORCED_GAIN_IDX     = 0x00000020,
9030     HTT_WHAL_CONFIG_FORCED_PER_CHAIN    = 0x00000040,
9031 } HTT_WHAL_CONFIG;
9032 
9033 typedef struct {
9034     htt_tlv_hdr_t tlv_hdr;
9035     /** number of RXTD OFDMA OTA error counts except power surge and drop */
9036     A_UINT32 rx_ofdma_timing_err_cnt;
9037     /** rx_cck_fail_cnt:
9038      * number of cck error counts due to rx reception failure because of
9039      * timing error in cck
9040      */
9041     A_UINT32 rx_cck_fail_cnt;
9042     /** number of times tx abort initiated by mac */
9043     A_UINT32 mactx_abort_cnt;
9044     /** number of times rx abort initiated by mac */
9045     A_UINT32 macrx_abort_cnt;
9046     /** number of times tx abort initiated by phy */
9047     A_UINT32 phytx_abort_cnt;
9048     /** number of times rx abort initiated by phy */
9049     A_UINT32 phyrx_abort_cnt;
9050     /** number of rx deferred count initiated by phy */
9051     A_UINT32 phyrx_defer_abort_cnt;
9052     /** number of sizing events generated at LSTF */
9053     A_UINT32 rx_gain_adj_lstf_event_cnt; /* a.k.a sizing1 */
9054     /** number of sizing events generated at non-legacy LTF */
9055     A_UINT32 rx_gain_adj_non_legacy_cnt; /* a.k.a sizing2 */
9056     /** rx_pkt_cnt -
9057      * Received EOP (end-of-packet) count per packet type;
9058      * [0] = 11a; [1] = 11b; [2] = 11n; [3] = 11ac; [4] = 11ax; [5] = GF
9059      * [6] = EHT; [7]=RSVD; [6] = Applicable only for BE
9060      */
9061     A_UINT32 rx_pkt_cnt[HTT_MAX_RX_PKT_CNT];
9062     /** rx_pkt_crc_pass_cnt -
9063      * Received EOP (end-of-packet) count per packet type;
9064      * [0] = 11a; [1] = 11b; [2] = 11n; [3] = 11ac; [4] = 11ax; [5] = GF
9065      * [6] = EHT; [7]=RSVD; [6] = Applicable only for BE
9066      */
9067     A_UINT32 rx_pkt_crc_pass_cnt[HTT_MAX_RX_PKT_CRC_PASS_CNT];
9068     /** per_blk_err_cnt -
9069      * Error count per error source;
9070      * [0] = unknown; [1] = LSIG; [2] = HTSIG; [3] = VHTSIG; [4] = HESIG;
9071      * [5] = RXTD_OTA; [6] = RXTD_FATAL; [7] = DEMF; [8] = ROBE;
9072      * [9] = PMI; [10] = TXFD; [11] = TXTD; [12] = PHYRF
9073      * [13-19]=RSVD
9074      */
9075     A_UINT32 per_blk_err_cnt[HTT_MAX_PER_BLK_ERR_CNT];
9076     /** rx_ota_err_cnt -
9077      * RXTD OTA (over-the-air) error count per error reason;
9078      * [0] = voting fail; [1] = weak det fail; [2] = strong sig fail;
9079      * [3] = cck fail; [4] = power surge; [5] = power drop;
9080      * [6] = btcf timing timeout error; [7] = btcf packet detect error;
9081      * [8] = coarse timing timeout error
9082      * [9-13]=RSVD
9083      */
9084     A_UINT32 rx_ota_err_cnt[HTT_MAX_RX_OTA_ERR_CNT];
9085     /** rx_pkt_cnt_ext -
9086      * Received EOP (end-of-packet) count per packet type for BE;
9087      * [0] = WUR; [1] = AZ; [2-3]=RVSD
9088      */
9089     A_UINT32 rx_pkt_cnt_ext[HTT_MAX_RX_PKT_CNT_EXT];
9090     /** rx_pkt_crc_pass_cnt_ext -
9091      * Received EOP (end-of-packet) count per packet type for BE;
9092      * [0] = WUR; [1] = AZ; [2-3]=RVSD
9093      */
9094     A_UINT32 rx_pkt_crc_pass_cnt_ext[HTT_MAX_RX_PKT_CRC_PASS_CNT_EXT];
9095     /** rx_pkt_mu_cnt -
9096      * RX MU MIMO+OFDMA packet count per packet type for BE;
9097      * [0] = 11ax OFDMA; [1] = 11ax OFDMA+MUMIMO; [2] = 11be OFDMA;
9098      * [3] = 11be OFDMA+MUMIMO; [4] = 11ax MIMO; [5] = 11be MIMO;
9099      * [6] = 11ax OFDMA; [7] = 11ax OFDMA+MUMIMO; [8] = 11be OFDMA;
9100      * [9] = 11be OFDMA+MUMIMO; [10] = 11ax MIMO; [11] = 11be MIMO;
9101      * [12-13]=RSVD
9102      */
9103     A_UINT32 rx_pkt_mu_cnt[HTT_MAX_RX_PKT_MU_CNT];
9104     /** tx_pkt_cnt -
9105      * num of transfered packet count per packet type;
9106      * [0] = 11a; [1] = 11b; [2] = 11n; [3] = 11ac; [4] = 11ax; [5] = GF;
9107      * [6]= EHT; [7] = WUR; [8] = AZ; [9]=RSVD; [6-8] = Applicable only for BE
9108      */
9109     A_UINT32 tx_pkt_cnt[HTT_MAX_TX_PKT_CNT];
9110     /** phy_tx_abort_cnt -
9111      * phy tx abort after each tlv;
9112      * [0] = PRE-PHY desc tlv; [1] = PHY desc tlv; [2] = LSIGA tlv;
9113      * [3] = LSIGB tlv; [4] = Per User tlv; [5] = HESIGB tlv;
9114      * [6] = Service tlv; [7] = Tx Packet End tlv; [8-9]=RSVD;
9115      */
9116     A_UINT32 phy_tx_abort_cnt[HTT_MAX_PHY_TX_ABORT_CNT];
9117 } htt_stats_phy_counters_tlv;
9118 /* preserve old name alias for new name consistent with the tag name */
9119 typedef htt_stats_phy_counters_tlv htt_phy_counters_tlv;
9120 
9121 #define HTT_STATS_ANI_MODE_M 0x000000ff
9122 #define HTT_STATS_ANI_MODE_S 0
9123 
9124 #define HTT_STATS_ANI_MODE_GET(_var) \
9125     (((_var) & HTT_STATS_ANI_MODE_M) >> \
9126      HTT_STATS_ANI_MODE_S)
9127 
9128 #define HTT_STATS_ANI_MODE_SET(_var, _val) \
9129     do { \
9130         HTT_CHECK_SET_VAL(HTT_STATS_ANI_MODE, _val); \
9131         ((_var) |= ((_val) << HTT_STATS_ANI_MODE_S)); \
9132     } while (0)
9133 
9134 typedef struct {
9135     htt_tlv_hdr_t tlv_hdr;
9136     /** per chain hw noise floor values in dBm */
9137     A_INT32  nf_chain[HTT_STATS_MAX_CHAINS];
9138     /** number of false radars detected */
9139     A_UINT32 false_radar_cnt;
9140     /** number of channel switches happened due to radar detection */
9141     A_UINT32 radar_cs_cnt;
9142     /** ani_level -
9143      * ANI level (noise interference) corresponds to the channel
9144      * the desense levels range from -5 to 15 in dB units,
9145      * higher values indicating more noise interference.
9146      */
9147     A_INT32 ani_level;
9148     /** running time in minutes since FW boot */
9149     A_UINT32 fw_run_time;
9150     /** per chain runtime noise floor values in dBm */
9151     A_INT32 runTime_nf_chain[HTT_STATS_MAX_CHAINS];
9152 
9153     /** DFS SW based progressive stats - start **/
9154 
9155     /* current AP operating bandwidth (refer to WLAN_PHY_MODE) */
9156     A_UINT32 current_OBW;
9157     /* current AP device bandwidth (refer to WLAN_PHY_MODE) */
9158     A_UINT32 current_DBW;
9159     /* last_radar_type: last detected radar type
9160      * This last_radar_type field contains a value whose meaning is not
9161      * exposed to the host; this field is only provided for debug purposes.
9162      */
9163     A_UINT32 last_radar_type;
9164     /* dfs_reg_domain: curent DFS regulatory domain
9165      * This dfs_reg_domain field contains a value whose meaning is not
9166      * exposed to the host; this field is only provided for debug purposes.
9167      */
9168     A_UINT32 dfs_reg_domain;
9169     /* radar_mask_bit: Radar mask setting programmed in HW registers.
9170      * Each bit represents a 20 MHz portion of the channel.
9171      * Bit 0 represents the highest 20 MHz portion within the channel.
9172      * For example...
9173      * For a 80 MHz channel, bit0 = highest 20 MHz, bit3 = lowest 20 MHz
9174      * For a 320 MHz channel, bit0 = highest 20 MHz, bit15 = lowest 20 MHz
9175      */
9176     A_UINT32 radar_mask_bit;
9177     /* DFS radar rssi threshold (units = dBm) */
9178     A_INT32 radar_rssi;
9179     /* DFS global flags (refer to IEEE80211_CHAN_* defines) */
9180     A_UINT32 radar_dfs_flags;
9181     /* band center frequency of operating bandwidth (units = MHz) */
9182     A_UINT32 band_center_frequency_OBW;
9183     /* band center frequency of device bandwidth (units = MHz) */
9184     A_UINT32 band_center_frequency_DBW;
9185 
9186     /** DFS SW based progressive stats - end **/
9187 
9188     /* BIT [ 7 :  0]   :- ani_mode
9189      * BIT [31 :  8]   :- reserved
9190      *
9191      * ani_mode:
9192      *     1 for static ANI
9193      *     0 for dynamic ANI
9194      *     0xFF for ANI disabled
9195      */
9196     union {
9197         A_UINT32 dword__ani_mode;
9198         struct {
9199             A_UINT32
9200                 ani_mode: 8,
9201                 reserved: 24;
9202         };
9203     };
9204 } htt_stats_phy_stats_tlv;
9205 /* preserve old name alias for new name consistent with the tag name */
9206 typedef htt_stats_phy_stats_tlv htt_phy_stats_tlv;
9207 
9208 
9209 #define HTT_STATS_PHY_RESET_CAL_DATA_COMPRESSED_M 0x00000001
9210 #define HTT_STATS_PHY_RESET_CAL_DATA_COMPRESSED_S 0
9211 #define HTT_STATS_PHY_RESET_CAL_DATA_COMPRESSED_GET(_var) \
9212     (((_var) & HTT_STATS_PHY_RESET_CAL_DATA_COMPRESSED_M) >> \
9213      HTT_STATS_PHY_RESET_CAL_DATA_COMPRESSED_S)
9214 #define HTT_STATS_PHY_RESET_CAL_DATA_COMPRESSED_SET(_var, _val) \
9215     do { \
9216         HTT_CHECK_SET_VAL(HTT_STATS_PHY_RESET_CAL_DATA_COMPRESSED, _val); \
9217         ((_var) |= ((_val) << STATS_PHY_RESET_CAL_DATA_COMPRESSED_S)); \
9218     } while (0)
9219 #define HTT_STATS_PHY_RESET_CAL_DATA_SOURCE_M 0x00000006
9220 #define HTT_STATS_PHY_RESET_CAL_DATA_SOURCE_S 1
9221 #define HTT_STATS_PHY_RESET_CAL_DATA_SOURCE_GET(_var) \
9222     (((_var) & HTT_STATS_PHY_RESET_CAL_DATA_SOURCE_M) >> \
9223      HTT_STATS_PHY_RESET_CAL_DATA_SOURCE_S)
9224 #define HTT_STATS_PHY_RESET_CAL_DATA_SOURCE_SET(_var, _val) \
9225     do { \
9226         HTT_CHECK_SET_VAL(HTT_STATS_PHY_RESET_CAL_DATA_SOURCE, _val); \
9227         ((_var) |= ((_val) << STATS_PHY_RESET_CAL_DATA_SOURCE_S)); \
9228     } while (0)
9229 #define HTT_STATS_PHY_RESET_XTALCAL_M 0x00000008
9230 #define HTT_STATS_PHY_RESET_XTALCAL_S 3
9231 #define HTT_STATS_PHY_RESET_XTALCAL_GET(_var) \
9232     (((_var) & HTT_STATS_PHY_RESET_XTALCAL_M) >> \
9233      HTT_STATS_PHY_RESET_XTALCAL_S)
9234 #define HTT_STATS_PHY_RESET_XTALCAL_SET(_var, _val) \
9235     do { \
9236         HTT_CHECK_SET_VAL(HTT_STATS_PHY_RESET_XTALCAL, _val); \
9237         ((_var) |= ((_val) << STATS_PHY_RESET_XTALCAL_S)); \
9238     } while (0)
9239 #define HTT_STATS_PHY_RESET_TPCCAL2GOPC_M 0x00000010
9240 #define HTT_STATS_PHY_RESET_TPCCAL2GOPC_S 4
9241 #define HTT_STATS_PHY_RESET_TPCCAL2GOPC_GET(_var) \
9242     (((_var) & HTT_STATS_PHY_RESET_TPCCAL2GOPC_M) >> \
9243      HTT_STATS_PHY_RESET_TPCCAL2GOPC_S)
9244 #define HTT_STATS_PHY_RESET_TPCCAL2GOPC_SET(_var, _val) \
9245     do { \
9246         HTT_CHECK_SET_VAL(HTT_STATS_PHY_RESET_TPCCAL2GOPC, _val); \
9247         ((_var) |= ((_val) << STATS_PHY_RESET_TPCCAL2GOPC_S)); \
9248     } while (0)
9249 #define HTT_STATS_PHY_RESET_TPCCAL2GFPC_M 0x00000020
9250 #define HTT_STATS_PHY_RESET_TPCCAL2GFPC_S 5
9251 #define HTT_STATS_PHY_RESET_TPCCAL2GFPC_GET(_var) \
9252     (((_var) & HTT_STATS_PHY_RESET_TPCCAL2GFPC_M) >> \
9253      HTT_STATS_PHY_RESET_TPCCAL2GFPC_S)
9254 #define HTT_STATS_PHY_RESET_TPCCAL2GFPC_SET(_var, _val) \
9255     do { \
9256         HTT_CHECK_SET_VAL(HTT_STATS_PHY_RESET_TPCCAL2GFPC, _val); \
9257         ((_var) |= ((_val) << STATS_PHY_RESET_TPCCAL2GFPC_S)); \
9258     } while (0)
9259 #define HTT_STATS_PHY_RESET_TPCCAL5GOPC_M 0x00000040
9260 #define HTT_STATS_PHY_RESET_TPCCAL5GOPC_S 6
9261 #define HTT_STATS_PHY_RESET_TPCCAL5GOPC_GET(_var) \
9262     (((_var) & HTT_STATS_PHY_RESET_TPCCAL5GOPC_M) >> \
9263      HTT_STATS_PHY_RESET_TPCCAL5GOPC_S)
9264 #define HTT_STATS_PHY_RESET_TPCCAL5GOPC_SET(_var, _val) \
9265     do { \
9266         HTT_CHECK_SET_VAL(HTT_STATS_PHY_RESET_TPCCAL5GOPC, _val); \
9267         ((_var) |= ((_val) << STATS_PHY_RESET_TPCCAL5GOPC_S)); \
9268     } while (0)
9269 #define HTT_STATS_PHY_RESET_TPCCAL5GFPC_M 0x00000080
9270 #define HTT_STATS_PHY_RESET_TPCCAL5GFPC_S 7
9271 #define HTT_STATS_PHY_RESET_TPCCAL5GFPC_GET(_var) \
9272     (((_var) & HTT_STATS_PHY_RESET_TPCCAL5GFPC_M) >> \
9273      HTT_STATS_PHY_RESET_TPCCAL5GFPC_S)
9274 #define HTT_STATS_PHY_RESET_TPCCAL5GFPC_SET(_var, _val) \
9275     do { \
9276         HTT_CHECK_SET_VAL(HTT_STATS_PHY_RESET_TPCCAL5GFPC, _val); \
9277         ((_var) |= ((_val) << STATS_PHY_RESET_TPCCAL5GFPC_S)); \
9278     } while (0)
9279 #define HTT_STATS_PHY_RESET_TPCCAL6GOPC_M 0x00000100
9280 #define HTT_STATS_PHY_RESET_TPCCAL6GOPC_S 8
9281 #define HTT_STATS_PHY_RESET_TPCCAL6GOPC_GET(_var) \
9282     (((_var) & HTT_STATS_PHY_RESET_TPCCAL6GOPC_M) >> \
9283      HTT_STATS_PHY_RESET_TPCCAL6GOPC_S)
9284 #define HTT_STATS_PHY_RESET_TPCCAL6GOPC_SET(_var, _val) \
9285     do { \
9286         HTT_CHECK_SET_VAL(HTT_STATS_PHY_RESET_TPCCAL6GOPC, _val); \
9287         ((_var) |= ((_val) << STATS_PHY_RESET_TPCCAL6GOPC_S)); \
9288     } while (0)
9289 #define HTT_STATS_PHY_RESET_TPCCAL6GFPC_M 0x00000200
9290 #define HTT_STATS_PHY_RESET_TPCCAL6GFPC_S 9
9291 #define HTT_STATS_PHY_RESET_TPCCAL6GFPC_GET(_var) \
9292     (((_var) & HTT_STATS_PHY_RESET_TPCCAL6GFPC_M) >> \
9293      HTT_STATS_PHY_RESET_TPCCAL6GFPC_S)
9294 #define HTT_STATS_PHY_RESET_TPCCAL6GFPC_SET(_var, _val) \
9295     do { \
9296         HTT_CHECK_SET_VAL(HTT_STATS_PHY_RESET_TPCCAL6GFPC, _val); \
9297         ((_var) |= ((_val) << STATS_PHY_RESET_TPCCAL6GFPC_S)); \
9298     } while (0)
9299 #define HTT_STATS_PHY_RESET_RXGAINCAL2G_M 0x00000400
9300 #define HTT_STATS_PHY_RESET_RXGAINCAL2G_S 10
9301 #define HTT_STATS_PHY_RESET_RXGAINCAL2G_GET(_var) \
9302     (((_var) & HTT_STATS_PHY_RESET_RXGAINCAL2G_M) >> \
9303      HTT_STATS_PHY_RESET_RXGAINCAL2G_S)
9304 #define HTT_STATS_PHY_RESET_RXGAINCAL2G_SET(_var, _val) \
9305     do { \
9306         HTT_CHECK_SET_VAL(HTT_STATS_PHY_RESET_RXGAINCAL2G, _val); \
9307         ((_var) |= ((_val) << STATS_PHY_RESET_RXGAINCAL2G_S)); \
9308     } while (0)
9309 #define HTT_STATS_PHY_RESET_RXGAINCAL5G_M 0x00000800
9310 #define HTT_STATS_PHY_RESET_RXGAINCAL5G_S 11
9311 #define HTT_STATS_PHY_RESET_RXGAINCAL5G_GET(_var) \
9312     (((_var) & HTT_STATS_PHY_RESET_RXGAINCAL5G_M) >> \
9313      HTT_STATS_PHY_RESET_RXGAINCAL5G_S)
9314 #define HTT_STATS_PHY_RESET_RXGAINCAL5G_SET(_var, _val) \
9315     do { \
9316         HTT_CHECK_SET_VAL(HTT_STATS_PHY_RESET_RXGAINCAL5G, _val); \
9317         ((_var) |= ((_val) << STATS_PHY_RESET_RXGAINCAL5G_S)); \
9318     } while (0)
9319 #define HTT_STATS_PHY_RESET_RXGAINCAL6G_M 0x00001000
9320 #define HTT_STATS_PHY_RESET_RXGAINCAL6G_S 12
9321 #define HTT_STATS_PHY_RESET_RXGAINCAL6G_GET(_var) \
9322     (((_var) & HTT_STATS_PHY_RESET_RXGAINCAL6G_M) >> \
9323      HTT_STATS_PHY_RESET_RXGAINCAL6G_S)
9324 #define HTT_STATS_PHY_RESET_RXGAINCAL6G_SET(_var, _val) \
9325     do { \
9326         HTT_CHECK_SET_VAL(HTT_STATS_PHY_RESET_RXGAINCAL6G, _val); \
9327         ((_var) |= ((_val) << STATS_PHY_RESET_RXGAINCAL6G_S)); \
9328     } while (0)
9329 #define HTT_STATS_PHY_RESET_AOACAL2G_M 0x00002000
9330 #define HTT_STATS_PHY_RESET_AOACAL2G_S 13
9331 #define HTT_STATS_PHY_RESET_AOACAL2G_GET(_var) \
9332     (((_var) & HTT_STATS_PHY_RESET_AOACAL2G_M) >> \
9333      HTT_STATS_PHY_RESET_AOACAL2G_S)
9334 #define HTT_STATS_PHY_RESET_AOACAL2G_SET(_var, _val) \
9335     do { \
9336         HTT_CHECK_SET_VAL(HTT_STATS_PHY_RESET_AOACAL2G, _val); \
9337         ((_var) |= ((_val) << STATS_PHY_RESET_AOACAL2G_S)); \
9338     } while (0)
9339 #define HTT_STATS_PHY_RESET_AOACAL5G_M 0x00004000
9340 #define HTT_STATS_PHY_RESET_AOACAL5G_S 14
9341 #define HTT_STATS_PHY_RESET_AOACAL5G_GET(_var) \
9342     (((_var) & HTT_STATS_PHY_RESET_AOACAL5G_M) >> \
9343      HTT_STATS_PHY_RESET_AOACAL5G_S)
9344 #define HTT_STATS_PHY_RESET_AOACAL5G_SET(_var, _val) \
9345     do { \
9346         HTT_CHECK_SET_VAL(HTT_STATS_PHY_RESET_AOACAL5G, _val); \
9347         ((_var) |= ((_val) << STATS_PHY_RESET_AOACAL5G_S)); \
9348     } while (0)
9349 #define HTT_STATS_PHY_RESET_AOACAL6G_M 0x00008000
9350 #define HTT_STATS_PHY_RESET_AOACAL6G_S 15
9351 #define HTT_STATS_PHY_RESET_AOACAL6G_GET(_var) \
9352     (((_var) & HTT_STATS_PHY_RESET_AOACAL6G_M) >> \
9353      HTT_STATS_PHY_RESET_AOACAL6G_S)
9354 #define HTT_STATS_PHY_RESET_AOACAL6G_SET(_var, _val) \
9355     do { \
9356         HTT_CHECK_SET_VAL(HTT_STATS_PHY_RESET_AOACAL6G, _val); \
9357         ((_var) |= ((_val) << STATS_PHY_RESET_AOACAL6G_S)); \
9358     } while (0)
9359 #define HTT_STATS_PHY_RESET_XTAL_FROM_OTP_M 0x00010000
9360 #define HTT_STATS_PHY_RESET_XTAL_FROM_OTP_S 16
9361 #define HTT_STATS_PHY_RESET_XTAL_FROM_OTP_GET(_var) \
9362     (((_var) & HTT_STATS_PHY_RESET_XTAL_FROM_OTP_M) >> \
9363      HTT_STATS_PHY_RESET_XTAL_FROM_OTP_S)
9364 #define HTT_STATS_PHY_RESET_XTAL_FROM_OTP_SET(_var, _val) \
9365     do { \
9366         HTT_CHECK_SET_VAL(HTT_STATS_PHY_RESET_XTAL_FROM_OTP, _val); \
9367         ((_var) |= ((_val) << STATS_PHY_RESET_XTAL_FROM_OTP_S)); \
9368     } while (0)
9369 
9370 #define HTT_STATS_PHY_RESET_GLUT_LINEARITY_M 0x000000FF
9371 #define HTT_STATS_PHY_RESET_GLUT_LINEARITY_S 0
9372 #define HTT_STATS_PHY_RESET_GLUT_LINEARITY_GET(_var) \
9373     (((_var) & HTT_STATS_PHY_RESET_GLUT_LINEARITY_M) >> \
9374      HTT_STATS_PHY_RESET_GLUT_LINEARITY_S)
9375 #define HTT_STATS_PHY_RESET_GLUT_LINEARITY_SET(_var, _val) \
9376     do { \
9377         HTT_CHECK_SET_VAL(HTT_STATS_PHY_RESET_GLUT_LINEARITY, _val); \
9378         ((_var) |= ((_val) << STATS_PHY_RESET_GLUT_LINEARITY_S)); \
9379     } while (0)
9380 #define HTT_STATS_PHY_RESET_PLUT_LINEARITY_M 0x0000FF00
9381 #define HTT_STATS_PHY_RESET_PLUT_LINEARITY_S 8
9382 #define HTT_STATS_PHY_RESET_PLUT_LINEARITY_GET(_var) \
9383     (((_var) & HTT_STATS_PHY_RESET_PLUT_LINEARITY_M) >> \
9384      HTT_STATS_PHY_RESET_PLUT_LINEARITY_S)
9385 #define HTT_STATS_PHY_RESET_PLUT_LINEARITY_SET(_var, _val) \
9386     do { \
9387         HTT_CHECK_SET_VAL(HTT_STATS_PHY_RESET_PLUT_LINEARITY, _val); \
9388         ((_var) |= ((_val) << STATS_PHY_RESET_PLUT_LINEARITY_S)); \
9389     } while (0)
9390 #define HTT_STATS_PHY_RESET_WLANDRIVERMODE_M 0x00FF0000
9391 #define HTT_STATS_PHY_RESET_WLANDRIVERMODE_S 16
9392 #define HTT_STATS_PHY_RESET_WLANDRIVERMODE_GET(_var) \
9393     (((_var) & HTT_STATS_PHY_RESET_WLANDRIVERMODE_M) >> \
9394      HTT_STATS_PHY_RESET_WLANDRIVERMODE_S)
9395 #define HTT_STATS_PHY_RESET_WLANDRIVERMODE_SET(_var, _val) \
9396     do { \
9397         HTT_CHECK_SET_VAL(HTT_STATS_PHY_RESET_WLANDRIVERMODE, _val); \
9398         ((_var) |= ((_val) << STATS_PHY_RESET_WLANDRIVERMODE_S)); \
9399     } while (0)
9400 
9401 
9402 typedef struct {
9403     htt_tlv_hdr_t tlv_hdr;
9404     /** current pdev_id */
9405     A_UINT32 pdev_id;
9406     /** current channel information */
9407     A_UINT32 chan_mhz;
9408     /** center_freq1, center_freq2 in mhz */
9409     A_UINT32 chan_band_center_freq1;
9410     A_UINT32 chan_band_center_freq2;
9411     /** chan_phy_mode - WLAN_PHY_MODE enum type */
9412     A_UINT32 chan_phy_mode;
9413     /** chan_flags follows HTT_STATS_CHANNEL_FLAGS enum */
9414     A_UINT32  chan_flags;
9415     /** channel Num updated to virtual phybase */
9416     A_UINT32 chan_num;
9417 
9418     /** Cause for the phy reset - HTT_STATS_RESET_CAUSE */
9419     A_UINT32 reset_cause;
9420     /** Cause for the previous phy reset */
9421     A_UINT32 prev_reset_cause;
9422     /** source for the phywarm reset - HTT_STATS_RESET_CAUSE */
9423     A_UINT32 phy_warm_reset_src;
9424     /** rxGain Table selection mode - register settings
9425      * 0 - Auto, 1/2 - Forced with and without BT override respectively
9426      */
9427     A_UINT32 rx_gain_tbl_mode;
9428     /** current xbar value - perchain analog to digital idx mapping */
9429     A_UINT32 xbar_val;
9430     /** Flag to indicate forced calibration */
9431     A_UINT32 force_calibration;
9432     /** current RF mode (e.g. SBS/DBS) - follows HTT_STATS_RF_MODE enum */
9433     A_UINT32 phyrf_mode;
9434 
9435     /* PDL phyInput stats */
9436     /** homechannel flag
9437      * 1- Homechan, 0 - scan channel
9438      */
9439     A_UINT32 phy_homechan;
9440     /** Tx and Rx chainmask */
9441     A_UINT32 phy_tx_ch_mask;
9442     A_UINT32 phy_rx_ch_mask;
9443     /** INI masks - to decide the INI registers to be loaded on a reset */
9444     A_UINT32 phybb_ini_mask;
9445     A_UINT32 phyrf_ini_mask;
9446 
9447     /** DFS,ADFS/Spectral scan enable masks */
9448     A_UINT32 phy_dfs_en_mask;
9449     A_UINT32 phy_sscan_en_mask;
9450     A_UINT32 phy_synth_sel_mask;
9451     A_UINT32 phy_adfs_freq;
9452 
9453     /** CCK FIR settings
9454      * register settings - filter coefficients for Iqs conversion
9455      * [31:24] = FIR_COEFF_3_0
9456      * [23:16] = FIR_COEFF_2_0
9457      * [15:8]  = FIR_COEFF_1_0
9458      * [7:0]   = FIR_COEFF_0_0
9459      */
9460     A_UINT32 cck_fir_settings;
9461     /** dynamic primary channel index
9462      * primary 20MHz channel index on the current channel BW
9463      */
9464     A_UINT32  phy_dyn_pri_chan;
9465 
9466     /**
9467      * Current CCA detection threshold
9468      * dB above noisefloor req for CCA
9469      * Register settings for all subbands
9470      */
9471     A_UINT32 cca_thresh;
9472     /**
9473      * status for dynamic CCA adjustment
9474      * 0-disabled, 1-enabled
9475      */
9476     A_UINT32 dyn_cca_status;
9477     /** RXDEAF Register value
9478      * rxdesense_thresh_sw - VREG Register
9479      * rxdesense_thresh_hw - PHY Register
9480      */
9481     A_UINT32 rxdesense_thresh_sw;
9482     A_UINT32 rxdesense_thresh_hw;
9483     /** Current PHY Bandwidth -
9484      * values are specified by the HTT_PHY_BW_IDX enum type
9485      */
9486     A_UINT32 phy_bw_code;
9487     /** Current channel operating rate -
9488      * values are specified by the HTT_CHANNEL_RATE enum type
9489      */
9490     A_UINT32 phy_rate_mode;
9491     /** current channel operating band
9492      * 0 - 5G; 1 - 2G; 2 -6G
9493      */
9494     A_UINT32 phy_band_code;
9495     /** microcode processor virtual phy base address -
9496      * provided only for debug
9497      */
9498     A_UINT32 phy_vreg_base;
9499     /** microcode processor virtual phy base ext address -
9500      * provided only for debug
9501      */
9502     A_UINT32 phy_vreg_base_ext;
9503     /** HW LUT table configuration for home/scan channel -
9504      * provided only for debug
9505      */
9506     A_UINT32 cur_table_index;
9507     /** SW configuration flag for PHY reset and Calibrations -
9508      * values are specified by the HTT_WHAL_CONFIG enum type
9509      */
9510     A_UINT32 whal_config_flag;
9511     /** nfcal_iteration_counts:
9512      * iteration count for Home/Scan/Periodic Noise Floor calibrations
9513      * nfcal_iteration_counts[0] - home NF iteration counter
9514      * nfcal_iteration_counts[1] - scan NF iteration counter
9515      * nfcal_iteration_counts[2] - periodic NF iteration counter
9516      * These counters are not reset automatically; they are only reset
9517      * when explicitly requested by the host.
9518      */
9519     A_UINT32 nfcal_iteration_counts[3];
9520 
9521     /** Below union indicates the merge status for different cal */
9522     union {
9523         A_UINT32 calmerge_stats;
9524         struct {
9525             A_UINT32 CalData_Compressed:1,
9526                      CalDataSource:2,
9527                      xtalcal:1,
9528                      tpccal2GFPC:1,
9529                      tpccal2GOPC:1,
9530                      tpccal5GFPC:1,
9531                      tpccal5GOPC:1,
9532                      tpccal6GFPC:1,
9533                      tpccal6GOPC:1,
9534                      rxgaincal2G:1,
9535                      rxgaincal5G:1,
9536                      rxgaincal6G:1,
9537                      aoacal2G:1,
9538                      aoacal5G:1,
9539                      aoacal6G:1,
9540                      XTAL_from_OTP:1,
9541                      rsvd1:15;
9542         };
9543     };
9544     /** Below union lets us know of any non-linearity in plut/glut
9545      * and the mode we are in
9546      */
9547     union {
9548         A_UINT32 misc_stats;
9549         struct {
9550             A_UINT32 GLUT_linearity:8,
9551                      PLUT_linearity:8,
9552                      WlanDriverMode:8,
9553                      rsvd2:8;
9554         };
9555     };
9556     /** BoardId fetched from OTP */
9557     A_UINT32 BoardIDfromOTP;
9558 } htt_stats_phy_reset_stats_tlv;
9559 /* preserve old name alias for new name consistent with the tag name */
9560 typedef htt_stats_phy_reset_stats_tlv htt_phy_reset_stats_tlv;
9561 
9562 typedef struct {
9563     htt_tlv_hdr_t tlv_hdr;
9564 
9565     /** current pdev_id */
9566     A_UINT32 pdev_id;
9567     /** ucode PHYOFF pass/failure count */
9568     A_UINT32 cf_active_low_fail_cnt;
9569     A_UINT32 cf_active_low_pass_cnt;
9570 
9571     /** PHYOFF count attempted through ucode VREG */
9572     A_UINT32 phy_off_through_vreg_cnt;
9573 
9574     /** Force calibration count */
9575     A_UINT32 force_calibration_cnt;
9576 
9577     /** phyoff count during rfmode switch */
9578     A_UINT32 rf_mode_switch_phy_off_cnt;
9579 
9580     /** Temperature based recalibration count */
9581     A_UINT32 temperature_recal_cnt;
9582 } htt_stats_phy_reset_counters_tlv;
9583 /* preserve old name alias for new name consistent with the tag name */
9584 typedef htt_stats_phy_reset_counters_tlv htt_phy_reset_counters_tlv;
9585 
9586 /* Considering 320 MHz maximum 16 power levels */
9587 #define HTT_MAX_CH_PWR_INFO_SIZE    16
9588 
9589 #define HTT_PHY_TPC_STATS_CTL_REGION_GRP_M    0x000000ff
9590 #define HTT_PHY_TPC_STATS_CTL_REGION_GRP_S    0
9591 
9592 #define HTT_PHY_TPC_STATS_CTL_REGION_GRP_GET(_var) \
9593     (((_var) & HTT_PHY_TPC_STATS_CTL_REGION_GRP_M) >> \
9594      HTT_PHY_TPC_STATS_CTL_REGION_GRP_S)
9595 /* provide properly-named macro */
9596 #define HTT_STATS_PHY_TPC_STATS_CTL_REGION_GRP_GET(_var) \
9597     HTT_PHY_TPC_STATS_CTL_REGION_GRP_GET(_var)
9598 #define HTT_PHY_TPC_STATS_CTL_REGION_GRP_SET(_var, _val) \
9599   do { \
9600         HTT_CHECK_SET_VAL(HTT_PHY_TPC_STATS_CTL_REGION_GRP, _val); \
9601         ((_var) &= ~(HTT_PHY_TPC_STATS_CTL_REGION_GRP_M)); \
9602         ((_var) |= ((_val) << HTT_PHY_TPC_STATS_CTL_REGION_GRP_S)); \
9603      } while (0)
9604 
9605 #define HTT_PHY_TPC_STATS_SUB_BAND_INDEX_M    0x0000ff00
9606 #define HTT_PHY_TPC_STATS_SUB_BAND_INDEX_S    8
9607 
9608 #define HTT_PHY_TPC_STATS_SUB_BAND_INDEX_GET(_var) \
9609     (((_var) & HTT_PHY_TPC_STATS_SUB_BAND_INDEX_M) >> \
9610      HTT_PHY_TPC_STATS_SUB_BAND_INDEX_S)
9611 /* provide properly-named macro */
9612 #define HTT_STATS_PHY_TPC_STATS_SUB_BAND_INDEX_GET(_var) \
9613     HTT_PHY_TPC_STATS_SUB_BAND_INDEX_GET(_var)
9614 #define HTT_PHY_TPC_STATS_SUB_BAND_INDEX_SET(_var, _val) \
9615   do { \
9616         HTT_CHECK_SET_VAL(HTT_PHY_TPC_STATS_SUB_BAND_INDEX, _val); \
9617         ((_var) &= ~(HTT_PHY_TPC_STATS_SUB_BAND_INDEX_M)); \
9618         ((_var) |= ((_val) << HTT_PHY_TPC_STATS_SUB_BAND_INDEX_S)); \
9619      } while (0)
9620 
9621 #define HTT_PHY_TPC_STATS_AG_CAP_EXT2_ENABLED_M    0x00ff0000
9622 #define HTT_PHY_TPC_STATS_AG_CAP_EXT2_ENABLED_S    16
9623 
9624 #define HTT_PHY_TPC_STATS_AG_CAP_EXT2_ENABLED_GET(_var) \
9625     (((_var) & HTT_PHY_TPC_STATS_AG_CAP_EXT2_ENABLED_M) >> \
9626      HTT_PHY_TPC_STATS_AG_CAP_EXT2_ENABLED_S)
9627 /* provide properly-named macro */
9628 #define HTT_STATS_PHY_TPC_STATS_ARRAY_GAIN_CAP_EXT2_ENABLED_GET(_var) \
9629     HTT_PHY_TPC_STATS_AG_CAP_EXT2_ENABLED_GET(_var)
9630 #define HTT_PHY_TPC_STATS_AG_CAP_EXT2_ENABLED_SET(_var, _val) \
9631  do { \
9632         HTT_CHECK_SET_VAL(HTT_PHY_TPC_STATS_AG_CAP_EXT2_ENABLED, _val); \
9633         ((_var) &= ~(HTT_PHY_TPC_STATS_AG_CAP_EXT2_ENABLED_M)); \
9634         ((_var) |= ((_val) << HTT_PHY_TPC_STATS_AG_CAP_EXT2_ENABLED_S)); \
9635     } while (0)
9636 
9637 #define HTT_PHY_TPC_STATS_CTL_FLAG_M    0xff000000
9638 #define HTT_PHY_TPC_STATS_CTL_FLAG_S    24
9639 
9640 #define HTT_PHY_TPC_STATS_CTL_FLAG_GET(_var) \
9641     (((_var) & HTT_PHY_TPC_STATS_CTL_FLAG_M) >> \
9642      HTT_PHY_TPC_STATS_CTL_FLAG_S)
9643 /* provide properly-named macro */
9644 #define HTT_STATS_PHY_TPC_STATS_CTL_FLAG_GET(_var) \
9645     HTT_PHY_TPC_STATS_CTL_FLAG_GET(_var)
9646 #define HTT_PHY_TPC_STATS_CTL_FLAG_SET(_var, _val) \
9647  do { \
9648         HTT_CHECK_SET_VAL(HTT_PHY_TPC_STATS_CTL_FLAG, _val); \
9649         ((_var) &= ~(HTT_PHY_TPC_STATS_CTL_FLAG_M)); \
9650         ((_var) |= ((_val) << HTT_PHY_TPC_STATS_CTL_FLAG_S)); \
9651     } while (0)
9652 
9653 typedef struct {
9654     htt_tlv_hdr_t tlv_hdr;
9655 
9656     /** current pdev_id */
9657     A_UINT32 pdev_id;
9658 
9659     /** Tranmsit power control scaling related configurations */
9660     A_UINT32 tx_power_scale;
9661     A_UINT32 tx_power_scale_db;
9662 
9663     /** Minimum negative tx power supported by the target */
9664     A_INT32 min_negative_tx_power;
9665 
9666     /** current configured CTL domain */
9667     A_UINT32 reg_ctl_domain;
9668 
9669     /** Regulatory power information for the current channel */
9670     A_INT32 max_reg_allowed_power[HTT_STATS_MAX_CHAINS];
9671     A_INT32 max_reg_allowed_power_6g[HTT_STATS_MAX_CHAINS];
9672     /** channel max regulatory power in 0.5dB */
9673     A_UINT32 twice_max_rd_power;
9674 
9675     /** current channel and home channel's maximum possible tx power */
9676     A_INT32 max_tx_power;
9677     A_INT32 home_max_tx_power;
9678 
9679     /** channel's Power Spectral Density  */
9680     A_UINT32 psd_power;
9681     /** channel's EIRP power */
9682     A_UINT32 eirp_power;
9683     /** 6G channel power mode
9684      * 0-LPI, 1-SP, 2-VLPI and 3-SP_CLIENT power mode
9685      */
9686     A_UINT32 power_type_6ghz;
9687 
9688     /** sub-band channels and corresponding Tx-power */
9689     A_UINT32 sub_band_cfreq[HTT_MAX_CH_PWR_INFO_SIZE];
9690     A_UINT32 sub_band_txpower[HTT_MAX_CH_PWR_INFO_SIZE];
9691 
9692     /** array_gain_cap:
9693      * CTL Array Gain cap, units are dB
9694      * The lower-triangular portion of this square matrix is stored, i.e.
9695      *     array element 0 stores matrix element (0,0)
9696      *     array element 1 stores matrix element (1,0)
9697      *     array element 2 stores matrix element (1,1)
9698      *     array element 3 stores matrix element (2,0)
9699      *     ...
9700      *     array element 35 stores matrix element (7,7)
9701      */
9702     A_INT32 array_gain_cap[HTT_STATS_MAX_CHAINS * ((HTT_STATS_MAX_CHAINS/2)+1)];
9703     union {
9704         struct {
9705             A_UINT32
9706                 ctl_region_grp:8, /** Group to which the ctl region belongs */
9707                 sub_band_index:8, /** Frequency subband index */
9708                 /** Array Gain Cap Ext2 feature enablement status */
9709                 array_gain_cap_ext2_enabled:8,
9710                 /** ctl_flag:
9711                  * 1st bit ULOFDMA supported
9712                  * 2nd bit DLOFDMA shared Exception supported
9713                  */
9714                 ctl_flag:8;
9715         };
9716         A_UINT32 ctl_args;
9717     };
9718     /** max_reg_only_allowed_power:
9719      * units = 0.25dBm
9720      */
9721     A_INT32 max_reg_only_allowed_power[HTT_STATS_MAX_CHAINS];
9722 
9723     /** number of PPDUs transmitted for each number of tx chains */
9724     A_UINT32 tx_num_chains[HTT_STATS_MAX_CHAINS];
9725 
9726     /** tx_power:
9727      * Number of PPDUs transmitted with each power level >= 0 dBm.
9728      * tx_power[0]: number of PPDUs with tx power in the [0 dBm, 1 dBm) range
9729      * tx_power[1]: number of PPDUs with tx power in the [1 dBm, 2 dBm) range
9730      * ...
9731      * tx_power[30]: number of PPDUs with tx power in the [30 dBm, 31 dBm) range
9732      * tx_power[31]: number of PPDUs with tx power >= 31 dBm
9733      */
9734     A_UINT32 tx_power[HTT_MAX_POWER_LEVEL];
9735 
9736     /** tx_power_neg:
9737      * Number of PPDUs transmitted with each power level < 0 dBm.
9738      * tx_power_neg[0]: cnt of PPDUs with tx pwr in the [-1 dBm, 0 dBm) range
9739      * tx_power_neg[1]: cnt of PPDUs with tx pwr in the [-2 dBm, -1 dBm) range
9740      * ...
9741      * tx_power_neg[8]: cnt of PPDUs with tx pwr in the [-9 dBm, -8 dBm) range
9742      * tx_power_neg[9]: cnt of PPDUs with tx pwr < -9 dBm
9743      */
9744     A_UINT32 tx_power_neg[HTT_MAX_NEGATIVE_POWER_LEVEL];
9745 } htt_stats_phy_tpc_stats_tlv;
9746 /* preserve old name alias for new name consistent with the tag name */
9747 typedef htt_stats_phy_tpc_stats_tlv htt_phy_tpc_stats_tlv;
9748 
9749 /* NOTE:
9750  * This structure is for documentation, and cannot be safely used directly.
9751  * Instead, use the constituent TLV structures to fill/parse.
9752  */
9753 #ifdef ATH_TARGET
9754 typedef struct {
9755     htt_stats_phy_counters_tlv phy_counters;
9756     htt_stats_phy_stats_tlv phy_stats;
9757     htt_stats_phy_reset_counters_tlv phy_reset_counters;
9758     htt_stats_phy_reset_stats_tlv phy_reset_stats;
9759     htt_stats_phy_tpc_stats_tlv phy_tpc_stats;
9760 } htt_phy_counters_and_phy_stats_t;
9761 #endif /* ATH_TARGET */
9762 
9763 /* NOTE:
9764  * This structure is for documentation, and cannot be safely used directly.
9765  * Instead, use the constituent TLV structures to fill/parse.
9766  */
9767 #ifdef ATH_TARGET
9768 typedef struct {
9769     htt_stats_soc_txrx_stats_common_tlv soc_common_stats;
9770     htt_stats_vdev_txrx_stats_hw_stats_tlv vdev_hw_stats[1/*or more*/];
9771 } htt_vdevs_txrx_stats_t;
9772 #endif /* ATH_TARGET */
9773 
9774 typedef struct {
9775     union {
9776         A_UINT32 word32;
9777         struct {
9778             A_UINT32
9779                 success: 16,
9780                 fail:    16;
9781         };
9782     };
9783 } htt_stats_strm_gen_mpdus_cntr_t;
9784 
9785 typedef struct {
9786     /* MSDU queue identification */
9787     union {
9788         A_UINT32 word32;
9789         struct {
9790             A_UINT32
9791                 peer_id:  16,
9792                 tid:       4, /* only TIDs 0-7 actually expected to be used */
9793                 htt_qtype: 4, /* refer to HTT_MSDUQ_INDEX */
9794                 reserved:  8;
9795         };
9796     };
9797 } htt_stats_strm_msdu_queue_id;
9798 
9799 #define HTT_STATS_STRM_GEN_MPDUS_QUEUE_ID_PEER_ID_GET(word) \
9800     ((word >> 0) & 0xffff)
9801 #define HTT_STATS_STRM_GEN_MPDUS_QUEUE_ID_TID_GET(word) \
9802     ((word >> 16) & 0xf)
9803 #define HTT_STATS_STRM_GEN_MPDUS_QUEUE_ID_HTT_QTYPE_GET(word) \
9804     ((word >> 20) & 0xf)
9805 
9806 #define HTT_STATS_STRM_GEN_MPDUS_SVC_INTERVAL_SUCCESS_GET(word) \
9807     ((word >> 0) & 0xffff)
9808 #define HTT_STATS_STRM_GEN_MPDUS_SVC_INTERVAL_FAIL_GET(word) \
9809     ((word >> 16) & 0xffff)
9810 
9811 #define HTT_STATS_STRM_GEN_MPDUS_BURST_SIZE_SUCCESS_GET(word) \
9812     ((word >> 0) & 0xffff)
9813 #define HTT_STATS_STRM_GEN_MPDUS_BURST_SIZE_FAIL_GET(word) \
9814     ((word >> 16) & 0xffff)
9815 
9816 typedef struct {
9817     htt_tlv_hdr_t tlv_hdr;
9818     htt_stats_strm_msdu_queue_id queue_id;
9819     htt_stats_strm_gen_mpdus_cntr_t svc_interval;
9820     htt_stats_strm_gen_mpdus_cntr_t burst_size;
9821 } htt_stats_strm_gen_mpdus_tlv;
9822 /* preserve old name alias for new name consistent with the tag name */
9823 typedef htt_stats_strm_gen_mpdus_tlv htt_stats_strm_gen_mpdus_tlv_t;
9824 
9825 typedef struct {
9826     htt_tlv_hdr_t tlv_hdr;
9827     htt_stats_strm_msdu_queue_id queue_id;
9828     struct {
9829         union {
9830             A_UINT32 timestamp_prior__timestamp_now__word;
9831             struct {
9832                 A_UINT32
9833                     timestamp_prior_ms: 16,
9834                     timestamp_now_ms:   16;
9835             };
9836         };
9837         union {
9838             A_UINT32 interval_spec__margin__word;
9839             struct {
9840                 A_UINT32
9841                     interval_spec_ms: 16,
9842                     margin_ms:        16;
9843             };
9844         };
9845     } svc_interval;
9846     struct {
9847         union {
9848             A_UINT32 consumed_bytes_orig__consumed_bytes_final__word;
9849             struct {
9850                 A_UINT32
9851                     /* consumed_bytes_orig:
9852                      * Raw count (actually estimate) of how many bytes were
9853                      * removed from the MSDU queue by the GEN_MPDUS operation.
9854                      */
9855                     consumed_bytes_orig:  16,
9856                     /* consumed_bytes_final:
9857                      * Adjusted count of removed bytes that incorporates
9858                      * normalizing by the actual service interval compared to
9859                      * the expected service interval.
9860                      * This allows the burst size computation to be independent
9861                      * of whether the target is doing GEN_MPDUS at only the
9862                      * service interval, or substantially more often than the
9863                      * service interval.
9864                      *     consumed_bytes_final = consumed_bytes_orig /
9865                      *         (svc_interval / ref_svc_interval)
9866                      */
9867                     consumed_bytes_final: 16;
9868             };
9869         };
9870         union {
9871             A_UINT32 remaining_bytes__word;
9872             struct {
9873                 A_UINT32
9874                     remaining_bytes: 16,
9875                     reserved:        16;
9876             };
9877         };
9878         union {
9879             A_UINT32 burst_size_spec__margin_bytes__word;
9880             struct {
9881                 A_UINT32
9882                     burst_size_spec: 16,
9883                     margin_bytes:    16;
9884             };
9885         };
9886     } burst_size;
9887 } htt_stats_strm_gen_mpdus_details_tlv;
9888 /* preserve old name alias for new name consistent with the tag name */
9889 typedef htt_stats_strm_gen_mpdus_details_tlv
9890     htt_stats_strm_gen_mpdus_details_tlv_t;
9891 
9892 #define HTT_STATS_STRM_GEN_MPDUS_DETAILS_QUEUE_ID_PEER_ID_GET(word) \
9893     ((word >> 0) & 0xffff)
9894 #define HTT_STATS_STRM_GEN_MPDUS_DETAILS_QUEUE_ID_TID_GET(word) \
9895     ((word >> 16) & 0xf)
9896 #define HTT_STATS_STRM_GEN_MPDUS_DETAILS_QUEUE_ID_HTT_QTYPE_GET(word) \
9897     ((word >> 20) & 0xf)
9898 
9899 #define HTT_STATS_STRM_GEN_MPDUS_DETAILS_SVC_INTERVAL_TIMESTAMP_PRIOR_MS_GET(word) \
9900     ((word >> 0) & 0xffff)
9901 #define HTT_STATS_STRM_GEN_MPDUS_DETAILS_SVC_INTERVAL_TIMESTAMP_NOW_MS_GET(word) \
9902     ((word >> 16) & 0xffff)
9903 
9904 #define HTT_STATS_STRM_GEN_MPDUS_DETAILS_SVC_INTERVAL_INTERVAL_SPEC_MS_GET(word) \
9905     ((word >> 0) & 0xffff)
9906 #define HTT_STATS_STRM_GEN_MPDUS_DETAILS_SVC_INTERVAL_MARGIN_MS_GET(word) \
9907     ((word >> 16) & 0xffff)
9908 
9909 #define HTT_STATS_STRM_GEN_MPDUS_DETAILS_BURST_SIZE_CONSUMED_BYTES_ORIG_GET(word) \
9910     ((word >> 0) & 0xffff)
9911 #define HTT_STATS_STRM_GEN_MPDUS_DETAILS_BURST_SIZE_CONSUMED_BYTES_FINAL_GET(word) \
9912     ((word >> 16) & 0xffff)
9913 #define HTT_STATS_STRM_GEN_MPDUS_DETAILS_BURST_SIZE_REMAINING_BYTES_GET(word) \
9914     ((word >> 0) & 0xffff)
9915 #define HTT_STATS_STRM_GEN_MPDUS_DETAILS_BURST_SIZE_BURST_SIZE_SPEC_GET(word) \
9916     ((word >> 0) & 0xffff)
9917 #define HTT_STATS_STRM_GEN_MPDUS_DETAILS_BURST_SIZE_MARGIN_BYTES_GET(word) \
9918     ((word >> 16) & 0xffff)
9919 
9920 typedef struct {
9921     htt_tlv_hdr_t tlv_hdr;
9922     A_UINT32  reset_count;
9923     /** lower portion (bits 31:0)  of reset time, in milliseconds */
9924     A_UINT32  reset_time_lo_ms;
9925     /** upper portion (bits 63:32) of reset time, in milliseconds */
9926     A_UINT32  reset_time_hi_ms;
9927     /** lower portion (bits 31:0)  of disengage time, in milliseconds */
9928     A_UINT32  disengage_time_lo_ms;
9929     /** upper portion (bits 63:32) of disengage time, in milliseconds */
9930     A_UINT32  disengage_time_hi_ms;
9931     /** lower portion (bits 31:0)  of engage time, in milliseconds */
9932     A_UINT32  engage_time_lo_ms;
9933     /** upper portion (bits 63:32) of engage time, in milliseconds */
9934     A_UINT32  engage_time_hi_ms;
9935     A_UINT32  disengage_count;
9936     A_UINT32  engage_count;
9937     A_UINT32  drain_dest_ring_mask;
9938 } htt_stats_dmac_reset_stats_tlv;
9939 /* preserve old name alias for new name consistent with the tag name */
9940 typedef htt_stats_dmac_reset_stats_tlv htt_dmac_reset_stats_tlv;
9941 
9942 
9943 /* Support up to 640 MHz mode for future expansion */
9944 #define HTT_PUNCTURE_STATS_MAX_SUBBAND_COUNT 32
9945 
9946 #define HTT_PDEV_PUNCTURE_STATS_MAC_ID_M 0x000000ff
9947 #define HTT_PDEV_PUNCTURE_STATS_MAC_ID_S 0
9948 
9949 #define HTT_PDEV_PUNCTURE_STATS_MAC_ID_GET(_var) \
9950     (((_var) & HTT_PDEV_PUNCTURE_STATS_MAC_ID_M) >> \
9951      HTT_PDEV_PUNCTURE_STATS_MAC_ID_S)
9952 
9953 #define HTT_PDEV_PUNCTURE_STATS_MAC_ID_SET(_var, _val) \
9954     do { \
9955         HTT_CHECK_SET_VAL(HTT_PDEV_PUNCTURE_STATS_MAC_ID, _val); \
9956         ((_var) |= ((_val) << HTT_PDEV_PUNCTURE_STATS_MAC_ID_S)); \
9957     } while (0)
9958 
9959 /*
9960  * TLV used to provide puncturing related stats for TX/RX and each PPDU type.
9961  */
9962 typedef struct {
9963     htt_tlv_hdr_t tlv_hdr;
9964 
9965     /**
9966      * BIT [ 7 :  0]   :- mac_id
9967      * BIT [31 :  8]   :- reserved
9968      */
9969     union {
9970         struct {
9971             A_UINT32 mac_id:    8,
9972                      reserved: 24;
9973         };
9974         A_UINT32 mac_id__word;
9975     };
9976 
9977     /*
9978      * Stats direction (TX/RX). Enum value from HTT_STATS_DIRECTION.
9979      */
9980     A_UINT32 direction;
9981 
9982     /*
9983      * Preamble type. Enum value from HTT_STATS_PREAM_TYPE.
9984      *
9985      * Note that for although OFDM rates don't technically support
9986      * "puncturing", this TLV can be used to indicate the 20 MHz sub-bands
9987      * utilized for OFDM legacy duplicate packets, which are also used during
9988      * puncturing sequences.
9989      */
9990     A_UINT32 preamble;
9991 
9992     /*
9993      * Stats PPDU type. Enum value from HTT_STATS_PPDU_TYPE.
9994      */
9995     A_UINT32 ppdu_type;
9996 
9997     /*
9998      * Indicates the number of valid elements in the
9999      * "num_subbands_used_cnt" array, and must be <=
10000      * HTT_PUNCTURE_STATS_MAX_SUBBAND_COUNT.
10001      *
10002      * Also indicates how many bits in the last_used_pattern_mask may be
10003      * non-zero.
10004      */
10005     A_UINT32 subband_count;
10006 
10007     /*
10008      * The last used transmit 20 MHz subband mask. Bit 0 represents the lowest
10009      * 20 MHz subband mask, bit 1 the second lowest, and so on.
10010      *
10011      * All 32 bits are valid and will be used for expansion to higher BW modes.
10012      */
10013     A_UINT32 last_used_pattern_mask;
10014 
10015 
10016     /*
10017      * Number of array elements with valid values is equal to "subband_count".
10018      * If subband_count is < HTT_PUNCTURE_STATS_MAX_SUBBAND_COUNT, the
10019      * remaining elements will be implicitly set to 0x0.
10020      *
10021      * The array index is the number of 20 MHz subbands utilized during TX/RX,
10022      * and the counter value at that index is the number of times that subband
10023      * count was used.
10024      *
10025      * The count is incremented once for each OTA PPDU transmitted / received.
10026      */
10027     A_UINT32 num_subbands_used_cnt[HTT_PUNCTURE_STATS_MAX_SUBBAND_COUNT];
10028 } htt_stats_pdev_puncture_stats_tlv;
10029 /* preserve old name alias for new name consistent with the tag name */
10030 typedef htt_stats_pdev_puncture_stats_tlv htt_pdev_puncture_stats_tlv;
10031 
10032 #define HTT_STATS_PDEV_PUNCTURE_STATS_MAC_ID_GET(word) ((word >> 0) & 0xff)
10033 
10034 enum {
10035     HTT_STATS_CAL_PROF_COLD_BOOT = 0,
10036     HTT_STATS_CAL_PROF_FULL_CHAN_SWITCH = 1,
10037     HTT_STATS_CAL_PROF_SCAN_CHAN_SWITCH = 2,
10038     HTT_STATS_CAL_PROF_DPD_SPLIT_CAL = 3,
10039 
10040     HTT_STATS_MAX_PROF_CAL = 4,
10041 };
10042 
10043 #define HTT_STATS_MAX_CAL_IDX_CNT 8
10044 typedef struct { /* DEPRECATED */
10045 
10046     htt_tlv_hdr_t tlv_hdr;
10047 
10048     A_UINT8 latency_prof_name[HTT_STATS_MAX_PROF_CAL][HTT_STATS_MAX_PROF_STATS_NAME_LEN];
10049 
10050     /** To verify whether prof cal is enabled or not */
10051     A_UINT32 enable;
10052 
10053     /** current pdev_id */
10054     A_UINT32 pdev_id;
10055 
10056     /** The cnt is incremented when each time the calindex takes place */
10057     A_UINT32 cnt[HTT_STATS_MAX_PROF_CAL][HTT_STATS_MAX_CAL_IDX_CNT];
10058 
10059     /** Minimum time taken to complete the calibration - in us */
10060     A_UINT32 min[HTT_STATS_MAX_PROF_CAL][HTT_STATS_MAX_CAL_IDX_CNT];
10061 
10062     /** Maximum time taken to complete the calibration -in us */
10063     A_UINT32 max[HTT_STATS_MAX_PROF_CAL][HTT_STATS_MAX_CAL_IDX_CNT];
10064 
10065     /** Time taken by the cal for its final time execution - in us */
10066     A_UINT32 last[HTT_STATS_MAX_PROF_CAL][HTT_STATS_MAX_CAL_IDX_CNT];
10067 
10068     /** Total time taken - in us */
10069     A_UINT32 tot[HTT_STATS_MAX_PROF_CAL][HTT_STATS_MAX_CAL_IDX_CNT];
10070 
10071     /** hist_intvl - by default will be set to 2000 us */
10072     A_UINT32 hist_intvl[HTT_STATS_MAX_PROF_CAL][HTT_STATS_MAX_CAL_IDX_CNT];
10073 
10074     /**
10075      * If last is less than hist_intvl, then hist[0]++,
10076      * If last is less than hist_intvl << 1, then hist[1]++,
10077      * otherwise hist[2]++.
10078      */
10079     A_UINT32 hist[HTT_STATS_MAX_PROF_CAL][HTT_STATS_MAX_CAL_IDX_CNT][HTT_INTERRUPTS_LATENCY_PROFILE_MAX_HIST];
10080 
10081     /** Pf_last will log the current no of page faults */
10082     A_UINT32 pf_last[HTT_STATS_MAX_PROF_CAL][HTT_STATS_MAX_CAL_IDX_CNT];
10083 
10084     /** Sum of all page faults happened */
10085     A_UINT32 pf_tot[HTT_STATS_MAX_PROF_CAL][HTT_STATS_MAX_CAL_IDX_CNT];
10086 
10087     /** If pf_last > pf_max then pf_max = pf_last */
10088     A_UINT32 pf_max[HTT_STATS_MAX_PROF_CAL][HTT_STATS_MAX_CAL_IDX_CNT];
10089 
10090     /**
10091      * For each cal profile, only certain no of cal indices were invoked,
10092      * this member will store what all the indices got invoked per each
10093      * cal profile
10094      */
10095     A_UINT32 enabledCalIdx[HTT_STATS_MAX_PROF_CAL][HTT_STATS_MAX_CAL_IDX_CNT];
10096 
10097     /** No of indices invoked per each cal profile */
10098     A_UINT32 CalCnt[HTT_STATS_MAX_PROF_CAL];
10099 } htt_stats_latency_prof_cal_stats_tlv; /* DEPRECATED */
10100 /* preserve old name alias for new name consistent with the tag name */
10101 typedef htt_stats_latency_prof_cal_stats_tlv htt_latency_prof_cal_stats_tlv; /* DEPRECATED */
10102 
10103 typedef struct {
10104     /** The cnt is incremented when each time the calindex takes place */
10105     A_UINT32 cnt;
10106 
10107     /** Minimum time taken to complete the calibration - in us */
10108     A_UINT32 min;
10109 
10110     /** Maximum time taken to complete the calibration -in us */
10111     A_UINT32 max;
10112 
10113     /** Time taken by the cal for its final time execution - in us */
10114     A_UINT32 last;
10115 
10116     /** Total time taken - in us */
10117     A_UINT32 tot;
10118 
10119     /** hist_intvl - in us, by default will be set to 2000 us */
10120     A_UINT32 hist_intvl;
10121 
10122     /**
10123      * If last is less than hist_intvl, then hist[0]++,
10124      * If last is less than hist_intvl << 1, then hist[1]++,
10125      * otherwise hist[2]++.
10126      */
10127     A_UINT32 hist[HTT_INTERRUPTS_LATENCY_PROFILE_MAX_HIST];
10128 
10129     /** pf_last will log the current no of page faults */
10130     A_UINT32 pf_last;
10131 
10132     /** Sum of all page faults happened */
10133     A_UINT32 pf_tot;
10134 
10135     /** If pf_last > pf_max then pf_max = pf_last */
10136     A_UINT32 pf_max;
10137 
10138     /**
10139      * For each cal profile, only certain no of cal indices were invoked,
10140      * this member will store what all the indices got invoked per each
10141      * cal profile
10142      */
10143     A_UINT32 enabled_cal_idx;
10144 
10145 /*
10146  * NOTE: due to backwards-compatibility requirements,
10147  * no fields can be added to this struct.
10148  */
10149 } htt_stats_latency_prof_cal_data;
10150 
10151 typedef struct {
10152 
10153     htt_tlv_hdr_t tlv_hdr;
10154 
10155     /** To verify whether prof cal is enabled or not */
10156     A_UINT32 enable;
10157 
10158     /** current pdev_id */
10159     A_UINT32 pdev_id;
10160 
10161     /** No of indices invoked per each cal profile */
10162     A_UINT32 cal_cnt[HTT_STATS_MAX_PROF_CAL];
10163 
10164     /** Latency Cal Profile name */
10165     A_UINT8 latency_prof_name[HTT_STATS_MAX_PROF_CAL][HTT_STATS_MAX_PROF_STATS_NAME_LEN];
10166 
10167     /** Latency Cal data */
10168     htt_stats_latency_prof_cal_data latency_data[HTT_STATS_MAX_PROF_CAL][HTT_STATS_MAX_CAL_IDX_CNT];
10169 } htt_stats_latency_prof_cal_data_tlv;
10170 
10171 #define HTT_ML_PEER_EXT_DETAILS_PEER_ASSOC_IPC_RECVD_M          0x0000003F
10172 #define HTT_ML_PEER_EXT_DETAILS_PEER_ASSOC_IPC_RECVD_S          0
10173 #define HTT_ML_PEER_EXT_DETAILS_SCHED_PEER_DELETE_RECVD_M       0x00000FC0
10174 #define HTT_ML_PEER_EXT_DETAILS_SCHED_PEER_DELETE_RECVD_S       6
10175 #define HTT_ML_PEER_EXT_DETAILS_MLD_AST_INDEX_M                 0x0FFFF000
10176 #define HTT_ML_PEER_EXT_DETAILS_MLD_AST_INDEX_S                 12
10177 
10178 #define HTT_ML_PEER_EXT_DETAILS_PEER_ASSOC_IPC_RECVD_GET(_var) \
10179     (((_var) & HTT_ML_PEER_EXT_DETAILS_PEER_ASSOC_IPC_RECVD_M) >> \
10180      HTT_ML_PEER_EXT_DETAILS_PEER_ASSOC_IPC_RECVD_S)
10181 /* provide properly-named macro */
10182 #define HTT_STATS_ML_PEER_EXT_DETAILS_PEER_ASSOC_IPC_RECVD_GET(_var) \
10183     HTT_ML_PEER_EXT_DETAILS_PEER_ASSOC_IPC_RECVD_GET(_var)
10184 
10185 #define HTT_ML_PEER_EXT_DETAILS_PEER_ASSOC_IPC_RECVD_SET(_var, _val) \
10186     do { \
10187         HTT_CHECK_SET_VAL(HTT_ML_PEER_EXT_DETAILS_PEER_ASSOC_IPC_RECVD, _val); \
10188         ((_var) &= ~(HTT_ML_PEER_EXT_DETAILS_PEER_ASSOC_IPC_RECVD_M)); \
10189         ((_var) |= ((_val) << HTT_ML_PEER_EXT_DETAILS_PEER_ASSOC_IPC_RECVD_S)); \
10190     } while (0)
10191 
10192 #define HTT_ML_PEER_EXT_DETAILS_SCHED_PEER_DELETE_RECVD_GET(_var) \
10193     (((_var) & HTT_ML_PEER_EXT_DETAILS_SCHED_PEER_DELETE_RECVD_M) >> \
10194      HTT_ML_PEER_EXT_DETAILS_SCHED_PEER_DELETE_RECVD_S)
10195 /* provide properly-named macro */
10196 #define HTT_STATS_ML_PEER_EXT_DETAILS_SCHED_PEER_DELETE_RECVD_GET(_var) \
10197     HTT_ML_PEER_EXT_DETAILS_SCHED_PEER_DELETE_RECVD_GET(_var)
10198 
10199 #define HTT_ML_PEER_EXT_DETAILS_SCHED_PEER_DELETE_RECVD_SET(_var, _val) \
10200     do { \
10201         HTT_CHECK_SET_VAL(HTT_ML_PEER_EXT_DETAILS_SCHED_PEER_DELETE_RECVD, _val); \
10202         ((_var) &= ~(HTT_ML_PEER_EXT_DETAILS_SCHED_PEER_DELETE_RECVD_M)); \
10203         ((_var) |= ((_val) << HTT_ML_PEER_EXT_DETAILS_SCHED_PEER_DELETE_RECVD_S)); \
10204     } while (0)
10205 
10206 #define HTT_ML_PEER_EXT_DETAILS_MLD_AST_INDEX_GET(_var) \
10207     (((_var) & HTT_ML_PEER_EXT_DETAILS_MLD_AST_INDEX_M) >> \
10208      HTT_ML_PEER_EXT_DETAILS_MLD_AST_INDEX_S)
10209 /* provide properly-named macro */
10210 #define HTT_STATS_ML_PEER_EXT_DETAILS_MLD_AST_INDEX_GET(_var) \
10211     HTT_ML_PEER_EXT_DETAILS_MLD_AST_INDEX_GET(_var)
10212 
10213 #define HTT_ML_PEER_EXT_DETAILS_MLD_AST_INDEX_SET(_var, _val) \
10214     do { \
10215         HTT_CHECK_SET_VAL(HTT_ML_PEER_EXT_DETAILS_MLD_AST_INDEX, _val); \
10216         ((_var) &= ~(HTT_ML_PEER_EXT_DETAILS_MLD_AST_INDEX_M)); \
10217         ((_var) |= ((_val) << HTT_ML_PEER_EXT_DETAILS_MLD_AST_INDEX_S)); \
10218     } while (0)
10219 
10220 typedef struct {
10221     htt_tlv_hdr_t tlv_hdr;
10222     union {
10223         struct {
10224             A_UINT32 peer_assoc_ipc_recvd    : 6,
10225                      sched_peer_delete_recvd : 6,
10226                      mld_ast_index           : 16,
10227                      reserved                : 4;
10228         };
10229         A_UINT32 msg_dword_1;
10230     };
10231 } htt_stats_ml_peer_ext_details_tlv;
10232 /* preserve old name alias for new name consistent with the tag name */
10233 typedef htt_stats_ml_peer_ext_details_tlv htt_ml_peer_ext_details_tlv;
10234 
10235 #define HTT_ML_LINK_INFO_VALID_M                0x00000001
10236 #define HTT_ML_LINK_INFO_VALID_S                0
10237 #define HTT_ML_LINK_INFO_ACTIVE_M               0x00000002
10238 #define HTT_ML_LINK_INFO_ACTIVE_S               1
10239 #define HTT_ML_LINK_INFO_PRIMARY_M              0x00000004
10240 #define HTT_ML_LINK_INFO_PRIMARY_S              2
10241 #define HTT_ML_LINK_INFO_ASSOC_LINK_M           0x00000008
10242 #define HTT_ML_LINK_INFO_ASSOC_LINK_S           3
10243 #define HTT_ML_LINK_INFO_CHIP_ID_M              0x00000070
10244 #define HTT_ML_LINK_INFO_CHIP_ID_S              4
10245 #define HTT_ML_LINK_INFO_IEEE_LINK_ID_M         0x00007F80
10246 #define HTT_ML_LINK_INFO_IEEE_LINK_ID_S         7
10247 #define HTT_ML_LINK_INFO_HW_LINK_ID_M           0x00038000
10248 #define HTT_ML_LINK_INFO_HW_LINK_ID_S           15
10249 #define HTT_ML_LINK_INFO_LOGICAL_LINK_ID_M      0x000C0000
10250 #define HTT_ML_LINK_INFO_LOGICAL_LINK_ID_S      18
10251 #define HTT_ML_LINK_INFO_MASTER_LINK_M          0x00100000
10252 #define HTT_ML_LINK_INFO_MASTER_LINK_S          20
10253 #define HTT_ML_LINK_INFO_ANCHOR_LINK_M          0x00200000
10254 #define HTT_ML_LINK_INFO_ANCHOR_LINK_S          21
10255 #define HTT_ML_LINK_INFO_INITIALIZED_M          0x00400000
10256 #define HTT_ML_LINK_INFO_INITIALIZED_S          22
10257 
10258 #define HTT_ML_LINK_INFO_SW_PEER_ID_M           0x0000ffff
10259 #define HTT_ML_LINK_INFO_SW_PEER_ID_S           0
10260 #define HTT_ML_LINK_INFO_VDEV_ID_M              0x00ff0000
10261 #define HTT_ML_LINK_INFO_VDEV_ID_S              16
10262 
10263 #define HTT_ML_LINK_INFO_VALID_GET(_var) \
10264     (((_var) & HTT_ML_LINK_INFO_VALID_M) >> \
10265      HTT_ML_LINK_INFO_VALID_S)
10266 /* provide properly-named macro */
10267 #define HTT_STATS_ML_LINK_INFO_DETAILS_VALID_GET(_var) \
10268     HTT_ML_LINK_INFO_VALID_GET(_var)
10269 
10270 #define HTT_ML_LINK_INFO_VALID_SET(_var, _val) \
10271     do { \
10272         HTT_CHECK_SET_VAL(HTT_ML_LINK_INFO_VALID, _val); \
10273         ((_var) &= ~(HTT_ML_LINK_INFO_VALID_M)); \
10274         ((_var) |= ((_val) << HTT_ML_LINK_INFO_VALID_S)); \
10275     } while (0)
10276 
10277 #define HTT_ML_LINK_INFO_ACTIVE_GET(_var) \
10278     (((_var) & HTT_ML_LINK_INFO_ACTIVE_M) >> \
10279      HTT_ML_LINK_INFO_ACTIVE_S)
10280 /* provide properly-named macro */
10281 #define HTT_STATS_ML_LINK_INFO_DETAILS_ACTIVE_GET(_var) \
10282     HTT_ML_LINK_INFO_ACTIVE_GET(_var)
10283 
10284 #define HTT_ML_LINK_INFO_ACTIVE_SET(_var, _val) \
10285     do { \
10286         HTT_CHECK_SET_VAL(HTT_ML_LINK_INFO_ACTIVE, _val); \
10287         ((_var) &= ~(HTT_ML_LINK_INFO_ACTIVE_M)); \
10288         ((_var) |= ((_val) << HTT_ML_LINK_INFO_ACTIVE_S)); \
10289     } while (0)
10290 
10291 #define HTT_ML_LINK_INFO_PRIMARY_GET(_var) \
10292     (((_var) & HTT_ML_LINK_INFO_PRIMARY_M) >> \
10293      HTT_ML_LINK_INFO_PRIMARY_S)
10294 /* provide properly-named macro */
10295 #define HTT_STATS_ML_LINK_INFO_DETAILS_PRIMARY_GET(_var) \
10296     HTT_ML_LINK_INFO_PRIMARY_GET(_var)
10297 
10298 #define HTT_ML_LINK_INFO_PRIMARY_SET(_var, _val) \
10299     do { \
10300         HTT_CHECK_SET_VAL(HTT_ML_LINK_INFO_PRIMARY, _val); \
10301         ((_var) &= ~(HTT_ML_LINK_INFO_PRIMARY_M)); \
10302         ((_var) |= ((_val) << HTT_ML_LINK_INFO_PRIMARY_S)); \
10303     } while (0)
10304 
10305 #define HTT_ML_LINK_INFO_ASSOC_LINK_GET(_var) \
10306     (((_var) & HTT_ML_LINK_INFO_ASSOC_LINK_M) >> \
10307      HTT_ML_LINK_INFO_ASSOC_LINK_S)
10308 /* provide properly-named macro */
10309 #define HTT_STATS_ML_LINK_INFO_DETAILS_ASSOC_LINK_GET(_var) \
10310     HTT_ML_LINK_INFO_ASSOC_LINK_GET(_var)
10311 
10312 #define HTT_ML_LINK_INFO_ASSOC_LINK_SET(_var, _val) \
10313     do { \
10314         HTT_CHECK_SET_VAL(HTT_ML_LINK_INFO_ASSOC_LINK, _val); \
10315         ((_var) &= ~(HTT_ML_LINK_INFO_ASSOC_LINK_M)); \
10316         ((_var) |= ((_val) << HTT_ML_LINK_INFO_ASSOC_LINK_S)); \
10317     } while (0)
10318 
10319 #define HTT_ML_LINK_INFO_CHIP_ID_GET(_var) \
10320     (((_var) & HTT_ML_LINK_INFO_CHIP_ID_M) >> \
10321      HTT_ML_LINK_INFO_CHIP_ID_S)
10322 /* provide properly-named macro */
10323 #define HTT_STATS_ML_LINK_INFO_DETAILS_CHIP_ID_GET(_var) \
10324     HTT_ML_LINK_INFO_CHIP_ID_GET(_var)
10325 
10326 #define HTT_ML_LINK_INFO_CHIP_ID_SET(_var, _val) \
10327     do { \
10328         HTT_CHECK_SET_VAL(HTT_ML_LINK_INFO_CHIP_ID, _val); \
10329         ((_var) &= ~(HTT_ML_LINK_INFO_CHIP_ID_M)); \
10330         ((_var) |= ((_val) << HTT_ML_LINK_INFO_CHIP_ID_S)); \
10331     } while (0)
10332 
10333 #define HTT_ML_LINK_INFO_IEEE_LINK_ID_GET(_var) \
10334     (((_var) & HTT_ML_LINK_INFO_IEEE_LINK_ID_M) >> \
10335      HTT_ML_LINK_INFO_IEEE_LINK_ID_S)
10336 /* provide properly-named macro */
10337 #define HTT_STATS_ML_LINK_INFO_DETAILS_IEEE_LINK_ID_GET(_var) \
10338     HTT_ML_LINK_INFO_IEEE_LINK_ID_GET(_var)
10339 
10340 #define HTT_ML_LINK_INFO_IEEE_LINK_ID_SET(_var, _val) \
10341     do { \
10342         HTT_CHECK_SET_VAL(HTT_ML_LINK_INFO_IEEE_LINK_ID, _val); \
10343         ((_var) &= ~(HTT_ML_LINK_INFO_IEEE_LINK_ID_M)); \
10344         ((_var) |= ((_val) << HTT_ML_LINK_INFO_IEEE_LINK_ID_S)); \
10345     } while (0)
10346 
10347 #define HTT_ML_LINK_INFO_HW_LINK_ID_GET(_var) \
10348     (((_var) & HTT_ML_LINK_INFO_HW_LINK_ID_M) >> \
10349      HTT_ML_LINK_INFO_HW_LINK_ID_S)
10350 /* provide properly-named macro */
10351 #define HTT_STATS_ML_LINK_INFO_DETAILS_HW_LINK_ID_GET(_var) \
10352     HTT_ML_LINK_INFO_HW_LINK_ID_GET(_var)
10353 
10354 #define HTT_ML_LINK_INFO_HW_LINK_ID_SET(_var, _val) \
10355     do { \
10356         HTT_CHECK_SET_VAL(HTT_ML_LINK_INFO_HW_LINK_ID, _val); \
10357         ((_var) &= ~(HTT_ML_LINK_INFO_HW_LINK_ID_M)); \
10358         ((_var) |= ((_val) << HTT_ML_LINK_INFO_HW_LINK_ID_S)); \
10359     } while (0)
10360 
10361 #define HTT_ML_LINK_INFO_LOGICAL_LINK_ID_GET(_var) \
10362     (((_var) & HTT_ML_LINK_INFO_LOGICAL_LINK_ID_M) >> \
10363      HTT_ML_LINK_INFO_LOGICAL_LINK_ID_S)
10364 /* provide properly-named macro */
10365 #define HTT_STATS_ML_LINK_INFO_DETAILS_LOGICAL_LINK_ID_GET(_var) \
10366     HTT_ML_LINK_INFO_LOGICAL_LINK_ID_GET(_var)
10367 
10368 #define HTT_ML_LINK_INFO_LOGICAL_LINK_ID_SET(_var, _val) \
10369     do { \
10370         HTT_CHECK_SET_VAL(HTT_ML_LINK_INFO_LOGICAL_LINK_ID, _val); \
10371         ((_var) &= ~(HTT_ML_LINK_INFO_LOGICAL_LINK_ID_M)); \
10372         ((_var) |= ((_val) << HTT_ML_LINK_INFO_LOGICAL_LINK_ID_S)); \
10373     } while (0)
10374 
10375 #define HTT_ML_LINK_INFO_MASTER_LINK_GET(_var) \
10376     (((_var) & HTT_ML_LINK_INFO_MASTER_LINK_M) >> \
10377      HTT_ML_LINK_INFO_MASTER_LINK_S)
10378 /* provide properly-named macro */
10379 #define HTT_STATS_ML_LINK_INFO_DETAILS_MASTER_LINK_GET(_var) \
10380     HTT_ML_LINK_INFO_MASTER_LINK_GET(_var)
10381 
10382 #define HTT_ML_LINK_INFO_MASTER_LINK_SET(_var, _val) \
10383     do { \
10384         HTT_CHECK_SET_VAL(HTT_ML_LINK_INFO_MASTER_LINK, _val); \
10385         ((_var) &= ~(HTT_ML_LINK_INFO_MASTER_LINK_M)); \
10386         ((_var) |= ((_val) << HTT_ML_LINK_INFO_MASTER_LINK_S)); \
10387     } while (0)
10388 
10389 #define HTT_ML_LINK_INFO_ANCHOR_LINK_GET(_var) \
10390     (((_var) & HTT_ML_LINK_INFO_ANCHOR_LINK_M) >> \
10391      HTT_ML_LINK_INFO_ANCHOR_LINK_S)
10392 /* provide properly-named macro */
10393 #define HTT_STATS_ML_LINK_INFO_DETAILS_ANCHOR_LINK_GET(_var) \
10394     HTT_ML_LINK_INFO_ANCHOR_LINK_GET(_var)
10395 
10396 #define HTT_ML_LINK_INFO_ANCHOR_LINK_SET(_var, _val) \
10397     do { \
10398         HTT_CHECK_SET_VAL(HTT_ML_LINK_INFO_ANCHOR_LINK, _val); \
10399         ((_var) &= ~(HTT_ML_LINK_INFO_ANCHOR_LINK_M)); \
10400         ((_var) |= ((_val) << HTT_ML_LINK_INFO_ANCHOR_LINK_S)); \
10401     } while (0)
10402 
10403 #define HTT_ML_LINK_INFO_INITIALIZED_GET(_var) \
10404     (((_var) & HTT_ML_LINK_INFO_INITIALIZED_M) >> \
10405      HTT_ML_LINK_INFO_INITIALIZED_S)
10406 /* provide properly-named macro */
10407 #define HTT_STATS_ML_LINK_INFO_DETAILS_INITIALIZED_GET(_var) \
10408     HTT_ML_LINK_INFO_INITIALIZED_GET(_var)
10409 
10410 #define HTT_ML_LINK_INFO_INITIALIZED_SET(_var, _val) \
10411     do { \
10412         HTT_CHECK_SET_VAL(HTT_ML_LINK_INFO_INITIALIZED, _val); \
10413         ((_var) &= ~(HTT_ML_LINK_INFO_INITIALIZED_M)); \
10414         ((_var) |= ((_val) << HTT_ML_LINK_INFO_INITIALIZED_S)); \
10415     } while (0)
10416 
10417 #define HTT_ML_LINK_INFO_SW_PEER_ID_GET(_var) \
10418     (((_var) & HTT_ML_LINK_INFO_SW_PEER_ID_M) >> \
10419      HTT_ML_LINK_INFO_SW_PEER_ID_S)
10420 /* provide properly-named macro */
10421 #define HTT_STATS_ML_LINK_INFO_DETAILS_SW_PEER_ID_GET(_var) \
10422     HTT_ML_LINK_INFO_SW_PEER_ID_GET(_var)
10423 
10424 #define HTT_ML_LINK_INFO_SW_PEER_ID_SET(_var, _val) \
10425     do { \
10426         HTT_CHECK_SET_VAL(HTT_ML_LINK_INFO_SW_PEER_ID, _val); \
10427         ((_var) &= ~(HTT_ML_LINK_INFO_SW_PEER_ID_M)); \
10428         ((_var) |= ((_val) << HTT_ML_LINK_INFO_SW_PEER_ID_S)); \
10429     } while (0)
10430 
10431 #define HTT_ML_LINK_INFO_VDEV_ID_GET(_var) \
10432     (((_var) & HTT_ML_LINK_INFO_VDEV_ID_M) >> \
10433      HTT_ML_LINK_INFO_VDEV_ID_S)
10434 /* provide properly-named macro */
10435 #define HTT_STATS_ML_LINK_INFO_DETAILS_VDEV_ID_GET(_var) \
10436     HTT_ML_LINK_INFO_VDEV_ID_GET(_var)
10437 
10438 #define HTT_ML_LINK_INFO_VDEV_ID_SET(_var, _val) \
10439     do { \
10440         HTT_CHECK_SET_VAL(HTT_ML_LINK_INFO_VDEV_ID, _val); \
10441         ((_var) &= ~(HTT_ML_LINK_INFO_VDEV_ID_M)); \
10442         ((_var) |= ((_val) << HTT_ML_LINK_INFO_VDEV_ID_S)); \
10443     } while (0)
10444 
10445 typedef struct {
10446     htt_tlv_hdr_t tlv_hdr;
10447     union {
10448         struct {
10449             A_UINT32 valid           : 1,
10450                      active          : 1,
10451                      primary         : 1,
10452                      assoc_link      : 1,
10453                      chip_id         : 3,
10454                      ieee_link_id    : 8,
10455                      hw_link_id      : 3,
10456                      logical_link_id : 2,
10457                      master_link     : 1,
10458                      anchor_link     : 1,
10459                      initialized     : 1,
10460                      reserved        : 9;
10461         };
10462         A_UINT32 msg_dword_1;
10463     };
10464 
10465     union {
10466         struct {
10467             A_UINT32 sw_peer_id      : 16,
10468                      vdev_id         : 8,
10469                      reserved1       : 8;
10470         };
10471         A_UINT32 msg_dword_2;
10472     };
10473 
10474     A_UINT32 primary_tid_mask;
10475 } htt_stats_ml_link_info_details_tlv;
10476 /* preserve old name alias for new name consistent with the tag name */
10477 typedef htt_stats_ml_link_info_details_tlv htt_ml_link_info_tlv;
10478 
10479 #define HTT_ML_PEER_DETAILS_NUM_LINKS_M                     0x00000003
10480 #define HTT_ML_PEER_DETAILS_NUM_LINKS_S                     0
10481 #define HTT_ML_PEER_DETAILS_ML_PEER_ID_M                    0x00003FFC
10482 #define HTT_ML_PEER_DETAILS_ML_PEER_ID_S                    2
10483 #define HTT_ML_PEER_DETAILS_PRIMARY_LINK_IDX_M              0x0001C000
10484 #define HTT_ML_PEER_DETAILS_PRIMARY_LINK_IDX_S              14
10485 #define HTT_ML_PEER_DETAILS_PRIMARY_CHIP_ID_M               0x00060000
10486 #define HTT_ML_PEER_DETAILS_PRIMARY_CHIP_ID_S               17
10487 #define HTT_ML_PEER_DETAILS_LINK_INIT_COUNT_M               0x00380000
10488 #define HTT_ML_PEER_DETAILS_LINK_INIT_COUNT_S               19
10489 #define HTT_ML_PEER_DETAILS_NON_STR_M                       0x00400000
10490 #define HTT_ML_PEER_DETAILS_NON_STR_S                       22
10491 #define HTT_ML_PEER_DETAILS_IS_EMLSR_ACTIVE_M               0x00800000
10492 #define HTT_ML_PEER_DETAILS_IS_EMLSR_ACTIVE_S               23
10493   /* for backwards compatibility, retain the old EMLSR name of the bitfield */
10494   #define HTT_ML_PEER_DETAILS_EMLSR_M HTT_ML_PEER_DETAILS_IS_EMLSR_ACTIVE_M
10495   #define HTT_ML_PEER_DETAILS_EMLSR_S HTT_ML_PEER_DETAILS_IS_EMLSR_ACTIVE_S
10496 #define HTT_ML_PEER_DETAILS_IS_STA_KO_M                     0x01000000
10497 #define HTT_ML_PEER_DETAILS_IS_STA_KO_S                     24
10498 #define HTT_ML_PEER_DETAILS_NUM_LOCAL_LINKS_M               0x06000000
10499 #define HTT_ML_PEER_DETAILS_NUM_LOCAL_LINKS_S               25
10500 #define HTT_ML_PEER_DETAILS_ALLOCATED_M                     0x08000000
10501 #define HTT_ML_PEER_DETAILS_ALLOCATED_S                     27
10502 #define HTT_ML_PEER_DETAILS_EMLSR_SUPPORT_M                 0x10000000
10503 #define HTT_ML_PEER_DETAILS_EMLSR_SUPPORT_S                 28
10504 
10505 #define HTT_ML_PEER_DETAILS_PARTICIPATING_CHIPS_BITMAP_M    0x000000ff
10506 #define HTT_ML_PEER_DETAILS_PARTICIPATING_CHIPS_BITMAP_S    0
10507 
10508 #define HTT_ML_PEER_DETAILS_NUM_LINKS_GET(_var) \
10509     (((_var) & HTT_ML_PEER_DETAILS_NUM_LINKS_M) >> \
10510      HTT_ML_PEER_DETAILS_NUM_LINKS_S)
10511 /* provide properly-named macro */
10512 #define HTT_STATS_ML_PEER_DETAILS_NUM_LINKS_GET(_var) \
10513     HTT_ML_PEER_DETAILS_NUM_LINKS_GET(_var)
10514 
10515 #define HTT_ML_PEER_DETAILS_NUM_LINKS_SET(_var, _val) \
10516     do { \
10517         HTT_CHECK_SET_VAL(HTT_ML_PEER_DETAILS_NUM_LINKS, _val); \
10518         ((_var) &= ~(HTT_ML_PEER_DETAILS_NUM_LINKS_M)); \
10519         ((_var) |= ((_val) << HTT_ML_PEER_DETAILS_NUM_LINKS_S)); \
10520     } while (0)
10521 
10522 #define HTT_ML_PEER_DETAILS_ML_PEER_ID_GET(_var) \
10523     (((_var) & HTT_ML_PEER_DETAILS_ML_PEER_ID_M) >> \
10524      HTT_ML_PEER_DETAILS_ML_PEER_ID_S)
10525 /* provide properly-named macro */
10526 #define HTT_STATS_ML_PEER_DETAILS_ML_PEER_ID_GET(_var) \
10527     HTT_ML_PEER_DETAILS_ML_PEER_ID_GET(_var)
10528 
10529 #define HTT_ML_PEER_DETAILS_ML_PEER_ID_SET(_var, _val) \
10530     do { \
10531         HTT_CHECK_SET_VAL(HTT_ML_PEER_DETAILS_ML_PEER_ID, _val); \
10532         ((_var) &= ~(HTT_ML_PEER_DETAILS_ML_PEER_ID_M)); \
10533         ((_var) |= ((_val) << HTT_ML_PEER_DETAILS_ML_PEER_ID_S)); \
10534     } while (0)
10535 
10536 #define HTT_ML_PEER_DETAILS_PRIMARY_LINK_IDX_GET(_var) \
10537     (((_var) & HTT_ML_PEER_DETAILS_PRIMARY_LINK_IDX_M) >> \
10538      HTT_ML_PEER_DETAILS_PRIMARY_LINK_IDX_S)
10539 /* provide properly-named macro */
10540 #define HTT_STATS_ML_PEER_DETAILS_PRIMARY_LINK_IDX_GET(_var) \
10541     HTT_ML_PEER_DETAILS_PRIMARY_LINK_IDX_GET(_var)
10542 
10543 #define HTT_ML_PEER_DETAILS_PRIMARY_LINK_IDX_SET(_var, _val) \
10544     do { \
10545         HTT_CHECK_SET_VAL(HTT_ML_PEER_DETAILS_PRIMARY_LINK_IDX, _val); \
10546         ((_var) &= ~(HTT_ML_PEER_DETAILS_PRIMARY_LINK_IDX_M)); \
10547         ((_var) |= ((_val) << HTT_ML_PEER_DETAILS_PRIMARY_LINK_IDX_S)); \
10548     } while (0)
10549 
10550 #define HTT_ML_PEER_DETAILS_PRIMARY_CHIP_ID_GET(_var) \
10551     (((_var) & HTT_ML_PEER_DETAILS_PRIMARY_CHIP_ID_M) >> \
10552      HTT_ML_PEER_DETAILS_PRIMARY_CHIP_ID_S)
10553 /* provide properly-named macro */
10554 #define HTT_STATS_ML_PEER_DETAILS_PRIMARY_CHIP_ID_GET(_var) \
10555     HTT_ML_PEER_DETAILS_PRIMARY_CHIP_ID_GET(_var)
10556 
10557 #define HTT_ML_PEER_DETAILS_PRIMARY_CHIP_ID_SET(_var, _val) \
10558     do { \
10559         HTT_CHECK_SET_VAL(HTT_ML_PEER_DETAILS_PRIMARY_CHIP_ID, _val); \
10560         ((_var) &= ~(HTT_ML_PEER_DETAILS_PRIMARY_CHIP_ID_M)); \
10561         ((_var) |= ((_val) << HTT_ML_PEER_DETAILS_PRIMARY_CHIP_ID_S)); \
10562     } while (0)
10563 
10564 #define HTT_ML_PEER_DETAILS_LINK_INIT_COUNT_GET(_var) \
10565     (((_var) & HTT_ML_PEER_DETAILS_LINK_INIT_COUNT_M) >> \
10566      HTT_ML_PEER_DETAILS_LINK_INIT_COUNT_S)
10567 /* provide properly-named macro */
10568 #define HTT_STATS_ML_PEER_DETAILS_LINK_INIT_COUNT_GET(_var) \
10569     HTT_ML_PEER_DETAILS_LINK_INIT_COUNT_GET(_var)
10570 
10571 #define HTT_ML_PEER_DETAILS_LINK_INIT_COUNT_SET(_var, _val) \
10572     do { \
10573         HTT_CHECK_SET_VAL(HTT_ML_PEER_DETAILS_LINK_INIT_COUNT, _val); \
10574         ((_var) &= ~(HTT_ML_PEER_DETAILS_LINK_INIT_COUNT_M)); \
10575         ((_var) |= ((_val) << HTT_ML_PEER_DETAILS_LINK_INIT_COUNT_S)); \
10576     } while (0)
10577 
10578 #define HTT_ML_PEER_DETAILS_NON_STR_GET(_var) \
10579     (((_var) & HTT_ML_PEER_DETAILS_NON_STR_M) >> \
10580      HTT_ML_PEER_DETAILS_NON_STR_S)
10581 /* provide properly-named macro */
10582 #define HTT_STATS_ML_PEER_DETAILS_NON_STR_GET(_var) \
10583     HTT_ML_PEER_DETAILS_NON_STR_GET(_var)
10584 
10585 #define HTT_ML_PEER_DETAILS_NON_STR_SET(_var, _val) \
10586     do { \
10587         HTT_CHECK_SET_VAL(HTT_ML_PEER_DETAILS_NON_STR, _val); \
10588         ((_var) &= ~(HTT_ML_PEER_DETAILS_NON_STR_M)); \
10589         ((_var) |= ((_val) << HTT_ML_PEER_DETAILS_NON_STR_S)); \
10590     } while (0)
10591 
10592 #define HTT_ML_PEER_DETAILS_IS_EMLSR_ACTIVE_GET(_var) \
10593     (((_var) & HTT_ML_PEER_DETAILS_IS_EMLSR_ACTIVE_M) >> \
10594      HTT_ML_PEER_DETAILS_IS_EMLSR_ACTIVE_S)
10595 /* provide properly-named macro */
10596 #define HTT_STATS_ML_PEER_DETAILS_IS_EMLSR_ACTIVE_GET(_var) \
10597     HTT_ML_PEER_DETAILS_IS_EMLSR_ACTIVE_GET(_var)
10598 
10599 #define HTT_ML_PEER_DETAILS_IS_EMLSR_ACTIVE_SET(_var, _val) \
10600     do { \
10601         HTT_CHECK_SET_VAL(HTT_ML_PEER_DETAILS_IS_EMLSR_ACTIVE, _val); \
10602         ((_var) &= ~(HTT_ML_PEER_DETAILS_IS_EMLSR_ACTIVE_M)); \
10603         ((_var) |= ((_val) << HTT_ML_PEER_DETAILS_IS_EMLSR_ACTIVE_S)); \
10604     } while (0)
10605 
10606     /* start deprecated:
10607      * For backwards compatibility, retain a macro definition that uses
10608      * the old EMLSR name of the bitfield
10609      */
10610     #define HTT_ML_PEER_DETAILS_EMLSR_GET(_var) \
10611         (((_var) & HTT_ML_PEER_DETAILS_EMLSR_M) >> \
10612          HTT_ML_PEER_DETAILS_EMLSR_S)
10613     #define HTT_ML_PEER_DETAILS_EMLSR_SET(_var, _val) \
10614         do { \
10615             HTT_CHECK_SET_VAL(HTT_ML_PEER_DETAILS_EMLSR, _val); \
10616             ((_var) &= ~(HTT_ML_PEER_DETAILS_EMLSR_M)); \
10617             ((_var) |= ((_val) << HTT_ML_PEER_DETAILS_EMLSR_S)); \
10618         } while (0)
10619     /* end deprecated */
10620 
10621 #define HTT_ML_PEER_DETAILS_IS_STA_KO_GET(_var) \
10622     (((_var) & HTT_ML_PEER_DETAILS_IS_STA_KO_M) >> \
10623      HTT_ML_PEER_DETAILS_IS_STA_KO_S)
10624 /* provide properly-named macro */
10625 #define HTT_STATS_ML_PEER_DETAILS_IS_STA_KO_GET(_var) \
10626     HTT_ML_PEER_DETAILS_IS_STA_KO_GET(_var)
10627 
10628 #define HTT_ML_PEER_DETAILS_IS_STA_KO_SET(_var, _val) \
10629     do { \
10630         HTT_CHECK_SET_VAL(HTT_ML_PEER_DETAILS_IS_STA_KO, _val); \
10631         ((_var) &= ~(HTT_ML_PEER_DETAILS_IS_STA_KO_M)); \
10632         ((_var) |= ((_val) << HTT_ML_PEER_DETAILS_IS_STA_KO_S)); \
10633     } while (0)
10634 
10635 #define HTT_ML_PEER_DETAILS_NUM_LOCAL_LINKS_GET(_var) \
10636     (((_var) & HTT_ML_PEER_DETAILS_NUM_LOCAL_LINKS_M) >> \
10637      HTT_ML_PEER_DETAILS_NUM_LOCAL_LINKS_S)
10638 /* provide properly-named macro */
10639 #define HTT_STATS_ML_PEER_DETAILS_NUM_LOCAL_LINKS_GET(_var) \
10640     HTT_ML_PEER_DETAILS_NUM_LOCAL_LINKS_GET(_var)
10641 
10642 #define HTT_ML_PEER_DETAILS_NUM_LOCAL_LINKS_SET(_var, _val) \
10643     do { \
10644         HTT_CHECK_SET_VAL(HTT_ML_PEER_DETAILS_NUM_LOCAL_LINKS, _val); \
10645         ((_var) &= ~(HTT_ML_PEER_DETAILS_NUM_LOCAL_LINKS_M)); \
10646         ((_var) |= ((_val) << HTT_ML_PEER_DETAILS_NUM_LOCAL_LINKS_S)); \
10647     } while (0)
10648 
10649 #define HTT_ML_PEER_DETAILS_ALLOCATED_GET(_var) \
10650     (((_var) & HTT_ML_PEER_DETAILS_ALLOCATED_M) >> \
10651      HTT_ML_PEER_DETAILS_ALLOCATED_S)
10652 /* provide properly-named macro */
10653 #define HTT_STATS_ML_PEER_DETAILS_ALLOCATED_GET(_var) \
10654     HTT_ML_PEER_DETAILS_ALLOCATED_GET(_var)
10655 
10656 #define HTT_ML_PEER_DETAILS_ALLOCATED_SET(_var, _val) \
10657     do { \
10658         HTT_CHECK_SET_VAL(HTT_ML_PEER_DETAILS_ALLOCATED, _val); \
10659         ((_var) &= ~(HTT_ML_PEER_DETAILS_ALLOCATED_M)); \
10660         ((_var) |= ((_val) << HTT_ML_PEER_DETAILS_ALLOCATED_S)); \
10661     } while (0)
10662 
10663 #define HTT_ML_PEER_DETAILS_EMLSR_SUPPORT_GET(_var) \
10664     (((_var) & HTT_ML_PEER_DETAILS_EMLSR_SUPPORT_M) >> \
10665      HTT_ML_PEER_DETAILS_EMLSR_SUPPORT_S)
10666 /* provide properly-named macro */
10667 #define HTT_STATS_ML_PEER_DETAILS_EMLSR_SUPPORT_GET(_var) \
10668     HTT_ML_PEER_DETAILS_EMLSR_SUPPORT_GET(_var)
10669 
10670 #define HTT_ML_PEER_DETAILS_EMLSR_SUPPORT_SET(_var, _val) \
10671     do { \
10672         HTT_CHECK_SET_VAL(HTT_ML_PEER_DETAILS_EMLSR_SUPPORT, _val); \
10673         ((_var) &= ~(HTT_ML_PEER_DETAILS_EMLSR_SUPPORT_M)); \
10674         ((_var) |= ((_val) << HTT_ML_PEER_DETAILS_EMLSR_SUPPORT_S)); \
10675     } while (0)
10676 
10677 
10678 #define HTT_ML_PEER_DETAILS_PARTICIPATING_CHIPS_BITMAP_GET(_var) \
10679     (((_var) & HTT_ML_PEER_DETAILS_PARTICIPATING_CHIPS_BITMAP_M) >> \
10680      HTT_ML_PEER_DETAILS_PARTICIPATING_CHIPS_BITMAP_S)
10681 /* provide properly-named macro */
10682 #define HTT_STATS_ML_PEER_DETAILS_PARTICIPATING_CHIPS_BITMAP_GET(_var) \
10683     HTT_ML_PEER_DETAILS_PARTICIPATING_CHIPS_BITMAP_GET(_var)
10684 
10685 #define HTT_ML_PEER_DETAILS_PARTICIPATING_CHIPS_BITMAP_SET(_var, _val) \
10686     do { \
10687         HTT_CHECK_SET_VAL(HTT_ML_PEER_DETAILS_PARTICIPATING_CHIPS_BITMAP, _val); \
10688         ((_var) &= ~(HTT_ML_PEER_DETAILS_PARTICIPATING_CHIPS_BITMAP_M)); \
10689         ((_var) |= ((_val) << HTT_ML_PEER_DETAILS_PARTICIPATING_CHIPS_BITMAP_S)); \
10690     } while (0)
10691 
10692 typedef struct {
10693     htt_tlv_hdr_t tlv_hdr;
10694     htt_mac_addr  remote_mld_mac_addr;
10695     union {
10696         struct {
10697             A_UINT32 num_links         : 2,
10698                      ml_peer_id        : 12,
10699                      primary_link_idx  : 3,
10700                      primary_chip_id   : 2,
10701                      link_init_count   : 3,
10702                      non_str           : 1,
10703                      is_emlsr_active   : 1,
10704                      is_sta_ko         : 1,
10705                      num_local_links   : 2,
10706                      allocated         : 1,
10707                      emlsr_support     : 1,
10708                      reserved          : 3;
10709         };
10710         struct {
10711             /*
10712              * For backwards compatibility, use a dummy union element to
10713              * retain the old "emlsr" name for the "is_emlsr_active" bitfield.
10714              */
10715             A_UINT32 dummy1 : 23,
10716                      emlsr  : 1,
10717                      dummy2 : 8;
10718         };
10719         A_UINT32 msg_dword_1;
10720     };
10721 
10722     union {
10723         struct {
10724             A_UINT32  participating_chips_bitmap : 8,
10725                      reserved1                  : 24;
10726         };
10727         A_UINT32 msg_dword_2;
10728     };
10729     /*
10730      * ml_peer_flags is an opaque field that cannot be interpreted by
10731      * the host; it is only for off-line debug.
10732      */
10733     A_UINT32  ml_peer_flags;
10734 } htt_stats_ml_peer_details_tlv;
10735 /* preserve old name alias for new name consistent with the tag name */
10736 typedef htt_stats_ml_peer_details_tlv htt_ml_peer_details_tlv;
10737 
10738 /* STATS_TYPE : HTT_DBG_EXT_STATS_ML_PEERS_INFO
10739  * TLV_TAGS:
10740  *   - HTT_STATS_ML_PEER_DETAILS_TAG
10741  *   - HTT_STATS_ML_LINK_INFO_DETAILS_TAG
10742  *   - HTT_STATS_ML_PEER_EXT_DETAILS_TAG (multiple)
10743  */
10744 /* NOTE:
10745  * This structure is for documentation, and cannot be safely used directly.
10746  * Instead, use the constituent TLV structures to fill/parse.
10747  */
10748 #ifdef ATH_TARGET
10749 typedef struct _htt_ml_peer_stats {
10750     htt_stats_ml_peer_details_tlv      ml_peer_details;
10751     htt_stats_ml_peer_ext_details_tlv  ml_peer_ext_details;
10752     htt_stats_ml_link_info_details_tlv ml_link_info[1];
10753 } htt_ml_peer_stats_t;
10754 #endif /* ATH_TARGET */
10755 
10756 /*
10757  * ODD Mandatory Stats are grouped together from all the existing different
10758  * stats, to form a set of stats that will be used by the ODD application to
10759  * post the stats to the cloud instead of polling for the individual stats.
10760  * This is done to avoid non-mandatory stats to be polled as the data will not
10761  * be required in the recipes derivation.
10762  * Rather than the host simply printing the ODD stats, the ODD application
10763  * will take the buffer and map it to the odd_mandatory_stats data structure.
10764  */
10765 typedef struct {
10766     htt_tlv_hdr_t tlv_hdr;
10767     A_UINT32 hw_queued;
10768     A_UINT32 hw_reaped;
10769     A_UINT32 hw_paused;
10770     A_UINT32 hw_filt;
10771     A_UINT32 seq_posted;
10772     A_UINT32 seq_completed;
10773     A_UINT32 underrun;
10774     A_UINT32 hw_flush;
10775     A_UINT32 next_seq_posted_dsr;
10776     A_UINT32 seq_posted_isr;
10777     A_UINT32 mpdu_cnt_fcs_ok;
10778     A_UINT32 mpdu_cnt_fcs_err;
10779     A_UINT32 msdu_count_tqm;
10780     A_UINT32 mpdu_count_tqm;
10781     A_UINT32 mpdus_ack_failed;
10782     A_UINT32 num_data_ppdus_tried_ota;
10783     A_UINT32 ppdu_ok;
10784     A_UINT32 num_total_ppdus_tried_ota;
10785     A_UINT32 thermal_suspend_cnt;
10786     A_UINT32 dfs_suspend_cnt;
10787     A_UINT32 tx_abort_suspend_cnt;
10788     A_UINT32 suspended_txq_mask;
10789     A_UINT32 last_suspend_reason;
10790     A_UINT32 seq_failed_queueing;
10791     A_UINT32 seq_restarted;
10792     A_UINT32 seq_txop_repost_stop;
10793     A_UINT32 next_seq_cancel;
10794     A_UINT32 seq_min_msdu_repost_stop;
10795     A_UINT32 total_phy_err_cnt;
10796     A_UINT32 ppdu_recvd;
10797     A_UINT32 tcp_msdu_cnt;
10798     A_UINT32 tcp_ack_msdu_cnt;
10799     A_UINT32 udp_msdu_cnt;
10800     A_UINT32 fw_tx_mgmt_subtype[HTT_STATS_SUBTYPE_MAX];
10801     A_UINT32 fw_rx_mgmt_subtype[HTT_STATS_SUBTYPE_MAX];
10802     A_UINT32 fw_ring_mpdu_err[HTT_RX_STATS_RXDMA_MAX_ERR];
10803     A_UINT32 urrn_stats[HTT_TX_PDEV_MAX_URRN_STATS];
10804     A_UINT32 sifs_status[HTT_TX_PDEV_MAX_SIFS_BURST_STATS];
10805     A_UINT32 sifs_hist_status[HTT_TX_PDEV_SIFS_BURST_HIST_STATS];
10806     A_UINT32 rx_suspend_cnt;
10807     A_UINT32 rx_suspend_fail_cnt;
10808     A_UINT32 rx_resume_cnt;
10809     A_UINT32 rx_resume_fail_cnt;
10810     A_UINT32 hwq_beacon_cmd_result[HTT_TX_HWQ_MAX_CMD_RESULT_STATS];
10811     A_UINT32 hwq_voice_cmd_result[HTT_TX_HWQ_MAX_CMD_RESULT_STATS];
10812     A_UINT32 hwq_video_cmd_result[HTT_TX_HWQ_MAX_CMD_RESULT_STATS];
10813     A_UINT32 hwq_best_effort_cmd_result[HTT_TX_HWQ_MAX_CMD_RESULT_STATS];
10814     A_UINT32 hwq_beacon_mpdu_tried_cnt;
10815     A_UINT32 hwq_voice_mpdu_tried_cnt;
10816     A_UINT32 hwq_video_mpdu_tried_cnt;
10817     A_UINT32 hwq_best_effort_mpdu_tried_cnt;
10818     A_UINT32 hwq_beacon_mpdu_queued_cnt;
10819     A_UINT32 hwq_voice_mpdu_queued_cnt;
10820     A_UINT32 hwq_video_mpdu_queued_cnt;
10821     A_UINT32 hwq_best_effort_mpdu_queued_cnt;
10822     A_UINT32 hwq_beacon_mpdu_ack_fail_cnt;
10823     A_UINT32 hwq_voice_mpdu_ack_fail_cnt;
10824     A_UINT32 hwq_video_mpdu_ack_fail_cnt;
10825     A_UINT32 hwq_best_effort_mpdu_ack_fail_cnt;
10826     A_UINT32 pdev_resets;
10827     A_UINT32 phy_warm_reset;
10828     A_UINT32 hwsch_reset_count;
10829     A_UINT32 phy_warm_reset_ucode_trig;
10830     A_UINT32 mac_cold_reset;
10831     A_UINT32 mac_warm_reset;
10832     A_UINT32 mac_warm_reset_restore_cal;
10833     A_UINT32 phy_warm_reset_m3_ssr;
10834     A_UINT32 fw_rx_rings_reset;
10835     A_UINT32 tx_flush;
10836     A_UINT32 hwsch_dev_reset_war;
10837     A_UINT32 mac_cold_reset_restore_cal;
10838     A_UINT32 mac_only_reset;
10839     A_UINT32 mac_sfm_reset;
10840     A_UINT32 tx_ldpc; /* Number of tx PPDUs with LDPC coding */
10841     A_UINT32 rx_ldpc; /* Number of rx PPDUs with LDPC coding */
10842     A_UINT32 gen_mpdu_end_reason[HTT_TX_TQM_MAX_GEN_MPDU_END_REASON];
10843     A_UINT32 list_mpdu_end_reason[HTT_TX_TQM_MAX_LIST_MPDU_END_REASON];
10844     A_UINT32 tx_mcs[HTT_TX_PDEV_STATS_NUM_MCS_COUNTERS + HTT_TX_PDEV_STATS_NUM_EXTRA_MCS_COUNTERS + HTT_TX_PDEV_STATS_NUM_EXTRA2_MCS_COUNTERS];
10845     A_UINT32 tx_nss[HTT_TX_PDEV_STATS_NUM_SPATIAL_STREAMS];
10846     A_UINT32 tx_bw[HTT_TX_PDEV_STATS_NUM_BW_COUNTERS];
10847     A_UINT32 half_tx_bw[HTT_TX_PDEV_STATS_NUM_BW_COUNTERS];
10848     A_UINT32 quarter_tx_bw[HTT_TX_PDEV_STATS_NUM_BW_COUNTERS];
10849     A_UINT32 tx_su_punctured_mode[HTT_TX_PDEV_STATS_NUM_PUNCTURED_MODE_COUNTERS];
10850     A_UINT32 rx_mcs[HTT_RX_PDEV_STATS_NUM_MCS_COUNTERS + HTT_RX_PDEV_STATS_NUM_EXTRA_MCS_COUNTERS + HTT_RX_PDEV_STATS_NUM_EXTRA2_MCS_COUNTERS];
10851     A_UINT32 rx_nss[HTT_RX_PDEV_STATS_NUM_SPATIAL_STREAMS];
10852     A_UINT32 rx_bw[HTT_RX_PDEV_STATS_NUM_BW_COUNTERS];
10853     A_UINT32 rx_stbc[HTT_RX_PDEV_STATS_NUM_MCS_COUNTERS + HTT_RX_PDEV_STATS_NUM_EXTRA_MCS_COUNTERS + HTT_RX_PDEV_STATS_NUM_EXTRA2_MCS_COUNTERS];
10854     A_UINT32 rts_cnt;
10855     A_UINT32 rts_success;
10856 } htt_stats_odd_pdev_mandatory_tlv;
10857 /* preserve old name alias for new name consistent with the tag name */
10858 typedef htt_stats_odd_pdev_mandatory_tlv htt_odd_mandatory_pdev_stats_tlv;
10859 
10860 typedef struct _htt_odd_mandatory_mumimo_pdev_stats_tlv {
10861     htt_tlv_hdr_t tlv_hdr;
10862     A_UINT32 ac_mu_mimo_tx_bw[HTT_TX_PDEV_STATS_NUM_BW_COUNTERS];
10863     A_UINT32 ax_mu_mimo_tx_bw[HTT_TX_PDEV_STATS_NUM_BW_COUNTERS];
10864     A_UINT32 ac_mu_mimo_tx_nss[HTT_TX_PDEV_STATS_NUM_SPATIAL_STREAMS];
10865     A_UINT32 ax_mu_mimo_tx_nss[HTT_TX_PDEV_STATS_NUM_SPATIAL_STREAMS];
10866     A_UINT32 ac_mu_mimo_tx_mcs[HTT_TX_PDEV_STATS_NUM_MCS_COUNTERS];
10867     A_UINT32 ax_mu_mimo_tx_mcs[HTT_TX_PDEV_STATS_NUM_MCS_COUNTERS];
10868     A_UINT32 ul_mumimo_rx_mcs[HTT_RX_PDEV_STATS_NUM_MCS_COUNTERS];
10869     A_UINT32 ul_mumimo_rx_nss[HTT_RX_PDEV_STATS_ULMUMIMO_NUM_SPATIAL_STREAMS];
10870     A_UINT32 ul_mumimo_rx_bw[HTT_RX_PDEV_STATS_NUM_BW_COUNTERS];
10871     A_UINT32 rx_ulmumimo_mpdu_fail[HTT_RX_PDEV_MAX_OFDMA_NUM_USER];
10872     A_UINT32 rx_ulmumimo_mpdu_ok[HTT_RX_PDEV_MAX_OFDMA_NUM_USER];
10873     A_UINT32 rx_ulmumimo_data_ppdu[HTT_RX_PDEV_MAX_OFDMA_NUM_USER];
10874 } htt_dbg_odd_mandatory_mumimo_tlv;
10875 /* preserve old name alias for new name consistent with the tag name */
10876 typedef htt_dbg_odd_mandatory_mumimo_tlv
10877     htt_odd_mandatory_mumimo_pdev_stats_tlv;
10878 
10879 typedef struct _htt_odd_mandatory_muofdma_pdev_stats_tlv {
10880     htt_tlv_hdr_t tlv_hdr;
10881     A_UINT32 mu_ofdma_seq_posted;
10882     A_UINT32 ul_mu_ofdma_seq_posted;
10883     A_UINT32 ofdma_tx_mcs[HTT_TX_PDEV_STATS_NUM_MCS_COUNTERS + HTT_TX_PDEV_STATS_NUM_EXTRA_MCS_COUNTERS + HTT_TX_PDEV_STATS_NUM_EXTRA2_MCS_COUNTERS];
10884     A_UINT32 ofdma_tx_nss[HTT_TX_PDEV_STATS_NUM_SPATIAL_STREAMS];
10885     A_UINT32 ofdma_tx_bw[HTT_TX_PDEV_STATS_NUM_BW_COUNTERS];
10886     A_UINT32 ofdma_tx_ldpc;
10887     A_UINT32 ul_ofdma_rx_ldpc;
10888     A_UINT32 ul_ofdma_rx_mcs[HTT_RX_PDEV_STATS_NUM_MCS_COUNTERS + HTT_RX_PDEV_STATS_NUM_EXTRA_MCS_COUNTERS + HTT_RX_PDEV_STATS_NUM_EXTRA2_MCS_COUNTERS];
10889     A_UINT32 ul_ofdma_rx_nss[HTT_RX_PDEV_STATS_NUM_SPATIAL_STREAMS];
10890     A_UINT32 ul_ofdma_rx_bw[HTT_TX_PDEV_STATS_NUM_BW_COUNTERS];
10891     A_UINT32 rx_ulofdma_data_ppdu[HTT_RX_PDEV_MAX_OFDMA_NUM_USER];
10892     A_UINT32 rx_ulofdma_mpdu_ok[HTT_RX_PDEV_MAX_OFDMA_NUM_USER];
10893     A_UINT32 rx_ulofdma_mpdu_fail[HTT_RX_PDEV_MAX_OFDMA_NUM_USER];
10894     A_UINT32 ax_mu_brp_sch_status[HTT_TX_PDEV_STATS_NUM_TX_ERR_STATUS];
10895     A_UINT32 be_mu_brp_sch_status[HTT_TX_PDEV_STATS_NUM_TX_ERR_STATUS];
10896     A_UINT32 ofdma_tx_ru_size[HTT_TX_PDEV_STATS_NUM_AX_RU_SIZE_COUNTERS];
10897     A_UINT32 ofdma_ba_ru_size[HTT_TX_PDEV_STATS_NUM_AX_RU_SIZE_COUNTERS];
10898 } htt_dbg_odd_mandatory_muofdma_tlv;
10899 /* preserve old name alias for new name consistent with the tag name */
10900 typedef htt_dbg_odd_mandatory_muofdma_tlv
10901     htt_odd_mandatory_muofdma_pdev_stats_tlv;
10902 
10903 
10904 #define HTT_PDEV_SCHED_ALGO_OFDMA_STATS_MAC_ID_M 0x000000ff
10905 #define HTT_PDEV_SCHED_ALGO_OFDMA_STATS_MAC_ID_S 0
10906 
10907 #define HTT_PDEV_SCHED_ALGO_OFDMA_STATS_MAC_ID_GET(_var) \
10908     (((_var) & HTT_PDEV_SCHED_ALGO_OFDMA_STATS_MAC_ID_M) >> \
10909      HTT_PDEV_SCHED_ALGO_OFDMA_STATS_MAC_ID_S)
10910 
10911 #define HTT_PDEV_SCHED_ALGO_OFDMA_STATS_MAC_ID_SET(_var, _val) \
10912     do { \
10913         HTT_CHECK_SET_VAL(HTT_PDEV_SCHED_ALGO_OFDMA_STATS_MAC_ID, _val); \
10914         ((_var) |= ((_val) << HTT_PDEV_SCHED_ALGO_OFDMA_STATS_MAC_ID_S)); \
10915     } while (0)
10916 
10917 typedef enum {
10918     HTT_STATS_SCHED_OFDMA_TXBF = 0,                                    /* 0 */
10919     HTT_STATS_SCHED_OFDMA_TXBF_IS_SANITY_FAILED,                       /* 1 */
10920     HTT_STATS_SCHED_OFDMA_TXBF_IS_EBF_ALLOWED_FAILIED,                 /* 2 */
10921     HTT_STATS_SCHED_OFDMA_TXBF_RU_ALLOC_BW_DROP_COUNT,                 /* 3 */
10922     HTT_STATS_SCHED_OFDMA_TXBF_INVALID_CV_QUERY_COUNT,                 /* 4 */
10923     HTT_STATS_SCHED_OFDMA_TXBF_AVG_TXTIME_LESS_THAN_TXBF_SND_THERHOLD, /* 5 */
10924     HTT_STATS_SCHED_OFDMA_TXBF_IS_CANDIDATE_KICKED_OUT,                /* 6 */
10925     HTT_STATS_SCHED_OFDMA_TXBF_CV_IMAGE_BUF_INVALID,                   /* 7 */
10926     HTT_STATS_SCHED_OFDMA_TXBF_INELIGIBILITY_MAX,
10927 } htt_stats_sched_ofdma_txbf_ineligibility_t;
10928 
10929 #define HTT_MAX_NUM_CHAN_ACC_LAT_INTR 9
10930 
10931 typedef struct {
10932     htt_tlv_hdr_t tlv_hdr;
10933     /**
10934      * BIT [ 7 :  0]   :- mac_id
10935      * BIT [31 :  8]   :- reserved
10936      */
10937     union {
10938         struct {
10939             A_UINT32 mac_id:    8,
10940                      reserved: 24;
10941         };
10942         A_UINT32 mac_id__word;
10943     };
10944 
10945     /** Num of instances where rate based DL OFDMA status = ENABLED */
10946     A_UINT32 rate_based_dlofdma_enabled_count[HTT_NUM_AC_WMM];
10947     /** Num of instances where rate based DL OFDMA status = DISABLED */
10948     A_UINT32 rate_based_dlofdma_disabled_count[HTT_NUM_AC_WMM];
10949     /** Num of instances where rate based DL OFDMA status = PROBING */
10950     A_UINT32 rate_based_dlofdma_probing_count[HTT_NUM_AC_WMM];
10951     /** Num of instances where rate based DL OFDMA status = MONITORING */
10952     A_UINT32 rate_based_dlofdma_monitoring_count[HTT_NUM_AC_WMM];
10953     /** Num of instances where avg. channel access latency based DL OFDMA status = ENABLED */
10954     A_UINT32 chan_acc_lat_based_dlofdma_enabled_count[HTT_NUM_AC_WMM];
10955     /** Num of instances where avg. channel access latency based DL OFDMA status = DISABLED */
10956     A_UINT32 chan_acc_lat_based_dlofdma_disabled_count[HTT_NUM_AC_WMM];
10957     /** Num of instances where avg. channel access latency based DL OFDMA status = MONITORING */
10958     A_UINT32 chan_acc_lat_based_dlofdma_monitoring_count[HTT_NUM_AC_WMM];
10959     /** Num of instances where dl ofdma is disabled due to ru allocation failure */
10960     A_UINT32 downgrade_to_dl_su_ru_alloc_fail[HTT_NUM_AC_WMM];
10961     /** Num of instances where dl ofdma is disabled because we have only one user in candidate list */
10962     A_UINT32 candidate_list_single_user_disable_ofdma[HTT_NUM_AC_WMM];
10963     /** Num of instances where ul is chosen over dl based on qos weight not specific to OFDMA */
10964     A_UINT32 dl_cand_list_dropped_high_ul_qos_weight[HTT_NUM_AC_WMM];
10965     /** Num of instances where dl ofdma is disabled due to pipelining */
10966     A_UINT32 ax_dlofdma_disabled_due_to_pipelining[HTT_NUM_AC_WMM];
10967     /** Num of instances where dl ofdma is disabled as the tid is su only eligible */
10968     A_UINT32 dlofdma_disabled_su_only_eligible[HTT_NUM_AC_WMM];
10969     /** Num of instances where dl ofdma is disabled because there are no mpdus tried consecutively */
10970     A_UINT32 dlofdma_disabled_consec_no_mpdus_tried[HTT_NUM_AC_WMM];
10971     /** Num of instances where dl ofdma is disabled because there are consecutive mpdu failure */
10972     A_UINT32 dlofdma_disabled_consec_no_mpdus_success[HTT_NUM_AC_WMM];
10973     A_UINT32 txbf_ofdma_ineligibility_stat[HTT_STATS_SCHED_OFDMA_TXBF_INELIGIBILITY_MAX];
10974     /** Average channel access latency histogram stats
10975      *
10976      *  avg_chan_acc_lat_hist[0]: channel access latency is < 100 us
10977      *  avg_chan_acc_lat_hist[1]: 100 us <= channel access latency < 200 us
10978      *  avg_chan_acc_lat_hist[2]: 200 us <= channel access latency < 300 us
10979      *  avg_chan_acc_lat_hist[3]: 300 us <= channel access latency < 400 us
10980      *  avg_chan_acc_lat_hist[4]: 400 us <= channel access latency < 500 us
10981      *  avg_chan_acc_lat_hist[5]: 500 us <= channel access latency < 1000 us
10982      *  avg_chan_acc_lat_hist[6]: 1000 us <= channel access latency < 1500 us
10983      *  avg_chan_acc_lat_hist[7]: 1500 us <= channel access latency < 2000 us
10984      *  avg_chan_acc_lat_hist[8]: channel access latency is >= 2000 us
10985     */
10986     A_UINT32 avg_chan_acc_lat_hist[HTT_MAX_NUM_CHAN_ACC_LAT_INTR];
10987 } htt_stats_pdev_sched_algo_ofdma_stats_tlv;
10988 /* preserve old name alias for new name consistent with the tag name */
10989 typedef htt_stats_pdev_sched_algo_ofdma_stats_tlv
10990     htt_pdev_sched_algo_ofdma_stats_tlv;
10991 
10992 #define HTT_STATS_PDEV_SCHED_ALGO_OFDMA_STATS_MAC_ID_GET(word) ((word >> 0) & 0xff)
10993 
10994 typedef struct {
10995     htt_tlv_hdr_t tlv_hdr;
10996     /** mac_id__word:
10997      * BIT [ 7 :  0]   :- mac_id
10998      *                    Use the HTT_STATS_CMN_MAC_ID_GET,_SET macros to
10999      *                    read/write this bitfield.
11000      * BIT [31 :  8]   :- reserved
11001      */
11002     A_UINT32 mac_id__word;
11003     A_UINT32 basic_trigger_across_bss;
11004     A_UINT32 basic_trigger_within_bss;
11005     A_UINT32 bsr_trigger_across_bss;
11006     A_UINT32 bsr_trigger_within_bss;
11007     A_UINT32 mu_rts_across_bss;
11008     A_UINT32 mu_rts_within_bss;
11009     A_UINT32 ul_mumimo_trigger_across_bss;
11010     A_UINT32 ul_mumimo_trigger_within_bss;
11011 } htt_stats_pdev_mbssid_ctrl_frame_stats_tlv;
11012 /* preserve old name alias for new name consistent with the tag name */
11013 typedef htt_stats_pdev_mbssid_ctrl_frame_stats_tlv
11014     htt_pdev_mbssid_ctrl_frame_stats_tlv;
11015 
11016 typedef struct {
11017     htt_tlv_hdr_t tlv_hdr;
11018     /**
11019      * BIT [ 7 :  0]   :- mac_id
11020      *                    Use the HTT_STATS_TDMA_MAC_ID_GET macro to extract
11021      *                    this bitfield.
11022      * BIT [31 :  8]   :- reserved
11023      */
11024     union {
11025         struct {
11026             A_UINT32 mac_id:    8,
11027                      reserved: 24;
11028         };
11029         A_UINT32 mac_id__word;
11030     };
11031 
11032     /** Num of Active TDMA schedules */
11033     A_UINT32 num_tdma_active_schedules;
11034     /** Num of Reserved TDMA schedules */
11035     A_UINT32 num_tdma_reserved_schedules;
11036     /** Num of Restricted TDMA schedules */
11037     A_UINT32 num_tdma_restricted_schedules;
11038     /** Num of Unconfigured TDMA schedules */
11039     A_UINT32 num_tdma_unconfigured_schedules;
11040     /** Num of TDMA slot switches */
11041     A_UINT32 num_tdma_slot_switches;
11042     /** Num of TDMA EDCA switches */
11043     A_UINT32 num_tdma_edca_switches;
11044 } htt_stats_pdev_tdma_tlv;
11045 /* preserve old name alias for new name consistent with the tag name */
11046 typedef htt_stats_pdev_tdma_tlv htt_pdev_tdma_stats_tlv;
11047 
11048 #define HTT_STATS_TDMA_MAC_ID_M 0x000000ff
11049 #define HTT_STATS_TDMA_MAC_ID_S 0
11050 
11051 #define HTT_STATS_TDMA_MAC_ID_GET(_var) \
11052     (((_var) & HTT_STATS_TDMA_MAC_ID_M) >> \
11053      HTT_STATS_TDMA_MAC_ID_S)
11054 /* provide properly-named macro */
11055 #define HTT_STATS_PDEV_TDMA_MAC_ID_GET(_var) \
11056     HTT_STATS_TDMA_MAC_ID_GET(_var)
11057 
11058 /*======= Bandwidth Manager stats ====================*/
11059 
11060 #define HTT_BW_MGR_STATS_MAC_ID_M               0x000000ff
11061 #define HTT_BW_MGR_STATS_MAC_ID_S               0
11062 
11063 #define HTT_BW_MGR_STATS_PRI20_IDX_M            0x0000ff00
11064 #define HTT_BW_MGR_STATS_PRI20_IDX_S            8
11065 
11066 #define HTT_BW_MGR_STATS_PRI20_FREQ_M           0xffff0000
11067 #define HTT_BW_MGR_STATS_PRI20_FREQ_S           16
11068 
11069 #define HTT_BW_MGR_STATS_CENTER_FREQ1_M         0x0000ffff
11070 #define HTT_BW_MGR_STATS_CENTER_FREQ1_S         0
11071 
11072 #define HTT_BW_MGR_STATS_CENTER_FREQ2_M         0xffff0000
11073 #define HTT_BW_MGR_STATS_CENTER_FREQ2_S         16
11074 
11075 #define HTT_BW_MGR_STATS_CHAN_PHY_MODE_M        0x000000ff
11076 #define HTT_BW_MGR_STATS_CHAN_PHY_MODE_S        0
11077 
11078 #define HTT_BW_MGR_STATS_STATIC_PATTERN_M       0x00ffff00
11079 #define HTT_BW_MGR_STATS_STATIC_PATTERN_S       8
11080 
11081 #define HTT_BW_MGR_STATS_MAC_ID_GET(_var) \
11082     (((_var) & HTT_BW_MGR_STATS_MAC_ID_M) >> \
11083      HTT_BW_MGR_STATS_MAC_ID_S)
11084 
11085 #define HTT_BW_MGR_STATS_MAC_ID_SET(_var, _val) \
11086     do { \
11087         HTT_CHECK_SET_VAL(HTT_BW_MGR_STATS_MAC_ID, _val); \
11088         ((_var) |= ((_val) << HTT_BW_MGR_STATS_MAC_ID_S)); \
11089     } while (0)
11090 
11091 
11092 #define HTT_BW_MGR_STATS_PRI20_IDX_GET(_var) \
11093     (((_var) & HTT_BW_MGR_STATS_PRI20_IDX_M) >> \
11094      HTT_BW_MGR_STATS_PRI20_IDX_S)
11095 
11096 #define HTT_BW_MGR_STATS_PRI20_IDX_SET(_var, _val) \
11097     do { \
11098         HTT_CHECK_SET_VAL(HTT_BW_MGR_STATS_PRI20_IDX, _val); \
11099         ((_var) |= ((_val) << HTT_BW_MGR_STATS_PRI20_IDX_S)); \
11100     } while (0)
11101 
11102 
11103 #define HTT_BW_MGR_STATS_PRI20_FREQ_GET(_var) \
11104     (((_var) & HTT_BW_MGR_STATS_PRI20_FREQ_M) >> \
11105      HTT_BW_MGR_STATS_PRI20_FREQ_S)
11106 
11107 #define HTT_BW_MGR_STATS_PRI20_FREQ_SET(_var, _val) \
11108     do { \
11109         HTT_CHECK_SET_VAL(HTT_BW_MGR_STATS_PRI20_FREQ, _val); \
11110         ((_var) |= ((_val) << HTT_BW_MGR_STATS_PRI20_FREQ_S)); \
11111     } while (0)
11112 
11113 
11114 #define HTT_BW_MGR_STATS_CENTER_FREQ1_GET(_var) \
11115     (((_var) & HTT_BW_MGR_STATS_CENTER_FREQ1_M) >> \
11116      HTT_BW_MGR_STATS_CENTER_FREQ1_S)
11117 
11118 #define HTT_BW_MGR_STATS_CENTER_FREQ1_SET(_var, _val) \
11119     do { \
11120         HTT_CHECK_SET_VAL(HTT_BW_MGR_STATS_CENTER_FREQ1, _val); \
11121         ((_var) |= ((_val) << HTT_BW_MGR_STATS_CENTER_FREQ1_S)); \
11122     } while (0)
11123 
11124 
11125 #define HTT_BW_MGR_STATS_CENTER_FREQ2_GET(_var) \
11126     (((_var) & HTT_BW_MGR_STATS_CENTER_FREQ2_M) >> \
11127      HTT_BW_MGR_STATS_CENTER_FREQ2_S)
11128 
11129 #define HTT_BW_MGR_STATS_CENTER_FREQ2_SET(_var, _val) \
11130     do { \
11131         HTT_CHECK_SET_VAL(HTT_BW_MGR_STATS_CENTER_FREQ2, _val); \
11132         ((_var) |= ((_val) << HTT_BW_MGR_STATS_CENTER_FREQ2_S)); \
11133     } while (0)
11134 
11135 
11136 #define HTT_BW_MGR_STATS_CHAN_PHY_MODE_GET(_var) \
11137     (((_var) & HTT_BW_MGR_STATS_CHAN_PHY_MODE_M) >> \
11138      HTT_BW_MGR_STATS_CHAN_PHY_MODE_S)
11139 
11140 #define HTT_BW_MGR_STATS_CHAN_PHY_MODE_SET(_var, _val) \
11141     do { \
11142         HTT_CHECK_SET_VAL(HTT_BW_MGR_STATS_CHAN_PHY_MODE, _val); \
11143         ((_var) |= ((_val) << HTT_BW_MGR_STATS_CHAN_PHY_MODE_S)); \
11144     } while (0)
11145 
11146 
11147 #define HTT_BW_MGR_STATS_STATIC_PATTERN_GET(_var) \
11148     (((_var) & HTT_BW_MGR_STATS_STATIC_PATTERN_M) >> \
11149      HTT_BW_MGR_STATS_STATIC_PATTERN_S)
11150 
11151 #define HTT_BW_MGR_STATS_STATIC_PATTERN_SET(_var, _val) \
11152     do { \
11153         HTT_CHECK_SET_VAL(HTT_BW_MGR_STATS_STATIC_PATTERN, _val); \
11154         ((_var) |= ((_val) << HTT_BW_MGR_STATS_STATIC_PATTERN_S)); \
11155     } while (0)
11156 
11157 
11158 typedef struct {
11159     htt_tlv_hdr_t tlv_hdr;
11160 
11161     /* BIT [ 7  :  0]  :- mac_id
11162      * BIT [ 15 :  8]  :- pri20_index
11163      * BIT [ 31 : 16]  :- pri20_freq in Mhz
11164      */
11165     A_UINT32 mac_id__pri20_idx__freq;
11166 
11167     /* BIT [ 15 :  0]  :- centre_freq1
11168      * BIT [ 31 : 16]  :- centre_freq2
11169      */
11170     A_UINT32 centre_freq1__freq2;
11171 
11172     /* BIT [ 7 :  0]  :- channel_phy_mode
11173      * BIT [ 23 : 8]  :- static_pattern
11174      */
11175     A_UINT32 phy_mode__static_pattern;
11176 } htt_stats_pdev_bw_mgr_stats_tlv;
11177 /* preserve old name alias for new name consistent with the tag name */
11178 typedef htt_stats_pdev_bw_mgr_stats_tlv htt_pdev_bw_mgr_stats_tlv;
11179 
11180 
11181 /* STATS_TYPE : HTT_DBG_EXT_STATS_PDEV_BW_MGR
11182  * TLV_TAGS:
11183  *      - HTT_STATS_PDEV_BW_MGR_STATS_TAG
11184  */
11185 /* NOTE:
11186  * This structure is for documentation, and cannot be safely used directly.
11187  * Instead, use the constituent TLV structures to fill/parse.
11188  */
11189 #ifdef ATH_TARGET
11190 typedef struct {
11191     htt_stats_pdev_bw_mgr_stats_tlv bw_mgr_tlv;
11192 } htt_pdev_bw_mgr_stats_t;
11193 #endif /* ATH_TARGET */
11194 
11195 
11196 /*============= start MLO UMAC SSR stats ============= { */
11197 
11198 typedef enum {
11199     HTT_MLO_UMAC_SSR_DBG_POINT_INVALID = 0,
11200     HTT_MLO_UMAC_SSR_DBG_POINT_PRE_RESET_DISABLE_RXDMA_PREFETCH,
11201     HTT_MLO_UMAC_SSR_DBG_POINT_PRE_RESET_PMACS_HWMLOS,
11202     HTT_MLO_UMAC_SSR_DBG_POINT_PRE_RESET_GLOBAL_WSI,
11203     HTT_MLO_UMAC_SSR_DBG_POINT_PRE_RESET_PMACS_DMAC,
11204     HTT_MLO_UMAC_SSR_DBG_POINT_PRE_RESET_TCL,
11205     HTT_MLO_UMAC_SSR_DBG_POINT_PRE_RESET_TQM,
11206     HTT_MLO_UMAC_SSR_DBG_POINT_PRE_RESET_WBM,
11207     HTT_MLO_UMAC_SSR_DBG_POINT_PRE_RESET_REO,
11208     HTT_MLO_UMAC_SSR_DBG_POINT_PRE_RESET_HOST,
11209     HTT_MLO_UMAC_SSR_DBG_POINT_RESET_PREREQUISITES,
11210     HTT_MLO_UMAC_SSR_DBG_POINT_RESET_PRE_RING_RESET,
11211     HTT_MLO_UMAC_SSR_DBG_POINT_RESET_APPLY_SOFT_RESET,
11212     HTT_MLO_UMAC_SSR_DBG_POINT_RESET_POST_RING_RESET,
11213     HTT_MLO_UMAC_SSR_DBG_POINT_RESET_FW_TQM_CMDQS,
11214     HTT_MLO_UMAC_SSR_DBG_POINT_POST_RESET_HOST,
11215     HTT_MLO_UMAC_SSR_DBG_POINT_POST_RESET_UMAC_INTERRUPTS,
11216     HTT_MLO_UMAC_SSR_DBG_POINT_POST_RESET_WBM,
11217     HTT_MLO_UMAC_SSR_DBG_POINT_POST_RESET_REO,
11218     HTT_MLO_UMAC_SSR_DBG_POINT_POST_RESET_TQM,
11219     HTT_MLO_UMAC_SSR_DBG_POINT_POST_RESET_PMACS_DMAC,
11220     HTT_MLO_UMAC_SSR_DBG_POINT_POST_RESET_TQM_SYNC_CMD,
11221     HTT_MLO_UMAC_SSR_DBG_POINT_POST_RESET_GLOBAL_WSI,
11222     HTT_MLO_UMAC_SSR_DBG_POINT_POST_RESET_PMACS_HWMLOS,
11223     HTT_MLO_UMAC_SSR_DBG_POINT_POST_RESET_ENABLE_RXDMA_PREFETCH,
11224     HTT_MLO_UMAC_SSR_DBG_POINT_POST_RESET_TCL,
11225     HTT_MLO_UMAC_SSR_DBG_POINT_POST_RESET_HOST_ENQ,
11226     HTT_MLO_UMAC_SSR_DBG_POINT_POST_RESET_VERIFY_UMAC_RECOVERED,
11227     /* The below debug point values are reserved for future expansion. */
11228     HTT_MLO_UMAC_SSR_DBG_POINT_RESERVED28,
11229     HTT_MLO_UMAC_SSR_DBG_POINT_RESERVED29,
11230     HTT_MLO_UMAC_SSR_DBG_POINT_RESERVED30,
11231     HTT_MLO_UMAC_SSR_DBG_POINT_RESERVED31,
11232     HTT_MLO_UMAC_SSR_DBG_POINT_RESERVED32,
11233     HTT_MLO_UMAC_SSR_DBG_POINT_RESERVED33,
11234     HTT_MLO_UMAC_SSR_DBG_POINT_RESERVED34,
11235     HTT_MLO_UMAC_SSR_DBG_POINT_RESERVED35,
11236     HTT_MLO_UMAC_SSR_DBG_POINT_RESERVED36,
11237     HTT_MLO_UMAC_SSR_DBG_POINT_RESERVED37,
11238     HTT_MLO_UMAC_SSR_DBG_POINT_RESERVED38,
11239     HTT_MLO_UMAC_SSR_DBG_POINT_RESERVED39,
11240     HTT_MLO_UMAC_SSR_DBG_POINT_RESERVED40,
11241     /*
11242      * Due to backwards compatibility requirements, no futher DBG_POINT values
11243      * can be added (but the above reserved values can be repurposed).
11244      */
11245     HTT_MLO_UMAC_SSR_DBG_POINT_MAX,
11246 } HTT_MLO_UMAC_SSR_DBG_POINTS;
11247 
11248 typedef enum {
11249     HTT_MLO_UMAC_RECOVERY_HANDSHAKE_INVALID = 0,
11250     HTT_MLO_UMAC_RECOVERY_HANDSHAKE_DO_PRE_RESET,
11251     HTT_MLO_UMAC_RECOVERY_HANDSHAKE_DO_POST_RESET_START,
11252     HTT_MLO_UMAC_RECOVERY_HANDSHAKE_DO_POST_RESET_COMPLETE,
11253     /* The below recovery handshake values are reserved for future expansion. */
11254     HTT_MLO_UMAC_RECOVERY_HANDSHAKE_RESERVED4,
11255     HTT_MLO_UMAC_RECOVERY_HANDSHAKE_RESERVED5,
11256     HTT_MLO_UMAC_RECOVERY_HANDSHAKE_RESERVED6,
11257     HTT_MLO_UMAC_RECOVERY_HANDSHAKE_RESERVED7,
11258     HTT_MLO_UMAC_RECOVERY_HANDSHAKE_RESERVED8,
11259     /*
11260      * Due to backwards compatibility requirements, no futher
11261      * RECOVERY_HANDSHAKE values can be added (but the above
11262      * reserved values can be repurposed).
11263      */
11264     HTT_MLO_UMAC_RECOVERY_HANDSHAKE_COUNT,
11265 } HTT_MLO_UMAC_RECOVERY_HANDSHAKES;
11266 
11267 typedef struct {
11268     htt_tlv_hdr_t tlv_hdr;
11269     A_UINT32 start_ms;
11270     A_UINT32 end_ms;
11271     A_UINT32 delta_ms;
11272     A_UINT32 reserved;
11273     A_UINT32 footprint; /* holds a HTT_MLO_UMAC_SSR_DBG_POINTS value */
11274     A_UINT32 tqm_hw_tstamp;
11275 } htt_stats_mlo_umac_ssr_dbg_tlv;
11276 /* preserve old name alias for new name consistent with the tag name */
11277 typedef htt_stats_mlo_umac_ssr_dbg_tlv htt_mlo_umac_ssr_dbg_tlv;
11278 
11279 typedef struct {
11280     A_UINT32 last_mlo_htt_handshake_delta_ms;
11281     A_UINT32 max_mlo_htt_handshake_delta_ms;
11282     union {
11283         A_UINT32 umac_recovery_done_mask;
11284         struct {
11285             A_UINT32 pre_reset_disable_rxdma_prefetch : 1,
11286                      pre_reset_pmacs_hwmlos : 1,
11287                      pre_reset_global_wsi : 1,
11288                      pre_reset_pmacs_dmac : 1,
11289                      pre_reset_tcl : 1,
11290                      pre_reset_tqm : 1,
11291                      pre_reset_wbm : 1,
11292                      pre_reset_reo : 1,
11293                      pre_reset_host : 1,
11294                      reset_prerequisites : 1,
11295                      reset_pre_ring_reset : 1,
11296                      reset_apply_soft_reset : 1,
11297                      reset_post_ring_reset : 1,
11298                      reset_fw_tqm_cmdqs : 1,
11299                      post_reset_host : 1,
11300                      post_reset_umac_interrupts : 1,
11301                      post_reset_wbm : 1,
11302                      post_reset_reo : 1,
11303                      post_reset_tqm : 1,
11304                      post_reset_pmacs_dmac : 1,
11305                      post_reset_tqm_sync_cmd : 1,
11306                      post_reset_global_wsi : 1,
11307                      post_reset_pmacs_hwmlos : 1,
11308                      post_reset_enable_rxdma_prefetch : 1,
11309                      post_reset_tcl : 1,
11310                      post_reset_host_enq : 1,
11311                      post_reset_verify_umac_recovered : 1,
11312                      reserved : 5;
11313         } done_mask;
11314     };
11315 } htt_mlo_umac_ssr_mlo_stats_t;
11316 
11317 typedef struct {
11318     htt_tlv_hdr_t tlv_hdr;
11319     htt_mlo_umac_ssr_mlo_stats_t mlo;
11320 } htt_stats_mlo_umac_ssr_mlo_tlv;
11321 /* preserve old name alias for new name consistent with the tag name */
11322 typedef htt_stats_mlo_umac_ssr_mlo_tlv htt_mlo_umac_ssr_mlo_stats_tlv;
11323 
11324 /* dword0 - b'0 - PRE_RESET_DISABLE_RXDMA_PREFETCH */
11325 #define HTT_UMAC_RECOVERY_DONE_PRE_RESET_DISABLE_RXDMA_PREFETCH_M 0x1
11326 #define HTT_UMAC_RECOVERY_DONE_PRE_RESET_DISABLE_RXDMA_PREFETCH_S 0
11327 #define HTT_UMAC_RECOVERY_DONE_PRE_RESET_DISABLE_RXDMA_PREFETCH_GET(word0) \
11328     (((word0) & HTT_UMAC_RECOVERY_DONE_PRE_RESET_DISABLE_RXDMA_PREFETCH_M) >> \
11329      HTT_UMAC_RECOVERY_DONE_PRE_RESET_DISABLE_RXDMA_PREFETCH_S)
11330 /* provide properly-named macro */
11331 #define HTT_STATS_MLO_UMAC_SSR_MLO_MLO_PRE_RESET_DISABLE_RXDMA_PREFETCH_GET(word) \
11332     HTT_UMAC_RECOVERY_DONE_PRE_RESET_DISABLE_RXDMA_PREFETCH_GET(word)
11333 #define HTT_UMAC_RECOVERY_DONE_PRE_RESET_DISABLE_RXDMA_PREFETCH_SET(word0, _val) \
11334     do { \
11335         HTT_CHECK_SET_VAL(HTT_UMAC_RECOVERY_DONE_PRE_RESET_DISABLE_RXDMA_PREFETCH, _val); \
11336         ((word0) |= ((_val) << HTT_UMAC_RECOVERY_DONE_PRE_RESET_DISABLE_RXDMA_PREFETCH_S));\
11337     } while (0)
11338 
11339 /* dword0 - b'1 - PRE_RESET_PMACS_HWMLOS */
11340 #define HTT_UMAC_RECOVERY_DONE_PRE_RESET_PMACS_HWMLOS_M 0x2
11341 #define HTT_UMAC_RECOVERY_DONE_PRE_RESET_PMACS_HWMLOS_S 1
11342 #define HTT_UMAC_RECOVERY_DONE_PRE_RESET_PMACS_HWMLOS_GET(word0) \
11343     (((word0) & HTT_UMAC_RECOVERY_DONE_PRE_RESET_PMACS_HWMLOS_M) >> \
11344      HTT_UMAC_RECOVERY_DONE_PRE_RESET_PMACS_HWMLOS_S)
11345 /* provide properly-named macro */
11346 #define HTT_STATS_MLO_UMAC_SSR_MLO_MLO_PRE_RESET_PMACS_HWMLOS_GET(word) \
11347     HTT_UMAC_RECOVERY_DONE_PRE_RESET_PMACS_HWMLOS_GET(word)
11348 #define HTT_UMAC_RECOVERY_DONE_PRE_RESET_PMACS_HWMLOS_SET(word0, _val) \
11349     do { \
11350         HTT_CHECK_SET_VAL(HTT_UMAC_RECOVERY_DONE_PRE_RESET_PMACS_HWMLOS, _val); \
11351         ((word0) |= ((_val) << HTT_UMAC_RECOVERY_DONE_PRE_RESET_PMACS_HWMLOS_S));\
11352     } while (0)
11353 
11354 /* dword0 - b'2 - PRE_RESET_GLOBAL_WSI */
11355 #define HTT_UMAC_RECOVERY_DONE_PRE_RESET_GLOBAL_WSI_M 0x4
11356 #define HTT_UMAC_RECOVERY_DONE_PRE_RESET_GLOBAL_WSI_S 2
11357 #define HTT_UMAC_RECOVERY_DONE_PRE_RESET_GLOBAL_WSI_GET(word0) \
11358     (((word0) & HTT_UMAC_RECOVERY_DONE_PRE_RESET_GLOBAL_WSI_M) >> \
11359      HTT_UMAC_RECOVERY_DONE_PRE_RESET_GLOBAL_WSI_S)
11360 /* provide properly-named macro */
11361 #define HTT_STATS_MLO_UMAC_SSR_MLO_MLO_PRE_RESET_GLOBAL_WSI_GET(word) \
11362     HTT_UMAC_RECOVERY_DONE_PRE_RESET_GLOBAL_WSI_GET(word)
11363 #define HTT_UMAC_RECOVERY_DONE_PRE_RESET_GLOBAL_WSI_SET(word0, _val) \
11364     do { \
11365         HTT_CHECK_SET_VAL(HTT_UMAC_RECOVERY_DONE_PRE_RESET_GLOBAL_WSI, _val); \
11366         ((word0) |= ((_val) << HTT_UMAC_RECOVERY_DONE_PRE_RESET_GLOBAL_WSI_S));\
11367     } while (0)
11368 
11369 /* dword0 - b'3 - PRE_RESET_PMACS_DMAC */
11370 #define HTT_UMAC_RECOVERY_DONE_PRE_RESET_PMACS_DMAC_M 0x8
11371 #define HTT_UMAC_RECOVERY_DONE_PRE_RESET_PMACS_DMAC_S 3
11372 #define HTT_UMAC_RECOVERY_DONE_PRE_RESET_PMACS_DMAC_GET(word0) \
11373     (((word0) & HTT_UMAC_RECOVERY_DONE_PRE_RESET_PMACS_DMAC_M) >> \
11374      HTT_UMAC_RECOVERY_DONE_PRE_RESET_PMACS_DMAC_S)
11375 /* provide properly-named macro */
11376 #define HTT_STATS_MLO_UMAC_SSR_MLO_MLO_PRE_RESET_PMACS_DMAC_GET(word) \
11377     HTT_UMAC_RECOVERY_DONE_PRE_RESET_PMACS_DMAC_GET(word)
11378 #define HTT_UMAC_RECOVERY_DONE_PRE_RESET_PMACS_DMAC_SET(word0, _val) \
11379     do { \
11380         HTT_CHECK_SET_VAL(HTT_UMAC_RECOVERY_DONE_PRE_RESET_PMACS_DMAC, _val); \
11381         ((word0) |= ((_val) << HTT_UMAC_RECOVERY_DONE_PRE_RESET_PMACS_DMAC_S));\
11382     } while (0)
11383 
11384 /* dword0 - b'4 - PRE_RESET_TCL */
11385 #define HTT_UMAC_RECOVERY_DONE_PRE_RESET_TCL_M 0x10
11386 #define HTT_UMAC_RECOVERY_DONE_PRE_RESET_TCL_S 4
11387 #define HTT_UMAC_RECOVERY_DONE_PRE_RESET_TCL_GET(word0) \
11388     (((word0) & HTT_UMAC_RECOVERY_DONE_PRE_RESET_TCL_M) >> \
11389      HTT_UMAC_RECOVERY_DONE_PRE_RESET_TCL_S)
11390 /* provide properly-named macro */
11391 #define HTT_STATS_MLO_UMAC_SSR_MLO_MLO_PRE_RESET_TCL_GET(word) \
11392     HTT_UMAC_RECOVERY_DONE_PRE_RESET_TCL_GET(word)
11393 #define HTT_UMAC_RECOVERY_DONE_PRE_RESET_TCL_SET(word0, _val) \
11394     do { \
11395         HTT_CHECK_SET_VAL(HTT_UMAC_RECOVERY_DONE_PRE_RESET_TCL, _val); \
11396         ((word0) |= ((_val) << HTT_UMAC_RECOVERY_DONE_PRE_RESET_TCL_S));\
11397     } while (0)
11398 
11399 /* dword0 - b'5 - PRE_RESET_TQM */
11400 #define HTT_UMAC_RECOVERY_DONE_PRE_RESET_TQM_M 0x20
11401 #define HTT_UMAC_RECOVERY_DONE_PRE_RESET_TQM_S 5
11402 #define HTT_UMAC_RECOVERY_DONE_PRE_RESET_TQM_GET(word0) \
11403     (((word0) & HTT_UMAC_RECOVERY_DONE_PRE_RESET_TQM_M) >> \
11404      HTT_UMAC_RECOVERY_DONE_PRE_RESET_TQM_S)
11405 /* provide properly-named macro */
11406 #define HTT_STATS_MLO_UMAC_SSR_MLO_MLO_PRE_RESET_TQM_GET(word) \
11407     HTT_UMAC_RECOVERY_DONE_PRE_RESET_TQM_GET(word)
11408 #define HTT_UMAC_RECOVERY_DONE_PRE_RESET_TQM_SET(word0, _val) \
11409     do { \
11410         HTT_CHECK_SET_VAL(HTT_UMAC_RECOVERY_DONE_PRE_RESET_TQM, _val); \
11411         ((word0) |= ((_val) << HTT_UMAC_RECOVERY_DONE_PRE_RESET_TQM_S));\
11412     } while (0)
11413 
11414 /* dword0 - b'6 - PRE_RESET_WBM */
11415 #define HTT_UMAC_RECOVERY_DONE_PRE_RESET_WBM_M 0x40
11416 #define HTT_UMAC_RECOVERY_DONE_PRE_RESET_WBM_S 6
11417 #define HTT_UMAC_RECOVERY_DONE_PRE_RESET_WBM_GET(word0) \
11418     (((word0) & HTT_UMAC_RECOVERY_DONE_PRE_RESET_WBM_M) >> \
11419      HTT_UMAC_RECOVERY_DONE_PRE_RESET_WBM_S)
11420 /* provide properly-named macro */
11421 #define HTT_STATS_MLO_UMAC_SSR_MLO_MLO_PRE_RESET_WBM_GET(word) \
11422     HTT_UMAC_RECOVERY_DONE_PRE_RESET_WBM_GET(word)
11423 #define HTT_UMAC_RECOVERY_DONE_PRE_RESET_WBM_SET(word0, _val) \
11424     do { \
11425         HTT_CHECK_SET_VAL(HTT_UMAC_RECOVERY_DONE_PRE_RESET_WBM, _val); \
11426         ((word0) |= ((_val) << HTT_UMAC_RECOVERY_DONE_PRE_RESET_WBM_S));\
11427     } while (0)
11428 
11429 /* dword0 - b'7 - PRE_RESET_REO */
11430 #define HTT_UMAC_RECOVERY_DONE_PRE_RESET_REO_M 0x80
11431 #define HTT_UMAC_RECOVERY_DONE_PRE_RESET_REO_S 7
11432 #define HTT_UMAC_RECOVERY_DONE_PRE_RESET_REO_GET(word0) \
11433     (((word0) & HTT_UMAC_RECOVERY_DONE_PRE_RESET_REO_M) >> \
11434      HTT_UMAC_RECOVERY_DONE_PRE_RESET_REO_S)
11435 /* provide properly-named macro */
11436 #define HTT_STATS_MLO_UMAC_SSR_MLO_MLO_PRE_RESET_REO_GET(word) \
11437     HTT_UMAC_RECOVERY_DONE_PRE_RESET_REO_GET(word)
11438 #define HTT_UMAC_RECOVERY_DONE_PRE_RESET_REO_SET(word0, _val) \
11439     do { \
11440         HTT_CHECK_SET_VAL(HTT_UMAC_RECOVERY_DONE_PRE_RESET_REO, _val); \
11441         ((word0) |= ((_val) << HTT_UMAC_RECOVERY_DONE_PRE_RESET_REO_S));\
11442     } while (0)
11443 
11444 /* dword0 - b'8 - PRE_RESET_HOST */
11445 #define HTT_UMAC_RECOVERY_DONE_PRE_RESET_HOST_M 0x100
11446 #define HTT_UMAC_RECOVERY_DONE_PRE_RESET_HOST_S 8
11447 #define HTT_UMAC_RECOVERY_DONE_PRE_RESET_HOST_GET(word0) \
11448     (((word0) & HTT_UMAC_RECOVERY_DONE_PRE_RESET_HOST_M) >> \
11449      HTT_UMAC_RECOVERY_DONE_PRE_RESET_HOST_S)
11450 /* provide properly-named macro */
11451 #define HTT_STATS_MLO_UMAC_SSR_MLO_MLO_PRE_RESET_HOST_GET(word) \
11452     HTT_UMAC_RECOVERY_DONE_PRE_RESET_HOST_GET(word)
11453 #define HTT_UMAC_RECOVERY_DONE_PRE_RESET_HOST_SET(word0, _val) \
11454     do { \
11455         HTT_CHECK_SET_VAL(HTT_UMAC_RECOVERY_DONE_PRE_RESET_HOST, _val); \
11456         ((word0) |= ((_val) << HTT_UMAC_RECOVERY_DONE_PRE_RESET_HOST_S));\
11457     } while (0)
11458 
11459 /* dword0 - b'9 - RESET_PREREQUISITES */
11460 #define HTT_UMAC_RECOVERY_DONE_RESET_PREREQUISITES_M 0x200
11461 #define HTT_UMAC_RECOVERY_DONE_RESET_PREREQUISITES_S 9
11462 #define HTT_UMAC_RECOVERY_DONE_RESET_PREREQUISITES_GET(word0) \
11463     (((word0) & HTT_UMAC_RECOVERY_DONE_RESET_PREREQUISITES_M) >> \
11464      HTT_UMAC_RECOVERY_DONE_RESET_PREREQUISITES_S)
11465 /* provide properly-named macro */
11466 #define HTT_STATS_MLO_UMAC_SSR_MLO_MLO_RESET_PREREQUISITES_GET(word) \
11467     HTT_UMAC_RECOVERY_DONE_RESET_PREREQUISITES_GET(word)
11468 #define HTT_UMAC_RECOVERY_DONE_RESET_PREREQUISITES_SET(word0, _val) \
11469     do { \
11470         HTT_CHECK_SET_VAL(HTT_UMAC_RECOVERY_DONE_RESET_PREREQUISITES, _val); \
11471         ((word0) |= ((_val) << HTT_UMAC_RECOVERY_DONE_RESET_PREREQUISITES_S));\
11472     } while (0)
11473 
11474 /* dword0 - b'10 - RESET_PRE_RING_RESET */
11475 #define HTT_UMAC_RECOVERY_DONE_RESET_PRE_RING_RESET_M 0x400
11476 #define HTT_UMAC_RECOVERY_DONE_RESET_PRE_RING_RESET_S 10
11477 #define HTT_UMAC_RECOVERY_DONE_RESET_PRE_RING_RESET_GET(word0) \
11478     (((word0) & HTT_UMAC_RECOVERY_DONE_RESET_PRE_RING_RESET_M) >> \
11479      HTT_UMAC_RECOVERY_DONE_RESET_PRE_RING_RESET_S)
11480 /* provide properly-named macro */
11481 #define HTT_STATS_MLO_UMAC_SSR_MLO_MLO_RESET_PRE_RING_RESET_GET(word) \
11482     HTT_UMAC_RECOVERY_DONE_RESET_PRE_RING_RESET_GET(word)
11483 #define HTT_UMAC_RECOVERY_DONE_RESET_PRE_RING_RESET_SET(word0, _val) \
11484     do { \
11485         HTT_CHECK_SET_VAL(HTT_UMAC_RECOVERY_DONE_RESET_PRE_RING_RESET, _val); \
11486         ((word0) |= ((_val) << HTT_UMAC_RECOVERY_DONE_RESET_PRE_RING_RESET_S));\
11487     } while (0)
11488 
11489 /* dword0 - b'11 - RESET_APPLY_SOFT_RESET */
11490 #define HTT_UMAC_RECOVERY_DONE_RESET_APPLY_SOFT_RESET_M 0x800
11491 #define HTT_UMAC_RECOVERY_DONE_RESET_APPLY_SOFT_RESET_S 11
11492 #define HTT_UMAC_RECOVERY_DONE_RESET_APPLY_SOFT_RESET_GET(word0) \
11493     (((word0) & HTT_UMAC_RECOVERY_DONE_RESET_APPLY_SOFT_RESET_M) >> \
11494      HTT_UMAC_RECOVERY_DONE_RESET_APPLY_SOFT_RESET_S)
11495 /* provide properly-named macro */
11496 #define HTT_STATS_MLO_UMAC_SSR_MLO_MLO_RESET_APPLY_SOFT_RESET_GET(word) \
11497     HTT_UMAC_RECOVERY_DONE_RESET_APPLY_SOFT_RESET_GET(word)
11498 #define HTT_UMAC_RECOVERY_DONE_RESET_APPLY_SOFT_RESET_SET(word0, _val) \
11499     do { \
11500         HTT_CHECK_SET_VAL(HTT_UMAC_RECOVERY_DONE_RESET_APPLY_SOFT_RESET, _val); \
11501         ((word0) |= ((_val) << HTT_UMAC_RECOVERY_DONE_RESET_APPLY_SOFT_RESET_S));\
11502     } while (0)
11503 
11504 /* dword0 - b'12 - RESET_POST_RING_RESET */
11505 #define HTT_UMAC_RECOVERY_DONE_RESET_POST_RING_RESET_M 0x1000
11506 #define HTT_UMAC_RECOVERY_DONE_RESET_POST_RING_RESET_S 12
11507 #define HTT_UMAC_RECOVERY_DONE_RESET_POST_RING_RESET_GET(word0) \
11508     (((word0) & HTT_UMAC_RECOVERY_DONE_RESET_POST_RING_RESET_M) >> \
11509      HTT_UMAC_RECOVERY_DONE_RESET_POST_RING_RESET_S)
11510 /* provide properly-named macro */
11511 #define HTT_STATS_MLO_UMAC_SSR_MLO_MLO_RESET_POST_RING_RESET_GET(word) \
11512     HTT_UMAC_RECOVERY_DONE_RESET_POST_RING_RESET_GET(word)
11513 #define HTT_UMAC_RECOVERY_DONE_RESET_POST_RING_RESET_SET(word0, _val) \
11514     do { \
11515         HTT_CHECK_SET_VAL(HTT_UMAC_RECOVERY_DONE_RESET_POST_RING_RESET, _val); \
11516         ((word0) |= ((_val) << HTT_UMAC_RECOVERY_DONE_RESET_POST_RING_RESET_S));\
11517     } while (0)
11518 
11519 /* dword0 - b'13 - RESET_FW_TQM_CMDQS */
11520 #define HTT_UMAC_RECOVERY_DONE_RESET_FW_TQM_CMDQS_M 0x2000
11521 #define HTT_UMAC_RECOVERY_DONE_RESET_FW_TQM_CMDQS_S 13
11522 #define HTT_UMAC_RECOVERY_DONE_RESET_FW_TQM_CMDQS_GET(word0) \
11523     (((word0) & HTT_UMAC_RECOVERY_DONE_RESET_FW_TQM_CMDQS_M) >> \
11524      HTT_UMAC_RECOVERY_DONE_RESET_FW_TQM_CMDQS_S)
11525 /* provide properly-named macro */
11526 #define HTT_STATS_MLO_UMAC_SSR_MLO_MLO_RESET_FW_TQM_CMDQS_GET(word) \
11527     HTT_UMAC_RECOVERY_DONE_RESET_FW_TQM_CMDQS_GET(word)
11528 #define HTT_UMAC_RECOVERY_DONE_RESET_FW_TQM_CMDQS_SET(word0, _val) \
11529     do { \
11530         HTT_CHECK_SET_VAL(HTT_UMAC_RECOVERY_DONE_RESET_FW_TQM_CMDQS, _val); \
11531         ((word0) |= ((_val) << HTT_UMAC_RECOVERY_DONE_RESET_FW_TQM_CMDQS_S));\
11532     } while (0)
11533 
11534 /* dword0 - b'14 - POST_RESET_HOST */
11535 #define HTT_UMAC_RECOVERY_DONE_POST_RESET_HOST_M 0x4000
11536 #define HTT_UMAC_RECOVERY_DONE_POST_RESET_HOST_S 14
11537 #define HTT_UMAC_RECOVERY_DONE_POST_RESET_HOST_GET(word0) \
11538     (((word0) & HTT_UMAC_RECOVERY_DONE_POST_RESET_HOST_M) >> \
11539      HTT_UMAC_RECOVERY_DONE_POST_RESET_HOST_S)
11540 /* provide properly-named macro */
11541 #define HTT_STATS_MLO_UMAC_SSR_MLO_MLO_POST_RESET_HOST_GET(word) \
11542     HTT_UMAC_RECOVERY_DONE_POST_RESET_HOST_GET(word)
11543 #define HTT_UMAC_RECOVERY_DONE_POST_RESET_HOST_SET(word0, _val) \
11544     do { \
11545         HTT_CHECK_SET_VAL(HTT_UMAC_RECOVERY_DONE_POST_RESET_HOST, _val); \
11546         ((word0) |= ((_val) << HTT_UMAC_RECOVERY_DONE_POST_RESET_HOST_S));\
11547     } while (0)
11548 
11549 /* dword0 - b'15 - POST_RESET_UMAC_INTERRUPTS */
11550 #define HTT_UMAC_RECOVERY_DONE_POST_RESET_UMAC_INTERRUPTS_M 0x8000
11551 #define HTT_UMAC_RECOVERY_DONE_POST_RESET_UMAC_INTERRUPTS_S 15
11552 #define HTT_UMAC_RECOVERY_DONE_POST_RESET_UMAC_INTERRUPTS_GET(word0) \
11553     (((word0) & HTT_UMAC_RECOVERY_DONE_POST_RESET_UMAC_INTERRUPTS_M) >> \
11554      HTT_UMAC_RECOVERY_DONE_POST_RESET_UMAC_INTERRUPTS_S)
11555 /* provide properly-named macro */
11556 #define HTT_STATS_MLO_UMAC_SSR_MLO_MLO_POST_RESET_UMAC_INTERRUPTS_GET(word) \
11557     HTT_UMAC_RECOVERY_DONE_POST_RESET_UMAC_INTERRUPTS_GET(word)
11558 #define HTT_UMAC_RECOVERY_DONE_POST_RESET_UMAC_INTERRUPTS_SET(word0, _val) \
11559     do { \
11560         HTT_CHECK_SET_VAL(HTT_UMAC_RECOVERY_DONE_POST_RESET_UMAC_INTERRUPTS, _val); \
11561         ((word0) |= ((_val) << HTT_UMAC_RECOVERY_DONE_POST_RESET_UMAC_INTERRUPTS_S));\
11562     } while (0)
11563 
11564 /* dword0 - b'16 - POST_RESET_WBM */
11565 #define HTT_UMAC_RECOVERY_DONE_POST_RESET_WBM_M 0x10000
11566 #define HTT_UMAC_RECOVERY_DONE_POST_RESET_WBM_S 16
11567 #define HTT_UMAC_RECOVERY_DONE_POST_RESET_WBM_GET(word0) \
11568     (((word0) & HTT_UMAC_RECOVERY_DONE_POST_RESET_WBM_M) >> \
11569      HTT_UMAC_RECOVERY_DONE_POST_RESET_WBM_S)
11570 /* provide properly-named macro */
11571 #define HTT_STATS_MLO_UMAC_SSR_MLO_MLO_POST_RESET_WBM_GET(word) \
11572     HTT_UMAC_RECOVERY_DONE_POST_RESET_WBM_GET(word)
11573 #define HTT_UMAC_RECOVERY_DONE_POST_RESET_WBM_SET(word0, _val) \
11574     do { \
11575         HTT_CHECK_SET_VAL(HTT_UMAC_RECOVERY_DONE_POST_RESET_WBM, _val); \
11576         ((word0) |= ((_val) << HTT_UMAC_RECOVERY_DONE_POST_RESET_WBM_S));\
11577     } while (0)
11578 
11579 /* dword0 - b'17 - POST_RESET_REO */
11580 #define HTT_UMAC_RECOVERY_DONE_POST_RESET_REO_M 0x20000
11581 #define HTT_UMAC_RECOVERY_DONE_POST_RESET_REO_S 17
11582 #define HTT_UMAC_RECOVERY_DONE_POST_RESET_REO_GET(word0) \
11583     (((word0) & HTT_UMAC_RECOVERY_DONE_POST_RESET_REO_M) >> \
11584      HTT_UMAC_RECOVERY_DONE_POST_RESET_REO_S)
11585 /* provide properly-named macro */
11586 #define HTT_STATS_MLO_UMAC_SSR_MLO_MLO_POST_RESET_REO_GET(word) \
11587     HTT_UMAC_RECOVERY_DONE_POST_RESET_REO_GET(word)
11588 #define HTT_UMAC_RECOVERY_DONE_POST_RESET_REO_SET(word0, _val) \
11589     do { \
11590         HTT_CHECK_SET_VAL(HTT_UMAC_RECOVERY_DONE_POST_RESET_REO, _val); \
11591         ((word0) |= ((_val) << HTT_UMAC_RECOVERY_DONE_POST_RESET_REO_S));\
11592     } while (0)
11593 
11594 /* dword0 - b'18 - POST_RESET_TQM */
11595 #define HTT_UMAC_RECOVERY_DONE_POST_RESET_TQM_M 0x40000
11596 #define HTT_UMAC_RECOVERY_DONE_POST_RESET_TQM_S 18
11597 #define HTT_UMAC_RECOVERY_DONE_POST_RESET_TQM_GET(word0) \
11598     (((word0) & HTT_UMAC_RECOVERY_DONE_POST_RESET_TQM_M) >> \
11599      HTT_UMAC_RECOVERY_DONE_POST_RESET_TQM_S)
11600 /* provide properly-named macro */
11601 #define HTT_STATS_MLO_UMAC_SSR_MLO_MLO_POST_RESET_TQM_GET(word) \
11602     HTT_UMAC_RECOVERY_DONE_POST_RESET_TQM_GET(word)
11603 #define HTT_UMAC_RECOVERY_DONE_POST_RESET_TQM_SET(word0, _val) \
11604     do { \
11605         HTT_CHECK_SET_VAL(HTT_UMAC_RECOVERY_DONE_POST_RESET_TQM, _val); \
11606         ((word0) |= ((_val) << HTT_UMAC_RECOVERY_DONE_POST_RESET_TQM_S));\
11607     } while (0)
11608 
11609 /* dword0 - b'19 - POST_RESET_PMACS_DMAC */
11610 #define HTT_UMAC_RECOVERY_DONE_POST_RESET_PMACS_DMAC_M 0x80000
11611 #define HTT_UMAC_RECOVERY_DONE_POST_RESET_PMACS_DMAC_S 19
11612 #define HTT_UMAC_RECOVERY_DONE_POST_RESET_PMACS_DMAC_GET(word0) \
11613     (((word0) & HTT_UMAC_RECOVERY_DONE_POST_RESET_PMACS_DMAC_M) >> \
11614      HTT_UMAC_RECOVERY_DONE_POST_RESET_PMACS_DMAC_S)
11615 /* provide properly-named macro */
11616 #define HTT_STATS_MLO_UMAC_SSR_MLO_MLO_POST_RESET_PMACS_DMAC_GET(word) \
11617     HTT_UMAC_RECOVERY_DONE_POST_RESET_PMACS_DMAC_GET(word)
11618 #define HTT_UMAC_RECOVERY_DONE_POST_RESET_PMACS_DMAC_SET(word0, _val) \
11619     do { \
11620         HTT_CHECK_SET_VAL(HTT_UMAC_RECOVERY_DONE_POST_RESET_PMACS_DMAC, _val); \
11621         ((word0) |= ((_val) << HTT_UMAC_RECOVERY_DONE_POST_RESET_PMACS_DMAC_S));\
11622     } while (0)
11623 
11624 /* dword0 - b'20 - POST_RESET_TQM_SYNC_CMD */
11625 #define HTT_UMAC_RECOVERY_DONE_POST_RESET_TQM_SYNC_CMD_M 0x100000
11626 #define HTT_UMAC_RECOVERY_DONE_POST_RESET_TQM_SYNC_CMD_S 20
11627 #define HTT_UMAC_RECOVERY_DONE_POST_RESET_TQM_SYNC_CMD_GET(word0) \
11628     (((word0) & HTT_UMAC_RECOVERY_DONE_POST_RESET_TQM_SYNC_CMD_M) >> \
11629      HTT_UMAC_RECOVERY_DONE_POST_RESET_TQM_SYNC_CMD_S)
11630 /* provide properly-named macro */
11631 #define HTT_STATS_MLO_UMAC_SSR_MLO_MLO_POST_RESET_TQM_SYNC_CMD_GET(word) \
11632     HTT_UMAC_RECOVERY_DONE_POST_RESET_TQM_SYNC_CMD_GET(word)
11633 #define HTT_UMAC_RECOVERY_DONE_POST_RESET_TQM_SYNC_CMD_SET(word0, _val) \
11634     do { \
11635         HTT_CHECK_SET_VAL(HTT_UMAC_RECOVERY_DONE_POST_RESET_TQM_SYNC_CMD, _val); \
11636         ((word0) |= ((_val) << HTT_UMAC_RECOVERY_DONE_POST_RESET_TQM_SYNC_CMD_S));\
11637     } while (0)
11638 
11639 /* dword0 - b'21 - POST_RESET_GLOBAL_WSI */
11640 #define HTT_UMAC_RECOVERY_DONE_POST_RESET_GLOBAL_WSI_M 0x200000
11641 #define HTT_UMAC_RECOVERY_DONE_POST_RESET_GLOBAL_WSI_S 21
11642 #define HTT_UMAC_RECOVERY_DONE_POST_RESET_GLOBAL_WSI_GET(word0) \
11643     (((word0) & HTT_UMAC_RECOVERY_DONE_POST_RESET_GLOBAL_WSI_M) >> \
11644      HTT_UMAC_RECOVERY_DONE_POST_RESET_GLOBAL_WSI_S)
11645 /* provide properly-named macro */
11646 #define HTT_STATS_MLO_UMAC_SSR_MLO_MLO_POST_RESET_GLOBAL_WSI_GET(word) \
11647     HTT_UMAC_RECOVERY_DONE_POST_RESET_GLOBAL_WSI_GET(word)
11648 #define HTT_UMAC_RECOVERY_DONE_POST_RESET_GLOBAL_WSI_SET(word0, _val) \
11649     do { \
11650         HTT_CHECK_SET_VAL(HTT_UMAC_RECOVERY_DONE_POST_RESET_GLOBAL_WSI, _val); \
11651         ((word0) |= ((_val) << HTT_UMAC_RECOVERY_DONE_POST_RESET_GLOBAL_WSI_S));\
11652     } while (0)
11653 
11654 /* dword0 - b'22 - POST_RESET_PMACS_HWMLOS */
11655 #define HTT_UMAC_RECOVERY_DONE_POST_RESET_PMACS_HWMLOS_M 0x400000
11656 #define HTT_UMAC_RECOVERY_DONE_POST_RESET_PMACS_HWMLOS_S 22
11657 #define HTT_UMAC_RECOVERY_DONE_POST_RESET_PMACS_HWMLOS_GET(word0) \
11658     (((word0) & HTT_UMAC_RECOVERY_DONE_POST_RESET_PMACS_HWMLOS_M) >> \
11659      HTT_UMAC_RECOVERY_DONE_POST_RESET_PMACS_HWMLOS_S)
11660 /* provide properly-named macro */
11661 #define HTT_STATS_MLO_UMAC_SSR_MLO_MLO_POST_RESET_PMACS_HWMLOS_GET(word) \
11662     HTT_UMAC_RECOVERY_DONE_POST_RESET_PMACS_HWMLOS_GET(word)
11663 #define HTT_UMAC_RECOVERY_DONE_POST_RESET_PMACS_HWMLOS_SET(word0, _val) \
11664     do { \
11665         HTT_CHECK_SET_VAL(HTT_UMAC_RECOVERY_DONE_POST_RESET_PMACS_HWMLOS, _val); \
11666         ((word0) |= ((_val) << HTT_UMAC_RECOVERY_DONE_POST_RESET_PMACS_HWMLOS_S));\
11667     } while (0)
11668 
11669 /* dword0 - b'23 - POST_RESET_ENABLE_RXDMA_PREFETCH */
11670 #define HTT_UMAC_RECOVERY_DONE_POST_RESET_ENABLE_RXDMA_PREFETCH_M 0x800000
11671 #define HTT_UMAC_RECOVERY_DONE_POST_RESET_ENABLE_RXDMA_PREFETCH_S 23
11672 #define HTT_UMAC_RECOVERY_DONE_POST_RESET_ENABLE_RXDMA_PREFETCH_GET(word0) \
11673     (((word0) & HTT_UMAC_RECOVERY_DONE_POST_RESET_ENABLE_RXDMA_PREFETCH_M) >> \
11674      HTT_UMAC_RECOVERY_DONE_POST_RESET_ENABLE_RXDMA_PREFETCH_S)
11675 /* provide properly-named macro */
11676 #define HTT_STATS_MLO_UMAC_SSR_MLO_MLO_POST_RESET_ENABLE_RXDMA_PREFETCH_GET(word) \
11677     HTT_UMAC_RECOVERY_DONE_POST_RESET_ENABLE_RXDMA_PREFETCH_GET(word)
11678 #define HTT_UMAC_RECOVERY_DONE_POST_RESET_ENABLE_RXDMA_PREFETCH_SET(word0, _val) \
11679     do { \
11680         HTT_CHECK_SET_VAL(HTT_UMAC_RECOVERY_DONE_POST_RESET_ENABLE_RXDMA_PREFETCH, _val); \
11681         ((word0) |= ((_val) << HTT_UMAC_RECOVERY_DONE_POST_RESET_ENABLE_RXDMA_PREFETCH_S));\
11682     } while (0)
11683 
11684 /* dword0 - b'24 - POST_RESET_TCL */
11685 #define HTT_UMAC_RECOVERY_DONE_POST_RESET_TCL_M 0x1000000
11686 #define HTT_UMAC_RECOVERY_DONE_POST_RESET_TCL_S 24
11687 #define HTT_UMAC_RECOVERY_DONE_POST_RESET_TCL_GET(word0) \
11688     (((word0) & HTT_UMAC_RECOVERY_DONE_POST_RESET_TCL_M) >> \
11689      HTT_UMAC_RECOVERY_DONE_POST_RESET_TCL_S)
11690 /* provide properly-named macro */
11691 #define HTT_STATS_MLO_UMAC_SSR_MLO_MLO_POST_RESET_TCL_GET(word) \
11692     HTT_UMAC_RECOVERY_DONE_POST_RESET_TCL_GET(word)
11693 #define HTT_UMAC_RECOVERY_DONE_POST_RESET_TCL_SET(word0, _val) \
11694     do { \
11695         HTT_CHECK_SET_VAL(HTT_UMAC_RECOVERY_DONE_POST_RESET_TCL, _val); \
11696         ((word0) |= ((_val) << HTT_UMAC_RECOVERY_DONE_POST_RESET_TCL_S));\
11697     } while (0)
11698 
11699 /* dword0 - b'25 - POST_RESET_HOST_ENQ */
11700 #define HTT_UMAC_RECOVERY_DONE_POST_RESET_HOST_ENQ_M 0x2000000
11701 #define HTT_UMAC_RECOVERY_DONE_POST_RESET_HOST_ENQ_S 25
11702 #define HTT_UMAC_RECOVERY_DONE_POST_RESET_HOST_ENQ_GET(word0) \
11703     (((word0) & HTT_UMAC_RECOVERY_DONE_POST_RESET_HOST_ENQ_M) >> \
11704      HTT_UMAC_RECOVERY_DONE_POST_RESET_HOST_ENQ_S)
11705 /* provide properly-named macro */
11706 #define HTT_STATS_MLO_UMAC_SSR_MLO_MLO_POST_RESET_HOST_ENQ_GET(word) \
11707     HTT_UMAC_RECOVERY_DONE_POST_RESET_HOST_ENQ_GET(word)
11708 #define HTT_UMAC_RECOVERY_DONE_POST_RESET_HOST_ENQ_SET(word0, _val) \
11709     do { \
11710         HTT_CHECK_SET_VAL(HTT_UMAC_RECOVERY_DONE_POST_RESET_HOST_ENQ, _val); \
11711         ((word0) |= ((_val) << HTT_UMAC_RECOVERY_DONE_POST_RESET_HOST_ENQ_S));\
11712     } while (0)
11713 
11714 /* dword0 - b'26 - POST_RESET_VERIFY_UMAC_RECOVERED */
11715 #define HTT_UMAC_RECOVERY_DONE_POST_RESET_VERIFY_UMAC_RECOVERED_M 0x4000000
11716 #define HTT_UMAC_RECOVERY_DONE_POST_RESET_VERIFY_UMAC_RECOVERED_S 26
11717 #define HTT_UMAC_RECOVERY_DONE_POST_RESET_VERIFY_UMAC_RECOVERED_GET(word0) \
11718     (((word0) & HTT_UMAC_RECOVERY_DONE_POST_RESET_VERIFY_UMAC_RECOVERED_M) >> \
11719      HTT_UMAC_RECOVERY_DONE_POST_RESET_VERIFY_UMAC_RECOVERED_S)
11720 /* provide properly-named macro */
11721 #define HTT_STATS_MLO_UMAC_SSR_MLO_MLO_POST_RESET_VERIFY_UMAC_RECOVERED_GET(word) \
11722     HTT_UMAC_RECOVERY_DONE_POST_RESET_VERIFY_UMAC_RECOVERED_GET(word)
11723 #define HTT_UMAC_RECOVERY_DONE_POST_RESET_VERIFY_UMAC_RECOVERED_SET(word0, _val) \
11724     do { \
11725         HTT_CHECK_SET_VAL(HTT_UMAC_RECOVERY_DONE_POST_RESET_VERIFY_UMAC_RECOVERED, _val); \
11726         ((word0) |= ((_val) << HTT_UMAC_RECOVERY_DONE_POST_RESET_VERIFY_UMAC_RECOVERED_S));\
11727     } while (0)
11728 
11729 typedef struct {
11730     htt_tlv_hdr_t tlv_hdr;
11731     A_UINT32 last_trigger_request_ms;
11732     A_UINT32 last_start_ms;
11733     A_UINT32 last_start_disengage_umac_ms;
11734     A_UINT32 last_enter_ssr_platform_thread_ms;
11735     A_UINT32 last_exit_ssr_platform_thread_ms;
11736     A_UINT32 last_start_engage_umac_ms;
11737     A_UINT32 last_done_successful_ms;
11738     A_UINT32 post_reset_tqm_sync_cmd_completion_ms;
11739     A_UINT32 htt_sync_mlo_initiate_umac_recovery_ms;
11740     A_UINT32 htt_sync_do_pre_reset_ms;
11741     A_UINT32 htt_sync_do_post_reset_start_ms;
11742     A_UINT32 htt_sync_do_post_reset_complete_ms;
11743 } htt_stats_mlo_umac_ssr_kpi_tstmp_tlv;
11744 /* preserve old name alias for new name consistent with the tag name */
11745 typedef htt_stats_mlo_umac_ssr_kpi_tstmp_tlv
11746     htt_mlo_umac_ssr_kpi_tstamp_stats_tlv;
11747 
11748 typedef struct {
11749     htt_tlv_hdr_t tlv_hdr;
11750     A_UINT32 htt_sync_start_ms;
11751     A_UINT32 htt_sync_delta_ms;
11752     A_UINT32 post_t2h_start_ms;
11753     A_UINT32 post_t2h_delta_ms;
11754     A_UINT32 post_t2h_msg_read_shmem_ms;
11755     A_UINT32 post_t2h_msg_write_shmem_ms;
11756     A_UINT32 post_t2h_msg_send_msg_to_host_ms;
11757 } htt_stats_mlo_umac_ssr_handshake_tlv;
11758 /* preserve old name alias for new name consistent with the tag name */
11759 typedef htt_stats_mlo_umac_ssr_handshake_tlv
11760     htt_mlo_umac_htt_handshake_stats_tlv;
11761 
11762 #ifdef ATH_TARGET
11763 typedef struct {
11764     /*
11765      * Note that the host cannot use this struct directly, but instead needs
11766      * to use the TLV header within each element of each of the arrays in
11767      * this struct to determine where the subsequent item resides.
11768      */
11769     htt_stats_mlo_umac_ssr_dbg_tlv dbg_point[HTT_MLO_UMAC_SSR_DBG_POINT_MAX];
11770     htt_stats_mlo_umac_ssr_handshake_tlv htt_handshakes[HTT_MLO_UMAC_RECOVERY_HANDSHAKE_COUNT];
11771 } htt_mlo_umac_ssr_kpi_delta_stats_t;
11772 #endif /* ATH_TARGET */
11773 
11774 #ifdef ATH_TARGET
11775 typedef struct {
11776     /*
11777      * Since each item within htt_mlo_umac_ssr_kpi_delta_stats_t has its own
11778      * TLV header, and since no additional fields are added in this struct
11779      * beyond the htt_mlo_umac_ssr_kpi_delta_stats_t info, no additional
11780      * TLV header is needed.
11781      *
11782      * Note that the host cannot use this struct directly, but instead needs
11783      * to use the TLV header within each item inside the
11784      * htt_mlo_umac_ssr_kpi_delta_stats_t to determine where the subsequent
11785      * item resides.
11786      */
11787     htt_mlo_umac_ssr_kpi_delta_stats_t kpi_delta;
11788 } htt_mlo_umac_ssr_kpi_delta_stats_tlv;
11789 #endif /* ATH_TARGET */
11790 
11791 typedef struct {
11792     A_UINT32 last_e2e_delta_ms;
11793     A_UINT32 max_e2e_delta_ms;
11794     A_UINT32 per_handshake_max_allowed_delta_ms;
11795     /* Total done count */
11796     A_UINT32 total_success_runs_cnt;
11797     A_UINT32 umac_recovery_in_progress;
11798     /* Count of Disengaged in Pre reset */
11799     A_UINT32 umac_disengaged_count;
11800     /* Count of UMAC Soft/Control Reset */
11801     A_UINT32 umac_soft_reset_count;
11802     /* Count of Engaged in Post reset */
11803     A_UINT32 umac_engaged_count;
11804 } htt_mlo_umac_ssr_common_stats_t;
11805 
11806 typedef struct {
11807     htt_tlv_hdr_t tlv_hdr;
11808     htt_mlo_umac_ssr_common_stats_t cmn;
11809 } htt_stats_mlo_umac_ssr_cmn_tlv;
11810 /* preserve old name alias for new name consistent with the tag name */
11811 typedef htt_stats_mlo_umac_ssr_cmn_tlv htt_mlo_umac_ssr_common_stats_tlv;
11812 
11813 typedef struct {
11814     A_UINT32 trigger_requests_count;
11815     A_UINT32 trigger_count_for_umac_hang;
11816     A_UINT32 trigger_count_for_mlo_target_recovery_mode1;
11817     A_UINT32 trigger_count_for_unknown_signature;
11818     A_UINT32 total_trig_dropped;
11819     A_UINT32 trigger_count_for_unit_test_direct_trigger;
11820     A_UINT32 trigger_count_for_tx_de_wdg_dummy_frame_tout;
11821     A_UINT32 trigger_count_for_peer_delete_wdg_dummy_frame_tout;
11822     A_UINT32 trigger_count_for_reo_hang;
11823     A_UINT32 trigger_count_for_tqm_hang;
11824     A_UINT32 trigger_count_for_tcl_hang;
11825     A_UINT32 trigger_count_for_wbm_hang;
11826 } htt_mlo_umac_ssr_trigger_stats_t;
11827 
11828 typedef struct {
11829     htt_tlv_hdr_t tlv_hdr;
11830     htt_mlo_umac_ssr_trigger_stats_t trigger;
11831 } htt_stats_mlo_umac_ssr_trigger_tlv;
11832 /* preserve old name alias for new name consistent with the tag name */
11833 typedef htt_stats_mlo_umac_ssr_trigger_tlv htt_mlo_umac_ssr_trigger_stats_tlv;
11834 
11835 #ifdef ATH_TARGET
11836 typedef struct {
11837     /*
11838      * Note that the host cannot use this struct directly, but instead needs
11839      * to use the TLV header within each element to determine where the
11840      * subsequent element resides.
11841      */
11842     htt_mlo_umac_ssr_kpi_delta_stats_tlv kpi_delta_tlv;
11843     htt_stats_mlo_umac_ssr_kpi_tstmp_tlv kpi_tstamp_tlv;
11844 } htt_mlo_umac_ssr_kpi_stats_t;
11845 #endif /* ATH_TARGET */
11846 
11847 #ifdef ATH_TARGET
11848 typedef struct {
11849     /*
11850      * Since the embedded sub-struct within htt_mlo_umac_ssr_kpi_stats_tlv
11851      * has its own TLV header, and since no additional fields are added in
11852      * this struct beyond the htt_mlo_umac_ssr_kpi_stats_t info, no additional
11853      * TLV header is needed.
11854      *
11855      * Note that the host cannot use this struct directly, but instead needs
11856      * to use the TLV header within the htt_mlo_umac_ssr_kpi_stats_t sub-struct
11857      * to determine how much data is present for this struct.
11858      */
11859     htt_mlo_umac_ssr_kpi_stats_t kpi;
11860 } htt_mlo_umac_ssr_kpi_stats_tlv;
11861 #endif /* ATH_TARGET */
11862 
11863 #ifdef ATH_TARGET
11864 typedef struct {
11865     /*
11866      * Note that the host cannot use this struct directly, but instead needs
11867      * to use the TLV header within each element to determine where the
11868      * subsequent element resides.
11869      */
11870     htt_stats_mlo_umac_ssr_trigger_tlv trigger_tlv;
11871     htt_mlo_umac_ssr_kpi_stats_tlv     kpi_tlv;
11872     htt_stats_mlo_umac_ssr_mlo_tlv mlo_tlv;
11873     htt_stats_mlo_umac_ssr_cmn_tlv cmn_tlv;
11874 } htt_mlo_umac_ssr_stats_tlv;
11875 #endif /* ATH_TARGET */
11876 
11877 /*============= end MLO UMAC SSR stats ============= } */
11878 
11879 typedef struct {
11880     A_UINT32 total_done;
11881     A_UINT32 trigger_requests_count;
11882     A_UINT32 total_trig_dropped;
11883     A_UINT32 umac_disengaged_count;
11884     A_UINT32 umac_soft_reset_count;
11885     A_UINT32 umac_engaged_count;
11886     A_UINT32 last_trigger_request_ms;
11887     A_UINT32 last_start_ms;
11888     A_UINT32 last_start_disengage_umac_ms;
11889     A_UINT32 last_enter_ssr_platform_thread_ms;
11890     A_UINT32 last_exit_ssr_platform_thread_ms;
11891     A_UINT32 last_start_engage_umac_ms;
11892     A_UINT32 last_done_successful_ms;
11893     A_UINT32 last_e2e_delta_ms;
11894     A_UINT32 max_e2e_delta_ms;
11895     A_UINT32 trigger_count_for_umac_hang;
11896     A_UINT32 trigger_count_for_mlo_quick_ssr;
11897     A_UINT32 trigger_count_for_unknown_signature;
11898     A_UINT32 post_reset_tqm_sync_cmd_completion_ms;
11899     A_UINT32 htt_sync_mlo_initiate_umac_recovery_ms;
11900     A_UINT32 htt_sync_do_pre_reset_ms;
11901     A_UINT32 htt_sync_do_post_reset_start_ms;
11902     A_UINT32 htt_sync_do_post_reset_complete_ms;
11903 } htt_umac_ssr_stats_t;
11904 
11905 typedef struct {
11906     htt_tlv_hdr_t tlv_hdr;
11907     htt_umac_ssr_stats_t stats;
11908 } htt_stats_umac_ssr_tlv;
11909 /* preserve old name alias for new name consistent with the tag name */
11910 typedef htt_stats_umac_ssr_tlv htt_umac_ssr_stats_tlv;
11911 
11912 typedef struct {
11913     htt_tlv_hdr_t tlv_hdr;
11914     A_UINT32 svc_class_id;
11915     /* codel_drops:
11916      * How many times have MSDU queues belonging to this service class
11917      * dropped their head MSDU due to the queue's latency being above
11918      * the CoDel latency limit specified for the service class throughout
11919      * the full CoDel latency statistics collection window.
11920      */
11921     A_UINT32 codel_drops;
11922     /* codel_no_drops:
11923      * How many times have MSDU queues belonging to this service class
11924      * completed a CoDel latency statistics collection window and
11925      * concluded that no head MSDU drop is needed, due to the MSDU queue's
11926      * latency being under the limit specified for the service class at
11927      * some point during the window.
11928      */
11929     A_UINT32 codel_no_drops;
11930 } htt_stats_codel_svc_class_tlv;
11931 /* preserve old name alias for new name consistent with the tag name */
11932 typedef htt_stats_codel_svc_class_tlv htt_codel_svc_class_stats_tlv;
11933 
11934 #define HTT_CODEL_MSDUQ_STATS_TX_FLOW_NUM_M 0x0000FFFF
11935 #define HTT_CODEL_MSDUQ_STATS_TX_FLOW_NUM_S 0
11936 
11937 #define HTT_CODEL_MSDUQ_STATS_TX_FLOW_NUM_GET(_var) \
11938     (((_var) & HTT_CODEL_MSDUQ_STATS_TX_FLOW_NUM_M) >> \
11939      HTT_CODEL_MSDUQ_STATS_TX_FLOW_NUM_S)
11940 #define HTT_CODEL_MSDUQ_STATS_TX_FLOW_NUM_SET(_var, _val) \
11941     do { \
11942         HTT_CHECK_SET_VAL(HTT_CODEL_MSDUQ_STATS_TX_FLOW_NUM, _val); \
11943         ((_var) |= ((_val) << HTT_CODEL_MSDUQ_STATS_TX_FLOW_NUM_S)); \
11944     } while (0)
11945 
11946 #define HTT_CODEL_MSDUQ_STATS_SVC_CLASS_ID_M 0x00FF0000
11947 #define HTT_CODEL_MSDUQ_STATS_SVC_CLASS_ID_S 16
11948 
11949 #define HTT_CODEL_MSDUQ_STATS_SVC_CLASS_ID_GET(_var) \
11950     (((_var) & HTT_CODEL_MSDUQ_STATS_SVC_CLASS_ID_M) >> \
11951      HTT_CODEL_MSDUQ_STATS_SVC_CLASS_ID_S)
11952 #define HTT_CODEL_MSDUQ_STATS_SVC_CLASS_ID_SET(_var, _val) \
11953     do { \
11954         HTT_CHECK_SET_VAL(HTT_CODEL_MSDUQ_STATS_SVC_CLASS_ID, _val); \
11955         ((_var) |= ((_val) << HTT_CODEL_MSDUQ_STATS_SVC_CLASS_ID_S)); \
11956     } while (0)
11957 
11958 #define HTT_CODEL_MSDUQ_STATS_DROPS_M 0x0000FFFF
11959 #define HTT_CODEL_MSDUQ_STATS_DROPS_S 0
11960 
11961 #define HTT_CODEL_MSDUQ_STATS_DROPS_GET(_var) \
11962     (((_var) & HTT_CODEL_MSDUQ_STATS_DROPS_M) >> \
11963      HTT_CODEL_MSDUQ_STATS_DROPS_S)
11964 #define HTT_CODEL_MSDUQ_STATS_DROPS_SET(_var, _val) \
11965     do { \
11966         HTT_CHECK_SET_VAL(HTT_CODEL_MSDUQ_STATS_DROPS, _val); \
11967         ((_var) |= ((_val) << HTT_CODEL_MSDUQ_STATS_DROPS_S)); \
11968     } while (0)
11969 
11970 #define HTT_CODEL_MSDUQ_STATS_NO_DROPS_M 0xFFFF0000
11971 #define HTT_CODEL_MSDUQ_STATS_NO_DROPS_S 16
11972 
11973 #define HTT_CODEL_MSDUQ_STATS_NO_DROPS_GET(_var) \
11974     (((_var) & HTT_CODEL_MSDUQ_STATS_NO_DROPS_M) >> \
11975      HTT_CODEL_MSDUQ_STATS_NO_DROPS_S)
11976 #define HTT_CODEL_MSDUQ_STATS_NO_DROPS_SET(_var, _val) \
11977     do { \
11978         HTT_CHECK_SET_VAL(HTT_CODEL_MSDUQ_STATS_NO_DROPS, _val); \
11979         ((_var) |= ((_val) << HTT_CODEL_MSDUQ_STATS_NO_DROPS_S)); \
11980     } while (0)
11981 
11982 typedef struct {
11983     htt_tlv_hdr_t tlv_hdr;
11984     union {
11985         A_UINT32 id__word;
11986         struct {
11987             A_UINT32 tx_flow_num: 16, /* FW's MSDU queue ID */
11988                      svc_class_id: 8,
11989                      reserved: 8;
11990         };
11991     };
11992     union {
11993         A_UINT32 stats__word;
11994         struct {
11995             A_UINT32
11996                 codel_drops: 16,
11997                 codel_no_drops: 16;
11998         };
11999     };
12000 } htt_stats_codel_msduq_tlv;
12001 /* preserve old name alias for new name consistent with the tag name */
12002 typedef htt_stats_codel_msduq_tlv htt_codel_msduq_stats_tlv;
12003 
12004 /*===================== start MLO stats ====================*/
12005 
12006 typedef struct {
12007     htt_tlv_hdr_t tlv_hdr;
12008     A_UINT32 pref_link_num_sec_link_sched;
12009     A_UINT32 pref_link_num_pref_link_timeout;
12010     A_UINT32 pref_link_num_pref_link_sch_delay_ipc;
12011     A_UINT32 pref_link_num_pref_link_timeout_ipc;
12012 } htt_stats_mlo_sched_stats_tlv;
12013 /* preserve old name alias for new name consistent with the tag name */
12014 typedef htt_stats_mlo_sched_stats_tlv htt_mlo_sched_stats_tlv;
12015 
12016 /* STATS_TYPE : HTT_DBG_MLO_SCHED_STATS
12017  * TLV_TAGS:
12018  *   - HTT_STATS_MLO_SCHED_STATS_TAG
12019  */
12020 /* NOTE:
12021  * This structure is for documentation, and cannot be safely used directly.
12022  * Instead, use the constituent TLV structures to fill/parse.
12023  */
12024 #ifdef ATH_TARGET
12025 typedef struct _htt_mlo_sched_stats {
12026     htt_stats_mlo_sched_stats_tlv  preferred_link_stats;
12027 } htt_mlo_sched_stats_t;
12028 #endif /* ATH_TARGET */
12029 
12030 #define HTT_STATS_HWMLO_MAX_LINKS 6
12031 #define HTT_STATS_MLO_MAX_IPC_RINGS 7
12032 
12033 typedef struct {
12034     htt_tlv_hdr_t tlv_hdr;
12035     A_UINT32 mlo_ipc_ring_full_cnt[HTT_STATS_HWMLO_MAX_LINKS][HTT_STATS_MLO_MAX_IPC_RINGS];
12036 } htt_stats_pdev_mlo_ipc_stats_tlv;
12037 /* preserve old name alias for new name consistent with the tag name */
12038 typedef htt_stats_pdev_mlo_ipc_stats_tlv htt_pdev_mlo_ipc_stats_tlv;
12039 
12040 /* STATS_TYPE : HTT_DBG_MLO_IPC_STATS
12041  * TLV_TAGS:
12042  *   - HTT_STATS_PDEV_MLO_IPC_STATS_TAG
12043  */
12044 /* NOTE:
12045  * This structure is for documentation, and cannot be safely used directly.
12046  * Instead, use the constituent TLV structures to fill/parse.
12047  */
12048 #ifdef ATH_TARGET
12049 typedef struct _htt_mlo_ipc_stats {
12050     htt_stats_pdev_mlo_ipc_stats_tlv mlo_ipc_stats;
12051 } htt_pdev_mlo_ipc_stats_t;
12052 #endif /* ATH_TARGET */
12053 
12054 /*===================== end MLO stats ======================*/
12055 
12056 typedef enum {
12057     HTT_CTRL_PATH_STATS_CAL_TYPE_ADC                     = 0x0,
12058     HTT_CTRL_PATH_STATS_CAL_TYPE_DAC                     = 0x1,
12059     HTT_CTRL_PATH_STATS_CAL_TYPE_PROCESS                 = 0x2,
12060     HTT_CTRL_PATH_STATS_CAL_TYPE_NOISE_FLOOR             = 0x3,
12061     HTT_CTRL_PATH_STATS_CAL_TYPE_RXDCO                   = 0x4,
12062     HTT_CTRL_PATH_STATS_CAL_TYPE_COMB_TXLO_TXIQ_RXIQ     = 0x5,
12063     HTT_CTRL_PATH_STATS_CAL_TYPE_TXLO                    = 0x6,
12064     HTT_CTRL_PATH_STATS_CAL_TYPE_TXIQ                    = 0x7,
12065     HTT_CTRL_PATH_STATS_CAL_TYPE_RXIQ                    = 0x8,
12066     HTT_CTRL_PATH_STATS_CAL_TYPE_IM2                     = 0x9,
12067     HTT_CTRL_PATH_STATS_CAL_TYPE_LNA                     = 0xa,
12068     HTT_CTRL_PATH_STATS_CAL_TYPE_DPD_LP_RXDCO            = 0xb,
12069     HTT_CTRL_PATH_STATS_CAL_TYPE_DPD_LP_RXIQ             = 0xc,
12070     HTT_CTRL_PATH_STATS_CAL_TYPE_DPD_MEMORYLESS          = 0xd,
12071     HTT_CTRL_PATH_STATS_CAL_TYPE_DPD_MEMORY              = 0xe,
12072     HTT_CTRL_PATH_STATS_CAL_TYPE_IBF                     = 0xf,
12073     HTT_CTRL_PATH_STATS_CAL_TYPE_PDET_AND_PAL            = 0x10,
12074     HTT_CTRL_PATH_STATS_CAL_TYPE_RXDCO_IQ                = 0x11,
12075     HTT_CTRL_PATH_STATS_CAL_TYPE_RXDCO_DTIM              = 0x12,
12076     HTT_CTRL_PATH_STATS_CAL_TYPE_TPC_CAL                 = 0x13,
12077     HTT_CTRL_PATH_STATS_CAL_TYPE_DPD_TIMEREQ             = 0x14,
12078     HTT_CTRL_PATH_STATS_CAL_TYPE_BWFILTER                = 0x15,
12079     HTT_CTRL_PATH_STATS_CAL_TYPE_PEF                     = 0x16,
12080     HTT_CTRL_PATH_STATS_CAL_TYPE_PADROOP                 = 0x17,
12081     HTT_CTRL_PATH_STATS_CAL_TYPE_SELFCALTPC              = 0x18,
12082     HTT_CTRL_PATH_STATS_CAL_TYPE_RXSPUR                  = 0x19,
12083 
12084     /* add new cal types above this line */
12085     HTT_CTRL_PATH_STATS_CAL_TYPE_INVALID                 = 0xFF
12086 } htt_ctrl_path_stats_cal_type_ids;
12087 
12088 #define HTT_RETURN_STRING(str) case ((str)): return (A_UINT8 *)(# str);
12089 
12090 #define HTT_GET_BITS(_val, _index, _num_bits) \
12091     (((_val) >> (_index)) & ((1 << (_num_bits)) - 1))
12092 
12093 #define HTT_CTRL_PATH_CALIBRATION_STATS_CAL_TYPE_GET(cal_info) \
12094     HTT_GET_BITS(cal_info, 0, 8)
12095 
12096 /*
12097  * Used by some hosts to print names of cal type, based on
12098  * htt_ctrl_path_cal_type_ids values specified in
12099  * htt_ctrl_path_calibration_stats_struct in ctrl_path_stats event msg.
12100  */
12101 #ifdef HTT_CTRL_PATH_STATS_CAL_TYPE_STRINGS
htt_ctrl_path_cal_type_id_to_name(A_UINT32 cal_type_id)12102 static INLINE A_UINT8 *htt_ctrl_path_cal_type_id_to_name(A_UINT32 cal_type_id)
12103 {
12104     switch (cal_type_id)
12105     {
12106         HTT_RETURN_STRING(HTT_CTRL_PATH_STATS_CAL_TYPE_ADC);
12107         HTT_RETURN_STRING(HTT_CTRL_PATH_STATS_CAL_TYPE_DAC);
12108         HTT_RETURN_STRING(HTT_CTRL_PATH_STATS_CAL_TYPE_PROCESS);
12109         HTT_RETURN_STRING(HTT_CTRL_PATH_STATS_CAL_TYPE_NOISE_FLOOR);
12110         HTT_RETURN_STRING(HTT_CTRL_PATH_STATS_CAL_TYPE_RXDCO);
12111         HTT_RETURN_STRING(HTT_CTRL_PATH_STATS_CAL_TYPE_COMB_TXLO_TXIQ_RXIQ);
12112         HTT_RETURN_STRING(HTT_CTRL_PATH_STATS_CAL_TYPE_TXLO);
12113         HTT_RETURN_STRING(HTT_CTRL_PATH_STATS_CAL_TYPE_TXIQ);
12114         HTT_RETURN_STRING(HTT_CTRL_PATH_STATS_CAL_TYPE_RXIQ);
12115         HTT_RETURN_STRING(HTT_CTRL_PATH_STATS_CAL_TYPE_IM2);
12116         HTT_RETURN_STRING(HTT_CTRL_PATH_STATS_CAL_TYPE_LNA);
12117         HTT_RETURN_STRING(HTT_CTRL_PATH_STATS_CAL_TYPE_DPD_LP_RXDCO);
12118         HTT_RETURN_STRING(HTT_CTRL_PATH_STATS_CAL_TYPE_DPD_LP_RXIQ);
12119         HTT_RETURN_STRING(HTT_CTRL_PATH_STATS_CAL_TYPE_DPD_MEMORYLESS);
12120         HTT_RETURN_STRING(HTT_CTRL_PATH_STATS_CAL_TYPE_DPD_MEMORY);
12121         HTT_RETURN_STRING(HTT_CTRL_PATH_STATS_CAL_TYPE_IBF);
12122         HTT_RETURN_STRING(HTT_CTRL_PATH_STATS_CAL_TYPE_PDET_AND_PAL);
12123         HTT_RETURN_STRING(HTT_CTRL_PATH_STATS_CAL_TYPE_RXDCO_IQ);
12124         HTT_RETURN_STRING(HTT_CTRL_PATH_STATS_CAL_TYPE_RXDCO_DTIM);
12125         HTT_RETURN_STRING(HTT_CTRL_PATH_STATS_CAL_TYPE_TPC_CAL);
12126         HTT_RETURN_STRING(HTT_CTRL_PATH_STATS_CAL_TYPE_DPD_TIMEREQ);
12127         HTT_RETURN_STRING(HTT_CTRL_PATH_STATS_CAL_TYPE_BWFILTER);
12128         HTT_RETURN_STRING(HTT_CTRL_PATH_STATS_CAL_TYPE_PEF);
12129         HTT_RETURN_STRING(HTT_CTRL_PATH_STATS_CAL_TYPE_PADROOP);
12130         HTT_RETURN_STRING(HTT_CTRL_PATH_STATS_CAL_TYPE_SELFCALTPC);
12131         HTT_RETURN_STRING(HTT_CTRL_PATH_STATS_CAL_TYPE_RXSPUR);
12132     }
12133 
12134     return (A_UINT8 *) "HTT_CTRL_PATH_STATS_CAL_TYPE_UNKNOWN";
12135 }
12136 #endif /* HTT_CTRL_PATH_STATS_CAL_TYPE_STRINGS */
12137 
12138 /*===================== Start GTX stats ====================*/
12139 #define HTT_NUM_MCS_PER_NSS 16
12140 typedef struct {
12141     htt_tlv_hdr_t tlv_hdr;
12142     A_UINT32 gtx_enabled; /* shows whether Green Tx feature is enabled */
12143     A_INT32 mcs_tpc_min[HTT_NUM_MCS_PER_NSS]; /* shows current MCS's minimum TPC in 0.25dBm units */
12144     A_INT32 mcs_tpc_max[HTT_NUM_MCS_PER_NSS]; /* shows current MCS's maximum TPC in 0.25dBm units */
12145     A_UINT32 mcs_tpc_diff[HTT_NUM_MCS_PER_NSS]; /* shows current MCS's difference between maximum and minimum TPC in 0.25dB unit*/
12146 } htt_stats_gtx_tlv;
12147 /*===================== End GTX stats ====================*/
12148 
12149 #endif /* __HTT_STATS_H__ */
12150