xref: /wlan-driver/qcacld-3.0/core/mac/src/pe/lim/lim_utils.h (revision 5113495b16420b49004c444715d2daae2066e7dc) !
1 /*
2  * Copyright (c) 2012-2021 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  * This file lim_utils.h contains the utility definitions
22  * LIM uses.
23  * Author:        Chandra Modumudi
24  * Date:          02/13/02
25  * History:-
26  * Date           Modified by    Modification Information
27  * --------------------------------------------------------------------
28  */
29 #ifndef __LIM_UTILS_H
30 #define __LIM_UTILS_H
31 
32 #include "sir_api.h"
33 #include "sir_debug.h"
34 
35 #include "lim_types.h"
36 #include "lim_scan_result_utils.h"
37 #include "lim_timer_utils.h"
38 #include "lim_trace.h"
39 #include "include/wlan_vdev_mlme.h"
40 #include "wlan_mlme_vdev_mgr_interface.h"
41 #include "wlan_qct_sys.h"
42 #include <wlan_cp_stats_chipset_stats.h>
43 
44 #define LIM_QOS_AP_SUPPORTS_UAPSD         0x80
45 
46 #define LIM_IS_QOS_BSS(ie_struct)  \
47 		(ie_struct->WMMParams.present || ie_struct->WMMInfoAp.present)
48 
49 #define LIM_IS_UAPSD_BSS(ie_struct) \
50 	((ie_struct->WMMParams.present && \
51 	 (ie_struct->WMMParams.qosInfo & LIM_QOS_AP_SUPPORTS_UAPSD)) || \
52 	 (ie_struct->WMMInfoAp.present && ie_struct->WMMInfoAp.uapsd))
53 
54 #define LIM_AID_MASK                              0xC000
55 #define LIM_SPECTRUM_MANAGEMENT_BIT_MASK          0x0100
56 #define LIM_RRM_BIT_MASK                          0x1000
57 #define LIM_SHORT_PREAMBLE_BIT_MASK               0x0020
58 #define LIM_IMMEDIATE_BLOCK_ACK_MASK              0x8000
59 #define LIM_MAX_REASSOC_RETRY_LIMIT            2
60 
61 #define VHT_MCS_3x3_MASK    0x30
62 #define VHT_MCS_2x2_MASK    0x0C
63 
64 #define CENTER_FREQ_DIFF_160MHz 8
65 #define CENTER_FREQ_DIFF_80P80MHz 16
66 
67 #define CH_TO_CNTR_FREQ_DIFF_160MHz 14
68 #define CH_TO_CNTR_FREQ_DIFF_80MHz 6
69 
70 #define IS_VHT_NSS_1x1(__mcs_map)	((__mcs_map & 0xFFFC) == 0xFFFC)
71 
72 #define MGMT_RX_PACKETS_THRESHOLD 200
73 
74 /* 11B AP detection bit position */
75 #define OBSS_DETECTION_11B_AP_BIT_MASK       0x0001
76 /* 11B STA detection bit position */
77 #define OBSS_DETECTION_11B_STA_BIT_MASK      0x0002
78 /* 11G AP detection bit position */
79 #define OBSS_DETECTION_11G_AP_BIT_MASK       0x0004
80 /* 11A AP detection bit position */
81 #define OBSS_DETECTION_11A_BIT_MASK          0x0008
82 /* HT legacy detection bit position */
83 #define OBSS_DETECTION_HT_LEGACY_BIT_MASK    0x0010
84 /* HT mixed detection bit position */
85 #define OBSS_DETECTION_HT_MIXED_BIT_MASK     0x0020
86 /* HT 20mhz detection bit position */
87 #define OBSS_DETECTION_HT_20MHZ_BIT_MASK     0x0040
88 
89 /**
90  * OBSS detection period in ms, used by firmware to decide
91  * absent detection and also gap between same detection ind.
92  */
93 #define OBSS_DETECTION_PERIOD_MS             4000
94 
95 /* To check if 11B AP detection bit set */
96 #define OBSS_DETECTION_IS_11B_AP(_m) ((_m) & OBSS_DETECTION_11B_AP_BIT_MASK)
97 /* To check if 11B STA detection bit set */
98 #define OBSS_DETECTION_IS_11B_STA(_m) ((_m) & OBSS_DETECTION_11B_STA_BIT_MASK)
99 /* To check if 11G AP detection bit set */
100 #define OBSS_DETECTION_IS_11G_AP(_m) ((_m) & OBSS_DETECTION_11G_AP_BIT_MASK)
101 /* To check if 11A AP detection bit set */
102 #define OBSS_DETECTION_IS_11A(_m) ((_m) & OBSS_DETECTION_11A_BIT_MASK)
103 /* To check if HT legacy detection bit set */
104 #define OBSS_DETECTION_IS_HT_LEGACY(_m) \
105 	((_m) & OBSS_DETECTION_HT_LEGACY_BIT_MASK)
106 /* To check if HT mixed detection bit set */
107 #define OBSS_DETECTION_IS_HT_MIXED(_m) ((_m) & OBSS_DETECTION_HT_MIXED_BIT_MASK)
108 /* To check if HT 20mhz detection bit set */
109 #define OBSS_DETECTION_IS_HT_20MHZ(_m) ((_m) & OBSS_DETECTION_HT_20MHZ_BIT_MASK)
110 
111 #define MAX_WAIT_FOR_BCN_TX_COMPLETE_FOR_LL_SAP 500
112 #define MAX_WAIT_FOR_BCN_TX_COMPLETE 4000
113 
114 #define MAX_WAKELOCK_FOR_CSA         5000
115 #define MAX_WAIT_FOR_CH_WIDTH_UPDATE_COMPLETE 200
116 
117 #ifdef WLAN_FEATURE_11BE
118 #define MAX_NUM_PWR_LEVELS 16
119 #else
120 #define MAX_NUM_PWR_LEVELS 8
121 #endif
122 
123 /* SR is disabled if NON_SRG is disallowed and SRG INFO is not present */
124 #define SR_DISABLE NON_SRG_PD_SR_DISALLOWED & (~SRG_INFO_PRESENT & 0x0F)
125 
126 typedef union uPmfSaQueryTimerId {
127 	struct {
128 		uint8_t sessionId;
129 		uint16_t peerIdx;
130 	} fields;
131 	uint32_t value;
132 } tPmfSaQueryTimerId, *tpPmfSaQueryTimerId;
133 
134 typedef struct last_processed_frame {
135 	tSirMacAddr sa;
136 	uint16_t seq_num;
137 } last_processed_msg;
138 
139 /* LIM utility functions */
140 bool lim_is_valid_frame(last_processed_msg *last_processed_frm,
141 		uint8_t *pRxPacketInfo);
142 void lim_update_last_processed_frame(last_processed_msg *last_processed_frm,
143 		uint8_t *pRxPacketInfo);
144 
145 char *lim_mlm_state_str(tLimMlmStates state);
146 char *lim_sme_state_str(tLimSmeStates state);
147 char *lim_msg_str(uint32_t msgType);
148 char *lim_result_code_str(tSirResultCodes resultCode);
149 char *lim_dot11_mode_str(struct mac_context *mac, uint8_t dot11Mode);
150 void lim_print_mlm_state(struct mac_context *mac, uint16_t logLevel,
151 		tLimMlmStates state);
152 void lim_print_sme_state(struct mac_context *mac, uint16_t logLevel,
153 		tLimSmeStates state);
154 void lim_print_msg_name(struct mac_context *mac, uint16_t logLevel, uint32_t msgType);
155 
156 QDF_STATUS lim_send_set_max_tx_power_req(struct mac_context *mac,
157 		int8_t txPower,
158 		struct pe_session *pe_session);
159 
160 /**
161  * lim_get_num_pwr_levels() - Utility to get number of tx power levels
162  * @is_psd: PSD power check
163  * @ch_width: BSS channel bandwidth
164  *
165  * This function is used to get the number of tx power levels based on
166  * channel bandwidth and psd power.
167  *
168  * Return: number of tx power levels
169  */
170 uint32_t lim_get_num_pwr_levels(bool is_psd,
171 				enum phy_ch_width ch_width);
172 
173 /**
174  * lim_get_max_tx_power() - Utility to get maximum tx power
175  * @mac: mac handle
176  * @mlme_obj: pointer to struct containing list of tx powers
177  *
178  * This function is used to get the maximum possible tx power from the list
179  * of tx powers mentioned in @attr.
180  *
181  * Return: Max tx power
182  */
183 uint8_t lim_get_max_tx_power(struct mac_context *mac,
184 			     struct vdev_mlme_obj *mlme_obj);
185 /**
186  * lim_calculate_tpc() - Utility to get maximum tx power
187  * @mac: mac handle
188  * @session: PE Session Entry
189  *
190  * This function is used to get the maximum possible tx power from the list
191  * of tx powers mentioned in @attr.
192  *
193  * Return: None
194  */
195 void lim_calculate_tpc(struct mac_context *mac,
196 		       struct pe_session *session);
197 
198 /* AID pool management functions */
199 
200 /**
201  * lim_init_peer_idxpool() -- initializes peer index pool
202  * @mac: mac context
203  * @pe_session: session entry
204  *
205  * This function is called while starting a BSS at AP
206  * to initialize AID pool.
207  *
208  * Return: None
209  */
210 void lim_init_peer_idxpool(struct mac_context *, struct pe_session *);
211 uint16_t lim_assign_peer_idx(struct mac_context *, struct pe_session *);
212 
213 /**
214  * lim_create_peer_idxpool() - api to create aid pool
215  * @pe_session: pe session
216  * @idx_pool_size: aid pool size
217  *
218  * Return: true if pool is created successfully
219  */
220 bool lim_create_peer_idxpool(struct pe_session *pe_session,
221 			     uint8_t idx_pool_size);
222 
223 /**
224  * lim_free_peer_idxpool() - api to free aid pool
225  * @pe_session: pe session
226  *
227  * Return: Void
228  */
229 void lim_free_peer_idxpool(struct pe_session *pe_session);
230 
231 #ifdef WLAN_FEATURE_11BE_MLO
232 /**
233  * lim_assign_mlo_conn_idx() - api to assign mlo peer station index with given
234  *                             partner peer station index
235  * @mac: mac context
236  * @pe_session: session entry
237  * @partner_peer_idx: partner peer station index
238  *
239  * Return: peer station index
240  */
241 uint16_t lim_assign_mlo_conn_idx(struct mac_context *mac,
242 				 struct pe_session *pe_session,
243 				 uint16_t partner_peer_idx);
244 
245 /**
246  * lim_release_mlo_conn_idx() - api to release mlo peer AID
247  * @mac: mac context
248  * @peer_idx: given aid
249  * @pe_session: session entry
250  * @free_aid: trigger mlo mgr to free AID or not. It only can be
251  *            true before mlo peer is created. Once mlo peer is
252  *            created, AID is freed in mlo peer context.
253  *
254  * Return: Void
255  */
256 void
257 lim_release_mlo_conn_idx(struct mac_context *mac, uint16_t peer_idx,
258 			 struct pe_session *pe_session, bool free_aid);
259 
260 /**
261  * lim_update_sta_mlo_info() - update sta mlo information
262  * @pe_session: session entry
263  * @add_sta_params: pointer to tpAddStaParams
264  * @sta_ds: pointer tpDphHashNode
265  *
266  * Return: Void
267  */
268 void lim_update_sta_mlo_info(struct pe_session *pe_session,
269 			     tpAddStaParams add_sta_params,
270 			     tpDphHashNode sta_ds);
271 
272 void lim_set_mlo_caps(struct mac_context *mac, struct pe_session *session,
273 		      uint8_t *ie_start, uint32_t num_bytes);
274 
275 QDF_STATUS lim_send_mlo_caps_ie(struct mac_context *mac_ctx,
276 				struct wlan_objmgr_vdev *vdev,
277 				enum QDF_OPMODE device_mode,
278 				uint8_t vdev_id);
279 
280 /**
281  * lim_strip_mlo_ie() - Removes the MLO IE data from additional IE data
282  *
283  * @mac_ctx: global MAC context
284  * @add_ie: Additional IE buffer
285  * @add_ielen: Pointer to length of additional IE
286  *
287  * Return: Void
288  */
289 void lim_strip_mlo_ie(struct mac_context *mac_ctx,
290 		      uint8_t *add_ie, uint16_t *add_ielen);
291 
292 /**
293  * lim_set_emlsr_caps() - This API will set EMLSR caps in vdev obj if ELMSR is
294  * supported.
295  * @mac: mac context
296  * @pe_session: session entry
297  *
298  * Return: Void
299  */
300 void lim_set_emlsr_caps(struct mac_context *mac_ctx,
301 			struct pe_session *session);
302 #else
lim_assign_mlo_conn_idx(struct mac_context * mac,struct pe_session * pe_session,uint16_t partner_peer_idx)303 static inline uint16_t lim_assign_mlo_conn_idx(struct mac_context *mac,
304 					       struct pe_session *pe_session,
305 					       uint16_t partner_peer_idx)
306 {
307 	return 0;
308 }
309 
310 static inline void
lim_release_mlo_conn_idx(struct mac_context * mac,uint16_t peer_idx,struct pe_session * pe_session,bool free_aid)311 lim_release_mlo_conn_idx(struct mac_context *mac, uint16_t peer_idx,
312 			 struct pe_session *pe_session, bool free_aid)
313 {
314 }
315 
lim_update_sta_mlo_info(struct pe_session * session,tpAddStaParams add_sta_params,tpDphHashNode sta_ds)316 static inline void lim_update_sta_mlo_info(struct pe_session *session,
317 					   tpAddStaParams add_sta_params,
318 					   tpDphHashNode sta_ds)
319 {
320 }
321 
322 static inline
lim_set_mlo_caps(struct mac_context * mac,struct pe_session * session,uint8_t * ie_start,uint32_t num_bytes)323 void lim_set_mlo_caps(struct mac_context *mac, struct pe_session *session,
324 		      uint8_t *ie_start, uint32_t num_bytes)
325 {
326 }
327 
328 static inline
lim_strip_mlo_ie(struct mac_context * mac_ctx,uint8_t * addn_ie,uint16_t * addn_ielen)329 void lim_strip_mlo_ie(struct mac_context *mac_ctx,
330 		      uint8_t *addn_ie, uint16_t *addn_ielen)
331 {
332 }
333 
334 static inline
lim_send_mlo_caps_ie(struct mac_context * mac_ctx,struct wlan_objmgr_vdev * vdev,enum QDF_OPMODE device_mode,uint8_t vdev_id)335 QDF_STATUS lim_send_mlo_caps_ie(struct mac_context *mac_ctx,
336 				struct wlan_objmgr_vdev *vdev,
337 				enum QDF_OPMODE device_mode,
338 				uint8_t vdev_id)
339 {
340 	return QDF_STATUS_E_NOSUPPORT;
341 }
342 
lim_set_emlsr_caps(struct mac_context * mac_ctx,struct pe_session * session)343 static inline void lim_set_emlsr_caps(struct mac_context *mac_ctx,
344 				      struct pe_session *session)
345 {
346 }
347 #endif
348 
349 void lim_enable_overlap11g_protection(struct mac_context *mac,
350 		tpUpdateBeaconParams pBeaconParams,
351 		tpSirMacMgmtHdr pMh,
352 		struct pe_session *pe_session);
353 void lim_update_overlap_sta_param(struct mac_context *mac, tSirMacAddr bssId,
354 		tpLimProtStaParams pStaParams);
355 void lim_update_short_preamble(struct mac_context *mac, tSirMacAddr peerMacAddr,
356 		tpUpdateBeaconParams pBeaconParams,
357 		struct pe_session *pe_session);
358 void lim_update_short_slot_time(struct mac_context *mac, tSirMacAddr peerMacAddr,
359 		tpUpdateBeaconParams pBeaconParams,
360 		struct pe_session *pe_session);
361 
362 /*
363  * lim_send_sme_mgmt_frame_ind() - Function to send mgmt frame ind to HDD
364  * @mac_ctx: Pointer to Global MAC structure
365  * @frame_type: Type of mgmt frame
366  * @frame: Frame pointer
367  * @frame_len: Length og mgmt frame
368  * @vdev_id: session id
369  * @rx_freq: Frequency on which packet is received
370  * @rx_rssi: rssi value
371  * @rx_flags: RXMGMT flags to be set for the frame. Defined in enum rxmgmt_flags
372  *
373  * Indicate the Mgmt Frame received to SME to HDD callback
374  * handle Probe_req/Action frame currently
375  *
376  * Return: None
377 */
378 void lim_send_sme_mgmt_frame_ind(struct mac_context *mac_ctx, uint8_t frame_type,
379 				 uint8_t *frame, uint32_t frame_len,
380 				 uint16_t vdev_id, uint32_t rx_freq,
381 				 int8_t rx_rssi, enum rxmgmt_flags rx_flags);
382 
383 /*
384  * lim_deactivate_timers() - Function to deactivate lim timers
385  * @mac_ctx: Pointer to global mac structure
386  *
387  *	This function is used to deactivate lim timers
388  *
389  * Return: None
390  */
391 void lim_deactivate_timers(struct mac_context *mac_ctx);
392 
393 /*
394  * lim_deactivate_timers_for_vdev() - Deactivate lim connection timers
395  * @mac_ctx: Pointer to global mac structure
396  * @vdev_id: vdev id
397  *
398  * This function is used to trigger timeout of lim connection timers to abort
399  * connect request.
400  *
401  * Return: None
402  */
403 void lim_deactivate_timers_for_vdev(struct mac_context *mac_ctx,
404 				    uint8_t vdev_id);
405 
406 /*
407  * The below 'product' check tobe removed if 'Association' is
408  * allowed in IBSS.
409  */
410 void lim_release_peer_idx(struct mac_context *, uint16_t, struct pe_session *);
411 
412 void lim_decide_ap_protection(struct mac_context *mac, tSirMacAddr peerMacAddr,
413 		tpUpdateBeaconParams pBeaconParams, struct pe_session *);
414 void lim_decide_ap_protection_on_delete(struct mac_context *mac,
415 		tpDphHashNode sta,
416 		tpUpdateBeaconParams pBeaconParams,
417 		struct pe_session *pe_session);
418 
419 QDF_STATUS lim_update_11a_protection(struct mac_context *mac,
420 		uint8_t enable,
421 		uint8_t overlap,
422 		tpUpdateBeaconParams pBeaconParams,
423 		struct pe_session *);
424 QDF_STATUS lim_enable11g_protection(struct mac_context *mac,
425 		uint8_t enable,
426 		uint8_t overlap,
427 		tpUpdateBeaconParams pBeaconParams,
428 		struct pe_session *pe_session);
429 QDF_STATUS lim_enable_ht_protection_from11g(struct mac_context *mac,
430 		uint8_t enable,
431 		uint8_t overlap,
432 		tpUpdateBeaconParams
433 		pBeaconParams,
434 		struct pe_session *pe_session);
435 QDF_STATUS lim_enable_ht20_protection(struct mac_context *mac,
436 		uint8_t enable, uint8_t overlap,
437 		tpUpdateBeaconParams pBeaconParams,
438 		struct pe_session *pe_session);
439 QDF_STATUS lim_enable_ht_non_gf_protection(struct mac_context *mac,
440 		uint8_t enable, uint8_t overlap,
441 		tpUpdateBeaconParams
442 		pBeaconParams, struct pe_session *);
443 QDF_STATUS lim_enable_ht_rifs_protection(struct mac_context *mac,
444 		uint8_t enable, uint8_t overlap,
445 		tpUpdateBeaconParams
446 		pBeaconParams,
447 		struct pe_session *pe_session);
448 QDF_STATUS lim_enable_ht_lsig_txop_protection(struct mac_context *mac,
449 		uint8_t enable,
450 		uint8_t overlap,
451 		tpUpdateBeaconParams
452 		pBeaconParams, struct pe_session *);
453 QDF_STATUS lim_enable_short_preamble(struct mac_context *mac,
454 		uint8_t enable,
455 		tpUpdateBeaconParams pBeaconParams,
456 		struct pe_session *pe_session);
457 QDF_STATUS lim_enable_ht_obss_protection(struct mac_context *mac,
458 		uint8_t enable, uint8_t overlap,
459 		tpUpdateBeaconParams
460 		pBeaconParams, struct pe_session *);
461 void lim_decide_sta_protection(struct mac_context *mac,
462 		tpSchBeaconStruct pBeaconStruct,
463 		tpUpdateBeaconParams pBeaconParams,
464 		struct pe_session *pe_session);
465 void lim_decide_sta_protection_on_assoc(struct mac_context *mac,
466 		tpSchBeaconStruct pBeaconStruct,
467 		struct pe_session *pe_session);
468 
469 /**
470  * lim_get_cb_mode_for_freq() - Get cb mode depending on the freq
471  * @mac: pointer to Global MAC structure
472  * @pe_session: pe session
473  * @chan_freq: Freq to get cb mode for
474  *
475  * Return: cb mode allowed for the freq
476  */
477 uint8_t lim_get_cb_mode_for_freq(struct mac_context *mac,
478 				 struct pe_session *session,
479 				 qdf_freq_t chan_freq);
480 
481 /**
482  * lim_update_sta_run_time_ht_switch_chnl_params() - Process change in HT
483  * bandwidth
484  * @mac: pointer to Global MAC structure
485  * @pHTInfo: ht info IE
486  * @pe_session: pe session
487  *
488  * Return: none
489  */
490 void lim_update_sta_run_time_ht_switch_chnl_params(struct mac_context *mac,
491 						 tDot11fIEHTInfo *pHTInfo,
492 						 struct pe_session *pe_session);
493 
494 /* Deferred Message Queue read/write */
495 uint8_t lim_write_deferred_msg_q(struct mac_context *mac,
496 				 struct scheduler_msg *limMsg);
497 struct scheduler_msg *lim_read_deferred_msg_q(struct mac_context *mac);
498 void lim_handle_defer_msg_error(struct mac_context *mac,
499 				struct scheduler_msg *pLimMsg);
500 
501 /* Deferred Message Queue Reset */
502 void lim_reset_deferred_msg_q(struct mac_context *mac);
503 
lim_sys_process_mmh_msg_api(struct mac_context * mac,struct scheduler_msg * msg)504 static inline void lim_sys_process_mmh_msg_api(struct mac_context *mac,
505 					       struct scheduler_msg *msg)
506 {
507 	sys_process_mmh_msg(mac, msg);
508 }
509 
510 void lim_handle_update_olbc_cache(struct mac_context *mac);
511 
512 uint8_t lim_is_null_ssid(tSirMacSSid *pSsid);
513 
514 /* 11h Support */
515 void lim_stop_tx_and_switch_channel(struct mac_context *mac, uint8_t sessionId);
516 
517 /**
518  * lim_process_channel_switch() - Process channel switch
519  * @mac: pointer to Global MAC structure
520  * @vdev_id: Vdev on which CSA is happening
521  *
522  * Return: none
523  */
524 void lim_process_channel_switch(struct mac_context *mac, uint8_t vdev_id);
525 
526 /**
527  * lim_switch_primary_channel() - switch primary channel of session
528  * @mac: Global MAC structure
529  * @new_channel_freq: new chnannel freq in Mhz
530  * @pe_session: pe session context
531  *
532  * This function changes the current operating channel frequency.
533  *
534  * return qdf_status
535  */
536 QDF_STATUS lim_switch_primary_channel(struct mac_context *mac,
537 				      uint32_t new_channel_freq,
538 				      struct pe_session *pe_session);
539 
540 /**
541  * lim_switch_primary_secondary_channel() - switch primary and secondary
542  * channel of session
543  * @mac: Global MAC structure
544  * @pe_session: session context
545  *
546  *  This function changes the primary and secondary channel.
547  *  If 11h is enabled and user provides a "new channel freq"
548  *  that is different from the current operating channel,
549  *  then we must set this new channel in session context and
550  *  assign notify LIM of such change.
551  *
552  * @return qdf_status
553  */
554 QDF_STATUS lim_switch_primary_secondary_channel(struct mac_context *mac,
555 						struct pe_session *pe_session);
556 
557 void lim_update_sta_run_time_ht_capability(struct mac_context *mac,
558 		tDot11fIEHTCaps *pHTCaps);
559 void lim_update_sta_run_time_ht_info(struct mac_context *mac,
560 		tDot11fIEHTInfo *pRcvdHTInfo,
561 		struct pe_session *pe_session);
562 
563 /**
564  * lim_is_channel_valid_for_channel_switch - check channel valid for switching
565  * @mac: Global mac context
566  * @channel_freq: channel freq (MHz)
567  *
568  * This function checks if the channel to which AP is expecting us to switch,
569  * is a valid channel for us.
570  *
571  * Return bool, true if channel is valid
572  */
573 bool lim_is_channel_valid_for_channel_switch(struct mac_context *mac,
574 					     uint32_t channel_freq);
575 
576 QDF_STATUS lim_restore_pre_channel_switch_state(struct mac_context *mac,
577 		struct pe_session *pe_session);
578 
579 void lim_prepare_for11h_channel_switch(struct mac_context *mac,
580 		struct pe_session *pe_session);
581 void lim_switch_channel_cback(struct mac_context *mac, QDF_STATUS status,
582 		uint32_t *data, struct pe_session *pe_session);
583 
584 /**
585  * lim_assoc_rej_get_remaining_delta() - Get remaining time delta for
586  * the rssi based disallowed list entry
587  * @node: rssi based disallowed list entry
588  *
589  * Return: remaining delta, can be -ve if time has already expired.
590  */
591 int
592 lim_assoc_rej_get_remaining_delta(struct sir_rssi_disallow_lst *node);
593 
594 /**
595  * lim_rem_denylist_entry_with_lowest_delta() - Remove the entry with lowest
596  * time delta
597  * @list: rssi based rejected BSSID list
598  *
599  * Return: QDF_STATUS
600  */
601 QDF_STATUS
602 lim_rem_denylist_entry_with_lowest_delta(qdf_list_t *list);
603 
lim_get_rf_band(uint32_t chan_freq)604 static inline enum reg_wifi_band lim_get_rf_band(uint32_t chan_freq)
605 {
606 	if (WLAN_REG_IS_6GHZ_CHAN_FREQ(chan_freq))
607 		return REG_BAND_6G;
608 
609 	if (WLAN_REG_IS_5GHZ_CH_FREQ(chan_freq))
610 		return REG_BAND_5G;
611 
612 	if (WLAN_REG_IS_24GHZ_CH_FREQ(chan_freq))
613 		return REG_BAND_2G;
614 
615 	return REG_BAND_UNKNOWN;
616 }
617 
618 static inline QDF_STATUS
lim_get_mgmt_staid(struct mac_context * mac,uint16_t * staid,struct pe_session * pe_session)619 lim_get_mgmt_staid(struct mac_context *mac, uint16_t *staid,
620 		struct pe_session *pe_session)
621 {
622 	if (LIM_IS_AP_ROLE(pe_session))
623 		*staid = 1;
624 	else if (LIM_IS_STA_ROLE(pe_session))
625 		*staid = 0;
626 	else
627 		return QDF_STATUS_E_FAILURE;
628 
629 	return QDF_STATUS_SUCCESS;
630 }
631 
lim_select_cb_mode(tDphHashNode * sta,struct pe_session * pe_session,uint8_t channel,uint8_t chan_bw)632 static inline int lim_select_cb_mode(tDphHashNode *sta,
633 		struct pe_session *pe_session, uint8_t channel,
634 		uint8_t chan_bw)
635 {
636 	if (sta->mlmStaContext.vhtCapability && chan_bw) {
637 		if (channel == 36 || channel == 52 || channel == 100 ||
638 				channel == 116 || channel == 149) {
639 			return PHY_QUADRUPLE_CHANNEL_20MHZ_LOW_40MHZ_LOW - 1;
640 		} else if (channel == 40 || channel == 56 || channel == 104 ||
641 				channel == 120 || channel == 153) {
642 			return PHY_QUADRUPLE_CHANNEL_20MHZ_HIGH_40MHZ_LOW - 1;
643 		} else if (channel == 44 || channel == 60 || channel == 108 ||
644 				channel == 124 || channel == 157) {
645 			return PHY_QUADRUPLE_CHANNEL_20MHZ_LOW_40MHZ_HIGH - 1;
646 		} else if (channel == 48 || channel == 64 || channel == 112 ||
647 				channel == 128 || channel == 161) {
648 			return PHY_QUADRUPLE_CHANNEL_20MHZ_HIGH_40MHZ_HIGH - 1;
649 		} else if (channel == 165) {
650 			return PHY_SINGLE_CHANNEL_CENTERED;
651 		}
652 	} else if (sta->mlmStaContext.htCapability) {
653 		if (channel == 40 || channel == 48 || channel == 56 ||
654 			channel == 64 || channel == 104 || channel == 112 ||
655 			channel == 120 || channel == 128 || channel == 136 ||
656 			channel == 144 || channel == 153 || channel == 161) {
657 			return PHY_DOUBLE_CHANNEL_LOW_PRIMARY;
658 		} else if (channel == 36 || channel == 44 || channel == 52 ||
659 				channel == 60 || channel == 100 ||
660 				channel == 108 || channel == 116 ||
661 				channel == 124 || channel == 132 ||
662 				channel == 140 || channel == 149 ||
663 				channel == 157) {
664 			return PHY_DOUBLE_CHANNEL_HIGH_PRIMARY;
665 		} else if (channel == 165) {
666 			return PHY_SINGLE_CHANNEL_CENTERED;
667 		}
668 	}
669 	return PHY_SINGLE_CHANNEL_CENTERED;
670 }
671 
672 /* ANI peer station count management and associated actions */
673 void lim_util_count_sta_add(struct mac_context *mac, tpDphHashNode pSta,
674 		struct pe_session *pe_session);
675 void lim_util_count_sta_del(struct mac_context *mac, tpDphHashNode pSta,
676 		struct pe_session *pe_session);
677 
678 uint8_t lim_get_ht_capability(struct mac_context *, uint32_t, struct pe_session *);
679 QDF_STATUS lim_tx_complete(void *context, qdf_nbuf_t buf, bool free);
680 
681 QDF_STATUS lim_validate_delts_req(struct mac_context *mac,
682 		tpSirDeltsReq pDeltsReq,
683 		tSirMacAddr peerMacAddr,
684 		struct pe_session *pe_session);
685 
686 void lim_pkt_free(struct mac_context *mac,
687 		eFrameType frmType, uint8_t *pBD, void *body);
688 
689 void lim_get_b_dfrom_rx_packet(struct mac_context *mac, void *body, uint32_t **pBD);
690 
691 /**
692  * utils_power_xy() - calc result of base raised to power
693  * @base: Base value
694  * @power: Base raised to this Power value
695  *
696  * Given a base(X) and power(Y), this API will return
697  * the result of base raised to power - (X ^ Y)
698  *
699  * Return: Result of X^Y
700  *
701  */
utils_power_xy(uint16_t base,uint16_t power)702 static inline uint32_t utils_power_xy(uint16_t base, uint16_t power)
703 {
704 	uint32_t result = 1, i;
705 
706 	for (i = 0; i < power; i++)
707 		result *= base;
708 
709 	return result;
710 }
711 
712 QDF_STATUS lim_post_sm_state_update(struct mac_context *mac,
713 		tSirMacHTMIMOPowerSaveState MIMOPSState,
714 		uint8_t *pPeerStaMac, uint8_t sessionId);
715 
716 void lim_delete_sta_context(struct mac_context *mac, struct scheduler_msg *limMsg);
717 void lim_delete_dialogue_token_list(struct mac_context *mac);
718 
719 /**
720  * lim_get_channel_from_beacon() - extract channel number
721  * from beacon and convert to channel frequency
722  * @mac: Pointer to Global MAC structure
723  * @pBeacon: Pointer to beacon or probe rsp
724  *
725  * Return: channel frequency
726  */
727 uint32_t lim_get_channel_from_beacon(struct mac_context *mac,
728 				     tpSchBeaconStruct pBeacon);
729 
730 /**
731  * lim_get_nw_type() - Get type of the network from
732  * data packet or beacon
733  * @mac: Pointer to Global MAC structure
734  * @chan_freq: Channel frequency
735  * @type: Type of packet
736  * @pBeacon: Pointer to beacon or probe response
737  *
738  * Return: Network type a/b/g
739  */
740 tSirNwType lim_get_nw_type(struct mac_context *mac, uint32_t chan_freq,
741 			   uint32_t type, tpSchBeaconStruct pBeacon);
742 
743 void lim_set_tspec_uapsd_mask_per_session(struct mac_context *mac,
744 		struct pe_session *pe_session,
745 		struct mac_ts_info *pTsInfo, uint32_t action);
746 
747 void lim_handle_heart_beat_timeout_for_session(struct mac_context *mac,
748 		struct pe_session *pe_session);
749 
750 /**
751  * lim_process_add_sta_rsp() - process WDA_ADD_STA_RSP from WMA
752  * @mac_ctx: Pointer to Global MAC structure
753  * @msg: msg from WMA
754  *
755  * Return: void
756  */
757 void lim_process_add_sta_rsp(struct mac_context *mac_ctx,
758 			     struct scheduler_msg *msg);
759 
760 void lim_update_beacon(struct mac_context *mac);
761 
762 void lim_process_ap_mlm_add_sta_rsp(struct mac_context *mac,
763 				    struct scheduler_msg *limMsgQ,
764 				    struct pe_session *pe_session);
765 
766 /**
767  * lim_process_ap_mlm_del_bss_rsp() - handle del bss response of AP
768  * @mac: Pointer to Global MAC structure
769  * @vdev_stop_rsp: pointer to vdev stop response
770  * @pe_session: pointer to pe_session
771  *
772  * Return: none
773  */
774 void lim_process_ap_mlm_del_bss_rsp(struct mac_context *mac,
775 				    struct del_bss_resp *vdev_stop_rsp,
776 				    struct pe_session *pe_session);
777 
778 void lim_process_ap_mlm_del_sta_rsp(struct mac_context *mac,
779 		struct scheduler_msg *limMsgQ,
780 		struct pe_session *pe_session);
781 
782 /**
783  * ch_width_in_mhz() - API to get channel space in MHz
784  *
785  * For CH_WIDTH_80P80MHZ, the channel space is max channel space of one
786  * segment - 80MHz.
787  *
788  */
ch_width_in_mhz(enum phy_ch_width ch_width)789 static inline uint16_t ch_width_in_mhz(enum phy_ch_width ch_width)
790 {
791 	switch (ch_width) {
792 	case CH_WIDTH_40MHZ:
793 		return 40;
794 	case CH_WIDTH_80MHZ:
795 		return 80;
796 	case CH_WIDTH_160MHZ:
797 		return 160;
798 	case CH_WIDTH_80P80MHZ:
799 		return 80;
800 	case CH_WIDTH_5MHZ:
801 		return 5;
802 	case CH_WIDTH_10MHZ:
803 		return 10;
804 	case CH_WIDTH_320MHZ:
805 		return 320;
806 	default:
807 		return 20;
808 	}
809 }
810 
811 struct pe_session *lim_is_ap_session_active(struct mac_context *mac);
812 
813 #define limGetWscIEPtr(mac, ie, ie_len) \
814 	wlan_get_vendor_ie_ptr_from_oui(SIR_MAC_WSC_OUI, \
815 			SIR_MAC_WSC_OUI_SIZE, ie, ie_len)
816 
817 #define limGetP2pIEPtr(mac, ie, ie_len) \
818 	wlan_get_vendor_ie_ptr_from_oui(SIR_MAC_P2P_OUI, \
819 			SIR_MAC_P2P_OUI_SIZE, ie, ie_len)
820 
821 uint8_t lim_get_noa_attr_stream(struct mac_context *mac, uint8_t *pNoaStream,
822 		struct pe_session *pe_session);
823 
824 uint8_t lim_build_p2p_ie(struct mac_context *mac, uint8_t *ie, uint8_t *data,
825 		uint8_t ie_len);
826 
827 bool lim_isconnected_on_dfs_freq(struct mac_context *mac_ctx,
828 				 qdf_freq_t curr_chan_freq);
829 
830 uint32_t lim_get_max_rate_flags(struct mac_context *mac_ctx,
831 				tpDphHashNode sta_ds);
832 
833 bool lim_check_vht_op_mode_change(struct mac_context *mac,
834 		struct pe_session *pe_session,
835 		uint8_t chanWidth,
836 		uint8_t *peerMac);
837 #ifdef WLAN_FEATURE_11AX_BSS_COLOR
838 bool lim_send_he_ie_update(struct mac_context *mac_ctx, struct pe_session *pe_session);
839 #endif
840 bool lim_set_nss_change(struct mac_context *mac, struct pe_session *pe_session,
841 		uint8_t rxNss, uint8_t *peerMac);
842 bool lim_check_membership_user_position(struct mac_context *mac,
843 		struct pe_session *pe_session,
844 		uint32_t membership, uint32_t userPosition);
845 
846 /**
847  * enum ack_status - Indicate TX status of ASSOC/AUTH
848  * @ACKED : Ack is received.
849  * @NOT_ACKED : No Ack received.
850  * @SENT_FAIL : Failure while sending.
851  *
852  * Indicate if driver is waiting for ACK status of assoc/auth or ACK received
853  * for ASSOC/AUTH OR NO ACK is received for the assoc/auth sent or assoc/auth
854  * sent failed.
855  */
856 enum assoc_ack_status {
857 	ACKED,
858 	NOT_ACKED,
859 	SENT_FAIL,
860 };
861 
862 typedef enum {
863 	WLAN_PE_DIAG_SCAN_REQ_EVENT = 0,
864 	WLAN_PE_DIAG_SCAN_ABORT_IND_EVENT,
865 	WLAN_PE_DIAG_SCAN_RSP_EVENT,
866 	WLAN_PE_DIAG_JOIN_REQ_EVENT,
867 	WLAN_PE_DIAG_JOIN_RSP_EVENT,
868 	WLAN_PE_DIAG_SETCONTEXT_REQ_EVENT,
869 	WLAN_PE_DIAG_SETCONTEXT_RSP_EVENT,
870 	WLAN_PE_DIAG_REASSOC_REQ_EVENT,
871 	WLAN_PE_DIAG_REASSOC_RSP_EVENT,
872 	WLAN_PE_DIAG_AUTH_REQ_EVENT,
873 	WLAN_PE_DIAG_AUTH_RSP_EVENT = 10,
874 	WLAN_PE_DIAG_DISASSOC_REQ_EVENT,
875 	WLAN_PE_DIAG_DISASSOC_RSP_EVENT,
876 	WLAN_PE_DIAG_DISASSOC_IND_EVENT,
877 	WLAN_PE_DIAG_DISASSOC_CNF_EVENT,
878 	WLAN_PE_DIAG_DEAUTH_REQ_EVENT,
879 	WLAN_PE_DIAG_DEAUTH_RSP_EVENT,
880 	WLAN_PE_DIAG_DEAUTH_IND_EVENT,
881 	WLAN_PE_DIAG_START_BSS_REQ_EVENT,
882 	WLAN_PE_DIAG_START_BSS_RSP_EVENT,
883 	WLAN_PE_DIAG_AUTH_IND_EVENT = 20,
884 	WLAN_PE_DIAG_ASSOC_IND_EVENT,
885 	WLAN_PE_DIAG_ASSOC_CNF_EVENT,
886 	WLAN_PE_DIAG_REASSOC_IND_EVENT,
887 	WLAN_PE_DIAG_SWITCH_CHL_IND_EVENT,
888 	WLAN_PE_DIAG_SWITCH_CHL_RSP_EVENT,
889 	WLAN_PE_DIAG_STOP_BSS_REQ_EVENT,
890 	WLAN_PE_DIAG_STOP_BSS_RSP_EVENT,
891 	WLAN_PE_DIAG_DEAUTH_CNF_EVENT,
892 	WLAN_PE_DIAG_ADDTS_REQ_EVENT,
893 	WLAN_PE_DIAG_ADDTS_RSP_EVENT = 30,
894 	WLAN_PE_DIAG_DELTS_REQ_EVENT,
895 	WLAN_PE_DIAG_DELTS_RSP_EVENT,
896 	WLAN_PE_DIAG_DELTS_IND_EVENT,
897 	WLAN_PE_DIAG_ENTER_BMPS_REQ_EVENT,
898 	WLAN_PE_DIAG_ENTER_BMPS_RSP_EVENT,
899 	WLAN_PE_DIAG_EXIT_BMPS_REQ_EVENT,
900 	WLAN_PE_DIAG_EXIT_BMPS_RSP_EVENT,
901 	WLAN_PE_DIAG_EXIT_BMPS_IND_EVENT,
902 	WLAN_PE_DIAG_ENTER_IMPS_REQ_EVENT,
903 	WLAN_PE_DIAG_ENTER_IMPS_RSP_EVENT = 40,
904 	WLAN_PE_DIAG_EXIT_IMPS_REQ_EVENT,
905 	WLAN_PE_DIAG_EXIT_IMPS_RSP_EVENT,
906 	WLAN_PE_DIAG_ENTER_UAPSD_REQ_EVENT,
907 	WLAN_PE_DIAG_ENTER_UAPSD_RSP_EVENT,
908 	WLAN_PE_DIAG_EXIT_UAPSD_REQ_EVENT,
909 	WLAN_PE_DIAG_EXIT_UAPSD_RSP_EVENT,
910 	WLAN_PE_DIAG_WOWL_ADD_BCAST_PTRN_EVENT,
911 	WLAN_PE_DIAG_WOWL_DEL_BCAST_PTRN_EVENT,
912 	WLAN_PE_DIAG_ENTER_WOWL_REQ_EVENT,
913 	WLAN_PE_DIAG_ENTER_WOWL_RSP_EVENT = 50,
914 	WLAN_PE_DIAG_EXIT_WOWL_REQ_EVENT,
915 	WLAN_PE_DIAG_EXIT_WOWL_RSP_EVENT,
916 	WLAN_PE_DIAG_HAL_ADDBA_REQ_EVENT,
917 	WLAN_PE_DIAG_HAL_ADDBA_RSP_EVENT,
918 	WLAN_PE_DIAG_HAL_DELBA_IND_EVENT,
919 	WLAN_PE_DIAG_HB_FAILURE_TIMEOUT,
920 	WLAN_PE_DIAG_PRE_AUTH_REQ_EVENT,
921 	WLAN_PE_DIAG_PRE_AUTH_RSP_EVENT,
922 	WLAN_PE_DIAG_PREAUTH_DONE,
923 	WLAN_PE_DIAG_REASSOCIATING = 60,
924 	WLAN_PE_DIAG_CONNECTED,
925 	WLAN_PE_DIAG_ASSOC_REQ_EVENT,
926 	WLAN_PE_DIAG_AUTH_COMP_EVENT,
927 	WLAN_PE_DIAG_ASSOC_COMP_EVENT,
928 	WLAN_PE_DIAG_AUTH_START_EVENT,
929 	WLAN_PE_DIAG_ASSOC_START_EVENT,
930 	WLAN_PE_DIAG_REASSOC_START_EVENT,
931 	WLAN_PE_DIAG_ROAM_AUTH_START_EVENT,
932 	WLAN_PE_DIAG_ROAM_AUTH_COMP_EVENT,
933 	WLAN_PE_DIAG_ROAM_ASSOC_START_EVENT = 70,
934 	WLAN_PE_DIAG_ROAM_ASSOC_COMP_EVENT,
935 	WLAN_PE_DIAG_SCAN_COMPLETE_EVENT,
936 	WLAN_PE_DIAG_SCAN_RESULT_FOUND_EVENT,
937 	WLAN_PE_DIAG_ASSOC_TIMEOUT,
938 	WLAN_PE_DIAG_AUTH_TIMEOUT,
939 	WLAN_PE_DIAG_DEAUTH_FRAME_EVENT,
940 	WLAN_PE_DIAG_DISASSOC_FRAME_EVENT,
941 	WLAN_PE_DIAG_AUTH_ACK_EVENT,
942 	WLAN_PE_DIAG_ASSOC_ACK_EVENT,
943 	WLAN_PE_DIAG_AUTH_ALGO_NUM,
944 } WLAN_PE_DIAG_EVENT_TYPE;
945 
946 #ifdef FEATURE_WLAN_DIAG_SUPPORT
947 void lim_diag_event_report(struct mac_context *mac, uint16_t eventType,
948 		struct pe_session *pe_session, uint16_t status,
949 		uint16_t reasonCode);
950 /**
951  * lim_diag_mgmt_tx_event_report() - to log TX event to external application
952  * @mac_ctx: mac context
953  * @mgmt_hdr: 802.11 mgmt header of given frame
954  * @session: PE session for given frame
955  * @result_code: result code of to be populated in TX frame
956  * @reason_code: reason code if TX OTA status
957  *
958  * Anytime driver sends some mgmt frame down to firmware for OTA delivery,
959  * log mgmt frame through DIAG utility. Don't log frames which come too
960  * excessively.
961  *
962  * Return: void
963  */
964 void lim_diag_mgmt_tx_event_report(struct mac_context *mac_ctx, void *mgmt_hdr,
965 		struct pe_session *session, uint16_t result_code,
966 		uint16_t reason_code);
967 /**
968  * lim_diag_mgmt_rx_event_report() - to log RX event to external application
969  * @mac_ctx: mac context
970  * @mgmt_hdr: 802.11 mgmt header of given frame
971  * @session: PE session for given frame
972  * @result_code: result code given in RX frame
973  * @reason_code: reason code for RX OTA status
974  *
975  * Anytime driver receives some mgmt frame from firmware OTA,
976  * log mgmt frame through DIAG utility. Don't log frames which come too
977  * excessively.
978  *
979  * Return: void
980  */
981 void lim_diag_mgmt_rx_event_report(struct mac_context *mac_ctx, void *mgmt_hdr,
982 		struct pe_session *session, uint16_t result_code,
983 		uint16_t reason_code);
984 #else
lim_diag_event_report(struct mac_context * mac,uint16_t eventType,struct pe_session * pe_session,uint16_t status,uint16_t reasonCode)985 static inline void lim_diag_event_report(struct mac_context *mac, uint16_t
986 		eventType, struct pe_session *pe_session, uint16_t status,
987 		uint16_t reasonCode) {}
988 static inline
lim_diag_mgmt_tx_event_report(struct mac_context * mac_ctx,void * mgmt_hdr,struct pe_session * session,uint16_t result_code,uint16_t reason_code)989 void lim_diag_mgmt_tx_event_report(struct mac_context *mac_ctx, void *mgmt_hdr,
990 		struct pe_session *session, uint16_t result_code,
991 		uint16_t reason_code) {}
992 static inline
lim_diag_mgmt_rx_event_report(struct mac_context * mac_ctx,void * mgmt_hdr,struct pe_session * session,uint16_t result_code,uint16_t reason_code)993 void lim_diag_mgmt_rx_event_report(struct mac_context *mac_ctx, void *mgmt_hdr,
994 		struct pe_session *session, uint16_t result_code,
995 		uint16_t reason_code) {}
996 #endif /* FEATURE_WLAN_DIAG_SUPPORT */
997 
998 void pe_set_resume_channel(struct mac_context *mac, uint16_t channel,
999 		ePhyChanBondState cbState);
1000 
1001 void lim_get_short_slot_from_phy_mode(struct mac_context *mac,
1002 		struct pe_session *pe_session,
1003 		uint32_t phyMode, uint8_t *pShortSlotEnable);
1004 
1005 void lim_clean_up_disassoc_deauth_req(struct mac_context *mac, uint8_t *staMac,
1006 		bool cleanRxPath);
1007 
1008 bool lim_check_disassoc_deauth_ack_pending(struct mac_context *mac,
1009 		uint8_t *staMac);
1010 
1011 void lim_pmf_sa_query_timer_handler(void *pMacGlobal, uint32_t param);
1012 void lim_pmf_comeback_timer_callback(void *context);
1013 void lim_set_protected_bit(struct mac_context *mac,
1014 	struct pe_session *pe_session,
1015 	tSirMacAddr peer, tpSirMacMgmtHdr pMacHdr);
1016 
1017 void lim_set_ht_caps(struct mac_context *p_mac, uint8_t *p_ie_start,
1018 		     uint32_t num_bytes);
1019 
1020 void lim_set_vht_caps(struct mac_context *p_mac, uint8_t *p_ie_start,
1021 		      uint32_t num_bytes);
1022 bool lim_validate_received_frame_a1_addr(struct mac_context *mac_ctx,
1023 		tSirMacAddr a1, struct pe_session *session);
1024 void lim_set_stads_rtt_cap(tpDphHashNode sta_ds, struct s_ext_cap *ext_cap,
1025 			   struct mac_context *mac_ctx);
1026 
1027 void lim_check_and_reset_protection_params(struct mac_context *mac_ctx);
1028 
1029 QDF_STATUS lim_send_ext_cap_ie(struct mac_context *mac_ctx, uint32_t session_id,
1030 			       tDot11fIEExtCap *extracted_extcap, bool merge);
1031 
1032 /**
1033  * lim_send_ies_per_band() - gets ht and vht capability and send to firmware via
1034  * wma
1035  * @mac_ctx: global mac context
1036  * @vdev_id: vdev for which IE is targeted
1037  * @dot11_mode: vdev dot11 mode
1038  * @device_mode: device mode
1039  *
1040  * This function gets ht and vht capability and send to firmware via wma
1041  *
1042  * Return: status of operation
1043  */
1044 QDF_STATUS lim_send_ies_per_band(struct mac_context *mac_ctx,
1045 				 uint8_t vdev_id,
1046 				 enum csr_cfgdot11mode dot11_mode,
1047 				 enum QDF_OPMODE device_mode);
1048 
1049 /**
1050  * lim_update_connect_rsn_ie() - Update the connection RSN IE
1051  * @session: PE session
1052  * @rsn_ie_buf: RSN IE buffer
1053  * @pmksa: PMKSA entry for the connecting AP
1054  *
1055  * Return: None
1056  */
1057 void
1058 lim_update_connect_rsn_ie(struct pe_session *session, uint8_t *rsn_ie_buf,
1059 			  struct wlan_crypto_pmksa *pmksa);
1060 
1061 /**
1062  * lim_send_action_frm_tb_ppdu_cfg() - sets action frame in TB PPDU cfg to FW
1063  * @mac_ctx: global MAC context
1064  * @vdev_id: vdev id
1065  * @cfg: config setting
1066  *
1067  * Preapres the vendor action frame and send action frame in HE TB PPDU
1068  * configuration to FW.
1069  *
1070  * Return: QDF_STATUS
1071  */
1072 QDF_STATUS lim_send_action_frm_tb_ppdu_cfg(struct mac_context *mac_ctx,
1073 					   uint32_t vdev_id,
1074 					   uint8_t cfg);
1075 
1076 void lim_update_extcap_struct(struct mac_context *mac_ctx, uint8_t *buf,
1077 			      tDot11fIEExtCap *ext_cap);
1078 QDF_STATUS lim_strip_extcap_update_struct(struct mac_context *mac_ctx,
1079 		uint8_t *addn_ie, uint16_t *addn_ielen, tDot11fIEExtCap *dst);
1080 void lim_merge_extcap_struct(tDot11fIEExtCap *dst, tDot11fIEExtCap *src,
1081 		bool add);
1082 
1083 /**
1084  * lim_strip_he_ies_from_add_ies() - This function strip HE IE from add_ie
1085  * @mac_ctx: pointer to mac context
1086  * @pe_session: pointer to PE session
1087  *
1088  * This API is to strip HE IE from add_ie
1089  *
1090  * Return: none
1091  */
1092 void lim_strip_he_ies_from_add_ies(struct mac_context *mac_ctx,
1093 				   struct pe_session *session);
1094 
1095 void lim_strip_eht_ies_from_add_ies(struct mac_context *mac_ctx,
1096 				    struct pe_session *session);
1097 
1098 /**
1099  * lim_strip_wapi_ies_from_add_ies() - This function strip WAPI IE from add_ie
1100  * @mac_ctx: pointer to mac context
1101  * @pe_session: pointer to PE session
1102  *
1103  * This API is to strip WAPI IE from add_ie
1104  *
1105  * Return: none
1106  */
1107 void lim_strip_wapi_ies_from_add_ies(struct mac_context *mac_ctx,
1108 				     struct pe_session *session);
1109 
1110 /**
1111  * lim_del_pmf_sa_query_timer() - This function deletes SA query timer
1112  * @mac_ctx: pointer to mac context
1113  * @pe_session: pointer to PE session
1114  *
1115  * This API is to delete the PMF SA query timer created for each associated STA
1116  *
1117  * Return: none
1118  */
1119 void lim_del_pmf_sa_query_timer(struct mac_context *mac_ctx, struct pe_session *pe_session);
1120 
1121 /**
1122  * lim_get_vdev_rmf_capable() - get rmf capable - MFPC
1123  * @mac: mac context
1124  * @session: pe session
1125  *
1126  * Get intersection of local & peer (BSS) RSN caps
1127  * and check MFPC bit.
1128  *
1129  * Return: bool
1130  */
1131 bool lim_get_vdev_rmf_capable(struct mac_context *mac,
1132 			      struct pe_session *session);
1133 
1134 /**
1135  * lim_add_bssid_to_reject_list:- Add rssi reject Ap info to denylist mgr.
1136  * @pdev: pdev
1137  * @entry: info of the BSSID to be put in rssi reject list.
1138  *
1139  * This API will add the passed ap info to the rssi reject list.
1140  *
1141  */
1142 void
1143 lim_add_bssid_to_reject_list(struct wlan_objmgr_pdev *pdev,
1144 			     struct sir_rssi_disallow_lst *entry);
1145 
1146 /**
1147  * lim_strip_op_class_update_struct - strip sup op class IE and populate
1148  *				  the dot11f structure
1149  * @mac_ctx: global MAC context
1150  * @addn_ie: Additional IE buffer
1151  * @addn_ielen: Length of additional IE
1152  * @dst: Supp operating class IE structure to be updated
1153  *
1154  * This function is used to strip supp op class IE from IE buffer and
1155  * update the passed structure.
1156  *
1157  * Return: QDF_STATUS
1158  */
1159 QDF_STATUS lim_strip_supp_op_class_update_struct(struct mac_context *mac_ctx,
1160 		uint8_t *addn_ie, uint16_t *addn_ielen,
1161 		tDot11fIESuppOperatingClasses *dst);
1162 
1163 uint8_t lim_get_80Mhz_center_channel(uint8_t primary_channel);
1164 void lim_update_obss_scanparams(struct pe_session *session,
1165 			tDot11fIEOBSSScanParameters *scan_params);
1166 void lim_init_obss_params(struct mac_context *mac_ctx, struct pe_session *session);
1167 #ifdef WLAN_FEATURE_HOST_ROAM
1168 uint32_t lim_create_timers_host_roam(struct mac_context *mac_ctx);
1169 /**
1170  * lim_delete_timers_host_roam() - Delete timers used in host based roaming
1171  * @mac_ctx: Global MAC context
1172  *
1173  * Delete reassoc and preauth timers
1174  *
1175  * Return: none
1176  */
1177 void lim_delete_timers_host_roam(struct mac_context *mac_ctx);
1178 /**
1179  * lim_deactivate_timers_host_roam() - deactivate timers used in host based
1180  * roaming
1181  * @mac_ctx: Global MAC context
1182  *
1183  * Delete reassoc and preauth timers
1184  *
1185  * Return: none
1186  */
1187 void lim_deactivate_timers_host_roam(struct mac_context *mac_ctx);
1188 void lim_deactivate_and_change_timer_host_roam(struct mac_context *mac_ctx,
1189 		uint32_t timer_id);
1190 #else
lim_create_timers_host_roam(struct mac_context * mac_ctx)1191 static inline uint32_t lim_create_timers_host_roam(struct mac_context *mac_ctx)
1192 {
1193 	return 0;
1194 }
lim_delete_timers_host_roam(struct mac_context * mac_ctx)1195 static inline void lim_delete_timers_host_roam(struct mac_context *mac_ctx)
1196 {}
lim_deactivate_timers_host_roam(struct mac_context * mac_ctx)1197 static inline void lim_deactivate_timers_host_roam(struct mac_context *mac_ctx) {}
lim_deactivate_and_change_timer_host_roam(struct mac_context * mac_ctx,uint32_t timer_id)1198 static inline void lim_deactivate_and_change_timer_host_roam(
1199 		struct mac_context *mac_ctx, uint32_t timer_id)
1200 {}
1201 #endif
1202 
1203 uint8_t lim_compute_ext_cap_ie_length(tDot11fIEExtCap *ext_cap);
1204 
1205 void lim_update_caps_info_for_bss(struct mac_context *mac_ctx,
1206 			uint16_t *caps, uint16_t bss_caps);
1207 void lim_send_set_dtim_period(struct mac_context *mac_ctx, uint8_t dtim_period,
1208 			      struct pe_session *session);
1209 
1210 QDF_STATUS lim_strip_ie(struct mac_context *mac_ctx,
1211 		uint8_t *addn_ie, uint16_t *addn_ielen,
1212 		uint8_t eid, enum size_of_len_field size_of_len_field,
1213 		uint8_t *oui, uint8_t out_len, uint8_t *extracted_ie,
1214 		uint32_t eid_max_len);
1215 
1216 #define MCSMAPMASK1x1 0x3
1217 #define MCSMAPMASK2x2 0xC
1218 
1219 #ifdef WLAN_FEATURE_11AX
1220 
1221 /**
1222  * lim_intersect_ap_he_caps() - Intersect AP capability with self STA capability
1223  * @session: pointer to PE session
1224  * @add_bss: pointer to ADD BSS params
1225  * @beacon: pointer to beacon
1226  * @assoc_rsp: pointer to assoc response
1227  * @bss_desc: pointer to BSS description
1228  *
1229  * Return: None
1230  */
1231 void lim_intersect_ap_he_caps(struct pe_session *session,
1232 			      struct bss_params *add_bss,
1233 			      tSchBeaconStruct *pBeaconStruct,
1234 			      tpSirAssocRsp assoc_rsp,
1235 			      struct bss_description *bss_desc);
1236 
1237 /**
1238  * lim_intersect_sta_he_caps() - Intersect STA capability with SAP capability
1239  * @mac_ctx: pointer to the MAC context
1240  * @assoc_req: pointer to assoc request
1241  * @session: pointer to PE session
1242  * @sta_ds: pointer to STA dph hash table entry
1243  *
1244  * Return: None
1245  */
1246 void lim_intersect_sta_he_caps(struct mac_context *mac_ctx,
1247 			       tpSirAssocReq assoc_req,
1248 			       struct pe_session *session,
1249 			       tpDphHashNode sta_ds);
1250 
1251 /**
1252  * lim_add_he_cap() - Copy HE capability into Add sta params
1253  * @mac_ctx: Global MAC context
1254  * @pe_session: pe session entry
1255  * @add_sta_params: pointer to add sta params
1256  * @assoc_req: pointer to Assoc request
1257  *
1258  * Return: None
1259  */
1260 void lim_add_he_cap(struct mac_context *mac_ctx, struct pe_session *pe_session,
1261 		    tpAddStaParams add_sta_params, tpSirAssocReq assoc_req);
1262 
1263 /**
1264  * lim_add_self_he_cap() - Copy HE capability into add sta from PE session
1265  * @add_sta_params: pointer to add sta params
1266  * @session: pointer to PE Session
1267  *
1268  * Return: None
1269  */
1270 void lim_add_self_he_cap(tpAddStaParams add_sta_params, struct pe_session *session);
1271 
1272 /**
1273  * lim_add_bss_he_cap() - Copy HE capability into ADD BSS params
1274  * @add_bss: pointer to add bss params
1275  * @assoc_rsp: pointer to assoc response
1276  *
1277  * Return: None
1278  */
1279 void lim_add_bss_he_cap(struct bss_params *add_bss, tpSirAssocRsp assoc_rsp);
1280 
1281 /**
1282  * lim_add_bss_he_cfg() - Set HE config to BSS params
1283  * @add_bss: pointer to add bss params
1284  * @session: Pointer to Session entry struct
1285  *
1286  * Return: None
1287  */
1288 void lim_add_bss_he_cfg(struct bss_params *add_bss, struct pe_session *session);
1289 
1290 /**
1291  * lim_copy_bss_he_cap() - Copy HE capability into PE session from start bss
1292  * @session: pointer to PE session
1293  *
1294  * Return: None
1295  */
1296 void lim_copy_bss_he_cap(struct pe_session *session);
1297 
1298 /**
1299  * lim_update_he_caps_mcs() - Update he caps MCS
1300  * @mac: MAC context
1301  * @session: pointer to PE session
1302  *
1303  * Return: None
1304  */
1305 void lim_update_he_caps_mcs(struct mac_context *mac,
1306 			    struct pe_session *session);
1307 
1308 
1309 /**
1310  * lim_update_he_6gop_assoc_resp() - Update HE 6GHz op info to BSS params
1311  * @add_bss: pointer to add bss params
1312  * @he_op: Pointer to HE operation info IE
1313  * @session: Pointer to Session entry struct
1314  *
1315  * Return: None
1316  */
1317 void lim_update_he_6gop_assoc_resp(struct bss_params *pAddBssParams,
1318 				   tDot11fIEhe_op *he_op,
1319 				   struct pe_session *pe_session);
1320 /**
1321  * lim_copy_join_req_he_cap() - Copy HE capability to PE session from Join req
1322  * and update as per bandwidth supported
1323  * @session: pointer to PE session
1324  *
1325  * Return: None
1326  */
1327 void lim_copy_join_req_he_cap(struct pe_session *session);
1328 
1329 /**
1330  * lim_log_he_6g_cap() - Print HE 6G cap IE
1331  * @mac: pointer to MAC context
1332  * @he_6g_cap: pointer to HE 6G cap IE
1333  *
1334  * Print HE 6G caps stored as dot11f structure
1335  *
1336  * Return: None
1337  */
1338 void lim_log_he_6g_cap(struct mac_context *mac,
1339 		       tDot11fIEhe_6ghz_band_cap *he_6g_cap);
1340 
1341 /**
1342  * lim_log_he_op() - Print HE Operation
1343  * @mac: pointer to MAC context
1344  * @he_op: pointer to HE Operation
1345  * @session: pointer to PE session
1346  *
1347  * Print HE operation stored as dot11f structure
1348  *
1349  * Return: None
1350  */
1351 void lim_log_he_op(struct mac_context *mac, tDot11fIEhe_op *he_ops,
1352 		   struct pe_session *session);
1353 
1354 #ifdef WLAN_FEATURE_11AX_BSS_COLOR
1355 /**
1356  * lim_log_he_bss_color() - Print HE bss color
1357  * @mac: pointer to MAC context
1358  * @he_bss_color: pointer to HE bss color
1359  *
1360  * Print HE bss color IE
1361  *
1362  * Return: None
1363  */
1364 void lim_log_he_bss_color(struct mac_context *mac,
1365 			tDot11fIEbss_color_change *he_bss_color);
1366 #endif
1367 
1368 /**
1369  * lim_log_he_cap() - Print HE capabilities
1370  * @mac: pointer to MAC context
1371  * @he_cap: pointer to HE Capability
1372  *
1373  * Received HE capabilities are converted into dot11f structure.
1374  * This function will print all the HE capabilities as stored
1375  * in the dot11f structure.
1376  *
1377  * Return: None
1378  */
1379 void lim_log_he_cap(struct mac_context *mac, tDot11fIEhe_cap *he_cap);
1380 
1381 /**
1382  * lim_check_he_80_mcs11_supp() - Check whether MCS 0-11 rates are supported
1383  * @session: pointer to PE session
1384  * @he_cap: pointer to HE capabilities
1385  *
1386  * Return: true if MCS 0-11 rates are supported
1387  */
1388 bool lim_check_he_80_mcs11_supp(struct pe_session *session,
1389 				       tDot11fIEhe_cap *he_cap);
1390 
1391 void lim_check_and_force_he_ldpc_cap(struct pe_session *session,
1392 				     tDot11fIEhe_cap *he_cap);
1393 
1394 /**
1395  * lim_update_stads_he_caps() - Copy HE capability into STA DPH hash table entry
1396  * @mac_ctx: pointer to mac context
1397  * @sta_ds: pointer to sta dph hash table entry
1398  * @assoc_rsp: pointer to assoc response
1399  * @session_entry: pointer to PE session
1400  * @beacon: pointer to beacon
1401  *
1402  * Return: None
1403  */
1404 void lim_update_stads_he_caps(struct mac_context *mac_ctx,
1405 			      tpDphHashNode sta_ds, tpSirAssocRsp assoc_rsp,
1406 			      struct pe_session *session_entry,
1407 			      tSchBeaconStruct *beacon);
1408 
1409 /**
1410  * lim_update_usr_he_cap() - Update HE capability based on userspace
1411  * @mac_ctx: global mac context
1412  * @session: PE session entry
1413  *
1414  * Parse the HE Capability IE and populate the fields to be
1415  * sent to FW as part of add bss and update PE session.
1416  */
1417 void lim_update_usr_he_cap(struct mac_context *mac_ctx, struct pe_session *session);
1418 
1419 /**
1420  * lim_decide_he_op() - Determine HE operation elements
1421  * @mac_ctx: global mac context
1422  * @he_ops: mlme he ops
1423  * @session: PE session entry
1424  *
1425  * Parse the HE Operation IE and populate the fields to be
1426  * sent to FW as part of add bss.
1427  */
1428 void lim_decide_he_op(struct mac_context *mac_ctx, uint32_t *mlme_he_ops,
1429 		      struct pe_session *session);
1430 
1431 /**
1432  * lim_update_sta_he_capable(): Update he_capable in add sta params
1433  * @mac: pointer to MAC context
1434  * @add_sta_params: pointer to add sta params
1435  * @sta_ds: pointer to dph hash table entry
1436  * @session_entry: pointer to PE session
1437  *
1438  * Return: None
1439  */
1440 void lim_update_sta_he_capable(struct mac_context *mac,
1441 	tpAddStaParams add_sta_params, tpDphHashNode sta_ds,
1442 	struct pe_session *session_entry);
1443 
lim_is_session_he_capable(struct pe_session * session)1444 static inline bool lim_is_session_he_capable(struct pe_session *session)
1445 {
1446 	return session->he_capable;
1447 }
1448 
1449 /**
1450  * lim_update_he_bw_cap_mcs(): Update he mcs map per bandwidth
1451  * @session_entry: pointer to PE session
1452  * @beacon: pointer to beacon
1453  *
1454  * Return: None
1455  */
1456 void lim_update_he_bw_cap_mcs(struct pe_session *session,
1457 			      tSirProbeRespBeacon *beacon);
1458 
lim_is_he_6ghz_band(struct pe_session * session)1459 static inline bool lim_is_he_6ghz_band(struct pe_session *session)
1460 {
1461 	return session->he_6ghz_band;
1462 }
1463 
1464 /**
1465  * lim_get_session_he_frag_cap(): Get session HE fragmentation cap
1466  * @session: pointer to session
1467  *
1468  * Return: HE fragmentation value
1469  */
lim_get_session_he_frag_cap(struct pe_session * session)1470 static inline uint8_t lim_get_session_he_frag_cap(struct pe_session *session)
1471 {
1472 	return session->he_config.fragmentation;
1473 }
1474 
lim_is_sta_he_capable(tpDphHashNode sta_ds)1475 static inline bool lim_is_sta_he_capable(tpDphHashNode sta_ds)
1476 {
1477 	return sta_ds->mlmStaContext.he_capable;
1478 }
1479 
1480 /**
1481  * lim_update_bss_he_capable() - Update he_capable in add BSS params
1482  * @mac: pointer to MAC context
1483  * @add_bss: pointer to add BSS params
1484  *
1485  * Return: None
1486  */
1487 void lim_update_bss_he_capable(struct mac_context *mac,
1488 			       struct bss_params *add_bss);
1489 
1490 /**
1491  * lim_update_stads_he_capable() - Update he_capable in sta ds context
1492  * @sta_ds: pointer to sta ds
1493  * @assoc_req: pointer to assoc request
1494  *
1495  * Return: None
1496  */
1497 void lim_update_stads_he_capable(tpDphHashNode sta_ds, tpSirAssocReq assoc_req);
1498 
1499 /**
1500  * lim_update_session_he_capable(): Update he_capable in PE session
1501  * @mac: pointer to MAC context
1502  * @session: pointer to PE session
1503  *
1504  * Return: None
1505  */
1506 void lim_update_session_he_capable(struct mac_context *mac, struct pe_session *session);
1507 
1508 /**
1509  * lim_update_session_he_capable_chan_switch(): Update he_capable in PE session
1510  * @mac: pointer to MAC context
1511  * @session: pointer to PE session
1512  * @new_chan_freq: new channel frequency Mhz
1513  *
1514  * Update session he capable during AP channel switching
1515  *
1516  * Return: None
1517  */
1518 void lim_update_session_he_capable_chan_switch(struct mac_context *mac,
1519 					       struct pe_session *session,
1520 					       uint32_t new_chan_freq);
1521 
1522 /**
1523  * lim_set_he_caps() - update HE caps to be sent to FW as part of scan IE
1524  * @mac: pointer to MAC
1525  * @ie_start: pointer to start of IE buffer
1526  * @num_bytes: length of IE buffer
1527  * @band: 2g or 5g band
1528  *
1529  * Return: None
1530  */
1531 void lim_set_he_caps(struct mac_context *mac, uint8_t *ie_start,
1532 		     uint32_t num_bytes, uint8_t band);
1533 
1534 /**
1535  * lim_send_he_caps_ie() - gets HE capability and send to firmware via wma
1536  * @mac_ctx: global mac context
1537  * @device_mode: VDEV op mode
1538  * @vdev_id: vdev for which IE is targeted
1539  *
1540  * This function gets HE capability and send to firmware via wma
1541  *
1542  * Return: QDF_STATUS
1543  */
1544 QDF_STATUS lim_send_he_caps_ie(struct mac_context *mac_ctx,
1545 			       enum QDF_OPMODE device_mode,
1546 			       uint8_t vdev_id);
1547 
1548 /**
1549  * lim_populate_he_mcs_per_bw() - pouldate HE mcs set per BW (le 80, 160, 80+80)
1550  * @mac_ctx: Global MAC context
1551  * @self_rx: self rx mcs set
1552  * @self_tx: self tx mcs set
1553  * @peer_rx: peer rx mcs set
1554  * @peer_tx: peer tx mcs set
1555  * @nss: nss
1556  * @cfg_rx_param: rx wni param to read
1557  * @cfg_tx_param: tx wni param to read
1558  *
1559  * MCS values are interpreted as in IEEE 11ax-D1.4 spec onwards
1560  * +-----------------------------------------------------+
1561  * |  SS8  |  SS7  |  SS6  | SS5 | SS4 | SS3 | SS2 | SS1 |
1562  * +-----------------------------------------------------+
1563  * | 15-14 | 13-12 | 11-10 | 9-8 | 7-6 | 5-4 | 3-2 | 1-0 |
1564  * +-----------------------------------------------------+
1565  *
1566  * Return: status of operation
1567  */
1568 QDF_STATUS lim_populate_he_mcs_per_bw(struct mac_context *mac_ctx,
1569 				      uint16_t *supp_rx_mcs,
1570 				      uint16_t *supp_tx_mcs,
1571 				      uint16_t peer_rx, uint16_t peer_tx,
1572 				      uint8_t nss, uint16_t rx_mcs,
1573 				      uint16_t tx_mcs);
1574 
1575 /**
1576  * lim_populate_he_mcs_set() - function to populate HE mcs rate set
1577  * @mac_ctx: pointer to global mac structure
1578  * @rates: pointer to supported rate set
1579  * @peer_vht_caps: pointer to peer HE capabilities
1580  * @session_entry: pe session entry
1581  * @nss: number of spatial streams
1582  *
1583  * Populates HE mcs rate set based on peer and self capabilities
1584  *
1585  * Return: QDF_STATUS
1586  */
1587 QDF_STATUS lim_populate_he_mcs_set(struct mac_context *mac_ctx,
1588 				   struct supported_rates *rates,
1589 				   tDot11fIEhe_cap *peer_he_caps,
1590 				   struct pe_session *session_entry,
1591 				   uint8_t nss);
1592 
1593 /**
1594  * lim_update_stads_he_6ghz_op() - Update sta ds channel info
1595  * @session: pe session
1596  * @sta_ds: pointer to sta ds struct
1597 
1598  * Update sta_ds channel width.
1599  *
1600  * Return: void
1601  */
1602 void lim_update_stads_he_6ghz_op(struct pe_session *session,
1603 				 tpDphHashNode sta_ds);
1604 
1605 /**
1606  * lim_update_he_6ghz_band_caps() - Update he 6ghz band caps
1607  * @mac_ctx: Global MAC context
1608  * @pAssocRsp: contains the structured assoc/reassoc Response got from AP
1609  * @add_bss: pointer to ADD BSS params
1610  *
1611  * Update 6ghz band caps based on HE capability
1612  *
1613  * Return: none
1614  */
1615 void lim_update_he_6ghz_band_caps(struct mac_context *mac,
1616 				  tDot11fIEhe_6ghz_band_cap *he_6ghz_band_cap,
1617 				  tpAddStaParams params);
1618 
1619 #else
lim_add_he_cap(struct mac_context * mac_ctx,struct pe_session * pe_session,tpAddStaParams add_sta_params,tpSirAssocReq assoc_req)1620 static inline void lim_add_he_cap(struct mac_context *mac_ctx,
1621 				  struct pe_session *pe_session,
1622 				  tpAddStaParams add_sta_params,
1623 				  tpSirAssocReq assoc_req)
1624 {
1625 }
1626 
lim_add_self_he_cap(tpAddStaParams add_sta_params,struct pe_session * session)1627 static inline void lim_add_self_he_cap(tpAddStaParams add_sta_params,
1628 				       struct pe_session *session)
1629 {
1630 }
1631 
lim_add_bss_he_cap(struct bss_params * add_bss,tpSirAssocRsp assoc_rsp)1632 static inline void lim_add_bss_he_cap(struct bss_params *add_bss,
1633 				      tpSirAssocRsp assoc_rsp)
1634 {
1635 	return;
1636 }
1637 
lim_add_bss_he_cfg(struct bss_params * add_bss,struct pe_session * session)1638 static inline void lim_add_bss_he_cfg(struct bss_params *add_bss,
1639 					 struct pe_session *session)
1640 {
1641 }
1642 
lim_update_he_6gop_assoc_resp(struct bss_params * pAddBssParams,tDot11fIEhe_op * he_op,struct pe_session * pe_session)1643 static inline void lim_update_he_6gop_assoc_resp(
1644 					struct bss_params *pAddBssParams,
1645 					tDot11fIEhe_op *he_op,
1646 					struct pe_session *pe_session)
1647 {
1648 }
1649 
lim_intersect_ap_he_caps(struct pe_session * session,struct bss_params * add_bss,tSchBeaconStruct * pBeaconStruct,tpSirAssocRsp assoc_rsp,struct bss_description * bss_desc)1650 static inline void lim_intersect_ap_he_caps(struct pe_session *session,
1651 					    struct bss_params *add_bss,
1652 					    tSchBeaconStruct *pBeaconStruct,
1653 					    tpSirAssocRsp assoc_rsp,
1654 					    struct bss_description *bss_desc)
1655 {
1656 	return;
1657 }
1658 
lim_intersect_sta_he_caps(struct mac_context * mac_ctx,tpSirAssocReq assoc_req,struct pe_session * session,tpDphHashNode sta_ds)1659 static inline void lim_intersect_sta_he_caps(struct mac_context *mac_ctx,
1660 					     tpSirAssocReq assoc_req,
1661 					     struct pe_session *session,
1662 					     tpDphHashNode sta_ds)
1663 {
1664 }
1665 
lim_update_stads_he_caps(struct mac_context * mac_ctx,tpDphHashNode sta_ds,tpSirAssocRsp assoc_rsp,struct pe_session * session_entry,tSchBeaconStruct * beacon)1666 static inline void lim_update_stads_he_caps(struct mac_context *mac_ctx,
1667 					    tpDphHashNode sta_ds,
1668 					    tpSirAssocRsp assoc_rsp,
1669 					    struct pe_session *session_entry,
1670 					    tSchBeaconStruct *beacon)
1671 {
1672 	return;
1673 }
1674 
lim_update_usr_he_cap(struct mac_context * mac_ctx,struct pe_session * session)1675 static inline void lim_update_usr_he_cap(struct mac_context *mac_ctx,
1676 			struct pe_session *session)
1677 {
1678 }
1679 
lim_decide_he_op(struct mac_context * mac_ctx,uint32_t * mlme_he_ops,struct pe_session * session)1680 static inline void lim_decide_he_op(struct mac_context *mac_ctx,
1681 			uint32_t *mlme_he_ops, struct pe_session *session)
1682 {
1683 }
1684 
1685 static inline
lim_copy_bss_he_cap(struct pe_session * session)1686 void lim_copy_bss_he_cap(struct pe_session *session)
1687 {
1688 }
1689 
1690 static inline
lim_update_he_caps_mcs(struct mac_context * mac,struct pe_session * session)1691 void lim_update_he_caps_mcs(struct mac_context *mac, struct pe_session *session)
1692 {
1693 }
1694 
lim_copy_join_req_he_cap(struct pe_session * session)1695 static inline void lim_copy_join_req_he_cap(struct pe_session *session)
1696 {
1697 }
1698 
lim_log_he_op(struct mac_context * mac,tDot11fIEhe_op * he_ops,struct pe_session * session)1699 static inline void lim_log_he_op(struct mac_context *mac,
1700 				 tDot11fIEhe_op *he_ops,
1701 				 struct pe_session *session)
1702 {
1703 }
1704 
lim_log_he_cap(struct mac_context * mac,tDot11fIEhe_cap * he_cap)1705 static inline void lim_log_he_cap(struct mac_context *mac,
1706 	tDot11fIEhe_cap *he_cap)
1707 {
1708 }
1709 
lim_update_sta_he_capable(struct mac_context * mac,tpAddStaParams add_sta_params,tpDphHashNode sta_ds,struct pe_session * session_entry)1710 static inline void lim_update_sta_he_capable(struct mac_context *mac,
1711 			tpAddStaParams add_sta_params,
1712 			tpDphHashNode sta_ds, struct pe_session *session_entry)
1713 {
1714 }
1715 
lim_is_session_he_capable(struct pe_session * session)1716 static inline bool lim_is_session_he_capable(struct pe_session *session)
1717 {
1718 	return false;
1719 }
1720 
lim_update_he_bw_cap_mcs(struct pe_session * session,tSirProbeRespBeacon * beacon)1721 static inline void lim_update_he_bw_cap_mcs(struct pe_session *session,
1722 					    tSirProbeRespBeacon *beacon)
1723 {
1724 }
1725 
lim_is_he_6ghz_band(struct pe_session * session)1726 static inline bool lim_is_he_6ghz_band(struct pe_session *session)
1727 {
1728 	return false;
1729 }
1730 
lim_get_session_he_frag_cap(struct pe_session * session)1731 static inline uint8_t lim_get_session_he_frag_cap(struct pe_session *session)
1732 {
1733 	return 0;
1734 }
1735 
lim_is_sta_he_capable(tpDphHashNode sta_ds)1736 static inline bool lim_is_sta_he_capable(tpDphHashNode sta_ds)
1737 {
1738 	return false;
1739 }
1740 
lim_update_bss_he_capable(struct mac_context * mac,struct bss_params * add_bss)1741 static inline void lim_update_bss_he_capable(struct mac_context *mac,
1742 					     struct bss_params *add_bss)
1743 {
1744 }
1745 
lim_update_stads_he_capable(tpDphHashNode sta_ds,tpSirAssocReq assoc_req)1746 static inline void lim_update_stads_he_capable(tpDphHashNode sta_ds,
1747 		tpSirAssocReq assoc_req)
1748 {
1749 }
1750 
lim_update_session_he_capable(struct mac_context * mac,struct pe_session * session)1751 static inline void lim_update_session_he_capable(struct mac_context *mac,
1752 			struct pe_session *session)
1753 {
1754 }
1755 
1756 static inline
lim_update_session_he_capable_chan_switch(struct mac_context * mac,struct pe_session * session,uint32_t new_chan_freq)1757 void lim_update_session_he_capable_chan_switch(struct mac_context *mac,
1758 					       struct pe_session *session,
1759 					       uint32_t new_chan_freq)
1760 {
1761 }
1762 
lim_set_he_caps(struct mac_context * mac,struct pe_session * session,uint8_t * ie_start,uint32_t num_bytes,uint8_t band)1763 static inline void lim_set_he_caps(struct mac_context *mac, struct pe_session *session,
1764 				   uint8_t *ie_start, uint32_t num_bytes,
1765 				   uint8_t band)
1766 {
1767 }
1768 
lim_send_he_caps_ie(struct mac_context * mac_ctx,enum QDF_OPMODE device_mode,uint8_t vdev_id)1769 static inline QDF_STATUS lim_send_he_caps_ie(struct mac_context *mac_ctx,
1770 					     enum QDF_OPMODE device_mode,
1771 					     uint8_t vdev_id)
1772 {
1773 	return QDF_STATUS_SUCCESS;
1774 }
1775 
1776 static inline
lim_populate_he_mcs_set(struct mac_context * mac_ctx,struct supported_rates * rates,tDot11fIEhe_cap * peer_he_caps,struct pe_session * session_entry,uint8_t nss)1777 QDF_STATUS lim_populate_he_mcs_set(struct mac_context *mac_ctx,
1778 				   struct supported_rates *rates,
1779 				   tDot11fIEhe_cap *peer_he_caps,
1780 				   struct pe_session *session_entry,
1781 				   uint8_t nss)
1782 {
1783 	return QDF_STATUS_SUCCESS;
1784 }
1785 
1786 static inline void
lim_update_stads_he_6ghz_op(struct pe_session * session,tpDphHashNode sta_ds)1787 lim_update_stads_he_6ghz_op(struct pe_session *session,
1788 			    tpDphHashNode sta_ds)
1789 {
1790 }
1791 
1792 static inline void
lim_update_he_6ghz_band_caps(struct mac_context * mac,tDot11fIEhe_6ghz_band_cap * he_6ghz_band_cap,tpAddStaParams params)1793 lim_update_he_6ghz_band_caps(struct mac_context *mac,
1794 			     tDot11fIEhe_6ghz_band_cap *he_6ghz_band_cap,
1795 			     tpAddStaParams params)
1796 {
1797 }
1798 #endif
1799 
1800 #ifdef WLAN_FEATURE_11BE
lim_is_session_eht_capable(struct pe_session * session)1801 static inline bool lim_is_session_eht_capable(struct pe_session *session)
1802 {
1803 	if (!session)
1804 		return false;
1805 
1806 	return session->eht_capable;
1807 }
1808 
lim_is_sta_eht_capable(tpDphHashNode sta_ds)1809 static inline bool lim_is_sta_eht_capable(tpDphHashNode sta_ds)
1810 {
1811 	return sta_ds->mlmStaContext.eht_capable;
1812 }
1813 
1814 QDF_STATUS lim_strip_eht_op_ie(struct mac_context *mac_ctx,
1815 			       uint8_t *frame_ies,
1816 			       uint16_t *ie_buf_size,
1817 			       uint8_t *eht_op_ie);
1818 
1819 QDF_STATUS lim_strip_eht_cap_ie(struct mac_context *mac_ctx,
1820 				uint8_t *frame_ies,
1821 				uint16_t *ie_buf_size,
1822 				uint8_t *eht_cap_ie);
1823 
1824 /**
1825  * lim_populate_eht_mcs_set() - function to populate EHT mcs rate set
1826  * @mac_ctx: pointer to global mac structure
1827  * @rates: pointer to supported rate set
1828  * @peer_eht_caps: pointer to peer EHT capabilities
1829  * @session_entry: pe session entry
1830  * @ch_width: channel width of the association
1831  *
1832  * Populates EHT mcs rate set based on peer and self capabilities
1833  *
1834  * Return: QDF_STATUS
1835  */
1836 QDF_STATUS lim_populate_eht_mcs_set(struct mac_context *mac_ctx,
1837 				    struct supported_rates *rates,
1838 				    tDot11fIEeht_cap *peer_eht_caps,
1839 				    struct pe_session *session_entry,
1840 				    enum phy_ch_width ch_width);
1841 
1842 /**
1843  * lim_update_eht_bw_cap_mcs(): Update eht mcs map per bandwidth
1844  * @session_entry: pointer to PE session
1845  * @beacon: pointer to beacon
1846  *
1847  * Return: None
1848  */
1849 void lim_update_eht_bw_cap_mcs(struct pe_session *session,
1850 			       tSirProbeRespBeacon *beacon);
1851 
1852 /**
1853  * lim_add_self_eht_cap() - Copy EHT capability into add sta from PE session
1854  * @add_sta_params: pointer to add sta params
1855  * @session: pointer to PE Session
1856  *
1857  * Return: None
1858  */
1859 void lim_add_self_eht_cap(tpAddStaParams add_sta_params,
1860 			  struct pe_session *session);
1861 
1862 /**
1863  * lim_update_usr_eht_cap() - Update EHT capability based on userspace
1864  * @mac_ctx: global mac context
1865  * @session: PE session entry
1866  *
1867  * Parse the EHT Capability IE and populate the fields to be
1868  * sent to FW as part of add bss and update PE session.
1869  */
1870 void lim_update_usr_eht_cap(struct mac_context *mac_ctx,
1871 			    struct pe_session *session);
1872 
1873 /**
1874  * lim_copy_bss_eht_cap() - Copy EHT capability into PE session from start bss
1875  * @session: pointer to PE session
1876  *
1877  * Return: None
1878  */
1879 void lim_copy_bss_eht_cap(struct pe_session *session);
1880 
1881 /**
1882  * lim_copy_join_req_eht_cap() - Copy EHT capability to PE session from Join req
1883  * and update as per bandwidth supported
1884  * @session: pointer to PE session
1885  *
1886  * Return: None
1887  */
1888 void lim_copy_join_req_eht_cap(struct pe_session *session);
1889 
1890 /**
1891  * lim_add_eht_cap() - Copy EHT capability into Add sta params
1892  * @mac_ctx: Global MAC context
1893  * @pe_session: pe session entry
1894  * @add_sta_params: pointer to add sta params
1895  * @assoc_req: pointer to Assoc request
1896  *
1897  * Return: None
1898  */
1899 void lim_add_eht_cap(struct mac_context *mac_ctx, struct pe_session *pe_session,
1900 		     tpAddStaParams add_sta_params, tpSirAssocReq assoc_req);
1901 
1902 /**
1903  * lim_intersect_ap_eht_caps() - Intersect AP and self STA EHT capabilities
1904  * @session: pointer to PE session
1905  * @add_bss: pointer to ADD BSS params
1906  * @beacon: pointer to beacon
1907  * @assoc_rsp: pointer to assoc response
1908  *
1909  * Return: None
1910  */
1911 void lim_intersect_ap_eht_caps(struct pe_session *session,
1912 			       struct bss_params *add_bss,
1913 			       tSchBeaconStruct *pBeaconStruct,
1914 			       tpSirAssocRsp assoc_rsp);
1915 
1916 /**
1917  * lim_add_bss_eht_cap() - Copy EHT capability into ADD BSS params
1918  * @add_bss: pointer to add bss params
1919  * @assoc_rsp: pointer to assoc response
1920  *
1921  * Return: None
1922  */
1923 void lim_add_bss_eht_cap(struct bss_params *add_bss, tpSirAssocRsp assoc_rsp);
1924 
1925 /**
1926  * lim_intersect_sta_eht_caps() - Intersect STA capability with SAP capability
1927  * @mac_ctx: pointer to the MAC context
1928  * @assoc_req: pointer to assoc request
1929  * @session: pointer to PE session
1930  * @sta_ds: pointer to STA dph hash table entry
1931  *
1932  * Return: None
1933  */
1934 void lim_intersect_sta_eht_caps(struct mac_context *mac_ctx,
1935 				tpSirAssocReq assoc_req,
1936 				struct pe_session *session,
1937 				tpDphHashNode sta_ds);
1938 
1939 /**
1940  * lim_update_session_eht_capable(): Update eht_capable in PE session
1941  * @mac: pointer to MAC context
1942  * @session: pointer to PE session
1943  *
1944  * Return: None
1945  */
1946 void lim_update_session_eht_capable(struct mac_context *mac,
1947 				    struct pe_session *session);
1948 
1949 /**
1950  * lim_add_bss_eht_cfg() - Set EHT config to BSS params
1951  * @add_bss: pointer to add bss params
1952  * @session: Pointer to Session entry struct
1953  *
1954  * Return: None
1955  */
1956 void lim_add_bss_eht_cfg(struct bss_params *add_bss,
1957 			 struct pe_session *session);
1958 
1959 /**
1960  * lim_decide_eht_op() - Determine EHT operation elements
1961  * @mac_ctx: global mac context
1962  * @eht_ops: mlme eht ops
1963  * @session: PE session entry
1964  *
1965  * Parse the EHT Operation IE and populate the fields to be
1966  * sent to FW as part of add bss.
1967  */
1968 void lim_decide_eht_op(struct mac_context *mac_ctx, uint32_t *mlme_eht_ops,
1969 		       struct pe_session *session);
1970 
1971 /**
1972  * lim_update_stads_eht_capable() - Update eht_capable in sta ds context
1973  * @sta_ds: pointer to sta ds
1974  * @assoc_req: pointer to assoc request
1975  *
1976  * Return: None
1977  */
1978 void lim_update_stads_eht_capable(tpDphHashNode sta_ds,
1979 				  tpSirAssocReq assoc_req);
1980 
1981 /**
1982  * lim_update_sta_eht_capable(): Update eht_capable in add sta params
1983  * @mac: pointer to MAC context
1984  * @add_sta_params: pointer to add sta params
1985  * @sta_ds: pointer to dph hash table entry
1986  * @session_entry: pointer to PE session
1987  *
1988  * Return: None
1989  */
1990 void lim_update_sta_eht_capable(struct mac_context *mac,
1991 				tpAddStaParams add_sta_params,
1992 				tpDphHashNode sta_ds,
1993 				struct pe_session *session_entry);
1994 
1995 #ifdef FEATURE_WLAN_TDLS
1996 /**
1997  * lim_update_tdls_sta_eht_capable(): Update eht_capable in add tdls sta params
1998  * @mac: pointer to MAC context
1999  * @add_sta_params: pointer to add sta params
2000  * @sta_ds: pointer to dph hash table entry
2001  * @session_entry: pointer to PE session
2002  *
2003  * Return: None
2004  */
2005 void lim_update_tdls_sta_eht_capable(struct mac_context *mac,
2006 				     tpAddStaParams add_sta_params,
2007 				     tpDphHashNode sta_ds,
2008 				     struct pe_session *session_entry);
2009 #else
2010 static inline
lim_update_tdls_sta_eht_capable(struct mac_context * mac,tpAddStaParams add_sta_params,tpDphHashNode sta_ds,struct pe_session * session_entry)2011 void lim_update_tdls_sta_eht_capable(struct mac_context *mac,
2012 				     tpAddStaParams add_sta_params,
2013 				     tpDphHashNode sta_ds,
2014 				     struct pe_session *session_entry)
2015 {
2016 }
2017 #endif
2018 
2019 /**
2020  * lim_update_session_eht_capable_chan_switch(): Update eht_capable in PE
2021  *                                               session
2022  * @mac: pointer to MAC context
2023  * @session: pointer to PE session
2024  * @new_chan_freq: new channel frequency Mhz
2025  *
2026  * Update session eht capable during AP channel switching
2027  *
2028  * Return: None
2029  */
2030 void lim_update_session_eht_capable_chan_switch(struct mac_context *mac,
2031 						struct pe_session *session,
2032 						uint32_t new_chan_freq);
2033 
2034 /**
2035  * lim_update_bss_eht_capable() - Update eht_capable in add BSS params
2036  * @mac: pointer to MAC context
2037  * @add_bss: pointer to add BSS params
2038  *
2039  * Return: None
2040  */
2041 void lim_update_bss_eht_capable(struct mac_context *mac,
2042 				struct bss_params *add_bss);
2043 
2044 /**
2045  * lim_log_eht_cap() - Print EHT capabilities
2046  * @mac: pointer to MAC context
2047  * @eht_cap: pointer to HE Capability
2048  *
2049  * Received EHT capabilities are converted into dot11f structure.
2050  * This function will print all the EHT capabilities as stored
2051  * in the dot11f structure.
2052  *
2053  * Return: None
2054  */
2055 void lim_log_eht_cap(struct mac_context *mac, tDot11fIEeht_cap *eht_cap);
2056 
2057 /**
2058  * lim_set_eht_caps() - update EHT caps to be sent to FW as part of scan IE
2059  * @mac: pointer to MAC
2060  * @ie_start: pointer to start of IE buffer
2061  * @num_bytes: length of IE buffer
2062  * @band: 2g or 5g band
2063  * @vdev_id: vdev id
2064  *
2065  * Return: None
2066  */
2067 void lim_set_eht_caps(struct mac_context *mac, uint8_t *ie_start,
2068 		      uint32_t num_bytes, uint8_t band, uint8_t vdev_id);
2069 
2070 /**
2071  * lim_send_eht_caps_ie() - gets EHT capability and send to firmware via wma
2072  * @mac_ctx: global mac context
2073  * @device_mode: VDEV op mode
2074  * @vdev_id: vdev for which IE is targeted
2075  *
2076  * This function gets EHT capability and send to firmware via wma
2077  *
2078  * Return: QDF_STATUS
2079  */
2080 QDF_STATUS lim_send_eht_caps_ie(struct mac_context *mac_ctx,
2081 				enum QDF_OPMODE device_mode,
2082 				uint8_t vdev_id);
2083 /**
2084  * lim_log_eht_op() - Print EHT Operation
2085  * @mac: pointer to MAC context
2086  * @eht_op: pointer to EHT Operation
2087  * @session: pointer to PE session
2088  *
2089  * Print EHT operation stored as dot11f structure
2090  *
2091  * Return: None
2092  */
2093 void lim_log_eht_op(struct mac_context *mac, tDot11fIEeht_op *eht_ops,
2094 		    struct pe_session *session);
2095 
2096 /**
2097  * lim_update_stads_eht_caps() - Copy EHT capability into STA DPH hash table
2098  *                               entry
2099  * @mac_ctx: pointer to mac context
2100  * @sta_ds: pointer to sta dph hash table entry
2101  * @assoc_rsp: pointer to assoc response
2102  * @session_entry: pointer to PE session
2103  * @beacon: pointer to beacon
2104  *
2105  * Return: None
2106  */
2107 void lim_update_stads_eht_caps(struct mac_context *mac_ctx,
2108 			       tpDphHashNode sta_ds, tpSirAssocRsp assoc_rsp,
2109 			       struct pe_session *session_entry,
2110 			       tSchBeaconStruct *beacon);
2111 
2112 /**
2113  * lim_update_stads_eht_bw_320mhz() - Set ch_width to 320MHz for sta_ds
2114  * @session: pointer to PE session
2115  * @sta_ds: pointer to sta dph hash table entry
2116  *
2117  * Set ch_width to 320 MHz only when session is in 320 MHz and peer eht
2118  * caps support 320 MHz after eht caps intersection.
2119  *
2120  * Return: None
2121  */
2122 void lim_update_stads_eht_bw_320mhz(struct pe_session *session,
2123 				    tpDphHashNode sta_ds);
2124 
2125 /**
2126  * lim_is_session_chwidth_320mhz() - Check if session chan width is 320 MHz
2127  * @session: pointer to PE session
2128  *
2129  * Check if session channel width is 320 MHz
2130  *
2131  * Return: bool
2132  */
2133 bool lim_is_session_chwidth_320mhz(struct pe_session *session);
2134 
2135 /**
2136  * lim_update_eht_caps_mcs() - update eht caps
2137  *
2138  * @mac: Pointer to Global mac structure
2139  * @session: Session pointer of the interface
2140  *
2141  * Return: None
2142  */
2143 void
2144 lim_update_eht_caps_mcs(struct mac_context *mac, struct pe_session *session);
2145 
2146 /**
2147  * lim_update_des_chan_puncture() - set puncture_bitmap of des_chan
2148  * @des_chan: pointer to wlan_channel
2149  * @ch_params: pointer to ch_params
2150  *
2151  * Return: void
2152  */
2153 void lim_update_des_chan_puncture(struct wlan_channel *des_chan,
2154 				  struct ch_params *ch_params);
2155 
2156 /**
2157  * lim_overwrite_sta_puncture() - overwrite STA puncture with AP puncture
2158  * @session: session
2159  * @@ch_param: pointer to ch_params
2160  *
2161  * Return: void
2162  */
2163 void lim_overwrite_sta_puncture(struct pe_session *session,
2164 				struct ch_params *ch_param);
2165 #else
2166 static inline
lim_update_tdls_sta_eht_capable(struct mac_context * mac,tpAddStaParams add_sta_params,tpDphHashNode sta_ds,struct pe_session * session_entry)2167 void lim_update_tdls_sta_eht_capable(struct mac_context *mac,
2168 				     tpAddStaParams add_sta_params,
2169 				     tpDphHashNode sta_ds,
2170 				     struct pe_session *session_entry)
2171 {
2172 }
2173 
lim_is_session_eht_capable(struct pe_session * session)2174 static inline bool lim_is_session_eht_capable(struct pe_session *session)
2175 {
2176 	return false;
2177 }
2178 
lim_is_sta_eht_capable(tpDphHashNode sta_ds)2179 static inline bool lim_is_sta_eht_capable(tpDphHashNode sta_ds)
2180 {
2181 	return false;
2182 }
2183 
2184 static inline
lim_strip_eht_op_ie(struct mac_context * mac_ctx,uint8_t * frame_ies,uint16_t * ie_buf_size,uint8_t * eht_op_ie)2185 QDF_STATUS lim_strip_eht_op_ie(struct mac_context *mac_ctx,
2186 			       uint8_t *frame_ies,
2187 			       uint16_t *ie_buf_size,
2188 			       uint8_t *eht_op_ie)
2189 {
2190 	return QDF_STATUS_E_FAILURE;
2191 }
2192 
2193 static inline
lim_strip_eht_cap_ie(struct mac_context * mac_ctx,uint8_t * frame_ies,uint16_t * ie_buf_size,uint8_t * eht_cap_ie)2194 QDF_STATUS lim_strip_eht_cap_ie(struct mac_context *mac_ctx,
2195 				uint8_t *frame_ies,
2196 				uint16_t *ie_buf_size,
2197 				uint8_t *eht_cap_ie)
2198 {
2199 	return QDF_STATUS_E_FAILURE;
2200 }
2201 
2202 static inline
lim_populate_eht_mcs_set(struct mac_context * mac_ctx,struct supported_rates * rates,tDot11fIEeht_cap * peer_eht_caps,struct pe_session * session_entry,enum phy_ch_width ch_width)2203 QDF_STATUS lim_populate_eht_mcs_set(struct mac_context *mac_ctx,
2204 				    struct supported_rates *rates,
2205 				    tDot11fIEeht_cap *peer_eht_caps,
2206 				    struct pe_session *session_entry,
2207 				    enum phy_ch_width ch_width)
2208 {
2209 	return QDF_STATUS_SUCCESS;
2210 }
2211 
lim_update_eht_bw_cap_mcs(struct pe_session * session,tSirProbeRespBeacon * beacon)2212 static inline void lim_update_eht_bw_cap_mcs(struct pe_session *session,
2213 					     tSirProbeRespBeacon *beacon)
2214 {
2215 }
2216 
lim_add_self_eht_cap(tpAddStaParams add_sta_params,struct pe_session * session)2217 static inline void lim_add_self_eht_cap(tpAddStaParams add_sta_params,
2218 					struct pe_session *session)
2219 {
2220 }
2221 
lim_update_usr_eht_cap(struct mac_context * mac_ctx,struct pe_session * session)2222 static inline void lim_update_usr_eht_cap(struct mac_context *mac_ctx,
2223 					  struct pe_session *session)
2224 {
2225 }
2226 
lim_copy_bss_eht_cap(struct pe_session * session)2227 static inline void lim_copy_bss_eht_cap(struct pe_session *session)
2228 {
2229 }
2230 
lim_copy_join_req_eht_cap(struct pe_session * session)2231 static inline void lim_copy_join_req_eht_cap(struct pe_session *session)
2232 {
2233 }
2234 
lim_add_eht_cap(struct mac_context * mac_ctx,struct pe_session * pe_session,tpAddStaParams add_sta_params,tpSirAssocReq assoc_req)2235 static inline void lim_add_eht_cap(struct mac_context *mac_ctx,
2236 				   struct pe_session *pe_session,
2237 				   tpAddStaParams add_sta_params,
2238 				   tpSirAssocReq assoc_req)
2239 {
2240 }
2241 
2242 static inline void
lim_intersect_ap_eht_caps(struct pe_session * session,struct bss_params * add_bss,tSchBeaconStruct * pBeaconStruct,tpSirAssocRsp assoc_rsp)2243 lim_intersect_ap_eht_caps(struct pe_session *session,
2244 			  struct bss_params *add_bss,
2245 			  tSchBeaconStruct *pBeaconStruct,
2246 			  tpSirAssocRsp assoc_rsp)
2247 {
2248 }
2249 
lim_add_bss_eht_cap(struct bss_params * add_bss,tpSirAssocRsp assoc_rsp)2250 static inline void lim_add_bss_eht_cap(struct bss_params *add_bss,
2251 				       tpSirAssocRsp assoc_rsp)
2252 {
2253 }
2254 
2255 static inline
lim_intersect_sta_eht_caps(struct mac_context * mac_ctx,tpSirAssocReq assoc_req,struct pe_session * session,tpDphHashNode sta_ds)2256 void lim_intersect_sta_eht_caps(struct mac_context *mac_ctx,
2257 				tpSirAssocReq assoc_req,
2258 				struct pe_session *session,
2259 				tpDphHashNode sta_ds)
2260 {
2261 }
2262 
2263 static inline
lim_update_session_eht_capable(struct mac_context * mac,struct pe_session * session)2264 void lim_update_session_eht_capable(struct mac_context *mac,
2265 				    struct pe_session *session)
2266 {
2267 }
2268 
2269 static inline void
lim_add_bss_eht_cfg(struct bss_params * add_bss,struct pe_session * session)2270 lim_add_bss_eht_cfg(struct bss_params *add_bss, struct pe_session *session)
2271 {
2272 }
2273 
2274 static inline void
lim_decide_eht_op(struct mac_context * mac_ctx,uint32_t * mlme_eht_ops,struct pe_session * session)2275 lim_decide_eht_op(struct mac_context *mac_ctx, uint32_t *mlme_eht_ops,
2276 		  struct pe_session *session)
2277 {
2278 }
2279 
2280 static inline void
lim_update_stads_eht_capable(tpDphHashNode sta_ds,tpSirAssocReq assoc_req)2281 lim_update_stads_eht_capable(tpDphHashNode sta_ds, tpSirAssocReq assoc_req)
2282 {
2283 }
2284 
2285 static inline void
lim_update_sta_eht_capable(struct mac_context * mac,tpAddStaParams add_sta_params,tpDphHashNode sta_ds,struct pe_session * session_entry)2286 lim_update_sta_eht_capable(struct mac_context *mac,
2287 			   tpAddStaParams add_sta_params,
2288 			   tpDphHashNode sta_ds,
2289 			   struct pe_session *session_entry)
2290 {
2291 }
2292 
2293 static inline void
lim_update_session_eht_capable_chan_switch(struct mac_context * mac,struct pe_session * session,uint32_t new_chan_freq)2294 lim_update_session_eht_capable_chan_switch(struct mac_context *mac,
2295 					   struct pe_session *session,
2296 					   uint32_t new_chan_freq)
2297 {
2298 }
2299 
2300 static inline void
lim_update_bss_eht_capable(struct mac_context * mac,struct bss_params * add_bss)2301 lim_update_bss_eht_capable(struct mac_context *mac,
2302 			   struct bss_params *add_bss)
2303 {
2304 }
2305 
2306 static inline void
lim_log_eht_cap(struct mac_context * mac,tDot11fIEeht_cap * eht_cap)2307 lim_log_eht_cap(struct mac_context *mac, tDot11fIEeht_cap *eht_cap)
2308 {
2309 }
2310 
2311 static inline void
lim_set_eht_caps(struct mac_context * mac,uint8_t * ie_start,uint32_t num_bytes,uint8_t band,uint8_t vdev_id)2312 lim_set_eht_caps(struct mac_context *mac, uint8_t *ie_start,
2313 		 uint32_t num_bytes, uint8_t band, uint8_t vdev_id)
2314 {
2315 }
2316 
2317 static inline QDF_STATUS
lim_send_eht_caps_ie(struct mac_context * mac_ctx,enum QDF_OPMODE device_mode,uint8_t vdev_id)2318 lim_send_eht_caps_ie(struct mac_context *mac_ctx,
2319 		     enum QDF_OPMODE device_mode, uint8_t vdev_id)
2320 {
2321 	return QDF_STATUS_SUCCESS;
2322 }
2323 
2324 static inline void
lim_log_eht_op(struct mac_context * mac,tDot11fIEeht_op * eht_ops,struct pe_session * session)2325 lim_log_eht_op(struct mac_context *mac, tDot11fIEeht_op *eht_ops,
2326 	       struct pe_session *session)
2327 {
2328 }
2329 
2330 static inline void
lim_update_stads_eht_caps(struct mac_context * mac_ctx,tpDphHashNode sta_ds,tpSirAssocRsp assoc_rsp,struct pe_session * session_entry,tSchBeaconStruct * beacon)2331 lim_update_stads_eht_caps(struct mac_context *mac_ctx,
2332 			  tpDphHashNode sta_ds, tpSirAssocRsp assoc_rsp,
2333 			  struct pe_session *session_entry,
2334 			  tSchBeaconStruct *beacon)
2335 {
2336 }
2337 
2338 static inline void
lim_update_stads_eht_bw_320mhz(struct pe_session * session,tpDphHashNode sta_ds)2339 lim_update_stads_eht_bw_320mhz(struct pe_session *session,
2340 			       tpDphHashNode sta_ds)
2341 {
2342 }
2343 
2344 static inline bool
lim_is_session_chwidth_320mhz(struct pe_session * session)2345 lim_is_session_chwidth_320mhz(struct pe_session *session)
2346 {
2347 	return false;
2348 }
2349 
2350 static inline void
lim_update_eht_caps_mcs(struct mac_context * mac,struct pe_session * session)2351 lim_update_eht_caps_mcs(struct mac_context *mac, struct pe_session *session)
2352 {
2353 }
2354 
2355 static inline void
lim_update_des_chan_puncture(struct wlan_channel * des_chan,struct ch_params * ch_params)2356 lim_update_des_chan_puncture(struct wlan_channel *des_chan,
2357 			     struct ch_params *ch_params)
2358 {
2359 }
2360 
2361 static inline void
lim_overwrite_sta_puncture(struct pe_session * session,struct ch_params * ch_param)2362 lim_overwrite_sta_puncture(struct pe_session *session,
2363 			   struct ch_params *ch_param)
2364 {
2365 }
2366 #endif /* WLAN_FEATURE_11BE */
2367 
2368 #ifdef WLAN_FEATURE_11BE_MLO
2369 /**
2370  * lim_extract_per_link_id() - Extract Link ID per vdev and share with FW
2371  * @session: pointer to PE session
2372  * @add_bss: pointer to ADD BSS params
2373  * @assoc_rsp: pointer to assoc response
2374  *
2375  * Return: None
2376  */
2377 void lim_extract_per_link_id(struct pe_session *session,
2378 			     struct bss_params *add_bss,
2379 			     tpSirAssocRsp assoc_rsp);
2380 
2381 /**
2382  * lim_extract_ml_info() - Extract ML info and send with FW
2383  * @session: pointer to PE session
2384  * @add_bss: pointer to ADD BSS params
2385  * @assoc_rsp: pointer to assoc response
2386  *
2387  * Return: None
2388  */
2389 void lim_extract_ml_info(struct pe_session *session,
2390 			 struct bss_params *add_bss,
2391 			 tpSirAssocRsp assoc_rsp);
2392 
2393 /**
2394  * lim_intersect_ap_emlsr_caps() - Intersect AP and self STA EML capabilities
2395  * @mac_ctx: Global MAC context
2396  * @session: pointer to PE session
2397  * @add_bss: pointer to ADD BSS params
2398  * @assoc_rsp: pointer to assoc response
2399  *
2400  * Return: None
2401  */
2402 void lim_intersect_ap_emlsr_caps(struct mac_context *mac_ctx,
2403 				 struct pe_session *session,
2404 				 struct bss_params *add_bss,
2405 				 tpSirAssocRsp assoc_rsp);
2406 
2407 /**
2408  * lim_extract_msd_caps() - Extract MLD AP MSD capabilities and assign
2409  * the same caps to link vdev
2410  * @mac_ctx: Global MAC context
2411  * @session: pointer to PE session
2412  * @add_bss: pointer to ADD BSS params
2413  * @assoc_rsp: pointer to assoc response
2414  *
2415  * Return: None
2416  */
2417 void lim_extract_msd_caps(struct mac_context *mac_ctx,
2418 			  struct pe_session *session,
2419 			  struct bss_params *add_bss,
2420 			  tpSirAssocRsp assoc_rsp);
2421 #else
2422 static inline void
lim_extract_per_link_id(struct pe_session * session,struct bss_params * add_bss,tpSirAssocRsp assoc_rsp)2423 lim_extract_per_link_id(struct pe_session *session,
2424 			struct bss_params *add_bss,
2425 			tpSirAssocRsp assoc_rsp)
2426 {
2427 }
2428 
2429 static inline void
lim_extract_ml_info(struct pe_session * session,struct bss_params * add_bss,tpSirAssocRsp assoc_rsp)2430 lim_extract_ml_info(struct pe_session *session,
2431 		    struct bss_params *add_bss,
2432 		    tpSirAssocRsp assoc_rsp)
2433 {
2434 }
2435 
2436 static inline void
lim_intersect_ap_emlsr_caps(struct mac_context * mac_ctx,struct pe_session * session,struct bss_params * add_bss,tpSirAssocRsp assoc_rsp)2437 lim_intersect_ap_emlsr_caps(struct mac_context *mac_ctx,
2438 			    struct pe_session *session,
2439 			    struct bss_params *add_bss,
2440 			    tpSirAssocRsp assoc_rsp)
2441 {
2442 }
2443 
2444 static inline void
lim_extract_msd_caps(struct mac_context * mac_ctx,struct pe_session * session,struct bss_params * add_bss,tpSirAssocRsp assoc_rsp)2445 lim_extract_msd_caps(struct mac_context *mac_ctx,
2446 		     struct pe_session *session,
2447 		     struct bss_params *add_bss,
2448 		     tpSirAssocRsp assoc_rsp)
2449 {
2450 }
2451 #endif /* WLAN_FEATURE_11BE_MLO */
2452 
2453 #if defined(CONFIG_BAND_6GHZ) && defined(WLAN_FEATURE_11AX)
2454 /**
2455  * lim_send_he_6g_band_caps_ie() - Send HE 6ghz band caps to FW
2456  * @mac_ctx: Global MAC context
2457  * @vdev_id: vdev id
2458  *
2459  * Send HE 6ghz band capabilities IE to firmware
2460  *
2461  * Return: QDF_STATUS_SUCCESS on success
2462  */
2463 QDF_STATUS lim_send_he_6g_band_caps_ie(struct mac_context *mac_ctx,
2464 				       uint8_t vdev_id);
2465 #else
2466 static inline
lim_send_he_6g_band_caps_ie(struct mac_context * mac_ctx,uint8_t vdev_id)2467 QDF_STATUS lim_send_he_6g_band_caps_ie(struct mac_context *mac_ctx,
2468 				       uint8_t vdev_id)
2469 {
2470 	return QDF_STATUS_SUCCESS;
2471 }
2472 #endif
2473 
2474 /**
2475  * lim_decrement_pending_mgmt_count: Decrement mgmt frame count
2476  * @mac_ctx: Pointer to global MAC structure
2477  *
2478  * This function is used to decrement pe mgmt count once frame
2479  * removed from queue
2480  *
2481  * Return: None
2482  */
2483 void lim_decrement_pending_mgmt_count(struct mac_context *mac_ctx);
2484 
2485 /**
2486  * lim_check_if_vendor_oui_match() - Check if the given OUI match in IE buffer
2487  * @mac_ctx: MAC context
2488  * @ie: IE buffer
2489  * @ie_len: length of @ie
2490  *
2491  * This API is used to check if given vendor OUI
2492  * matches in given IE buffer
2493  *
2494  * Return: True, if mataches. False otherwise
2495  */
2496 bool lim_check_if_vendor_oui_match(struct mac_context *mac_ctx,
2497 					uint8_t *oui, uint8_t oui_len,
2498 			       uint8_t *ie, uint8_t ie_len);
2499 
2500 QDF_STATUS lim_util_get_type_subtype(void *pkt, uint8_t *type,
2501 					uint8_t *subtype);
2502 
2503 /**
2504  * lim_get_min_session_txrate() - Get the minimum rate supported in the session
2505  * @session: Pointer to PE session
2506  * @pre_auth_freq: Pointer to pre_auth_freq
2507  *
2508  * This API will find the minimum rate supported by the given PE session and
2509  * return the enum rateid corresponding to the rate.
2510  *
2511  * Return: enum rateid
2512  */
2513 enum rateid lim_get_min_session_txrate(struct pe_session *session,
2514 				       qdf_freq_t *pre_auth_freq);
2515 
2516 /**
2517  * lim_send_dfs_chan_sw_ie_update() - updates the channel switch IE in beacon
2518  * template
2519  *
2520  * @mac_ctx - pointer to global mac context
2521  * @session - A pointer to pesession
2522  * Return None
2523  */
2524 void lim_send_dfs_chan_sw_ie_update(struct mac_context *mac_ctx,
2525 				    struct pe_session *session);
2526 
2527 /**
2528  * lim_process_ap_ecsa_timeout() -process ECSA timeout which decrement csa count
2529  * in beacon and update beacon template in firmware
2530  *
2531  * @data - A pointer to pesession
2532  * Return None
2533  */
2534 void lim_process_ap_ecsa_timeout(void *session);
2535 
2536 /**
2537  * lim_send_csa_tx_complete() - send csa tx complete event when beacon
2538  * count decremented to zero
2539  *
2540  * @vdev_id - vdev_id
2541  * Return None
2542  */
2543 void lim_send_csa_tx_complete(uint8_t vdev_id);
2544 
2545 /**
2546  * lim_is_csa_tx_pending() - check id csa tx ind not sent
2547  *
2548  * @vdev_id - vdev_id
2549  * Return - true if csa tx ind is not sent else false
2550  */
2551 bool lim_is_csa_tx_pending(uint8_t vdev_id);
2552 
2553 /**
2554  * lim_send_stop_bss_failure_resp() -send failure delete bss resp to sme
2555  * @mac_ctx: mac ctx
2556  * @session: session pointer
2557  *
2558  * Return None
2559  */
2560 void lim_send_stop_bss_failure_resp(struct mac_context *mac_ctx,
2561 				    struct pe_session *session);
2562 
2563 /**
2564  * lim_delete_all_peers() -delete all connected peers
2565  * @session: session pointer
2566  *
2567  * Return None
2568  */
2569 void lim_delete_all_peers(struct pe_session *session);
2570 
2571 /**
2572  * lim_send_vdev_stop() -send delete bss/stop vdev req
2573  * @session: session pointer
2574  *
2575  * Return QDF_STATUS
2576  */
2577 QDF_STATUS lim_send_vdev_stop(struct pe_session *session);
2578 
2579 /**
2580  * lim_send_vdev_stop() -send delete bss/stop vdev req for STA
2581  * @session: session pointer
2582  *
2583  * Return QDF_STATUS
2584  */
2585 QDF_STATUS lim_sta_send_del_bss(struct pe_session *session);
2586 
2587 /**
2588  * lim_send_start_bss_confirm() -send start bss confirm req
2589  * @mac_ctx: pointer to global mac structure
2590  * @start_cnf: start confirm structure pointer
2591  *
2592  * Return None
2593  */
2594 void lim_send_start_bss_confirm(struct mac_context *mac_ctx,
2595 				     tLimMlmStartCnf *start_cnf);
2596 
2597 /**
2598  * lim_send_chan_switch_action_frame()- Send an action frame
2599  * containing CSA IE or ECSA IE depending on the connected
2600  * sta capability.
2601  *
2602  * @mac_ctx: pointer to global mac structure
2603  * @new_channel_freq: new channel freq(Mhz) to switch to.
2604  * @ch_bandwidth: ch bw of enum phy_ch_width
2605  * @session_entry: pe session
2606  *
2607  * Return: void
2608  */
2609 void lim_send_chan_switch_action_frame(struct mac_context *mac_ctx,
2610 				       uint16_t new_channel_freq,
2611 				       enum phy_ch_width ch_bandwidth,
2612 				       struct pe_session *session_entry);
2613 
2614 /**
2615  * send_extended_chan_switch_action_frame()- function to send ECSA
2616  * action frame for each sta connected to SAP/GO and AP in case of
2617  * STA .
2618  * @mac_ctx: pointer to global mac structure
2619  * @new_channel_freq: new channel to switch to.
2620  * @ch_bandwidth: channel bw of type enum phy_ch_width
2621  * @session_entry: pe session
2622  *
2623  * This function is called to send ECSA frame for STA/CLI and SAP/GO.
2624  *
2625  * Return: void
2626  */
2627 void send_extended_chan_switch_action_frame(struct mac_context *mac_ctx,
2628 					    uint16_t new_channel_freq,
2629 					    enum phy_ch_width ch_bandwidth,
2630 					    struct pe_session *session_entry);
2631 
2632 /**
2633  * lim_process_obss_detection_ind() - Process obss detection indication
2634  * @mac_ctx: Pointer to Global MAC structure.
2635  * @obss_detection: obss detection info.
2636  *
2637  * Process obss detection indication and apply necessary protection for
2638  * the given AP session.
2639  *
2640  * Return: QDF_STATUS
2641  */
2642 QDF_STATUS lim_process_obss_detection_ind(struct mac_context *mac_ctx,
2643 					  struct wmi_obss_detect_info
2644 					  *obss_detection);
2645 
2646 /**
2647  * lim_obss_send_detection_cfg() - Send obss detection configuration to firmware
2648  * @mac_ctx: Pointer to Global MAC structure
2649  * @session: Pointer to session
2650  * @force: Force to send new configuration even if new cfg same as old
2651  *
2652  * Generate new cfg based on current protection status and send new cfg to
2653  * firmware.
2654  *
2655  * Return: QDF_STATUS
2656  */
2657 QDF_STATUS lim_obss_send_detection_cfg(struct mac_context *mac_ctx,
2658 				       struct pe_session *session,
2659 				       bool force);
2660 
2661 /**
2662  * lim_obss_generate_detection_config() - get new obss offload detection cfg
2663  * @mac_ctx: Pointer to Global MAC structure
2664  * @session: Pointer to session
2665  * @cfg: Obss detection cfg buffer pointer
2666  *
2667  * Generate new cfg based on current protection status.
2668  *
2669  * Return: QDF_STATUS
2670  */
2671 QDF_STATUS lim_obss_generate_detection_config(struct mac_context *mac_ctx,
2672 					      struct pe_session *session,
2673 					      struct obss_detection_cfg *cfg);
2674 
2675 /**
2676  * lim_enable_obss_detection_config() - Enable obss detection
2677  * @mac_ctx: Pointer to Global MAC structure
2678  * @session: Pointer to session
2679  *
2680  * This function will enable legacy obss detection (by starting timer)
2681  * or also offload based detection based on support.
2682  *
2683  * Return: None
2684  */
2685 void lim_enable_obss_detection_config(struct mac_context *mac_ctx,
2686 				      struct pe_session *session);
2687 
2688 #ifdef WLAN_SUPPORT_TWT
2689 void lim_set_peer_twt_cap(struct pe_session *session, struct s_ext_cap *ext_cap);
2690 #else
lim_set_peer_twt_cap(struct pe_session * session,struct s_ext_cap * ext_cap)2691 static inline void lim_set_peer_twt_cap(struct pe_session *session,
2692 					struct s_ext_cap *ext_cap)
2693 {
2694 }
2695 #endif
2696 
2697 /**
2698  * lim_rx_invalid_peer_process() - process rx invalid peer indication
2699  * @mac_ctx: Pointer to Global MAC structure
2700  * @lim_msg: Pointer to scheduler message
2701  *
2702  * This function will process the rx data invalid peer indication,
2703  * if the vdev operation mode is SAP, then send the deauth mgmt frame
2704  * to STA.
2705  *
2706  * Return: None
2707  */
2708 void lim_rx_invalid_peer_process(struct mac_context *mac_ctx,
2709 				 struct scheduler_msg *lim_msg);
2710 
2711 /**
2712  * lim_req_send_delba_ind_process() - process send delba indication
2713  * @mac_ctx: mac context
2714  * @lim_msg: lim message
2715  *
2716  * This function will process the send delba indication from DP.
2717  *
2718  * Return: None
2719  */
2720 void lim_req_send_delba_ind_process(struct mac_context *mac_ctx,
2721 				    struct scheduler_msg *lim_msg);
2722 
2723 /**
2724  * lim_send_beacon() - send beacon indication to firmware
2725  * @mac_ctx: Pointer to Global MAC structure
2726  * @session: session pointer
2727  *
2728  * Return: None
2729  */
2730 void lim_send_beacon(struct mac_context *mac_ctx, struct pe_session *session);
2731 
2732 /**
2733  * lim_ndi_mlme_vdev_up_transition() - Send event to transition NDI VDEV to UP
2734  * @session: session pointer
2735  *
2736  * Return: None
2737  */
2738 void lim_ndi_mlme_vdev_up_transition(struct pe_session *session);
2739 
2740 /**
2741  * lim_sap_move_to_cac_wait_state() - move to cac wait state
2742  * @sap_ctx: SAP context
2743  *
2744  * Return: QDF_STATUS
2745  */
2746 QDF_STATUS lim_sap_move_to_cac_wait_state(struct pe_session *session);
2747 
2748 /**
2749  * lim_disconnect_complete - Deliver vdev disconnect complete event or
2750  * STA send deleting bss
2751  * @session: PE session pointer
2752  * @del_bss:  Whether to call lim_sta_send_del_bss
2753  *
2754  * API delivers vdev disconnect complete event
2755  *
2756  * Return: None
2757  */
2758 void lim_disconnect_complete(struct pe_session *session, bool del_bss);
2759 
2760 /**
2761  * lim_ap_mlme_vdev_rnr_notify() - SAP is changed, notify co-located sap to
2762  *                                 update RNR IE
2763  * @session: PE session pointer
2764  *
2765  * Return: QDF_STATUS
2766  */
2767 QDF_STATUS lim_ap_mlme_vdev_rnr_notify(struct pe_session *session);
2768 
2769 /**
2770  * lim_sta_mlme_vdev_stop_send() - send VDEV stop
2771  * @vdev_mlme_obj:  VDEV MLME comp object
2772  * @data_len: data size
2773  * @data: event data
2774  *
2775  * API invokes vdev stop
2776  *
2777  * Return: SUCCESS on successful completion of vdev stop
2778  *         FAILURE, if it fails due to any
2779  */
2780 QDF_STATUS lim_sta_mlme_vdev_stop_send(struct vdev_mlme_obj *vdev_mlme,
2781 				       uint16_t data_len, void *data);
2782 
2783 /**
2784  * lim_sta_mlme_vdev_req_fail() - send VDEV start req failure
2785  * @vdev_mlme_obj:  VDEV MLME comp object
2786  * @data_len: data size
2787  * @data: event data
2788  *
2789  * API invokes vdev stop
2790  *
2791  * Return: SUCCESS on successful completion of req failure operation
2792  *         FAILURE, if it fails due to any
2793  */
2794 QDF_STATUS lim_sta_mlme_vdev_req_fail(struct vdev_mlme_obj *vdev_mlme,
2795 				      uint16_t data_len, void *data);
2796 
2797 /**
2798  * lim_sta_mlme_vdev_start_send() - send VDEV start
2799  * @vdev_mlme_obj:  VDEV MLME comp object
2800  * @data_len: data size
2801  * @data: event data
2802  *
2803  * API invokes vdev start
2804  *
2805  * Return: SUCCESS on successful completion of vdev start
2806  *         FAILURE, if it fails due to any
2807  */
2808 QDF_STATUS lim_sta_mlme_vdev_start_send(struct vdev_mlme_obj *vdev_mlme,
2809 					uint16_t data_len, void *data);
2810 
2811 /**
2812  * lim_sta_mlme_vdev_restart_send() - send VDEV restart
2813  * @vdev_mlme_obj:  VDEV MLME comp object
2814  * @data_len: data size
2815  * @data: event data
2816  *
2817  * API invokes vdev restart
2818  *
2819  * Return: SUCCESS on successful completion of vdev restart
2820  *         FAILURE, if it fails due to any
2821  */
2822 QDF_STATUS lim_sta_mlme_vdev_restart_send(struct vdev_mlme_obj *vdev_mlme,
2823 					  uint16_t data_len, void *data);
2824 
2825 /**
2826  * lim_ap_mlme_vdev_start_send() - Invokes VDEV start operation
2827  * @vdev_mlme_obj:  VDEV MLME comp object
2828  * @data_len: data size
2829  * @data: event data
2830  *
2831  * API invokes VDEV start operation
2832  *
2833  * Return: SUCCESS on successful completion of start operation
2834  *         FAILURE, if it fails due to any
2835  */
2836 QDF_STATUS lim_ap_mlme_vdev_start_send(struct vdev_mlme_obj *vdev_mlme,
2837 				       uint16_t data_len, void *event);
2838 /*
2839  * lim_ap_mlme_vdev_update_beacon() - Updates beacon
2840  * @vdev_mlme_obj:  VDEV MLME comp object
2841  * @op: beacon update type
2842  * @data_len: data size
2843  * @data: event data
2844  *
2845  * API updates/allocates/frees the beacon
2846  *
2847  * Return: SUCCESS on successful update of beacon
2848  *         FAILURE, if it fails due to any
2849  */
2850 QDF_STATUS lim_ap_mlme_vdev_update_beacon(struct vdev_mlme_obj *vdev_mlme,
2851 					  enum beacon_update_op op,
2852 					  uint16_t data_len, void *data);
2853 
2854 /**
2855  * lim_ap_mlme_vdev_up_send() - VDEV up operation
2856  * @vdev_mlme_obj:  VDEV MLME comp object
2857  * @data_len: data size
2858  * @data: event data
2859  *
2860  * API invokes VDEV up operations
2861  *
2862  * Return: SUCCESS on successful completion of up operation
2863  *         FAILURE, if it fails due to any
2864  */
2865 QDF_STATUS lim_ap_mlme_vdev_up_send(struct vdev_mlme_obj *vdev_mlme,
2866 				    uint16_t data_len, void *data);
2867 
2868 /**
2869  * lim_ap_mlme_vdev_disconnect_peers - Disconnect peers
2870  * @vdev_mlme_obj:  VDEV MLME comp object
2871  * @data_len: data size
2872  * @data: event data
2873  *
2874  * API trigger stations disconnection connected with AP
2875  *
2876  * Return: SUCCESS on successful invocation of station disconnection
2877  *         FAILURE, if it fails due to any
2878  */
2879 QDF_STATUS lim_ap_mlme_vdev_disconnect_peers(struct vdev_mlme_obj *vdev_mlme,
2880 					     uint16_t data_len, void *data);
2881 
2882 /**
2883  * lim_ap_mlme_vdev_stop_send - Invokes VDEV stop operation
2884  * @vdev_mlme_obj:  VDEV MLME comp object
2885  * @data_len: data size
2886  * @data: event data
2887  *
2888  * API invokes VDEV stop operation
2889  *
2890  * Return: SUCCESS on successful completion of stop operation
2891  *         FAILURE, if it fails due to any
2892  */
2893 QDF_STATUS lim_ap_mlme_vdev_stop_send(struct vdev_mlme_obj *vdev_mlme,
2894 				      uint16_t data_len, void *data);
2895 
2896 /**
2897  * lim_ap_mlme_vdev_restart_send - Invokes VDEV restart operation
2898  * @vdev_mlme_obj:  VDEV MLME comp object
2899  * @data_len: data size
2900  * @data: event data
2901  *
2902  * API invokes VDEV restart operation
2903  *
2904  * Return: SUCCESS on successful completion of restart operation
2905  *         FAILURE, if it fails due to any
2906  */
2907 QDF_STATUS lim_ap_mlme_vdev_restart_send(struct vdev_mlme_obj *vdev_mlme,
2908 					 uint16_t data_len, void *data);
2909 
2910 /**
2911  * lim_ap_mlme_vdev_restart_send - Invokes VDEV sta disconnect operation
2912  * @vdev_mlme_obj:  VDEV MLME comp object
2913  * @data_len: data size
2914  * @data: event data
2915  *
2916  * API invokes VDEV sta disconnect operation
2917  *
2918  * Return: SUCCESS on successful completion of sta disconnect operation
2919  *         FAILURE, if it fails due to any
2920  */
2921 QDF_STATUS
2922 lim_sta_mlme_vdev_sta_disconnect_start(struct vdev_mlme_obj *vdev_mlme,
2923 				       uint16_t data_len, void *data);
2924 
2925 /**
2926  * lim_ap_mlme_vdev_start_req_failed - handle vdev start req failure
2927  * @vdev_mlme_obj:  VDEV MLME comp object
2928  * @data_len: data size
2929  * @data: event data
2930  *
2931  * API invokes on START fail response
2932  *
2933  * Return: SUCCESS on successful invocation of callback
2934  *         FAILURE, if it fails due to any
2935  */
2936 QDF_STATUS lim_ap_mlme_vdev_start_req_failed(struct vdev_mlme_obj *vdev_mlme,
2937 					     uint16_t data_len, void *data);
2938 
2939 /**
2940  * lim_mon_mlme_vdev_start_send() - Invokes VDEV start operation
2941  * @vdev_mlme_obj:  VDEV MLME comp object
2942  * @data_len: data size
2943  * @data: event data
2944  *
2945  * API invokes VDEV start operation
2946  *
2947  * Return: SUCCESS on successful completion of start operation
2948  *         FAILURE, if it fails due to any
2949  */
2950 QDF_STATUS lim_mon_mlme_vdev_start_send(struct vdev_mlme_obj *vdev_mlme,
2951 					uint16_t data_len, void *event);
2952 
2953 /**
2954  * lim_get_capability_info() - Get capability information
2955  * @mac:        pointer to mac data
2956  * @pcap:       pointer to return capability information
2957  * @pe_session: pointer to pe session
2958  *
2959  * Return:  SUCCESS on successful get capability information
2960  *         FAILURE, if it fails due to any
2961  */
2962 QDF_STATUS lim_get_capability_info(struct mac_context *mac, uint16_t *pCap,
2963 				   struct pe_session *pe_session);
2964 
2965 /**
2966  * lim_op_class_from_bandwidth() - get op class from bandwidth
2967  * @mac_ctx: mac context
2968  * @channel_freq: channel frequency MHz
2969  * @ch_bandwidth: channel bandwidth
2970  * @offset: second channel offfset
2971  *
2972  * This API can get the operating class based on channel freq,
2973  * bandwidth and second channel offset.
2974  *
2975  * Return: op class
2976  */
2977 uint8_t lim_op_class_from_bandwidth(struct mac_context *mac_ctx,
2978 				    uint16_t channel_freq,
2979 				    enum phy_ch_width ch_bandwidth,
2980 				    enum offset_t offset);
2981 
2982 /**
2983  * lim_flush_bssid() - flush bssid from scan cache
2984  * @mac_ctx: pointer to mac data
2985  * @bssid: bssid to be flushed
2986  *
2987  * Return: void
2988  */
2989 void lim_flush_bssid(struct mac_context *mac_ctx, uint8_t *bssid);
2990 
2991 /**
2992  * lim_is_sha384_akm() - Function to check if the negotiated AKM for the
2993  * current session is based on sha384 key derivation function.
2994  * @mac_ctx: pointer to mac data
2995  * @akm: negotiated AKM for the current session
2996  *
2997  * Return: true if akm is sha384 based kdf or false
2998  */
2999 bool lim_is_sha384_akm(enum ani_akm_type akm);
3000 
3001 
3002 /**
3003  * lim_pre_vdev_start() - set set vdev params from session
3004  * @mac: pointer to mac context
3005  * @mlme_obj: vdev mlme obj
3006  * @session: pointer to pe session
3007  *
3008  * Return: QDF_STATUS
3009  */
3010 QDF_STATUS lim_pre_vdev_start(struct mac_context *mac,
3011 			      struct vdev_mlme_obj *mlme_obj,
3012 			      struct pe_session *session);
3013 
3014 /**
3015  * lim_set_ch_phy_mode() - set channel phy mode
3016  * @vdev: pointer to vdev
3017  *
3018  * Return: QDF_STATUS
3019  */
3020 QDF_STATUS
3021 lim_set_ch_phy_mode(struct wlan_objmgr_vdev *vdev, uint8_t dot11mode);
3022 
3023 #if defined(CONFIG_BAND_6GHZ) && defined(WLAN_FEATURE_11AX)
3024 /**
3025  * lim_ap_check_6g_compatible_peer() - check all client support 6Ghz band
3026  * @mac_ctx: mac context
3027  * @session: pe session
3028  *
3029  * Return: void
3030  */
3031 void lim_ap_check_6g_compatible_peer(struct mac_context *mac_ctx,
3032 				     struct pe_session *session);
3033 #else
lim_ap_check_6g_compatible_peer(struct mac_context * mac_ctx,struct pe_session * session)3034 static inline void lim_ap_check_6g_compatible_peer(
3035 	struct mac_context *mac_ctx, struct pe_session *session)
3036 {}
3037 #endif
3038 
3039 /**
3040  * enum max_tx_power_interpretation
3041  * @LOCAL_EIRP: Local power interpretation
3042  * @LOCAL_EIRP_PSD: Local PSD power interpretation
3043  * @REGULATORY_CLIENT_EIRP: Regulatory power interpretation
3044  * @REGULATORY_CLIENT_EIRP_PSD: Regulatory PSD power interpretation
3045  */
3046 enum max_tx_power_interpretation {
3047 	LOCAL_EIRP = 0,
3048 	LOCAL_EIRP_PSD,
3049 	REGULATORY_CLIENT_EIRP,
3050 	REGULATORY_CLIENT_EIRP_PSD,
3051 };
3052 
3053 /**
3054  * lim_parse_tpe_ie() - get the power info from the TPE IE
3055  * @mac_ctx: mac context
3056  * @session: pe session
3057  * @tpe_ies: list of TPE IEs
3058  * @num_tpe_ies: number of TPE IEs in list
3059  * @he_op: HE OP IE
3060  * @has_tpe_updated: flag set to true only if the TPE values have changed
3061  *
3062  * Return: void
3063  */
3064 void lim_parse_tpe_ie(struct mac_context *mac, struct pe_session *session,
3065 		      tDot11fIEtransmit_power_env *tpe_ies,
3066 		      uint8_t num_tpe_ies, tDot11fIEhe_op *he_op,
3067 		      bool *has_tpe_updated);
3068 
3069 /**
3070  * lim_process_tpe_ie_from_beacon() - get the TPE IE from the BSS descriptor
3071  * @mac_ctx: mac context
3072  * @session: pe session
3073  * @bss_desc: pointer to BSS descriptor
3074  * @has_tpe_updated: flag set to true only if the TPE values have changed
3075  *
3076  * Return: void
3077  */
3078 void lim_process_tpe_ie_from_beacon(struct mac_context *mac,
3079 				    struct pe_session *session,
3080 				    struct bss_description *bss_desc,
3081 				    bool *has_tpe_updated);
3082 
3083 /**
3084  * lim_send_conc_params_update() - Function to check and update params based on
3085  *                                  STA/SAP concurrency.such as EDCA params
3086  *                                  and RTS profile. If updated, it will also
3087  *                                  also send the updated parameters to FW.
3088  *
3089  * Return: void
3090  */
3091 void lim_send_conc_params_update(void);
3092 
3093 /**
3094  * lim_is_self_and_peer_ocv_capable() - check whether OCV capable
3095  * @mac:        pointer to mac data
3096  * @pe_session: pointer to pe session
3097 .* @peer:       peer mac address
3098  *
3099  * Return: true if both self and peer ocv capable
3100  */
3101 bool
3102 lim_is_self_and_peer_ocv_capable(struct mac_context *mac,
3103 				 uint8_t *peer,
3104 				 struct pe_session *pe_session);
3105 
3106 /**
3107  * lim_fill_oci_params() - fill oci parameters
3108  * @mac:        pointer to mac data
3109  * @session: pointer to pe session
3110 .* @oci:       pointer of tDot11fIEoci
3111  * @peer: peer mac address
3112  * @tx_chan_width: tx channel width in MHz
3113  *
3114  * Return: void
3115  */
3116 void
3117 lim_fill_oci_params(struct mac_context *mac, struct pe_session *session,
3118 		    tDot11fIEoci *oci, uint8_t *peer, uint16_t *tx_chan_width);
3119 
3120 #ifdef WLAN_FEATURE_SAE
3121 /**
3122  * lim_process_sae_msg() - Process SAE message
3123  * @mac: Global MAC pointer
3124  * @body: Buffer pointer
3125  *
3126  * Return: None
3127  */
3128 void lim_process_sae_msg(struct mac_context *mac, struct sir_sae_msg *body);
3129 
3130 /**
3131  * lim_trigger_auth_req_sae() - sends SAE auth request to sme
3132  * @mac_ctx: Global MAC pointer
3133  * @session: pointer to pe session
3134  * @peer_bssid: bssid to do SAE auth
3135  *
3136  * Return: QDF_STATUS
3137  */
3138 QDF_STATUS lim_trigger_auth_req_sae(struct mac_context *mac_ctx,
3139 				    struct pe_session *session,
3140 				    struct qdf_mac_addr *peer_bssid);
3141 #else
lim_process_sae_msg(struct mac_context * mac,void * body)3142 static inline void lim_process_sae_msg(struct mac_context *mac, void *body)
3143 {}
3144 
lim_trigger_auth_req_sae(struct mac_context * mac_ctx,struct pe_session * session,struct qdf_mac_addr * peer_bssid)3145 static inline QDF_STATUS lim_trigger_auth_req_sae(
3146 					struct mac_context *mac_ctx,
3147 					struct pe_session *session,
3148 					struct qdf_mac_addr *peer_bssid)
3149 {}
3150 #endif
3151 
3152 /**
3153  * lim_get_he_max_mcs_idx() - get max mcs index from he cap
3154  * @ch_width: channel width
3155  * @he_cap: pointer to tDot11fIEhe_cap
3156  *
3157  * Return: max mcs index from he cap
3158  */
3159 uint8_t lim_get_he_max_mcs_idx(enum phy_ch_width ch_width,
3160 			       tDot11fIEhe_cap *he_cap);
3161 
3162 /**
3163  * lim_get_vht_max_mcs_idx() - get max mcs index from vht cap
3164  * @vht_cap: pointer to tDot11fIEVHTCaps
3165  *
3166  * Return: max mcs index from vht cap
3167  */
3168 uint8_t lim_get_vht_max_mcs_idx(tDot11fIEVHTCaps *vht_cap);
3169 
3170 /**
3171  * lim_get_ht_max_mcs_idx() - get max mcs index from ht cap
3172  * @ht_cap: pointer to tDot11fIEHTCaps
3173  *
3174  * Return: max mcs index from ht cap
3175  */
3176 uint8_t lim_get_ht_max_mcs_idx(tDot11fIEHTCaps *ht_cap);
3177 
3178 /**
3179  * lim_get_max_rate_idx() - get max rate index from tSirMacRateSet
3180  * @rateset: pointer to tSirMacRateSet
3181  *
3182  * Return: max rate index from tSirMacRateSet
3183  */
3184 uint8_t lim_get_max_rate_idx(tSirMacRateSet *rateset);
3185 
3186 /**
3187  * lim_update_nss() - Function to update NSS
3188  * @mac_ctx: pointer to Global Mac structure
3189  * @sta_ds: pointer to tpDphHashNode
3190  * @rx_nss: Rx NSS in operating mode notification
3191  * @session: pointer to pe_session
3192  *
3193  * function to update NSS
3194  *
3195  * Return: None
3196  */
3197 void lim_update_nss(struct mac_context *mac_ctx, tpDphHashNode sta_ds,
3198 		    uint8_t rx_nss, struct pe_session *session);
3199 
3200 /**
3201  * lim_update_channel_width() - Function to update channel width
3202  * @mac_ctx: pointer to Global Mac structure
3203  * @sta_ptr: pointer to tpDphHashNode
3204  * @session: pointer to pe_session
3205  * @ch_width: Channel width in operating mode notification
3206  * @new_ch_width: Final channel bandwifdth
3207  *
3208  * function to send WMI_PEER_SET_PARAM_CMDID to FW to update ch_width
3209  *
3210  * Return: Success or Failure
3211  */
3212 bool lim_update_channel_width(struct mac_context *mac_ctx,
3213 			      tpDphHashNode sta_ptr,
3214 			      struct pe_session *session,
3215 			      enum phy_ch_width ch_width,
3216 			      enum phy_ch_width *new_ch_width);
3217 
3218 /**
3219  * lim_get_vht_ch_width() - Function to get the VHT
3220  * operating channel width based on frequency params
3221  *
3222  * @vht_cap: Pointer to VHT Caps IE.
3223  * @vht_op: Pointer to VHT Operation IE.
3224  * @ht_info: Pointer to HT Info IE.
3225  *
3226  * Return: VHT channel width
3227  */
3228 uint8_t lim_get_vht_ch_width(tDot11fIEVHTCaps *vht_cap,
3229 			     tDot11fIEVHTOperation *vht_op,
3230 			     tDot11fIEHTInfo *ht_info);
3231 
3232 /*
3233  * lim_set_tpc_power() - Function to compute and send TPC power level to the
3234  * FW based on the opmode of the pe_session
3235  *
3236  * @mac_ctx:    Pointer to Global MAC structure
3237  * @pe_session: Pointer to session
3238  * @bss_desc: Pointer to bss description
3239  *
3240  * Return: TPC status
3241  */
3242 bool
3243 lim_set_tpc_power(struct mac_context *mac_ctx, struct pe_session *session,
3244 		  struct bss_description *bss_desc);
3245 
3246 /**
3247  * lim_update_tx_power() - Function to update the TX power for
3248  * the STA interface based on the SAP concurrency
3249  *
3250  * @mac_ctx: Pointer to Global mac structure
3251  * @sap_session: Session pointer of the SAP
3252  * @sta_session: Session pointer of the STA
3253  * @restore_sta_power: Flag to update the new Tx power for STA
3254  *
3255  * Return: QDF_STATUS
3256  */
3257 QDF_STATUS
3258 lim_update_tx_power(struct mac_context *mac_ctx, struct pe_session *sap_session,
3259 		    struct pe_session *sta_session, bool restore_sta_power);
3260 
3261 /**
3262  * lim_skip_tpc_update_for_sta() - Function to check if the TPC set power
3263  * needs to be skipped for STA.
3264  *
3265  * @mac_ctx: Pointer to Global mac structure
3266  * @sta_session: Session pointer of the STA.
3267  * @sap_session: Session pointer of the SAP
3268  *
3269  * Return: skip tpc for sta
3270  */
3271 bool
3272 lim_skip_tpc_update_for_sta(struct mac_context *mac,
3273 			    struct pe_session *sta_session,
3274 			    struct pe_session *sap_session);
3275 
3276 #ifdef FEATURE_WLAN_GC_SKIP_JOIN
3277 static inline bool
lim_connect_skip_join_for_gc(struct pe_session * pe_session)3278 lim_connect_skip_join_for_gc(struct pe_session *pe_session)
3279 {
3280 	if (pe_session->opmode == QDF_P2P_CLIENT_MODE)
3281 		return true;
3282 	else
3283 		return false;
3284 }
3285 #else
3286 static inline bool
lim_connect_skip_join_for_gc(struct pe_session * pe_session)3287 lim_connect_skip_join_for_gc(struct pe_session *pe_session)
3288 {
3289 	return false;
3290 }
3291 #endif
3292 
3293 /**
3294  * lim_get_concurrent_session() - Function to get the concurrent session pointer
3295  *
3296  * @mac_ctx: Pointer to Global mac structure
3297  * @vdev_id: vdev id
3298  * @opmode: opmode of the interface
3299  *
3300  * Return: pe_session
3301  */
3302 struct pe_session *
3303 lim_get_concurrent_session(struct mac_context *mac_ctx, uint8_t vdev_id,
3304 			   enum QDF_OPMODE opmode);
3305 
3306 /**
3307  * lim_check_conc_power_for_csa() - Function to change the TX power
3308  * of STA when channel switch happens in SAP
3309  *
3310  * @mac_ctx: Pointer to Global mac structure.
3311  * @session: Session pointer of the SAP.
3312  *
3313  * Return: None
3314  */
3315 void
3316 lim_check_conc_power_for_csa(struct mac_context *mac_ctx,
3317 			     struct pe_session *session);
3318 
3319 /**
3320  * lim_cleanup_power_change() - Function to reset the change_scc_power
3321  * flag in concurrent SAP vdev
3322  *
3323  * @mac_ctx: Pointer to Global mac structure.
3324  * @session: Session pointer of the interface
3325  */
3326 void
3327 lim_cleanup_power_change(struct mac_context *mac_ctx,
3328 			 struct pe_session *session);
3329 
3330 /**
3331  * lim_is_power_change_required_for_sta() - Function to check if the 6 GHz
3332  * STA power level has to be changed
3333  *
3334  * @mac_ctx: Pointer to Global mac structure.
3335  * @sta_session: Session pointer of STA.
3336  * @sap_session: Session pointer of SAP.
3337  *
3338  * Return: restart required for sta
3339  */
3340 bool
3341 lim_is_power_change_required_for_sta(struct mac_context *mac_ctx,
3342 				     struct pe_session *sta_session,
3343 				     struct pe_session *sap_session);
3344 
3345 /**
3346  * lim_update_tx_pwr_on_ctry_change_cb() - Callback to be invoked by regulatory
3347  * module when country code changes (without channel change) OR if fcc
3348  * constraint is set to true.
3349  * This API calls TPC calculation API to recalculate and update the TX power.
3350  * @vdev_id: vdev id
3351  *
3352  * Return: None
3353  */
3354 void
3355 lim_update_tx_pwr_on_ctry_change_cb(uint8_t vdev_id);
3356 
3357 /*
3358  * lim_get_connected_chan_for_mode() - Get connected channel for given opmode
3359  *                                     in given frequency range.
3360  *
3361  * @psoc: Pointer to psoc object
3362  * @opmode: Vdev opmode
3363  * @freq: Frequency
3364  *
3365  * Return: Return connected channel in given frequcy range for given opmode.
3366  */
3367 struct wlan_channel *
3368 lim_get_connected_chan_for_mode(struct wlan_objmgr_psoc *psoc,
3369 				enum QDF_OPMODE opmode,
3370 				qdf_freq_t start_freq,
3371 				qdf_freq_t end_freq);
3372 
3373 /**
3374  * lim_convert_vht_chwidth_to_phy_chwidth() - Convert VHT operation
3375  * ch width into phy ch width
3376  *
3377  * @ch_width: VHT op channel width
3378  * @is_40: is 40 MHz
3379  *
3380  * Return: phy chwidth
3381  */
3382 enum phy_ch_width
3383 lim_convert_vht_chwidth_to_phy_chwidth(uint8_t ch_width, bool is_40);
3384 
3385 /*
3386  * lim_cmp_ssid() - Compare two SSIDs.
3387  * @ssid: first ssid
3388  * @pe_session: pointer to session
3389  *
3390  * Return: qdf_mem_cmp of ssids
3391  */
3392 uint32_t lim_cmp_ssid(tSirMacSSid *ssid, struct pe_session *pe_session);
3393 
3394 /*
3395  * lim_configure_fd_for_existing_6ghz_sap() - Based on the concurrent
3396  * legacy SAP interface UP/DOWN, configure the FD for the 6 GHz SAPs.
3397  * @session: pointer to pe_session
3398  * @is_sap_starting: true if SAP is starting, false if SAP is stopping
3399  *
3400  * Return: None
3401  */
3402 void
3403 lim_configure_fd_for_existing_6ghz_sap(struct pe_session *session,
3404 				       bool is_sap_starting);
3405 
3406 #ifdef WLAN_CHIPSET_STATS
3407 /**
3408  * lim_cp_stats_cstats_log_assoc_resp_evt() - Log chipset stats for assoc resp
3409  *
3410  * @session_entry: pointer to session object
3411  * @dir: Direction
3412  * @status_code: assoc/reassoc status
3413  * @aid: association identifier
3414  * @bssid: bssid
3415  * @da: destination address
3416  * @is_ht: is HT
3417  * @is_vht: is VHT
3418  * @is_he: is HE
3419  * @is_eht: is EHT
3420  * @is_reassoc: is reassoc frame
3421  *
3422  * Return : void
3423  */
3424 void lim_cp_stats_cstats_log_assoc_resp_evt(struct pe_session *session_entry,
3425 					    enum cstats_dir dir,
3426 					    uint16_t status_code, uint16_t aid,
3427 					    uint8_t *bssid, uint8_t *da,
3428 					    bool is_ht, bool is_vht, bool is_he,
3429 					    bool is_eht, bool is_reassoc);
3430 
3431 /**
3432  * lim_cp_stats_cstats_log_auth_evt() - Log chipset stats for auth frames
3433  *
3434  * @pe_session: pointer to session object
3435  * @dir: direction
3436  * @algo: auth algorithm
3437  * @seq: auth sequence
3438  * @status: Status
3439  *
3440  * Return : void
3441  */
3442 void lim_cp_stats_cstats_log_auth_evt(struct pe_session *pe_session,
3443 				      enum cstats_dir dir, uint16_t algo,
3444 				      uint16_t seq, uint16_t status);
3445 
3446 /**
3447  * lim_cp_stats_cstats_log_deauth_evt() - Log chipset stats for deauth frames
3448  *
3449  * @pe_session: pointer to session object
3450  * @dir: direction
3451  * @reasonCode: reason code
3452  *
3453  * Return : void
3454  */
3455 void lim_cp_stats_cstats_log_deauth_evt(struct pe_session *pe_session,
3456 					enum cstats_dir dir,
3457 					uint16_t reasonCode);
3458 
3459 /**
3460  * lim_cp_stats_cstats_log_disassoc_evt() - Log chipset stats for disassoc frm
3461  *
3462  * @pe_session: pointer to session object
3463  * @dir: direction
3464  * @reasonCode: reason code
3465  *
3466  * Return : void
3467  */
3468 void lim_cp_stats_cstats_log_disassoc_evt(struct pe_session *pe_session,
3469 					  enum cstats_dir dir,
3470 					  uint16_t reasonCode);
3471 
3472 /**
3473  * lim_cp_stats_cstats_log_assoc_req_evt() - Log chipset stats for assoc req frm
3474  *
3475  * @pe_session: pointer to session object
3476  * @dir: Direction
3477  * @bssid: bssid
3478  * @sa: source addr
3479  * @ssid_len: ssid length
3480  * @ssid: ssid
3481  * @is_ht: is HT
3482  * @is_vht: is VHT
3483  * @is_he: is HE
3484  * @is_eht: is EHT
3485  * @is_reassoc: is reassociation request
3486  *
3487  * Return : void
3488  */
3489 void lim_cp_stats_cstats_log_assoc_req_evt(struct pe_session *pe_session,
3490 					   enum cstats_dir dir, uint8_t *bssid,
3491 					   uint8_t *sa, uint8_t ssid_len,
3492 					   uint8_t *ssid, bool is_ht,
3493 					   bool is_vht, bool is_he,
3494 					   bool is_eht, bool is_reassoc);
3495 
3496 /**
3497  * lim_cp_stats_cstats_log_disc_req_evt() : chipset stats for TDLS disc req
3498  *
3499  * @frm: pointer to tDot11fTDLSDisReq
3500  * @pe_session: pointer to session object
3501  *
3502  * Return: void
3503  */
3504 void lim_cp_stats_cstats_log_disc_req_evt(tDot11fTDLSDisReq *frm,
3505 					  struct pe_session *pe_session);
3506 
3507 /**
3508  * lim_cp_stats_cstats_log_disc_resp_evt() : chipset stats for TDLS disc resp
3509  *
3510  * @frm: pointer to tDot11fTDLSDisRsp
3511  * @pe_session: pointer to session object
3512  *
3513  * Return: void
3514  */
3515 void lim_cp_stats_cstats_log_disc_resp_evt(tDot11fTDLSDisRsp *frm,
3516 					   struct pe_session *pe_session);
3517 
3518 /**
3519  * lim_cp_stats_cstats_log_setup_req_evt() : chipset stats for TDLS setup req
3520  *
3521  * @frm: pointer to tDot11fTDLSSetupReq
3522  * @pe_session: pointer to session object
3523  *
3524  * Return: void
3525  */
3526 void lim_cp_stats_cstats_log_setup_req_evt(tDot11fTDLSSetupReq *frm,
3527 					   struct pe_session *pe_session);
3528 
3529 /**
3530  * lim_cp_stats_cstats_log_setup_resp_evt() : chipset stats for TDLS setup resp
3531  *
3532  * @frm: pointer to tDot11fTDLSSetupRsp
3533  * @pe_session: pointer to session object
3534  *
3535  * Return: void
3536  */
3537 void lim_cp_stats_cstats_log_setup_resp_evt(tDot11fTDLSSetupRsp *frm,
3538 					    struct pe_session *pe_session);
3539 
3540 /**
3541  * lim_cp_stats_cstats_log_setup_confirm_evt() : chipset stats for TDLS setup
3542  * confirm
3543  *
3544  * @frm: pointer to tDot11fTDLSSetupCnf
3545  * @pe_session: pointer to session object
3546  *
3547  * Return: void
3548  */
3549 void lim_cp_stats_cstats_log_setup_confirm_evt(tDot11fTDLSSetupCnf *frm,
3550 					       struct pe_session *pe_session);
3551 
3552 /**
3553  * lim_cp_stats_cstats_log_tear_down_evt() : chipset stats for TDLS teardown
3554  *
3555  * @frm: pointer to tDot11fTDLSSetupCnf
3556  * @pe_session: pointer to session object
3557  *
3558  * Return: void
3559  */
3560 void lim_cp_stats_cstats_log_tear_down_evt(tDot11fTDLSTeardown *frm,
3561 					   struct pe_session *pe_session);
3562 
3563 /**
3564  * lim_cp_stats_cstats_log_csa_evt() : chipset stats for CSA event
3565  *
3566  * @pe_session: pointer to session object
3567  * @dir: Direction of the event i.e TX/RX
3568  * @target_freq: Target freq
3569  * @target_ch_width: Target channel width
3570  * @switch_mode: Switch mode
3571  *
3572  * Return: void
3573  */
3574 void lim_cp_stats_cstats_log_csa_evt(struct pe_session *pe_session,
3575 				     enum cstats_dir dir, uint16_t target_freq,
3576 				     uint8_t target_ch_width,
3577 				     uint8_t switch_mode);
3578 #else
3579 static inline void
lim_cp_stats_cstats_log_assoc_resp_evt(struct pe_session * session_entry,enum cstats_dir dir,uint16_t status_code,uint16_t aid,uint8_t * bssid,uint8_t * da,bool is_ht,bool is_vht,bool is_he,bool is_eht,bool is_reassoc)3580 lim_cp_stats_cstats_log_assoc_resp_evt(struct pe_session *session_entry,
3581 				       enum cstats_dir dir,
3582 				       uint16_t status_code, uint16_t aid,
3583 				       uint8_t *bssid, uint8_t *da,
3584 				       bool is_ht, bool is_vht, bool is_he,
3585 				       bool is_eht, bool is_reassoc)
3586 {
3587 }
3588 
3589 static inline void
lim_cp_stats_cstats_log_auth_evt(struct pe_session * pe_session,enum cstats_dir dir,uint16_t algo,uint16_t seq,uint16_t status)3590 lim_cp_stats_cstats_log_auth_evt(struct pe_session *pe_session,
3591 				 enum cstats_dir dir, uint16_t algo,
3592 				 uint16_t seq, uint16_t status)
3593 {
3594 }
3595 
3596 static inline void
lim_cp_stats_cstats_log_deauth_evt(struct pe_session * pe_session,enum cstats_dir dir,uint16_t reasonCode)3597 lim_cp_stats_cstats_log_deauth_evt(struct pe_session *pe_session,
3598 				   enum cstats_dir dir, uint16_t reasonCode)
3599 {
3600 }
3601 
3602 static inline void
lim_cp_stats_cstats_log_disassoc_evt(struct pe_session * pe_session,enum cstats_dir dir,uint16_t reasonCode)3603 lim_cp_stats_cstats_log_disassoc_evt(struct pe_session *pe_session,
3604 				     enum cstats_dir dir, uint16_t reasonCode)
3605 {
3606 }
3607 
3608 static inline void
lim_cp_stats_cstats_log_assoc_req_evt(struct pe_session * pe_session,enum cstats_dir dir,uint8_t * bssid,uint8_t * sa,uint8_t ssid_len,uint8_t * ssid,bool is_ht,bool is_vht,bool is_he,bool is_eht,bool is_reassoc)3609 lim_cp_stats_cstats_log_assoc_req_evt(struct pe_session *pe_session,
3610 				      enum cstats_dir dir, uint8_t *bssid,
3611 				      uint8_t *sa, uint8_t ssid_len,
3612 				      uint8_t *ssid, bool is_ht,
3613 				      bool is_vht, bool is_he,
3614 				      bool is_eht, bool is_reassoc)
3615 {
3616 }
3617 
3618 static inline void
lim_cp_stats_cstats_log_disc_req_evt(tDot11fTDLSDisReq * frm,struct pe_session * pe_session)3619 lim_cp_stats_cstats_log_disc_req_evt(tDot11fTDLSDisReq *frm,
3620 				     struct pe_session *pe_session)
3621 {
3622 }
3623 
3624 static inline void
lim_cp_stats_cstats_log_disc_resp_evt(tDot11fTDLSDisRsp * frm,struct pe_session * pe_session)3625 lim_cp_stats_cstats_log_disc_resp_evt(tDot11fTDLSDisRsp *frm,
3626 				      struct pe_session *pe_session)
3627 {
3628 }
3629 
3630 static inline void
lim_cp_stats_cstats_log_setup_req_evt(tDot11fTDLSSetupReq * frm,struct pe_session * pe_session)3631 lim_cp_stats_cstats_log_setup_req_evt(tDot11fTDLSSetupReq *frm,
3632 				      struct pe_session *pe_session)
3633 {
3634 }
3635 
3636 static inline void
lim_cp_stats_cstats_log_setup_resp_evt(tDot11fTDLSSetupRsp * frm,struct pe_session * pe_session)3637 lim_cp_stats_cstats_log_setup_resp_evt(tDot11fTDLSSetupRsp *frm,
3638 				       struct pe_session *pe_session)
3639 {
3640 }
3641 
3642 static inline void
lim_cp_stats_cstats_log_setup_confirm_evt(tDot11fTDLSSetupCnf * frm,struct pe_session * pe_session)3643 lim_cp_stats_cstats_log_setup_confirm_evt(tDot11fTDLSSetupCnf *frm,
3644 					  struct pe_session *pe_session)
3645 {
3646 }
3647 
3648 static inline void
lim_cp_stats_cstats_log_tear_down_evt(tDot11fTDLSTeardown * frm,struct pe_session * pe_session)3649 lim_cp_stats_cstats_log_tear_down_evt(tDot11fTDLSTeardown *frm,
3650 				      struct pe_session *pe_session)
3651 {
3652 }
3653 
3654 static inline void
lim_cp_stats_cstats_log_csa_evt(struct pe_session * pe_session,enum cstats_dir dir,uint16_t target_freq,uint8_t target_ch_width,uint8_t switch_mode)3655 lim_cp_stats_cstats_log_csa_evt(struct pe_session *pe_session,
3656 				enum cstats_dir dir, uint16_t target_freq,
3657 				uint8_t target_ch_width, uint8_t switch_mode)
3658 {
3659 }
3660 #endif /* WLAN_CHIPSET_STATS */
3661 
3662 #define MAX_TX_PSD_POWER 15
3663 
3664 /**
3665  * lim_get_tpe_ie_length() : Get the tpe ie length
3666  * @ch_width: phy channel width
3667  * @tpe_ie: pointer to dot11f TPE IE structure
3668  * @num_tpe: number of TPE IE
3669  *
3670  * Return: tpe ie length
3671  */
3672 uint16_t lim_get_tpe_ie_length(enum phy_ch_width ch_width,
3673 			       tDot11fIEtransmit_power_env *tpe_ie,
3674 			       uint16_t num_tpe);
3675 
3676 /**
3677  * lim_fill_complete_tpe_ie() : fill tpe ie to target buffer
3678  * @ch_width: phy channel width
3679  * @tpe_ie_len: the total bytes to fill target buffer
3680  * @tpe_ptr: pointer to dot11f TPE IE structure
3681  * @num_tpe: number of TPE IE
3682  * @target: the buffer to fill data
3683  *
3684  * Return: QDF_STATUS
3685  */
3686 QDF_STATUS lim_fill_complete_tpe_ie(enum phy_ch_width ch_width,
3687 				    uint16_t tpe_ie_len,
3688 				    tDot11fIEtransmit_power_env *tpe_ptr,
3689 				    uint16_t num_tpe, uint8_t *target);
3690 #endif /* __LIM_UTILS_H */
3691