xref: /wlan-driver/qcacld-3.0/core/mac/src/sys/legacy/src/utils/src/parser_api.c (revision 5113495b16420b49004c444715d2daae2066e7dc)

/*
 * Copyright (c) 2012-2021 The Linux Foundation. All rights reserved.
 * Copyright (c) 2021-2024 Qualcomm Innovation Center, Inc. All rights reserved.
 *
 * Permission to use, copy, modify, and/or distribute this software for
 * any purpose with or without fee is hereby granted, provided that the
 * above copyright notice and this permission notice appear in all
 * copies.
 *
 * THE SOFTWARE IS PROVIDED "AS IS" AND THE AUTHOR DISCLAIMS ALL
 * WARRANTIES WITH REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED
 * WARRANTIES OF MERCHANTABILITY AND FITNESS. IN NO EVENT SHALL THE
 * AUTHOR BE LIABLE FOR ANY SPECIAL, DIRECT, INDIRECT, OR CONSEQUENTIAL
 * DAMAGES OR ANY DAMAGES WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR
 * PROFITS, WHETHER IN AN ACTION OF CONTRACT, NEGLIGENCE OR OTHER
 * TORTIOUS ACTION, ARISING OUT OF OR IN CONNECTION WITH THE USE OR
 * PERFORMANCE OF THIS SOFTWARE.
 */

/*
 * This file parser_api.cc contains the code for parsing
 * 802.11 messages.
 * Author:        Pierre Vandwalle
 * Date:          03/18/02
 * History:-
 * Date           Modified by    Modification Information
 * --------------------------------------------------------------------
 *
 */

#include "sir_api.h"
#include "ani_global.h"
#include "parser_api.h"
#include "lim_utils.h"
#include "utils_parser.h"
#include "lim_ser_des_utils.h"
#include "sch_api.h"
#include "wmm_apsd.h"
#include "rrm_api.h"

#include "cds_regdomain.h"
#include "qdf_crypto.h"
#include "lim_process_fils.h"
#include "wlan_utility.h"
#include "wifi_pos_api.h"
#include "wlan_mlme_public_struct.h"
#include "wlan_mlme_ucfg_api.h"
#include "wlan_mlme_api.h"
#include "wlan_reg_services_api.h"
#include "wlan_cm_roam_api.h"
#include "wlan_mlo_mgr_sta.h"
#include "wlan_twt_cfg_ext_api.h"
#include <wlan_cmn_ieee80211.h>
#ifdef WLAN_FEATURE_11BE_MLO
#include <lim_mlo.h>
#include <utils_mlo.h>
#endif
#ifdef WLAN_FEATURE_11BE
#include "wlan_epcs_api.h"
#include <wlan_mlo_t2lm.h>
#endif
#include "wlan_mlo_mgr_link_switch.h"

#define RSN_OUI_SIZE 4
/* ////////////////////////////////////////////////////////////////////// */
void swap_bit_field16(uint16_t in, uint16_t *out)
{
#ifdef ANI_LITTLE_BIT_ENDIAN
	*out = in;
#else                           /* Big-Endian... */
	*out = ((in & 0x8000) >> 15) |
	       ((in & 0x4000) >> 13) |
	       ((in & 0x2000) >> 11) |
	       ((in & 0x1000) >> 9) |
	       ((in & 0x0800) >> 7) |
	       ((in & 0x0400) >> 5) |
	       ((in & 0x0200) >> 3) |
	       ((in & 0x0100) >> 1) |
	       ((in & 0x0080) << 1) |
	       ((in & 0x0040) << 3) |
	       ((in & 0x0020) << 5) |
	       ((in & 0x0010) << 7) |
	       ((in & 0x0008) << 9) |
	       ((in & 0x0004) << 11) |
	       ((in & 0x0002) << 13) | ((in & 0x0001) << 15);
#endif /* ANI_LITTLE_BIT_ENDIAN */
}

static inline void __print_wmm_params(struct mac_context *mac,
				      tDot11fIEWMMParams *pWmm)
{
	pe_nofl_debug("WMM: BE: aifsn %d, acm %d, aci %d, cwmin %d, cwmax %d, txop %d, "
		      "BK: aifsn %d, acm %d, aci %d, cwmin %d, cwmax %d, txop %d, "
		      "VI: aifsn %d, acm %d, aci %d, cwmin %d, cwmax %d, txop %d, "
		      "VO: aifsn %d, acm %d, aci %d, cwmin %d, cwmax %d, txop %d",
		      pWmm->acbe_aifsn, pWmm->acbe_acm, pWmm->acbe_aci,
		      pWmm->acbe_acwmin, pWmm->acbe_acwmax,
		      pWmm->acbe_txoplimit,
		      pWmm->acbk_aifsn, pWmm->acbk_acm, pWmm->acbk_aci,
		      pWmm->acbk_acwmin, pWmm->acbk_acwmax,
		      pWmm->acbk_txoplimit,
		      pWmm->acvi_aifsn, pWmm->acvi_acm, pWmm->acvi_aci,
		      pWmm->acvi_acwmin, pWmm->acvi_acwmax,
		      pWmm->acvi_txoplimit,
		      pWmm->acvo_aifsn, pWmm->acvo_acm, pWmm->acvo_aci,
		      pWmm->acvo_acwmin, pWmm->acvo_acwmax,
		      pWmm->acvo_txoplimit);
}

/* ////////////////////////////////////////////////////////////////////// */
/* Functions for populating "dot11f" style IEs */

/* return: >= 0, the starting location of the IE in rsnIEdata inside tSirRSNie */
/*         < 0, cannot find */
int find_ie_location(struct mac_context *mac, tpSirRSNie pRsnIe, uint8_t EID)
{
	int idx, ieLen, bytesLeft;
	int ret_val = -1;

	/* Here's what's going on: 'rsnIe' looks like this: */

	/*     typedef struct sSirRSNie */
	/*     { */
	/*         uint16_t       length; */
	/*         uint8_t        rsnIEdata[WLAN_MAX_IE_LEN+2]; */
	/*     } tSirRSNie, *tpSirRSNie; */

	/* other code records both the WPA & RSN IEs (including their EIDs & */
	/* lengths) into the array 'rsnIEdata'.  We may have: */

	/*     With WAPI support, there may be 3 IEs here */
	/*     It can be only WPA IE, or only RSN IE or only WAPI IE */
	/*     Or two or all three of them with no particular ordering */

	/* The if/then/else statements that follow are here to figure out */
	/* whether we have the WPA IE, and where it is if we *do* have it. */

	/* Save the first IE length */
	ieLen = pRsnIe->rsnIEdata[1] + 2;
	idx = 0;
	bytesLeft = pRsnIe->length;

	while (1) {
		if (EID == pRsnIe->rsnIEdata[idx])
			/* Found it */
			return idx;
		if (EID != pRsnIe->rsnIEdata[idx] &&
		    /* & if no more IE, */
		    bytesLeft <= (uint16_t)(ieLen))
			return ret_val;

		bytesLeft -= ieLen;
		ieLen = pRsnIe->rsnIEdata[idx + 1] + 2;
		idx += ieLen;
	}

	return ret_val;
}

QDF_STATUS
populate_dot11f_capabilities(struct mac_context *mac,
			     tDot11fFfCapabilities *pDot11f,
			     struct pe_session *pe_session)
{
	uint16_t cfg;
	QDF_STATUS nSirStatus;

	nSirStatus = lim_get_capability_info(mac, &cfg, pe_session);
	if (QDF_STATUS_SUCCESS != nSirStatus) {
		pe_err("Failed to retrieve the Capabilities bitfield from CFG status: %d",
			   nSirStatus);
		return nSirStatus;
	}

	swap_bit_field16(cfg, (uint16_t *) pDot11f);

	return QDF_STATUS_SUCCESS;
} /* End populate_dot11f_capabilities. */

/**
 * populate_dot_11_f_ext_chann_switch_ann() - Function to populate ECS
 * @mac_ptr:            Pointer to PMAC structure
 * @dot_11_ptr:         ECS element
 * @session_entry:      PE session entry
 *
 * This function is used to populate the extended channel switch element
 *
 * Return: None
 */
void populate_dot_11_f_ext_chann_switch_ann(struct mac_context *mac_ptr,
		tDot11fIEext_chan_switch_ann *dot_11_ptr,
		struct pe_session *session_entry)
{
	uint8_t ch_offset;
	uint32_t sw_target_freq;
	uint8_t primary_channel;
	enum phy_ch_width ch_width;

	ch_width = session_entry->gLimChannelSwitch.ch_width;
	ch_offset = session_entry->gLimChannelSwitch.sec_ch_offset;

	dot_11_ptr->switch_mode = session_entry->gLimChannelSwitch.switchMode;
	sw_target_freq = session_entry->gLimChannelSwitch.sw_target_freq;
	primary_channel = session_entry->gLimChannelSwitch.primaryChannel;
	dot_11_ptr->new_reg_class =
		lim_op_class_from_bandwidth(mac_ptr, sw_target_freq, ch_width,
					    ch_offset);
	dot_11_ptr->new_channel =
		session_entry->gLimChannelSwitch.primaryChannel;
	dot_11_ptr->switch_count =
		session_entry->gLimChannelSwitch.switchCount;
	dot_11_ptr->present = 1;
}

#define TIME_UNIT 1024 //time unit (TU): A measurement of time equal to 1024 us
void
populate_dot11f_max_chan_switch_time(struct mac_context *mac,
				     tDot11fIEmax_chan_switch_time *pDot11f,
				     struct pe_session *pe_session)
{
	uint32_t switch_time = pe_session->cac_duration_ms;

	if (!switch_time) {
		pDot11f->present = 0;
		return;
	}

	switch_time = qdf_do_div(switch_time * 1000, TIME_UNIT);

	pDot11f->switch_time[0] = switch_time & 0xff;
	pDot11f->switch_time[1] = (switch_time >> 8) & 0xff;
	pDot11f->switch_time[2] = (switch_time >> 16) & 0xff;

	pDot11f->present = 1;
}

void populate_dot11f_non_inheritance(
			struct mac_context *mac_ctx,
			tDot11fIEnon_inheritance *non_inheritance,
			uint8_t *non_inher_ie_lists,
			uint8_t *non_inher_ext_ie_lists,
			uint8_t non_inher_len, uint8_t non_inher_ext_len)
{
	uint8_t *non_inher_data;

	non_inher_data = non_inheritance->data;
	non_inheritance->num_data = 0;
	non_inheritance->present = 1;
	*non_inher_data++ = non_inher_len;
	non_inheritance->num_data++;
	qdf_mem_copy(non_inher_data,
		     non_inher_ie_lists,
		     non_inher_len);
	non_inher_data += non_inher_len;
	non_inheritance->num_data += non_inher_len;
	*non_inher_data++ = non_inher_ext_len;
	non_inheritance->num_data++;
	qdf_mem_copy(non_inher_data,
		     non_inher_ext_ie_lists,
		     non_inher_ext_len);
	non_inheritance->num_data += non_inher_ext_len;
}

void
populate_dot11f_chan_switch_ann(struct mac_context *mac,
				tDot11fIEChanSwitchAnn *pDot11f,
				struct pe_session *pe_session)
{
	pDot11f->switchMode = pe_session->gLimChannelSwitch.switchMode;
	pDot11f->newChannel = pe_session->gLimChannelSwitch.primaryChannel;
	pDot11f->switchCount =
		(uint8_t) pe_session->gLimChannelSwitch.switchCount;

	pDot11f->present = 1;
}

/**
 * populate_dot11_supp_operating_classes() - Function to populate supported
 *                      operating class IE
 * @mac_ptr:            Pointer to PMAC structure
 * @dot_11_ptr:         Operating class element
 * @session_entry:      PE session entry
 *
 * Return: None
 */
void
populate_dot11_supp_operating_classes(struct mac_context *mac_ptr,
				tDot11fIESuppOperatingClasses *dot_11_ptr,
				struct pe_session *session_entry)
{
	uint8_t ch_offset;

	if (session_entry->ch_width == CH_WIDTH_80MHZ) {
		ch_offset = BW80;
	} else {
		switch (session_entry->htSecondaryChannelOffset) {
		case PHY_DOUBLE_CHANNEL_HIGH_PRIMARY:
			ch_offset = BW40_HIGH_PRIMARY;
			break;
		case PHY_DOUBLE_CHANNEL_LOW_PRIMARY:
			ch_offset = BW40_LOW_PRIMARY;
			break;
		default:
			ch_offset = BW20;
			break;
		}
	}

	wlan_reg_dmn_get_curr_opclasses(&dot_11_ptr->num_classes,
					&dot_11_ptr->classes[1]);
	dot_11_ptr->classes[0] =
		lim_op_class_from_bandwidth(mac_ptr,
					    session_entry->curr_op_freq,
					    session_entry->ch_width,
					    ch_offset);
	dot_11_ptr->num_classes++;
	dot_11_ptr->present = 1;
}

void
populate_dot11f_tx_power_env(struct mac_context *mac,
			     tDot11fIEtransmit_power_env *tpe_ptr,
			     enum phy_ch_width chan_width, uint32_t chan_freq,
			     uint16_t *num_tpe, bool is_chan_switch)
{
	uint8_t count;
	uint16_t eirp_power, reg_power;
	int power_for_bss;
	bool add_eirp_power = false;
	struct ch_params chan_params;
	bool psd_tpe = false;
	uint32_t bw_threshold, bw_val;
	int num_tpe_ies = 0;
	uint32_t num_tx_power, num_tx_power_psd;
	uint32_t max_tx_pwr_count, max_tx_pwr_count_psd;
	qdf_freq_t psd_start_freq;

	if (!wlan_reg_is_6ghz_chan_freq(chan_freq)) {
		psd_tpe = false;
	} else {
		wlan_reg_get_client_power_for_6ghz_ap(mac->pdev,
						      REG_DEFAULT_CLIENT,
						      chan_freq,
						      &psd_tpe,
						      &reg_power, &eirp_power);
		pe_debug("chan_freq %d, reg_power %d, psd_power %d",
			 chan_freq, reg_power, eirp_power);
	}

	switch (chan_width) {
	case CH_WIDTH_20MHZ:
		max_tx_pwr_count = 0;
		max_tx_pwr_count_psd = 1;
		num_tx_power = 1;
		num_tx_power_psd = 1;
		break;

	case CH_WIDTH_40MHZ:
		max_tx_pwr_count = 1;
		max_tx_pwr_count_psd = 2;
		num_tx_power = 2;
		num_tx_power_psd = 2;
		break;

	case CH_WIDTH_80MHZ:
		max_tx_pwr_count = 2;
		max_tx_pwr_count_psd = 3;
		num_tx_power = 3;
		num_tx_power_psd = 4;
		break;

	case CH_WIDTH_160MHZ:
	case CH_WIDTH_80P80MHZ:
		max_tx_pwr_count = 3;
		max_tx_pwr_count_psd = 4;
		num_tx_power = 4;
		num_tx_power_psd = 8;
		break;
	default:
		return;
	}

	if (!psd_tpe) {
		reg_power = wlan_reg_get_channel_reg_power_for_freq(
			mac->pdev, chan_freq);

		tpe_ptr->present = 1;
		tpe_ptr->max_tx_pwr_count = max_tx_pwr_count;
		tpe_ptr->max_tx_pwr_interpret = 0;
		tpe_ptr->max_tx_pwr_category = 0;
		tpe_ptr->num_tx_power = num_tx_power;
		for (count = 0; count < num_tx_power; count++)
			tpe_ptr->tx_power[count] = reg_power;

		num_tpe_ies++;
		tpe_ptr++;
	} else {

		bw_val = wlan_reg_get_bw_value(chan_width);
		bw_threshold = 20;
		power_for_bss = eirp_power + 13;

		while ((reg_power > power_for_bss) &&
		       (bw_threshold < bw_val)) {
			bw_threshold = 2 * bw_threshold;
			power_for_bss += 3;
		}
		if (bw_threshold < bw_val)
			add_eirp_power = true;

		pe_debug("bw_threshold %d", bw_threshold);

		if (add_eirp_power) {
			tpe_ptr->present = 1;
			tpe_ptr->max_tx_pwr_count = max_tx_pwr_count;
			tpe_ptr->max_tx_pwr_interpret = 2;
			tpe_ptr->max_tx_pwr_category = 0;
			tpe_ptr->num_tx_power = num_tx_power;
			for (count = 0; count < num_tx_power; count++) {
				tpe_ptr->tx_power[count] = reg_power * 2;
				pe_debug("non-psd default TPE %d %d",
					 count, tpe_ptr->tx_power[count]);
			}
			num_tpe_ies++;
			tpe_ptr++;
		}

		wlan_reg_get_client_power_for_6ghz_ap(mac->pdev,
						      REG_SUBORDINATE_CLIENT,
						      chan_freq,
						      &psd_tpe,
						      &reg_power,
						      &eirp_power);

		if (reg_power) {
			bw_val = wlan_reg_get_bw_value(chan_width);
			bw_threshold = 20;
			power_for_bss = eirp_power + 13;

			while ((reg_power > power_for_bss) &&
			       (bw_threshold < bw_val)) {
				bw_threshold = 2 * bw_threshold;
				power_for_bss += 3;
			}
			if (bw_threshold < bw_val)
				add_eirp_power = true;

			if (add_eirp_power) {
				tpe_ptr->present = 1;
				tpe_ptr->max_tx_pwr_count = max_tx_pwr_count;
				tpe_ptr->max_tx_pwr_interpret = 2;
				tpe_ptr->max_tx_pwr_category = 1;
				tpe_ptr->num_tx_power = num_tx_power;
				for (count = 0; count < num_tx_power; count++) {
					tpe_ptr->tx_power[count] =
							reg_power * 2;
					pe_debug("non-psd subord TPE %d %d",
						 count,
						 tpe_ptr->tx_power[count]);
				}
				num_tpe_ies++;
				tpe_ptr++;
			}
		}

		tpe_ptr->present = 1;
		tpe_ptr->max_tx_pwr_count = max_tx_pwr_count_psd;
		tpe_ptr->max_tx_pwr_interpret = 3;
		tpe_ptr->max_tx_pwr_category = 0;
		tpe_ptr->num_tx_power = num_tx_power_psd;

		chan_params.ch_width = chan_width;
		bw_val = wlan_reg_get_bw_value(chan_width);
		wlan_reg_set_channel_params_for_pwrmode(mac->pdev, chan_freq,
							chan_freq, &chan_params,
							REG_CURRENT_PWR_MODE);

		if (chan_params.mhz_freq_seg1)
			psd_start_freq =
				chan_params.mhz_freq_seg1 - bw_val / 2 + 10;
		else
			psd_start_freq =
				chan_params.mhz_freq_seg0 - bw_val / 2 + 10;

		for (count = 0; count < num_tx_power_psd; count++) {
			wlan_reg_get_client_power_for_6ghz_ap(
							mac->pdev,
							REG_DEFAULT_CLIENT,
							psd_start_freq +
							20 * count,
							&psd_tpe,
							&reg_power,
							&eirp_power);
			tpe_ptr->tx_power[count] = eirp_power * 2;
			pe_debug("psd default TPE %d %d",
				 count, tpe_ptr->tx_power[count]);
		}
		num_tpe_ies++;
		tpe_ptr++;

		wlan_reg_get_client_power_for_6ghz_ap(mac->pdev,
						      REG_SUBORDINATE_CLIENT,
						      chan_freq,
						      &psd_tpe,
						      &reg_power,
						      &eirp_power);

		if (eirp_power) {
			tpe_ptr->present = 1;
			tpe_ptr->max_tx_pwr_count = max_tx_pwr_count_psd;
			tpe_ptr->max_tx_pwr_interpret = 3;
			tpe_ptr->max_tx_pwr_category = 1;
			tpe_ptr->num_tx_power = num_tx_power_psd;

			for (count = 0; count < num_tx_power_psd; count++) {
				wlan_reg_get_client_power_for_6ghz_ap(
							mac->pdev,
							REG_SUBORDINATE_CLIENT,
							psd_start_freq +
							20 * count,
							&psd_tpe,
							&reg_power,
							&eirp_power);
				tpe_ptr->tx_power[count] = eirp_power * 2;
				pe_debug("psd subord TPE %d %d",
					 count, tpe_ptr->tx_power[count]);
			}
			num_tpe_ies++;
			tpe_ptr++;
		}
	}
	*num_tpe = num_tpe_ies;
}

void
populate_dot11f_chan_switch_wrapper(struct mac_context *mac,
				    tDot11fIEChannelSwitchWrapper *pDot11f,
				    struct pe_session *pe_session)
{
	uint16_t num_tpe;
	/*
	 * The new country subelement is present only when
	 * 1. AP performs Extended Channel switching to new country.
	 * 2. New Operating Class table or a changed set of operating
	 * classes relative to the contents of the country element sent
	 * in the beacons.
	 *
	 * In the current scenario Channel Switch wrapper IE is included
	 * when we a radar is found and the AP does a channel change in
	 * the same regulatory domain(No country change or Operating class
	 * table). So, we do not need to include the New Country IE.
	 *
	 * Transmit Power Envlope Subelement is optional
	 * in Channel Switch Wrapper IE. So, not setting
	 * the TPE subelement. We include only WiderBWChanSwitchAnn.
	 */
	pDot11f->present = 1;

	/*
	 * Add the Wide Channel Bandwidth Sublement.
	 */
	pDot11f->WiderBWChanSwitchAnn.newChanWidth =
		pe_session->gLimWiderBWChannelSwitch.newChanWidth;
	pDot11f->WiderBWChanSwitchAnn.newCenterChanFreq0 =
		pe_session->gLimWiderBWChannelSwitch.newCenterChanFreq0;
	pDot11f->WiderBWChanSwitchAnn.newCenterChanFreq1 =
		pe_session->gLimWiderBWChannelSwitch.newCenterChanFreq1;
	pDot11f->WiderBWChanSwitchAnn.present = 1;

	/*
	 * Add the Transmit power Envelope Sublement.
	 */
	if (pe_session->vhtCapability) {
		populate_dot11f_tx_power_env(mac,
				&pDot11f->transmit_power_env,
				pe_session->gLimChannelSwitch.ch_width,
				pe_session->gLimChannelSwitch.sw_target_freq,
				&num_tpe, true);
	}
}

#ifdef FEATURE_AP_MCC_CH_AVOIDANCE
void
populate_dot11f_avoid_channel_ie(struct mac_context *mac_ctx,
				 tDot11fIEQComVendorIE *dot11f,
				 struct pe_session *pe_session)
{
	if (!pe_session->sap_advertise_avoid_ch_ie)
		return;

	dot11f->present = true;
	dot11f->type = QCOM_VENDOR_IE_MCC_AVOID_CH;
	dot11f->channel = wlan_reg_freq_to_chan(
		mac_ctx->pdev, pe_session->curr_op_freq);
}
#endif /* FEATURE_AP_MCC_CH_AVOIDANCE */

QDF_STATUS
populate_dot11f_country(struct mac_context *mac,
			tDot11fIECountry *ctry_ie, struct pe_session *pe_session)
{
	uint8_t code[REG_ALPHA2_LEN + 1];
	uint8_t cur_triplet_num_chans = 0;
	int chan_enum, chan_num;
	struct regulatory_channel *sec_cur_chan_list;
	struct regulatory_channel *cur_chan, *start, *prev;
	uint8_t buffer_triplets[81][3];
	uint8_t i, j, num_triplets = 0;
	QDF_STATUS status = QDF_STATUS_SUCCESS;
	bool six_gig_started = false;
	uint8_t band_bitmap;
	uint32_t band_capability;
	uint8_t chan_spacing_for_2ghz = 1;
	uint8_t chan_spacing_for_5ghz_6ghz = 4;
	struct mlme_legacy_priv *mlme_priv = NULL;

	sec_cur_chan_list = qdf_mem_malloc(NUM_CHANNELS *
					   sizeof(*sec_cur_chan_list));
	if (!sec_cur_chan_list)
		return QDF_STATUS_E_NOMEM;

	if (pe_session) {
		mlme_priv = wlan_vdev_mlme_get_ext_hdl(pe_session->vdev);
		if (!mlme_priv) {
			pe_err("Invalid mlme priv object");
			status = QDF_STATUS_E_FAILURE;
			goto out;
		}
	}

	if (!pe_session ||
	    (mlme_priv && mlme_priv->country_ie_for_all_band)) {
		status = wlan_mlme_get_band_capability(mac->psoc,
						       &band_capability);
		if (QDF_IS_STATUS_ERROR(status)) {
			pe_err("Failed to get MLME Band Capability");
			goto out;
		}
		band_bitmap = (uint8_t)band_capability;
	} else {
		if (pe_session->limRFBand == REG_BAND_UNKNOWN) {
			pe_err("Wrong reg band for country info");
			status = QDF_STATUS_E_FAILURE;
			goto out;
		}
		band_bitmap = BIT(pe_session->limRFBand);
	}

	chan_num = wlan_reg_get_secondary_band_channel_list(
						mac->pdev,
						band_bitmap,
						sec_cur_chan_list);
	if (!chan_num) {
		pe_err("failed to get cur_chan list");
		status = QDF_STATUS_E_FAILURE;
		goto out;
	}

	wlan_reg_read_current_country(mac->psoc, code);
	qdf_mem_copy(ctry_ie->country, code, REG_ALPHA2_LEN);

	/* advertise global operating class */
	ctry_ie->country[REG_ALPHA2_LEN] = 0x04;

	start = NULL;
	prev = NULL;
	for (chan_enum = 0; chan_enum < chan_num; chan_enum++) {
		cur_chan = &sec_cur_chan_list[chan_enum];

		if (cur_chan->chan_flags & REGULATORY_CHAN_DISABLED)
			continue;

		if (wlan_reg_is_6ghz_chan_freq(cur_chan->center_freq) &&
		    !six_gig_started) {
			buffer_triplets[num_triplets][0] = OP_CLASS_ID_201;
			buffer_triplets[num_triplets][1] = OP_CLASS_131;
			num_triplets++;
			six_gig_started = true;
		}

		if (start && prev &&
		    ((prev->chan_num + chan_spacing_for_2ghz ==
		      cur_chan->chan_num) ||
		     (prev->chan_num + chan_spacing_for_5ghz_6ghz ==
		      cur_chan->chan_num)) &&
		    start->tx_power == cur_chan->tx_power) {
			/* Can use same entry */
			prev = cur_chan;
			cur_triplet_num_chans++;
			continue;
		}

		if (start && prev) {
			/* Save as entry */
			buffer_triplets[num_triplets][0] = start->chan_num;
			buffer_triplets[num_triplets][1] =
					cur_triplet_num_chans + 1;
			buffer_triplets[num_triplets][2] = start->tx_power;
			start = NULL;
			cur_triplet_num_chans = 0;

			num_triplets++;
			if (num_triplets > 80) {
				pe_err("Triplets number exceed max size");
				status = QDF_STATUS_E_FAILURE;
				goto out;
			}
		}

		if ((chan_enum == NUM_CHANNELS - 1) && (six_gig_started)) {
			buffer_triplets[num_triplets][0] = OP_CLASS_ID_201;
			buffer_triplets[num_triplets][1] = OP_CLASS_132;
			num_triplets++;

			buffer_triplets[num_triplets][0] = OP_CLASS_ID_201;
			buffer_triplets[num_triplets][1] = OP_CLASS_133;
			num_triplets++;

			buffer_triplets[num_triplets][0] = OP_CLASS_ID_201;
			buffer_triplets[num_triplets][1] = OP_CLASS_134;
			num_triplets++;
		}

		/* Start new group */
		start = cur_chan;
		prev = cur_chan;
	}

	if (start) {
		buffer_triplets[num_triplets][0] = start->chan_num;
		buffer_triplets[num_triplets][1] = cur_triplet_num_chans + 1;
		buffer_triplets[num_triplets][2] = start->tx_power;
		num_triplets++;
	}

	if (!num_triplets) {
		/* at-least one triplet should be present */
		pe_err("No triplet present");
		status = QDF_STATUS_E_FAILURE;
		goto out;
	}

	ctry_ie->num_more_triplets = num_triplets - 1;
	ctry_ie->first_triplet[0] = buffer_triplets[0][0];
	ctry_ie->first_triplet[1] = buffer_triplets[0][1];
	ctry_ie->first_triplet[2] = buffer_triplets[0][2];

	for (i = 0; i < ctry_ie->num_more_triplets; i++) {
		for (j = 0; j < 3; j++) {
			ctry_ie->more_triplets[i][j] = buffer_triplets[i+1][j];
		}
	}
	ctry_ie->present = 1;

out:
	qdf_mem_free(sec_cur_chan_list);
	return status;
} /* End populate_dot11f_country. */

/**
 * populate_dot11f_ds_params() - To populate DS IE params
 * @mac_ctx: Pointer to global mac context
 * @dot11f_param: pointer to DS params IE
 * @freq: freq
 *
 * This routine will populate DS param in management frame like
 * beacon, probe response, and etc.
 *
 * Return: Overall success
 */
QDF_STATUS
populate_dot11f_ds_params(struct mac_context *mac_ctx,
			  tDot11fIEDSParams *dot11f_param, qdf_freq_t freq)
{
	if (WLAN_REG_IS_24GHZ_CH_FREQ(freq)) {
		/* .11b/g mode PHY => Include the DS Parameter Set IE: */
		dot11f_param->curr_channel = wlan_reg_freq_to_chan(
								mac_ctx->pdev,
								freq);
		dot11f_param->present = 1;
	}

	return QDF_STATUS_SUCCESS;
}

#define SET_AIFSN(aifsn) (((aifsn) < 2) ? 2 : (aifsn))

void
populate_dot11f_edca_param_set(struct mac_context *mac,
			       tDot11fIEEDCAParamSet *pDot11f,
			       struct pe_session *pe_session)
{

	if (pe_session->limQosEnabled) {
		/* change to bitwise operation, after this is fixed in frames. */
		pDot11f->qos =
			(uint8_t) (0xf0 &
				   (pe_session->gLimEdcaParamSetCount << 4));

		/* Fill each EDCA parameter set in order: be, bk, vi, vo */
		pDot11f->acbe_aifsn =
			(0xf &
			 SET_AIFSN(pe_session->gLimEdcaParamsBC[0].aci.aifsn));
		pDot11f->acbe_acm =
			(0x1 & pe_session->gLimEdcaParamsBC[0].aci.acm);
		pDot11f->acbe_aci = (0x3 & QCA_WLAN_AC_BE);
		pDot11f->acbe_acwmin =
			(0xf & pe_session->gLimEdcaParamsBC[0].cw.min);
		pDot11f->acbe_acwmax =
			(0xf & pe_session->gLimEdcaParamsBC[0].cw.max);
		pDot11f->acbe_txoplimit =
			pe_session->gLimEdcaParamsBC[0].txoplimit;

		pDot11f->acbk_aifsn =
			(0xf &
			 SET_AIFSN(pe_session->gLimEdcaParamsBC[1].aci.aifsn));
		pDot11f->acbk_acm =
			(0x1 & pe_session->gLimEdcaParamsBC[1].aci.acm);
		pDot11f->acbk_aci = (0x3 & QCA_WLAN_AC_BK);
		pDot11f->acbk_acwmin =
			(0xf & pe_session->gLimEdcaParamsBC[1].cw.min);
		pDot11f->acbk_acwmax =
			(0xf & pe_session->gLimEdcaParamsBC[1].cw.max);
		pDot11f->acbk_txoplimit =
			pe_session->gLimEdcaParamsBC[1].txoplimit;

		pDot11f->acvi_aifsn =
			(0xf &
			 SET_AIFSN(pe_session->gLimEdcaParamsBC[2].aci.aifsn));
		pDot11f->acvi_acm =
			(0x1 & pe_session->gLimEdcaParamsBC[2].aci.acm);
		pDot11f->acvi_aci = (0x3 & QCA_WLAN_AC_VI);
		pDot11f->acvi_acwmin =
			(0xf & pe_session->gLimEdcaParamsBC[2].cw.min);
		pDot11f->acvi_acwmax =
			(0xf & pe_session->gLimEdcaParamsBC[2].cw.max);
		pDot11f->acvi_txoplimit =
			pe_session->gLimEdcaParamsBC[2].txoplimit;

		pDot11f->acvo_aifsn =
			(0xf &
			 SET_AIFSN(pe_session->gLimEdcaParamsBC[3].aci.aifsn));
		pDot11f->acvo_acm =
			(0x1 & pe_session->gLimEdcaParamsBC[3].aci.acm);
		pDot11f->acvo_aci = (0x3 & QCA_WLAN_AC_VO);
		pDot11f->acvo_acwmin =
			(0xf & pe_session->gLimEdcaParamsBC[3].cw.min);
		pDot11f->acvo_acwmax =
			(0xf & pe_session->gLimEdcaParamsBC[3].cw.max);
		pDot11f->acvo_txoplimit =
			pe_session->gLimEdcaParamsBC[3].txoplimit;

		pDot11f->present = 1;
	}

} /* End PopluateDot11fEDCAParamSet. */

QDF_STATUS
populate_dot11f_erp_info(struct mac_context *mac,
			 tDot11fIEERPInfo *pDot11f, struct pe_session *pe_session)
{
	uint32_t val;
	enum reg_wifi_band rfBand = REG_BAND_UNKNOWN;

	lim_get_rf_band_new(mac, &rfBand, pe_session);
	if (REG_BAND_2G == rfBand) {
		pDot11f->present = 1;

		val = pe_session->cfgProtection.fromllb;
		if (!val) {
			pe_err("11B protection not enabled. Not populating ERP IE %d",
				val);
			return QDF_STATUS_SUCCESS;
		}

		if (pe_session->gLim11bParams.protectionEnabled) {
			pDot11f->non_erp_present = 1;
			pDot11f->use_prot = 1;
		}

		if (pe_session->gLimOlbcParams.protectionEnabled) {
			/* FIXME_PROTECTION: we should be setting non_erp present also. */
			/* check the test plan first. */
			pDot11f->use_prot = 1;
		}

		if ((pe_session->gLimNoShortParams.numNonShortPreambleSta)
		    || !pe_session->beaconParams.fShortPreamble) {
			pDot11f->barker_preamble = 1;

		}
	}

	return QDF_STATUS_SUCCESS;
} /* End populate_dot11f_erp_info. */

QDF_STATUS
populate_dot11f_ext_supp_rates(struct mac_context *mac, uint8_t nChannelNum,
			       tDot11fIEExtSuppRates *pDot11f,
			       struct pe_session *pe_session)
{
	qdf_size_t n_rates = 0;
	uint8_t rates[SIR_MAC_MAX_NUMBER_OF_RATES];

	/* Use the ext rates present in session entry whenever nChannelNum is set to OPERATIONAL
	   else use the ext supported rate set from CFG, which is fixed and does not change dynamically and is used for
	   sending mgmt frames (lile probe req) which need to go out before any session is present.
	 */
	if (POPULATE_DOT11F_RATES_OPERATIONAL == nChannelNum) {
		if (pe_session) {
			n_rates = pe_session->extRateSet.numRates;
			qdf_mem_copy(rates, pe_session->extRateSet.rate,
				     n_rates);
		} else {
			pe_err("no session context exists while populating Operational Rate Set");
		}
	} else if (HIGHEST_24GHZ_CHANNEL_NUM >= nChannelNum) {
		if (!pe_session) {
			pe_err("null pe_session");
			return QDF_STATUS_E_INVAL;
		}

		n_rates = mlme_get_ext_opr_rate(pe_session->vdev, rates,
						sizeof(rates));
	}

	if (0 != n_rates) {
		pe_debug("ext supp rates present, num %d", (uint8_t)n_rates);
		pDot11f->num_rates = (uint8_t)n_rates;
		qdf_mem_copy(pDot11f->rates, rates, n_rates);
		pDot11f->present = 1;
	}

	return QDF_STATUS_SUCCESS;

} /* End populate_dot11f_ext_supp_rates. */

QDF_STATUS
populate_dot11f_ext_supp_rates1(struct mac_context *mac,
				uint8_t nChannelNum,
				tDot11fIEExtSuppRates *pDot11f)
{
	qdf_size_t nRates;
	QDF_STATUS nsir_status;
	uint8_t rates[SIR_MAC_MAX_NUMBER_OF_RATES];

	if (14 < nChannelNum) {
		pDot11f->present = 0;
		return QDF_STATUS_SUCCESS;
	}
	/* N.B. I have *no* idea why we're calling 'wlan_cfg_get_str' with an argument */
	/* of WNI_CFG_SUPPORTED_RATES_11A here, but that's what was done */
	/* previously & I'm afraid to change it! */
	nRates = SIR_MAC_MAX_NUMBER_OF_RATES;
	nsir_status = wlan_mlme_get_cfg_str(
				rates,
				&mac->mlme_cfg->rates.supported_11a,
				&nRates);
	if (QDF_IS_STATUS_ERROR(nsir_status)) {
		pe_err("Failed to retrieve nItem from CFG status: %d",
		       (nsir_status));
		return nsir_status;
	}

	if (0 != nRates) {
		pDot11f->num_rates = (uint8_t) nRates;
		qdf_mem_copy(pDot11f->rates, rates, nRates);
		pDot11f->present = 1;
	}

	return QDF_STATUS_SUCCESS;
} /* populate_dot11f_ext_supp_rates1. */

QDF_STATUS
populate_dot11f_ht_caps(struct mac_context *mac,
			struct pe_session *pe_session, tDot11fIEHTCaps *pDot11f)
{
	qdf_size_t ncfglen;
	QDF_STATUS nSirStatus;
	uint8_t disable_high_ht_mcs_2x2 = 0;
	struct ch_params ch_params = {0};
	uint8_t cb_mode;

	tSirMacTxBFCapabilityInfo *pTxBFCapabilityInfo;
	tSirMacASCapabilityInfo *pASCapabilityInfo;
	struct mlme_ht_capabilities_info *ht_cap_info;
	struct mlme_vht_capabilities_info *vht_cap_info;

	ht_cap_info = &mac->mlme_cfg->ht_caps.ht_cap_info;
	vht_cap_info = &mac->mlme_cfg->vht_caps.vht_cap_info;

	pDot11f->mimoPowerSave = ht_cap_info->mimo_power_save;
	pDot11f->greenField = ht_cap_info->green_field;
	pDot11f->delayedBA = ht_cap_info->delayed_ba;
	pDot11f->maximalAMSDUsize = ht_cap_info->maximal_amsdu_size;
	pDot11f->dsssCckMode40MHz = ht_cap_info->dsss_cck_mode_40_mhz;
	pDot11f->psmp = ht_cap_info->psmp;
	pDot11f->stbcControlFrame = ht_cap_info->stbc_control_frame;
	pDot11f->lsigTXOPProtection = ht_cap_info->l_sig_tx_op_protection;

	/* All sessionized entries will need the check below */
	if (!pe_session) {     /* Only in case of NO session */
		pDot11f->supportedChannelWidthSet =
			ht_cap_info->supported_channel_width_set;
		pDot11f->advCodingCap = ht_cap_info->adv_coding_cap;
		pDot11f->txSTBC = ht_cap_info->tx_stbc;
		pDot11f->rxSTBC = ht_cap_info->rx_stbc;
		pDot11f->shortGI20MHz = ht_cap_info->short_gi_20_mhz;
		pDot11f->shortGI40MHz = ht_cap_info->short_gi_40_mhz;
	} else {
		cb_mode = lim_get_cb_mode_for_freq(mac, pe_session,
						   pe_session->curr_op_freq);
		if (WLAN_REG_IS_24GHZ_CH_FREQ(pe_session->curr_op_freq) &&
		    LIM_IS_STA_ROLE(pe_session) &&
		    cb_mode != WNI_CFG_CHANNEL_BONDING_MODE_DISABLE) {
			pDot11f->supportedChannelWidthSet = 1;
			ch_params.ch_width = CH_WIDTH_40MHZ;
			wlan_reg_set_channel_params_for_pwrmode(
				mac->pdev, pe_session->curr_op_freq, 0,
				&ch_params, REG_CURRENT_PWR_MODE);
			if (ch_params.ch_width != CH_WIDTH_40MHZ)
				pDot11f->supportedChannelWidthSet = 0;
		} else if (LIM_IS_STA_ROLE(pe_session)) {
			if (pe_session->ch_width == CH_WIDTH_20MHZ)
				pDot11f->supportedChannelWidthSet = 0;
			else
				pDot11f->supportedChannelWidthSet = 1;
		} else {
			pDot11f->supportedChannelWidthSet =
				pe_session->htSupportedChannelWidthSet;
		}

		pDot11f->advCodingCap = pe_session->ht_config.adv_coding_cap;
		pDot11f->txSTBC = pe_session->ht_config.tx_stbc;
		pDot11f->rxSTBC = pe_session->ht_config.rx_stbc;
		pDot11f->shortGI20MHz = pe_session->ht_config.short_gi_20_mhz;
		pDot11f->shortGI40MHz = pe_session->ht_config.short_gi_40_mhz;
	}

	/* Ensure that shortGI40MHz is Disabled if supportedChannelWidthSet is
	   eHT_CHANNEL_WIDTH_20MHZ */
	if (pDot11f->supportedChannelWidthSet == eHT_CHANNEL_WIDTH_20MHZ) {
		pDot11f->shortGI40MHz = 0;
	}

	pDot11f->maxRxAMPDUFactor =
		mac->mlme_cfg->ht_caps.ampdu_params.max_rx_ampdu_factor;
	pDot11f->mpduDensity =
		mac->mlme_cfg->ht_caps.ampdu_params.mpdu_density;
	pDot11f->reserved1 = mac->mlme_cfg->ht_caps.ampdu_params.reserved;

	ncfglen = SIZE_OF_SUPPORTED_MCS_SET;
	nSirStatus = wlan_mlme_get_cfg_str(
		pDot11f->supportedMCSSet,
		&mac->mlme_cfg->rates.supported_mcs_set,
		&ncfglen);
	if (QDF_IS_STATUS_ERROR(nSirStatus)) {
		pe_err("Failed to retrieve nItem from CFG status: %d",
		       (nSirStatus));
			return nSirStatus;
	}

	if (pe_session) {
		disable_high_ht_mcs_2x2 =
				mac->mlme_cfg->rates.disable_high_ht_mcs_2x2;
		if (pe_session->nss == NSS_1x1_MODE) {
			pDot11f->supportedMCSSet[1] = 0;
			pDot11f->txSTBC = 0;
		} else if (wlan_reg_is_24ghz_ch_freq(
			   pe_session->curr_op_freq) &&
			   disable_high_ht_mcs_2x2 &&
			   (pe_session->opmode == QDF_STA_MODE)) {
			pe_debug("Disabling high HT MCS [%d]",
				 disable_high_ht_mcs_2x2);
			pDot11f->supportedMCSSet[1] =
					(pDot11f->supportedMCSSet[1] >>
						disable_high_ht_mcs_2x2);
		}
	}

	/* If STA mode, session supported NSS > 1 and
	 * SMPS enabled publish HT SMPS IE
	 */
	if (pe_session &&
	    LIM_IS_STA_ROLE(pe_session) &&
	    (mac->mlme_cfg->ht_caps.enable_smps) &&
	    (!pe_session->supported_nss_1x1)) {
		pe_debug("Add SM power save IE: %d",
			 mac->mlme_cfg->ht_caps.smps);
		pDot11f->mimoPowerSave = mac->mlme_cfg->ht_caps.smps;
	}

	pDot11f->pco = mac->mlme_cfg->ht_caps.ext_cap_info.pco;
	pDot11f->transitionTime =
		mac->mlme_cfg->ht_caps.ext_cap_info.transition_time;
	pDot11f->mcsFeedback =
		mac->mlme_cfg->ht_caps.ext_cap_info.mcs_feedback;

	pTxBFCapabilityInfo =
		(tSirMacTxBFCapabilityInfo *)&vht_cap_info->tx_bf_cap;
	pDot11f->txBF = pTxBFCapabilityInfo->txBF;
	pDot11f->rxStaggeredSounding = pTxBFCapabilityInfo->rxStaggeredSounding;
	pDot11f->txStaggeredSounding = pTxBFCapabilityInfo->txStaggeredSounding;
	pDot11f->rxZLF = pTxBFCapabilityInfo->rxZLF;
	pDot11f->txZLF = pTxBFCapabilityInfo->txZLF;
	pDot11f->implicitTxBF = pTxBFCapabilityInfo->implicitTxBF;
	pDot11f->calibration = pTxBFCapabilityInfo->calibration;
	pDot11f->explicitCSITxBF = pTxBFCapabilityInfo->explicitCSITxBF;
	pDot11f->explicitUncompressedSteeringMatrix =
		pTxBFCapabilityInfo->explicitUncompressedSteeringMatrix;
	pDot11f->explicitBFCSIFeedback =
		pTxBFCapabilityInfo->explicitBFCSIFeedback;
	pDot11f->explicitUncompressedSteeringMatrixFeedback =
		pTxBFCapabilityInfo->explicitUncompressedSteeringMatrixFeedback;
	pDot11f->explicitCompressedSteeringMatrixFeedback =
		pTxBFCapabilityInfo->explicitCompressedSteeringMatrixFeedback;
	pDot11f->csiNumBFAntennae = pTxBFCapabilityInfo->csiNumBFAntennae;
	pDot11f->uncompressedSteeringMatrixBFAntennae =
		pTxBFCapabilityInfo->uncompressedSteeringMatrixBFAntennae;
	pDot11f->compressedSteeringMatrixBFAntennae =
		pTxBFCapabilityInfo->compressedSteeringMatrixBFAntennae;

	pASCapabilityInfo = (tSirMacASCapabilityInfo *)&vht_cap_info->as_cap;
	pDot11f->antennaSelection = pASCapabilityInfo->antennaSelection;
	pDot11f->explicitCSIFeedbackTx =
		pASCapabilityInfo->explicitCSIFeedbackTx;
	pDot11f->antennaIndicesFeedbackTx =
		pASCapabilityInfo->antennaIndicesFeedbackTx;
	pDot11f->explicitCSIFeedback = pASCapabilityInfo->explicitCSIFeedback;
	pDot11f->antennaIndicesFeedback =
		pASCapabilityInfo->antennaIndicesFeedback;
	pDot11f->rxAS = pASCapabilityInfo->rxAS;
	pDot11f->txSoundingPPDUs = pASCapabilityInfo->txSoundingPPDUs;

	pDot11f->present = 1;

	return QDF_STATUS_SUCCESS;

} /* End populate_dot11f_ht_caps. */

#define SEC_CHANNEL_OFFSET                      20

ePhyChanBondState wlan_get_cb_mode(struct mac_context *mac,
				   qdf_freq_t ch_freq,
				   tDot11fBeaconIEs *ie_struct,
				   struct pe_session *pe_session)
{
	ePhyChanBondState cb_mode = PHY_SINGLE_CHANNEL_CENTERED;
	uint32_t sec_ch_freq = 0;
	uint32_t self_cb_mode;
	struct ch_params ch_params = {0};

	self_cb_mode = lim_get_cb_mode_for_freq(mac, pe_session, ch_freq);
	if (self_cb_mode == WNI_CFG_CHANNEL_BONDING_MODE_DISABLE)
		return PHY_SINGLE_CHANNEL_CENTERED;

	if (pe_session->dot11mode == MLME_DOT11_MODE_11A ||
	    pe_session->dot11mode == MLME_DOT11_MODE_11G ||
	    pe_session->dot11mode == MLME_DOT11_MODE_11B)
		return PHY_SINGLE_CHANNEL_CENTERED;

	if (!(ie_struct->HTCaps.present && (eHT_CHANNEL_WIDTH_40MHZ ==
		ie_struct->HTCaps.supportedChannelWidthSet))) {
		return PHY_SINGLE_CHANNEL_CENTERED;
	}

	/* In Case WPA2 and TKIP is the only one cipher suite in Pairwise */
	if ((ie_struct->RSN.present &&
	    (ie_struct->RSN.pwise_cipher_suite_count == 1) &&
	    !qdf_mem_cmp(&(ie_struct->RSN.pwise_cipher_suites[0][0]),
			 "\x00\x0f\xac\x02", 4)) ||
		/* In Case only WPA1 is supported and TKIP is
		 * the only one cipher suite in Unicast.
		 */
	    (!ie_struct->RSN.present && (ie_struct->WPA.present &&
	    (ie_struct->WPA.unicast_cipher_count == 1) &&
	    !qdf_mem_cmp(&(ie_struct->WPA.unicast_ciphers[0][0]),
			 "\x00\x50\xf2\x02", 4)))) {
		pe_debug("No channel bonding in TKIP mode");
		return PHY_SINGLE_CHANNEL_CENTERED;
	}

	if (!ie_struct->HTInfo.present)
		return PHY_SINGLE_CHANNEL_CENTERED;

	pe_debug("ch freq %d scws %u rtws %u sco %u", ch_freq,
		 ie_struct->HTCaps.supportedChannelWidthSet,
		 ie_struct->HTInfo.recommendedTxWidthSet,
		 ie_struct->HTInfo.secondaryChannelOffset);

	if (ie_struct->HTInfo.recommendedTxWidthSet == eHT_CHANNEL_WIDTH_40MHZ)
		cb_mode = ie_struct->HTInfo.secondaryChannelOffset;
	else
		cb_mode = PHY_SINGLE_CHANNEL_CENTERED;

	switch (cb_mode) {
	case PHY_DOUBLE_CHANNEL_LOW_PRIMARY:
		sec_ch_freq = ch_freq + SEC_CHANNEL_OFFSET;
		break;
	case PHY_DOUBLE_CHANNEL_HIGH_PRIMARY:
		sec_ch_freq = ch_freq - SEC_CHANNEL_OFFSET;
		break;
	default:
		break;
	}

	if (cb_mode != PHY_SINGLE_CHANNEL_CENTERED) {
		ch_params.ch_width = CH_WIDTH_40MHZ;
		wlan_reg_set_channel_params_for_pwrmode(mac->pdev, ch_freq,
							sec_ch_freq, &ch_params,
							REG_CURRENT_PWR_MODE);
		if (ch_params.ch_width == CH_WIDTH_20MHZ ||
		    ch_params.sec_ch_offset != cb_mode) {
			pe_err("ch freq %d :: Supported HT BW %d and cbmode %d, APs HT BW %d and cbmode %d, so switch to 20Mhz",
				ch_freq, ch_params.ch_width,
				ch_params.sec_ch_offset,
				ie_struct->HTInfo.recommendedTxWidthSet,
				cb_mode);
			cb_mode = PHY_SINGLE_CHANNEL_CENTERED;
		}
	}

	return cb_mode;
}

void lim_log_vht_cap(struct mac_context *mac, tDot11fIEVHTCaps *pDot11f)
{
#ifdef DUMP_MGMT_CNTNTS
	pe_debug("maxMPDULen (2): %d", pDot11f->maxMPDULen);
	pe_debug("supportedChannelWidthSet (2): %d",
		pDot11f->supportedChannelWidthSet);
	pe_debug("ldpcCodingCap (1): %d",
		pDot11f->ldpcCodingCap);
	pe_debug("shortGI80MHz (1): %d", pDot11f->shortGI80MHz);
	pe_debug("shortGI160and80plus80MHz (1): %d",
		pDot11f->shortGI160and80plus80MHz);
	pe_debug("txSTBC (1): %d", pDot11f->txSTBC);
	pe_debug("rxSTBC (3): %d", pDot11f->rxSTBC);
	pe_debug("suBeamFormerCap (1): %d",
		pDot11f->suBeamFormerCap);
	pe_debug("suBeamformeeCap (1): %d",
		pDot11f->suBeamformeeCap);
	pe_debug("csnofBeamformerAntSup (3): %d",
		pDot11f->csnofBeamformerAntSup);
	pe_debug("numSoundingDim (3): %d",
		pDot11f->numSoundingDim);
	pe_debug("muBeamformerCap (1): %d",
		pDot11f->muBeamformerCap);
	pe_debug("muBeamformeeCap (1): %d",
		pDot11f->muBeamformeeCap);
	pe_debug("vhtTXOPPS (1): %d", pDot11f->vhtTXOPPS);
	pe_debug("htcVHTCap (1): %d", pDot11f->htcVHTCap);
	pe_debug("maxAMPDULenExp (3): %d",
		pDot11f->maxAMPDULenExp);
	pe_debug("vhtLinkAdaptCap (2): %d",
		pDot11f->vhtLinkAdaptCap);
	pe_debug("rxAntPattern (1): %d",
		pDot11f->rxAntPattern;
	pe_debug("txAntPattern (1): %d",
		pDot11f->txAntPattern);
	pe_debug("reserved1 (2): %d", pDot11f->reserved1);
	pe_debug("rxMCSMap (16): %d", pDot11f->rxMCSMap);
	pe_debug("rxHighSupDataRate (13): %d",
		pDot11f->rxHighSupDataRate);
	pe_debug("reserved2(3): %d", pDot11f->reserved2);
	pe_debug("txMCSMap (16): %d", pDot11f->txMCSMap);
	pe_debug("txSupDataRate (13): %d"),
		pDot11f->txSupDataRate;
	pe_debug("reserved3 (3): %d", pDot11f->reserved3);
#endif /* DUMP_MGMT_CNTNTS */
}

static void lim_log_vht_operation(struct mac_context *mac,
				  tDot11fIEVHTOperation *pDot11f)
{
#ifdef DUMP_MGMT_CNTNTS
	pe_debug("chanWidth: %d", pDot11f->chanWidth);
	pe_debug("chan_center_freq_seg0: %d",
		 pDot11f->chan_center_freq_seg0);
	pe_debug("chan_center_freq_seg1: %d",
		 pDot11f->chan_center_freq_seg1);
	pe_debug("basicMCSSet: %d", pDot11f->basicMCSSet);
#endif /* DUMP_MGMT_CNTNTS */
}

static void lim_log_operating_mode(struct mac_context *mac,
				   tDot11fIEOperatingMode *pDot11f)
{
#ifdef DUMP_MGMT_CNTNTS
	pe_debug("ChanWidth: %d", pDot11f->chanWidth);
	pe_debug("reserved: %d", pDot11f->reserved);
	pe_debug("rxNSS: %d", pDot11f->rxNSS);
	pe_debug("rxNSS Type: %d", pDot11f->rxNSSType);
#endif /* DUMP_MGMT_CNTNTS */
}

static void lim_log_qos_map_set(struct mac_context *mac,
				struct qos_map_set *pQosMapSet)
{
	if (pQosMapSet->num_dscp_exceptions > QOS_MAP_MAX_EX)
		pQosMapSet->num_dscp_exceptions = QOS_MAP_MAX_EX;

	pe_debug("num of dscp exceptions: %d", pQosMapSet->num_dscp_exceptions);
	QDF_TRACE_HEX_DUMP(QDF_MODULE_ID_PE, QDF_TRACE_LEVEL_DEBUG,
			   pQosMapSet->dscp_exceptions,
			   sizeof(pQosMapSet->dscp_exceptions));
	QDF_TRACE_HEX_DUMP(QDF_MODULE_ID_PE, QDF_TRACE_LEVEL_DEBUG,
			   pQosMapSet->dscp_range,
			   sizeof(pQosMapSet->dscp_range));
}

QDF_STATUS
populate_dot11f_vht_caps(struct mac_context *mac,
			 struct pe_session *pe_session, tDot11fIEVHTCaps *pDot11f)
{
	uint32_t nCfgValue = 0;
	struct mlme_vht_capabilities_info *vht_cap_info;

	if (!(mac->mlme_cfg)) {
		pe_err("invalid mlme cfg");
		return QDF_STATUS_E_FAILURE;
	}
	vht_cap_info = &mac->mlme_cfg->vht_caps.vht_cap_info;

	pDot11f->present = 1;

	nCfgValue = vht_cap_info->ampdu_len;
	pDot11f->maxMPDULen = (nCfgValue & 0x0003);

	nCfgValue = vht_cap_info->supp_chan_width;
	pDot11f->supportedChannelWidthSet = (nCfgValue & 0x0003);

	nCfgValue = 0;
	/* With VHT it suffices if we just examine HT */
	if (pe_session) {
		if (lim_is_he_6ghz_band(pe_session)) {
			pDot11f->present = 0;
			return QDF_STATUS_SUCCESS;
		}

		if (wlan_reg_is_24ghz_ch_freq(pe_session->curr_op_freq)) {
			pDot11f->supportedChannelWidthSet = 0;
		} else {
			if (pe_session->ch_width <= CH_WIDTH_80MHZ)
				pDot11f->supportedChannelWidthSet = 0;
		}

		if (pe_session->ht_config.adv_coding_cap)
			pDot11f->ldpcCodingCap =
				pe_session->vht_config.ldpc_coding;

		pDot11f->shortGI80MHz =
			pe_session->vht_config.shortgi80;

		if (pDot11f->supportedChannelWidthSet)
			pDot11f->shortGI160and80plus80MHz =
				pe_session->vht_config.shortgi160and80plus80;

		if (pe_session->ht_config.tx_stbc)
			pDot11f->txSTBC = pe_session->vht_config.tx_stbc;

		if (pe_session->ht_config.rx_stbc)
			pDot11f->rxSTBC = pe_session->vht_config.rx_stbc;

		pDot11f->suBeamformeeCap =
			pe_session->vht_config.su_beam_formee;
		if (pe_session->vht_config.su_beam_formee) {
			pDot11f->muBeamformeeCap =
				pe_session->vht_config.mu_beam_formee;
			pDot11f->csnofBeamformerAntSup =
			      pe_session->vht_config.csnof_beamformer_antSup;
		} else {
			pDot11f->muBeamformeeCap = 0;
		}
		pDot11f->suBeamFormerCap =
			pe_session->vht_config.su_beam_former;

		pDot11f->vhtTXOPPS = pe_session->vht_config.vht_txops;

		pDot11f->numSoundingDim =
				pe_session->vht_config.num_soundingdim;

		pDot11f->htcVHTCap = pe_session->vht_config.htc_vhtcap;

		pDot11f->rxAntPattern = pe_session->vht_config.rx_antpattern;

		pDot11f->txAntPattern = pe_session->vht_config.tx_antpattern;
		pDot11f->extended_nss_bw_supp =
			pe_session->vht_config.extended_nss_bw_supp;

		pDot11f->maxAMPDULenExp =
				pe_session->vht_config.max_ampdu_lenexp;

		pDot11f->vhtLinkAdaptCap =
				pe_session->vht_config.vht_link_adapt;
	} else {
		nCfgValue = vht_cap_info->ldpc_coding_cap;
		pDot11f->ldpcCodingCap = (nCfgValue & 0x0001);

		nCfgValue = vht_cap_info->short_gi_80mhz;
		pDot11f->shortGI80MHz = (nCfgValue & 0x0001);

		if (pDot11f->supportedChannelWidthSet) {
			nCfgValue = vht_cap_info->short_gi_160mhz;
			pDot11f->shortGI160and80plus80MHz = (nCfgValue & 0x0001);
		}

		nCfgValue = vht_cap_info->tx_stbc;
		pDot11f->txSTBC = (nCfgValue & 0x0001);

		nCfgValue = vht_cap_info->rx_stbc;
		pDot11f->rxSTBC = (nCfgValue & 0x0007);

		nCfgValue = vht_cap_info->su_bformee;
		pDot11f->suBeamformeeCap = (nCfgValue & 0x0001);

		nCfgValue = vht_cap_info->enable_mu_bformee;
		pDot11f->muBeamformeeCap = (nCfgValue & 0x0001);

		nCfgValue = vht_cap_info->su_bformer;
		pDot11f->suBeamFormerCap = (nCfgValue & 0x0001);

		nCfgValue = vht_cap_info->tx_bfee_ant_supp;
		pDot11f->csnofBeamformerAntSup = (nCfgValue & 0x0007);

		nCfgValue = vht_cap_info->txop_ps;
		pDot11f->vhtTXOPPS = (nCfgValue & 0x0001);

		nCfgValue = vht_cap_info->num_soundingdim;
		pDot11f->numSoundingDim = (nCfgValue & 0x0007);

		nCfgValue = vht_cap_info->htc_vhtc;
		pDot11f->htcVHTCap = (nCfgValue & 0x0001);

		pDot11f->rxAntPattern = vht_cap_info->rx_antpattern;

		pDot11f->txAntPattern = vht_cap_info->tx_antpattern;

		nCfgValue = vht_cap_info->ampdu_len_exponent;
		pDot11f->maxAMPDULenExp = (nCfgValue & 0x0007);

		nCfgValue = vht_cap_info->link_adap_cap;
		pDot11f->vhtLinkAdaptCap = (nCfgValue & 0x0003);

		pDot11f->extended_nss_bw_supp =
			vht_cap_info->extended_nss_bw_supp;
	}

	pDot11f->max_nsts_total = vht_cap_info->max_nsts_total;
	pDot11f->vht_extended_nss_bw_cap =
		vht_cap_info->vht_extended_nss_bw_cap;

	nCfgValue = vht_cap_info->mu_bformer;
	pDot11f->muBeamformerCap = (nCfgValue & 0x0001);


	nCfgValue = vht_cap_info->rx_mcs_map;
	pDot11f->rxMCSMap = (nCfgValue & 0x0000FFFF);

	nCfgValue = vht_cap_info->rx_supp_data_rate;
	pDot11f->rxHighSupDataRate = (nCfgValue & 0x00001FFF);

	nCfgValue = vht_cap_info->tx_mcs_map;
	pDot11f->txMCSMap = (nCfgValue & 0x0000FFFF);

	nCfgValue = vht_cap_info->tx_supp_data_rate;
	pDot11f->txSupDataRate = (nCfgValue & 0x00001FFF);

	if (pe_session) {
		if (pe_session->nss == NSS_1x1_MODE) {
			pDot11f->txMCSMap |= DISABLE_NSS2_MCS;
			pDot11f->rxMCSMap |= DISABLE_NSS2_MCS;
			pDot11f->txSupDataRate =
				VHT_TX_HIGHEST_SUPPORTED_DATA_RATE_1_1;
			pDot11f->rxHighSupDataRate =
				VHT_RX_HIGHEST_SUPPORTED_DATA_RATE_1_1;
			if (!pe_session->ch_width &&
			    !vht_cap_info->enable_vht20_mcs9 &&
			    ((pDot11f->txMCSMap & VHT_1x1_MCS_MASK) ==
			     VHT_1x1_MCS9_MAP)) {
				DISABLE_VHT_MCS_9(pDot11f->txMCSMap,
						NSS_1x1_MODE);
				DISABLE_VHT_MCS_9(pDot11f->rxMCSMap,
						NSS_1x1_MODE);
			}
			pDot11f->txSTBC = 0;
		} else {
			if (!pe_session->ch_width &&
			    !vht_cap_info->enable_vht20_mcs9 &&
			    ((pDot11f->txMCSMap & VHT_2x2_MCS_MASK) ==
			     VHT_2x2_MCS9_MAP)) {
				DISABLE_VHT_MCS_9(pDot11f->txMCSMap,
						NSS_2x2_MODE);
				DISABLE_VHT_MCS_9(pDot11f->rxMCSMap,
						NSS_2x2_MODE);
			}
		}
	}

	lim_log_vht_cap(mac, pDot11f);
	return QDF_STATUS_SUCCESS;
}

QDF_STATUS
populate_dot11f_vht_operation(struct mac_context *mac,
			      struct pe_session *pe_session,
			      tDot11fIEVHTOperation *pDot11f)
{
	uint32_t mcs_set;
	struct mlme_vht_capabilities_info *vht_cap_info;
	enum reg_wifi_band band;
	uint8_t band_mask;
	struct ch_params ch_params = {0};
	qdf_freq_t sec_chan_freq = 0;

	if (!pe_session || !pe_session->vhtCapability)
		return QDF_STATUS_SUCCESS;

	band = wlan_reg_freq_to_band(pe_session->curr_op_freq);
	band_mask = 1 << band;

	ch_params.ch_width = pe_session->ch_width;
	ch_params.mhz_freq_seg0 =
		wlan_reg_chan_band_to_freq(mac->pdev,
					   pe_session->ch_center_freq_seg0,
					   band_mask);

	if (pe_session->ch_center_freq_seg1)
		ch_params.mhz_freq_seg1 =
			wlan_reg_chan_band_to_freq(mac->pdev,
						   pe_session->ch_center_freq_seg1,
						   band_mask);

	if (band == (REG_BAND_2G) && ch_params.ch_width == CH_WIDTH_40MHZ) {
		if (ch_params.mhz_freq_seg0 ==  pe_session->curr_op_freq + 10)
			sec_chan_freq = pe_session->curr_op_freq + 20;
		if (ch_params.mhz_freq_seg0 ==  pe_session->curr_op_freq - 10)
			sec_chan_freq = pe_session->curr_op_freq - 20;
	}

	wlan_reg_set_channel_params_for_pwrmode(mac->pdev,
						pe_session->curr_op_freq,
						sec_chan_freq, &ch_params,
						REG_CURRENT_PWR_MODE);

	pDot11f->present = 1;

	if (pe_session->ch_width > CH_WIDTH_40MHZ) {
		pDot11f->chanWidth = 1;
		pDot11f->chan_center_freq_seg0 =
			ch_params.center_freq_seg0;
		if (pe_session->ch_width == CH_WIDTH_80P80MHZ ||
				pe_session->ch_width == CH_WIDTH_160MHZ)
			pDot11f->chan_center_freq_seg1 =
				ch_params.center_freq_seg1;
		else
			pDot11f->chan_center_freq_seg1 = 0;
	} else {
		pDot11f->chanWidth = 0;
		pDot11f->chan_center_freq_seg0 = 0;
		pDot11f->chan_center_freq_seg1 = 0;
	}

	vht_cap_info = &mac->mlme_cfg->vht_caps.vht_cap_info;
	mcs_set = vht_cap_info->basic_mcs_set;
	mcs_set = (mcs_set & 0xFFFC) | vht_cap_info->rx_mcs;

	if (pe_session->nss == NSS_1x1_MODE)
		mcs_set |= 0x000C;
	else
		mcs_set = (mcs_set & 0xFFF3) | (vht_cap_info->rx_mcs2x2 << 2);

	pDot11f->basicMCSSet = (uint16_t)mcs_set;
	lim_log_vht_operation(mac, pDot11f);

	return QDF_STATUS_SUCCESS;

}

QDF_STATUS
populate_dot11f_ext_cap(struct mac_context *mac,
			bool isVHTEnabled, tDot11fIEExtCap *pDot11f,
			struct pe_session *pe_session)
{
	struct s_ext_cap *p_ext_cap;

	pDot11f->present = 1;

	if (!pe_session) {
		pe_debug("11MC - enabled for non-SAP cases");
		pDot11f->num_bytes = DOT11F_IE_EXTCAP_MAX_LEN;
	} else if (pe_session->sap_dot11mc) {
		pe_debug("11MC support enabled");
		pDot11f->num_bytes = DOT11F_IE_EXTCAP_MAX_LEN;
	} else {
		if (eLIM_AP_ROLE != pe_session->limSystemRole)
			pDot11f->num_bytes = DOT11F_IE_EXTCAP_MAX_LEN;
		else
			pDot11f->num_bytes = DOT11F_IE_EXTCAP_MIN_LEN;
	}

	p_ext_cap = (struct s_ext_cap *)pDot11f->bytes;
	if (isVHTEnabled == true)
		p_ext_cap->oper_mode_notification = 1;

	if (mac->mlme_cfg->gen.rtt3_enabled) {
		uint32_t ftm = ucfg_wifi_pos_get_ftm_cap(mac->psoc);
		if (!pe_session || LIM_IS_STA_ROLE(pe_session)) {
			p_ext_cap->fine_time_meas_initiator =
				(ftm & WMI_FW_STA_RTT_INITR) ? 1 : 0;
			p_ext_cap->fine_time_meas_responder =
				(ftm & WMI_FW_STA_RTT_RESPR) ? 1 : 0;
		} else if (LIM_IS_AP_ROLE(pe_session)) {
			p_ext_cap->fine_time_meas_initiator =
				(ftm & WMI_FW_AP_RTT_INITR) ? 1 : 0;
			p_ext_cap->fine_time_meas_responder =
				(ftm & WMI_FW_AP_RTT_RESPR) ? 1 : 0;
		}
	}
#ifdef QCA_HT_2040_COEX
	if (mac->roam.configParam.obssEnabled)
		p_ext_cap->bss_coexist_mgmt_support = 1;
#endif
	p_ext_cap->ext_chan_switch = 1;

	if (pe_session && pe_session->enable_bcast_probe_rsp)
		p_ext_cap->fils_capability = 1;

	if (pe_session && pe_session->is_mbssid_enabled)
		p_ext_cap->multi_bssid = 1;

	/* Beacon Protection Enabled : This field is reserved for STA */
	if (pe_session && (pe_session->opmode == QDF_SAP_MODE ||
	    pe_session->opmode == QDF_P2P_GO_MODE)) {
		p_ext_cap->beacon_protection_enable = pe_session ?
			mlme_get_bigtk_support(pe_session->vdev) : false;
	}
	if (pe_session)
		populate_dot11f_twt_extended_caps(mac, pe_session, pDot11f);

	/* Need to calculate the num_bytes based on bits set */
	if (pDot11f->present)
		pDot11f->num_bytes = lim_compute_ext_cap_ie_length(pDot11f);

	return QDF_STATUS_SUCCESS;
}

#ifdef WLAN_FEATURE_11AX
static void populate_dot11f_qcn_ie_he_params(struct mac_context *mac,
					     struct pe_session *pe_session,
					     tDot11fIEqcn_ie *qcn_ie,
					     uint8_t attr_id)
{
	uint16_t mcs_12_13_supp = 0;

	if (!lim_is_session_he_capable(pe_session))
		return;

	/* To fix WAPI IoT issue.*/
	if (pe_session->encryptType == eSIR_ED_WPI)
		return;

	if (wlan_reg_is_24ghz_ch_freq(pe_session->curr_op_freq)) {
		if (!(LIM_IS_AP_ROLE(pe_session) &&
		      pe_session->ch_width == CH_WIDTH_40MHZ &&
		      (mac->mlme_cfg->he_caps.disable_sap_mcs_12_13 &
		       BIT(DISABLE_MCS_12_13_2G_40M))))
			mcs_12_13_supp = mac->mlme_cfg->he_caps.he_mcs_12_13_supp_2g;
	} else {
		mcs_12_13_supp = mac->mlme_cfg->he_caps.he_mcs_12_13_supp_5g;
	}

	if (!mcs_12_13_supp)
		return;

	qcn_ie->present = 1;
	qcn_ie->he_mcs13_attr.present = 1;
	qcn_ie->he_mcs13_attr.he_mcs_12_13_supp_80 = mcs_12_13_supp & 0xFF;
	qcn_ie->he_mcs13_attr.he_mcs_12_13_supp_160 = mcs_12_13_supp >> 8;
}
#else /* WLAN_FEATURE_11AX */
static void populate_dot11f_qcn_ie_he_params(struct mac_context *mac,
					     struct pe_session *pe_session,
					     tDot11fIEqcn_ie *qcn_ie,
					     uint8_t attr_id)
{}
#endif /* WLAN_FEATURE_11AX */

void populate_dot11f_bss_max_idle(struct mac_context *mac,
				  struct pe_session *session,
				  tDot11fIEbss_max_idle_period *max_idle_ie)
{
	max_idle_ie->present = 0;
	if (lim_is_session_he_capable(session) &&
	    mac->mlme_cfg->sta.bss_max_idle_period) {
		max_idle_ie->present = 1;
		max_idle_ie->max_idle_period =
			mac->mlme_cfg->sta.bss_max_idle_period;
		max_idle_ie->prot_keep_alive_reqd = session->limRmfEnabled;
	}
}

void populate_dot11f_edca_pifs_param_set(struct mac_context *mac,
					 tDot11fIEqcn_ie *qcn_ie)
{
	struct wlan_edca_pifs_param_ie param = {0};
	struct edca_param *eparam;
	struct pifs_param *pparam;
	uint8_t edca_param_type;

	qcn_ie->present = 1;
	qcn_ie->edca_pifs_param_attr.present = 1;

	edca_param_type = mac->mlme_cfg->edca_params.edca_param_type;
	wlan_mlme_set_edca_pifs_param(&param, edca_param_type);
	qcn_ie->edca_pifs_param_attr.edca_param_type = edca_param_type;

	if (edca_param_type == HOST_EDCA_PARAM_TYPE_AGGRESSIVE) {
		qcn_ie->edca_pifs_param_attr.num_data = sizeof(*eparam);
		eparam = (struct edca_param *)qcn_ie->edca_pifs_param_attr.data;
		qdf_mem_copy(eparam, &param.edca_pifs_param.eparam,
			     sizeof(*eparam));
	} else if (edca_param_type == HOST_EDCA_PARAM_TYPE_PIFS) {
		qcn_ie->edca_pifs_param_attr.num_data = sizeof(*pparam);
		pparam = (struct pifs_param *)qcn_ie->edca_pifs_param_attr.data;
		qdf_mem_copy(pparam, &param.edca_pifs_param.pparam,
			     sizeof(*pparam));
	}
}

void populate_dot11f_qcn_ie(struct mac_context *mac,
			    struct pe_session *pe_session,
			    tDot11fIEqcn_ie *qcn_ie,
			    uint8_t attr_id)
{
	qcn_ie->present = 0;
	if (mac->mlme_cfg->sta.qcn_ie_support &&
	    ((attr_id == QCN_IE_ATTR_ID_ALL) ||
	    (attr_id == QCN_IE_ATTR_ID_VERSION))) {
		qcn_ie->present = 1;
		qcn_ie->qcn_version.present = 1;
		qcn_ie->qcn_version.version = QCN_IE_VERSION_SUPPORTED;
		qcn_ie->qcn_version.sub_version = QCN_IE_SUBVERSION_SUPPORTED;
	}
	if (pe_session->vhtCapability &&
	    mac->mlme_cfg->vht_caps.vht_cap_info.vht_mcs_10_11_supp) {
		qcn_ie->present = 1;
		qcn_ie->vht_mcs11_attr.present = 1;
		qcn_ie->vht_mcs11_attr.vht_mcs_10_11_supp = 1;
	}

	populate_dot11f_qcn_ie_he_params(mac, pe_session, qcn_ie, attr_id);
	if (policy_mgr_is_vdev_ll_lt_sap(mac->psoc, pe_session->vdev_id)) {
		pe_debug("Populate edca/pifs param ie for ll sap");
		populate_dot11f_edca_pifs_param_set(mac, qcn_ie);
	}
}

QDF_STATUS
populate_dot11f_operating_mode(struct mac_context *mac,
			       tDot11fIEOperatingMode *pDot11f,
			       struct pe_session *pe_session)
{
	pDot11f->present = 1;

	pDot11f->chanWidth = pe_session->gLimOperatingMode.chanWidth;
	pDot11f->rxNSS = pe_session->gLimOperatingMode.rxNSS;
	pDot11f->rxNSSType = pe_session->gLimOperatingMode.rxNSSType;

	return QDF_STATUS_SUCCESS;
}

QDF_STATUS
populate_dot11f_ht_info(struct mac_context *mac,
			tDot11fIEHTInfo *pDot11f, struct pe_session *pe_session)
{
	qdf_size_t ncfglen;
	QDF_STATUS nSirStatus;

	if (!pe_session) {
		pe_err("Invalid session entry");
		return QDF_STATUS_E_FAILURE;
	}

	pDot11f->primaryChannel = wlan_reg_freq_to_chan(
		mac->pdev, pe_session->curr_op_freq);

	pDot11f->secondaryChannelOffset =
		pe_session->htSecondaryChannelOffset;
	pDot11f->recommendedTxWidthSet =
		pe_session->htRecommendedTxWidthSet;
	pDot11f->rifsMode = pe_session->beaconParams.fRIFSMode;
	pDot11f->controlledAccessOnly =
		mac->mlme_cfg->ht_caps.info_field_1.controlled_access_only;
	pDot11f->serviceIntervalGranularity =
		mac->lim.gHTServiceIntervalGranularity;

	if (LIM_IS_AP_ROLE(pe_session)) {
		pDot11f->opMode = pe_session->htOperMode;
		pDot11f->nonGFDevicesPresent =
			pe_session->beaconParams.llnNonGFCoexist;
		pDot11f->obssNonHTStaPresent =
			pe_session->beaconParams.gHTObssMode;
		pDot11f->reserved = 0;
	} else {
		pDot11f->opMode = 0;
		pDot11f->nonGFDevicesPresent = 0;
		pDot11f->obssNonHTStaPresent = 0;
		pDot11f->reserved = 0;
	}

	pDot11f->basicSTBCMCS = mac->lim.gHTSTBCBasicMCS;
	pDot11f->dualCTSProtection = mac->lim.gHTDualCTSProtection;
	pDot11f->secondaryBeacon = mac->lim.gHTSecondaryBeacon;
	pDot11f->lsigTXOPProtectionFullSupport =
		pe_session->beaconParams.fLsigTXOPProtectionFullSupport;
	pDot11f->pcoActive = mac->lim.gHTPCOActive;
	pDot11f->pcoPhase = mac->lim.gHTPCOPhase;
	pDot11f->reserved2 = 0;

	ncfglen = SIZE_OF_BASIC_MCS_SET;
	nSirStatus = wlan_mlme_get_cfg_str(pDot11f->basicMCSSet,
					   &mac->mlme_cfg->rates.basic_mcs_set,
					   &ncfglen);
	if (QDF_IS_STATUS_ERROR(nSirStatus)) {
		pe_err("Failed to retrieve nItem from CFG status: %d",
		       (nSirStatus));
		return nSirStatus;
	}

	pDot11f->present = 1;

	return QDF_STATUS_SUCCESS;

} /* End populate_dot11f_ht_info. */

#ifdef ANI_SUPPORT_11H
QDF_STATUS
populate_dot11f_measurement_report0(struct mac_context *mac,
				    tpSirMacMeasReqActionFrame pReq,
				    tDot11fIEMeasurementReport *pDot11f)
{
	pDot11f->token = pReq->measReqIE.measToken;
	pDot11f->late = 0;
	pDot11f->incapable = 0;
	pDot11f->refused = 1;
	pDot11f->type = SIR_MAC_BASIC_MEASUREMENT_TYPE;

	pDot11f->present = 1;

	return QDF_STATUS_SUCCESS;

} /* End PopulatedDot11fMeasurementReport0. */
QDF_STATUS
populate_dot11f_measurement_report1(struct mac_context *mac,
				    tpSirMacMeasReqActionFrame pReq,
				    tDot11fIEMeasurementReport *pDot11f)
{
	pDot11f->token = pReq->measReqIE.measToken;
	pDot11f->late = 0;
	pDot11f->incapable = 0;
	pDot11f->refused = 1;
	pDot11f->type = SIR_MAC_CCA_MEASUREMENT_TYPE;
	pDot11f->present = 1;
	return QDF_STATUS_SUCCESS;
} /* End PopulatedDot11fMeasurementReport1. */
QDF_STATUS
populate_dot11f_measurement_report2(struct mac_context *mac,
				    tpSirMacMeasReqActionFrame pReq,
				    tDot11fIEMeasurementReport *pDot11f)
{
	pDot11f->token = pReq->measReqIE.measToken;
	pDot11f->late = 0;
	pDot11f->incapable = 0;
	pDot11f->refused = 1;
	pDot11f->type = SIR_MAC_RPI_MEASUREMENT_TYPE;
	pDot11f->present = 1;
	return QDF_STATUS_SUCCESS;
} /* End PopulatedDot11fMeasurementReport2. */
#endif

void
populate_dot11f_power_caps(struct mac_context *mac,
			   tDot11fIEPowerCaps *pCaps,
			   uint8_t nAssocType, struct pe_session *pe_session)
{
	struct vdev_mlme_obj *mlme_obj;

	pCaps->minTxPower = pe_session->min_11h_pwr;
	pCaps->maxTxPower = pe_session->maxTxPower;

	/* Use firmware updated max tx power if non zero */
	mlme_obj = wlan_vdev_mlme_get_cmpt_obj(pe_session->vdev);
	if (mlme_obj && mlme_obj->mgmt.generic.tx_pwrlimit)
		pCaps->maxTxPower = mlme_obj->mgmt.generic.tx_pwrlimit;

	pCaps->present = 1;
} /* End populate_dot11f_power_caps. */

QDF_STATUS
populate_dot11f_power_constraints(struct mac_context *mac,
				  tDot11fIEPowerConstraints *pDot11f)
{
	pDot11f->localPowerConstraints =
			mac->mlme_cfg->power.local_power_constraint;

	pDot11f->present = 1;

	return QDF_STATUS_SUCCESS;
} /* End populate_dot11f_power_constraints. */

void
populate_dot11f_qos_caps_station(struct mac_context *mac, struct pe_session *pe_session,
				 tDot11fIEQOSCapsStation *pDot11f)
{
	uint8_t max_sp_length = 0;

	max_sp_length = mac->mlme_cfg->wmm_params.max_sp_length;

	pDot11f->more_data_ack = 0;
	pDot11f->max_sp_length = max_sp_length;
	pDot11f->qack = 0;

	if (mac->lim.gUapsdEnable) {
		pDot11f->acbe_uapsd =
			LIM_UAPSD_GET(ACBE, pe_session->gUapsdPerAcBitmask);
		pDot11f->acbk_uapsd =
			LIM_UAPSD_GET(ACBK, pe_session->gUapsdPerAcBitmask);
		pDot11f->acvi_uapsd =
			LIM_UAPSD_GET(ACVI, pe_session->gUapsdPerAcBitmask);
		pDot11f->acvo_uapsd =
			LIM_UAPSD_GET(ACVO, pe_session->gUapsdPerAcBitmask);
	}
	pDot11f->present = 1;
} /* End PopulatedDot11fQOSCaps. */

QDF_STATUS
populate_dot11f_rsn(struct mac_context *mac,
		    tpSirRSNie pRsnIe, tDot11fIERSN *pDot11f)
{
	uint32_t status;
	int idx;

	if (pRsnIe->length) {
		idx = find_ie_location(mac, pRsnIe, DOT11F_EID_RSN);
		if (0 <= idx) {
			status = dot11f_unpack_ie_rsn(mac, pRsnIe->rsnIEdata + idx + 2,   /* EID, length */
						      pRsnIe->rsnIEdata[idx + 1],
						      pDot11f, false);
			if (DOT11F_FAILED(status)) {
				pe_err("Parse failure in Populate Dot11fRSN (0x%08x)",
					status);
				return QDF_STATUS_E_FAILURE;
			}
			pe_debug("status 0x%08x", status);
		}

	}

	return QDF_STATUS_SUCCESS;
} /* End populate_dot11f_rsn. */

QDF_STATUS populate_dot11f_rsn_opaque(struct mac_context *mac,
					 tpSirRSNie pRsnIe,
					 tDot11fIERSNOpaque *pDot11f)
{
	int idx;

	if (pRsnIe->length) {
		idx = find_ie_location(mac, pRsnIe, DOT11F_EID_RSN);
		if (0 <= idx) {
			pDot11f->present = 1;
			pDot11f->num_data = pRsnIe->rsnIEdata[idx + 1];
			qdf_mem_copy(pDot11f->data, pRsnIe->rsnIEdata + idx + 2,        /* EID, len */
				     pRsnIe->rsnIEdata[idx + 1]);
		}
	}

	return QDF_STATUS_SUCCESS;

} /* End populate_dot11f_rsn_opaque. */

#if defined(FEATURE_WLAN_WAPI)

QDF_STATUS
populate_dot11f_wapi(struct mac_context *mac,
		     tpSirRSNie pRsnIe, tDot11fIEWAPI *pDot11f)
{
	uint32_t status;
	int idx;

	if (pRsnIe->length) {
		idx = find_ie_location(mac, pRsnIe, DOT11F_EID_WAPI);
		if (0 <= idx) {
			status = dot11f_unpack_ie_wapi(mac, pRsnIe->rsnIEdata + idx + 2,  /* EID, length */
						       pRsnIe->rsnIEdata[idx + 1],
						       pDot11f, false);
			if (DOT11F_FAILED(status)) {
				pe_err("Parse failure (0x%08x)", status);
				return QDF_STATUS_E_FAILURE;
			}
			pe_debug("status 0x%08x", status);
		}
	}

	return QDF_STATUS_SUCCESS;
} /* End populate_dot11f_wapi. */

QDF_STATUS populate_dot11f_wapi_opaque(struct mac_context *mac,
					  tpSirRSNie pRsnIe,
					  tDot11fIEWAPIOpaque *pDot11f)
{
	int idx;

	if (pRsnIe->length) {
		idx = find_ie_location(mac, pRsnIe, DOT11F_EID_WAPI);
		if (0 <= idx) {
			pDot11f->present = 1;
			pDot11f->num_data = pRsnIe->rsnIEdata[idx + 1];
			qdf_mem_copy(pDot11f->data, pRsnIe->rsnIEdata + idx + 2,        /* EID, len */
				     pRsnIe->rsnIEdata[idx + 1]);
		}
	}

	return QDF_STATUS_SUCCESS;

} /* End populate_dot11f_wapi_opaque. */

#endif /* defined(FEATURE_WLAN_WAPI) */

void
populate_dot11f_ssid(struct mac_context *mac,
		     tSirMacSSid *pInternal, tDot11fIESSID *pDot11f)
{
	pDot11f->present = 1;
	pDot11f->num_ssid = pInternal->length;
	if (pInternal->length) {
		qdf_mem_copy((uint8_t *) pDot11f->ssid,
			     (uint8_t *) &pInternal->ssId, pInternal->length);
	}
} /* End populate_dot11f_ssid. */

QDF_STATUS populate_dot11f_ssid2(struct pe_session *pe_session,
				 tDot11fIESSID *pDot11f)
{
	qdf_mem_copy(pDot11f->ssid, pe_session->ssId.ssId,
		     pe_session->ssId.length);
	pDot11f->num_ssid = pe_session->ssId.length;
	pDot11f->present = 1;

	return QDF_STATUS_SUCCESS;
} /* End populate_dot11f_ssid2. */

void
populate_dot11f_schedule(tSirMacScheduleIE *pSchedule,
			 tDot11fIESchedule *pDot11f)
{
	pDot11f->aggregation = pSchedule->info.aggregation;
	pDot11f->tsid = pSchedule->info.tsid;
	pDot11f->direction = pSchedule->info.direction;
	pDot11f->reserved = pSchedule->info.rsvd;
	pDot11f->service_start_time = pSchedule->svcStartTime;
	pDot11f->service_interval = pSchedule->svcInterval;
	pDot11f->max_service_dur = pSchedule->maxSvcDuration;
	pDot11f->spec_interval = pSchedule->specInterval;

	pDot11f->present = 1;
} /* End populate_dot11f_schedule. */

void
populate_dot11f_supp_channels(struct mac_context *mac,
			      tDot11fIESuppChannels *pDot11f,
			      uint8_t nAssocType, struct pe_session *pe_session)
{
	uint8_t i, j = 0;
	uint8_t *p;
	struct supported_channels supportedChannels;
	uint8_t channel, opclass, base_opclass;
	uint8_t reg_cc[REG_ALPHA2_LEN + 1];

	wlan_add_supported_5Ghz_channels(mac->psoc, mac->pdev,
					 supportedChannels.channelList,
					 &supportedChannels.numChnl,
					 false);

	p = supportedChannels.channelList;
	pDot11f->num_bands = supportedChannels.numChnl;

	wlan_reg_read_current_country(mac->psoc, reg_cc);
	for (i = 0U; i < pDot11f->num_bands; i++) {
		base_opclass = wlan_reg_dmn_get_opclass_from_channel(
						reg_cc,
						p[i], BW20);
		pDot11f->bands[j][0] = p[i];
		pDot11f->bands[j][1] = 1;
		channel = p[i];
		while (i + 1 < pDot11f->num_bands && (p[i + 1] == channel + 4)) {
			opclass = wlan_reg_dmn_get_opclass_from_channel(
						reg_cc,
						p[i + 1], BW20);
			if (base_opclass != opclass)
				goto skip;
			pDot11f->bands[j][1]++;
			channel = p[++i];
		}
skip:
		j++;
	}

	pDot11f->num_bands = j;
	pDot11f->present = 1;

} /* End populate_dot11f_supp_channels. */

QDF_STATUS
populate_dot11f_supp_rates(struct mac_context *mac,
			   uint8_t nChannelNum,
			   tDot11fIESuppRates *pDot11f,
			   struct pe_session *pe_session)
{
	QDF_STATUS nsir_status;
	qdf_size_t nRates;
	uint8_t rates[SIR_MAC_MAX_NUMBER_OF_RATES];

	/* Use the operational rates present in session entry whenever
	 * nChannelNum is set to OPERATIONAL else use the supported
	 * rate set from CFG, which is fixed and does not change
	 * dynamically and is used for sending mgmt frames (lile probe
	 * req) which need to go out before any session is present.
	 */
	if (POPULATE_DOT11F_RATES_OPERATIONAL == nChannelNum) {
		if (pe_session) {
			nRates = pe_session->rateSet.numRates;
			qdf_mem_copy(rates, pe_session->rateSet.rate,
				     nRates);
		} else {
			pe_err("no session context exists while populating Operational Rate Set");
			nRates = 0;
		}
	} else if (14 >= nChannelNum) {
		nRates = SIR_MAC_MAX_NUMBER_OF_RATES;
		nsir_status = wlan_mlme_get_cfg_str(
					rates,
					&mac->mlme_cfg->rates.supported_11b,
					&nRates);
		if (QDF_IS_STATUS_ERROR(nsir_status)) {
			pe_err("Failed to retrieve nItem from CFG status: %d",
			       (nsir_status));
			return nsir_status;
		}
	} else {
		nRates = SIR_MAC_MAX_NUMBER_OF_RATES;
		nsir_status = wlan_mlme_get_cfg_str(
					rates,
					&mac->mlme_cfg->rates.supported_11a,
					&nRates);
		if (QDF_IS_STATUS_ERROR(nsir_status)) {
			pe_err("Failed to retrieve nItem from CFG status: %d",
			       (nsir_status));
			return nsir_status;
		}
	}

	if (0 != nRates) {
		pDot11f->num_rates = (uint8_t) nRates;
		qdf_mem_copy(pDot11f->rates, rates, nRates);
		pDot11f->present = 1;
	}

	return QDF_STATUS_SUCCESS;

} /* End populate_dot11f_supp_rates. */

/**
 * populate_dot11f_rates_tdls() - populate supported rates and
 *                                extended supported rates IE.
 * @p_mac: Pointer to global mac context
 * @p_supp_rates: pointer to supported rates IE
 * @p_ext_supp_rates: pointer to extended supported rates IE
 * @curr_oper_channel: current operating channel
 *
 * This function populates the supported rates and extended supported
 * rates IE based in the STA capability. If the number of rates
 * supported is less than MAX_NUM_SUPPORTED_RATES, only supported rates
 * IE is populated.
 *
 * Return: QDF_STATUS QDF_STATUS_SUCCESS on Success and QDF_STATUS_E_FAILURE
 *         on failure.
 */

QDF_STATUS
populate_dot11f_rates_tdls(struct mac_context *p_mac,
			   tDot11fIESuppRates *p_supp_rates,
			   tDot11fIEExtSuppRates *p_ext_supp_rates,
			   uint8_t curr_oper_channel)
{
	tSirMacRateSet temp_rateset;
	tSirMacRateSet temp_rateset2;
	uint32_t i;
	uint32_t self_dot11mode = 0;
	qdf_size_t num_rates;

	self_dot11mode = p_mac->mlme_cfg->dot11_mode.dot11_mode;

	/**
	 * Include 11b rates only when the device configured in
	 * auto, 11a/b/g or 11b_only and also if current base
	 * channel is 5 GHz then no need to advertise the 11b rates.
	 * If devices move to 2.4GHz off-channel then they can communicate
	 * in 11g rates i.e. (6, 9, 12, 18, 24, 36 and 54).
	 */
	pe_debug("Current operating channel %d self_dot11mode = %d",
		curr_oper_channel, self_dot11mode);

	if ((curr_oper_channel <= SIR_11B_CHANNEL_END) &&
	    ((self_dot11mode == MLME_DOT11_MODE_ALL) ||
	    (self_dot11mode == MLME_DOT11_MODE_11A) ||
	    (self_dot11mode == MLME_DOT11_MODE_11AC) ||
	    (self_dot11mode == MLME_DOT11_MODE_11N) ||
	    (self_dot11mode == MLME_DOT11_MODE_11G) ||
	    (self_dot11mode == MLME_DOT11_MODE_11B))) {
		num_rates = p_mac->mlme_cfg->rates.supported_11b.len;
		wlan_mlme_get_cfg_str((uint8_t *)&temp_rateset.rate,
				      &p_mac->mlme_cfg->rates.supported_11b,
				      &num_rates);
		temp_rateset.numRates = (uint8_t)num_rates;
	} else {
	    temp_rateset.numRates = 0;
	}

	/* Include 11a rates when the device configured in non-11b mode */
	if (!IS_DOT11_MODE_11B(self_dot11mode)) {
		num_rates = p_mac->mlme_cfg->rates.supported_11a.len;
		wlan_mlme_get_cfg_str((uint8_t *)&temp_rateset2.rate,
				      &p_mac->mlme_cfg->rates.supported_11a,
				      &num_rates);
		temp_rateset2.numRates = (uint8_t)num_rates;
	} else {
		temp_rateset2.numRates = 0;
	}

	if ((temp_rateset.numRates + temp_rateset2.numRates) >
					SIR_MAC_MAX_NUMBER_OF_RATES) {
		pe_err("more than %d rates in CFG",
				SIR_MAC_MAX_NUMBER_OF_RATES);
		return QDF_STATUS_E_FAILURE;
	}

	/**
	 * copy all rates in temp_rateset,
	 * there are SIR_MAC_MAX_NUMBER_OF_RATES rates max
	 */
	for (i = 0; i < temp_rateset2.numRates; i++)
		temp_rateset.rate[i + temp_rateset.numRates] =
						temp_rateset2.rate[i];

	temp_rateset.numRates += temp_rateset2.numRates;

	if (temp_rateset.numRates <= MAX_NUM_SUPPORTED_RATES) {
		p_supp_rates->num_rates = temp_rateset.numRates;
		qdf_mem_copy(p_supp_rates->rates, temp_rateset.rate,
			     p_supp_rates->num_rates);
		p_supp_rates->present = 1;
	}  else { /* Populate extended capability as well */
		p_supp_rates->num_rates = MAX_NUM_SUPPORTED_RATES;
		qdf_mem_copy(p_supp_rates->rates, temp_rateset.rate,
			     p_supp_rates->num_rates);
		p_supp_rates->present = 1;

		p_ext_supp_rates->num_rates = temp_rateset.numRates -
				     MAX_NUM_SUPPORTED_RATES;
		qdf_mem_copy(p_ext_supp_rates->rates,
			     (uint8_t *)temp_rateset.rate +
			     MAX_NUM_SUPPORTED_RATES,
			     p_ext_supp_rates->num_rates);
		p_ext_supp_rates->present = 1;
	}

	return QDF_STATUS_SUCCESS;

} /* End populate_dot11f_rates_tdls */


QDF_STATUS
populate_dot11f_tpc_report(struct mac_context *mac,
			   tDot11fIETPCReport *pDot11f, struct pe_session *pe_session)
{
	uint16_t staid;
	uint8_t tx_power;
	QDF_STATUS nSirStatus;

	nSirStatus = lim_get_mgmt_staid(mac, &staid, pe_session);
	if (QDF_STATUS_SUCCESS != nSirStatus) {
		pe_err("Failed to get the STAID in Populate Dot11fTPCReport; lim_get_mgmt_staid returned status %d",
			nSirStatus);
		return QDF_STATUS_E_FAILURE;
	}
	tx_power = wlan_reg_get_channel_reg_power_for_freq(
				mac->pdev, pe_session->curr_op_freq);
	pDot11f->tx_power = tx_power;
	pDot11f->link_margin = 0;
	pDot11f->present = 1;

	return QDF_STATUS_SUCCESS;
} /* End populate_dot11f_tpc_report. */

void populate_dot11f_ts_info(struct mac_ts_info *pInfo,
			     tDot11fFfTSInfo *pDot11f)
{
	pDot11f->traffic_type = pInfo->traffic.trafficType;
	pDot11f->tsid = pInfo->traffic.tsid;
	pDot11f->direction = pInfo->traffic.direction;
	pDot11f->access_policy = pInfo->traffic.accessPolicy;
	pDot11f->aggregation = pInfo->traffic.aggregation;
	pDot11f->psb = pInfo->traffic.psb;
	pDot11f->user_priority = pInfo->traffic.userPrio;
	pDot11f->tsinfo_ack_pol = pInfo->traffic.ackPolicy;
	pDot11f->schedule = pInfo->schedule.schedule;
} /* End PopulatedDot11fTSInfo. */

void populate_dot11f_wmm(struct mac_context *mac,
			 tDot11fIEWMMInfoAp *pInfo,
			 tDot11fIEWMMParams *pParams,
			 tDot11fIEWMMCaps *pCaps, struct pe_session *pe_session)
{
	if (pe_session->limWmeEnabled) {
		populate_dot11f_wmm_params(mac, pParams,
					   pe_session);
		if (pe_session->limWsmEnabled)
			populate_dot11f_wmm_caps(pCaps);
	}
} /* End populate_dot11f_wmm. */

void populate_dot11f_wmm_caps(tDot11fIEWMMCaps *pCaps)
{
	pCaps->version = SIR_MAC_OUI_VERSION_1;
	pCaps->qack = 0;
	pCaps->queue_request = 1;
	pCaps->txop_request = 0;
	pCaps->more_ack = 0;
	pCaps->present = 1;
} /* End PopulateDot11fWmmCaps. */

#ifdef FEATURE_WLAN_ESE
#ifdef WLAN_FEATURE_HOST_ROAM
void populate_dot11f_re_assoc_tspec(struct mac_context *mac,
				    tDot11fReAssocRequest *pReassoc,
				    struct pe_session *pe_session)
{
	uint8_t numTspecs = 0, idx;
	tTspecInfo *pTspec = NULL;
	struct mlme_legacy_priv *mlme_priv;

	mlme_priv = wlan_vdev_mlme_get_ext_hdl(pe_session->vdev);
	if (!mlme_priv)
		return;

	numTspecs = mlme_priv->connect_info.ese_tspec_info.numTspecs;
	pTspec = &mlme_priv->connect_info.ese_tspec_info.tspec[0];
	pReassoc->num_WMMTSPEC = numTspecs;
	if (numTspecs) {
		for (idx = 0; idx < numTspecs; idx++) {
			populate_dot11f_wmmtspec(&pTspec->tspec,
						 &pReassoc->WMMTSPEC[idx]);
			pTspec->tspec.mediumTime = 0;
			pTspec++;
		}
	}
}
#endif
void ese_populate_wmm_tspec(struct mac_tspec_ie *source,
			    ese_wmm_tspec_ie *dest)
{
	dest->traffic_type = source->tsinfo.traffic.trafficType;
	dest->tsid = source->tsinfo.traffic.tsid;
	dest->direction = source->tsinfo.traffic.direction;
	dest->access_policy = source->tsinfo.traffic.accessPolicy;
	dest->aggregation = source->tsinfo.traffic.aggregation;
	dest->psb = source->tsinfo.traffic.psb;
	dest->user_priority = source->tsinfo.traffic.userPrio;
	dest->tsinfo_ack_pol = source->tsinfo.traffic.ackPolicy;
	dest->burst_size_defn = source->tsinfo.traffic.burstSizeDefn;
	/* As defined in IEEE 802.11-2007, section 7.3.2.30
	 * Nominal MSDU size: Bit[0:14]=Size, Bit[15]=Fixed
	 */
	dest->size = (source->nomMsduSz & SIZE_MASK);
	dest->fixed = (source->nomMsduSz & FIXED_MASK) ? 1 : 0;
	dest->max_msdu_size = source->maxMsduSz;
	dest->min_service_int = source->minSvcInterval;
	dest->max_service_int = source->maxSvcInterval;
	dest->inactivity_int = source->inactInterval;
	dest->suspension_int = source->suspendInterval;
	dest->service_start_time = source->svcStartTime;
	dest->min_data_rate = source->minDataRate;
	dest->mean_data_rate = source->meanDataRate;
	dest->peak_data_rate = source->peakDataRate;
	dest->burst_size = source->maxBurstSz;
	dest->delay_bound = source->delayBound;
	dest->min_phy_rate = source->minPhyRate;
	dest->surplus_bw_allowance = source->surplusBw;
	dest->medium_time = source->mediumTime;
}

#endif

void populate_dot11f_wmm_info_ap(struct mac_context *mac, tDot11fIEWMMInfoAp *pInfo,
				 struct pe_session *pe_session)
{
	pInfo->version = SIR_MAC_OUI_VERSION_1;

	/* WMM Specification 3.1.3, 3.2.3 */
	pInfo->param_set_count = (0xf & pe_session->gLimEdcaParamSetCount);
	if (LIM_IS_AP_ROLE(pe_session))
		pInfo->uapsd = (0x1 & pe_session->apUapsdEnable);
	else
		pInfo->uapsd = (0x1 & mac->lim.gUapsdEnable);

	pInfo->present = 1;
}

void populate_dot11f_wmm_info_station_per_session(struct mac_context *mac,
						  struct pe_session *pe_session,
						  tDot11fIEWMMInfoStation *pInfo)
{
	uint8_t max_sp_length = 0;

	max_sp_length = mac->mlme_cfg->wmm_params.max_sp_length;
	pInfo->version = SIR_MAC_OUI_VERSION_1;
	pInfo->acvo_uapsd =
		LIM_UAPSD_GET(ACVO, pe_session->gUapsdPerAcBitmask);
	pInfo->acvi_uapsd =
		LIM_UAPSD_GET(ACVI, pe_session->gUapsdPerAcBitmask);
	pInfo->acbk_uapsd =
		LIM_UAPSD_GET(ACBK, pe_session->gUapsdPerAcBitmask);
	pInfo->acbe_uapsd =
		LIM_UAPSD_GET(ACBE, pe_session->gUapsdPerAcBitmask);

	pInfo->max_sp_length = max_sp_length;
	pInfo->present = 1;
}

void populate_dot11f_wmm_params(struct mac_context *mac,
				tDot11fIEWMMParams *pParams,
				struct pe_session *pe_session)
{
	pParams->version = SIR_MAC_OUI_VERSION_1;

	if (LIM_IS_AP_ROLE(pe_session))
		pParams->qosInfo =
			(pe_session->
			 apUapsdEnable << 7) | ((uint8_t) (0x0f & pe_session->
							   gLimEdcaParamSetCount));
	else
		pParams->qosInfo =
			(mac->lim.
			 gUapsdEnable << 7) | ((uint8_t) (0x0f & pe_session->
							  gLimEdcaParamSetCount));

	/* Fill each EDCA parameter set in order: be, bk, vi, vo */
	pParams->acbe_aifsn =
		(0xf & SET_AIFSN(pe_session->gLimEdcaParamsBC[0].aci.aifsn));
	pParams->acbe_acm = (0x1 & pe_session->gLimEdcaParamsBC[0].aci.acm);
	pParams->acbe_aci = (0x3 & QCA_WLAN_AC_BE);
	pParams->acbe_acwmin =
		(0xf & pe_session->gLimEdcaParamsBC[0].cw.min);
	pParams->acbe_acwmax =
		(0xf & pe_session->gLimEdcaParamsBC[0].cw.max);
	pParams->acbe_txoplimit = pe_session->gLimEdcaParamsBC[0].txoplimit;

	pParams->acbk_aifsn =
		(0xf & SET_AIFSN(pe_session->gLimEdcaParamsBC[1].aci.aifsn));
	pParams->acbk_acm = (0x1 & pe_session->gLimEdcaParamsBC[1].aci.acm);
	pParams->acbk_aci = (0x3 & QCA_WLAN_AC_BK);
	pParams->acbk_acwmin =
		(0xf & pe_session->gLimEdcaParamsBC[1].cw.min);
	pParams->acbk_acwmax =
		(0xf & pe_session->gLimEdcaParamsBC[1].cw.max);
	pParams->acbk_txoplimit = pe_session->gLimEdcaParamsBC[1].txoplimit;

	if (LIM_IS_AP_ROLE(pe_session))
		pParams->acvi_aifsn =
			(0xf & pe_session->gLimEdcaParamsBC[2].aci.aifsn);
	else
		pParams->acvi_aifsn =
			(0xf &
			 SET_AIFSN(pe_session->gLimEdcaParamsBC[2].aci.aifsn));

	pParams->acvi_acm = (0x1 & pe_session->gLimEdcaParamsBC[2].aci.acm);
	pParams->acvi_aci = (0x3 & QCA_WLAN_AC_VI);
	pParams->acvi_acwmin =
		(0xf & pe_session->gLimEdcaParamsBC[2].cw.min);
	pParams->acvi_acwmax =
		(0xf & pe_session->gLimEdcaParamsBC[2].cw.max);
	pParams->acvi_txoplimit = pe_session->gLimEdcaParamsBC[2].txoplimit;

	if (LIM_IS_AP_ROLE(pe_session))
		pParams->acvo_aifsn =
			(0xf & pe_session->gLimEdcaParamsBC[3].aci.aifsn);
	else
		pParams->acvo_aifsn =
			(0xf &
			 SET_AIFSN(pe_session->gLimEdcaParamsBC[3].aci.aifsn));

	pParams->acvo_acm = (0x1 & pe_session->gLimEdcaParamsBC[3].aci.acm);
	pParams->acvo_aci = (0x3 & QCA_WLAN_AC_VO);
	pParams->acvo_acwmin =
		(0xf & pe_session->gLimEdcaParamsBC[3].cw.min);
	pParams->acvo_acwmax =
		(0xf & pe_session->gLimEdcaParamsBC[3].cw.max);
	pParams->acvo_txoplimit = pe_session->gLimEdcaParamsBC[3].txoplimit;

	pParams->present = 1;

} /* End populate_dot11f_wmm_params. */

QDF_STATUS
populate_dot11f_wpa(struct mac_context *mac,
		    tpSirRSNie pRsnIe, tDot11fIEWPA *pDot11f)
{
	uint32_t status;
	int idx;

	if (pRsnIe->length) {
		idx = find_ie_location(mac, pRsnIe, DOT11F_EID_WPA);
		if (0 <= idx) {
			status = dot11f_unpack_ie_wpa(mac, pRsnIe->rsnIEdata + idx + 2 + 4,       /* EID, length, OUI */
						      pRsnIe->rsnIEdata[idx + 1] - 4,   /* OUI */
						      pDot11f, false);
			if (DOT11F_FAILED(status)) {
				pe_err("Parse failure in Populate Dot11fWPA (0x%08x)",
					status);
				return QDF_STATUS_E_FAILURE;
			}
		}
	}

	return QDF_STATUS_SUCCESS;
} /* End populate_dot11f_wpa. */

QDF_STATUS populate_dot11f_wpa_opaque(struct mac_context *mac,
					 tpSirRSNie pRsnIe,
					 tDot11fIEWPAOpaque *pDot11f)
{
	int idx;

	if (pRsnIe->length) {
		idx = find_ie_location(mac, pRsnIe, DOT11F_EID_WPA);
		if (0 <= idx) {
			pDot11f->present = 1;
			pDot11f->num_data = pRsnIe->rsnIEdata[idx + 1] - 4;
			qdf_mem_copy(pDot11f->data, pRsnIe->rsnIEdata + idx + 2 + 4,    /* EID, len, OUI */
				     pRsnIe->rsnIEdata[idx + 1] - 4);   /* OUI */
		}
	}

	return QDF_STATUS_SUCCESS;

} /* End populate_dot11f_wpa_opaque. */

/* ////////////////////////////////////////////////////////////////////// */

QDF_STATUS
sir_convert_probe_req_frame2_struct(struct mac_context *mac,
				    uint8_t *pFrame,
				    uint32_t nFrame, tpSirProbeReq pProbeReq)
{
	uint32_t status;
	tDot11fProbeRequest *pr;

	pr = qdf_mem_malloc(sizeof(*pr));
	if (!pr) {
		pe_err("malloc failed for probe request");
		return QDF_STATUS_E_FAILURE;
	}

	/* Ok, zero-init our [out] parameter, */
	qdf_mem_zero((uint8_t *) pProbeReq, sizeof(tSirProbeReq));

	/* delegate to the framesc-generated code, */
	status = dot11f_unpack_probe_request(mac, pFrame, nFrame, pr, false);
	if (DOT11F_FAILED(status)) {
		pe_err("Failed to parse a Probe Request (0x%08x, %d bytes):",
			status, nFrame);
		QDF_TRACE_HEX_DUMP(QDF_MODULE_ID_PE, QDF_TRACE_LEVEL_ERROR,
				   pFrame, nFrame);
		qdf_mem_free(pr);
		return QDF_STATUS_E_FAILURE;
	} else if (DOT11F_WARNED(status)) {
		pe_debug("There were warnings while unpacking a Probe Request (0x%08x, %d bytes):",
			status, nFrame);
	}
	/* & "transliterate" from a 'tDot11fProbeRequestto' a 'tSirProbeReq'... */
	if (!pr->SSID.present) {
		pe_debug("Mandatory IE SSID not present!");
	} else {
		pProbeReq->ssidPresent = 1;
		convert_ssid(mac, &pProbeReq->ssId, &pr->SSID);
	}

	if (!pr->SuppRates.present) {
		pe_debug_rl("Mandatory IE Supported Rates not present!");
		qdf_mem_free(pr);
		return QDF_STATUS_E_FAILURE;
	} else {
		pProbeReq->suppRatesPresent = 1;
		convert_supp_rates(mac, &pProbeReq->supportedRates,
				   &pr->SuppRates);
	}

	if (pr->ExtSuppRates.present) {
		pProbeReq->extendedRatesPresent = 1;
		convert_ext_supp_rates(mac, &pProbeReq->extendedRates,
				       &pr->ExtSuppRates);
	}

	if (pr->HTCaps.present)
		qdf_mem_copy(&pProbeReq->HTCaps, &pr->HTCaps,
			     sizeof(tDot11fIEHTCaps));

	if (pr->WscProbeReq.present) {
		pProbeReq->wscIePresent = 1;
		memcpy(&pProbeReq->probeReqWscIeInfo, &pr->WscProbeReq,
		       sizeof(tDot11fIEWscProbeReq));
	}
	if (pr->VHTCaps.present)
		qdf_mem_copy(&pProbeReq->VHTCaps, &pr->VHTCaps,
			     sizeof(tDot11fIEVHTCaps));

	if (pr->P2PProbeReq.present)
		pProbeReq->p2pIePresent = 1;

	if (pr->he_cap.present)
		qdf_mem_copy(&pProbeReq->he_cap, &pr->he_cap,
			     sizeof(tDot11fIEhe_cap));

	qdf_mem_free(pr);

	return QDF_STATUS_SUCCESS;
} /* End sir_convert_probe_req_frame2_struct. */


/**
 * sir_validate_and_rectify_ies() - API to check malformed frame
 * @mac_ctx: mac context
 * @mgmt_frame: pointer to management frame
 * @frame_bytes: no of bytes in frame
 * @missing_rsn_bytes: missing rsn bytes
 *
 * The frame would contain fixed IEs of 12 bytes followed by variable IEs
 * (Tagged elements). Every Tagged IE has tag number, tag length and data.
 * Tag length indicates the size of data in bytes.
 * This function checks for size of Frame received with the sum of all IEs.
 * And also rectifies missing optional fields in IE.
 *
 * NOTE : Presently this function rectifies RSN capability in RSN IE, can
 * be extended to rectify other optional fields in other IEs.
 *
 * Return: 0 on success, error number otherwise.
 */
QDF_STATUS
sir_validate_and_rectify_ies(struct mac_context *mac_ctx,
				uint8_t *mgmt_frame,
				uint32_t frame_bytes,
				uint32_t *missing_rsn_bytes)
{
	uint32_t length = SIZE_OF_FIXED_PARAM;
	uint8_t *ref_frame = NULL;

	/* Frame contains atleast one IE */
	if (frame_bytes > (SIZE_OF_FIXED_PARAM +
			SIZE_OF_TAG_PARAM_NUM + SIZE_OF_TAG_PARAM_LEN)) {
		while (length < frame_bytes) {
			/* ref frame points to next IE */
			ref_frame = mgmt_frame + length;
			length += (uint32_t)(SIZE_OF_TAG_PARAM_NUM +
					SIZE_OF_TAG_PARAM_LEN +
					(*(ref_frame + SIZE_OF_TAG_PARAM_NUM)));
		}
		if (length != frame_bytes) {
			/*
			 * Workaround : Some APs may not include RSN
			 * Capability but the length of which is included in
			 * RSN IE length. This may cause in updating RSN
			 * Capability with junk value. To avoid this, add RSN
			 * Capability value with default value.
			 */
			if (ref_frame && (*ref_frame == RSNIEID) &&
				(length == (frame_bytes +
					RSNIE_CAPABILITY_LEN))) {
				/* Assume RSN Capability as 00 */
				qdf_mem_set((uint8_t *)(mgmt_frame +
					(frame_bytes)),
					RSNIE_CAPABILITY_LEN,
					DEFAULT_RSNIE_CAP_VAL);
				*missing_rsn_bytes = RSNIE_CAPABILITY_LEN;
				pe_debug("Added RSN Capability to RSNIE as 0x00 0x00");
				return QDF_STATUS_SUCCESS;
			}
			return QDF_STATUS_E_FAILURE;
		}
	}
	return QDF_STATUS_SUCCESS;
}

void sir_copy_caps_info(struct mac_context *mac_ctx, tDot11fFfCapabilities caps,
					    tpSirProbeRespBeacon pProbeResp)
{
	pProbeResp->capabilityInfo.ess = caps.ess;
	pProbeResp->capabilityInfo.ibss = caps.ibss;
	pProbeResp->capabilityInfo.cfPollable = caps.cfPollable;
	pProbeResp->capabilityInfo.cfPollReq = caps.cfPollReq;
	pProbeResp->capabilityInfo.privacy = caps.privacy;
	pProbeResp->capabilityInfo.shortPreamble = caps.shortPreamble;
	pProbeResp->capabilityInfo.criticalUpdateFlag = caps.criticalUpdateFlag;
	pProbeResp->capabilityInfo.channelAgility =	caps.channelAgility;
	pProbeResp->capabilityInfo.spectrumMgt = caps.spectrumMgt;
	pProbeResp->capabilityInfo.qos = caps.qos;
	pProbeResp->capabilityInfo.shortSlotTime = caps.shortSlotTime;
	pProbeResp->capabilityInfo.apsd = caps.apsd;
	pProbeResp->capabilityInfo.rrm = caps.rrm;
	pProbeResp->capabilityInfo.dsssOfdm = caps.dsssOfdm;
	pProbeResp->capabilityInfo.delayedBA = caps.delayedBA;
	pProbeResp->capabilityInfo.immediateBA = caps.immediateBA;
}

#ifdef WLAN_FEATURE_FILS_SK
static void populate_dot11f_fils_rsn(struct mac_context *mac_ctx,
				     tDot11fIERSNOpaque *p_dot11f,
				     uint8_t *rsn_ie)
{
	pe_debug("FILS RSN IE length %d", rsn_ie[1]);
	if (rsn_ie[1]) {
		p_dot11f->present = 1;
		p_dot11f->num_data = rsn_ie[1];
		qdf_mem_copy(p_dot11f->data, &rsn_ie[2], rsn_ie[1]);
	}
}

void populate_dot11f_fils_params(struct mac_context *mac_ctx,
		tDot11fAssocRequest *frm,
		struct pe_session *pe_session)
{
	struct pe_fils_session *fils_info = pe_session->fils_info;

	/* Populate RSN IE with FILS AKM */
	populate_dot11f_fils_rsn(mac_ctx, &frm->RSNOpaque,
				 fils_info->rsn_ie);

	/* Populate FILS session IE */
	frm->fils_session.present = true;
	qdf_mem_copy(frm->fils_session.session,
		     fils_info->fils_session, FILS_SESSION_LENGTH);

	/* Populate FILS Key confirmation IE */
	if (fils_info->key_auth_len) {
		frm->fils_key_confirmation.present = true;
		frm->fils_key_confirmation.num_key_auth =
						fils_info->key_auth_len;

		qdf_mem_copy(frm->fils_key_confirmation.key_auth,
			     fils_info->key_auth, fils_info->key_auth_len);
	}
}

/**
 * update_fils_data: update fils params from beacon/probe response
 * @fils_ind: pointer to sir_fils_indication
 * @fils_indication: pointer to tDot11fIEfils_indication
 *
 * Return: None
 */
void update_fils_data(struct sir_fils_indication *fils_ind,
		      tDot11fIEfils_indication *fils_indication)
{
	uint8_t *data;
	uint8_t remaining_data = fils_indication->num_variable_data;

	data = fils_indication->variable_data;
	fils_ind->is_present = true;
	fils_ind->is_ip_config_supported =
			fils_indication->is_ip_config_supported;
	fils_ind->is_fils_sk_auth_supported =
			fils_indication->is_fils_sk_auth_supported;
	fils_ind->is_fils_sk_auth_pfs_supported =
			fils_indication->is_fils_sk_auth_pfs_supported;
	fils_ind->is_pk_auth_supported =
			fils_indication->is_pk_auth_supported;
	if (fils_indication->is_cache_id_present) {
		if (remaining_data < SIR_CACHE_IDENTIFIER_LEN) {
			pe_err("Failed to copy Cache Identifier, Invalid remaining data %d",
				remaining_data);
			return;
		}
		fils_ind->cache_identifier.is_present = true;
		qdf_mem_copy(fils_ind->cache_identifier.identifier,
				data, SIR_CACHE_IDENTIFIER_LEN);
		data = data + SIR_CACHE_IDENTIFIER_LEN;
		remaining_data = remaining_data - SIR_CACHE_IDENTIFIER_LEN;
	}
	if (fils_indication->is_hessid_present) {
		if (remaining_data < SIR_HESSID_LEN) {
			pe_err("Failed to copy HESSID, Invalid remaining data %d",
				remaining_data);
			return;
		}
		fils_ind->hessid.is_present = true;
		qdf_mem_copy(fils_ind->hessid.hessid,
				data, SIR_HESSID_LEN);
		data = data + SIR_HESSID_LEN;
		remaining_data = remaining_data - SIR_HESSID_LEN;
	}
	if (fils_indication->realm_identifiers_cnt) {
		if (remaining_data < (fils_indication->realm_identifiers_cnt *
		    SIR_REALM_LEN)) {
			pe_err("Failed to copy Realm Identifier, Invalid remaining data %d realm_cnt %d",
				remaining_data,
				fils_indication->realm_identifiers_cnt);
			return;
		}
		fils_ind->realm_identifier.is_present = true;
		fils_ind->realm_identifier.realm_cnt =
			fils_indication->realm_identifiers_cnt;
		qdf_mem_copy(fils_ind->realm_identifier.realm,
			data, fils_ind->realm_identifier.realm_cnt *
					SIR_REALM_LEN);
	}
}
#endif

#ifdef WLAN_FEATURE_11AX_BSS_COLOR
static void update_bss_color_change_ie_from_probe_rsp(
		tDot11fProbeResponse *prb_frm,
		tpSirProbeRespBeacon prb_rsp_struct)
{
	if (prb_frm->bss_color_change.present) {
		pe_debug("11AX: HE BSS color change present");
		qdf_mem_copy(&prb_rsp_struct->vendor_he_bss_color_change,
			     &prb_frm->bss_color_change,
			     sizeof(tDot11fIEbss_color_change));
	}
}
#else
static inline void update_bss_color_change_ie_from_probe_rsp(
		tDot11fProbeResponse *prb_frm,
		tpSirProbeRespBeacon prb_rsp_struct)
{}
#endif

#ifdef WLAN_FEATURE_11BE
static void
sir_convert_probe_frame2_eht_struct(tDot11fProbeResponse *pr,
				    tpSirProbeRespBeacon p_probe_resp)
{
	if (pr->eht_cap.present) {
		qdf_mem_copy(&p_probe_resp->eht_cap, &pr->eht_cap,
			     sizeof(tDot11fIEeht_cap));
	}
}
#else
static inline void
sir_convert_probe_frame2_eht_struct(tDot11fProbeResponse *pr,
				    tpSirProbeRespBeacon p_probe_resp)
{
}
#endif

#ifdef WLAN_FEATURE_11BE_MLO
static QDF_STATUS
sir_convert_probe_frame2_mlo_struct(uint8_t *pframe,
				    uint32_t nframe,
				    tDot11fProbeResponse *pr,
				    tpSirProbeRespBeacon p_probe_resp)
{
	uint32_t status;
	uint8_t *ml_ie;
	qdf_size_t ml_ie_total_len;

	if (pr->mlo_ie.present) {
		status = util_find_mlie(pframe + WLAN_PROBE_RESP_IES_OFFSET,
					nframe - WLAN_PROBE_RESP_IES_OFFSET,
					&ml_ie, &ml_ie_total_len);
		if (QDF_IS_STATUS_SUCCESS(status)) {
			sir_convert_mlo_probe_rsp_frame2_struct(ml_ie,
							 ml_ie_total_len,
							 &p_probe_resp->mlo_ie);
		}
	}

	return QDF_STATUS_SUCCESS;
}
#else
static inline QDF_STATUS
sir_convert_probe_frame2_mlo_struct(uint8_t *pframe,
				    uint32_t nframe,
				    tDot11fProbeResponse *pr,
				    tpSirProbeRespBeacon p_probe_resp)
{
	return QDF_STATUS_SUCCESS;
}
#endif

#ifdef WLAN_FEATURE_11BE_MLO
static QDF_STATUS
sir_convert_probe_frame2_t2lm_struct(tDot11fProbeResponse *pr,
				     tpSirProbeRespBeacon bcn_struct)
{
	QDF_STATUS status = QDF_STATUS_SUCCESS;
	struct wlan_t2lm_context *t2lm_ctx;
	/* add 3 bytes for extn_ie_header */
	uint8_t ie[DOT11F_IE_T2LM_IE_MAX_LEN + 3];
	struct wlan_t2lm_info t2lm;
	uint8_t i;

	t2lm_ctx = &bcn_struct->t2lm_ctx;
	qdf_mem_zero(&t2lm_ctx->established_t2lm.t2lm,
		     sizeof(struct wlan_t2lm_info));
	t2lm_ctx->established_t2lm.t2lm.direction = WLAN_T2LM_INVALID_DIRECTION;

	qdf_mem_zero(&t2lm_ctx->upcoming_t2lm.t2lm,
		     sizeof(struct wlan_t2lm_info));
	t2lm_ctx->upcoming_t2lm.t2lm.direction = WLAN_T2LM_INVALID_DIRECTION;

	if (!pr->num_t2lm_ie)
		return status;

	pe_debug("Number of T2LM IEs in probe rsp %d", pr->num_t2lm_ie);
	for (i = 0; i < pr->num_t2lm_ie; i++) {
		qdf_mem_zero(&ie[0], DOT11F_IE_T2LM_IE_MAX_LEN + 3);
		qdf_mem_zero(&t2lm, sizeof(struct wlan_t2lm_info));
		ie[ID_POS] = WLAN_ELEMID_EXTN_ELEM;
		ie[TAG_LEN_POS] = pr->t2lm_ie[i].num_data + 1;
		ie[IDEXT_POS] = WLAN_EXTN_ELEMID_T2LM;
		qdf_mem_copy(&ie[3], &pr->t2lm_ie[i].data[0],
			     pr->t2lm_ie[i].num_data);

		qdf_trace_hex_dump(QDF_MODULE_ID_PE, QDF_TRACE_LEVEL_DEBUG,
				   &ie[0], pr->t2lm_ie[i].num_data + 3);

		if (ie[TAG_LEN_POS] + 2 > DOT11F_IE_T2LM_IE_MAX_LEN + 3) {
			pe_debug("Invalid T2LM IE length");
			return QDF_STATUS_E_PROTO;
		}

		status = wlan_mlo_parse_t2lm_info(&ie[0], &t2lm);
		if (QDF_IS_STATUS_ERROR(status)) {
			pe_debug("Parse T2LM IE fail");
			return status;
		}

		if (!t2lm.mapping_switch_time_present &&
		    t2lm.expected_duration_present) {
			qdf_mem_copy(&t2lm_ctx->established_t2lm.t2lm, &t2lm,
				     sizeof(struct wlan_t2lm_info));
			pe_debug("Parse established T2LM IE success");
		} else if (t2lm.mapping_switch_time_present) {
			qdf_mem_copy(&t2lm_ctx->upcoming_t2lm.t2lm, &t2lm,
				     sizeof(struct wlan_t2lm_info));
			pe_debug("Parse upcoming T2LM IE success");
		}
		pe_debug("Parse T2LM IE success");
	}
	return status;
}
#else
static inline QDF_STATUS
sir_convert_probe_frame2_t2lm_struct(tDot11fProbeResponse *pr,
				     tpSirProbeRespBeacon bcn_struct)
{
	return QDF_STATUS_SUCCESS;
}
#endif

QDF_STATUS sir_convert_probe_frame2_struct(struct mac_context *mac,
					      uint8_t *pFrame,
					      uint32_t nFrame,
					      tpSirProbeRespBeacon pProbeResp)
{
	uint32_t status;
	tDot11fProbeResponse *pr;

	/* Ok, zero-init our [out] parameter, */
	qdf_mem_zero((uint8_t *) pProbeResp, sizeof(tSirProbeRespBeacon));

	pr = qdf_mem_malloc(sizeof(tDot11fProbeResponse));
	if (!pr)
		return QDF_STATUS_E_NOMEM;

	/* delegate to the framesc-generated code, */
	status = dot11f_unpack_probe_response(mac, pFrame, nFrame, pr, false);
	if (DOT11F_FAILED(status)) {
		pe_err("Failed to parse a Probe Response (0x%08x, %d bytes):",
			status, nFrame);
		QDF_TRACE_HEX_DUMP(QDF_MODULE_ID_PE, QDF_TRACE_LEVEL_DEBUG,
				   pFrame, nFrame);
		qdf_mem_free(pr);
		return QDF_STATUS_E_FAILURE;
	}
	/* & "transliterate" from a 'tDot11fProbeResponse' to a 'tSirProbeRespBeacon'... */

	/* Timestamp */
	qdf_mem_copy((uint8_t *) pProbeResp->timeStamp,
		     (uint8_t *) &pr->TimeStamp, sizeof(tSirMacTimeStamp));

	/* Beacon Interval */
	pProbeResp->beaconInterval = pr->BeaconInterval.interval;

	sir_copy_caps_info(mac, pr->Capabilities, pProbeResp);

	if (!pr->SSID.present) {
		pe_debug("Mandatory IE SSID not present!");
	} else {
		pProbeResp->ssidPresent = 1;
		convert_ssid(mac, &pProbeResp->ssId, &pr->SSID);
	}

	if (!pr->SuppRates.present) {
		pe_debug_rl("Mandatory IE Supported Rates not present!");
	} else {
		pProbeResp->suppRatesPresent = 1;
		convert_supp_rates(mac, &pProbeResp->supportedRates,
				   &pr->SuppRates);
	}

	if (pr->ExtSuppRates.present) {
		pProbeResp->extendedRatesPresent = 1;
		convert_ext_supp_rates(mac, &pProbeResp->extendedRates,
				       &pr->ExtSuppRates);
	}

	if (pr->CFParams.present) {
		pProbeResp->cfPresent = 1;
		convert_cf_params(mac, &pProbeResp->cfParamSet, &pr->CFParams);
	}

	if (pr->Country.present) {
		pProbeResp->countryInfoPresent = 1;
		convert_country(mac, &pProbeResp->countryInfoParam,
				&pr->Country);
	}

	if (pr->EDCAParamSet.present) {
		pProbeResp->edcaPresent = 1;
		convert_edca_param(mac, &pProbeResp->edcaParams,
				   &pr->EDCAParamSet);
	}

	if (pr->ChanSwitchAnn.present) {
		pProbeResp->channelSwitchPresent = 1;
		qdf_mem_copy(&pProbeResp->channelSwitchIE, &pr->ChanSwitchAnn,
			     sizeof(pProbeResp->channelSwitchIE));
	}

	if (pr->ext_chan_switch_ann.present) {
		pProbeResp->ext_chan_switch_present = 1;
		qdf_mem_copy(&pProbeResp->ext_chan_switch,
			     &pr->ext_chan_switch_ann,
			     sizeof(tDot11fIEext_chan_switch_ann));
	}

	if (pr->SuppOperatingClasses.present) {
		pProbeResp->supp_operating_class_present = 1;
		qdf_mem_copy(&pProbeResp->supp_operating_classes,
			&pr->SuppOperatingClasses,
			sizeof(tDot11fIESuppOperatingClasses));
	}

	if (pr->sec_chan_offset_ele.present) {
		pProbeResp->sec_chan_offset_present = 1;
		qdf_mem_copy(&pProbeResp->sec_chan_offset,
			     &pr->sec_chan_offset_ele,
			     sizeof(pProbeResp->sec_chan_offset));
	}

	if (pr->TPCReport.present) {
		pProbeResp->tpcReportPresent = 1;
		qdf_mem_copy(&pProbeResp->tpcReport, &pr->TPCReport,
			     sizeof(tDot11fIETPCReport));
	}

	if (pr->PowerConstraints.present) {
		pProbeResp->powerConstraintPresent = 1;
		qdf_mem_copy(&pProbeResp->localPowerConstraint,
			     &pr->PowerConstraints,
			     sizeof(tDot11fIEPowerConstraints));
	}

	if (pr->Quiet.present) {
		pProbeResp->quietIEPresent = 1;
		qdf_mem_copy(&pProbeResp->quietIE, &pr->Quiet,
			     sizeof(tDot11fIEQuiet));
	}

	if (pr->HTCaps.present) {
		qdf_mem_copy(&pProbeResp->HTCaps, &pr->HTCaps,
			     sizeof(tDot11fIEHTCaps));
	}

	if (pr->HTInfo.present) {
		qdf_mem_copy(&pProbeResp->HTInfo, &pr->HTInfo,
			     sizeof(tDot11fIEHTInfo));
	}

	if (pr->he_op.oper_info_6g_present) {
		pProbeResp->chan_freq = wlan_reg_chan_band_to_freq(mac->pdev,
						pr->he_op.oper_info_6g.info.primary_ch,
						BIT(REG_BAND_6G));
	} else if (pr->DSParams.present) {
		pProbeResp->dsParamsPresent = 1;
		pProbeResp->chan_freq =
		    wlan_reg_legacy_chan_to_freq(mac->pdev, pr->DSParams.curr_channel);
	} else if (pr->HTInfo.present) {
		pProbeResp->chan_freq =
		    wlan_reg_legacy_chan_to_freq(mac->pdev, pr->HTInfo.primaryChannel);
	}

	if (pr->RSNOpaque.present) {
		pProbeResp->rsnPresent = 1;
		convert_rsn_opaque(mac, &pProbeResp->rsn, &pr->RSNOpaque);
	}

	if (pr->WPA.present) {
		pProbeResp->wpaPresent = 1;
		convert_wpa(mac, &pProbeResp->wpa, &pr->WPA);
	}

	if (pr->WMMParams.present) {
		pProbeResp->wmeEdcaPresent = 1;
		convert_wmm_params(mac, &pProbeResp->edcaParams, &pr->WMMParams);
	}

	if (pr->WMMInfoAp.present) {
		pProbeResp->wmeInfoPresent = 1;
		pe_debug("WMM Information Element present in Probe Response Frame!");
	}

	if (pr->WMMCaps.present) {
		pProbeResp->wsmCapablePresent = 1;
	}

	if (pr->ERPInfo.present) {
		pProbeResp->erpPresent = 1;
		convert_erp_info(mac, &pProbeResp->erpIEInfo, &pr->ERPInfo);
	}
	if (pr->MobilityDomain.present) {
		/* MobilityDomain */
		pProbeResp->mdiePresent = 1;
		qdf_mem_copy((uint8_t *) &(pProbeResp->mdie[0]),
			     (uint8_t *) &(pr->MobilityDomain.MDID),
			     sizeof(uint16_t));
		pProbeResp->mdie[2] =
			((pr->MobilityDomain.overDSCap << 0) | (pr->MobilityDomain.
								resourceReqCap <<
								1));
		pe_debug("mdie=%02x%02x%02x",
			(unsigned int)pProbeResp->mdie[0],
			(unsigned int)pProbeResp->mdie[1],
			(unsigned int)pProbeResp->mdie[2]);
	}

#if defined FEATURE_WLAN_ESE
	if (pr->ESEVersion.present)
		pProbeResp->is_ese_ver_ie_present = 1;
	if (pr->QBSSLoad.present) {
		qdf_mem_copy(&pProbeResp->QBSSLoad, &pr->QBSSLoad,
			     sizeof(tDot11fIEQBSSLoad));
	}
#endif
	if (pr->P2PProbeRes.present) {
		qdf_mem_copy(&pProbeResp->P2PProbeRes, &pr->P2PProbeRes,
			     sizeof(tDot11fIEP2PProbeRes));
	}
	if (pr->VHTCaps.present) {
		qdf_mem_copy(&pProbeResp->VHTCaps, &pr->VHTCaps,
			     sizeof(tDot11fIEVHTCaps));
	}
	if (pr->VHTOperation.present) {
		qdf_mem_copy(&pProbeResp->VHTOperation, &pr->VHTOperation,
			     sizeof(tDot11fIEVHTOperation));
	}
	if (pr->VHTExtBssLoad.present) {
		qdf_mem_copy(&pProbeResp->VHTExtBssLoad, &pr->VHTExtBssLoad,
			     sizeof(tDot11fIEVHTExtBssLoad));
	}
	pProbeResp->Vendor1IEPresent = pr->Vendor1IE.present;
	pProbeResp->Vendor3IEPresent = pr->Vendor3IE.present;

	pProbeResp->vendor_vht_ie.present = pr->vendor_vht_ie.present;
	if (pr->vendor_vht_ie.present)
		pProbeResp->vendor_vht_ie.sub_type = pr->vendor_vht_ie.sub_type;
	if (pr->vendor_vht_ie.VHTCaps.present) {
		qdf_mem_copy(&pProbeResp->vendor_vht_ie.VHTCaps,
				&pr->vendor_vht_ie.VHTCaps,
				sizeof(tDot11fIEVHTCaps));
	}
	if (pr->vendor_vht_ie.VHTOperation.present) {
		qdf_mem_copy(&pProbeResp->vendor_vht_ie.VHTOperation,
				&pr->vendor_vht_ie.VHTOperation,
				sizeof(tDot11fIEVHTOperation));
	}
	/* Update HS 2.0 Information Element */
	if (pr->hs20vendor_ie.present) {
		pe_debug("HS20 Indication Element Present, rel#:%u, id:%u",
			pr->hs20vendor_ie.release_num,
			pr->hs20vendor_ie.hs_id_present);
		qdf_mem_copy(&pProbeResp->hs20vendor_ie,
			&pr->hs20vendor_ie,
			sizeof(tDot11fIEhs20vendor_ie) -
			sizeof(pr->hs20vendor_ie.hs_id));
		if (pr->hs20vendor_ie.hs_id_present)
			qdf_mem_copy(&pProbeResp->hs20vendor_ie.hs_id,
				&pr->hs20vendor_ie.hs_id,
				sizeof(pr->hs20vendor_ie.hs_id));
	}
	if (pr->MBO_IE.present) {
		pProbeResp->MBO_IE_present = true;
		if (pr->MBO_IE.cellular_data_cap.present)
			pProbeResp->MBO_capability =
				pr->MBO_IE.cellular_data_cap.cellular_connectivity;

		if (pr->MBO_IE.assoc_disallowed.present) {
			pProbeResp->assoc_disallowed = true;
			pProbeResp->assoc_disallowed_reason =
				pr->MBO_IE.assoc_disallowed.reason_code;
		}
	}

	if (pr->qcn_ie.present)
		qdf_mem_copy(&pProbeResp->qcn_ie, &pr->qcn_ie,
			     sizeof(tDot11fIEqcn_ie));

	if (pr->he_cap.present) {
		qdf_mem_copy(&pProbeResp->he_cap, &pr->he_cap,
			     sizeof(tDot11fIEhe_cap));
	}
	if (pr->he_op.present) {
		qdf_mem_copy(&pProbeResp->he_op, &pr->he_op,
			     sizeof(tDot11fIEhe_op));
	}

	sir_convert_probe_frame2_eht_struct(pr, pProbeResp);
	update_bss_color_change_ie_from_probe_rsp(pr, pProbeResp);
	sir_convert_probe_frame2_mlo_struct(pFrame, nFrame, pr, pProbeResp);
	sir_convert_probe_frame2_t2lm_struct(pr, pProbeResp);

	qdf_mem_free(pr);
	return QDF_STATUS_SUCCESS;

} /* End sir_convert_probe_frame2_struct. */

#ifdef WLAN_FEATURE_11BE
static void
sir_convert_assoc_req_frame2_eht_struct(tDot11fAssocRequest *ar,
					tpSirAssocReq p_assoc_req)
{
	if (ar->eht_cap.present)
		qdf_mem_copy(&p_assoc_req->eht_cap, &ar->eht_cap,
			     sizeof(tDot11fIEeht_cap));
}
#else
static inline void
sir_convert_assoc_req_frame2_eht_struct(tDot11fAssocRequest *ar,
					tpSirAssocReq p_assoc_req)
{
}
#endif

#ifdef WLAN_FEATURE_11BE_MLO
static QDF_STATUS
sir_convert_assoc_req_frame2_mlo_struct(uint8_t *pframe,
					uint32_t nframe,
					tDot11fAssocRequest *ar,
					tpSirAssocReq p_assoc_req)
{
	uint8_t *ml_ie;
	qdf_size_t ml_ie_total_len;
	struct qdf_mac_addr mld_mac_addr;
	uint32_t status;

	if (ar->mlo_ie.present) {
		status = util_find_mlie(pframe + WLAN_ASSOC_REQ_IES_OFFSET,
					nframe - WLAN_ASSOC_REQ_IES_OFFSET,
					&ml_ie, &ml_ie_total_len);

		if (QDF_IS_STATUS_SUCCESS(status)) {
			util_get_bvmlie_persta_partner_info(ml_ie,
							ml_ie_total_len,
							&p_assoc_req->mlo_info);
			util_get_bvmlie_mldmacaddr(ml_ie, ml_ie_total_len,
						   &mld_mac_addr);
			qdf_mem_copy(p_assoc_req->mld_mac, mld_mac_addr.bytes,
				     QDF_MAC_ADDR_SIZE);
			pe_debug("Partner link count: %d, MLD mac addr: " QDF_MAC_ADDR_FMT,
				 p_assoc_req->mlo_info.num_partner_links,
				 QDF_MAC_ADDR_REF(p_assoc_req->mld_mac));
		} else {
			pe_debug("Do not find mlie");
		}
	}

	return QDF_STATUS_SUCCESS;
}
#else
static inline QDF_STATUS
sir_convert_assoc_req_frame2_mlo_struct(uint8_t *pFrame,
					uint32_t nFrame,
					tDot11fAssocRequest *ar,
					tpSirAssocReq p_assoc_req)
{
	return QDF_STATUS_SUCCESS;
}
#endif

enum wlan_status_code
sir_convert_assoc_req_frame2_struct(struct mac_context *mac,
				    uint8_t *pFrame,
				    uint32_t nFrame, tpSirAssocReq pAssocReq)
{
	tDot11fAssocRequest *ar;
	uint32_t status;

	ar = qdf_mem_malloc(sizeof(tDot11fAssocRequest));
	if (!ar)
		return STATUS_UNSPECIFIED_FAILURE;

	/* delegate to the framesc-generated code, */
	status = dot11f_unpack_assoc_request(mac, pFrame, nFrame, ar, false);
	if (DOT11F_FAILED(status)) {
		pe_err("Failed to parse an Association Request (0x%08x, %d bytes):",
			status, nFrame);
		QDF_TRACE_HEX_DUMP(QDF_MODULE_ID_PE, QDF_TRACE_LEVEL_ERROR,
				   pFrame, nFrame);
		qdf_mem_free(ar);
		return STATUS_UNSPECIFIED_FAILURE;
	} else if (DOT11F_WARNED(status)) {
		pe_debug("There were warnings while unpacking an Association Request (0x%08x, %d bytes):",
			status, nFrame);
	}
	/* & "transliterate" from a 'tDot11fAssocRequest' to a 'tSirAssocReq'... */

	/* make sure this is seen as an assoc request */
	pAssocReq->reassocRequest = 0;

	/* Capabilities */
	pAssocReq->capabilityInfo.ess = ar->Capabilities.ess;
	pAssocReq->capabilityInfo.ibss = ar->Capabilities.ibss;
	pAssocReq->capabilityInfo.cfPollable = ar->Capabilities.cfPollable;
	pAssocReq->capabilityInfo.cfPollReq = ar->Capabilities.cfPollReq;
	pAssocReq->capabilityInfo.privacy = ar->Capabilities.privacy;
	pAssocReq->capabilityInfo.shortPreamble =
		ar->Capabilities.shortPreamble;
	pAssocReq->capabilityInfo.criticalUpdateFlag =
		ar->Capabilities.criticalUpdateFlag;
	pAssocReq->capabilityInfo.channelAgility =
		ar->Capabilities.channelAgility;
	pAssocReq->capabilityInfo.spectrumMgt = ar->Capabilities.spectrumMgt;
	pAssocReq->capabilityInfo.qos = ar->Capabilities.qos;
	pAssocReq->capabilityInfo.shortSlotTime =
		ar->Capabilities.shortSlotTime;
	pAssocReq->capabilityInfo.apsd = ar->Capabilities.apsd;
	pAssocReq->capabilityInfo.rrm = ar->Capabilities.rrm;
	pAssocReq->capabilityInfo.dsssOfdm = ar->Capabilities.dsssOfdm;
	pAssocReq->capabilityInfo.delayedBA = ar->Capabilities.delayedBA;
	pAssocReq->capabilityInfo.immediateBA = ar->Capabilities.immediateBA;

	/* Listen Interval */
	pAssocReq->listenInterval = ar->ListenInterval.interval;

	/* SSID */
	if (ar->SSID.present) {
		pAssocReq->ssidPresent = 1;
		convert_ssid(mac, &pAssocReq->ssId, &ar->SSID);
	}
	/* Supported Rates */
	if (ar->SuppRates.present) {
		pAssocReq->suppRatesPresent = 1;
		convert_supp_rates(mac, &pAssocReq->supportedRates,
				   &ar->SuppRates);
	}
	/* Extended Supported Rates */
	if (ar->ExtSuppRates.present) {
		pAssocReq->extendedRatesPresent = 1;
		convert_ext_supp_rates(mac, &pAssocReq->extendedRates,
				       &ar->ExtSuppRates);
	}
	/* QOS Capabilities: */
	if (ar->QOSCapsStation.present) {
		pAssocReq->qosCapabilityPresent = 1;
		convert_qos_caps_station(mac, &pAssocReq->qosCapability,
					 &ar->QOSCapsStation);
	}
	/* WPA */
	if (ar->WPAOpaque.present) {
		pAssocReq->wpaPresent = 1;
		convert_wpa_opaque(mac, &pAssocReq->wpa, &ar->WPAOpaque);
	}
#ifdef FEATURE_WLAN_WAPI
	if (ar->WAPIOpaque.present) {
		pAssocReq->wapiPresent = 1;
		convert_wapi_opaque(mac, &pAssocReq->wapi, &ar->WAPIOpaque);
	}
#endif
	/* RSN */
	if (ar->RSNOpaque.present) {
		pAssocReq->rsnPresent = 1;
		convert_rsn_opaque(mac, &pAssocReq->rsn, &ar->RSNOpaque);
	}
	/* WSC IE */
	if (ar->WscIEOpaque.present) {
		pAssocReq->addIEPresent = 1;
		convert_wsc_opaque(mac, &pAssocReq->addIE, &ar->WscIEOpaque);
	}

	if (ar->P2PIEOpaque.present) {
		pAssocReq->addIEPresent = 1;
		convert_p2p_opaque(mac, &pAssocReq->addIE, &ar->P2PIEOpaque);
	}
#ifdef WLAN_FEATURE_WFD
	if (ar->WFDIEOpaque.present) {
		pAssocReq->addIEPresent = 1;
		convert_wfd_opaque(mac, &pAssocReq->addIE, &ar->WFDIEOpaque);
	}
#endif

	/* Power Capabilities */
	if (ar->PowerCaps.present) {
		pAssocReq->powerCapabilityPresent = 1;
		convert_power_caps(mac, &pAssocReq->powerCapability,
				   &ar->PowerCaps);
	}
	/* Supported Channels */
	if (ar->SuppChannels.present) {
		pAssocReq->supportedChannelsPresent = 1;
		convert_supp_channels(mac, &pAssocReq->supportedChannels,
				      &ar->SuppChannels);
	}

	if (ar->HTCaps.present) {
		qdf_mem_copy(&pAssocReq->HTCaps, &ar->HTCaps,
			     sizeof(tDot11fIEHTCaps));
	}

	if (ar->WMMInfoStation.present) {
		pAssocReq->wmeInfoPresent = 1;
		qdf_mem_copy(&pAssocReq->WMMInfoStation, &ar->WMMInfoStation,
			     sizeof(tDot11fIEWMMInfoStation));

	}

	if (ar->WMMCaps.present)
		pAssocReq->wsmCapablePresent = 1;

	if (!pAssocReq->ssidPresent) {
		pe_debug("Received Assoc without SSID IE");
		qdf_mem_free(ar);
		return STATUS_UNSPECIFIED_FAILURE;
	}

	if (!pAssocReq->suppRatesPresent && !pAssocReq->extendedRatesPresent) {
		pe_debug("Received Assoc without supp rate IE");
		qdf_mem_free(ar);
		return STATUS_ASSOC_DENIED_RATES;
	}
	if (ar->VHTCaps.present) {
		qdf_mem_copy(&pAssocReq->VHTCaps, &ar->VHTCaps,
			     sizeof(tDot11fIEVHTCaps));
		lim_log_vht_cap(mac, &pAssocReq->VHTCaps);
	}
	if (ar->OperatingMode.present) {
		qdf_mem_copy(&pAssocReq->operMode, &ar->OperatingMode,
			     sizeof(tDot11fIEOperatingMode));
		lim_log_operating_mode(mac, &pAssocReq->operMode);
	}
	if (ar->ExtCap.present) {
		struct s_ext_cap *ext_cap;

		qdf_mem_copy(&pAssocReq->ExtCap, &ar->ExtCap,
			    sizeof(tDot11fIEExtCap));
		ext_cap = (struct s_ext_cap *)&pAssocReq->ExtCap.bytes;
		pe_debug("timingMeas: %d, finetimingMeas Init: %d, Resp: %d",
			ext_cap->timing_meas, ext_cap->fine_time_meas_initiator,
			ext_cap->fine_time_meas_responder);
	}
	if (ar->SuppOperatingClasses.present) {
		uint8_t num_classes = ar->SuppOperatingClasses.num_classes;

		if (num_classes > sizeof(ar->SuppOperatingClasses.classes))
			num_classes =
				sizeof(ar->SuppOperatingClasses.classes);
		qdf_mem_copy(&pAssocReq->supp_operating_classes,
			     &ar->SuppOperatingClasses,
			     sizeof(tDot11fIESuppOperatingClasses));
	}

	pAssocReq->vendor_vht_ie.present = ar->vendor_vht_ie.present;
	if (ar->vendor_vht_ie.present) {
		pAssocReq->vendor_vht_ie.sub_type = ar->vendor_vht_ie.sub_type;
		if (ar->vendor_vht_ie.VHTCaps.present) {
			qdf_mem_copy(&pAssocReq->vendor_vht_ie.VHTCaps,
				     &ar->vendor_vht_ie.VHTCaps,
				     sizeof(tDot11fIEVHTCaps));
			lim_log_vht_cap(mac, &pAssocReq->VHTCaps);
		}
	}
	if (ar->qcn_ie.present)
		qdf_mem_copy(&pAssocReq->qcn_ie, &ar->qcn_ie,
			     sizeof(tDot11fIEqcn_ie));
	if (ar->bss_max_idle_period.present) {
		qdf_mem_copy(&pAssocReq->bss_max_idle_period,
			     &ar->bss_max_idle_period,
			     sizeof(tDot11fIEbss_max_idle_period));
	}
	if (ar->he_cap.present)
		qdf_mem_copy(&pAssocReq->he_cap, &ar->he_cap,
			     sizeof(tDot11fIEhe_cap));

	if (ar->he_6ghz_band_cap.present)
		qdf_mem_copy(&pAssocReq->he_6ghz_band_cap,
			     &ar->he_6ghz_band_cap,
			     sizeof(tDot11fIEhe_6ghz_band_cap));

	sir_convert_assoc_req_frame2_eht_struct(ar, pAssocReq);
	sir_convert_assoc_req_frame2_mlo_struct(pFrame, nFrame, ar, pAssocReq);

	pe_debug("ht %d vht %d opmode %d vendor vht %d he %d he 6ghband %d eht %d",
		 ar->HTCaps.present, ar->VHTCaps.present,
		 ar->OperatingMode.present, ar->vendor_vht_ie.VHTCaps.present,
		 ar->he_cap.present, ar->he_6ghz_band_cap.present,
		 ar->eht_cap.present);

	qdf_mem_free(ar);
	return STATUS_SUCCESS;

} /* End sir_convert_assoc_req_frame2_struct. */

QDF_STATUS dot11f_parse_assoc_response(struct mac_context *mac_ctx,
				       uint8_t *p_buf, uint32_t n_buf,
				       tDot11fAssocResponse *p_frm,
				       bool append_ie)
{
	uint32_t status;

	status = dot11f_unpack_assoc_response(mac_ctx, p_buf,
					      n_buf, p_frm, append_ie);
	if (DOT11F_FAILED(status)) {
		pe_err("Failed to parse an Association Response (0x%08x, %d bytes):",
			status, n_buf);
		QDF_TRACE_HEX_DUMP(QDF_MODULE_ID_PE, QDF_TRACE_LEVEL_ERROR,
				   p_buf, n_buf);
		return QDF_STATUS_E_FAILURE;
	}
	return QDF_STATUS_SUCCESS;
}

#ifdef WLAN_FEATURE_FILS_SK
/**
 * fils_convert_assoc_rsp_frame2_struct() - Copy FILS IE's to Assoc rsp struct
 * @ar: frame parser Assoc response struct
 * @pAssocRsp: LIM Assoc response
 *
 * Return: None
 */
static void fils_convert_assoc_rsp_frame2_struct(tDot11fAssocResponse *ar,
						 tpSirAssocRsp pAssocRsp)
{
	if (ar->fils_session.present) {
		pe_debug("fils session IE present");
		pAssocRsp->fils_session.present = true;
		qdf_mem_copy(pAssocRsp->fils_session.session,
				ar->fils_session.session,
				DOT11F_IE_FILS_SESSION_MAX_LEN);
	}

	if (ar->fils_key_confirmation.present) {
		pe_debug("fils key conf IE present");
		pAssocRsp->fils_key_auth.num_key_auth =
			ar->fils_key_confirmation.num_key_auth;
		qdf_mem_copy(pAssocRsp->fils_key_auth.key_auth,
				ar->fils_key_confirmation.key_auth,
				pAssocRsp->fils_key_auth.num_key_auth);
	}

	if (ar->fils_kde.present) {
		pe_debug("fils kde IE present %d",
				ar->fils_kde.num_kde_list);
		pAssocRsp->fils_kde.num_kde_list =
			ar->fils_kde.num_kde_list;
		qdf_mem_copy(pAssocRsp->fils_kde.key_rsc,
				ar->fils_kde.key_rsc, KEY_RSC_LEN);
		qdf_mem_copy(&pAssocRsp->fils_kde.kde_list,
				&ar->fils_kde.kde_list,
				pAssocRsp->fils_kde.num_kde_list);
	}

	if (ar->fils_hlp_container.present) {
		pe_debug("FILS HLP container IE present");
		sir_copy_mac_addr(pAssocRsp->dst_mac.bytes,
				ar->fils_hlp_container.dest_mac);
		sir_copy_mac_addr(pAssocRsp->src_mac.bytes,
				ar->fils_hlp_container.src_mac);
		pAssocRsp->hlp_data_len = ar->fils_hlp_container.num_hlp_packet;
		qdf_mem_copy(pAssocRsp->hlp_data,
				ar->fils_hlp_container.hlp_packet,
				pAssocRsp->hlp_data_len);

		if (ar->fragment_ie.present) {
			pe_debug("FILS fragment ie present");
			qdf_mem_copy(pAssocRsp->hlp_data +
					pAssocRsp->hlp_data_len,
					ar->fragment_ie.data,
					ar->fragment_ie.num_data);
			pAssocRsp->hlp_data_len += ar->fragment_ie.num_data;
		}
	}
}
#else
static inline void fils_convert_assoc_rsp_frame2_struct(tDot11fAssocResponse
							*ar, tpSirAssocRsp
							pAssocRsp)
{ }
#endif

QDF_STATUS wlan_parse_ftie_sha384(uint8_t *frame, uint32_t frame_len,
				  struct sSirAssocRsp *assoc_rsp)
{
	const uint8_t *ie, *ie_end, *pos;
	uint8_t ie_len, remaining_ie_len;
	struct wlan_sha384_ftinfo_subelem *ft_subelem;

	ie = wlan_get_ie_ptr_from_eid(DOT11F_EID_FTINFO, frame, frame_len);
	if (!ie) {
		pe_err("FT IE not present");
		return QDF_STATUS_E_FAILURE;
	}

	if (!ie[1]) {
		pe_err("FT IE length is zero");
		return QDF_STATUS_E_FAILURE;
	}

	ie_len = ie[1];
	if (ie_len < sizeof(struct wlan_sha384_ftinfo)) {
		pe_err("Invalid FTIE len:%d", ie_len);
		return QDF_STATUS_E_FAILURE;
	}
	remaining_ie_len = ie_len;
	pos = ie + 2;
	qdf_mem_copy(&assoc_rsp->sha384_ft_info, pos,
		     sizeof(struct wlan_sha384_ftinfo));
	ie_end = ie + ie_len;
	pos += sizeof(struct wlan_sha384_ftinfo);
	remaining_ie_len -= sizeof(struct wlan_sha384_ftinfo);
	ft_subelem = &assoc_rsp->sha384_ft_subelem;
	qdf_mem_zero(ft_subelem, sizeof(*ft_subelem));
	while (ie_end - pos >= 2) {
		uint8_t id, len;

		id = *pos++;
		len = *pos++;
		/* Subtract data length(len) + 1 bytes for
		 * Subelement ID + 1 bytes for length from
		 * remaining FTIE buffer len (ie_len).
		 * Subelement Parameter(s) field :
		 *         Subelement ID  Length     Data
		 * Octets:      1            1     variable
		 */
		if (len < 1 || remaining_ie_len < (len + 2)) {
			pe_err("Invalid FT subelem length");
			return QDF_STATUS_E_FAILURE;
		}

		remaining_ie_len -= (len + 2);

		switch (id) {
		case FTIE_SUBELEM_R1KH_ID:
			if (len != FTIE_R1KH_LEN) {
				pe_err("Invalid R1KH-ID length: %d",
				       len);
				return QDF_STATUS_E_FAILURE;
			}
			ft_subelem->r1kh_id.present = 1;
			qdf_mem_copy(ft_subelem->r1kh_id.PMK_R1_ID,
				     pos, FTIE_R1KH_LEN);
			break;
		case FTIE_SUBELEM_GTK:
			if (ft_subelem->gtk) {
				qdf_mem_zero(ft_subelem->gtk,
					     ft_subelem->gtk_len);
				ft_subelem->gtk_len = 0;
				qdf_mem_free(ft_subelem->gtk);
			}
			ft_subelem->gtk = qdf_mem_malloc(len);
			if (!ft_subelem->gtk)
				return QDF_STATUS_E_NOMEM;

			qdf_mem_copy(ft_subelem->gtk, pos, len);
			ft_subelem->gtk_len = len;
			break;
		case FTIE_SUBELEM_R0KH_ID:
			if (len < 1 || len > FTIE_R0KH_MAX_LEN) {
				pe_err("Invalid R0KH-ID length: %d",
				       len);
				return QDF_STATUS_E_FAILURE;
			}
			ft_subelem->r0kh_id.present = 1;
			ft_subelem->r0kh_id.num_PMK_R0_ID = len;
			qdf_mem_copy(ft_subelem->r0kh_id.PMK_R0_ID,
				     pos, len);
			break;
		case FTIE_SUBELEM_IGTK:
			if (ft_subelem->igtk) {
				qdf_mem_zero(ft_subelem->igtk,
					     ft_subelem->igtk_len);
				ft_subelem->igtk_len = 0;
				qdf_mem_free(ft_subelem->igtk);
			}
			ft_subelem->igtk = qdf_mem_malloc(len);
			if (!ft_subelem->igtk)
				return QDF_STATUS_E_NOMEM;

			qdf_mem_copy(ft_subelem->igtk, pos, len);
			ft_subelem->igtk_len = len;

			break;
		default:
			pe_debug("Unknown subelem id %d len:%d",
				 id, len);
			break;
		}
		pos += len;
	}
	return QDF_STATUS_SUCCESS;
}

#ifdef WLAN_FEATURE_11BE
static void
sir_convert_assoc_resp_frame2_eht_struct(tDot11fAssocResponse *ar,
					 tpSirAssocRsp p_assoc_rsp)
{
	if (ar->eht_cap.present)
		qdf_mem_copy(&p_assoc_rsp->eht_cap, &ar->eht_cap,
			     sizeof(tDot11fIEeht_cap));

	if (ar->eht_op.present)
		qdf_mem_copy(&p_assoc_rsp->eht_op, &ar->eht_op,
			     sizeof(tDot11fIEeht_op));
}
#else
static inline void
sir_convert_assoc_resp_frame2_eht_struct(tDot11fAssocResponse *ar,
					 tpSirAssocRsp p_assoc_rsp)
{
}
#endif

#ifdef WLAN_FEATURE_11BE_MLO
static QDF_STATUS
sir_copy_assoc_rsp_partner_info_to_session(struct pe_session *session_entry,
					   struct mlo_partner_info *partner_info)
{
	uint16_t i, partner_idx = 0, j, link_id;
	struct mlo_link_info *link_info;
	struct mlo_partner_info *ml_partner_info =
			&session_entry->ml_partner_info;

	link_info = mlo_mgr_get_ap_link(session_entry->vdev);
	if (!link_info)
		return QDF_STATUS_E_FAILURE;

	/* Clear the Partner info already filled from the join request */
	qdf_mem_zero(ml_partner_info, sizeof(*ml_partner_info));
	for (i = 1; i < WLAN_MAX_ML_BSS_LINKS; i++) {
		link_id = link_info[i].link_id;
		for (j = 0; j < partner_info->num_partner_links; j++) {
			if (partner_info->partner_link_info[j].link_id !=
			    link_id)
				continue;

			ml_partner_info->partner_link_info[partner_idx++] =
					partner_info->partner_link_info[j];
			break;
		}
	}
	ml_partner_info->num_partner_links = partner_idx;

	return QDF_STATUS_SUCCESS;
}

static QDF_STATUS
sir_convert_assoc_resp_frame2_mlo_struct(struct mac_context *mac,
					 uint8_t *frame,
					 uint32_t frame_len,
					 struct pe_session *session_entry,
					 tDot11fAssocResponse *ar,
					 tpSirAssocRsp p_assoc_rsp)
{
	uint8_t *ml_ie;
	qdf_size_t ml_ie_total_len;
	struct wlan_mlo_ie *ml_ie_info;
	bool link_id_found;
	uint8_t link_id;
	bool eml_cap_found, msd_cap_found;
	uint16_t eml_cap;
	uint16_t msd_cap;
	struct qdf_mac_addr mld_mac_addr;
	QDF_STATUS status = QDF_STATUS_SUCCESS;
	struct mlo_partner_info partner_info;

	if (!ar->mlo_ie.present)
		return status;

	status = util_find_mlie(frame + WLAN_ASSOC_RSP_IES_OFFSET,
				frame_len - WLAN_ASSOC_RSP_IES_OFFSET,
				&ml_ie, &ml_ie_total_len);
	if (QDF_IS_STATUS_ERROR(status))
		return status;

	ml_ie_info = &p_assoc_rsp->mlo_ie.mlo_ie;
	util_get_bvmlie_persta_partner_info(ml_ie, ml_ie_total_len,
					    &partner_info);

	sir_copy_assoc_rsp_partner_info_to_session(session_entry,
						   &partner_info);

	if (!wlan_cm_is_roam_sync_in_progress(mac->psoc,
					      session_entry->vdev_id)) {
		session_entry->ml_partner_info.num_partner_links =
		QDF_MIN(
		session_entry->ml_partner_info.num_partner_links,
		session_entry->lim_join_req->partner_info.num_partner_links);
	}
	util_get_bvmlie_mldmacaddr(ml_ie, ml_ie_total_len,
				   &mld_mac_addr);
	qdf_mem_copy(ml_ie_info->mld_mac_addr,
		     mld_mac_addr.bytes, QDF_MAC_ADDR_SIZE);

	util_get_mlie_common_info_len(ml_ie, ml_ie_total_len,
				      &ml_ie_info->common_info_length);

	util_get_bvmlie_primary_linkid(ml_ie, ml_ie_total_len,
				       &link_id_found, &link_id);
	util_get_bvmlie_msd_cap(ml_ie, ml_ie_total_len,
				&msd_cap_found, &msd_cap);
	if (msd_cap_found) {
		ml_ie_info->medium_sync_delay_info_present =
						msd_cap_found;
		ml_ie_info->medium_sync_delay_info.medium_sync_duration =
		  QDF_GET_BITS(
		     msd_cap,
		     WLAN_ML_BV_CINFO_MEDMSYNCDELAYINFO_DURATION_IDX,
		     WLAN_ML_BV_CINFO_MEDMSYNCDELAYINFO_DURATION_BITS);
		ml_ie_info->medium_sync_delay_info.medium_sync_ofdm_ed_thresh =
		  QDF_GET_BITS(
		     msd_cap,
		     WLAN_ML_BV_CINFO_MEDMSYNCDELAYINFO_OFDMEDTHRESH_IDX,
		     WLAN_ML_BV_CINFO_MEDMSYNCDELAYINFO_OFDMEDTHRESH_BITS);
		ml_ie_info->medium_sync_delay_info.medium_sync_max_txop_num =
		  QDF_GET_BITS(
		     msd_cap,
		     WLAN_ML_BV_CINFO_MEDMSYNCDELAYINFO_MAXTXOPS_IDX,
		     WLAN_ML_BV_CINFO_MEDMSYNCDELAYINFO_MAXTXOPS_BITS);
	}
	util_get_bvmlie_eml_cap(ml_ie, ml_ie_total_len,
				&eml_cap_found, &eml_cap);
	if (eml_cap_found) {
		ml_ie_info->eml_capab_present = eml_cap_found;
		ml_ie_info->eml_capabilities_info.emlsr_support =
			QDF_GET_BITS(eml_cap,
				     WLAN_ML_BV_CINFO_EMLCAP_EMLSRSUPPORT_IDX,
				     WLAN_ML_BV_CINFO_EMLCAP_EMLSRSUPPORT_BITS);

		ml_ie_info->eml_capabilities_info.transition_timeout =
			QDF_GET_BITS(eml_cap,
				     WLAN_ML_BV_CINFO_EMLCAP_TRANSTIMEOUT_IDX,
				     WLAN_ML_BV_CINFO_EMLCAP_TRANSTIMEOUT_BITS);
	}

	ml_ie_info->num_sta_profile =
			session_entry->ml_partner_info.num_partner_links;
	ml_ie_info->link_id_info_present = link_id_found;
	ml_ie_info->link_id = link_id;

	pe_debug("vdev:%d Partner link count: %d, Link id: %d, MLD mac addr: " QDF_MAC_ADDR_FMT,
		 session_entry->vdev_id,
		 ml_ie_info->num_sta_profile, ml_ie_info->link_id,
		 QDF_MAC_ADDR_REF(ml_ie_info->mld_mac_addr));

	return status;
}

static QDF_STATUS
sir_convert_assoc_resp_frame2_t2lm_struct(struct mac_context *mac,
					  uint8_t *frame,
					  uint32_t frame_len,
					  struct pe_session *session_entry,
					  tDot11fAssocResponse *ar,
					  tpSirAssocRsp p_assoc_rsp)
{
	QDF_STATUS status = QDF_STATUS_SUCCESS;
	struct wlan_t2lm_context *t2lm_ctx;
	/* add 3 bytes for extn_ie_header */
	uint8_t ie[DOT11F_IE_T2LM_IE_MAX_LEN + 3];
	struct wlan_t2lm_info t2lm;
	uint8_t i;

	t2lm_ctx = &p_assoc_rsp->t2lm_ctx;
	qdf_mem_zero(&t2lm_ctx->established_t2lm.t2lm,
		     sizeof(struct wlan_t2lm_info));
	t2lm_ctx->established_t2lm.t2lm.direction = WLAN_T2LM_INVALID_DIRECTION;

	qdf_mem_zero(&t2lm_ctx->upcoming_t2lm.t2lm,
		     sizeof(struct wlan_t2lm_info));
	t2lm_ctx->upcoming_t2lm.t2lm.direction = WLAN_T2LM_INVALID_DIRECTION;

	if (!ar->num_t2lm_ie) {
		pe_debug("T2LM IEs not present");
		return status;
	}

	pe_debug("Number of T2LM IEs in assoc resp %d", ar->num_t2lm_ie);
	for (i = 0; i < ar->num_t2lm_ie; i++) {
		qdf_mem_zero(&ie[0], DOT11F_IE_T2LM_IE_MAX_LEN + 3);
		qdf_mem_zero(&t2lm, sizeof(struct wlan_t2lm_info));
		ie[ID_POS] = WLAN_ELEMID_EXTN_ELEM;
		ie[TAG_LEN_POS] = ar->t2lm_ie[i].num_data + 1;
		ie[IDEXT_POS] = WLAN_EXTN_ELEMID_T2LM;
		qdf_mem_copy(&ie[3], &ar->t2lm_ie[i].data[0],
			     ar->t2lm_ie[i].num_data);
		qdf_trace_hex_dump(QDF_MODULE_ID_PE, QDF_TRACE_LEVEL_DEBUG,
				   &ie[0], ar->t2lm_ie[i].num_data + 3);

		if (ie[TAG_LEN_POS] + 2 > DOT11F_IE_T2LM_IE_MAX_LEN + 3) {
			pe_debug("Invalid T2LM IE length");
			return QDF_STATUS_E_PROTO;
		}

		status = wlan_mlo_parse_t2lm_info(&ie[0], &t2lm);
		if (QDF_IS_STATUS_ERROR(status)) {
			pe_debug("Parse T2LM IE fail");
			return status;
		}

		if (!t2lm.mapping_switch_time_present &&
		    t2lm.expected_duration_present) {
			qdf_mem_copy(&t2lm_ctx->established_t2lm.t2lm, &t2lm,
				     sizeof(struct wlan_t2lm_info));
			pe_debug("Parse established T2LM IE success");
		} else if (t2lm.mapping_switch_time_present) {
			qdf_mem_copy(&t2lm_ctx->upcoming_t2lm.t2lm, &t2lm,
				     sizeof(struct wlan_t2lm_info));
			pe_debug("Parse upcoming T2LM IE success");
		}
		pe_debug("Parse T2LM IE success");
	}
	return status;
}

#else
static inline QDF_STATUS
sir_convert_assoc_resp_frame2_mlo_struct(struct mac_context *mac,
					 uint8_t *frame,
					 uint32_t frame_len,
					 struct pe_session *session_entry,
					 tDot11fAssocResponse *ar,
					 tpSirAssocRsp p_assoc_rsp)
{
	return QDF_STATUS_SUCCESS;
}

static inline QDF_STATUS
sir_convert_assoc_resp_frame2_t2lm_struct(struct mac_context *mac,
					  uint8_t *frame,
					  uint32_t frame_len,
					  struct pe_session *session_entry,
					  tDot11fAssocResponse *ar,
					  tpSirAssocRsp p_assoc_rsp)
{
	return QDF_STATUS_SUCCESS;
}
#endif
#ifdef WLAN_FEATURE_SR
static void sir_convert_assoc_resp_frame2_sr(tpSirAssocRsp pAssocRsp,
					     tDot11fAssocResponse *ar)
{
	if (ar->spatial_reuse.present)
		qdf_mem_copy(&pAssocRsp->srp_ie, &ar->spatial_reuse,
			     sizeof(tDot11fIEspatial_reuse));
}
#else
static inline void sir_convert_assoc_resp_frame2_sr(tpSirAssocRsp pAssocRsp,
						    tDot11fAssocResponse *ar)
{
}
#endif

QDF_STATUS
sir_convert_assoc_resp_frame2_struct(struct mac_context *mac,
				     struct pe_session *session_entry,
				     uint8_t *frame, uint32_t frame_len,
				     tpSirAssocRsp pAssocRsp)
{
	tDot11fAssocResponse *ar;
	enum ani_akm_type auth_type;
	uint32_t status, ie_len;
	QDF_STATUS qdf_status;
	uint8_t cnt = 0;
	bool sha384_akm;
	uint8_t *ie_ptr;
	uint16_t status_code;

	ar = qdf_mem_malloc(sizeof(*ar));
	if (!ar)
		return QDF_STATUS_E_FAILURE;

	status_code = sir_read_u16(frame +
				   SIR_MAC_ASSOC_RSP_STATUS_CODE_OFFSET);
	if (lim_is_fils_connection(session_entry) && status_code)
		pe_debug("FILS: assoc reject Status code:%d", status_code);

	/*
	 * decrypt the cipher text using AEAD decryption, if association
	 * response status code is successful, else the don't do AEAD decryption
	 * since AP doesn't include FILS session IE when association reject is
	 * sent
	 */
	if (lim_is_fils_connection(session_entry) && !status_code) {
		status = aead_decrypt_assoc_rsp(mac, session_entry,
						ar, frame, &frame_len);
		if (!QDF_IS_STATUS_SUCCESS(status)) {
			pe_err("FILS assoc rsp AEAD decrypt fails");
			qdf_mem_free(ar);
			return QDF_STATUS_E_FAILURE;
		}
	}

	status = dot11f_parse_assoc_response(mac, frame, frame_len, ar, false);
	if (QDF_STATUS_SUCCESS != status) {
		qdf_mem_free(ar);
		return status;
	}

	/* Capabilities */
	pAssocRsp->capabilityInfo.ess = ar->Capabilities.ess;
	pAssocRsp->capabilityInfo.ibss = ar->Capabilities.ibss;
	pAssocRsp->capabilityInfo.cfPollable = ar->Capabilities.cfPollable;
	pAssocRsp->capabilityInfo.cfPollReq = ar->Capabilities.cfPollReq;
	pAssocRsp->capabilityInfo.privacy = ar->Capabilities.privacy;
	pAssocRsp->capabilityInfo.shortPreamble =
		ar->Capabilities.shortPreamble;
	pAssocRsp->capabilityInfo.criticalUpdateFlag =
		ar->Capabilities.criticalUpdateFlag;
	pAssocRsp->capabilityInfo.channelAgility =
		ar->Capabilities.channelAgility;
	pAssocRsp->capabilityInfo.spectrumMgt = ar->Capabilities.spectrumMgt;
	pAssocRsp->capabilityInfo.qos = ar->Capabilities.qos;
	pAssocRsp->capabilityInfo.shortSlotTime =
		ar->Capabilities.shortSlotTime;
	pAssocRsp->capabilityInfo.apsd = ar->Capabilities.apsd;
	pAssocRsp->capabilityInfo.rrm = ar->Capabilities.rrm;
	pAssocRsp->capabilityInfo.dsssOfdm = ar->Capabilities.dsssOfdm;
	pAssocRsp->capabilityInfo.delayedBA = ar->Capabilities.delayedBA;
	pAssocRsp->capabilityInfo.immediateBA = ar->Capabilities.immediateBA;

	pAssocRsp->status_code = ar->Status.status;
	pAssocRsp->aid = ar->AID.associd;

	if (ar->TimeoutInterval.present) {
		pAssocRsp->TimeoutInterval.present = 1;
		pAssocRsp->TimeoutInterval.timeoutType =
			ar->TimeoutInterval.timeoutType;
		pAssocRsp->TimeoutInterval.timeoutValue =
			ar->TimeoutInterval.timeoutValue;
	}

	if (!ar->SuppRates.present) {
		pAssocRsp->suppRatesPresent = 0;
		pe_debug_rl("Mandatory IE Supported Rates not present!");
	} else {
		pAssocRsp->suppRatesPresent = 1;
		convert_supp_rates(mac, &pAssocRsp->supportedRates,
				&ar->SuppRates);
	}

	if (ar->ExtSuppRates.present) {
		pAssocRsp->extendedRatesPresent = 1;
		convert_ext_supp_rates(mac, &pAssocRsp->extendedRates,
				&ar->ExtSuppRates);
	}

	if (ar->EDCAParamSet.present) {
		pAssocRsp->edcaPresent = 1;
		convert_edca_param(mac, &pAssocRsp->edca, &ar->EDCAParamSet);
	}
	if (ar->WMMParams.present) {
		pAssocRsp->wmeEdcaPresent = 1;
		convert_wmm_params(mac, &pAssocRsp->edca, &ar->WMMParams);
	}

	if (ar->HTCaps.present)
		qdf_mem_copy(&pAssocRsp->HTCaps, &ar->HTCaps,
			     sizeof(tDot11fIEHTCaps));

	if (ar->HTInfo.present)
		qdf_mem_copy(&pAssocRsp->HTInfo, &ar->HTInfo,
			     sizeof(tDot11fIEHTInfo));

	if (ar->RRMEnabledCap.present) {
		qdf_mem_copy(&pAssocRsp->rrm_caps, &ar->RRMEnabledCap,
			     sizeof(tDot11fIERRMEnabledCap));
	}
	if (ar->MobilityDomain.present) {
		/* MobilityDomain */
		pAssocRsp->mdiePresent = 1;
		qdf_mem_copy((uint8_t *) &(pAssocRsp->mdie[0]),
				(uint8_t *) &(ar->MobilityDomain.MDID),
				sizeof(uint16_t));
		pAssocRsp->mdie[2] = ((ar->MobilityDomain.overDSCap << 0) |
				      (ar->MobilityDomain.resourceReqCap << 1));
		pe_debug("new mdie=%02x%02x%02x",
			(unsigned int)pAssocRsp->mdie[0],
			(unsigned int)pAssocRsp->mdie[1],
			(unsigned int)pAssocRsp->mdie[2]);
	}

	/*
	 * If the connection is based on SHA384 AKM suite,
	 * then the length of MIC is 24 bytes, but frame parser
	 * has FTIE MIC of 16 bytes only. This results in parsing FTIE
	 * failure and R0KH and R1KH are not sent to firmware over RSO
	 * command. Frame parser doesn't have
	 * info on the connected AKM. So parse the FTIE again if
	 * AKM is sha384 based and extract the R0KH and R1KH using the new
	 * parsing logic.
	 */
	auth_type = session_entry->connected_akm;
	sha384_akm = lim_is_sha384_akm(auth_type);
	ie_ptr = frame + FIXED_PARAM_OFFSET_ASSOC_RSP;
	ie_len = frame_len - FIXED_PARAM_OFFSET_ASSOC_RSP;
	if (sha384_akm) {
		qdf_status = wlan_parse_ftie_sha384(ie_ptr, ie_len, pAssocRsp);
		if (QDF_IS_STATUS_ERROR(qdf_status)) {
			pe_err("FT IE parsing failed status:%d", status);
		} else {
			pe_debug("FT: R0KH present:%d len:%d R1KH present%d",
				 pAssocRsp->sha384_ft_subelem.r0kh_id.present,
				 pAssocRsp->sha384_ft_subelem.r0kh_id.num_PMK_R0_ID,
				 pAssocRsp->sha384_ft_subelem.r1kh_id.present);
			ar->FTInfo.present = false;
		}
	} else if (ar->FTInfo.present) {
		pe_debug("FT: R0KH present:%d, len:%d R1KH present:%d",
			 ar->FTInfo.R0KH_ID.present,
			 ar->FTInfo.R0KH_ID.num_PMK_R0_ID,
			 ar->FTInfo.R1KH_ID.present);
		pAssocRsp->ftinfoPresent = 1;
		qdf_mem_copy(&pAssocRsp->FTInfo, &ar->FTInfo,
			     sizeof(tDot11fIEFTInfo));
	}

	if (ar->num_RICDataDesc && ar->num_RICDataDesc <= 2) {
		for (cnt = 0; cnt < ar->num_RICDataDesc; cnt++) {
			if (ar->RICDataDesc[cnt].present) {
				qdf_mem_copy(&pAssocRsp->RICData[cnt],
						&ar->RICDataDesc[cnt],
						sizeof(tDot11fIERICDataDesc));
			}
		}
		pAssocRsp->num_RICData = ar->num_RICDataDesc;
		pAssocRsp->ricPresent = true;
	}

#ifdef FEATURE_WLAN_ESE
	if (ar->num_WMMTSPEC) {
		pAssocRsp->num_tspecs = ar->num_WMMTSPEC;
		for (cnt = 0; cnt < ar->num_WMMTSPEC; cnt++) {
			qdf_mem_copy(&pAssocRsp->TSPECInfo[cnt],
					&ar->WMMTSPEC[cnt],
					sizeof(tDot11fIEWMMTSPEC));
		}
		pAssocRsp->tspecPresent = true;
	}

	if (ar->ESETrafStrmMet.present) {
		pAssocRsp->tsmPresent = 1;
		qdf_mem_copy(&pAssocRsp->tsmIE.tsid,
				&ar->ESETrafStrmMet.tsid,
				sizeof(struct ese_tsm_ie));
	}
#endif
	if (ar->bss_max_idle_period.present)
		qdf_mem_copy(&pAssocRsp->bss_max_idle_period,
			     &ar->bss_max_idle_period,
			     sizeof(tDot11fIEbss_max_idle_period));

	if (ar->VHTCaps.present) {
		qdf_mem_copy(&pAssocRsp->VHTCaps, &ar->VHTCaps,
			     sizeof(tDot11fIEVHTCaps));
		lim_log_vht_cap(mac, &pAssocRsp->VHTCaps);
	}
	if (ar->VHTOperation.present) {
		qdf_mem_copy(&pAssocRsp->VHTOperation, &ar->VHTOperation,
			     sizeof(tDot11fIEVHTOperation));
		lim_log_vht_operation(mac, &pAssocRsp->VHTOperation);
	}

	if (ar->ExtCap.present) {
		struct s_ext_cap *ext_cap;

		qdf_mem_copy(&pAssocRsp->ExtCap, &ar->ExtCap,
				sizeof(tDot11fIEExtCap));
		ext_cap = (struct s_ext_cap *)&pAssocRsp->ExtCap.bytes;
		pe_debug("timingMeas: %d, finetimingMeas Init: %d, Resp: %d",
			ext_cap->timing_meas, ext_cap->fine_time_meas_initiator,
			ext_cap->fine_time_meas_responder);
	}

	if (ar->OperatingMode.present) {
		qdf_mem_copy(&pAssocRsp->oper_mode_ntf, &ar->OperatingMode,
			     sizeof(tDot11fIEOperatingMode));
	}

	if (ar->QosMapSet.present) {
		pAssocRsp->QosMapSet.present = 1;
		convert_qos_mapset_frame(mac, &pAssocRsp->QosMapSet,
					 &ar->QosMapSet);
		lim_log_qos_map_set(mac, &pAssocRsp->QosMapSet);
	}

	pAssocRsp->vendor_vht_ie.present = ar->vendor_vht_ie.present;
	if (ar->vendor_vht_ie.present)
		pAssocRsp->vendor_vht_ie.sub_type = ar->vendor_vht_ie.sub_type;
	if (ar->OBSSScanParameters.present) {
		qdf_mem_copy(&pAssocRsp->obss_scanparams,
				&ar->OBSSScanParameters,
				sizeof(struct sDot11fIEOBSSScanParameters));
	}
	if (ar->vendor_vht_ie.VHTCaps.present) {
		qdf_mem_copy(&pAssocRsp->vendor_vht_ie.VHTCaps,
				&ar->vendor_vht_ie.VHTCaps,
				sizeof(tDot11fIEVHTCaps));
		lim_log_vht_cap(mac, &pAssocRsp->VHTCaps);
	}
	if (ar->vendor_vht_ie.VHTOperation.present) {
		qdf_mem_copy(&pAssocRsp->vendor_vht_ie.VHTOperation,
				&ar->vendor_vht_ie.VHTOperation,
				sizeof(tDot11fIEVHTOperation));
		lim_log_vht_operation(mac, &pAssocRsp->VHTOperation);
	}

	if (ar->qcn_ie.present)
		qdf_mem_copy(&pAssocRsp->qcn_ie, &ar->qcn_ie,
			     sizeof(tDot11fIEqcn_ie));
	if (ar->he_cap.present) {
		qdf_mem_copy(&pAssocRsp->he_cap, &ar->he_cap,
			     sizeof(tDot11fIEhe_cap));
	}
	if (ar->he_op.present)
		qdf_mem_copy(&pAssocRsp->he_op, &ar->he_op,
			     sizeof(tDot11fIEhe_op));

	sir_convert_assoc_resp_frame2_sr(pAssocRsp, ar);

	if (ar->he_6ghz_band_cap.present)
		qdf_mem_copy(&pAssocRsp->he_6ghz_band_cap,
			     &ar->he_6ghz_band_cap,
			     sizeof(tDot11fIEhe_6ghz_band_cap));

	if (ar->mu_edca_param_set.present) {
		pAssocRsp->mu_edca_present = true;
		convert_mu_edca_param(mac, &pAssocRsp->mu_edca,
				&ar->mu_edca_param_set);
	}

	if (ar->MBO_IE.present && ar->MBO_IE.rssi_assoc_rej.present)
		qdf_mem_copy(&pAssocRsp->rssi_assoc_rej,
			     &ar->MBO_IE.rssi_assoc_rej,
			     sizeof(tDot11fTLVrssi_assoc_rej));

	sir_convert_assoc_resp_frame2_eht_struct(ar, pAssocRsp);
	fils_convert_assoc_rsp_frame2_struct(ar, pAssocRsp);
	sir_convert_assoc_resp_frame2_mlo_struct(mac, frame, frame_len,
						 session_entry, ar, pAssocRsp);
	sir_convert_assoc_resp_frame2_t2lm_struct(mac, frame, frame_len,
						  session_entry, ar, pAssocRsp);
	pe_debug("ht %d vht %d vendor vht: cap %d op %d, he %d he 6ghband %d eht %d eht320 %d, max idle: present %d val %d, he mu edca %d wmm %d qos %d mlo %d",
		 ar->HTCaps.present, ar->VHTCaps.present,
		 ar->vendor_vht_ie.VHTCaps.present,
		 ar->vendor_vht_ie.VHTOperation.present, ar->he_cap.present,
		 ar->he_6ghz_band_cap.present, ar->eht_cap.present,
		 pAssocRsp->eht_cap.support_320mhz_6ghz,
		 ar->bss_max_idle_period.present,
		 pAssocRsp->bss_max_idle_period.max_idle_period,
		 ar->mu_edca_param_set.present, ar->WMMParams.present,
		 ar->QosMapSet.present,
		 ar->mlo_ie.present);

	if (ar->WMMParams.present)
		__print_wmm_params(mac, &ar->WMMParams);

	qdf_mem_free(ar);
	return QDF_STATUS_SUCCESS;
} /* End sir_convert_assoc_resp_frame2_struct. */

#ifdef WLAN_FEATURE_11BE
static void
sir_convert_reassoc_req_frame2_eht_struct(tDot11fReAssocRequest *ar,
					  tpSirAssocReq p_assoc_req)
{
	if (ar->eht_cap.present) {
		qdf_mem_copy(&p_assoc_req->eht_cap, &ar->eht_cap,
			     sizeof(tDot11fIEeht_cap));
		pe_debug("Received Assoc Req with EHT Capability IE");
		QDF_TRACE_HEX_DUMP(QDF_MODULE_ID_PE, QDF_TRACE_LEVEL_DEBUG,
				   &p_assoc_req->eht_cap,
				   sizeof(tDot11fIEeht_cap));
	}
}
#else
static inline void
sir_convert_reassoc_req_frame2_eht_struct(tDot11fReAssocRequest *ar,
					  tpSirAssocReq p_assoc_req)
{
}
#endif

#ifdef WLAN_FEATURE_11BE_MLO
static QDF_STATUS
sir_convert_reassoc_req_frame2_mlo_struct(uint8_t *pframe, uint32_t nframe,
					  tDot11fReAssocRequest *ar,
					  tpSirAssocReq p_assoc_req)
{
	uint8_t *ml_ie;
	qdf_size_t ml_ie_total_len;
	struct qdf_mac_addr mld_mac_addr;
	uint32_t status = QDF_STATUS_SUCCESS;

	if (ar->mlo_ie.present) {
		status = util_find_mlie(pframe + WLAN_REASSOC_REQ_IES_OFFSET,
					nframe - WLAN_ASSOC_REQ_IES_OFFSET,
					&ml_ie, &ml_ie_total_len);
		if (QDF_IS_STATUS_SUCCESS(status)) {
			util_get_bvmlie_persta_partner_info(ml_ie,
							ml_ie_total_len,
							&p_assoc_req->mlo_info);

			util_get_bvmlie_mldmacaddr(ml_ie, ml_ie_total_len,
						   &mld_mac_addr);
			qdf_mem_copy(p_assoc_req->mld_mac, mld_mac_addr.bytes,
				     QDF_MAC_ADDR_SIZE);
		} else {
			pe_debug("Do not find ml ie");
		}
	}
	return status;
}
#else
static QDF_STATUS
sir_convert_reassoc_req_frame2_mlo_struct(uint8_t *pframe, uint32_t nframe,
					  tDot11fReAssocRequest *ar,
					  tpSirAssocReq p_assoc_req)
{
	return QDF_STATUS_SUCCESS;
}
#endif
enum wlan_status_code
sir_convert_reassoc_req_frame2_struct(struct mac_context *mac,
				      uint8_t *pFrame,
				      uint32_t nFrame, tpSirAssocReq pAssocReq)
{
	tDot11fReAssocRequest *ar;
	uint32_t status;

	ar = qdf_mem_malloc(sizeof(*ar));
	if (!ar)
		return STATUS_UNSPECIFIED_FAILURE;

	/* delegate to the framesc-generated code, */
	status = dot11f_unpack_re_assoc_request(mac, pFrame, nFrame,
						ar, false);
	if (DOT11F_FAILED(status)) {
		pe_err("Failed to parse a Re-association Request (0x%08x, %d bytes):",
			status, nFrame);
		QDF_TRACE_HEX_DUMP(QDF_MODULE_ID_PE, QDF_TRACE_LEVEL_ERROR,
				   pFrame, nFrame);
		qdf_mem_free(ar);
		return STATUS_UNSPECIFIED_FAILURE;
	} else if (DOT11F_WARNED(status)) {
		pe_debug("There were warnings while unpacking a Re-association Request (0x%08x, %d bytes):",
			status, nFrame);
	}
	/* & "transliterate" from a 'tDot11fReAssocRequest' to a 'tSirAssocReq'... */

	/* make sure this is seen as a re-assoc request */
	pAssocReq->reassocRequest = 1;

	/* Capabilities */
	pAssocReq->capabilityInfo.ess = ar->Capabilities.ess;
	pAssocReq->capabilityInfo.ibss = ar->Capabilities.ibss;
	pAssocReq->capabilityInfo.cfPollable = ar->Capabilities.cfPollable;
	pAssocReq->capabilityInfo.cfPollReq = ar->Capabilities.cfPollReq;
	pAssocReq->capabilityInfo.privacy = ar->Capabilities.privacy;
	pAssocReq->capabilityInfo.shortPreamble = ar->Capabilities.shortPreamble;
	pAssocReq->capabilityInfo.criticalUpdateFlag =
		ar->Capabilities.criticalUpdateFlag;
	pAssocReq->capabilityInfo.channelAgility =
		ar->Capabilities.channelAgility;
	pAssocReq->capabilityInfo.spectrumMgt = ar->Capabilities.spectrumMgt;
	pAssocReq->capabilityInfo.qos = ar->Capabilities.qos;
	pAssocReq->capabilityInfo.shortSlotTime = ar->Capabilities.shortSlotTime;
	pAssocReq->capabilityInfo.apsd = ar->Capabilities.apsd;
	pAssocReq->capabilityInfo.rrm = ar->Capabilities.rrm;
	pAssocReq->capabilityInfo.dsssOfdm = ar->Capabilities.dsssOfdm;
	pAssocReq->capabilityInfo.delayedBA = ar->Capabilities.delayedBA;
	pAssocReq->capabilityInfo.immediateBA = ar->Capabilities.immediateBA;

	/* Listen Interval */
	pAssocReq->listenInterval = ar->ListenInterval.interval;

	/* SSID */
	if (ar->SSID.present) {
		pAssocReq->ssidPresent = 1;
		convert_ssid(mac, &pAssocReq->ssId, &ar->SSID);
	}
	/* Supported Rates */
	if (ar->SuppRates.present) {
		pAssocReq->suppRatesPresent = 1;
		convert_supp_rates(mac, &pAssocReq->supportedRates,
				   &ar->SuppRates);
	}
	/* Extended Supported Rates */
	if (ar->ExtSuppRates.present) {
		pAssocReq->extendedRatesPresent = 1;
		convert_ext_supp_rates(mac, &pAssocReq->extendedRates,
				       &ar->ExtSuppRates);
	}
	/* QOS Capabilities: */
	if (ar->QOSCapsStation.present) {
		pAssocReq->qosCapabilityPresent = 1;
		convert_qos_caps_station(mac, &pAssocReq->qosCapability,
					 &ar->QOSCapsStation);
	}
	/* WPA */
	if (ar->WPAOpaque.present) {
		pAssocReq->wpaPresent = 1;
		convert_wpa_opaque(mac, &pAssocReq->wpa, &ar->WPAOpaque);
	}
	/* RSN */
	if (ar->RSNOpaque.present) {
		pAssocReq->rsnPresent = 1;
		convert_rsn_opaque(mac, &pAssocReq->rsn, &ar->RSNOpaque);
	}

	/* Power Capabilities */
	if (ar->PowerCaps.present) {
		pAssocReq->powerCapabilityPresent = 1;
		convert_power_caps(mac, &pAssocReq->powerCapability,
				   &ar->PowerCaps);
	}
	/* Supported Channels */
	if (ar->SuppChannels.present) {
		pAssocReq->supportedChannelsPresent = 1;
		convert_supp_channels(mac, &pAssocReq->supportedChannels,
				      &ar->SuppChannels);
	}

	if (ar->HTCaps.present) {
		qdf_mem_copy(&pAssocReq->HTCaps, &ar->HTCaps,
			     sizeof(tDot11fIEHTCaps));
	}

	if (ar->WMMInfoStation.present) {
		pAssocReq->wmeInfoPresent = 1;
		qdf_mem_copy(&pAssocReq->WMMInfoStation, &ar->WMMInfoStation,
			     sizeof(tDot11fIEWMMInfoStation));

	}

	if (ar->WMMCaps.present)
		pAssocReq->wsmCapablePresent = 1;

	if (!pAssocReq->ssidPresent) {
		pe_debug("Received Assoc without SSID IE");
		qdf_mem_free(ar);
		return STATUS_UNSPECIFIED_FAILURE;
	}

	if (!pAssocReq->suppRatesPresent && !pAssocReq->extendedRatesPresent) {
		pe_debug("Received Assoc without supp rate IE");
		qdf_mem_free(ar);
		return STATUS_ASSOC_DENIED_RATES;
	}
	/* Why no call to 'updateAssocReqFromPropCapability' here, like */
	/* there is in 'sir_convert_assoc_req_frame2_struct'? */

	/* WSC IE */
	if (ar->WscIEOpaque.present) {
		pAssocReq->addIEPresent = 1;
		convert_wsc_opaque(mac, &pAssocReq->addIE, &ar->WscIEOpaque);
	}

	if (ar->P2PIEOpaque.present) {
		pAssocReq->addIEPresent = 1;
		convert_p2p_opaque(mac, &pAssocReq->addIE, &ar->P2PIEOpaque);
	}
#ifdef WLAN_FEATURE_WFD
	if (ar->WFDIEOpaque.present) {
		pAssocReq->addIEPresent = 1;
		convert_wfd_opaque(mac, &pAssocReq->addIE, &ar->WFDIEOpaque);
	}
#endif
	if (ar->SuppOperatingClasses.present) {
		uint8_t num_classes = ar->SuppOperatingClasses.num_classes;

		if (num_classes > sizeof(ar->SuppOperatingClasses.classes))
			num_classes =
				sizeof(ar->SuppOperatingClasses.classes);
		qdf_mem_copy(&pAssocReq->supp_operating_classes,
			     &ar->SuppOperatingClasses,
			     sizeof(tDot11fIESuppOperatingClasses));
		QDF_TRACE_HEX_DUMP(
			QDF_MODULE_ID_PE, QDF_TRACE_LEVEL_DEBUG,
			ar->SuppOperatingClasses.classes, num_classes);
	}
	if (ar->VHTCaps.present) {
		qdf_mem_copy(&pAssocReq->VHTCaps, &ar->VHTCaps,
			     sizeof(tDot11fIEVHTCaps));
	}
	if (ar->OperatingMode.present) {
		qdf_mem_copy(&pAssocReq->operMode, &ar->OperatingMode,
			     sizeof(tDot11fIEOperatingMode));
		pe_warn("Received Assoc Req with Operating Mode IE");
		lim_log_operating_mode(mac, &pAssocReq->operMode);
	}
	if (ar->ExtCap.present) {
		struct s_ext_cap *ext_cap;

		qdf_mem_copy(&pAssocReq->ExtCap, &ar->ExtCap,
			     sizeof(tDot11fIEExtCap));
		ext_cap = (struct s_ext_cap *)&pAssocReq->ExtCap.bytes;
		pe_debug("timingMeas: %d, finetimingMeas Init: %d, Resp: %d",
			ext_cap->timing_meas, ext_cap->fine_time_meas_initiator,
			ext_cap->fine_time_meas_responder);
	}
	if (ar->he_cap.present) {
		qdf_mem_copy(&pAssocReq->he_cap, &ar->he_cap,
			     sizeof(tDot11fIEhe_cap));
	}
	if (ar->he_6ghz_band_cap.present) {
		qdf_mem_copy(&pAssocReq->he_6ghz_band_cap,
			     &ar->he_6ghz_band_cap,
			     sizeof(tDot11fIEhe_6ghz_band_cap));
	}

	sir_convert_reassoc_req_frame2_eht_struct(ar, pAssocReq);
	sir_convert_reassoc_req_frame2_mlo_struct(pFrame, nFrame,
						  ar, pAssocReq);
	pe_debug("ht %d vht %d opmode %d vendor vht %d he %d he 6ghband %d eht %d",
		 ar->HTCaps.present, ar->VHTCaps.present,
		 ar->OperatingMode.present, ar->vendor_vht_ie.VHTCaps.present,
		 ar->he_cap.present, ar->he_6ghz_band_cap.present,
		 ar->eht_cap.present);
	qdf_mem_free(ar);

	return STATUS_SUCCESS;

} /* End sir_convert_reassoc_req_frame2_struct. */

#ifdef FEATURE_WLAN_ESE
QDF_STATUS
sir_beacon_ie_ese_bcn_report(struct mac_context *mac,
	uint8_t *pPayload, const uint32_t nPayload,
	uint8_t **outIeBuf, uint32_t *pOutIeLen)
{
	tDot11fBeaconIEs *pBies = NULL;
	uint32_t status = QDF_STATUS_SUCCESS;
	QDF_STATUS retStatus = QDF_STATUS_SUCCESS;
	tSirEseBcnReportMandatoryIe eseBcnReportMandatoryIe;

	/* To store how many bytes are required to be allocated
	   for Bcn report mandatory Ies */
	uint16_t numBytes = 0, freeBytes = 0;
	uint8_t *pos = NULL;
	uint32_t freq;

	freq = WMA_GET_RX_FREQ(pPayload);
	/* Zero-init our [out] parameter, */
	qdf_mem_zero((uint8_t *) &eseBcnReportMandatoryIe,
		    sizeof(eseBcnReportMandatoryIe));
	pBies = qdf_mem_malloc(sizeof(tDot11fBeaconIEs));
	if (!pBies)
		return QDF_STATUS_E_NOMEM;
	qdf_mem_zero(pBies, sizeof(tDot11fBeaconIEs));
	/* delegate to the framesc-generated code, */
	status = dot11f_unpack_beacon_i_es(mac, pPayload, nPayload,
					   pBies, false);

	if (DOT11F_FAILED(status)) {
		pe_err("Failed to parse Beacon IEs (0x%08x, %d bytes):",
			status, nPayload);
		qdf_mem_free(pBies);
		return QDF_STATUS_E_FAILURE;
	} else if (DOT11F_WARNED(status)) {
		pe_debug("There were warnings while unpacking Beacon IEs (0x%08x, %d bytes):",
			status, nPayload);
	}

	status = lim_strip_and_decode_eht_op(pPayload + WLAN_BEACON_IES_OFFSET,
					     nPayload - WLAN_BEACON_IES_OFFSET,
					     &pBies->eht_op,
					     pBies->VHTOperation,
					     pBies->he_op,
					     pBies->HTInfo);
	if (status != QDF_STATUS_SUCCESS) {
		pe_err("Failed to extract eht op");
		qdf_mem_free(pBies);
		return status;
	}

	status = lim_strip_and_decode_eht_cap(pPayload + WLAN_BEACON_IES_OFFSET,
					      nPayload - WLAN_BEACON_IES_OFFSET,
					      &pBies->eht_cap,
					      pBies->he_cap,
					      freq);
	if (status != QDF_STATUS_SUCCESS) {
		pe_err("Failed to extract eht cap");
		qdf_mem_free(pBies);
		return status;
	}

	/* & "transliterate" from a 'tDot11fBeaconIEs' to a 'eseBcnReportMandatoryIe'... */
	if (!pBies->SSID.present) {
		pe_debug("Mandatory IE SSID not present!");
	} else {
		eseBcnReportMandatoryIe.ssidPresent = 1;
		convert_ssid(mac, &eseBcnReportMandatoryIe.ssId, &pBies->SSID);
		/* 1 for EID, 1 for length and length bytes */
		numBytes += 1 + 1 + eseBcnReportMandatoryIe.ssId.length;
	}

	if (!pBies->SuppRates.present) {
		pe_debug_rl("Mandatory IE Supported Rates not present!");
	} else {
		eseBcnReportMandatoryIe.suppRatesPresent = 1;
		convert_supp_rates(mac, &eseBcnReportMandatoryIe.supportedRates,
				   &pBies->SuppRates);
		numBytes +=
			1 + 1 + eseBcnReportMandatoryIe.supportedRates.numRates;
	}

	if (pBies->FHParamSet.present) {
		eseBcnReportMandatoryIe.fhParamPresent = 1;
		convert_fh_params(mac, &eseBcnReportMandatoryIe.fhParamSet,
				  &pBies->FHParamSet);
		numBytes += 1 + 1 + WLAN_FH_PARAM_IE_MAX_LEN;
	}

	if (pBies->DSParams.present) {
		eseBcnReportMandatoryIe.dsParamsPresent = 1;
		eseBcnReportMandatoryIe.dsParamSet.channelNumber =
			pBies->DSParams.curr_channel;
		numBytes += 1 + 1 + WLAN_DS_PARAM_IE_MAX_LEN;
	}

	if (pBies->CFParams.present) {
		eseBcnReportMandatoryIe.cfPresent = 1;
		convert_cf_params(mac, &eseBcnReportMandatoryIe.cfParamSet,
				  &pBies->CFParams);
		numBytes += 1 + 1 + WLAN_CF_PARAM_IE_MAX_LEN;
	}

	if (pBies->TIM.present) {
		eseBcnReportMandatoryIe.timPresent = 1;
		eseBcnReportMandatoryIe.tim.dtimCount = pBies->TIM.dtim_count;
		eseBcnReportMandatoryIe.tim.dtimPeriod = pBies->TIM.dtim_period;
		eseBcnReportMandatoryIe.tim.bitmapControl = pBies->TIM.bmpctl;
		/* As per the ESE spec, May truncate and report first 4 octets only */
		numBytes += 1 + 1 + SIR_MAC_TIM_EID_MIN;
	}

	if (pBies->RRMEnabledCap.present) {
		eseBcnReportMandatoryIe.rrmPresent = 1;
		qdf_mem_copy(&eseBcnReportMandatoryIe.rmEnabledCapabilities,
			     &pBies->RRMEnabledCap,
			     sizeof(tDot11fIERRMEnabledCap));
		numBytes += 1 + 1 + WLAN_RM_CAPABILITY_IE_MAX_LEN;
	}

	*outIeBuf = qdf_mem_malloc(numBytes);
	if (!*outIeBuf) {
		qdf_mem_free(pBies);
		return QDF_STATUS_E_NOMEM;
	}
	pos = *outIeBuf;
	*pOutIeLen = numBytes;
	freeBytes = numBytes;

	/* Start filling the output Ie with Mandatory IE information */
	/* Fill SSID IE */
	if (eseBcnReportMandatoryIe.ssidPresent) {
		if (freeBytes < (1 + 1 + eseBcnReportMandatoryIe.ssId.length)) {
			pe_err("Insufficient memory to copy SSID");
			retStatus = QDF_STATUS_E_FAILURE;
			goto err_bcnrep;
		}
		*pos = WLAN_ELEMID_SSID;
		pos++;
		*pos = eseBcnReportMandatoryIe.ssId.length;
		pos++;
		qdf_mem_copy(pos,
			     (uint8_t *) eseBcnReportMandatoryIe.ssId.ssId,
			     eseBcnReportMandatoryIe.ssId.length);
		pos += eseBcnReportMandatoryIe.ssId.length;
		freeBytes -= (1 + 1 + eseBcnReportMandatoryIe.ssId.length);
	}

	/* Fill Supported Rates IE */
	if (eseBcnReportMandatoryIe.suppRatesPresent) {
		if (freeBytes <
		    (1 + 1 + eseBcnReportMandatoryIe.supportedRates.numRates)) {
			pe_err("Insufficient memory to copy Rates IE");
			retStatus = QDF_STATUS_E_FAILURE;
			goto err_bcnrep;
		}
		if (eseBcnReportMandatoryIe.supportedRates.numRates <=
			WLAN_SUPPORTED_RATES_IE_MAX_LEN) {
			*pos = WLAN_ELEMID_RATES;
			pos++;
			*pos = eseBcnReportMandatoryIe.supportedRates.numRates;
			pos++;
			qdf_mem_copy(pos,
			     (uint8_t *) eseBcnReportMandatoryIe.supportedRates.
			     rate,
			     eseBcnReportMandatoryIe.supportedRates.numRates);
			pos += eseBcnReportMandatoryIe.supportedRates.numRates;
			freeBytes -=
			(1 + 1 +
			 eseBcnReportMandatoryIe.supportedRates.numRates);
		}
	}

	/* Fill FH Parameter set IE */
	if (eseBcnReportMandatoryIe.fhParamPresent) {
		if (freeBytes < (1 + 1 + WLAN_FH_PARAM_IE_MAX_LEN)) {
			pe_err("Insufficient memory to copy FHIE");
			retStatus = QDF_STATUS_E_FAILURE;
			goto err_bcnrep;
		}
		*pos = WLAN_ELEMID_FHPARMS;
		pos++;
		*pos = WLAN_FH_PARAM_IE_MAX_LEN;
		pos++;
		qdf_mem_copy(pos,
			     (uint8_t *) &eseBcnReportMandatoryIe.fhParamSet,
			     WLAN_FH_PARAM_IE_MAX_LEN);
		pos += WLAN_FH_PARAM_IE_MAX_LEN;
		freeBytes -= (1 + 1 + WLAN_FH_PARAM_IE_MAX_LEN);
	}

	/* Fill DS Parameter set IE */
	if (eseBcnReportMandatoryIe.dsParamsPresent) {
		if (freeBytes < (1 + 1 + WLAN_DS_PARAM_IE_MAX_LEN)) {
			pe_err("Insufficient memory to copy DS IE");
			retStatus = QDF_STATUS_E_FAILURE;
			goto err_bcnrep;
		}
		*pos = WLAN_ELEMID_DSPARMS;
		pos++;
		*pos = WLAN_DS_PARAM_IE_MAX_LEN;
		pos++;
		*pos = eseBcnReportMandatoryIe.dsParamSet.channelNumber;
		pos += WLAN_DS_PARAM_IE_MAX_LEN;
		freeBytes -= (1 + 1 + WLAN_DS_PARAM_IE_MAX_LEN);
	}

	/* Fill CF Parameter set */
	if (eseBcnReportMandatoryIe.cfPresent) {
		if (freeBytes < (1 + 1 + WLAN_CF_PARAM_IE_MAX_LEN)) {
			pe_err("Insufficient memory to copy CF IE");
			retStatus = QDF_STATUS_E_FAILURE;
			goto err_bcnrep;
		}
		*pos = WLAN_ELEMID_CFPARMS;
		pos++;
		*pos = WLAN_CF_PARAM_IE_MAX_LEN;
		pos++;
		qdf_mem_copy(pos,
			     (uint8_t *) &eseBcnReportMandatoryIe.cfParamSet,
			     WLAN_CF_PARAM_IE_MAX_LEN);
		pos += WLAN_CF_PARAM_IE_MAX_LEN;
		freeBytes -= (1 + 1 + WLAN_CF_PARAM_IE_MAX_LEN);
	}

	/* Fill TIM IE */
	if (eseBcnReportMandatoryIe.timPresent) {
		if (freeBytes < (1 + 1 + SIR_MAC_TIM_EID_MIN)) {
			pe_err("Insufficient memory to copy TIM IE");
			retStatus = QDF_STATUS_E_FAILURE;
			goto err_bcnrep;
		}
		*pos = WLAN_ELEMID_TIM;
		pos++;
		*pos = SIR_MAC_TIM_EID_MIN;
		pos++;
		qdf_mem_copy(pos,
			     (uint8_t *) &eseBcnReportMandatoryIe.tim,
			     SIR_MAC_TIM_EID_MIN);
		pos += SIR_MAC_TIM_EID_MIN;
		freeBytes -= (1 + 1 + SIR_MAC_TIM_EID_MIN);
	}

	/* Fill RM Capability IE */
	if (eseBcnReportMandatoryIe.rrmPresent) {
		if (freeBytes < (1 + 1 + WLAN_RM_CAPABILITY_IE_MAX_LEN)) {
			pe_err("Insufficient memory to copy RRM IE");
			retStatus = QDF_STATUS_E_FAILURE;
			goto err_bcnrep;
		}
		*pos = WLAN_ELEMID_RRM;
		pos++;
		*pos = WLAN_RM_CAPABILITY_IE_MAX_LEN;
		pos++;
		qdf_mem_copy(pos,
			     (uint8_t *) &eseBcnReportMandatoryIe.
			     rmEnabledCapabilities,
			     WLAN_RM_CAPABILITY_IE_MAX_LEN);
		freeBytes -= (1 + 1 + WLAN_RM_CAPABILITY_IE_MAX_LEN);
	}

	if (freeBytes != 0) {
		pe_err("Mismatch in allocation and copying of IE in Bcn Rep");
		retStatus = QDF_STATUS_E_FAILURE;
	}

err_bcnrep:
	/* The message counter would not be incremented in case of
	 * returning failure and hence next time, this function gets
	 * called, it would be using the same msg ctr for a different
	 * BSS.So, it is good to clear the memory allocated for a BSS
	 * that is returning failure.On success, the caller would take
	 * care of freeing up the memory*/
	if (retStatus == QDF_STATUS_E_FAILURE) {
		qdf_mem_free(*outIeBuf);
		*outIeBuf = NULL;
	}

	qdf_mem_free(pBies);
	return retStatus;
}

#endif /* FEATURE_WLAN_ESE */

#ifdef WLAN_FEATURE_11AX_BSS_COLOR
static void update_bss_color_change_from_beacon_ies(tDot11fBeaconIEs *bcn_ies,
		tpSirProbeRespBeacon bcn_struct)
{
	if (bcn_ies->bss_color_change.present) {
		qdf_mem_copy(&bcn_struct->vendor_he_bss_color_change,
			     &bcn_ies->bss_color_change,
			     sizeof(tDot11fIEbss_color_change));
	}
}
#else
static inline void update_bss_color_change_from_beacon_ies(
		tDot11fBeaconIEs *bcn_ies,
		tpSirProbeRespBeacon bcn_struct)
{}
#endif

QDF_STATUS
sir_parse_beacon_ie(struct mac_context *mac,
		    tpSirProbeRespBeacon pBeaconStruct,
		    uint8_t *pPayload, uint32_t nPayload)
{
	tDot11fBeaconIEs *pBies;
	uint32_t status;
	uint32_t freq;

	freq = WMA_GET_RX_FREQ(pPayload);
	/* Zero-init our [out] parameter, */
	qdf_mem_zero((uint8_t *) pBeaconStruct, sizeof(tSirProbeRespBeacon));

	pBies = qdf_mem_malloc(sizeof(tDot11fBeaconIEs));
	if (!pBies)
		return QDF_STATUS_E_NOMEM;
	qdf_mem_zero(pBies, sizeof(tDot11fBeaconIEs));
	/* delegate to the framesc-generated code, */
	status = dot11f_unpack_beacon_i_es(mac, pPayload, nPayload,
					   pBies, false);

	if (DOT11F_FAILED(status)) {
		pe_err("Failed to parse Beacon IEs (0x%08x, %d bytes):",
			status, nPayload);
		QDF_TRACE_HEX_DUMP(QDF_MODULE_ID_PE, QDF_TRACE_LEVEL_ERROR,
				   pPayload, nPayload);
		qdf_mem_free(pBies);
		return QDF_STATUS_E_FAILURE;
	} else if (DOT11F_WARNED(status)) {
		pe_debug("warnings (0x%08x, %d bytes):", status, nPayload);
	}

	status = lim_strip_and_decode_eht_op(pPayload,
					     nPayload,
					     &pBies->eht_op,
					     pBies->VHTOperation,
					     pBies->he_op,
					     pBies->HTInfo);
	if (status != QDF_STATUS_SUCCESS) {
		pe_err("Failed to extract eht op");
		qdf_mem_free(pBies);
		return QDF_STATUS_E_FAILURE;
	}

	status = lim_strip_and_decode_eht_cap(pPayload,
					      nPayload,
					      &pBies->eht_cap,
					      pBies->he_cap,
					      freq);
	if (status != QDF_STATUS_SUCCESS) {
		pe_err("Failed to extract eht cap");
		qdf_mem_free(pBies);
		return QDF_STATUS_E_FAILURE;
	}

	/* & "transliterate" from a 'tDot11fBeaconIEs' to a 'tSirProbeRespBeacon'... */
	if (!pBies->SSID.present) {
		pe_debug("Mandatory IE SSID not present!");
	} else {
		pBeaconStruct->ssidPresent = 1;
		convert_ssid(mac, &pBeaconStruct->ssId, &pBies->SSID);
	}

	if (!pBies->SuppRates.present) {
		pe_debug_rl("Mandatory IE Supported Rates not present!");
	} else {
		pBeaconStruct->suppRatesPresent = 1;
		convert_supp_rates(mac, &pBeaconStruct->supportedRates,
				   &pBies->SuppRates);
	}

	if (pBies->ExtSuppRates.present) {
		pBeaconStruct->extendedRatesPresent = 1;
		convert_ext_supp_rates(mac, &pBeaconStruct->extendedRates,
				       &pBies->ExtSuppRates);
	}

	if (pBies->CFParams.present) {
		pBeaconStruct->cfPresent = 1;
		convert_cf_params(mac, &pBeaconStruct->cfParamSet,
				  &pBies->CFParams);
	}

	if (pBies->TIM.present) {
		pBeaconStruct->timPresent = 1;
		convert_tim(mac, &pBeaconStruct->tim, &pBies->TIM);
	}

	if (pBies->Country.present) {
		pBeaconStruct->countryInfoPresent = 1;
		convert_country(mac, &pBeaconStruct->countryInfoParam,
				&pBies->Country);
	}
	/* 11h IEs */
	if (pBies->TPCReport.present) {
		pBeaconStruct->tpcReportPresent = 1;
		qdf_mem_copy(&pBeaconStruct->tpcReport,
			     &pBies->TPCReport, sizeof(tDot11fIETPCReport));
	}

	if (pBies->PowerConstraints.present) {
		pBeaconStruct->powerConstraintPresent = 1;
		qdf_mem_copy(&pBeaconStruct->localPowerConstraint,
			     &pBies->PowerConstraints,
			     sizeof(tDot11fIEPowerConstraints));
	}
#ifdef FEATURE_WLAN_ESE
	if (pBies->ESEVersion.present)
		pBeaconStruct->is_ese_ver_ie_present = 1;
	if (pBies->ESETxmitPower.present) {
		pBeaconStruct->eseTxPwr.present = 1;
		pBeaconStruct->eseTxPwr.power_limit =
			pBies->ESETxmitPower.power_limit;
	}
	if (pBies->QBSSLoad.present) {
		qdf_mem_copy(&pBeaconStruct->QBSSLoad, &pBies->QBSSLoad,
			     sizeof(tDot11fIEQBSSLoad));
	}
#endif

	if (pBies->EDCAParamSet.present) {
		pBeaconStruct->edcaPresent = 1;
		convert_edca_param(mac, &pBeaconStruct->edcaParams,
				   &pBies->EDCAParamSet);
	}
	/* QOS Capabilities: */
	if (pBies->QOSCapsAp.present) {
		pBeaconStruct->qosCapabilityPresent = 1;
		convert_qos_caps(mac, &pBeaconStruct->qosCapability,
				 &pBies->QOSCapsAp);
	}

	if (pBies->ChanSwitchAnn.present) {
		pBeaconStruct->channelSwitchPresent = 1;
		qdf_mem_copy(&pBeaconStruct->channelSwitchIE,
			     &pBies->ChanSwitchAnn,
			     sizeof(pBeaconStruct->channelSwitchIE));
	}

	if (pBies->SuppOperatingClasses.present) {
		pBeaconStruct->supp_operating_class_present = 1;
		qdf_mem_copy(&pBeaconStruct->supp_operating_classes,
			&pBies->SuppOperatingClasses,
			sizeof(tDot11fIESuppOperatingClasses));
	}

	if (pBies->ext_chan_switch_ann.present) {
		pBeaconStruct->ext_chan_switch_present = 1;
		qdf_mem_copy(&pBeaconStruct->ext_chan_switch,
			     &pBies->ext_chan_switch_ann,
			     sizeof(tDot11fIEext_chan_switch_ann));
	}

	if (pBies->sec_chan_offset_ele.present) {
		pBeaconStruct->sec_chan_offset_present = 1;
		qdf_mem_copy(&pBeaconStruct->sec_chan_offset,
			     &pBies->sec_chan_offset_ele,
			     sizeof(pBeaconStruct->sec_chan_offset));
	}

	if (pBies->Quiet.present) {
		pBeaconStruct->quietIEPresent = 1;
		qdf_mem_copy(&pBeaconStruct->quietIE, &pBies->Quiet,
			     sizeof(tDot11fIEQuiet));
	}

	if (pBies->HTCaps.present) {
		qdf_mem_copy(&pBeaconStruct->HTCaps, &pBies->HTCaps,
			     sizeof(tDot11fIEHTCaps));
	}

	if (pBies->HTInfo.present) {
		qdf_mem_copy(&pBeaconStruct->HTInfo, &pBies->HTInfo,
			     sizeof(tDot11fIEHTInfo));
	}

	if (pBies->he_op.oper_info_6g_present) {
		pBeaconStruct->chan_freq = wlan_reg_chan_band_to_freq(mac->pdev,
						pBies->he_op.oper_info_6g.info.primary_ch,
						BIT(REG_BAND_6G));
	} else if (pBies->DSParams.present) {
		pBeaconStruct->dsParamsPresent = 1;
		pBeaconStruct->chan_freq =
		    wlan_reg_legacy_chan_to_freq(mac->pdev,
						 pBies->DSParams.curr_channel);
	} else if (pBies->HTInfo.present) {
		pBeaconStruct->chan_freq =
		    wlan_reg_legacy_chan_to_freq(mac->pdev,
						 pBies->HTInfo.primaryChannel);
	}

	if (pBies->RSN.present) {
		pBeaconStruct->rsnPresent = 1;
		convert_rsn(mac, &pBeaconStruct->rsn, &pBies->RSN);
	}

	if (pBies->WPA.present) {
		pBeaconStruct->wpaPresent = 1;
		convert_wpa(mac, &pBeaconStruct->wpa, &pBies->WPA);
	}

	if (pBies->WMMParams.present) {
		pBeaconStruct->wmeEdcaPresent = 1;
		convert_wmm_params(mac, &pBeaconStruct->edcaParams,
				   &pBies->WMMParams);
		qdf_mem_copy(&pBeaconStruct->wmm_params, &pBies->WMMParams,
			     sizeof(tDot11fIEWMMParams));
	}

	if (pBies->WMMInfoAp.present) {
		pBeaconStruct->wmeInfoPresent = 1;
	}

	if (pBies->WMMCaps.present) {
		pBeaconStruct->wsmCapablePresent = 1;
	}

	if (pBies->ERPInfo.present) {
		pBeaconStruct->erpPresent = 1;
		convert_erp_info(mac, &pBeaconStruct->erpIEInfo,
				 &pBies->ERPInfo);
	}
	if (pBies->VHTCaps.present) {
		pBeaconStruct->VHTCaps.present = 1;
		qdf_mem_copy(&pBeaconStruct->VHTCaps, &pBies->VHTCaps,
			     sizeof(tDot11fIEVHTCaps));
	}
	if (pBies->VHTOperation.present) {
		pBeaconStruct->VHTOperation.present = 1;
		qdf_mem_copy(&pBeaconStruct->VHTOperation, &pBies->VHTOperation,
			     sizeof(tDot11fIEVHTOperation));
	}
	if (pBies->VHTExtBssLoad.present) {
		pBeaconStruct->VHTExtBssLoad.present = 1;
		qdf_mem_copy(&pBeaconStruct->VHTExtBssLoad,
			     &pBies->VHTExtBssLoad,
			     sizeof(tDot11fIEVHTExtBssLoad));
	}
	if (pBies->OperatingMode.present) {
		pBeaconStruct->OperatingMode.present = 1;
		qdf_mem_copy(&pBeaconStruct->OperatingMode,
			     &pBies->OperatingMode,
			     sizeof(tDot11fIEOperatingMode));
	}
	if (pBies->MobilityDomain.present) {
		pBeaconStruct->mdiePresent = 1;
		qdf_mem_copy(pBeaconStruct->mdie, &pBies->MobilityDomain.MDID,
			     SIR_MDIE_SIZE);
	}

	pBeaconStruct->Vendor1IEPresent = pBies->Vendor1IE.present;
	pBeaconStruct->Vendor3IEPresent = pBies->Vendor3IE.present;
	pBeaconStruct->vendor_vht_ie.present = pBies->vendor_vht_ie.present;
	if (pBies->vendor_vht_ie.present)
		pBeaconStruct->vendor_vht_ie.sub_type =
						pBies->vendor_vht_ie.sub_type;

	if (pBies->vendor_vht_ie.VHTCaps.present) {
		pBeaconStruct->vendor_vht_ie.VHTCaps.present = 1;
		qdf_mem_copy(&pBeaconStruct->vendor_vht_ie.VHTCaps,
				&pBies->vendor_vht_ie.VHTCaps,
				sizeof(tDot11fIEVHTCaps));
	}
	if (pBies->vendor_vht_ie.VHTOperation.present) {
		pBeaconStruct->vendor_vht_ie.VHTOperation.present = 1;
		qdf_mem_copy(&pBeaconStruct->vendor_vht_ie.VHTOperation,
				&pBies->vendor_vht_ie.VHTOperation,
				sizeof(tDot11fIEVHTOperation));
	}
	if (pBies->ExtCap.present) {
		qdf_mem_copy(&pBeaconStruct->ext_cap, &pBies->ExtCap,
				sizeof(tDot11fIEExtCap));
	}
	/* Update HS 2.0 Information Element */
	if (pBies->hs20vendor_ie.present) {
		pe_debug("HS20 Indication Element Present, rel#:%u, id:%u",
			pBies->hs20vendor_ie.release_num,
			pBies->hs20vendor_ie.hs_id_present);
		qdf_mem_copy(&pBeaconStruct->hs20vendor_ie,
			&pBies->hs20vendor_ie,
			sizeof(tDot11fIEhs20vendor_ie) -
			sizeof(pBies->hs20vendor_ie.hs_id));
		if (pBies->hs20vendor_ie.hs_id_present)
			qdf_mem_copy(&pBeaconStruct->hs20vendor_ie.hs_id,
				&pBies->hs20vendor_ie.hs_id,
				sizeof(pBies->hs20vendor_ie.hs_id));
	}

	if (pBies->MBO_IE.present) {
		pBeaconStruct->MBO_IE_present = true;
		if (pBies->MBO_IE.cellular_data_cap.present)
			pBeaconStruct->MBO_capability =
				pBies->MBO_IE.cellular_data_cap.cellular_connectivity;

		if (pBies->MBO_IE.assoc_disallowed.present) {
			pBeaconStruct->assoc_disallowed = true;
			pBeaconStruct->assoc_disallowed_reason =
				pBies->MBO_IE.assoc_disallowed.reason_code;
		}
	}

	if (pBies->qcn_ie.present)
		qdf_mem_copy(&pBeaconStruct->qcn_ie, &pBies->qcn_ie,
			     sizeof(tDot11fIEqcn_ie));

	if (pBies->he_cap.present) {
		qdf_mem_copy(&pBeaconStruct->he_cap, &pBies->he_cap,
			     sizeof(tDot11fIEhe_cap));
	}
	if (pBies->he_op.present) {
		qdf_mem_copy(&pBeaconStruct->he_op, &pBies->he_op,
			     sizeof(tDot11fIEhe_op));
	}

	if (pBies->eht_cap.present) {
		qdf_mem_copy(&pBeaconStruct->eht_cap, &pBies->eht_cap,
			     sizeof(tDot11fIEeht_cap));
	}
	if (pBies->eht_op.present) {
		qdf_mem_copy(&pBeaconStruct->eht_op, &pBies->eht_op,
			    sizeof(tDot11fIEeht_op));
	}

	update_bss_color_change_from_beacon_ies(pBies, pBeaconStruct);

	qdf_mem_free(pBies);
	return QDF_STATUS_SUCCESS;
} /* End sir_parse_beacon_ie. */

#ifdef WLAN_FEATURE_11AX_BSS_COLOR
static void convert_bcon_bss_color_change_ie(tDot11fBeacon *bcn_frm,
		tpSirProbeRespBeacon bcn_struct)
{
	if (bcn_frm->bss_color_change.present) {
		pe_debug("11AX: HE BSS color change present");
		qdf_mem_copy(&bcn_struct->vendor_he_bss_color_change,
			     &bcn_frm->bss_color_change,
			     sizeof(tDot11fIEbss_color_change));
	}
}
#else
static inline void convert_bcon_bss_color_change_ie(tDot11fBeacon *bcn_frm,
		tpSirProbeRespBeacon bcn_struct)
{}
#endif

#ifdef WLAN_FEATURE_SR
static void sir_convert_beacon_frame2_sr_struct(tDot11fBeacon *bcn_frm,
						tpSirProbeRespBeacon bcn_struct)
{
	if (bcn_frm->spatial_reuse.present)
		qdf_mem_copy(&bcn_struct->srp_ie, &bcn_frm->spatial_reuse,
			     sizeof(tDot11fIEspatial_reuse));
}
#else
static inline void
sir_convert_beacon_frame2_sr_struct(tDot11fBeacon *bcn_frm,
				    tpSirProbeRespBeacon bcn_struct)
{
}
#endif

#ifdef WLAN_FEATURE_11BE_MLO
static QDF_STATUS
sir_convert_beacon_frame2_t2lm_struct(tDot11fBeacon *bcn_frm,
				      tpSirProbeRespBeacon bcn_struct)
{
	QDF_STATUS status = QDF_STATUS_SUCCESS;
	struct wlan_t2lm_context *t2lm_ctx;
	/* add 3 bytes for extn_ie_header */
	uint8_t ie[DOT11F_IE_T2LM_IE_MAX_LEN + 3];
	struct wlan_t2lm_info t2lm;
	uint8_t i;

	t2lm_ctx = &bcn_struct->t2lm_ctx;
	qdf_mem_zero(&t2lm_ctx->established_t2lm.t2lm,
		     sizeof(struct wlan_t2lm_info));
	t2lm_ctx->established_t2lm.t2lm.direction = WLAN_T2LM_INVALID_DIRECTION;

	qdf_mem_zero(&t2lm_ctx->upcoming_t2lm.t2lm,
		     sizeof(struct wlan_t2lm_info));
	t2lm_ctx->upcoming_t2lm.t2lm.direction = WLAN_T2LM_INVALID_DIRECTION;

	if (!bcn_frm->num_t2lm_ie)
		return status;

	pe_debug("Number of T2LM IEs in beacon %d", bcn_frm->num_t2lm_ie);
	for (i = 0; i < bcn_frm->num_t2lm_ie; i++) {
		qdf_mem_zero(&ie[0], DOT11F_IE_T2LM_IE_MAX_LEN + 3);
		qdf_mem_zero(&t2lm, sizeof(struct wlan_t2lm_info));
		ie[ID_POS] = WLAN_ELEMID_EXTN_ELEM;
		ie[TAG_LEN_POS] = bcn_frm->t2lm_ie[i].num_data + 1;
		ie[IDEXT_POS] = WLAN_EXTN_ELEMID_T2LM;
		qdf_mem_copy(&ie[3], &bcn_frm->t2lm_ie[i].data[0],
			     bcn_frm->t2lm_ie[i].num_data);
		qdf_trace_hex_dump(QDF_MODULE_ID_PE, QDF_TRACE_LEVEL_DEBUG,
				   &ie[0], bcn_frm->t2lm_ie[i].num_data + 3);

		if (ie[TAG_LEN_POS] + 2 > DOT11F_IE_T2LM_IE_MAX_LEN + 3) {
			pe_debug("Invalid T2LM IE length");
			return QDF_STATUS_E_PROTO;
		}

		status = wlan_mlo_parse_t2lm_info(&ie[0], &t2lm);
		if (QDF_IS_STATUS_ERROR(status)) {
			pe_debug("Parse T2LM IE fail");
			return status;
		}

		if (!t2lm.mapping_switch_time_present &&
		    t2lm.expected_duration_present) {
			qdf_mem_copy(&t2lm_ctx->established_t2lm.t2lm, &t2lm,
				     sizeof(struct wlan_t2lm_info));
			pe_debug("Parse established T2LM IE success");
		} else if (t2lm.mapping_switch_time_present) {
			qdf_mem_copy(&t2lm_ctx->upcoming_t2lm.t2lm, &t2lm,
				     sizeof(struct wlan_t2lm_info));
			pe_debug("Parse upcoming T2LM IE success");
		}
		pe_debug("Parse T2LM IE success");
	}
	return status;
}
#else
static inline QDF_STATUS
sir_convert_beacon_frame2_t2lm_struct(tDot11fBeacon *bcn_frm,
				      tpSirProbeRespBeacon bcn_struct)
{
	return QDF_STATUS_SUCCESS;
}
#endif

#ifdef WLAN_FEATURE_11BE_MLO
static QDF_STATUS
sir_convert_beacon_frame2_mlo_struct(uint8_t *pframe, uint32_t nframe,
				     tDot11fBeacon *bcn_frm,
				     tpSirProbeRespBeacon bcn_struct)
{
	uint8_t *ml_ie, *sta_prof;
	qdf_size_t ml_ie_total_len;
	uint8_t common_info_len = 0;
	struct mlo_partner_info partner_info;
	QDF_STATUS status = QDF_STATUS_SUCCESS;
	uint8_t bpcc;
	bool bpcc_found;
	bool ext_mld_cap_found = false;
	uint16_t ext_mld_cap = 0;

	if (bcn_frm->mlo_ie.present) {
		status = util_find_mlie(pframe + WLAN_BEACON_IES_OFFSET,
					nframe - WLAN_BEACON_IES_OFFSET,
					&ml_ie, &ml_ie_total_len);
		if (QDF_IS_STATUS_SUCCESS(status)) {
			status = util_get_bvmlie_persta_partner_info(
								ml_ie,
								ml_ie_total_len,
								&partner_info);
			if (QDF_IS_STATUS_ERROR(status))
				return status;
			bcn_struct->mlo_ie.mlo_ie.num_sta_profile =
						partner_info.num_partner_links;
			util_get_mlie_common_info_len(ml_ie, ml_ie_total_len,
						      &common_info_len);
			sta_prof = ml_ie + sizeof(struct wlan_ie_multilink) +
				   common_info_len;

			lim_store_mlo_ie_raw_info(ml_ie, sta_prof,
						  ml_ie_total_len,
						  &bcn_struct->mlo_ie.mlo_ie);

			util_get_bvmlie_ext_mld_cap_op_info(ml_ie,
							    ml_ie_total_len,
							    &ext_mld_cap_found,
							    &ext_mld_cap);
			if (ext_mld_cap_found) {
				bcn_struct->mlo_ie.mlo_ie.ext_mld_capab_and_op_info.rec_max_simultaneous_links =
				QDF_GET_BITS(
				ext_mld_cap,
				WLAN_ML_BV_CINFO_EXTMLDCAPINFO_RECOM_MAX_SIMULT_LINKS_IDX,
				WLAN_ML_BV_CINFO_EXTMLDCAPINFO_RECOM_MAX_SIMULT_LINKS_BITS);
			}
			util_get_bvmlie_bssparamchangecnt(ml_ie,
							  ml_ie_total_len,
							  &bpcc_found, &bpcc);
			bcn_struct->mlo_ie.mlo_ie.bss_param_change_cnt_present =
						bpcc_found;
			bcn_struct->mlo_ie.mlo_ie.bss_param_change_count = bpcc;
			bcn_struct->mlo_ie.mlo_ie_present = true;
		}
	}

	return status;
}
#else
static inline QDF_STATUS
sir_convert_beacon_frame2_mlo_struct(uint8_t *pframe, uint32_t nframe,
				     tDot11fBeacon *bcn_frm,
				     tpSirProbeRespBeacon bcn_struct)
{
	return QDF_STATUS_SUCCESS;
}
#endif

QDF_STATUS
sir_convert_beacon_frame2_struct(struct mac_context *mac,
				 uint8_t *pFrame,
				 tpSirProbeRespBeacon pBeaconStruct)
{
	tDot11fBeacon *pBeacon;
	uint32_t status, nPayload;
	uint8_t *pPayload;
	tpSirMacMgmtHdr pHdr;
	uint32_t freq;

	pPayload = WMA_GET_RX_MPDU_DATA(pFrame);
	nPayload = WMA_GET_RX_PAYLOAD_LEN(pFrame);
	pHdr = WMA_GET_RX_MAC_HEADER(pFrame);
	freq = WMA_GET_RX_FREQ(pFrame);

	/* Zero-init our [out] parameter, */
	qdf_mem_zero((uint8_t *) pBeaconStruct, sizeof(tSirProbeRespBeacon));

	pBeacon = qdf_mem_malloc_atomic(sizeof(tDot11fBeacon));
	if (!pBeacon)
		return QDF_STATUS_E_NOMEM;

	/* get the MAC address out of the BD, */
	qdf_mem_copy(pBeaconStruct->bssid, pHdr->sa, 6);

	/* delegate to the framesc-generated code, */
	status = dot11f_unpack_beacon(mac, pPayload, nPayload, pBeacon, false);
	if (DOT11F_FAILED(status)) {
		pe_err("Failed to parse Beacon IEs (0x%08x, %d bytes):",
			status, nPayload);
		QDF_TRACE_HEX_DUMP(QDF_MODULE_ID_PE, QDF_TRACE_LEVEL_DEBUG,
				   pPayload, nPayload);
		qdf_mem_free(pBeacon);
		return QDF_STATUS_E_FAILURE;
	}

	status = lim_strip_and_decode_eht_op(pPayload + WLAN_BEACON_IES_OFFSET,
					     nPayload - WLAN_BEACON_IES_OFFSET,
					     &pBeacon->eht_op,
					     pBeacon->VHTOperation,
					     pBeacon->he_op,
					     pBeacon->HTInfo);
	if (status != QDF_STATUS_SUCCESS) {
		pe_err("Failed to extract eht op");
		qdf_mem_free(pBeacon);
		return QDF_STATUS_E_FAILURE;
	}

	status = lim_strip_and_decode_eht_cap(pPayload + WLAN_BEACON_IES_OFFSET,
					      nPayload - WLAN_BEACON_IES_OFFSET,
					      &pBeacon->eht_cap,
					      pBeacon->he_cap,
					      freq);
	if (status != QDF_STATUS_SUCCESS) {
		pe_err("Failed to extract eht cap");
		qdf_mem_free(pBeacon);
		return QDF_STATUS_E_FAILURE;
	}

	/* & "transliterate" from a 'tDot11fBeacon' to a 'tSirProbeRespBeacon'... */
	/* Timestamp */
	qdf_mem_copy((uint8_t *) pBeaconStruct->timeStamp,
		     (uint8_t *) &pBeacon->TimeStamp,
		     sizeof(tSirMacTimeStamp));

	/* Beacon Interval */
	pBeaconStruct->beaconInterval = pBeacon->BeaconInterval.interval;

	/* Capabilities */
	pBeaconStruct->capabilityInfo.ess = pBeacon->Capabilities.ess;
	pBeaconStruct->capabilityInfo.ibss = pBeacon->Capabilities.ibss;
	pBeaconStruct->capabilityInfo.cfPollable =
		pBeacon->Capabilities.cfPollable;
	pBeaconStruct->capabilityInfo.cfPollReq =
		pBeacon->Capabilities.cfPollReq;
	pBeaconStruct->capabilityInfo.privacy = pBeacon->Capabilities.privacy;
	pBeaconStruct->capabilityInfo.shortPreamble =
		pBeacon->Capabilities.shortPreamble;
	pBeaconStruct->capabilityInfo.criticalUpdateFlag =
		pBeacon->Capabilities.criticalUpdateFlag;
	pBeaconStruct->capabilityInfo.channelAgility =
		pBeacon->Capabilities.channelAgility;
	pBeaconStruct->capabilityInfo.spectrumMgt =
		pBeacon->Capabilities.spectrumMgt;
	pBeaconStruct->capabilityInfo.qos = pBeacon->Capabilities.qos;
	pBeaconStruct->capabilityInfo.shortSlotTime =
		pBeacon->Capabilities.shortSlotTime;
	pBeaconStruct->capabilityInfo.apsd = pBeacon->Capabilities.apsd;
	pBeaconStruct->capabilityInfo.rrm = pBeacon->Capabilities.rrm;
	pBeaconStruct->capabilityInfo.dsssOfdm = pBeacon->Capabilities.dsssOfdm;
	pBeaconStruct->capabilityInfo.delayedBA =
		pBeacon->Capabilities.delayedBA;
	pBeaconStruct->capabilityInfo.immediateBA =
		pBeacon->Capabilities.immediateBA;

	if (!pBeacon->SSID.present) {
		pe_debug("Mandatory IE SSID not present!");
	} else {
		pBeaconStruct->ssidPresent = 1;
		convert_ssid(mac, &pBeaconStruct->ssId, &pBeacon->SSID);
	}

	if (!pBeacon->SuppRates.present) {
		pe_debug_rl("Mandatory IE Supported Rates not present!");
	} else {
		pBeaconStruct->suppRatesPresent = 1;
		convert_supp_rates(mac, &pBeaconStruct->supportedRates,
				   &pBeacon->SuppRates);
	}

	if (pBeacon->ExtSuppRates.present) {
		pBeaconStruct->extendedRatesPresent = 1;
		convert_ext_supp_rates(mac, &pBeaconStruct->extendedRates,
				       &pBeacon->ExtSuppRates);
	}

	if (pBeacon->CFParams.present) {
		pBeaconStruct->cfPresent = 1;
		convert_cf_params(mac, &pBeaconStruct->cfParamSet,
				  &pBeacon->CFParams);
	}

	if (pBeacon->TIM.present) {
		pBeaconStruct->timPresent = 1;
		convert_tim(mac, &pBeaconStruct->tim, &pBeacon->TIM);
	}

	if (pBeacon->Country.present) {
		pBeaconStruct->countryInfoPresent = 1;
		convert_country(mac, &pBeaconStruct->countryInfoParam,
				&pBeacon->Country);
	}
	/* QOS Capabilities: */
	if (pBeacon->QOSCapsAp.present) {
		pBeaconStruct->qosCapabilityPresent = 1;
		convert_qos_caps(mac, &pBeaconStruct->qosCapability,
				 &pBeacon->QOSCapsAp);
	}

	if (pBeacon->EDCAParamSet.present) {
		pBeaconStruct->edcaPresent = 1;
		convert_edca_param(mac, &pBeaconStruct->edcaParams,
				   &pBeacon->EDCAParamSet);
	}

	if (pBeacon->ChanSwitchAnn.present) {
		pBeaconStruct->channelSwitchPresent = 1;
		qdf_mem_copy(&pBeaconStruct->channelSwitchIE,
			     &pBeacon->ChanSwitchAnn,
			     sizeof(pBeaconStruct->channelSwitchIE));
	}

	if (pBeacon->ext_chan_switch_ann.present) {
		pBeaconStruct->ext_chan_switch_present = 1;
		qdf_mem_copy(&pBeaconStruct->ext_chan_switch,
			     &pBeacon->ext_chan_switch_ann,
			     sizeof(tDot11fIEext_chan_switch_ann));
	}

	if (pBeacon->sec_chan_offset_ele.present) {
		pBeaconStruct->sec_chan_offset_present = 1;
		qdf_mem_copy(&pBeaconStruct->sec_chan_offset,
			     &pBeacon->sec_chan_offset_ele,
			     sizeof(pBeaconStruct->sec_chan_offset));
	}

	if (pBeacon->TPCReport.present) {
		pBeaconStruct->tpcReportPresent = 1;
		qdf_mem_copy(&pBeaconStruct->tpcReport, &pBeacon->TPCReport,
			     sizeof(tDot11fIETPCReport));
	}

	if (pBeacon->PowerConstraints.present) {
		pBeaconStruct->powerConstraintPresent = 1;
		qdf_mem_copy(&pBeaconStruct->localPowerConstraint,
			     &pBeacon->PowerConstraints,
			     sizeof(tDot11fIEPowerConstraints));
	}

	if (pBeacon->Quiet.present) {
		pBeaconStruct->quietIEPresent = 1;
		qdf_mem_copy(&pBeaconStruct->quietIE, &pBeacon->Quiet,
			     sizeof(tDot11fIEQuiet));
	}

	if (pBeacon->HTCaps.present) {
		qdf_mem_copy(&pBeaconStruct->HTCaps, &pBeacon->HTCaps,
			     sizeof(tDot11fIEHTCaps));
	}

	if (pBeacon->HTInfo.present) {
		qdf_mem_copy(&pBeaconStruct->HTInfo, &pBeacon->HTInfo,
			     sizeof(tDot11fIEHTInfo));

	}

	if (pBeacon->he_op.oper_info_6g_present) {
		pBeaconStruct->chan_freq = wlan_reg_chan_band_to_freq(mac->pdev,
						pBeacon->he_op.oper_info_6g.info.primary_ch,
						BIT(REG_BAND_6G));
		pBeaconStruct->ap_power_type =
				pBeacon->he_op.oper_info_6g.info.reg_info;
	} else if (pBeacon->DSParams.present) {
		pBeaconStruct->dsParamsPresent = 1;
		pBeaconStruct->chan_freq =
		    wlan_reg_legacy_chan_to_freq(mac->pdev,
						 pBeacon->DSParams.curr_channel);
	} else if (pBeacon->HTInfo.present) {
		pBeaconStruct->chan_freq =
		    wlan_reg_legacy_chan_to_freq(mac->pdev,
						 pBeacon->HTInfo.primaryChannel);
	} else {
		pBeaconStruct->chan_freq = WMA_GET_RX_FREQ(pFrame);
		pe_debug_rl("In Beacon No Channel info");
	}

	if (pBeacon->RSN.present) {
		pBeaconStruct->rsnPresent = 1;
		convert_rsn(mac, &pBeaconStruct->rsn, &pBeacon->RSN);
	}

	if (pBeacon->WPA.present) {
		pBeaconStruct->wpaPresent = 1;
		convert_wpa(mac, &pBeaconStruct->wpa, &pBeacon->WPA);
	}

	if (pBeacon->WMMParams.present) {
		pBeaconStruct->wmeEdcaPresent = 1;
		convert_wmm_params(mac, &pBeaconStruct->edcaParams,
				   &pBeacon->WMMParams);
	}

	if (pBeacon->WMMInfoAp.present) {
		pBeaconStruct->wmeInfoPresent = 1;
		pe_debug("WMM Info present in Beacon Frame!");
	}

	if (pBeacon->WMMCaps.present) {
		pBeaconStruct->wsmCapablePresent = 1;
	}

	if (pBeacon->ERPInfo.present) {
		pBeaconStruct->erpPresent = 1;
		convert_erp_info(mac, &pBeaconStruct->erpIEInfo,
				 &pBeacon->ERPInfo);
	}
	if (pBeacon->MobilityDomain.present) {
		/* MobilityDomain */
		pBeaconStruct->mdiePresent = 1;
		qdf_mem_copy((uint8_t *) &(pBeaconStruct->mdie[0]),
			     (uint8_t *) &(pBeacon->MobilityDomain.MDID),
			     sizeof(uint16_t));
		pBeaconStruct->mdie[2] =
			((pBeacon->MobilityDomain.overDSCap << 0) | (pBeacon->
								     MobilityDomain.
								     resourceReqCap
								     << 1));
	}

#ifdef FEATURE_WLAN_ESE
	if (pBeacon->ESEVersion.present)
		pBeaconStruct->is_ese_ver_ie_present = 1;
	if (pBeacon->ESETxmitPower.present) {
		/* copy ESE TPC info element */
		pBeaconStruct->eseTxPwr.present = 1;
		qdf_mem_copy(&pBeaconStruct->eseTxPwr,
			     &pBeacon->ESETxmitPower,
			     sizeof(tDot11fIEESETxmitPower));
	}
	if (pBeacon->QBSSLoad.present) {
		qdf_mem_copy(&pBeaconStruct->QBSSLoad,
			     &pBeacon->QBSSLoad, sizeof(tDot11fIEQBSSLoad));
	}
#endif
	if (pBeacon->VHTCaps.present) {
		qdf_mem_copy(&pBeaconStruct->VHTCaps, &pBeacon->VHTCaps,
			     sizeof(tDot11fIEVHTCaps));
	}
	if (pBeacon->VHTOperation.present) {
		qdf_mem_copy(&pBeaconStruct->VHTOperation,
			     &pBeacon->VHTOperation,
			     sizeof(tDot11fIEVHTOperation));
	}
	if (pBeacon->VHTExtBssLoad.present) {
		qdf_mem_copy(&pBeaconStruct->VHTExtBssLoad,
			     &pBeacon->VHTExtBssLoad,
			     sizeof(tDot11fIEVHTExtBssLoad));
	}
	if (pBeacon->OperatingMode.present) {
		qdf_mem_copy(&pBeaconStruct->OperatingMode,
			     &pBeacon->OperatingMode,
			     sizeof(tDot11fIEOperatingMode));
	}
	if (pBeacon->WiderBWChanSwitchAnn.present) {
		pBeaconStruct->WiderBWChanSwitchAnnPresent = 1;
		qdf_mem_copy(&pBeaconStruct->WiderBWChanSwitchAnn,
			     &pBeacon->WiderBWChanSwitchAnn,
			     sizeof(tDot11fIEWiderBWChanSwitchAnn));
	}

	pBeaconStruct->Vendor1IEPresent = pBeacon->Vendor1IE.present;
	pBeaconStruct->Vendor3IEPresent = pBeacon->Vendor3IE.present;

	pBeaconStruct->vendor_vht_ie.present = pBeacon->vendor_vht_ie.present;
	if (pBeacon->vendor_vht_ie.present) {
		pBeaconStruct->vendor_vht_ie.sub_type =
			pBeacon->vendor_vht_ie.sub_type;
	}

	if (pBeacon->vendor_vht_ie.VHTCaps.present) {
		qdf_mem_copy(&pBeaconStruct->vendor_vht_ie.VHTCaps,
				&pBeacon->vendor_vht_ie.VHTCaps,
				sizeof(tDot11fIEVHTCaps));
	}
	if (pBeacon->vendor_vht_ie.VHTOperation.present) {
		qdf_mem_copy(&pBeaconStruct->vendor_vht_ie.VHTOperation,
				&pBeacon->VHTOperation,
				sizeof(tDot11fIEVHTOperation));
	}
	/* Update HS 2.0 Information Element */
	if (pBeacon->hs20vendor_ie.present) {
		qdf_mem_copy(&pBeaconStruct->hs20vendor_ie,
			&pBeacon->hs20vendor_ie,
			sizeof(tDot11fIEhs20vendor_ie) -
			sizeof(pBeacon->hs20vendor_ie.hs_id));
		if (pBeacon->hs20vendor_ie.hs_id_present)
			qdf_mem_copy(&pBeaconStruct->hs20vendor_ie.hs_id,
				&pBeacon->hs20vendor_ie.hs_id,
				sizeof(pBeacon->hs20vendor_ie.hs_id));
	}
#ifdef FEATURE_AP_MCC_CH_AVOIDANCE
	if (pBeacon->QComVendorIE.present) {
		pBeaconStruct->AvoidChannelIE.present =
			pBeacon->QComVendorIE.present;
		pBeaconStruct->AvoidChannelIE.type =
			pBeacon->QComVendorIE.type;
		pBeaconStruct->AvoidChannelIE.channel =
			pBeacon->QComVendorIE.channel;
	}
#endif /* FEATURE_AP_MCC_CH_AVOIDANCE */
	if (pBeacon->OBSSScanParameters.present) {
		qdf_mem_copy(&pBeaconStruct->obss_scanparams,
			&pBeacon->OBSSScanParameters,
			sizeof(struct sDot11fIEOBSSScanParameters));
	}
	if (pBeacon->MBO_IE.present) {
		pBeaconStruct->MBO_IE_present = true;
		if (pBeacon->MBO_IE.cellular_data_cap.present)
			pBeaconStruct->MBO_capability =
				pBeacon->MBO_IE.cellular_data_cap.cellular_connectivity;

		if (pBeacon->MBO_IE.assoc_disallowed.present) {
			pBeaconStruct->assoc_disallowed = true;
			pBeaconStruct->assoc_disallowed_reason =
				pBeacon->MBO_IE.assoc_disallowed.reason_code;
		}
	}

	if (pBeacon->qcn_ie.present)
		qdf_mem_copy(&pBeaconStruct->qcn_ie, &pBeacon->qcn_ie,
			     sizeof(tDot11fIEqcn_ie));

	if (pBeacon->he_cap.present) {
		qdf_mem_copy(&pBeaconStruct->he_cap,
			     &pBeacon->he_cap,
			     sizeof(tDot11fIEhe_cap));
	}
	if (pBeacon->he_op.present) {
		qdf_mem_copy(&pBeaconStruct->he_op,
			     &pBeacon->he_op,
			     sizeof(tDot11fIEhe_op));
	}

	if (pBeacon->eht_cap.present)
		qdf_mem_copy(&pBeaconStruct->eht_cap, &pBeacon->eht_cap,
			     sizeof(tDot11fIEeht_cap));
	if (pBeacon->eht_op.present)
		qdf_mem_copy(&pBeaconStruct->eht_op, &pBeacon->eht_op,
			    sizeof(tDot11fIEeht_op));

	pBeaconStruct->num_transmit_power_env = pBeacon->num_transmit_power_env;
	if (pBeacon->num_transmit_power_env) {
		qdf_mem_copy(pBeaconStruct->transmit_power_env,
			     pBeacon->transmit_power_env,
			     pBeacon->num_transmit_power_env *
			     sizeof(tDot11fIEtransmit_power_env));
	}

	convert_bcon_bss_color_change_ie(pBeacon, pBeaconStruct);
	sir_convert_beacon_frame2_mlo_struct(pPayload, nPayload, pBeacon,
					     pBeaconStruct);
	sir_convert_beacon_frame2_t2lm_struct(pBeacon, pBeaconStruct);
	sir_convert_beacon_frame2_sr_struct(pBeacon, pBeaconStruct);

	qdf_mem_free(pBeacon);
	return QDF_STATUS_SUCCESS;

} /* End sir_convert_beacon_frame2_struct. */

#ifdef WLAN_FEATURE_FILS_SK

/* update_ftie_in_fils_conf() - API to update fils info from auth
 * response packet from AP
 * @auth: auth packet pointer received from AP
 * @auth_frame: data structure needs to be updated
 *
 * Return: None
 */
static void
update_ftie_in_fils_conf(tDot11fAuthentication *auth,
			 tpSirMacAuthFrameBody auth_frame)
{
	/**
	 * Copy the FTIE sent by the AP in the auth request frame.
	 * This is required for FT-FILS connection.
	 * This FTIE will be sent in Assoc request frame without
	 * any modification.
	 */
	if (auth->FTInfo.present) {
		pe_debug("FT-FILS: r0kh_len:%d r1kh_present:%d",
			 auth->FTInfo.R0KH_ID.num_PMK_R0_ID,
			 auth->FTInfo.R1KH_ID.present);

		auth_frame->ft_ie.present = 1;
		if (auth->FTInfo.R1KH_ID.present) {
			qdf_mem_copy(auth_frame->ft_ie.r1kh_id,
				     auth->FTInfo.R1KH_ID.PMK_R1_ID,
				     FT_R1KH_ID_LEN);
		}

		if (auth->FTInfo.R0KH_ID.present) {
			qdf_mem_copy(auth_frame->ft_ie.r0kh_id,
				     auth->FTInfo.R0KH_ID.PMK_R0_ID,
				     auth->FTInfo.R0KH_ID.num_PMK_R0_ID);
			auth_frame->ft_ie.r0kh_id_len =
					auth->FTInfo.R0KH_ID.num_PMK_R0_ID;
		}

		if (auth_frame->ft_ie.gtk_ie.present) {
			pe_debug("FT-FILS: GTK present");
			qdf_mem_copy(&auth_frame->ft_ie.gtk_ie,
				     &auth->FTInfo.GTK,
				     sizeof(struct mac_ft_gtk_ie));
		}

		if (auth_frame->ft_ie.igtk_ie.present) {
			pe_debug("FT-FILS: IGTK present");
			qdf_mem_copy(&auth_frame->ft_ie.igtk_ie,
				     &auth->FTInfo.IGTK,
				     sizeof(struct mac_ft_igtk_ie));
		}

		qdf_mem_copy(auth_frame->ft_ie.anonce, auth->FTInfo.Anonce,
			     FT_NONCE_LEN);
		qdf_mem_copy(auth_frame->ft_ie.snonce, auth->FTInfo.Snonce,
			     FT_NONCE_LEN);

		qdf_mem_copy(auth_frame->ft_ie.mic, auth->FTInfo.MIC,
			     FT_MIC_LEN);
		auth_frame->ft_ie.element_count = auth->FTInfo.IECount;
	}
}

/* sir_update_auth_frame2_struct_fils_conf: API to update fils info from auth
 * packet type 2
 * @auth: auth packet pointer received from AP
 * @auth_frame: data structure needs to be updated
 *
 * Return: None
 */
static void
sir_update_auth_frame2_struct_fils_conf(tDot11fAuthentication *auth,
					tpSirMacAuthFrameBody auth_frame)
{
	if (auth->AuthAlgo.algo != SIR_FILS_SK_WITHOUT_PFS)
		return;

	if (auth->fils_assoc_delay_info.present)
		auth_frame->assoc_delay_info =
			auth->fils_assoc_delay_info.assoc_delay_info;

	if (auth->fils_session.present)
		qdf_mem_copy(auth_frame->session, auth->fils_session.session,
			SIR_FILS_SESSION_LENGTH);

	if (auth->fils_nonce.present)
		qdf_mem_copy(auth_frame->nonce, auth->fils_nonce.nonce,
			SIR_FILS_NONCE_LENGTH);

	if (auth->fils_wrapped_data.present) {
		qdf_mem_copy(auth_frame->wrapped_data,
			auth->fils_wrapped_data.wrapped_data,
			auth->fils_wrapped_data.num_wrapped_data);
		auth_frame->wrapped_data_len =
			auth->fils_wrapped_data.num_wrapped_data;
	}
	if (auth->RSNOpaque.present) {
		qdf_mem_copy(auth_frame->rsn_ie.info, auth->RSNOpaque.data,
			auth->RSNOpaque.num_data);
		auth_frame->rsn_ie.length = auth->RSNOpaque.num_data;
	}

	update_ftie_in_fils_conf(auth, auth_frame);

}
#else
static void sir_update_auth_frame2_struct_fils_conf(tDot11fAuthentication *auth,
				tpSirMacAuthFrameBody auth_frame)
{ }
#endif

QDF_STATUS
sir_convert_auth_frame2_struct(struct mac_context *mac,
			       uint8_t *pFrame,
			       uint32_t nFrame, tpSirMacAuthFrameBody pAuth)
{
	static tDot11fAuthentication auth;
	uint32_t status;

	/* Zero-init our [out] parameter, */
	qdf_mem_zero((uint8_t *) pAuth, sizeof(tSirMacAuthFrameBody));

	/* delegate to the framesc-generated code, */
	status = dot11f_unpack_authentication(mac, pFrame, nFrame,
					      &auth, false);
	if (DOT11F_FAILED(status)) {
		pe_err("Failed to parse an Authentication frame (0x%08x, %d bytes):",
			status, nFrame);
		QDF_TRACE_HEX_DUMP(QDF_MODULE_ID_PE, QDF_TRACE_LEVEL_ERROR,
				   pFrame, nFrame);
		return QDF_STATUS_E_FAILURE;
	} else if (DOT11F_WARNED(status)) {
		pe_debug("There were warnings while unpacking an Authentication frame (0x%08x, %d bytes):",
			status, nFrame);
	}
	/* & "transliterate" from a 'tDot11fAuthentication' to a 'tSirMacAuthFrameBody'... */
	pAuth->authAlgoNumber = auth.AuthAlgo.algo;
	pAuth->authTransactionSeqNumber = auth.AuthSeqNo.no;
	pAuth->authStatusCode = auth.Status.status;

	if (auth.ChallengeText.present) {
		pAuth->type = WLAN_ELEMID_CHALLENGE;
		pAuth->length = auth.ChallengeText.num_text;
		qdf_mem_copy(pAuth->challengeText, auth.ChallengeText.text,
			     auth.ChallengeText.num_text);
	}

	/* Copy MLO IE presence flag to pAuth in case of ML connection */
	pAuth->is_mlo_ie_present = auth.mlo_ie.present;
	/* The minimum length is set to 9 based on below calculation
	 * Multi-Link Control Field => 2 Bytes
	 * Minimum CInfo Field => CInfo Length (1 Byte) + MLD Addr (6 Bytes)
	 * min_len = 2 + 1 + 6
	 * MLD Offset = min_len - (2 + 1)
	 */
	if (pAuth->is_mlo_ie_present && auth.mlo_ie.num_data >= 9) {
		qdf_copy_macaddr(&pAuth->peer_mld,
				 (struct qdf_mac_addr *)(auth.mlo_ie.data + 3));
	}

	sir_update_auth_frame2_struct_fils_conf(&auth, pAuth);

	return QDF_STATUS_SUCCESS;

} /* End sir_convert_auth_frame2_struct. */

QDF_STATUS
sir_convert_addts_rsp2_struct(struct mac_context *mac,
			      uint8_t *pFrame,
			      uint32_t nFrame, tSirAddtsRspInfo *pAddTs)
{
	tDot11fAddTSResponse addts = { {0} };
	tDot11fWMMAddTSResponse wmmaddts = { {0} };
	uint8_t j;
	uint16_t i;
	uint32_t status;

	if (QOS_ADD_TS_RSP != *(pFrame + 1)) {
		pe_err("Action of %d; this is not supported & is probably an error",
			*(pFrame + 1));
		return QDF_STATUS_E_FAILURE;
	}
	/* Zero-init our [out] parameter, */
	qdf_mem_zero((uint8_t *) pAddTs, sizeof(tSirAddtsRspInfo));
	qdf_mem_zero((uint8_t *) &addts, sizeof(tDot11fAddTSResponse));
	qdf_mem_zero((uint8_t *) &wmmaddts, sizeof(tDot11fWMMAddTSResponse));

	/* delegate to the framesc-generated code, */
	switch (*pFrame) {
	case ACTION_CATEGORY_QOS:
		status =
			dot11f_unpack_add_ts_response(mac, pFrame, nFrame,
						      &addts, false);
		break;
	case ACTION_CATEGORY_WMM:
		status =
			dot11f_unpack_wmm_add_ts_response(mac, pFrame, nFrame,
							  &wmmaddts, false);
		break;
	default:
		pe_err("Category of %d; this is not supported & is probably an error",
			*pFrame);
		return QDF_STATUS_E_FAILURE;
	}

	if (DOT11F_FAILED(status)) {
		pe_err("Failed to parse an Add TS Response frame (0x%08x, %d bytes):",
			status, nFrame);
		QDF_TRACE_HEX_DUMP(QDF_MODULE_ID_PE, QDF_TRACE_LEVEL_ERROR,
				   pFrame, nFrame);
		return QDF_STATUS_E_FAILURE;
	} else if (DOT11F_WARNED(status)) {
		pe_debug("There were warnings while unpacking an Add TS Response frame (0x%08x,%d bytes):",
			status, nFrame);
	}
	/* & "transliterate" from a 'tDot11fAddTSResponse' or a */
	/* 'tDot11WMMAddTSResponse' to a 'tSirMacAddtsRspInfo'... */
	if (ACTION_CATEGORY_QOS == *pFrame) {
		pAddTs->dialogToken = addts.DialogToken.token;
		pAddTs->status = (enum wlan_status_code)addts.Status.status;

		if (addts.TSDelay.present) {
			convert_ts_delay(mac, &pAddTs->delay, &addts.TSDelay);
		}
		/* TS Delay is present iff status indicates its presence */
		if (pAddTs->status == STATUS_TS_NOT_CREATED &&
		    !addts.TSDelay.present) {
			pe_warn("Missing TSDelay IE");
		}

		if (addts.TSPEC.present) {
			convert_tspec(mac, &pAddTs->tspec, &addts.TSPEC);
		} else {
			pe_err("Mandatory TSPEC element missing in Add TS Response");
			return QDF_STATUS_E_FAILURE;
		}

		if (addts.num_TCLAS) {
			pAddTs->numTclas = (uint8_t) addts.num_TCLAS;

			for (i = 0U; i < addts.num_TCLAS; ++i) {
				if (QDF_STATUS_SUCCESS !=
				    convert_tclas(mac, &(pAddTs->tclasInfo[i]),
						  &(addts.TCLAS[i]))) {
					pe_err("Failed to convert a TCLAS IE");
					return QDF_STATUS_E_FAILURE;
				}
			}
		}

		if (addts.TCLASSPROC.present) {
			pAddTs->tclasProcPresent = 1;
			pAddTs->tclasProc = addts.TCLASSPROC.processing;
		}
#ifdef FEATURE_WLAN_ESE
		if (addts.ESETrafStrmMet.present) {
			pAddTs->tsmPresent = 1;
			qdf_mem_copy(&pAddTs->tsmIE.tsid,
				     &addts.ESETrafStrmMet.tsid,
				     sizeof(struct ese_tsm_ie));
		}
#endif
		if (addts.Schedule.present) {
			pAddTs->schedulePresent = 1;
			convert_schedule(mac, &pAddTs->schedule,
					 &addts.Schedule);
		}

		if (addts.WMMSchedule.present) {
			pAddTs->schedulePresent = 1;
			convert_wmm_schedule(mac, &pAddTs->schedule,
					     &addts.WMMSchedule);
		}

		if (addts.WMMTSPEC.present) {
			pAddTs->wsmTspecPresent = 1;
			convert_wmmtspec(mac, &pAddTs->tspec, &addts.WMMTSPEC);
		}

		if (addts.num_WMMTCLAS) {
			j = (uint8_t) (pAddTs->numTclas + addts.num_WMMTCLAS);
			if (SIR_MAC_TCLASIE_MAXNUM < j)
				j = SIR_MAC_TCLASIE_MAXNUM;

			for (i = pAddTs->numTclas; i < j; ++i) {
				if (QDF_STATUS_SUCCESS !=
				    convert_wmmtclas(mac,
						     &(pAddTs->tclasInfo[i]),
						     &(addts.WMMTCLAS[i]))) {
					pe_err("Failed to convert a TCLAS IE");
					return QDF_STATUS_E_FAILURE;
				}
			}
		}

		if (addts.WMMTCLASPROC.present) {
			pAddTs->tclasProcPresent = 1;
			pAddTs->tclasProc = addts.WMMTCLASPROC.processing;
		}

		if (1 < pAddTs->numTclas && (!pAddTs->tclasProcPresent)) {
			pe_err("%d TCLAS IE but not TCLASPROC IE",
				pAddTs->numTclas);
			return QDF_STATUS_E_FAILURE;
		}
	} else {
		pAddTs->dialogToken = wmmaddts.DialogToken.token;
		pAddTs->status =
			(enum wlan_status_code)wmmaddts.StatusCode.statusCode;

		if (wmmaddts.WMMTSPEC.present) {
			pAddTs->wmeTspecPresent = 1;
			convert_wmmtspec(mac, &pAddTs->tspec,
					 &wmmaddts.WMMTSPEC);
		} else {
			pe_err("Mandatory WME TSPEC element missing!");
			return QDF_STATUS_E_FAILURE;
		}

#ifdef FEATURE_WLAN_ESE
		if (wmmaddts.ESETrafStrmMet.present) {
			pAddTs->tsmPresent = 1;
			qdf_mem_copy(&pAddTs->tsmIE.tsid,
				     &wmmaddts.ESETrafStrmMet.tsid,
				     sizeof(struct ese_tsm_ie));
		}
#endif

	}

	return QDF_STATUS_SUCCESS;

} /* End sir_convert_addts_rsp2_struct. */

QDF_STATUS
sir_convert_delts_req2_struct(struct mac_context *mac,
			      uint8_t *pFrame,
			      uint32_t nFrame, struct delts_req_info *pDelTs)
{
	tDot11fDelTS delts = { {0} };
	tDot11fWMMDelTS wmmdelts = { {0} };
	uint32_t status;

	if (QOS_DEL_TS_REQ != *(pFrame + 1)) {
		pe_err("sirConvertDeltsRsp2Struct invoked "
			"with an Action of %d; this is not "
			"supported & is probably an error",
			*(pFrame + 1));
		return QDF_STATUS_E_FAILURE;
	}
	/* Zero-init our [out] parameter, */
	qdf_mem_zero(pDelTs, sizeof(*pDelTs));

	/* delegate to the framesc-generated code, */
	switch (*pFrame) {
	case ACTION_CATEGORY_QOS:
		status = dot11f_unpack_del_ts(mac, pFrame, nFrame,
					      &delts, false);
		break;
	case ACTION_CATEGORY_WMM:
		status = dot11f_unpack_wmm_del_ts(mac, pFrame, nFrame,
						  &wmmdelts, false);
		break;
	default:
		pe_err("sirConvertDeltsRsp2Struct invoked "
		       "with a Category of %d; this is not"
		       " supported & is probably an error",
			*pFrame);
		return QDF_STATUS_E_FAILURE;
	}

	if (DOT11F_FAILED(status)) {
		pe_err("Failed to parse an Del TS Request frame (0x%08x, %d bytes):",
			status, nFrame);
		QDF_TRACE_HEX_DUMP(QDF_MODULE_ID_PE, QDF_TRACE_LEVEL_ERROR,
				   pFrame, nFrame);
		return QDF_STATUS_E_FAILURE;
	} else if (DOT11F_WARNED(status)) {
		pe_debug("There were warnings while unpacking an Del TS Request frame (0x%08x,%d bytes):",
			   status, nFrame);
	}
	/* & "transliterate" from a 'tDot11fDelTSResponse' or a */
	/* 'tDot11WMMDelTSResponse' to a 'tSirMacDeltsReqInfo'... */
	if (ACTION_CATEGORY_QOS == *pFrame) {
		pDelTs->tsinfo.traffic.trafficType =
			(uint16_t) delts.TSInfo.traffic_type;
		pDelTs->tsinfo.traffic.tsid = (uint16_t) delts.TSInfo.tsid;
		pDelTs->tsinfo.traffic.direction =
			(uint16_t) delts.TSInfo.direction;
		pDelTs->tsinfo.traffic.accessPolicy =
			(uint16_t) delts.TSInfo.access_policy;
		pDelTs->tsinfo.traffic.aggregation =
			(uint16_t) delts.TSInfo.aggregation;
		pDelTs->tsinfo.traffic.psb = (uint16_t) delts.TSInfo.psb;
		pDelTs->tsinfo.traffic.userPrio =
			(uint16_t) delts.TSInfo.user_priority;
		pDelTs->tsinfo.traffic.ackPolicy =
			(uint16_t) delts.TSInfo.tsinfo_ack_pol;

		pDelTs->tsinfo.schedule.schedule =
			(uint8_t) delts.TSInfo.schedule;
	} else {
		if (wmmdelts.WMMTSPEC.present) {
			pDelTs->wmeTspecPresent = 1;
			convert_wmmtspec(mac, &pDelTs->tspec,
					 &wmmdelts.WMMTSPEC);
		} else {
			pe_err("Mandatory WME TSPEC element missing!");
			return QDF_STATUS_E_FAILURE;
		}
	}

	return QDF_STATUS_SUCCESS;

} /* End sir_convert_delts_req2_struct. */

QDF_STATUS
sir_convert_qos_map_configure_frame2_struct(struct mac_context *mac,
					    uint8_t *pFrame,
					    uint32_t nFrame,
					    struct qos_map_set *pQosMapSet)
{
	tDot11fQosMapConfigure mapConfigure;
	uint32_t status;

	status =
		dot11f_unpack_qos_map_configure(mac, pFrame, nFrame,
						&mapConfigure, false);
	if (DOT11F_FAILED(status) || !mapConfigure.QosMapSet.present) {
		pe_err("Failed to parse Qos Map Configure frame (0x%08x, %d bytes):",
			   status, nFrame);
		QDF_TRACE_HEX_DUMP(QDF_MODULE_ID_PE, QDF_TRACE_LEVEL_ERROR,
				   pFrame, nFrame);
		return QDF_STATUS_E_FAILURE;
	} else if (DOT11F_WARNED(status)) {
		pe_debug("There were warnings while unpacking Qos Map Configure frame (0x%08x, %d bytes):",
			   status, nFrame);
	}
	pQosMapSet->present = mapConfigure.QosMapSet.present;
	convert_qos_mapset_frame(mac, pQosMapSet, &mapConfigure.QosMapSet);
	lim_log_qos_map_set(mac, pQosMapSet);
	return QDF_STATUS_SUCCESS;
}

#ifdef ANI_SUPPORT_11H
QDF_STATUS
sir_convert_tpc_req_frame2_struct(struct mac_context *mac,
				  uint8_t *pFrame,
				  tpSirMacTpcReqActionFrame pTpcReqFrame,
				  uint32_t nFrame)
{
	tDot11fTPCRequest req;
	uint32_t status;

	qdf_mem_zero((uint8_t *) pTpcReqFrame,
			sizeof(tSirMacTpcReqActionFrame));
	status = dot11f_unpack_tpc_request(mac, pFrame, nFrame, &req, false);
	if (DOT11F_FAILED(status)) {
		pe_err("Failed to parse a TPC Request frame (0x%08x, %d bytes):",
			   status, nFrame);
		QDF_TRACE_HEX_DUMP(QDF_MODULE_ID_PE, QDF_TRACE_LEVEL_ERROR,
				   pFrame, nFrame);
		return QDF_STATUS_E_FAILURE;
	} else if (DOT11F_WARNED(status)) {
		pe_debug("There were warnings while unpacking a TPC Request frame (0x%08x, %d bytes):",
			   status, nFrame);
	}
	/* & "transliterate" from a 'tDot11fTPCRequest' to a */
	/* 'tSirMacTpcReqActionFrame'... */
	pTpcReqFrame->actionHeader.category = req.Category.category;
	pTpcReqFrame->actionHeader.actionID = req.Action.action;
	pTpcReqFrame->actionHeader.dialogToken = req.DialogToken.token;
	if (req.TPCRequest.present) {
		pTpcReqFrame->type = DOT11F_EID_TPCREQUEST;
		pTpcReqFrame->length = 0;
	} else {
		pe_warn("!!!Rcv TPC Req of invalid type!");
		return QDF_STATUS_E_FAILURE;
	}
	return QDF_STATUS_SUCCESS;
} /* End sir_convert_tpc_req_frame2_struct. */
QDF_STATUS
sir_convert_meas_req_frame2_struct(struct mac_context *mac,
				   uint8_t *pFrame,
				   tpSirMacMeasReqActionFrame pMeasReqFrame,
				   uint32_t nFrame)
{
	tDot11fMeasurementRequest mr;
	uint32_t status;

	/* Zero-init our [out] parameter, */
	qdf_mem_zero((uint8_t *) pMeasReqFrame,
		    sizeof(tpSirMacMeasReqActionFrame));

	/* delegate to the framesc-generated code, */
	status = dot11f_unpack_measurement_request(mac, pFrame,
						   nFrame, &mr, false);
	if (DOT11F_FAILED(status)) {
		pe_err("Failed to parse a Measurement Request frame (0x%08x, %d bytes):",
			   status, nFrame);
		QDF_TRACE_HEX_DUMP(QDF_MODULE_ID_PE, QDF_TRACE_LEVEL_ERROR,
				   pFrame, nFrame);
		return QDF_STATUS_E_FAILURE;
	} else if (DOT11F_WARNED(status)) {
		pe_debug("There were warnings while unpacking a Measurement Request frame (0x%08x, %d bytes):",
			   status, nFrame);
	}
	/* & "transliterate" from a 'tDot11fMeasurementRequest' to a */
	/* 'tpSirMacMeasReqActionFrame'... */
	pMeasReqFrame->actionHeader.category = mr.Category.category;
	pMeasReqFrame->actionHeader.actionID = mr.Action.action;
	pMeasReqFrame->actionHeader.dialogToken = mr.DialogToken.token;

	if (0 == mr.num_MeasurementRequest) {
		pe_err("Missing mandatory IE in Measurement Request Frame");
		return QDF_STATUS_E_FAILURE;
	} else if (1 < mr.num_MeasurementRequest) {
		pe_warn(
			FL("Warning: dropping extra Measurement Request IEs!"));
	}

	pMeasReqFrame->measReqIE.type = DOT11F_EID_MEASUREMENTREQUEST;
	pMeasReqFrame->measReqIE.length = DOT11F_IE_MEASUREMENTREQUEST_MIN_LEN;
	pMeasReqFrame->measReqIE.measToken =
		mr.MeasurementRequest[0].measurement_token;
	pMeasReqFrame->measReqIE.measReqMode =
		(mr.MeasurementRequest[0].reserved << 3) | (mr.
							    MeasurementRequest[0].
							    enable << 2) | (mr.
									    MeasurementRequest
									    [0].
									    request
									    << 1) |
		(mr.MeasurementRequest[0].report /*<< 0 */);
	pMeasReqFrame->measReqIE.measType =
		mr.MeasurementRequest[0].measurement_type;

	pMeasReqFrame->measReqIE.measReqField.channelNumber =
		mr.MeasurementRequest[0].channel_no;

	qdf_mem_copy(pMeasReqFrame->measReqIE.measReqField.measStartTime,
		     mr.MeasurementRequest[0].meas_start_time, 8);

	pMeasReqFrame->measReqIE.measReqField.measDuration =
		mr.MeasurementRequest[0].meas_duration;

	return QDF_STATUS_SUCCESS;

} /* End sir_convert_meas_req_frame2_struct. */
#endif

void populate_dot11f_tspec(struct mac_tspec_ie *pOld, tDot11fIETSPEC *pDot11f)
{
	pDot11f->traffic_type = pOld->tsinfo.traffic.trafficType;
	pDot11f->tsid = pOld->tsinfo.traffic.tsid;
	pDot11f->direction = pOld->tsinfo.traffic.direction;
	pDot11f->access_policy = pOld->tsinfo.traffic.accessPolicy;
	pDot11f->aggregation = pOld->tsinfo.traffic.aggregation;
	pDot11f->psb = pOld->tsinfo.traffic.psb;
	pDot11f->user_priority = pOld->tsinfo.traffic.userPrio;
	pDot11f->tsinfo_ack_pol = pOld->tsinfo.traffic.ackPolicy;
	pDot11f->schedule = pOld->tsinfo.schedule.schedule;
	/* As defined in IEEE 802.11-2007, section 7.3.2.30
	 * Nominal MSDU size: Bit[0:14]=Size, Bit[15]=Fixed
	 */
	pDot11f->size = (pOld->nomMsduSz & 0x7fff);
	pDot11f->fixed = (pOld->nomMsduSz & 0x8000) ? 1 : 0;
	pDot11f->max_msdu_size = pOld->maxMsduSz;
	pDot11f->min_service_int = pOld->minSvcInterval;
	pDot11f->max_service_int = pOld->maxSvcInterval;
	pDot11f->inactivity_int = pOld->inactInterval;
	pDot11f->suspension_int = pOld->suspendInterval;
	pDot11f->service_start_time = pOld->svcStartTime;
	pDot11f->min_data_rate = pOld->minDataRate;
	pDot11f->mean_data_rate = pOld->meanDataRate;
	pDot11f->peak_data_rate = pOld->peakDataRate;
	pDot11f->burst_size = pOld->maxBurstSz;
	pDot11f->delay_bound = pOld->delayBound;
	pDot11f->min_phy_rate = pOld->minPhyRate;
	pDot11f->surplus_bw_allowance = pOld->surplusBw;
	pDot11f->medium_time = pOld->mediumTime;

	pDot11f->present = 1;

} /* End populate_dot11f_tspec. */

#ifdef WLAN_FEATURE_MSCS
void
populate_dot11f_mscs_dec_element(struct mscs_req_info *mscs_req,
				 tDot11fmscs_request_action_frame *dot11f)
{
	dot11f->descriptor_element.request_type =
			mscs_req->dec.request_type;
	dot11f->descriptor_element.user_priority_control =
			mscs_req->dec.user_priority_control;
	dot11f->descriptor_element.stream_timeout =
			mscs_req->dec.stream_timeout;
	dot11f->descriptor_element.tclas_mask.classifier_type =
			mscs_req->dec.tclas_mask.classifier_type;
	dot11f->descriptor_element.tclas_mask.classifier_mask =
			mscs_req->dec.tclas_mask.classifier_mask;

	dot11f->descriptor_element.present = 1;
	dot11f->descriptor_element.tclas_mask.present = 1;

} /* End populate_dot11f_descriptor_element */
#endif

void populate_dot11f_wmmtspec(struct mac_tspec_ie *pOld,
			      tDot11fIEWMMTSPEC *pDot11f)
{
	pDot11f->traffic_type = pOld->tsinfo.traffic.trafficType;
	pDot11f->tsid = pOld->tsinfo.traffic.tsid;
	pDot11f->direction = pOld->tsinfo.traffic.direction;
	pDot11f->access_policy = pOld->tsinfo.traffic.accessPolicy;
	pDot11f->aggregation = pOld->tsinfo.traffic.aggregation;
	pDot11f->psb = pOld->tsinfo.traffic.psb;
	pDot11f->user_priority = pOld->tsinfo.traffic.userPrio;
	pDot11f->tsinfo_ack_pol = pOld->tsinfo.traffic.ackPolicy;
	pDot11f->burst_size_defn = pOld->tsinfo.traffic.burstSizeDefn;
	/* As defined in IEEE 802.11-2007, section 7.3.2.30
	 * Nominal MSDU size: Bit[0:14]=Size, Bit[15]=Fixed
	 */
	pDot11f->size = (pOld->nomMsduSz & 0x7fff);
	pDot11f->fixed = (pOld->nomMsduSz & 0x8000) ? 1 : 0;
	pDot11f->max_msdu_size = pOld->maxMsduSz;
	pDot11f->min_service_int = pOld->minSvcInterval;
	pDot11f->max_service_int = pOld->maxSvcInterval;
	pDot11f->inactivity_int = pOld->inactInterval;
	pDot11f->suspension_int = pOld->suspendInterval;
	pDot11f->service_start_time = pOld->svcStartTime;
	pDot11f->min_data_rate = pOld->minDataRate;
	pDot11f->mean_data_rate = pOld->meanDataRate;
	pDot11f->peak_data_rate = pOld->peakDataRate;
	pDot11f->burst_size = pOld->maxBurstSz;
	pDot11f->delay_bound = pOld->delayBound;
	pDot11f->min_phy_rate = pOld->minPhyRate;
	pDot11f->surplus_bw_allowance = pOld->surplusBw;
	pDot11f->medium_time = pOld->mediumTime;

	pDot11f->version = 1;
	pDot11f->present = 1;

} /* End populate_dot11f_wmmtspec. */

#if defined(FEATURE_WLAN_ESE)
/* Fill the ESE version currently supported */
void populate_dot11f_ese_version(tDot11fIEESEVersion *pESEVersion)
{
	pESEVersion->present = 1;
	pESEVersion->version = ESE_VERSION_SUPPORTED;
}

/* Fill the ESE ie for the station. */
/* The State is Normal (1) */
/* The MBSSID for station is set to 0. */
void populate_dot11f_ese_rad_mgmt_cap(tDot11fIEESERadMgmtCap *pESERadMgmtCap)
{
	pESERadMgmtCap->present = 1;
	pESERadMgmtCap->mgmt_state = RM_STATE_NORMAL;
	pESERadMgmtCap->mbssid_mask = 0;
	pESERadMgmtCap->reserved = 0;
}

QDF_STATUS
populate_dot11f_ese_cckm_opaque(struct mac_context *mac,
				struct mlme_connect_info *connect_info,
				tDot11fIEESECckmOpaque *pDot11f)
{
	int idx;
	tSirRSNie ie;

	if (connect_info->cckm_ie_len &&
	    connect_info->cckm_ie_len < DOT11F_IE_RSN_MAX_LEN) {
		qdf_mem_copy(ie.rsnIEdata, connect_info->cckm_ie,
			     connect_info->cckm_ie_len);
		ie.length = connect_info->cckm_ie_len;
		idx = find_ie_location(mac, &ie, DOT11F_EID_ESECCKMOPAQUE);
		if (idx >= 0) {
			pDot11f->present = 1;
			/* Dont include OUI */
			pDot11f->num_data = ie.rsnIEdata[idx + 1] - 4;
			qdf_mem_copy(pDot11f->data, ie.rsnIEdata + idx + 2 + 4,  /* EID,len,OUI */
				     ie.rsnIEdata[idx + 1] - 4); /* Skip OUI */
		}
	}
	return QDF_STATUS_SUCCESS;
} /* End populate_dot11f_ese_cckm_opaque. */

void populate_dot11_tsrsie(struct mac_context *mac,
			   struct ese_tsrs_ie *pOld,
			   tDot11fIEESETrafStrmRateSet *pDot11f,
			   uint8_t rate_length)
{
	pDot11f->tsid = pOld->tsid;
	qdf_mem_copy(pDot11f->tsrates, pOld->rates, rate_length);
	pDot11f->num_tsrates = rate_length;
	pDot11f->present = 1;
}
#endif

QDF_STATUS
populate_dot11f_tclas(struct mac_context *mac,
		      tSirTclasInfo *pOld, tDot11fIETCLAS *pDot11f)
{
	pDot11f->user_priority = pOld->tclas.userPrio;
	pDot11f->classifier_type = pOld->tclas.classifierType;
	pDot11f->classifier_mask = pOld->tclas.classifierMask;

	switch (pDot11f->classifier_type) {
	case SIR_MAC_TCLASTYPE_ETHERNET:
		qdf_mem_copy((uint8_t *) &pDot11f->info.EthParams.source,
			     (uint8_t *) &pOld->tclasParams.eth.srcAddr, 6);
		qdf_mem_copy((uint8_t *) &pDot11f->info.EthParams.dest,
			     (uint8_t *) &pOld->tclasParams.eth.dstAddr, 6);
		pDot11f->info.EthParams.type = pOld->tclasParams.eth.type;
		break;
	case SIR_MAC_TCLASTYPE_TCPUDPIP:
		pDot11f->info.IpParams.version = pOld->version;
		if (SIR_MAC_TCLAS_IPV4 == pDot11f->info.IpParams.version) {
			qdf_mem_copy(pDot11f->info.IpParams.params.IpV4Params.
				     source, pOld->tclasParams.ipv4.srcIpAddr,
				     4);
			qdf_mem_copy(pDot11f->info.IpParams.params.IpV4Params.
				     dest, pOld->tclasParams.ipv4.dstIpAddr, 4);
			pDot11f->info.IpParams.params.IpV4Params.src_port =
				pOld->tclasParams.ipv4.srcPort;
			pDot11f->info.IpParams.params.IpV4Params.dest_port =
				pOld->tclasParams.ipv4.dstPort;
			pDot11f->info.IpParams.params.IpV4Params.DSCP =
				pOld->tclasParams.ipv4.dscp;
			pDot11f->info.IpParams.params.IpV4Params.proto =
				pOld->tclasParams.ipv4.protocol;
			pDot11f->info.IpParams.params.IpV4Params.reserved =
				pOld->tclasParams.ipv4.rsvd;
		} else {
			qdf_mem_copy((uint8_t *) &pDot11f->info.IpParams.
				     params.IpV6Params.source,
				     (uint8_t *) pOld->tclasParams.ipv6.
				     srcIpAddr, 16);
			qdf_mem_copy((uint8_t *) &pDot11f->info.IpParams.
				     params.IpV6Params.dest,
				     (uint8_t *) pOld->tclasParams.ipv6.
				     dstIpAddr, 16);
			pDot11f->info.IpParams.params.IpV6Params.src_port =
				pOld->tclasParams.ipv6.srcPort;
			pDot11f->info.IpParams.params.IpV6Params.dest_port =
				pOld->tclasParams.ipv6.dstPort;
			qdf_mem_copy((uint8_t *) &pDot11f->info.IpParams.
				     params.IpV6Params.flow_label,
				     (uint8_t *) pOld->tclasParams.ipv6.
				     flowLabel, 3);
		}
		break;
	case SIR_MAC_TCLASTYPE_8021DQ:
		pDot11f->info.Params8021dq.tag_type =
			pOld->tclasParams.t8021dq.tag;
		break;
	default:
		pe_err("Bad TCLAS type %d", pDot11f->classifier_type);
		return QDF_STATUS_E_FAILURE;
	}

	pDot11f->present = 1;

	return QDF_STATUS_SUCCESS;

} /* End populate_dot11f_tclas. */

QDF_STATUS
populate_dot11f_wmmtclas(struct mac_context *mac,
			 tSirTclasInfo *pOld, tDot11fIEWMMTCLAS *pDot11f)
{
	pDot11f->version = 1;
	pDot11f->user_priority = pOld->tclas.userPrio;
	pDot11f->classifier_type = pOld->tclas.classifierType;
	pDot11f->classifier_mask = pOld->tclas.classifierMask;

	switch (pDot11f->classifier_type) {
	case SIR_MAC_TCLASTYPE_ETHERNET:
		qdf_mem_copy((uint8_t *) &pDot11f->info.EthParams.source,
			     (uint8_t *) &pOld->tclasParams.eth.srcAddr, 6);
		qdf_mem_copy((uint8_t *) &pDot11f->info.EthParams.dest,
			     (uint8_t *) &pOld->tclasParams.eth.dstAddr, 6);
		pDot11f->info.EthParams.type = pOld->tclasParams.eth.type;
		break;
	case SIR_MAC_TCLASTYPE_TCPUDPIP:
		pDot11f->info.IpParams.version = pOld->version;
		if (SIR_MAC_TCLAS_IPV4 == pDot11f->info.IpParams.version) {
			qdf_mem_copy((uint8_t *) &pDot11f->info.IpParams.
				     params.IpV4Params.source,
				     (uint8_t *) pOld->tclasParams.ipv4.
				     srcIpAddr, 4);
			qdf_mem_copy((uint8_t *) &pDot11f->info.IpParams.
				     params.IpV4Params.dest,
				     (uint8_t *) pOld->tclasParams.ipv4.
				     dstIpAddr, 4);
			pDot11f->info.IpParams.params.IpV4Params.src_port =
				pOld->tclasParams.ipv4.srcPort;
			pDot11f->info.IpParams.params.IpV4Params.dest_port =
				pOld->tclasParams.ipv4.dstPort;
			pDot11f->info.IpParams.params.IpV4Params.DSCP =
				pOld->tclasParams.ipv4.dscp;
			pDot11f->info.IpParams.params.IpV4Params.proto =
				pOld->tclasParams.ipv4.protocol;
			pDot11f->info.IpParams.params.IpV4Params.reserved =
				pOld->tclasParams.ipv4.rsvd;
		} else {
			qdf_mem_copy((uint8_t *) &pDot11f->info.IpParams.
				     params.IpV6Params.source,
				     (uint8_t *) pOld->tclasParams.ipv6.
				     srcIpAddr, 16);
			qdf_mem_copy((uint8_t *) &pDot11f->info.IpParams.
				     params.IpV6Params.dest,
				     (uint8_t *) pOld->tclasParams.ipv6.
				     dstIpAddr, 16);
			pDot11f->info.IpParams.params.IpV6Params.src_port =
				pOld->tclasParams.ipv6.srcPort;
			pDot11f->info.IpParams.params.IpV6Params.dest_port =
				pOld->tclasParams.ipv6.dstPort;
			qdf_mem_copy((uint8_t *) &pDot11f->info.IpParams.
				     params.IpV6Params.flow_label,
				     (uint8_t *) pOld->tclasParams.ipv6.
				     flowLabel, 3);
		}
		break;
	case SIR_MAC_TCLASTYPE_8021DQ:
		pDot11f->info.Params8021dq.tag_type =
			pOld->tclasParams.t8021dq.tag;
		break;
	default:
		pe_err("Bad TCLAS type %d in populate_dot11f_tclas",
			pDot11f->classifier_type);
		return QDF_STATUS_E_FAILURE;
	}

	pDot11f->present = 1;

	return QDF_STATUS_SUCCESS;

} /* End populate_dot11f_wmmtclas. */

QDF_STATUS populate_dot11f_wsc(struct mac_context *mac,
			       tDot11fIEWscBeacon *pDot11f)
{

	uint32_t wpsState;

	pDot11f->Version.present = 1;
	pDot11f->Version.major = 0x01;
	pDot11f->Version.minor = 0x00;

	wpsState = mac->mlme_cfg->wps_params.wps_state;

	pDot11f->WPSState.present = 1;
	pDot11f->WPSState.state = (uint8_t) wpsState;

	pDot11f->APSetupLocked.present = 0;

	pDot11f->SelectedRegistrar.present = 0;

	pDot11f->DevicePasswordID.present = 0;

	pDot11f->SelectedRegistrarConfigMethods.present = 0;

	pDot11f->UUID_E.present = 0;

	pDot11f->RFBands.present = 0;

	pDot11f->present = 1;
	return QDF_STATUS_SUCCESS;
}

QDF_STATUS populate_dot11f_wsc_registrar_info(struct mac_context *mac,
					      tDot11fIEWscBeacon *pDot11f)
{
	const struct sLimWscIeInfo *const pWscIeInfo = &(mac->lim.wscIeInfo);

	pDot11f->APSetupLocked.present = 1;
	pDot11f->APSetupLocked.fLocked = pWscIeInfo->apSetupLocked;

	pDot11f->SelectedRegistrar.present = 1;
	pDot11f->SelectedRegistrar.selected = pWscIeInfo->selectedRegistrar;

	pDot11f->DevicePasswordID.present = 1;
	pDot11f->DevicePasswordID.id =
		(uint16_t)mac->mlme_cfg->wps_params.wps_device_password_id;

	pDot11f->SelectedRegistrarConfigMethods.present = 1;
	pDot11f->SelectedRegistrarConfigMethods.methods =
		pWscIeInfo->selectedRegistrarConfigMethods;

	/* UUID_E and RF Bands are applicable only for dual band AP */

	return QDF_STATUS_SUCCESS;
}

QDF_STATUS de_populate_dot11f_wsc_registrar_info(struct mac_context *mac,
						 tDot11fIEWscBeacon *pDot11f)
{
	pDot11f->APSetupLocked.present = 0;
	pDot11f->SelectedRegistrar.present = 0;
	pDot11f->DevicePasswordID.present = 0;
	pDot11f->SelectedRegistrarConfigMethods.present = 0;

	return QDF_STATUS_SUCCESS;
}

QDF_STATUS populate_dot11f_probe_res_wpsi_es(struct mac_context *mac,
					     tDot11fIEWscProbeRes *pDot11f,
					     struct pe_session *pe_session)
{

	tSirWPSProbeRspIE *pSirWPSProbeRspIE;

	pSirWPSProbeRspIE = &pe_session->APWPSIEs.SirWPSProbeRspIE;

	if (pSirWPSProbeRspIE->FieldPresent & SIR_WPS_PROBRSP_VER_PRESENT) {
		pDot11f->present = 1;
		pDot11f->Version.present = 1;
		pDot11f->Version.major =
			(uint8_t) ((pSirWPSProbeRspIE->Version & 0xF0) >> 4);
		pDot11f->Version.minor =
			(uint8_t) (pSirWPSProbeRspIE->Version & 0x0F);
	} else {
		pDot11f->present = 0;
		pDot11f->Version.present = 0;
	}

	if (pSirWPSProbeRspIE->FieldPresent & SIR_WPS_PROBRSP_STATE_PRESENT) {

		pDot11f->WPSState.present = 1;
		pDot11f->WPSState.state = (uint8_t) pSirWPSProbeRspIE->wpsState;
	} else
		pDot11f->WPSState.present = 0;

	if (pSirWPSProbeRspIE->
	    FieldPresent & SIR_WPS_PROBRSP_APSETUPLOCK_PRESENT) {
		pDot11f->APSetupLocked.present = 1;
		pDot11f->APSetupLocked.fLocked =
			pSirWPSProbeRspIE->APSetupLocked;
	} else
		pDot11f->APSetupLocked.present = 0;

	if (pSirWPSProbeRspIE->
	    FieldPresent & SIR_WPS_PROBRSP_SELECTEDREGISTRA_PRESENT) {
		pDot11f->SelectedRegistrar.present = 1;
		pDot11f->SelectedRegistrar.selected =
			pSirWPSProbeRspIE->SelectedRegistra;
	} else
		pDot11f->SelectedRegistrar.present = 0;

	if (pSirWPSProbeRspIE->
	    FieldPresent & SIR_WPS_PROBRSP_DEVICEPASSWORDID_PRESENT) {
		pDot11f->DevicePasswordID.present = 1;
		pDot11f->DevicePasswordID.id =
			pSirWPSProbeRspIE->DevicePasswordID;
	} else
		pDot11f->DevicePasswordID.present = 0;

	if (pSirWPSProbeRspIE->
	    FieldPresent & SIR_WPS_PROBRSP_SELECTEDREGISTRACFGMETHOD_PRESENT) {
		pDot11f->SelectedRegistrarConfigMethods.present = 1;
		pDot11f->SelectedRegistrarConfigMethods.methods =
			pSirWPSProbeRspIE->SelectedRegistraCfgMethod;
	} else
		pDot11f->SelectedRegistrarConfigMethods.present = 0;

	if (pSirWPSProbeRspIE->
	    FieldPresent & SIR_WPS_PROBRSP_RESPONSETYPE_PRESENT) {
		pDot11f->ResponseType.present = 1;
		pDot11f->ResponseType.resType = pSirWPSProbeRspIE->ResponseType;
	} else
		pDot11f->ResponseType.present = 0;

	if (pSirWPSProbeRspIE->FieldPresent & SIR_WPS_PROBRSP_UUIDE_PRESENT) {
		pDot11f->UUID_E.present = 1;
		qdf_mem_copy(pDot11f->UUID_E.uuid, pSirWPSProbeRspIE->UUID_E,
			     WNI_CFG_WPS_UUID_LEN);
	} else
		pDot11f->UUID_E.present = 0;

	if (pSirWPSProbeRspIE->
	    FieldPresent & SIR_WPS_PROBRSP_MANUFACTURE_PRESENT) {
		pDot11f->Manufacturer.present = 1;
		pDot11f->Manufacturer.num_name =
			pSirWPSProbeRspIE->Manufacture.num_name;
		qdf_mem_copy(pDot11f->Manufacturer.name,
			     pSirWPSProbeRspIE->Manufacture.name,
			     pSirWPSProbeRspIE->Manufacture.num_name);
	} else
		pDot11f->Manufacturer.present = 0;

	if (pSirWPSProbeRspIE->
	    FieldPresent & SIR_WPS_PROBRSP_MODELNUMBER_PRESENT) {
		pDot11f->ModelName.present = 1;
		pDot11f->ModelName.num_text =
			pSirWPSProbeRspIE->ModelName.num_text;
		qdf_mem_copy(pDot11f->ModelName.text,
			     pSirWPSProbeRspIE->ModelName.text,
			     pDot11f->ModelName.num_text);
	} else
		pDot11f->ModelName.present = 0;

	if (pSirWPSProbeRspIE->
	    FieldPresent & SIR_WPS_PROBRSP_MODELNUMBER_PRESENT) {
		pDot11f->ModelNumber.present = 1;
		pDot11f->ModelNumber.num_text =
			pSirWPSProbeRspIE->ModelNumber.num_text;
		qdf_mem_copy(pDot11f->ModelNumber.text,
			     pSirWPSProbeRspIE->ModelNumber.text,
			     pDot11f->ModelNumber.num_text);
	} else
		pDot11f->ModelNumber.present = 0;

	if (pSirWPSProbeRspIE->
	    FieldPresent & SIR_WPS_PROBRSP_SERIALNUMBER_PRESENT) {
		pDot11f->SerialNumber.present = 1;
		pDot11f->SerialNumber.num_text =
			pSirWPSProbeRspIE->SerialNumber.num_text;
		qdf_mem_copy(pDot11f->SerialNumber.text,
			     pSirWPSProbeRspIE->SerialNumber.text,
			     pDot11f->SerialNumber.num_text);
	} else
		pDot11f->SerialNumber.present = 0;

	if (pSirWPSProbeRspIE->
	    FieldPresent & SIR_WPS_PROBRSP_PRIMARYDEVICETYPE_PRESENT) {
		pDot11f->PrimaryDeviceType.present = 1;
		qdf_mem_copy(pDot11f->PrimaryDeviceType.oui,
			     pSirWPSProbeRspIE->PrimaryDeviceOUI,
			     sizeof(pSirWPSProbeRspIE->PrimaryDeviceOUI));
		pDot11f->PrimaryDeviceType.primary_category =
			(uint16_t) pSirWPSProbeRspIE->PrimaryDeviceCategory;
		pDot11f->PrimaryDeviceType.sub_category =
			(uint16_t) pSirWPSProbeRspIE->DeviceSubCategory;
	} else
		pDot11f->PrimaryDeviceType.present = 0;

	if (pSirWPSProbeRspIE->
	    FieldPresent & SIR_WPS_PROBRSP_DEVICENAME_PRESENT) {
		pDot11f->DeviceName.present = 1;
		pDot11f->DeviceName.num_text =
			pSirWPSProbeRspIE->DeviceName.num_text;
		qdf_mem_copy(pDot11f->DeviceName.text,
			     pSirWPSProbeRspIE->DeviceName.text,
			     pDot11f->DeviceName.num_text);
	} else
		pDot11f->DeviceName.present = 0;

	if (pSirWPSProbeRspIE->
	    FieldPresent & SIR_WPS_PROBRSP_CONFIGMETHODS_PRESENT) {
		pDot11f->ConfigMethods.present = 1;
		pDot11f->ConfigMethods.methods =
			pSirWPSProbeRspIE->ConfigMethod;
	} else
		pDot11f->ConfigMethods.present = 0;

	if (pSirWPSProbeRspIE->FieldPresent & SIR_WPS_PROBRSP_RF_BANDS_PRESENT) {
		pDot11f->RFBands.present = 1;
		pDot11f->RFBands.bands = pSirWPSProbeRspIE->RFBand;
	} else
		pDot11f->RFBands.present = 0;

	return QDF_STATUS_SUCCESS;
}

QDF_STATUS populate_dot11f_beacon_wpsi_es(struct mac_context *mac,
					  tDot11fIEWscBeacon *pDot11f,
					  struct pe_session *pe_session)
{

	tSirWPSBeaconIE *pSirWPSBeaconIE;

	pSirWPSBeaconIE = &pe_session->APWPSIEs.SirWPSBeaconIE;

	if (pSirWPSBeaconIE->FieldPresent & SIR_WPS_PROBRSP_VER_PRESENT) {
		pDot11f->present = 1;
		pDot11f->Version.present = 1;
		pDot11f->Version.major =
			(uint8_t) ((pSirWPSBeaconIE->Version & 0xF0) >> 4);
		pDot11f->Version.minor =
			(uint8_t) (pSirWPSBeaconIE->Version & 0x0F);
	} else {
		pDot11f->present = 0;
		pDot11f->Version.present = 0;
	}

	if (pSirWPSBeaconIE->FieldPresent & SIR_WPS_BEACON_STATE_PRESENT) {

		pDot11f->WPSState.present = 1;
		pDot11f->WPSState.state = (uint8_t) pSirWPSBeaconIE->wpsState;
	} else
		pDot11f->WPSState.present = 0;

	if (pSirWPSBeaconIE->FieldPresent & SIR_WPS_BEACON_APSETUPLOCK_PRESENT) {
		pDot11f->APSetupLocked.present = 1;
		pDot11f->APSetupLocked.fLocked = pSirWPSBeaconIE->APSetupLocked;
	} else
		pDot11f->APSetupLocked.present = 0;

	if (pSirWPSBeaconIE->
	    FieldPresent & SIR_WPS_BEACON_SELECTEDREGISTRA_PRESENT) {
		pDot11f->SelectedRegistrar.present = 1;
		pDot11f->SelectedRegistrar.selected =
			pSirWPSBeaconIE->SelectedRegistra;
	} else
		pDot11f->SelectedRegistrar.present = 0;

	if (pSirWPSBeaconIE->
	    FieldPresent & SIR_WPS_BEACON_DEVICEPASSWORDID_PRESENT) {
		pDot11f->DevicePasswordID.present = 1;
		pDot11f->DevicePasswordID.id =
			pSirWPSBeaconIE->DevicePasswordID;
	} else
		pDot11f->DevicePasswordID.present = 0;

	if (pSirWPSBeaconIE->
	    FieldPresent & SIR_WPS_BEACON_SELECTEDREGISTRACFGMETHOD_PRESENT) {
		pDot11f->SelectedRegistrarConfigMethods.present = 1;
		pDot11f->SelectedRegistrarConfigMethods.methods =
			pSirWPSBeaconIE->SelectedRegistraCfgMethod;
	} else
		pDot11f->SelectedRegistrarConfigMethods.present = 0;

	if (pSirWPSBeaconIE->FieldPresent & SIR_WPS_BEACON_UUIDE_PRESENT) {
		pDot11f->UUID_E.present = 1;
		qdf_mem_copy(pDot11f->UUID_E.uuid, pSirWPSBeaconIE->UUID_E,
			     WNI_CFG_WPS_UUID_LEN);
	} else
		pDot11f->UUID_E.present = 0;

	if (pSirWPSBeaconIE->FieldPresent & SIR_WPS_BEACON_RF_BANDS_PRESENT) {
		pDot11f->RFBands.present = 1;
		pDot11f->RFBands.bands = pSirWPSBeaconIE->RFBand;
	} else
		pDot11f->RFBands.present = 0;

	return QDF_STATUS_SUCCESS;
}

QDF_STATUS populate_dot11f_wsc_in_probe_res(struct mac_context *mac,
					    tDot11fIEWscProbeRes *pDot11f)
{
	uint32_t cfgStrLen;
	uint32_t val;
	uint32_t wpsVersion, wpsState;

	wpsVersion = mac->mlme_cfg->wps_params.wps_version;

	pDot11f->Version.present = 1;
	pDot11f->Version.major = (uint8_t) ((wpsVersion & 0xF0) >> 4);
	pDot11f->Version.minor = (uint8_t) (wpsVersion & 0x0F);

	wpsState = mac->mlme_cfg->wps_params.wps_state;
	pDot11f->WPSState.present = 1;
	pDot11f->WPSState.state = (uint8_t) wpsState;

	pDot11f->APSetupLocked.present = 0;

	pDot11f->SelectedRegistrar.present = 0;

	pDot11f->DevicePasswordID.present = 0;

	pDot11f->SelectedRegistrarConfigMethods.present = 0;

	pDot11f->ResponseType.present = 1;
	if ((mac->lim.wscIeInfo.reqType == REQ_TYPE_REGISTRAR) ||
	    (mac->lim.wscIeInfo.reqType == REQ_TYPE_WLAN_MANAGER_REGISTRAR)) {
		pDot11f->ResponseType.resType = RESP_TYPE_ENROLLEE_OPEN_8021X;
	} else {
		pDot11f->ResponseType.resType = RESP_TYPE_AP;
	}

	/* UUID is a 16 byte long binary*/
	pDot11f->UUID_E.present = 1;
	*pDot11f->UUID_E.uuid = '\0';

	wlan_mlme_get_wps_uuid(&mac->mlme_cfg->wps_params,
			       pDot11f->UUID_E.uuid);

	pDot11f->Manufacturer.present = 1;
	cfgStrLen = sizeof(pDot11f->Manufacturer.name);
	if (wlan_mlme_get_manufacturer_name(mac->psoc,
					    pDot11f->Manufacturer.name,
					    &cfgStrLen) != QDF_STATUS_SUCCESS) {
		pDot11f->Manufacturer.num_name = 0;
	} else {
		pDot11f->Manufacturer.num_name =
			(uint8_t) (cfgStrLen & 0x000000FF);
	}

	pDot11f->ModelName.present = 1;
	cfgStrLen = sizeof(pDot11f->ModelName.text);
	if (wlan_mlme_get_model_name(mac->psoc,
				     pDot11f->ModelName.text,
				     &cfgStrLen) != QDF_STATUS_SUCCESS) {
		pDot11f->ModelName.num_text = 0;
	} else {
		pDot11f->ModelName.num_text =
			(uint8_t) (cfgStrLen & 0x000000FF);
	}

	pDot11f->ModelNumber.present = 1;
	cfgStrLen = sizeof(pDot11f->ModelNumber.text);
	if (wlan_mlme_get_model_number(mac->psoc,
				       pDot11f->ModelNumber.text,
				       &cfgStrLen) != QDF_STATUS_SUCCESS) {
		pDot11f->ModelNumber.num_text = 0;
	} else {
		pDot11f->ModelNumber.num_text =
			(uint8_t) (cfgStrLen & 0x000000FF);
	}

	pDot11f->SerialNumber.present = 1;
	cfgStrLen = sizeof(pDot11f->SerialNumber.text);
	if (wlan_mlme_get_manufacture_product_version
				(mac->psoc,
				 pDot11f->SerialNumber.text,
				 &cfgStrLen) != QDF_STATUS_SUCCESS) {
		pDot11f->SerialNumber.num_text = 0;
	} else {
		pDot11f->SerialNumber.num_text =
			(uint8_t) (cfgStrLen & 0x000000FF);
	}

	pDot11f->PrimaryDeviceType.present = 1;

	pDot11f->PrimaryDeviceType.primary_category =
	       (uint16_t)mac->mlme_cfg->wps_params.wps_primary_device_category;

		val = mac->mlme_cfg->wps_params.wps_primary_device_oui;
		*(pDot11f->PrimaryDeviceType.oui) =
			(uint8_t) ((val >> 24) & 0xff);
		*(pDot11f->PrimaryDeviceType.oui + 1) =
			(uint8_t) ((val >> 16) & 0xff);
		*(pDot11f->PrimaryDeviceType.oui + 2) =
			(uint8_t) ((val >> 8) & 0xff);
		*(pDot11f->PrimaryDeviceType.oui + 3) =
			(uint8_t) ((val & 0xff));

	pDot11f->PrimaryDeviceType.sub_category =
	       (uint16_t)mac->mlme_cfg->wps_params.wps_device_sub_category;


	pDot11f->DeviceName.present = 1;
	cfgStrLen = sizeof(pDot11f->DeviceName.text);
	if (wlan_mlme_get_manufacture_product_name(mac->psoc,
						   pDot11f->DeviceName.text,
						   &cfgStrLen) !=
						   QDF_STATUS_SUCCESS) {
		pDot11f->DeviceName.num_text = 0;
	} else {
		pDot11f->DeviceName.num_text =
			(uint8_t) (cfgStrLen & 0x000000FF);
	}

		pDot11f->ConfigMethods.present = 1;
		pDot11f->ConfigMethods.methods =
			(uint16_t)(mac->mlme_cfg->wps_params.wps_cfg_method &
				   0x0000FFFF);

	pDot11f->RFBands.present = 0;

	pDot11f->present = 1;
	return QDF_STATUS_SUCCESS;
}

QDF_STATUS
populate_dot11f_wsc_registrar_info_in_probe_res(struct mac_context *mac,
						tDot11fIEWscProbeRes *pDot11f)
{
	const struct sLimWscIeInfo *const pWscIeInfo = &(mac->lim.wscIeInfo);

	pDot11f->APSetupLocked.present = 1;
	pDot11f->APSetupLocked.fLocked = pWscIeInfo->apSetupLocked;

	pDot11f->SelectedRegistrar.present = 1;
	pDot11f->SelectedRegistrar.selected = pWscIeInfo->selectedRegistrar;

	pDot11f->DevicePasswordID.present = 1;
	pDot11f->DevicePasswordID.id =
		(uint16_t)mac->mlme_cfg->wps_params.wps_device_password_id;

	pDot11f->SelectedRegistrarConfigMethods.present = 1;
	pDot11f->SelectedRegistrarConfigMethods.methods =
		pWscIeInfo->selectedRegistrarConfigMethods;

	/* UUID_E and RF Bands are applicable only for dual band AP */

	return QDF_STATUS_SUCCESS;
}

QDF_STATUS
de_populate_dot11f_wsc_registrar_info_in_probe_res(struct mac_context *mac,
						   tDot11fIEWscProbeRes *
								 pDot11f)
{
	pDot11f->APSetupLocked.present = 0;
	pDot11f->SelectedRegistrar.present = 0;
	pDot11f->DevicePasswordID.present = 0;
	pDot11f->SelectedRegistrarConfigMethods.present = 0;

	return QDF_STATUS_SUCCESS;
}

QDF_STATUS populate_dot11_assoc_res_p2p_ie(struct mac_context *mac,
					   tDot11fIEP2PAssocRes *pDot11f,
					   tpSirAssocReq pRcvdAssocReq)
{
	const uint8_t *p2pIe;

	p2pIe = limGetP2pIEPtr(mac, pRcvdAssocReq->addIE.addIEdata,
			       pRcvdAssocReq->addIE.length);
	if (p2pIe) {
		pDot11f->present = 1;
		pDot11f->P2PStatus.present = 1;
		pDot11f->P2PStatus.status = QDF_STATUS_SUCCESS;
		pDot11f->ExtendedListenTiming.present = 0;
	}
	return QDF_STATUS_SUCCESS;
}


QDF_STATUS populate_dot11f_wfatpc(struct mac_context *mac,
				  tDot11fIEWFATPC *pDot11f, uint8_t txPower,
				  uint8_t linkMargin)
{
	pDot11f->txPower = txPower;
	pDot11f->linkMargin = linkMargin;
	pDot11f->present = 1;

	return QDF_STATUS_SUCCESS;
}

void
populate_dot11f_chan_load_report(struct mac_context *mac,
				 tDot11fIEMeasurementReport *dot11f,
				 struct chan_load_report *channel_load_report)
{
	dot11f->report.channel_load_report.op_class =
					channel_load_report->op_class;
	dot11f->report.channel_load_report.channel =
					channel_load_report->channel;
	qdf_mem_copy(dot11f->report.channel_load_report.meas_start_time,
		&channel_load_report->rrm_scan_tsf,
		sizeof(dot11f->report.channel_load_report.meas_start_time));
	dot11f->report.channel_load_report.meas_duration =
				channel_load_report->meas_duration;
	dot11f->report.channel_load_report.chan_load =
				channel_load_report->chan_load;

	if (channel_load_report->wide_bw.is_wide_bw_chan_switch) {
		dot11f->report.channel_load_report.wide_bw_chan_switch.present = 1;
		dot11f->report.channel_load_report.wide_bw_chan_switch.new_chan_width = channel_load_report->wide_bw.channel_width;
		dot11f->report.channel_load_report.wide_bw_chan_switch.new_center_chan_freq0 = channel_load_report->wide_bw.center_chan_freq0;
		dot11f->report.channel_load_report.wide_bw_chan_switch.new_center_chan_freq1 = channel_load_report->wide_bw.center_chan_freq1;
	}

	if (channel_load_report->bw_ind.is_bw_ind_element) {
		dot11f->report.channel_load_report.bw_indication.present = 1;
		dot11f->report.channel_load_report.bw_indication.channel_width = channel_load_report->bw_ind.channel_width;
		dot11f->report.channel_load_report.bw_indication.ccfs0 = channel_load_report->bw_ind.center_freq_seg0;
		dot11f->report.channel_load_report.bw_indication.ccfs1 = channel_load_report->bw_ind.center_freq_seg1;
	}

	pe_debug("regClass %d chan %d meas_time %lu meas_dur %d, chan_load %d",
		 dot11f->report.channel_load_report.op_class,
		 dot11f->report.channel_load_report.channel,
		 channel_load_report->rrm_scan_tsf,
		 dot11f->report.channel_load_report.meas_duration,
		 dot11f->report.channel_load_report.chan_load);
}

static void
populate_dot11f_rrm_counter_stats(tDot11fIEMeasurementReport *pdot11f,
				  struct counter_stats *counter_stats,
				  bool *reporting_reason_present)
{
	tDot11fIEreporting_reason *reporting_reason;

	reporting_reason = &pdot11f->report.sta_stats.reporting_reason;
	pdot11f->report.sta_stats.statsgroupdata.dot11_counter_stats.transmitted_fragment_count =
		counter_stats->transmitted_fragment_count;

	pdot11f->report.sta_stats.statsgroupdata.dot11_counter_stats.group_transmitted_frame_count =
		counter_stats->group_transmitted_frame_count;

	if (counter_stats->failed_count) {
		reporting_reason->failed_count = 1;
		*reporting_reason_present = true;
	}
	pdot11f->report.sta_stats.statsgroupdata.dot11_counter_stats.failed_count =
			counter_stats->failed_count;

	pdot11f->report.sta_stats.statsgroupdata.dot11_counter_stats.received_fragment_count =
		counter_stats->received_fragment_count;

	pdot11f->report.sta_stats.statsgroupdata.dot11_counter_stats.group_received_frame_count =
		counter_stats->group_received_frame_count;

	if (counter_stats->fcs_error_count) {
		reporting_reason->fcs_error = 1;
		*reporting_reason_present = true;
	}
	pdot11f->report.sta_stats.statsgroupdata.dot11_counter_stats.fcs_error_count =
			counter_stats->fcs_error_count;

	pdot11f->report.sta_stats.statsgroupdata.dot11_counter_stats.transmitted_frame_count =
			counter_stats->transmitted_frame_count;
}

static void
populate_dot11f_rrm_mac_stats(tDot11fIEMeasurementReport *pdot11f,
			      struct mac_stats *mac_stats,
			      bool *reporting_reason_present)
{
	tDot11fIEreporting_reason *reporting_reason;

	reporting_reason = &pdot11f->report.sta_stats.reporting_reason;
	if (mac_stats->retry_count) {
		reporting_reason->retry = 1;
		*reporting_reason_present = true;
	}
	pdot11f->report.sta_stats.statsgroupdata.dot11_mac_stats.retry_count =
			mac_stats->retry_count;

	if (mac_stats->multiple_retry_count) {
		reporting_reason->multiple_retry = 1;
		*reporting_reason_present = true;
	}
	pdot11f->report.sta_stats.statsgroupdata.dot11_mac_stats.multiple_retry_count =
			mac_stats->multiple_retry_count;

	if (mac_stats->frame_duplicate_count) {
		reporting_reason->frame_duplicate = 1;
		*reporting_reason_present = true;
	}
	pdot11f->report.sta_stats.statsgroupdata.dot11_mac_stats.frame_duplicate_count =
			mac_stats->frame_duplicate_count;

	pdot11f->report.sta_stats.statsgroupdata.dot11_mac_stats.rts_success_count =
			mac_stats->rts_success_count;

	if (mac_stats->rts_failure_count) {
		reporting_reason->rts_failure = 1;
		*reporting_reason_present = true;
	}
	pdot11f->report.sta_stats.statsgroupdata.dot11_mac_stats.rts_failure_count =
			mac_stats->rts_failure_count;

	if (mac_stats->ack_failure_count) {
		reporting_reason->ack_failure = 1;
		*reporting_reason_present = true;
	}
	pdot11f->report.sta_stats.statsgroupdata.dot11_mac_stats.ack_failure_count =
			mac_stats->ack_failure_count;
}

static void
populate_dot11f_rrm_access_delay_stats(
				tDot11fIEMeasurementReport *pdot11f,
				struct access_delay_stats *access_delay_stats)
{
	pdot11f->report.sta_stats.statsgroupdata.dot11_bss_average_access_delay.ap_average_access_delay =
		access_delay_stats->ap_average_access_delay;

	pdot11f->report.sta_stats.statsgroupdata.dot11_bss_average_access_delay.average_access_delay_besteffort =
		access_delay_stats->average_access_delay_besteffort;

	pdot11f->report.sta_stats.statsgroupdata.dot11_bss_average_access_delay.average_access_delay_background =
		access_delay_stats->average_access_delay_background;

	pdot11f->report.sta_stats.statsgroupdata.dot11_bss_average_access_delay.average_access_delay_video =
		access_delay_stats->average_access_delay_video;

	pdot11f->report.sta_stats.statsgroupdata.dot11_bss_average_access_delay.average_access_delay_voice =
		access_delay_stats->average_access_delay_voice;

	pdot11f->report.sta_stats.statsgroupdata.dot11_bss_average_access_delay.station_count =
		access_delay_stats->station_count;

	pdot11f->report.sta_stats.statsgroupdata.dot11_bss_average_access_delay.channel_utilization =
		access_delay_stats->channel_utilization;
}

QDF_STATUS
populate_dot11f_rrm_sta_stats_report(
		struct mac_context *mac, tDot11fIEMeasurementReport *pdot11f,
		struct statistics_report *statistics_report)
{
	struct counter_stats counter_stats;
	struct mac_stats mac_stats;
	struct access_delay_stats access_delay_stats;
	bool reporting_reason_present = false;

	counter_stats = statistics_report->group_stats.counter_stats;
	mac_stats = statistics_report->group_stats.mac_stats;
	access_delay_stats = statistics_report->group_stats.access_delay_stats;

	pdot11f->report.sta_stats.meas_duration =
					statistics_report->meas_duration;
	pdot11f->report.sta_stats.group_id = statistics_report->group_id;
	pdot11f->report.sta_stats.reporting_reason.present = 0;

	switch (statistics_report->group_id) {
	case STA_STAT_GROUP_ID_COUNTER_STATS:
		populate_dot11f_rrm_counter_stats(pdot11f, &counter_stats,
						  &reporting_reason_present);
		break;
	case STA_STAT_GROUP_ID_MAC_STATS:
		populate_dot11f_rrm_mac_stats(pdot11f, &mac_stats,
					      &reporting_reason_present);
		break;
	case STA_STAT_GROUP_ID_DELAY_STATS:
		populate_dot11f_rrm_access_delay_stats(pdot11f,
						       &access_delay_stats);
		break;
	default:
		pe_err("group id not supported %d",
		       statistics_report->group_id);
		return QDF_STATUS_SUCCESS;
	}
	if (reporting_reason_present)
		pdot11f->report.sta_stats.reporting_reason.present = 1;

	return QDF_STATUS_SUCCESS;
}

QDF_STATUS
populate_dot11f_beacon_report(struct mac_context *mac,
			      tDot11fIEMeasurementReport *pDot11f,
			      tSirMacBeaconReport *pBeaconReport,
			      bool is_last_frame)
{
	tDot11fIEbeacon_report_frm_body_fragment_id *frm_body_frag_id;

	pDot11f->report.Beacon.regClass = pBeaconReport->regClass;
	pDot11f->report.Beacon.channel = pBeaconReport->channel;
	qdf_mem_copy(pDot11f->report.Beacon.meas_start_time,
		     pBeaconReport->measStartTime,
		     sizeof(pDot11f->report.Beacon.meas_start_time));
	pDot11f->report.Beacon.meas_duration = pBeaconReport->measDuration;
	pDot11f->report.Beacon.condensed_PHY = pBeaconReport->phyType;
	pDot11f->report.Beacon.reported_frame_type =
		!pBeaconReport->bcnProbeRsp;
	pDot11f->report.Beacon.RCPI = pBeaconReport->rcpi;
	pDot11f->report.Beacon.RSNI = pBeaconReport->rsni;
	qdf_mem_copy(pDot11f->report.Beacon.BSSID, pBeaconReport->bssid,
		     sizeof(tSirMacAddr));
	pDot11f->report.Beacon.antenna_id = pBeaconReport->antennaId;
	pDot11f->report.Beacon.parent_TSF = pBeaconReport->parentTSF;

	if (pBeaconReport->numIes) {
		pDot11f->report.Beacon.BeaconReportFrmBody.present = 1;
		qdf_mem_copy(pDot11f->report.Beacon.BeaconReportFrmBody.
			     reportedFields, pBeaconReport->Ies,
			     pBeaconReport->numIes);
		pDot11f->report.Beacon.BeaconReportFrmBody.num_reportedFields =
			pBeaconReport->numIes;
	}

	if (pBeaconReport->last_bcn_report_ind_support) {
		pe_debug("Including Last Beacon Report in RRM Frame");
		frm_body_frag_id = &pDot11f->report.Beacon.
			beacon_report_frm_body_fragment_id;

		frm_body_frag_id->present = 1;
		frm_body_frag_id->beacon_report_id =
			pBeaconReport->frame_body_frag_id.id;
		frm_body_frag_id->fragment_id_number =
			pBeaconReport->frame_body_frag_id.frag_id;
		frm_body_frag_id->more_fragments =
			pBeaconReport->frame_body_frag_id.more_frags;

		pDot11f->report.Beacon.last_beacon_report_indication.present =
			1;

		pDot11f->report.Beacon.last_beacon_report_indication.
			last_fragment = is_last_frame;
		pe_debug("id %d frag_id %d more_frags %d is_last_frame %d",
			 frm_body_frag_id->beacon_report_id,
			 frm_body_frag_id->fragment_id_number,
			 frm_body_frag_id->more_fragments,
			 is_last_frame);
	}
	return QDF_STATUS_SUCCESS;

}

QDF_STATUS populate_dot11f_rrm_ie(struct mac_context *mac,
				  tDot11fIERRMEnabledCap *pDot11f,
				  struct pe_session *pe_session)
{
	tpRRMCaps pRrmCaps;
	uint8_t *bytes;

	pRrmCaps = rrm_get_capabilities(mac, pe_session);

	pDot11f->LinkMeasurement = pRrmCaps->LinkMeasurement;
	pDot11f->NeighborRpt = pRrmCaps->NeighborRpt;
	pDot11f->parallel = pRrmCaps->parallel;
	pDot11f->repeated = pRrmCaps->repeated;
	pDot11f->BeaconPassive = pRrmCaps->BeaconPassive;
	pDot11f->BeaconActive = pRrmCaps->BeaconActive;
	pDot11f->BeaconTable = pRrmCaps->BeaconTable;
	pDot11f->BeaconRepCond = pRrmCaps->BeaconRepCond;
	pDot11f->FrameMeasurement = pRrmCaps->FrameMeasurement;
	pDot11f->ChannelLoad = pRrmCaps->ChannelLoad;
	pDot11f->NoiseHistogram = pRrmCaps->NoiseHistogram;
	pDot11f->statistics = pRrmCaps->statistics;
	pDot11f->LCIMeasurement = pRrmCaps->LCIMeasurement;
	pDot11f->LCIAzimuth = pRrmCaps->LCIAzimuth;
	pDot11f->TCMCapability = pRrmCaps->TCMCapability;
	pDot11f->triggeredTCM = pRrmCaps->triggeredTCM;
	pDot11f->APChanReport = pRrmCaps->APChanReport;
	pDot11f->RRMMIBEnabled = pRrmCaps->RRMMIBEnabled;
	pDot11f->operatingChanMax = pRrmCaps->operatingChanMax;
	pDot11f->nonOperatinChanMax = pRrmCaps->nonOperatingChanMax;
	pDot11f->MeasurementPilot = pRrmCaps->MeasurementPilot;
	pDot11f->MeasurementPilotEnabled = pRrmCaps->MeasurementPilotEnabled;
	pDot11f->NeighborTSFOffset = pRrmCaps->NeighborTSFOffset;
	pDot11f->RCPIMeasurement = pRrmCaps->RCPIMeasurement;
	pDot11f->RSNIMeasurement = pRrmCaps->RSNIMeasurement;
	pDot11f->BssAvgAccessDelay = pRrmCaps->BssAvgAccessDelay;
	pDot11f->BSSAvailAdmission = pRrmCaps->BSSAvailAdmission;
	pDot11f->AntennaInformation = pRrmCaps->AntennaInformation;
	pDot11f->fine_time_meas_rpt = pRrmCaps->fine_time_meas_rpt;
	pDot11f->lci_capability = pRrmCaps->lci_capability;
	pDot11f->reserved = pRrmCaps->reserved;

	bytes = (uint8_t *) pDot11f + 1; /* ignore present field */
	pe_debug("RRM Enabled Cap IE: %02x %02x %02x %02x %02x",
			   bytes[0], bytes[1], bytes[2], bytes[3], bytes[4]);

	pDot11f->present = 1;
	return QDF_STATUS_SUCCESS;
}

void populate_mdie(struct mac_context *mac,
		   tDot11fIEMobilityDomain *pDot11f,
		   uint8_t mdie[])
{
	pDot11f->present = 1;
	pDot11f->MDID = (uint16_t) ((mdie[1] << 8) | (mdie[0]));

	/* Plugfest fix */
	pDot11f->overDSCap = (mdie[2] & 0x01);
	pDot11f->resourceReqCap = ((mdie[2] >> 1) & 0x01);

}

#ifdef WLAN_FEATURE_FILS_SK
void populate_fils_ft_info(struct mac_context *mac, tDot11fIEFTInfo *ft_info,
			   struct pe_session *pe_session)
{
	struct pe_fils_session *ft_fils_info = pe_session->fils_info;

	if (!ft_fils_info)
		return;

	if (!ft_fils_info->ft_ie.present) {
		ft_info->present = 0;
		pe_err("FT IE doesn't exist");
		return;
	}

	ft_info->IECount = ft_fils_info->ft_ie.element_count;

	qdf_mem_copy(ft_info->MIC, ft_fils_info->ft_ie.mic,
		     FT_MIC_LEN);

	qdf_mem_copy(ft_info->Anonce, ft_fils_info->ft_ie.anonce,
		     FT_NONCE_LEN);

	qdf_mem_copy(ft_info->Snonce, ft_fils_info->ft_ie.snonce,
		     FT_NONCE_LEN);

	if (ft_fils_info->ft_ie.r0kh_id_len > 0) {
		ft_info->R0KH_ID.present = 1;
		qdf_mem_copy(ft_info->R0KH_ID.PMK_R0_ID,
			     ft_fils_info->ft_ie.r0kh_id,
			     ft_fils_info->ft_ie.r0kh_id_len);
		ft_info->R0KH_ID.num_PMK_R0_ID =
				ft_fils_info->ft_ie.r0kh_id_len;
	}

	ft_info->R1KH_ID.present = 1;
	qdf_mem_copy(ft_info->R1KH_ID.PMK_R1_ID,
		     ft_fils_info->ft_ie.r1kh_id,
		     FT_R1KH_ID_LEN);

	qdf_mem_copy(&ft_info->GTK, &ft_fils_info->ft_ie.gtk_ie,
		     sizeof(struct mac_ft_gtk_ie));
	qdf_mem_copy(&ft_info->IGTK, &ft_fils_info->ft_ie.igtk_ie,
		     sizeof(struct mac_ft_igtk_ie));

	ft_info->present = 1;
}
#endif

void populate_dot11f_assoc_rsp_rates(struct mac_context *mac,
				     tDot11fIESuppRates *pSupp,
				     tDot11fIEExtSuppRates *pExt,
				     uint16_t *_11bRates, uint16_t *_11aRates)
{
	uint8_t num_supp = 0, num_ext = 0;
	uint8_t i, j;

	for (i = 0; (i < SIR_NUM_11B_RATES && _11bRates[i]); i++, num_supp++) {
		pSupp->rates[num_supp] = (uint8_t) _11bRates[i];
	}
	for (j = 0; (j < SIR_NUM_11A_RATES && _11aRates[j]); j++) {
		if (num_supp < 8)
			pSupp->rates[num_supp++] = (uint8_t) _11aRates[j];
		else
			pExt->rates[num_ext++] = (uint8_t) _11aRates[j];
	}

	if (num_supp) {
		pSupp->num_rates = num_supp;
		pSupp->present = 1;
	}
	if (num_ext) {
		pExt->num_rates = num_ext;
		pExt->present = 1;
	}
}

void populate_dot11f_timeout_interval(struct mac_context *mac,
				      tDot11fIETimeoutInterval *pDot11f,
				      uint8_t type, uint32_t value)
{
	pDot11f->present = 1;
	pDot11f->timeoutType = type;
	pDot11f->timeoutValue = value;
}

/**
 * populate_dot11f_timing_advert_frame() - Populate the TA mgmt frame fields
 * @mac_ctx: the MAC context
 * @frame: pointer to the TA frame
 *
 * Return: The SIR status.
 */
QDF_STATUS
populate_dot11f_timing_advert_frame(struct mac_context *mac_ctx,
				    tDot11fTimingAdvertisementFrame *frame)
{
	uint32_t val = 0;

	/* Capabilities */
	val = mac_ctx->mlme_cfg->wep_params.is_privacy_enabled;
	if (val)
		frame->Capabilities.privacy = 1;

	if (mac_ctx->mlme_cfg->ht_caps.short_preamble)
		frame->Capabilities.shortPreamble = 1;

	if (mac_ctx->mlme_cfg->gen.enabled_11h)
		frame->Capabilities.spectrumMgt = 1;

	if (mac_ctx->mlme_cfg->wmm_params.qos_enabled)
		frame->Capabilities.qos = 1;

	if (mac_ctx->mlme_cfg->roam_scoring.apsd_enabled)
		frame->Capabilities.apsd = 1;

	val = mac_ctx->mlme_cfg->feature_flags.enable_block_ack;
	frame->Capabilities.delayedBA =
		(uint16_t)((val >> WNI_CFG_BLOCK_ACK_ENABLED_DELAYED) & 1);
	frame->Capabilities.immediateBA =
		(uint16_t)((val >> WNI_CFG_BLOCK_ACK_ENABLED_IMMEDIATE) & 1);

	/* Country */
	populate_dot11f_country(mac_ctx, &frame->Country, NULL);

	/* PowerConstraints */
	frame->PowerConstraints.localPowerConstraints =
		mac_ctx->mlme_cfg->power.local_power_constraint;

	frame->PowerConstraints.present = 1;

	/* TimeAdvertisement */
	frame->TimeAdvertisement.present = 1;
	frame->TimeAdvertisement.timing_capabilities = 1;

	return QDF_STATUS_SUCCESS;
}

#if defined(WLAN_SUPPORT_TWT) && defined(WLAN_FEATURE_11AX)
#ifdef WLAN_TWT_CONV_SUPPORTED
static bool
twt_get_requestor_flag(struct mac_context *mac)
{
	bool req_flag = false;

	wlan_twt_cfg_get_req_flag(mac->psoc, &req_flag);
	return req_flag;
}

static bool
twt_get_responder_flag(struct mac_context *mac)
{
	bool res_flag = false;

	wlan_twt_cfg_get_res_flag(mac->psoc, &res_flag);
	return res_flag;
}
#else
static bool
twt_get_requestor_flag(struct mac_context *mac)
{
	return mac->mlme_cfg->twt_cfg.req_flag;
}

static bool
twt_get_responder_flag(struct mac_context *mac)
{
	return mac->mlme_cfg->twt_cfg.res_flag;
}
#endif
#endif

#ifdef WLAN_FEATURE_11AX
#ifdef WLAN_SUPPORT_TWT
static void
populate_dot11f_twt_he_cap(struct mac_context *mac,
			   struct pe_session *session,
			   tDot11fIEhe_cap *he_cap)
{
	bool twt_requestor = false;
	bool twt_responder = false;
	bool bcast_requestor = false;
	bool bcast_responder = false;

	wlan_twt_get_bcast_requestor_cfg(mac->psoc, &bcast_requestor);
	bcast_requestor = bcast_requestor &&
			  !mac->mlme_cfg->twt_cfg.disable_btwt_usr_cfg;
	wlan_twt_get_bcast_responder_cfg(mac->psoc, &bcast_responder);
	wlan_twt_get_requestor_cfg(mac->psoc, &twt_requestor);
	wlan_twt_get_responder_cfg(mac->psoc, &twt_responder);

	he_cap->broadcast_twt = 0;
	if (session->opmode == QDF_STA_MODE ||
	    session->opmode == QDF_SAP_MODE) {
		he_cap->twt_request =
			twt_requestor && twt_get_requestor_flag(mac);
		he_cap->twt_responder =
			twt_responder && twt_get_responder_flag(mac);
	}

	if (session->opmode == QDF_STA_MODE) {
		he_cap->broadcast_twt = bcast_requestor;
	} else if (session->opmode == QDF_SAP_MODE) {
		he_cap->broadcast_twt = bcast_responder;
	}
}
#else
static inline void
populate_dot11f_twt_he_cap(struct mac_context *mac_ctx,
			   struct pe_session *session,
			   tDot11fIEhe_cap *he_cap)
{
	he_cap->broadcast_twt = 0;
}
#endif

/**
 * populate_dot11f_he_caps() - pouldate HE Capability IE
 * @mac_ctx: Global MAC context
 * @session: PE session
 * @he_cap: pointer to HE capability IE
 *
 * Populdate the HE capability IE based on the session.
 */
QDF_STATUS populate_dot11f_he_caps(struct mac_context *mac_ctx, struct pe_session *session,
				   tDot11fIEhe_cap *he_cap)
{
	uint8_t *ppet;
	uint32_t value = 0;

	he_cap->present = 1;

	if (!session) {
		qdf_mem_copy(he_cap, &mac_ctx->mlme_cfg->he_caps.dot11_he_cap,
			     sizeof(tDot11fIEhe_cap));
		return QDF_STATUS_SUCCESS;
	}

	/** TODO: String items needs attention. **/
	qdf_mem_copy(he_cap, &session->he_config, sizeof(*he_cap));
	if (he_cap->ppet_present) {
		value = WNI_CFG_HE_PPET_LEN;
		/* if session is present, populate PPET based on band */
		if (!wlan_reg_is_24ghz_ch_freq(session->curr_op_freq))
			qdf_mem_copy(he_cap->ppet.ppe_threshold.ppe_th,
				     mac_ctx->mlme_cfg->he_caps.he_ppet_5g,
				     value);
		else
			qdf_mem_copy(he_cap->ppet.ppe_threshold.ppe_th,
				     mac_ctx->mlme_cfg->he_caps.he_ppet_2g,
				     value);

		ppet = he_cap->ppet.ppe_threshold.ppe_th;
		he_cap->ppet.ppe_threshold.num_ppe_th =
						lim_truncate_ppet(ppet, value);
	} else {
		he_cap->ppet.ppe_threshold.num_ppe_th = 0;
	}
	populate_dot11f_twt_he_cap(mac_ctx, session, he_cap);

	if (wlan_reg_is_5ghz_ch_freq(session->curr_op_freq) ||
	    wlan_reg_is_6ghz_chan_freq(session->curr_op_freq)) {
		if (session->ch_width <= CH_WIDTH_80MHZ) {
			he_cap->chan_width_2 = 0;
			he_cap->chan_width_3 = 0;
		} else if (session->ch_width == CH_WIDTH_160MHZ) {
			he_cap->chan_width_3 = 0;
		}
	}

	return QDF_STATUS_SUCCESS;
}

QDF_STATUS
populate_dot11f_he_caps_by_band(struct mac_context *mac_ctx,
				bool is_2g,
				tDot11fIEhe_cap *he_cap,
				struct pe_session *session)
{
	if (is_2g)
		qdf_mem_copy(he_cap, &mac_ctx->he_cap_2g, sizeof(*he_cap));
	else
		qdf_mem_copy(he_cap, &mac_ctx->he_cap_5g, sizeof(*he_cap));

	if (session)
		populate_dot11f_twt_he_cap(mac_ctx, session, he_cap);

	return QDF_STATUS_SUCCESS;
}

/**
 * populate_dot11f_he_operation() - pouldate HE Operation IE
 * @mac_ctx: Global MAC context
 * @session: PE session
 * @he_op: pointer to HE Operation IE
 *
 * Populdate the HE Operation IE based on the session.
 */
QDF_STATUS
populate_dot11f_he_operation(struct mac_context *mac_ctx,
			     struct pe_session *session, tDot11fIEhe_op *he_op)
{
	enum reg_6g_ap_type ap_pwr_type;
	qdf_mem_copy(he_op, &session->he_op, sizeof(*he_op));

	he_op->present = 1;
	he_op->vht_oper_present = 0;
	if (session->he_6ghz_band) {
		he_op->oper_info_6g_present = 1;
		if (session->bssType != eSIR_INFRA_AP_MODE) {
			he_op->oper_info_6g.info.ch_width = session->ch_width;
			he_op->oper_info_6g.info.center_freq_seg0 =
						session->ch_center_freq_seg0;
			if (session->ch_width == CH_WIDTH_80P80MHZ ||
			    session->ch_width == CH_WIDTH_160MHZ) {
				he_op->oper_info_6g.info.center_freq_seg1 =
					session->ch_center_freq_seg1;
				he_op->oper_info_6g.info.ch_width =
							CH_WIDTH_160MHZ;
			} else {
				he_op->oper_info_6g.info.center_freq_seg1 = 0;
			}
		}
		he_op->oper_info_6g.info.primary_ch =
			wlan_reg_freq_to_chan(mac_ctx->pdev,
					      session->curr_op_freq);
		he_op->oper_info_6g.info.dup_bcon = 0;
		he_op->oper_info_6g.info.min_rate = 0;
		wlan_reg_get_cur_6g_ap_pwr_type(mac_ctx->pdev, &ap_pwr_type);
		he_op->oper_info_6g.info.reg_info = ap_pwr_type;
	}

	return QDF_STATUS_SUCCESS;
}

QDF_STATUS
populate_dot11f_sr_info(struct mac_context *mac_ctx,
			struct pe_session *session,
			tDot11fIEspatial_reuse *sr_info)
{
	uint8_t non_srg_pd_offset;
	uint8_t sr_ctrl = wlan_vdev_mlme_get_sr_ctrl(session->vdev);
	bool sr_enabled = wlan_vdev_mlme_get_he_spr_enabled(session->vdev);

	if (!sr_enabled)
		return QDF_STATUS_SUCCESS;

	sr_info->present = 1;
	sr_info->psr_disallow = 1;
	sr_info->srg_info_present = 0;
	sr_info->non_srg_offset_present = 0;
	sr_info->non_srg_pd_sr_disallow = !!(sr_ctrl &
					   WLAN_HE_NON_SRG_PD_SR_DISALLOWED);

	if ((!sr_info->non_srg_pd_sr_disallow) &&
	    (sr_ctrl & WLAN_HE_NON_SRG_OFFSET_PRESENT)) {
		non_srg_pd_offset =
			wlan_vdev_mlme_get_non_srg_pd_offset(session->vdev);
		sr_info->non_srg_offset_present = 1;
		sr_info->non_srg_offset.info.non_srg_pd_max_offset =
							non_srg_pd_offset;
	}

	if (sr_ctrl & WLAN_HE_SIGA_SR_VAL15_ALLOWED)
		sr_info->sr_value15_allow = 1;

	return QDF_STATUS_SUCCESS;
}

QDF_STATUS
populate_dot11f_he_6ghz_cap(struct mac_context *mac_ctx,
			    struct pe_session *session,
			    tDot11fIEhe_6ghz_band_cap *he_6g_cap)
{
	struct mlme_ht_capabilities_info *ht_cap_info;
	struct mlme_vht_capabilities_info *vht_cap_info;

	if (session && !session->he_6ghz_band)
		return QDF_STATUS_SUCCESS;

	ht_cap_info = &mac_ctx->mlme_cfg->ht_caps.ht_cap_info;
	vht_cap_info = &mac_ctx->mlme_cfg->vht_caps.vht_cap_info;

	he_6g_cap->present = 1;
	he_6g_cap->min_mpdu_start_spacing =
		mac_ctx->mlme_cfg->ht_caps.ampdu_params.mpdu_density;
	if (session)
		he_6g_cap->max_ampdu_len_exp =
			session->vht_config.max_ampdu_lenexp;
	else
		he_6g_cap->max_ampdu_len_exp =
			vht_cap_info->ampdu_len_exponent & 0x7;
	he_6g_cap->max_mpdu_len = vht_cap_info->ampdu_len;
	he_6g_cap->sm_pow_save = ht_cap_info->mimo_power_save;
	he_6g_cap->rd_responder = 0;
	he_6g_cap->rx_ant_pattern_consistency = 0;
	he_6g_cap->tx_ant_pattern_consistency = 0;

	lim_log_he_6g_cap(mac_ctx, he_6g_cap);

	return QDF_STATUS_SUCCESS;
}

#ifdef WLAN_FEATURE_11AX_BSS_COLOR
/**
 * populate_dot11f_he_bss_color_change() - pouldate HE BSS color change IE
 * @mac_ctx: Global MAC context
 * @session: PE session
 * @he_bss_color: pointer to HE BSS color change IE
 *
 * Populdate the HE BSS color change IE based on the session.
 */
QDF_STATUS
populate_dot11f_he_bss_color_change(struct mac_context *mac_ctx,
				    struct pe_session *session,
				    tDot11fIEbss_color_change *he_bss_color)
{
	if (!session->bss_color_changing) {
		he_bss_color->present = 0;
		return QDF_STATUS_SUCCESS;
	}

	he_bss_color->present = 1;
	he_bss_color->countdown = session->he_bss_color_change.countdown;
	he_bss_color->new_color = session->he_bss_color_change.new_color;

	lim_log_he_bss_color(mac_ctx, he_bss_color);

	return QDF_STATUS_SUCCESS;
}
#endif /* WLAN_FEATURE_11AX_BSS_COLOR */
#endif /* WLAN_FEATURE_11AX */

#ifdef WLAN_FEATURE_11BE

/**
 * lim_get_ext_ie_ptr_from_ext_id() - Find out ext ie
 * @ie: source ie address
 * @ie_len: source ie length
 * @oui: oui buffer
 * @oui_size: oui size
 *
 * This API is used to find out ext ie from ext id
 *
 * Return: vendor ie address - success
 *         NULL - failure
 */
static
const uint8_t *lim_get_ext_ie_ptr_from_ext_id(const uint8_t *ie,
					      uint16_t ie_len,
					      const uint8_t *oui,
					      uint8_t oui_size)
{
	return wlan_get_ext_ie_ptr_from_ext_id(oui, oui_size,
					       ie, ie_len);
}

/* EHT Operation */
/* 1 byte ext id, 1 byte eht op params, 4 bytes basic EHT MCS and NSS set*/
#define EHTOP_FIXED_LEN         6

#define EHTOP_PARAMS_INFOP_IDX  0
#define EHTOP_PARAMS_INFOP_BITS 1

#define EHTOP_PARAMS_DISABLEDSUBCHANBITMAPP_IDX    1
#define EHTOP_PARAMS_DISABLEDSUBCHANBITMAPP_BITS   1

#define EHTOP_INFO_CHANWIDTH_IDX                   0
#define EHTOP_INFO_CHANWIDTH_BITS                  3

#define WLAN_MAX_DISABLED_SUB_CHAN_BITMAP          2

#define ehtop_ie_set(eht_op, index, num_bits, val) \
			QDF_SET_BITS((*eht_op), qdf_do_div_rem(index, 8),\
				     (num_bits), (val))
#define ehtop_ie_get(eht_op, index, num_bits) \
			QDF_GET_BITS((eht_op), qdf_do_div_rem(index, 8), \
				     (num_bits))

/* byte 0 */
#define EHTOP_PARAMS_INFOP_GET_FROM_IE(__eht_op_params) \
			ehtop_ie_get(__eht_op_params, \
				     EHTOP_PARAMS_INFOP_IDX, \
				     EHTOP_PARAMS_INFOP_BITS)
#define EHTOP_PARAMS_INFOP_SET_TO_IE(__eht_op_params, __value) \
			ehtop_ie_set(&__eht_op_params, \
				     EHTOP_PARAMS_INFOP_IDX, \
				     EHTOP_PARAMS_INFOP_BITS, __value)

#define EHTOP_PARAMS_DISABLEDSUBCHANBITMAPP_GET_FROM_IE(__eht_op_params) \
			ehtop_ie_get(__eht_op_params, \
				     EHTOP_PARAMS_DISABLEDSUBCHANBITMAPP_IDX, \
				     EHTOP_PARAMS_DISABLEDSUBCHANBITMAPP_BITS)
#define EHTOP_PARAMS_DISABLEDSUBCHANBITMAPP_SET_TO_IE(__eht_op_params, __value) \
			ehtop_ie_set(&__eht_op_params, \
				     EHTOP_PARAMS_DISABLEDSUBCHANBITMAPP_IDX, \
				     EHTOP_PARAMS_DISABLEDSUBCHANBITMAPP_BITS, \
				     __value)

#define EHTOP_PARAMS_EHT_DEF_PE_DURATION_GET_FROM_IE(__eht_op_params) \
			ehtop_ie_get(__eht_op_params, \
				     EHTOP_DEFAULT_PE_DURATION_IDX, \
				     EHTOP_DEFAULT_PE_DURATION_BITS)
#define EHTOP_PARAMS_EHT_DEF_PE_DURATION_SET_TO_IE(__eht_op_params, __value) \
			ehtop_ie_set(&__eht_op_params, \
				     EHTOP_DEFAULT_PE_DURATION_IDX, \
				     EHTOP_DEFAULT_PE_DURATION_BITS, __value)

#define EHTOP_PARAMS_GROUP_ADDR_BU_IND_LIMIT_GET_FROM_IE(__eht_op_params) \
			ehtop_ie_get(__eht_op_params, \
				     EHTOP_GRP_ADDRESSED_BU_IND_LIMIT_IDX, \
				     EHTOP_GRP_ADDRESSED_BU_IND_LIMIT_BITS)
#define EHTOP_PARAMS_GROUP_ADDR_BU_IND_LIMIT_SET_TO_IE(__eht_op_params, __value) \
			ehtop_ie_set(&__eht_op_params, \
				     EHTOP_GRP_ADDRESSED_BU_IND_LIMIT_IDX, \
				     EHTOP_GRP_ADDRESSED_BU_IND_LIMIT_BITS, \
				     __value)

#define EHTOP_PARAMS_GROUP_ADDR_BU_IND_EXPONENT_GET_FROM_IE(__eht_op_params) \
			ehtop_ie_get(__eht_op_params, \
				     EHTOP_GRP_ADDRESSED_BU_IND_EXPONENT_IDX, \
				     EHTOP_GRP_ADDRESSED_BU_IND_EXPONENT_BITS)
#define EHTOP_PARAMS_GROUP_ADDR_BU_IND_EXPONENT_SET_TO_IE(__eht_op_params, __value) \
			ehtop_ie_set(&__eht_op_params, \
				     EHTOP_GRP_ADDRESSED_BU_IND_EXPONENT_IDX, \
				     EHTOP_GRP_ADDRESSED_BU_IND_EXPONENT_BITS, \
				     __value)

#define EHTOP_INFO_CHANWIDTH_GET_FROM_IE(__eht_op_control) \
			ehtop_ie_get(__eht_op_control, \
				     EHTOP_INFO_CHANWIDTH_IDX, \
				     EHTOP_INFO_CHANWIDTH_BITS)
#define EHTOP_INFO_CHANWIDTH_SET_TO_IE(__eht_op_control, __value) \
			ehtop_ie_set(&__eht_op_control, \
				     EHTOP_INFO_CHANWIDTH_IDX, \
				     EHTOP_INFO_CHANWIDTH_BITS, __value)

/* 1 byte ext id, 2 bytes mac cap, 9 bytes phy cap */
#define EHTCAP_FIXED_LEN 12
#define EHTCAP_MACBYTE_IDX0      0
#define EHTCAP_MACBYTE_IDX1      1

#define EHTCAP_PHYBYTE_IDX0      0
#define EHTCAP_PHYBYTE_IDX1      1
#define EHTCAP_PHYBYTE_IDX2      2
#define EHTCAP_PHYBYTE_IDX3      3
#define EHTCAP_PHYBYTE_IDX4      4
#define EHTCAP_PHYBYTE_IDX5      5
#define EHTCAP_PHYBYTE_IDX6      6
#define EHTCAP_PHYBYTE_IDX7      7
#define EHTCAP_PHYBYTE_IDX8      8

#define WLAN_IE_HDR_LEN          2

enum EHT_TXRX_MCS_NSS_IDX {
	EHTCAP_TXRX_MCS_NSS_IDX0,
	EHTCAP_TXRX_MCS_NSS_IDX1,
	EHTCAP_TXRX_MCS_NSS_IDX2,
	EHTCAP_TXRX_MCS_NSS_IDXMAX,
};

enum EHT_PER_BW_TXRX_MCS_NSS_MAP_IDX {
	EHTCAP_TXRX_MCS_NSS_IDX_ONLY20,
	EHTCAP_TXRX_MCS_NSS_IDX_80,
	EHTCAP_TXRX_MCS_NSS_IDX_160,
	EHTCAP_TXRX_MCS_NSS_IDX_320,
	EHTCAP_TXRX_MCS_NSS_IDX_MAX,
};

#define EHT_MCS_MAP_RX_MCS_0_9_IDX 0
#define EHT_MCS_MAP_RX_MCS_0_9_BITS 4
#define EHT_MCS_MAP_TX_MCS_0_9_IDX 4
#define EHT_MCS_MAP_TX_MCS_0_9_BITS 4
#define EHT_MCS_MAP_RX_MCS_10_11_IDX 8
#define EHT_MCS_MAP_RX_MCS_10_11_BITS 4
#define EHT_MCS_MAP_TX_MCS_10_11_IDX 12
#define EHT_MCS_MAP_TX_MCS_10_11_BITS 4
#define EHT_MCS_MAP_RX_MCS_12_13_IDX 16
#define EHT_MCS_MAP_RX_MCS_12_13_BITS 4
#define EHT_MCS_MAP_TX_MCS_12_13_IDX 20
#define EHT_MCS_MAP_TX_MCS_12_13_BITS 4

#define EHT_MCS_MAP_20_ONLY_RX_MCS_0_7_IDX 0
#define EHT_MCS_MAP_20_ONLY_RX_MCS_0_7_BITS 4
#define EHT_MCS_MAP_20_ONLY_TX_MCS_0_7_IDX 4
#define EHT_MCS_MAP_20_ONLY_TX_MCS_0_7_BITS 4
#define EHT_MCS_MAP_20_ONLY_RX_MCS_8_9_IDX 8
#define EHT_MCS_MAP_20_ONLY_RX_MCS_8_9_BITS 4
#define EHT_MCS_MAP_20_ONLY_TX_MCS_8_9_IDX 12
#define EHT_MCS_MAP_20_ONLY_TX_MCS_8_9_BITS 4
#define EHT_MCS_MAP_20_ONLY_RX_MCS_10_11_IDX 16
#define EHT_MCS_MAP_20_ONLY_RX_MCS_10_11_BITS 4
#define EHT_MCS_MAP_20_ONLY_TX_MCS_10_11_IDX 20
#define EHT_MCS_MAP_20_ONLY_TX_MCS_10_11_BITS 4
#define EHT_MCS_MAP_20_ONLY_RX_MCS_12_13_IDX 24
#define EHT_MCS_MAP_20_ONLY_RX_MCS_12_13_BITS 4
#define EHT_MCS_MAP_20_ONLY_TX_MCS_12_13_IDX 28
#define EHT_MCS_MAP_20_ONLY_TX_MCS_12_13_BITS 4

#define EHT_TXMCS_MAP_MCS_0_7_IDX 0
#define EHT_TXMCS_MAP_MCS_0_7_BITS 4
#define EHT_TXMCS_MAP_MCS_8_9_IDX 4
#define EHT_TXMCS_MAP_MCS_8_9_BITS 4
#define EHT_TXMCS_MAP_MCS_10_11_IDX 8
#define EHT_TXMCS_MAP_MCS_10_11_BITS 4
#define EHT_TXMCS_MAP_MCS_12_13_IDX 12
#define EHT_TXMCS_MAP_MCS_12_13_BITS 4

#define EHT_RXMCS_MAP_MCS_0_7_IDX 0
#define EHT_RXMCS_MAP_MCS_0_7_BITS 4
#define EHT_RXMCS_MAP_MCS_8_9_IDX 4
#define EHT_RXMCS_MAP_MCS_8_9_BITS 4
#define EHT_RXMCS_MAP_MCS_10_11_IDX 8
#define EHT_RXMCS_MAP_MCS_10_11_BITS 4
#define EHT_RXMCS_MAP_MCS_12_13_IDX 12
#define EHT_RXMCS_MAP_MCS_12_13_BITS 4

#define EHT_MCS_MAP_LEN 3
#define EHT_MCS_MAP_BW20_ONLY_LEN 4

#define ehtcap_ie_set(eht_cap, index, num_bits, val) \
			QDF_SET_BITS((*eht_cap), qdf_do_div_rem(index, 8),\
				     (num_bits), (val))
#define ehtcap_ie_get(eht_cap, index, num_bits) \
			QDF_GET_BITS((eht_cap), qdf_do_div_rem(index, 8), \
				     (num_bits))

/* byte 0 */
#define EHTCAP_MAC_EPCSPRIACCESS_GET_FROM_IE(__eht_cap_mac) \
			ehtcap_ie_get(__eht_cap_mac[EHTCAP_MACBYTE_IDX0], \
				      EHTCAP_MAC_EPCSPRIACCESS_IDX, \
				      EHTCAP_MAC_EPCSPRIACCESS_BITS)
#define EHTCAP_MAC_EPCSPRIACCESS_SET_TO_IE(__eht_cap_mac, __value) \
			ehtcap_ie_set(&__eht_cap_mac[EHTCAP_MACBYTE_IDX0], \
				      EHTCAP_MAC_EPCSPRIACCESS_IDX, \
				      EHTCAP_MAC_EPCSPRIACCESS_BITS, __value)

#define EHTCAP_MAC_EHTOMCTRL_GET_FROM_IE(__eht_cap_mac) \
			ehtcap_ie_get(__eht_cap_mac[EHTCAP_MACBYTE_IDX0], \
				      EHTCAP_MAC_EHTOMCTRL_IDX, \
				      EHTCAP_MAC_EHTOMCTRL_BITS)
#define EHTCAP_MAC_EHTOMCTRL_SET_TO_IE(__eht_cap_mac, value) \
			ehtcap_ie_set(&__eht_cap_mac[EHTCAP_MACBYTE_IDX0], \
				      EHTCAP_MAC_EHTOMCTRL_IDX, \
				      EHTCAP_MAC_EHTOMCTRL_BITS, value)

#define EHTCAP_MAC_TRIGTXOP_MODE1_GET_FROM_IE(__eht_cap_mac) \
			ehtcap_ie_get(__eht_cap_mac[EHTCAP_MACBYTE_IDX0], \
				      EHTCAP_MAC_TRIGGERED_TXOP_MODE1_IDX, \
				      EHTCAP_MAC_TRIGGERED_TXOP_MODE1_BITS)
#define EHTCAP_MAC_TRIGTXOP_MODE1_SET_TO_IE(__eht_cap_mac, value) \
			ehtcap_ie_set(&__eht_cap_mac[EHTCAP_MACBYTE_IDX0], \
				      EHTCAP_MAC_TRIGGERED_TXOP_MODE1_IDX, \
				      EHTCAP_MAC_TRIGGERED_TXOP_MODE1_BITS, \
				      value)

#define EHTCAP_MAC_TRIGTXOP_MODE2_GET_FROM_IE(__eht_cap_mac) \
			ehtcap_ie_get(__eht_cap_mac[EHTCAP_MACBYTE_IDX0], \
				      EHTCAP_MAC_TRIGGERED_TXOP_MODE2_IDX, \
				      EHTCAP_MAC_TRIGGERED_TXOP_MODE2_BITS)
#define EHTCAP_MAC_TRIGTXOP_MODE2_SET_TO_IE(__eht_cap_mac, value) \
			ehtcap_ie_set(&__eht_cap_mac[EHTCAP_MACBYTE_IDX0], \
				      EHTCAP_MAC_TRIGGERED_TXOP_MODE2_IDX, \
				      EHTCAP_MAC_TRIGGERED_TXOP_MODE2_BITS, \
				      value)

#define EHTCAP_MAC_RESTRICTED_TWT_GET_FROM_IE(__eht_cap_mac) \
			ehtcap_ie_get(__eht_cap_mac[EHTCAP_MACBYTE_IDX0], \
				      EHTCAP_MAC_RESTRICTED_TWT_IDX, \
				      EHTCAP_MAC_RESTRICTED_TWT_BITS)
#define EHTCAP_MAC_RESTRICTED_TWT_SET_TO_IE(__eht_cap_mac, value) \
			ehtcap_ie_set(&__eht_cap_mac[EHTCAP_MACBYTE_IDX0], \
				      EHTCAP_MAC_RESTRICTED_TWT_IDX, \
				      EHTCAP_MAC_RESTRICTED_TWT_BITS, value)

#define EHTCAP_MAC_SCS_TRAFFIC_DESC_GET_FROM_IE(__eht_cap_mac) \
			ehtcap_ie_get(__eht_cap_mac[EHTCAP_MACBYTE_IDX0], \
				      EHTCAP_MAC_SCS_TRAFFIC_DESC_IDX, \
				      EHTCAP_MAC_SCS_TRAFFIC_DESC_BITS)
#define EHTCAP_MAC_SCS_TRAFFIC_DESC_SET_TO_IE(__eht_cap_mac, value) \
			ehtcap_ie_set(&__eht_cap_mac[EHTCAP_MACBYTE_IDX0], \
				      EHTCAP_MAC_SCS_TRAFFIC_DESC_IDX, \
				      EHTCAP_MAC_SCS_TRAFFIC_DESC_BITS, value)

#define EHTCAP_MAC_MAX_MPDU_LEN_GET_FROM_IE(__eht_cap_mac) \
			ehtcap_ie_get(__eht_cap_mac[EHTCAP_MACBYTE_IDX0], \
				      EHTCAP_MAC_MAX_MPDU_LEN_IDX, \
				      EHTCAP_MAC_MAX_MPDU_LEN_BITS)
#define EHTCAP_MAC_MAX_MPDU_LEN_SET_TO_IE(__eht_cap_mac, value) \
			ehtcap_ie_set(&__eht_cap_mac[EHTCAP_MACBYTE_IDX0], \
				      EHTCAP_MAC_MAX_MPDU_LEN_IDX, \
				      EHTCAP_MAC_MAX_MPDU_LEN_BITS, value)

#define EHTCAP_MAC_MAX_A_MPDU_LEN_EXPONENT_EXT_GET_FROM_IE(__eht_cap_mac) \
			ehtcap_ie_get(__eht_cap_mac[EHTCAP_MACBYTE_IDX1], \
				      EHTCAP_MAC_MAX_A_MPDU_LEN_IDX, \
				      EHTCAP_MAC_MAX_A_MPDU_LEN_BITS)
#define EHTCAP_MAC_MAX_A_MPDU_LEN_EXPONENT_EXT_SET_TO_IE(__eht_cap_mac, value) \
			ehtcap_ie_set(&__eht_cap_mac[EHTCAP_MACBYTE_IDX1], \
				      EHTCAP_MAC_MAX_A_MPDU_LEN_IDX, \
				      EHTCAP_MAC_MAX_A_MPDU_LEN_BITS, value)

#define EHTCAP_MAC_EHT_TRS_SUPPORT_GET_FROM_IE(__eht_cap_mac) \
			ehtcap_ie_get(__eht_cap_mac[EHTCAP_MACBYTE_IDX1], \
				      EHTCAP_MAC_TRS_SUPPORT_IDX, \
				      EHTCAP_MAC_TRS_SUPPORT_BITS)
#define EHTCAP_MAC_EHT_TRS_SUPPORT_SET_TO_IE(__eht_cap_mac, value) \
			ehtcap_ie_set(&__eht_cap_mac[EHTCAP_MACBYTE_IDX1], \
				      EHTCAP_MAC_TRS_SUPPORT_IDX, \
				      EHTCAP_MAC_TRS_SUPPORT_BITS, value)

#define EHTCAP_MAC_TXOP_RETURN_SUPPORT_SHARE_M2_GET_FROM_IE(__eht_cap_mac) \
			ehtcap_ie_get(__eht_cap_mac[EHTCAP_MACBYTE_IDX1], \
				      EHTCAP_MAC_TXOP_RET_SUPPP_IN_SHARING_MODE2_IDX, \
				      EHTCAP_MAC_TXOP_RET_SUPPP_IN_SHARING_MODE2_BITS)
#define EHTCAP_MAC_TXOP_RETURN_SUPPORT_SHARE_M2_SET_FROM_IE(__eht_cap_mac, value) \
			ehtcap_ie_set(&__eht_cap_mac[EHTCAP_MACBYTE_IDX1], \
				      EHTCAP_MAC_TXOP_RET_SUPPP_IN_SHARING_MODE2_IDX, \
				      EHTCAP_MAC_TXOP_RET_SUPPP_IN_SHARING_MODE2_BITS, \
				      value)

#define EHTCAP_MAC_TWO_BQRS_SUPP_GET_FROM_IE(__eht_cap_mac) \
			ehtcap_ie_get(__eht_cap_mac[EHTCAP_MACBYTE_IDX1], \
				      EHTCAP_MAC_TWO_BQRS_SUPP_IDX, \
				      EHTCAP_MAC_TWO_BQRS_SUPP_BITS)
#define EHTCAP_MAC_TWO_BQRS_SUPP_SET_FROM_IE(__eht_cap_mac, value) \
			ehtcap_ie_set(&__eht_cap_mac[EHTCAP_MACBYTE_IDX1], \
				      EHTCAP_MAC_TWO_BQRS_SUPP_IDX, \
				      EHTCAP_MAC_TWO_BQRS_SUPP_BITS, \
				      value)

#define EHTCAP_MAC_EHT_LINK_ADAPTATION_SUPP_GET_FROM_IE(__eht_cap_mac) \
			ehtcap_ie_get(__eht_cap_mac[EHTCAP_MACBYTE_IDX1], \
				      EHTCAP_MAC_EHT_LINK_ADAPTATION_SUPP_IDX, \
				      EHTCAP_MAC_EHT_LINK_ADAPTATION_SUPP_BITS)
#define EHTCAP_MAC_EHT_LINK_ADAPTATION_SUPP_SET_FROM_IE(__eht_cap_mac, value) \
			ehtcap_ie_set(&__eht_cap_mac[EHTCAP_MACBYTE_IDX1], \
				      EHTCAP_MAC_EHT_LINK_ADAPTATION_SUPP_IDX, \
				      EHTCAP_MAC_EHT_LINK_ADAPTATION_SUPP_BITS, \
				      value)

/* byte 0 */
#define EHTCAP_PHY_320MHZIN6GHZ_GET_FROM_IE(__eht_cap_phy) \
			ehtcap_ie_get(__eht_cap_phy[EHTCAP_PHYBYTE_IDX0], \
				      EHTCAP_PHY_320MHZIN6GHZ_IDX, \
				      EHTCAP_PHY_320MHZIN6GHZ_BITS)
#define EHTCAP_PHY_320MHZIN6GHZ_SET_TO_IE(__eht_cap_phy, value) \
			ehtcap_ie_set(&__eht_cap_phy[EHTCAP_PHYBYTE_IDX0], \
				      EHTCAP_PHY_320MHZIN6GHZ_IDX, \
				      EHTCAP_PHY_320MHZIN6GHZ_BITS, value)

#define EHTCAP_PHY_242TONERUBWGT20MHZ_GET_FROM_IE(__eht_cap_phy) \
			ehtcap_ie_get(__eht_cap_phy[EHTCAP_PHYBYTE_IDX0], \
				      EHTCAP_PHY_242TONERUBWLT20MHZ_IDX, \
				      EHTCAP_PHY_242TONERUBWLT20MHZ_BITS)
#define EHTCAP_PHY_242TONERUBWGT20MHZ_SET_TO_IE(__eht_cap_phy, value) \
			ehtcap_ie_set(&__eht_cap_phy[EHTCAP_PHYBYTE_IDX0], \
				      EHTCAP_PHY_242TONERUBWLT20MHZ_IDX, \
				      EHTCAP_PHY_242TONERUBWLT20MHZ_BITS, value)

#define EHTCAP_PHY_NDP4XEHTLTFAND320NSGI_GET_FROM_IE(__eht_cap_phy) \
			ehtcap_ie_get(__eht_cap_phy[EHTCAP_PHYBYTE_IDX0], \
				      EHTCAP_PHY_NDP4XEHTLTFAND320NSGI_IDX, \
				      EHTCAP_PHY_NDP4XEHTLTFAND320NSGI_BITS)
#define EHTCAP_PHY_NDP4XEHTLTFAND320NSGI_SET_TO_IE(__eht_cap_phy, value) \
			ehtcap_ie_set(&__eht_cap_phy[EHTCAP_PHYBYTE_IDX0], \
				      EHTCAP_PHY_NDP4XEHTLTFAND320NSGI_IDX, \
				      EHTCAP_PHY_NDP4XEHTLTFAND320NSGI_BITS, \
				      value)

#define EHTCAP_PHY_PARTIALBWULMU_GET_FROM_IE(__eht_cap_phy) \
			ehtcap_ie_get(__eht_cap_phy[EHTCAP_PHYBYTE_IDX0], \
				      EHTCAP_PHY_PARTIALBWULMU_IDX, \
				      EHTCAP_PHY_PARTIALBWULMU_BITS)
#define EHTCAP_PHY_PARTIALBWULMU_SET_TO_IE(__eht_cap_phy, value) \
			ehtcap_ie_set(&__eht_cap_phy[EHTCAP_PHYBYTE_IDX0], \
				      EHTCAP_PHY_PARTIALBWULMU_IDX, \
				      EHTCAP_PHY_PARTIALBWULMU_BITS, value)

#define EHTCAP_PHY_SUBFMR_GET_FROM_IE(__eht_cap_phy) \
			ehtcap_ie_get(__eht_cap_phy[EHTCAP_PHYBYTE_IDX0], \
				      EHTCAP_PHY_SUBFMR_IDX, \
				      EHTCAP_PHY_SUBFMR_BITS)
#define EHTCAP_PHY_SUBFMR_SET_TO_IE(__eht_cap_phy, value) \
			ehtcap_ie_set(&__eht_cap_phy[EHTCAP_PHYBYTE_IDX0],  \
				      EHTCAP_PHY_SUBFMR_IDX, \
				      EHTCAP_PHY_SUBFMR_BITS, value)

#define EHTCAP_PHY_SUBFME_GET_FROM_IE(__eht_cap_phy) \
			ehtcap_ie_get(__eht_cap_phy[EHTCAP_PHYBYTE_IDX0], \
				      EHTCAP_PHY_SUBFME_IDX, \
				      EHTCAP_PHY_SUBFME_BITS)
#define EHTCAP_PHY_SUBFME_SET_TO_IE(__eht_cap_phy, value) \
			ehtcap_ie_set(&__eht_cap_phy[EHTCAP_PHYBYTE_IDX0], \
				      EHTCAP_PHY_SUBFME_IDX, \
				      EHTCAP_PHY_SUBFME_BITS, value)

#define EHTCAP_PHY_BFMESSLT80MHZ_GET_FROM_IE_BYTE0(__eht_cap_phy) \
			ehtcap_ie_get(__eht_cap_phy[EHTCAP_PHYBYTE_IDX0], \
				      EHTCAP_PHY_BFMESSLT80MHZ_IDX, \
				      1)
#define EHTCAP_PHY_BFMESSLT80MHZ_SET_TO_IE_BYTE0(__eht_cap_phy, __value) \
			ehtcap_ie_set(&__eht_cap_phy[EHTCAP_PHYBYTE_IDX0], \
				      EHTCAP_PHY_BFMESSLT80MHZ_IDX, \
				      1, __value)

/* byte 1 */
#define EHTCAP_PHY_BFMESSLT80MHZ_GET_FROM_IE_BYTE1(__eht_cap_phy) \
			ehtcap_ie_get(__eht_cap_phy[EHTCAP_PHYBYTE_IDX1], \
				      8, \
				      2)
#define EHTCAP_PHY_BFMESSLT80MHZ_SET_TO_IE_BYTE1(__eht_cap_phy, __value) \
			ehtcap_ie_set(&__eht_cap_phy[EHTCAP_PHYBYTE_IDX1], \
				      8, \
				      2, __value)
#define EHTCAP_PHY_BFMESS160MHZ_GET_FROM_IE(__eht_cap_phy) \
			ehtcap_ie_get(__eht_cap_phy[EHTCAP_PHYBYTE_IDX1], \
				      EHTCAP_PHY_BFMESS160MHZ_IDX, \
				      EHTCAP_PHY_BFMESS160MHZ_BITS)
#define EHTCAP_PHY_BFMESS160MHZ_SET_TO_IE(__eht_cap_phy, value) \
			ehtcap_ie_set(&__eht_cap_phy[EHTCAP_PHYBYTE_IDX1], \
				      EHTCAP_PHY_BFMESS160MHZ_IDX, \
				      EHTCAP_PHY_BFMESS160MHZ_BITS, value)

#define EHTCAP_PHY_BFMESS320MHZ_GET_FROM_IE(__eht_cap_phy) \
			ehtcap_ie_get(__eht_cap_phy[EHTCAP_PHYBYTE_IDX1], \
				      EHTCAP_PHY_BFMESS320MHZ_IDX, \
				      EHTCAP_PHY_BFMESS320MHZ_BITS)
#define EHTCAP_PHY_BFMESS320MHZ_SET_TO_IE(__eht_cap_phy, value) \
			ehtcap_ie_set(&__eht_cap_phy[EHTCAP_PHYBYTE_IDX1], \
				      EHTCAP_PHY_BFMESS320MHZ_IDX, \
				      EHTCAP_PHY_BFMESS320MHZ_BITS, value)

/* byte 2 */
#define EHTCAP_PHY_NUMSOUNDLT80MHZ_GET_FROM_IE(__eht_cap_phy) \
			ehtcap_ie_get(__eht_cap_phy[EHTCAP_PHYBYTE_IDX2], \
				      EHTCAP_PHY_NUMSOUNDLT80MHZ_IDX, \
				      EHTCAP_PHY_NUMSOUNDLT80MHZ_BITS)
#define EHTCAP_PHY_NUMSOUNDLT80MHZ_SET_TO_IE(__eht_cap_phy, value) \
			ehtcap_ie_set(&__eht_cap_phy[EHTCAP_PHYBYTE_IDX2], \
				      EHTCAP_PHY_NUMSOUNDLT80MHZ_IDX, \
				      EHTCAP_PHY_NUMSOUNDLT80MHZ_BITS, value)

#define EHTCAP_PHY_NUMSOUND160MHZ_GET_FROM_IE(__eht_cap_phy) \
			ehtcap_ie_get(__eht_cap_phy[EHTCAP_PHYBYTE_IDX2], \
				      EHTCAP_PHY_NUMSOUND160MHZ_IDX, \
				      EHTCAP_PHY_NUMSOUND160MHZ_BITS)
#define EHTCAP_PHY_NUMSOUND160MHZ_SET_TO_IE(__eht_cap_phy, value) \
			ehtcap_ie_set(&__eht_cap_phy[EHTCAP_PHYBYTE_IDX2], \
				      EHTCAP_PHY_NUMSOUND160MHZ_IDX, \
				      EHTCAP_PHY_NUMSOUND160MHZ_BITS, value)

#define EHTCAP_PHY_NUMSOUND320MHZ_GET_FROM_IE(__eht_cap_phy) \
			ehtcap_ie_get(__eht_cap_phy[EHTCAP_PHYBYTE_IDX2], \
				      EHTCAP_PHY_NUMSOUND320MHZ_IDX, \
				      EHTCAP_PHY_NUMSOUND320MHZ_BITS)
#define EHTCAP_PHY_NUMSOUND320MHZ_SET_TO_IE(__eht_cap_phy, value) \
			ehtcap_ie_set(&__eht_cap_phy[EHTCAP_PHYBYTE_IDX2], \
				      EHTCAP_PHY_NUMSOUND320MHZ_IDX, \
				      EHTCAP_PHY_NUMSOUND320MHZ_BITS, value)

/* byte 3 */
#define EHTCAP_PHY_NG16SUFB_GET_FROM_IE(__eht_cap_phy) \
			ehtcap_ie_get(__eht_cap_phy[EHTCAP_PHYBYTE_IDX3], \
				      EHTCAP_PHY_NG16SUFB_IDX, \
				      EHTCAP_PHY_NG16SUFB_BITS)
#define EHTCAP_PHY_NG16SUFB_SET_TO_IE(__eht_cap_phy, value) \
			ehtcap_ie_set(&__eht_cap_phy[EHTCAP_PHYBYTE_IDX3], \
				      EHTCAP_PHY_NG16SUFB_IDX, \
				      EHTCAP_PHY_NG16SUFB_BITS, value)

#define EHTCAP_PHY_NG16MUFB_GET_FROM_IE(__eht_cap_phy) \
			ehtcap_ie_get(__eht_cap_phy[EHTCAP_PHYBYTE_IDX3], \
				      EHTCAP_PHY_NG16MUFB_IDX, \
				      EHTCAP_PHY_NG16MUFB_BITS)
#define EHTCAP_PHY_NG16MUFB_SET_TO_IE(__eht_cap_phy, value) \
			ehtcap_ie_set(&__eht_cap_phy[EHTCAP_PHYBYTE_IDX3], \
				      EHTCAP_PHY_NG16MUFB_IDX, \
				      EHTCAP_PHY_NG16MUFB_BITS, value)

#define EHTCAP_PHY_CODBK42SUFB_GET_FROM_IE(__eht_cap_phy) \
			ehtcap_ie_get(__eht_cap_phy[EHTCAP_PHYBYTE_IDX3], \
				      EHTCAP_PHY_CODBK42SUFB_IDX, \
				      EHTCAP_PHY_CODBK42SUFB_BITS)
#define EHTCAP_PHY_CODBK42SUFB_SET_TO_IE(__eht_cap_phy, value) \
			ehtcap_ie_set(&__eht_cap_phy[EHTCAP_PHYBYTE_IDX3], \
				      EHTCAP_PHY_CODBK42SUFB_IDX, \
				      EHTCAP_PHY_CODBK42SUFB_BITS, value)

#define EHTCAP_PHY_CODBK75MUFB_GET_FROM_IE(__eht_cap_phy) \
			ehtcap_ie_get(__eht_cap_phy[EHTCAP_PHYBYTE_IDX3], \
				      EHTCAP_PHY_CODBK75MUFB_IDX, \
				      EHTCAP_PHY_CODBK75MUFB_BITS)
#define EHTCAP_PHY_CODBK75MUFB_SET_TO_IE(__eht_cap_phy, value) \
			ehtcap_ie_set(&__eht_cap_phy[EHTCAP_PHYBYTE_IDX3], \
				      EHTCAP_PHY_CODBK75MUFB_IDX, \
				      EHTCAP_PHY_CODBK75MUFB_BITS, value)

#define EHTCAP_PHY_TRIGSUBFFB_GET_FROM_IE(__eht_cap_phy) \
			ehtcap_ie_get(__eht_cap_phy[EHTCAP_PHYBYTE_IDX3], \
				      EHTCAP_PHY_TRIGSUBFFB_IDX, \
				      EHTCAP_PHY_TRIGSUBFFB_BITS)
#define EHTCAP_PHY_TRIGSUBFFB_SET_TO_IE(__eht_cap_phy, value) \
			ehtcap_ie_set(&__eht_cap_phy[EHTCAP_PHYBYTE_IDX3], \
				      EHTCAP_PHY_TRIGSUBFFB_IDX, \
				      EHTCAP_PHY_TRIGSUBFFB_BITS, value)

#define EHTCAP_PHY_TRIGMUBFPARTBWFB_GET_FROM_IE(__eht_cap_phy) \
			ehtcap_ie_get(__eht_cap_phy[EHTCAP_PHYBYTE_IDX3], \
				      EHTCAP_PHY_TRIGMUBFPARTBWFB_IDX, \
				      EHTCAP_PHY_TRIGMUBFPARTBWFB_BITS)
#define EHTCAP_PHY_TRIGMUBFPARTBWFB_SET_TO_IE(__eht_cap_phy, value) \
			ehtcap_ie_set(&__eht_cap_phy[EHTCAP_PHYBYTE_IDX3], \
				      EHTCAP_PHY_TRIGMUBFPARTBWFB_IDX, \
				      EHTCAP_PHY_TRIGMUBFPARTBWFB_BITS, value)

#define EHTCAP_PHY_TRIGCQIFB_GET_FROM_IE(__eht_cap_phy) \
			ehtcap_ie_get(__eht_cap_phy[EHTCAP_PHYBYTE_IDX3], \
				      EHTCAP_PHY_TRIGCQIFB_IDX, \
				      EHTCAP_PHY_TRIGCQIFB_BITS)
#define EHTCAP_PHY_TRIGCQIFB_SET_TO_IE(__eht_cap_phy, value) \
			ehtcap_ie_set(&__eht_cap_phy[EHTCAP_PHYBYTE_IDX3], \
				      EHTCAP_PHY_TRIGCQIFB_IDX, \
				      EHTCAP_PHY_TRIGCQIFB_BITS, value)

/* byte 4 */
#define EHTCAP_PHY_PARTBWDLMUMIMO_GET_FROM_IE(__eht_cap_phy) \
			ehtcap_ie_get(__eht_cap_phy[EHTCAP_PHYBYTE_IDX4], \
				      EHTCAP_PHY_PARTBWDLMUMIMO_IDX, \
				      EHTCAP_PHY_PARTBWDLMUMIMO_BITS)
#define EHTCAP_PHY_PARTBWDLMUMIMO_SET_TO_IE(__eht_cap_phy, value) \
			ehtcap_ie_set(&__eht_cap_phy[EHTCAP_PHYBYTE_IDX4], \
				      EHTCAP_PHY_PARTBWDLMUMIMO_IDX, \
				      EHTCAP_PHY_PARTBWDLMUMIMO_BITS, value)

#define EHTCAP_PHY_PSRSR_GET_FROM_IE(__eht_cap_phy) \
			ehtcap_ie_get(__eht_cap_phy[EHTCAP_PHYBYTE_IDX4], \
				      EHTCAP_PHY_PSRSR_IDX, \
				      EHTCAP_PHY_PSRSR_BITS)
#define EHTCAP_PHY_PSRSR_SET_TO_IE(__eht_cap_phy, value) \
			ehtcap_ie_set(&__eht_cap_phy[EHTCAP_PHYBYTE_IDX4], \
				      EHTCAP_PHY_PSRSR_IDX, \
				      EHTCAP_PHY_PSRSR_BITS, value)

#define EHTCAP_PHY_PWRBSTFACTOR_GET_FROM_IE(__eht_cap_phy) \
			ehtcap_ie_get(__eht_cap_phy[EHTCAP_PHYBYTE_IDX4], \
				      EHTCAP_PHY_PWRBSTFACTOR_IDX, \
				      EHTCAP_PHY_PWRBSTFACTOR_BITS)
#define EHTCAP_PHY_PWRBSTFACTOR_SET_TO_IE(__eht_cap_phy, value) \
			ehtcap_ie_set(&__eht_cap_phy[EHTCAP_PHYBYTE_IDX4], \
				      EHTCAP_PHY_PWRBSTFACTOR_IDX, \
				      EHTCAP_PHY_PWRBSTFACTOR_BITS, value)

#define EHTCAP_PHY_4XEHTMULTFAND800NSGI_GET_FROM_IE(__eht_cap_phy) \
			ehtcap_ie_get(__eht_cap_phy[EHTCAP_PHYBYTE_IDX4], \
				      EHTCAP_PHY_4XEHTLTFAND800NSGI_IDX, \
				      EHTCAP_PHY_4XEHTLTFAND800NSGI_BITS)
#define EHTCAP_PHY_4XEHTMULTFAND800NSGI_SET_TO_IE(__eht_cap_phy, value) \
			ehtcap_ie_set(&__eht_cap_phy[EHTCAP_PHYBYTE_IDX4], \
				      EHTCAP_PHY_4XEHTLTFAND800NSGI_IDX, \
				      EHTCAP_PHY_4XEHTLTFAND800NSGI_BITS, value)

#define EHTCAP_PHY_MAXNC_GET_FROM_IE(__eht_cap_phy) \
			ehtcap_ie_get(__eht_cap_phy[EHTCAP_PHYBYTE_IDX4], \
				      EHTCAP_PHY_MAXNC_IDX, \
				      EHTCAP_PHY_MAXNC_BITS)
#define EHTCAP_PHY_MAXNC_SET_TO_IE(__eht_cap_phy, value) \
			ehtcap_ie_set(&__eht_cap_phy[EHTCAP_PHYBYTE_IDX4], \
				      EHTCAP_PHY_MAXNC_IDX, \
				      EHTCAP_PHY_MAXNC_BITS, value)

/* byte 5 */
#define EHTCAP_PHY_NONTRIGCQIFB_GET_FROM_IE(__eht_cap_phy) \
			ehtcap_ie_get(__eht_cap_phy[EHTCAP_PHYBYTE_IDX5], \
				      EHTCAP_PHY_NONTRIGCQIFB_IDX, \
				      EHTCAP_PHY_NONTRIGCQIFB_BITS)
#define EHTCAP_PHY_NONTRIGCQIFB_SET_TO_IE(__eht_cap_phy, value) \
			ehtcap_ie_set(&__eht_cap_phy[EHTCAP_PHYBYTE_IDX5], \
				      EHTCAP_PHY_NONTRIGCQIFB_IDX, \
				      EHTCAP_PHY_NONTRIGCQIFB_BITS, value)

#define EHTCAP_PHY_TX1024AND4096QAMLT242TONERU_GET_FROM_IE(__eht_cap_phy) \
		    ehtcap_ie_get(__eht_cap_phy[EHTCAP_PHYBYTE_IDX5], \
				  EHTCAP_PHY_TX1024AND4096QAMLS242TONERU_IDX, \
				  EHTCAP_PHY_TX1024AND4096QAMLS242TONERU_BITS)
#define EHTCAP_PHY_TX1024AND4096QAMLT242TONERU_SET_TO_IE(__eht_cap_phy, value) \
		    ehtcap_ie_set(&__eht_cap_phy[EHTCAP_PHYBYTE_IDX5], \
				  EHTCAP_PHY_TX1024AND4096QAMLS242TONERU_IDX, \
				  EHTCAP_PHY_TX1024AND4096QAMLS242TONERU_BITS, \
				  value)

#define EHTCAP_PHY_RX1024AND4096QAMLT242TONERU_GET_FROM_IE(__eht_cap_phy) \
		    ehtcap_ie_get(__eht_cap_phy[EHTCAP_PHYBYTE_IDX5], \
				  EHTCAP_PHY_RX1024AND4096QAMLS242TONERU_IDX, \
				  EHTCAP_PHY_RX1024AND4096QAMLS242TONERU_BITS)
#define EHTCAP_PHY_RX1024AND4096QAMLT242TONERU_SET_TO_IE(__eht_cap_phy, value) \
		    ehtcap_ie_set(&__eht_cap_phy[EHTCAP_PHYBYTE_IDX5], \
				  EHTCAP_PHY_RX1024AND4096QAMLS242TONERU_IDX, \
				  EHTCAP_PHY_RX1024AND4096QAMLS242TONERU_BITS, \
				  value)

#define EHTCAP_PHY_PPETHRESPRESENT_GET_FROM_IE(__eht_cap_phy) \
			ehtcap_ie_get(__eht_cap_phy[EHTCAP_PHYBYTE_IDX5], \
				      EHTCAP_PHY_PPETHRESPRESENT_IDX, \
				      EHTCAP_PHY_PPETHRESPRESENT_BITS)
#define EHTCAP_PHY_PPETHRESPRESENT_SET_TO_IE(__eht_cap_phy, value) \
			ehtcap_ie_set(&__eht_cap_phy[EHTCAP_PHYBYTE_IDX5], \
				      EHTCAP_PHY_PPETHRESPRESENT_IDX, \
				      EHTCAP_PHY_PPETHRESPRESENT_BITS, value)

#define EHTCAP_PHY_CMNNOMPKTPAD_GET_FROM_IE(__eht_cap_phy) \
			ehtcap_ie_get(__eht_cap_phy[EHTCAP_PHYBYTE_IDX5], \
				      EHTCAP_PHY_CMNNOMPKTPAD_IDX, \
				      EHTCAP_PHY_CMNNOMPKTPAD_BITS)
#define EHTCAP_PHY_CMNNOMPKTPAD_SET_TO_IE(__eht_cap_phy, value) \
			ehtcap_ie_set(&__eht_cap_phy[EHTCAP_PHYBYTE_IDX5], \
				      EHTCAP_PHY_CMNNOMPKTPAD_IDX, \
				      EHTCAP_PHY_CMNNOMPKTPAD_BITS, value)

#define EHTCAP_PHY_MAXNUMEHTLTF_GET_FROM_IE(__eht_cap_phy) \
			ehtcap_ie_get(__eht_cap_phy[EHTCAP_PHYBYTE_IDX5], \
				      EHTCAP_PHY_MAXNUMEHTLTF_IDX, \
				      EHTCAP_PHY_MAXNUMEHTLTF_BITS)
#define EHTCAP_PHY_MAXNUMEHTLTF_SET_TO_IE(__eht_cap_phy, value) \
			ehtcap_ie_set(&__eht_cap_phy[EHTCAP_PHYBYTE_IDX5], \
				      EHTCAP_PHY_MAXNUMEHTLTF_IDX, \
				      EHTCAP_PHY_MAXNUMEHTLTF_BITS, value)

/* byte 6 */
#define EHTCAP_PHY_SUPMCS15_GET_FROM_IE(__eht_cap_phy) \
			ehtcap_ie_get(__eht_cap_phy[EHTCAP_PHYBYTE_IDX6], \
				      EHTCAP_PHY_SUPMCS15_IDX, \
				      EHTCAP_PHY_SUPMCS15_BITS)
#define EHTCAP_PHY_SUPMCS15_SET_TO_IE(__eht_cap_phy, value) \
			ehtcap_ie_set(&__eht_cap_phy[EHTCAP_PHYBYTE_IDX6], \
				      EHTCAP_PHY_SUPMCS15_IDX, \
				      EHTCAP_PHY_SUPMCS15_BITS, value)

#define EHTCAP_PHY_EHTDUPIN6GHZ_GET_FROM_IE(__eht_cap_phy) \
			ehtcap_ie_get(__eht_cap_phy[EHTCAP_PHYBYTE_IDX6], \
				      EHTCAP_PHY_EHTDUPIN6GHZ_IDX, \
				      EHTCAP_PHY_EHTDUPIN6GHZ_BITS)
#define EHTCAP_PHY_EHTDUPIN6GHZ_SET_TO_IE(__eht_cap_phy, value) \
			ehtcap_ie_set(&__eht_cap_phy[EHTCAP_PHYBYTE_IDX6], \
				      EHTCAP_PHY_EHTDUPIN6GHZ_IDX, \
				      EHTCAP_PHY_EHTDUPIN6GHZ_BITS, value)

/* byte 7 */
#define EHTCAP_PHY_20MHZOPSTARXNDPWIDERBW_GET_FROM_IE(__eht_cap_phy) \
			ehtcap_ie_get(__eht_cap_phy[EHTCAP_PHYBYTE_IDX7], \
				      EHTCAP_PHY_20MHZOPSTARXNDPWIDERBW_IDX, \
				      EHTCAP_PHY_20MHZOPSTARXNDPWIDERBW_BITS)
#define EHTCAP_PHY_20MHZOPSTARXNDPWIDERBW_SET_TO_IE(__eht_cap_phy, value) \
			ehtcap_ie_set(&__eht_cap_phy[EHTCAP_PHYBYTE_IDX7], \
				      EHTCAP_PHY_20MHZOPSTARXNDPWIDERBW_IDX, \
				      EHTCAP_PHY_20MHZOPSTARXNDPWIDERBW_BITS, \
				      value)

#define EHTCAP_PHY_NONOFDMAULMUMIMOLT80MHZ_GET_FROM_IE(__eht_cap_phy) \
			ehtcap_ie_get(__eht_cap_phy[EHTCAP_PHYBYTE_IDX7], \
				      EHTCAP_PHY_NONOFDMAULMUMIMOLT80MHZ_IDX, \
				      EHTCAP_PHY_NONOFDMAULMUMIMOLT80MHZ_BITS)
#define EHTCAP_PHY_NONOFDMAULMUMIMOLT80MHZ_SET_TO_IE(__eht_cap_phy, value) \
			ehtcap_ie_set(&__eht_cap_phy[EHTCAP_PHYBYTE_IDX7], \
				      EHTCAP_PHY_NONOFDMAULMUMIMOLT80MHZ_IDX, \
				      EHTCAP_PHY_NONOFDMAULMUMIMOLT80MHZ_BITS, \
				      value)

#define EHTCAP_PHY_NONOFDMAULMUMIMO160MHZ_GET_FROM_IE(__eht_cap_phy) \
			ehtcap_ie_get(__eht_cap_phy[EHTCAP_PHYBYTE_IDX7], \
				      EHTCAP_PHY_NONOFDMAULMUMIMO160MHZ_IDX, \
				      EHTCAP_PHY_NONOFDMAULMUMIMO160MHZ_BITS)
#define EHTCAP_PHY_NONOFDMAULMUMIMO160MHZ_SET_TO_IE(__eht_cap_phy, value) \
			ehtcap_ie_set(&__eht_cap_phy[EHTCAP_PHYBYTE_IDX7], \
				      EHTCAP_PHY_NONOFDMAULMUMIMO160MHZ_IDX, \
				      EHTCAP_PHY_NONOFDMAULMUMIMO160MHZ_BITS, \
				      value)

#define EHTCAP_PHY_NONOFDMAULMUMIMO320MHZ_GET_FROM_IE(__eht_cap_phy) \
			ehtcap_ie_get(__eht_cap_phy[EHTCAP_PHYBYTE_IDX7], \
				      EHTCAP_PHY_NONOFDMAULMUMIMO320MHZ_IDX, \
				      EHTCAP_PHY_NONOFDMAULMUMIMO320MHZ_BITS)
#define EHTCAP_PHY_NONOFDMAULMUMIMO320MHZ_SET_TO_IE(__eht_cap_phy, value) \
			ehtcap_ie_set(&__eht_cap_phy[EHTCAP_PHYBYTE_IDX7], \
				      EHTCAP_PHY_NONOFDMAULMUMIMO320MHZ_IDX, \
				      EHTCAP_PHY_NONOFDMAULMUMIMO320MHZ_BITS, \
				      value)

#define EHTCAP_PHY_MUBFMRLT80MHZ_GET_FROM_IE(__eht_cap_phy) \
			ehtcap_ie_get(__eht_cap_phy[EHTCAP_PHYBYTE_IDX7], \
				      EHTCAP_PHY_MUBFMRLT80MHZ_IDX, \
				      EHTCAP_PHY_MUBFMRLT80MHZ_BITS)
#define EHTCAP_PHY_MUBFMRLT80MHZ_SET_TO_IE(__eht_cap_phy, value) \
			ehtcap_ie_set(&__eht_cap_phy[EHTCAP_PHYBYTE_IDX7], \
				      EHTCAP_PHY_MUBFMRLT80MHZ_IDX, \
				      EHTCAP_PHY_MUBFMRLT80MHZ_BITS, value)

#define EHTCAP_PHY_MUBFMR160MHZ_GET_FROM_IE(__eht_cap_phy) \
			ehtcap_ie_get(__eht_cap_phy[EHTCAP_PHYBYTE_IDX7], \
				      EHTCAP_PHY_MUBFMR160MHZ_IDX, \
				      EHTCAP_PHY_MUBFMR160MHZ_BITS)
#define EHTCAP_PHY_MUBFMR160MHZ_SET_TO_IE(__eht_cap_phy, value) \
			ehtcap_ie_set(&__eht_cap_phy[EHTCAP_PHYBYTE_IDX7], \
				      EHTCAP_PHY_MUBFMR160MHZ_IDX, \
				      EHTCAP_PHY_MUBFMR160MHZ_BITS, value)

#define EHTCAP_PHY_MUBFMR320MHZ_GET_FROM_IE(__eht_cap_phy) \
			ehtcap_ie_get(__eht_cap_phy[EHTCAP_PHYBYTE_IDX7], \
				      EHTCAP_PHY_MUBFMR320MHZ_IDX, \
				      EHTCAP_PHY_MUBFMR320MHZ_BITS)
#define EHTCAP_PHY_MUBFMR320MHZ_SET_TO_IE(__eht_cap_phy, value) \
			ehtcap_ie_set(&__eht_cap_phy[EHTCAP_PHYBYTE_IDX7], \
				      EHTCAP_PHY_MUBFMR320MHZ_IDX, \
				      EHTCAP_PHY_MUBFMR320MHZ_BITS, value)

#define EHTCAP_PHY_TB_SOUNDING_FB_RL_GET_FROM_IE(__eht_cap_phy) \
			ehtcap_ie_get(__eht_cap_phy[EHTCAP_PHYBYTE_IDX7], \
				      EHTCAP_PHY_TB_SOUNDING_FEEDBACK_RL_IDX, \
				      EHTCAP_PHY_TB_SOUNDING_FEEDBACK_RL_BITS)
#define EHTCAP_PHY_TB_SOUNDING_FB_RL_SET_TO_IE(__eht_cap_phy, value) \
			ehtcap_ie_set(&__eht_cap_phy[EHTCAP_PHYBYTE_IDX7], \
				      EHTCAP_PHY_TB_SOUNDING_FEEDBACK_RL_IDX, \
				      EHTCAP_PHY_TB_SOUNDING_FEEDBACK_RL_BITS, \
				      value)
#define EHTCAP_PHY_RX_1K_QAM_IN_WIDER_BW_DL_OFDMA_GET_FROM_IE(__eht_cap_phy) \
		ehtcap_ie_get(__eht_cap_phy[EHTCAP_PHYBYTE_IDX8], \
			      EHTCAP_PHY_RX_1K_QAM_IN_WIDER_BW_DL_OFDMA_IDX, \
			      EHTCAP_PHY_RX_1K_QAM_IN_WIDER_BW_DL_OFDMA_BITS)
#define EHTCAP_PHY_RX_1K_QAM_IN_WIDER_BW_DL_OFDMA_SET_TO_IE(__eht_cap_phy, value) \
		ehtcap_ie_set(&__eht_cap_phy[EHTCAP_PHYBYTE_IDX8], \
			      EHTCAP_PHY_RX_1K_QAM_IN_WIDER_BW_DL_OFDMA_IDX, \
			      EHTCAP_PHY_RX_1K_QAM_IN_WIDER_BW_DL_OFDMA_BITS, \
			      value)

#define EHTCAP_PHY_RX_4K_QAM_IN_WIDER_BW_DL_OFDMA_GET_FROM_IE(__eht_cap_phy) \
		ehtcap_ie_get(__eht_cap_phy[EHTCAP_PHYBYTE_IDX8], \
			      EHTCAP_PHY_RX_4K_QAM_IN_WIDER_BW_DL_OFDMA_IDX, \
			      EHTCAP_PHY_RX_4K_QAM_IN_WIDER_BW_DL_OFDMA_BITS)
#define EHTCAP_PHY_RX_4K_QAM_IN_WIDER_BW_DL_OFDMA_SET_TO_IE(__eht_cap_phy, value) \
		ehtcap_ie_set(&__eht_cap_phy[EHTCAP_PHYBYTE_IDX8], \
			      EHTCAP_PHY_RX_4K_QAM_IN_WIDER_BW_DL_OFDMA_IDX, \
			      EHTCAP_PHY_RX_4K_QAM_IN_WIDER_BW_DL_OFDMA_BITS, \
			      value)

#define EHTCAP_PHY_20MHZ_ONLY_CAPS_GET_FROM_IE(__eht_cap_phy) \
		ehtcap_ie_get(__eht_cap_phy[EHTCAP_PHYBYTE_IDX8], \
			      EHTCAP_PHY_20MHZ_ONLY_CAPS_IDX, \
			      EHTCAP_PHY_20MHZ_ONLY_CAPS_BITS)
#define EHTCAP_PHY_20MHZ_ONLY_CAPS_SET_TO_IE(__eht_cap_phy, value) \
		ehtcap_ie_set(&__eht_cap_phy[EHTCAP_PHYBYTE_IDX8], \
			      EHTCAP_PHY_20MHZ_ONLY_CAPS_IDX, \
			      EHTCAP_PHY_20MHZ_ONLY_CAPS_BITS, \
			      value)

#define EHTCAP_PHY_20MHZ_ONLY_TRIGGER_MUBF_FULL_BW_FB_AND_DLMUMIMO_GET_FROM_IE(__eht_cap_phy) \
		ehtcap_ie_get(__eht_cap_phy[EHTCAP_PHYBYTE_IDX8], \
			      EHTCAP_PHY_20MHZ_ONLY_TRIGGER_MUBF_FL_BW_FB_DLMUMIMO_IDX, \
			      EHTCAP_PHY_20MHZ_ONLY_TRIGGER_MUBF_FL_BW_FB_DLMUMIMO_BITS)

#define EHTCAP_PHY_20MHZ_ONLY_TRIGGER_MUBF_FULL_BW_FB_AND_DLMUMIMO_SET_TO_IE(__eht_cap_phy, value) \
		ehtcap_ie_set(&__eht_cap_phy[EHTCAP_PHYBYTE_IDX8], \
			      EHTCAP_PHY_20MHZ_ONLY_TRIGGER_MUBF_FL_BW_FB_DLMUMIMO_IDX, \
			      EHTCAP_PHY_20MHZ_ONLY_TRIGGER_MUBF_FL_BW_FB_DLMUMIMO_BITS, \
			      value)

#define EHTCAP_PHY_20MHZ_ONLY_MRU_SUPP_GET_FROM_IE(__eht_cap_phy) \
		ehtcap_ie_get(__eht_cap_phy[EHTCAP_PHYBYTE_IDX8], \
			      EHTCAP_PHY_20MHZ_ONLY_MRU_SUPP_IDX, \
			      EHTCAP_PHY_20MHZ_ONLY_MRU_SUPP_BITS)
#define EHTCAP_PHY_20MHZ_ONLY_MRU_SUPP_SET_TO_IE(__eht_cap_phy, value) \
		ehtcap_ie_set(&__eht_cap_phy[EHTCAP_PHYBYTE_IDX8], \
			      EHTCAP_PHY_20MHZ_ONLY_MRU_SUPP_IDX, \
			      EHTCAP_PHY_20MHZ_ONLY_MRU_SUPP_BITS, \
			      value)
static
QDF_STATUS lim_ieee80211_unpack_ehtop(const uint8_t *eht_op_ie,
				      tDot11fIEeht_op *dot11f_eht_op,
				      tDot11fIEVHTOperation dot11f_vht_op,
				      tDot11fIEhe_op dot11f_he_op,
				      tDot11fIEHTInfo dot11f_ht_info)
{
	struct wlan_ie_ehtops *ehtop = (struct wlan_ie_ehtops *)eht_op_ie;
	uint8_t i;

	if (!eht_op_ie || !(ehtop->elem_id == DOT11F_EID_EHT_OP &&
			    ehtop->elem_id_extn == 0x6a)) {
		pe_err("Invalid EHT op IE");
		return QDF_STATUS_E_INVAL;
	}

	qdf_mem_zero(dot11f_eht_op, (sizeof(tDot11fIEeht_op)));

	dot11f_eht_op->present = 1;
	dot11f_eht_op->eht_op_information_present =
		EHTOP_PARAMS_INFOP_GET_FROM_IE(ehtop->ehtop_param);

	dot11f_eht_op->disabled_sub_chan_bitmap_present =
		EHTOP_PARAMS_DISABLEDSUBCHANBITMAPP_GET_FROM_IE(
							ehtop->ehtop_param);

	dot11f_eht_op->eht_default_pe_duration =
		EHTOP_PARAMS_EHT_DEF_PE_DURATION_GET_FROM_IE(
							ehtop->ehtop_param);

	dot11f_eht_op->group_addr_bu_indication_limit =
		EHTOP_PARAMS_GROUP_ADDR_BU_IND_LIMIT_GET_FROM_IE(
							ehtop->ehtop_param);

	dot11f_eht_op->group_addr_bu_indication_exponent =
		EHTOP_PARAMS_GROUP_ADDR_BU_IND_EXPONENT_GET_FROM_IE(
							ehtop->ehtop_param);

	dot11f_eht_op->basic_rx_max_nss_for_mcs_0_to_7 =
		ehtop_ie_get(ehtop->basic_mcs_nss_set.max_nss_mcs_0_7,
			     EHTOP_RX_MCS_NSS_MAP_IDX,
			     EHTOP_RX_MCS_NSS_MAP_BITS);
	dot11f_eht_op->basic_tx_max_nss_for_mcs_0_to_7 =
		ehtop_ie_get(ehtop->basic_mcs_nss_set.max_nss_mcs_0_7,
			     EHTOP_TX_MCS_NSS_MAP_IDX,
			     EHTOP_TX_MCS_NSS_MAP_BITS);
	dot11f_eht_op->basic_rx_max_nss_for_mcs_8_and_9 =
		ehtop_ie_get(ehtop->basic_mcs_nss_set.max_nss_mcs_8_9,
			     EHTOP_RX_MCS_NSS_MAP_IDX,
			     EHTOP_RX_MCS_NSS_MAP_BITS);
	dot11f_eht_op->basic_tx_max_nss_for_mcs_8_and_9 =
		ehtop_ie_get(ehtop->basic_mcs_nss_set.max_nss_mcs_8_9,
			     EHTOP_TX_MCS_NSS_MAP_IDX,
			     EHTOP_TX_MCS_NSS_MAP_BITS);
	dot11f_eht_op->basic_rx_max_nss_for_mcs_10_and_11 =
		ehtop_ie_get(ehtop->basic_mcs_nss_set.max_nss_mcs_10_11,
			     EHTOP_RX_MCS_NSS_MAP_IDX,
			     EHTOP_RX_MCS_NSS_MAP_BITS);
	dot11f_eht_op->basic_tx_max_nss_for_mcs_10_and_11 =
		ehtop_ie_get(ehtop->basic_mcs_nss_set.max_nss_mcs_10_11,
			     EHTOP_TX_MCS_NSS_MAP_IDX,
			     EHTOP_TX_MCS_NSS_MAP_BITS);
	dot11f_eht_op->basic_rx_max_nss_for_mcs_12_and_13 =
		ehtop_ie_get(ehtop->basic_mcs_nss_set.max_nss_mcs_12_13,
			     EHTOP_RX_MCS_NSS_MAP_IDX,
			     EHTOP_RX_MCS_NSS_MAP_BITS);
	dot11f_eht_op->basic_tx_max_nss_for_mcs_12_and_13 =
		ehtop_ie_get(ehtop->basic_mcs_nss_set.max_nss_mcs_12_13,
			     EHTOP_TX_MCS_NSS_MAP_IDX,
			     EHTOP_TX_MCS_NSS_MAP_BITS);

	if (dot11f_eht_op->eht_op_information_present) {
		dot11f_eht_op->channel_width =
			EHTOP_INFO_CHANWIDTH_GET_FROM_IE(ehtop->control);

		dot11f_eht_op->ccfs0 = ehtop->ccfs0;

		dot11f_eht_op->ccfs1 = ehtop->ccfs1;

		if (dot11f_eht_op->disabled_sub_chan_bitmap_present) {
			for (i = 0; i < WLAN_MAX_DISABLED_SUB_CHAN_BITMAP;
			     i++) {
				dot11f_eht_op->disabled_sub_chan_bitmap[0][i] =
					ehtop->disabled_sub_chan_bitmap[i];
			}
		}
	}

	return QDF_STATUS_SUCCESS;
}

static
QDF_STATUS lim_ieee80211_unpack_ehtcap(const uint8_t *eht_cap_ie,
				       tDot11fIEeht_cap *dot11f_eht_cap,
				       tDot11fIEhe_cap dot11f_he_cap,
				       bool is_band_2g)
{
	struct wlan_ie_ehtcaps *ehtcap  = (struct wlan_ie_ehtcaps *)eht_cap_ie;
	uint32_t idx = 0;
	uint32_t mcs_map_len;

	if (!eht_cap_ie || !(ehtcap->elem_id == DOT11F_EID_EHT_CAP &&
			     ehtcap->elem_id_extn == 0x6c)) {
		pe_err("Invalid EHT cap IE");
		return QDF_STATUS_E_INVAL;
	}

	qdf_mem_zero(dot11f_eht_cap, (sizeof(tDot11fIEeht_cap)));

	dot11f_eht_cap->present = 1;
	dot11f_eht_cap->epcs_pri_access =
		    EHTCAP_MAC_EPCSPRIACCESS_GET_FROM_IE(ehtcap->eht_mac_cap);

	dot11f_eht_cap->eht_om_ctl =
		    EHTCAP_MAC_EHTOMCTRL_GET_FROM_IE(ehtcap->eht_mac_cap);

	dot11f_eht_cap->triggered_txop_sharing_mode1 =
		    EHTCAP_MAC_TRIGTXOP_MODE1_GET_FROM_IE(ehtcap->eht_mac_cap);

	dot11f_eht_cap->triggered_txop_sharing_mode2 =
		    EHTCAP_MAC_TRIGTXOP_MODE2_GET_FROM_IE(ehtcap->eht_mac_cap);

	dot11f_eht_cap->restricted_twt =
		    EHTCAP_MAC_RESTRICTED_TWT_GET_FROM_IE(ehtcap->eht_mac_cap);

	dot11f_eht_cap->scs_traffic_desc =
		  EHTCAP_MAC_SCS_TRAFFIC_DESC_GET_FROM_IE(ehtcap->eht_mac_cap);

	dot11f_eht_cap->max_mpdu_len =
		  EHTCAP_MAC_MAX_MPDU_LEN_GET_FROM_IE(ehtcap->eht_mac_cap);

	dot11f_eht_cap->max_a_mpdu_len_exponent_ext =
		  EHTCAP_MAC_MAX_A_MPDU_LEN_EXPONENT_EXT_GET_FROM_IE(
				ehtcap->eht_mac_cap);

	dot11f_eht_cap->eht_trs_support =
		EHTCAP_MAC_EHT_TRS_SUPPORT_GET_FROM_IE(ehtcap->eht_mac_cap);

	dot11f_eht_cap->txop_return_support_txop_share_m2 =
		EHTCAP_MAC_TXOP_RETURN_SUPPORT_SHARE_M2_GET_FROM_IE(
				ehtcap->eht_mac_cap);
	dot11f_eht_cap->two_bqrs_support =
			EHTCAP_MAC_TWO_BQRS_SUPP_GET_FROM_IE(
					ehtcap->eht_mac_cap);

	dot11f_eht_cap->eht_link_adaptation_support =
			EHTCAP_MAC_EHT_LINK_ADAPTATION_SUPP_GET_FROM_IE(
					ehtcap->eht_mac_cap);

	dot11f_eht_cap->support_320mhz_6ghz =
			EHTCAP_PHY_320MHZIN6GHZ_GET_FROM_IE(
				ehtcap->eht_phy_cap.phy_cap_bytes);

	dot11f_eht_cap->ru_242tone_wt_20mhz =
			EHTCAP_PHY_242TONERUBWGT20MHZ_GET_FROM_IE(
					ehtcap->eht_phy_cap.phy_cap_bytes);

	dot11f_eht_cap->ndp_4x_eht_ltf_3dot2_us_gi =
			EHTCAP_PHY_NDP4XEHTLTFAND320NSGI_GET_FROM_IE(
					ehtcap->eht_phy_cap.phy_cap_bytes);

	dot11f_eht_cap->partial_bw_mu_mimo =
			EHTCAP_PHY_PARTIALBWULMU_GET_FROM_IE(
				     ehtcap->eht_phy_cap.phy_cap_bytes);

	dot11f_eht_cap->su_beamformer =
	      EHTCAP_PHY_SUBFMR_GET_FROM_IE(ehtcap->eht_phy_cap.phy_cap_bytes);

	dot11f_eht_cap->su_beamformee =
	      EHTCAP_PHY_SUBFME_GET_FROM_IE(ehtcap->eht_phy_cap.phy_cap_bytes);

	dot11f_eht_cap->bfee_ss_le_80mhz =
			EHTCAP_PHY_BFMESSLT80MHZ_GET_FROM_IE_BYTE0(
					ehtcap->eht_phy_cap.phy_cap_bytes);

	dot11f_eht_cap->bfee_ss_le_80mhz |=
			(EHTCAP_PHY_BFMESSLT80MHZ_GET_FROM_IE_BYTE1(
				ehtcap->eht_phy_cap.phy_cap_bytes) << 1);
	dot11f_eht_cap->bfee_ss_160mhz =
			EHTCAP_PHY_BFMESS160MHZ_GET_FROM_IE(
					ehtcap->eht_phy_cap.phy_cap_bytes);

	dot11f_eht_cap->bfee_ss_320mhz =
			EHTCAP_PHY_BFMESS320MHZ_GET_FROM_IE(
					ehtcap->eht_phy_cap.phy_cap_bytes);

	dot11f_eht_cap->num_sounding_dim_le_80mhz =
			EHTCAP_PHY_NUMSOUNDLT80MHZ_GET_FROM_IE(
					ehtcap->eht_phy_cap.phy_cap_bytes);

	dot11f_eht_cap->num_sounding_dim_160mhz =
			EHTCAP_PHY_NUMSOUND160MHZ_GET_FROM_IE(
					ehtcap->eht_phy_cap.phy_cap_bytes);

	dot11f_eht_cap->num_sounding_dim_320mhz =
			EHTCAP_PHY_NUMSOUND320MHZ_GET_FROM_IE(
					ehtcap->eht_phy_cap.phy_cap_bytes);

	dot11f_eht_cap->ng_16_su_feedback =
			EHTCAP_PHY_NG16SUFB_GET_FROM_IE(
					ehtcap->eht_phy_cap.phy_cap_bytes);

	dot11f_eht_cap->ng_16_mu_feedback =
			EHTCAP_PHY_NG16MUFB_GET_FROM_IE(
					ehtcap->eht_phy_cap.phy_cap_bytes);

	dot11f_eht_cap->cb_sz_4_2_su_feedback =
			EHTCAP_PHY_CODBK42SUFB_GET_FROM_IE(
					ehtcap->eht_phy_cap.phy_cap_bytes);

	dot11f_eht_cap->cb_sz_7_5_su_feedback =
			EHTCAP_PHY_CODBK75MUFB_GET_FROM_IE(
					ehtcap->eht_phy_cap.phy_cap_bytes);

	dot11f_eht_cap->trig_su_bforming_feedback =
			EHTCAP_PHY_TRIGSUBFFB_GET_FROM_IE(
					ehtcap->eht_phy_cap.phy_cap_bytes);

	dot11f_eht_cap->trig_mu_bforming_partial_bw_feedback =
			EHTCAP_PHY_TRIGMUBFPARTBWFB_GET_FROM_IE(
					ehtcap->eht_phy_cap.phy_cap_bytes);

	dot11f_eht_cap->triggered_cqi_feedback =
			EHTCAP_PHY_TRIGCQIFB_GET_FROM_IE(
					ehtcap->eht_phy_cap.phy_cap_bytes);

	dot11f_eht_cap->partial_bw_dl_mu_mimo =
			EHTCAP_PHY_PARTBWDLMUMIMO_GET_FROM_IE(
					ehtcap->eht_phy_cap.phy_cap_bytes);

	dot11f_eht_cap->psr_based_sr =
			EHTCAP_PHY_PSRSR_GET_FROM_IE(
					ehtcap->eht_phy_cap.phy_cap_bytes);

	dot11f_eht_cap->power_boost_factor =
			EHTCAP_PHY_PWRBSTFACTOR_GET_FROM_IE(
					ehtcap->eht_phy_cap.phy_cap_bytes);

	dot11f_eht_cap->eht_mu_ppdu_4x_ltf_0_8_us_gi =
			EHTCAP_PHY_4XEHTMULTFAND800NSGI_GET_FROM_IE(
					ehtcap->eht_phy_cap.phy_cap_bytes);

	dot11f_eht_cap->max_nc =
			EHTCAP_PHY_MAXNC_GET_FROM_IE(
					ehtcap->eht_phy_cap.phy_cap_bytes);

	dot11f_eht_cap->non_trig_cqi_feedback =
			EHTCAP_PHY_NONTRIGCQIFB_GET_FROM_IE(
					ehtcap->eht_phy_cap.phy_cap_bytes);

	dot11f_eht_cap->tx_1024_4096_qam_lt_242_tone_ru =
			EHTCAP_PHY_TX1024AND4096QAMLT242TONERU_GET_FROM_IE(
					ehtcap->eht_phy_cap.phy_cap_bytes);

	dot11f_eht_cap->rx_1024_4096_qam_lt_242_tone_ru =
			EHTCAP_PHY_RX1024AND4096QAMLT242TONERU_GET_FROM_IE(
					ehtcap->eht_phy_cap.phy_cap_bytes);

	dot11f_eht_cap->ppet_present =
			EHTCAP_PHY_PPETHRESPRESENT_GET_FROM_IE(
					ehtcap->eht_phy_cap.phy_cap_bytes);

	dot11f_eht_cap->common_nominal_pkt_padding =
			EHTCAP_PHY_CMNNOMPKTPAD_GET_FROM_IE(
					ehtcap->eht_phy_cap.phy_cap_bytes);

	dot11f_eht_cap->max_num_eht_ltf =
			EHTCAP_PHY_MAXNUMEHTLTF_GET_FROM_IE(
					ehtcap->eht_phy_cap.phy_cap_bytes);

	dot11f_eht_cap->mcs_15 =
			EHTCAP_PHY_SUPMCS15_GET_FROM_IE(
					ehtcap->eht_phy_cap.phy_cap_bytes);

	dot11f_eht_cap->eht_dup_6ghz =
			EHTCAP_PHY_EHTDUPIN6GHZ_GET_FROM_IE(
					ehtcap->eht_phy_cap.phy_cap_bytes);

	dot11f_eht_cap->op_sta_rx_ndp_wider_bw_20mhz =
			EHTCAP_PHY_20MHZOPSTARXNDPWIDERBW_GET_FROM_IE(
					ehtcap->eht_phy_cap.phy_cap_bytes);

	dot11f_eht_cap->non_ofdma_ul_mu_mimo_le_80mhz =
			EHTCAP_PHY_NONOFDMAULMUMIMOLT80MHZ_GET_FROM_IE(
					ehtcap->eht_phy_cap.phy_cap_bytes);

	dot11f_eht_cap->non_ofdma_ul_mu_mimo_160mhz =
			EHTCAP_PHY_NONOFDMAULMUMIMO160MHZ_GET_FROM_IE(
					ehtcap->eht_phy_cap.phy_cap_bytes);

	dot11f_eht_cap->non_ofdma_ul_mu_mimo_320mhz =
			EHTCAP_PHY_NONOFDMAULMUMIMO320MHZ_GET_FROM_IE(
					ehtcap->eht_phy_cap.phy_cap_bytes);

	dot11f_eht_cap->mu_bformer_le_80mhz =
			EHTCAP_PHY_MUBFMRLT80MHZ_GET_FROM_IE(
					ehtcap->eht_phy_cap.phy_cap_bytes);

	dot11f_eht_cap->mu_bformer_160mhz =
			EHTCAP_PHY_MUBFMR160MHZ_GET_FROM_IE(
					ehtcap->eht_phy_cap.phy_cap_bytes);

	dot11f_eht_cap->mu_bformer_320mhz =
			EHTCAP_PHY_MUBFMR320MHZ_GET_FROM_IE(
					ehtcap->eht_phy_cap.phy_cap_bytes);

	dot11f_eht_cap->tb_sounding_feedback_rl =
			EHTCAP_PHY_TB_SOUNDING_FB_RL_GET_FROM_IE(
					ehtcap->eht_phy_cap.phy_cap_bytes);

	dot11f_eht_cap->rx_1k_qam_in_wider_bw_dl_ofdma =
			EHTCAP_PHY_RX_1K_QAM_IN_WIDER_BW_DL_OFDMA_GET_FROM_IE(
					ehtcap->eht_phy_cap.phy_cap_bytes);

	dot11f_eht_cap->rx_4k_qam_in_wider_bw_dl_ofdma =
			EHTCAP_PHY_RX_4K_QAM_IN_WIDER_BW_DL_OFDMA_GET_FROM_IE(
					ehtcap->eht_phy_cap.phy_cap_bytes);

	dot11f_eht_cap->limited_cap_support_20mhz =
			EHTCAP_PHY_20MHZ_ONLY_CAPS_GET_FROM_IE(
					ehtcap->eht_phy_cap.phy_cap_bytes);

	dot11f_eht_cap->triggered_mu_bf_full_bw_fb_and_dl_mumimo =
	EHTCAP_PHY_20MHZ_ONLY_TRIGGER_MUBF_FULL_BW_FB_AND_DLMUMIMO_GET_FROM_IE(
					ehtcap->eht_phy_cap.phy_cap_bytes);

	dot11f_eht_cap->mru_support_20mhz =
			EHTCAP_PHY_20MHZ_ONLY_MRU_SUPP_GET_FROM_IE(
					ehtcap->eht_phy_cap.phy_cap_bytes);

	/* Fill EHT MCS and NSS set field */
	if ((is_band_2g && !dot11f_he_cap.chan_width_0) ||
	    (!is_band_2g && !dot11f_he_cap.chan_width_1 &&
	     !dot11f_he_cap.chan_width_2 && !dot11f_he_cap.chan_width_3)) {
		dot11f_eht_cap->bw_20_rx_max_nss_for_mcs_0_to_7 =
			ehtcap_ie_get(ehtcap->mcs_nss_map_bytes[idx],
				      EHTCAP_RX_MCS_NSS_MAP_IDX,
				      EHTCAP_RX_MCS_NSS_MAP_BITS);

		dot11f_eht_cap->bw_20_tx_max_nss_for_mcs_0_to_7 =
			ehtcap_ie_get(ehtcap->mcs_nss_map_bytes[idx],
				      EHTCAP_TX_MCS_NSS_MAP_IDX,
				      EHTCAP_TX_MCS_NSS_MAP_BITS);
		idx++;

		dot11f_eht_cap->bw_20_rx_max_nss_for_mcs_8_and_9 =
			ehtcap_ie_get(ehtcap->mcs_nss_map_bytes[idx],
				      EHTCAP_RX_MCS_NSS_MAP_IDX,
				      EHTCAP_RX_MCS_NSS_MAP_BITS);

		dot11f_eht_cap->bw_20_tx_max_nss_for_mcs_8_and_9 =
			ehtcap_ie_get(ehtcap->mcs_nss_map_bytes[idx],
				      EHTCAP_TX_MCS_NSS_MAP_IDX,
				      EHTCAP_TX_MCS_NSS_MAP_BITS);
		idx++;

		dot11f_eht_cap->bw_20_rx_max_nss_for_mcs_10_and_11 =
			ehtcap_ie_get(ehtcap->mcs_nss_map_bytes[idx],
				      EHTCAP_RX_MCS_NSS_MAP_IDX,
				      EHTCAP_RX_MCS_NSS_MAP_BITS);

		dot11f_eht_cap->bw_20_tx_max_nss_for_mcs_10_and_11 =
			ehtcap_ie_get(ehtcap->mcs_nss_map_bytes[idx],
				      EHTCAP_TX_MCS_NSS_MAP_IDX,
				      EHTCAP_TX_MCS_NSS_MAP_BITS);
		idx++;

		dot11f_eht_cap->bw_20_rx_max_nss_for_mcs_12_and_13 =
			ehtcap_ie_get(ehtcap->mcs_nss_map_bytes[idx],
				      EHTCAP_RX_MCS_NSS_MAP_IDX,
				      EHTCAP_RX_MCS_NSS_MAP_BITS);

		dot11f_eht_cap->bw_20_tx_max_nss_for_mcs_12_and_13 =
			ehtcap_ie_get(ehtcap->mcs_nss_map_bytes[idx],
				      EHTCAP_TX_MCS_NSS_MAP_IDX,
				      EHTCAP_TX_MCS_NSS_MAP_BITS);
		idx++;
	} else {
		if ((is_band_2g && dot11f_he_cap.chan_width_0) ||
		    (!is_band_2g && dot11f_he_cap.chan_width_1)) {
			dot11f_eht_cap->bw_le_80_rx_max_nss_for_mcs_0_to_9 =
				ehtcap_ie_get(ehtcap->mcs_nss_map_bytes[idx],
					      EHTCAP_RX_MCS_NSS_MAP_IDX,
					      EHTCAP_RX_MCS_NSS_MAP_BITS);
			dot11f_eht_cap->bw_20_rx_max_nss_for_mcs_0_to_7 =
			     dot11f_eht_cap->bw_le_80_rx_max_nss_for_mcs_0_to_9;
			dot11f_eht_cap->bw_20_rx_max_nss_for_mcs_8_and_9 =
			     dot11f_eht_cap->bw_le_80_rx_max_nss_for_mcs_0_to_9;

			dot11f_eht_cap->bw_le_80_tx_max_nss_for_mcs_0_to_9 =
				ehtcap_ie_get(ehtcap->mcs_nss_map_bytes[idx],
					      EHTCAP_TX_MCS_NSS_MAP_IDX,
					      EHTCAP_TX_MCS_NSS_MAP_BITS);
			dot11f_eht_cap->bw_20_tx_max_nss_for_mcs_0_to_7 =
			     dot11f_eht_cap->bw_le_80_tx_max_nss_for_mcs_0_to_9;
			dot11f_eht_cap->bw_20_tx_max_nss_for_mcs_8_and_9 =
			     dot11f_eht_cap->bw_le_80_tx_max_nss_for_mcs_0_to_9;
			idx++;

			dot11f_eht_cap->bw_le_80_rx_max_nss_for_mcs_10_and_11 =
				ehtcap_ie_get(ehtcap->mcs_nss_map_bytes[idx],
					      EHTCAP_RX_MCS_NSS_MAP_IDX,
					      EHTCAP_RX_MCS_NSS_MAP_BITS);
			dot11f_eht_cap->bw_20_rx_max_nss_for_mcs_10_and_11 =
			  dot11f_eht_cap->bw_le_80_rx_max_nss_for_mcs_10_and_11;

			dot11f_eht_cap->bw_le_80_tx_max_nss_for_mcs_10_and_11 =
				ehtcap_ie_get(ehtcap->mcs_nss_map_bytes[idx],
					      EHTCAP_TX_MCS_NSS_MAP_IDX,
					      EHTCAP_TX_MCS_NSS_MAP_BITS);
			dot11f_eht_cap->bw_20_tx_max_nss_for_mcs_10_and_11 =
			  dot11f_eht_cap->bw_le_80_tx_max_nss_for_mcs_10_and_11;
			idx++;

			dot11f_eht_cap->bw_le_80_rx_max_nss_for_mcs_12_and_13 =
				ehtcap_ie_get(ehtcap->mcs_nss_map_bytes[idx],
					      EHTCAP_RX_MCS_NSS_MAP_IDX,
					      EHTCAP_RX_MCS_NSS_MAP_BITS);
			dot11f_eht_cap->bw_20_rx_max_nss_for_mcs_12_and_13 =
			  dot11f_eht_cap->bw_le_80_rx_max_nss_for_mcs_12_and_13;

			dot11f_eht_cap->bw_le_80_tx_max_nss_for_mcs_12_and_13 =
				ehtcap_ie_get(ehtcap->mcs_nss_map_bytes[idx],
					      EHTCAP_TX_MCS_NSS_MAP_IDX,
					      EHTCAP_TX_MCS_NSS_MAP_BITS);
			dot11f_eht_cap->bw_20_tx_max_nss_for_mcs_12_and_13 =
			  dot11f_eht_cap->bw_le_80_tx_max_nss_for_mcs_12_and_13;
			idx++;
		}

		if (dot11f_he_cap.chan_width_2 == 1) {
			dot11f_eht_cap->bw_160_rx_max_nss_for_mcs_0_to_9 =
				ehtcap_ie_get(ehtcap->mcs_nss_map_bytes[idx],
					      EHTCAP_RX_MCS_NSS_MAP_IDX,
					      EHTCAP_RX_MCS_NSS_MAP_BITS);

			dot11f_eht_cap->bw_160_tx_max_nss_for_mcs_0_to_9 =
				ehtcap_ie_get(ehtcap->mcs_nss_map_bytes[idx],
					      EHTCAP_TX_MCS_NSS_MAP_IDX,
					      EHTCAP_TX_MCS_NSS_MAP_BITS);
			idx++;

			dot11f_eht_cap->bw_160_rx_max_nss_for_mcs_10_and_11 =
				ehtcap_ie_get(ehtcap->mcs_nss_map_bytes[idx],
					      EHTCAP_RX_MCS_NSS_MAP_IDX,
					      EHTCAP_RX_MCS_NSS_MAP_BITS);

			dot11f_eht_cap->bw_160_tx_max_nss_for_mcs_10_and_11 =
				ehtcap_ie_get(ehtcap->mcs_nss_map_bytes[idx],
					      EHTCAP_TX_MCS_NSS_MAP_IDX,
					      EHTCAP_TX_MCS_NSS_MAP_BITS);
			idx++;

			dot11f_eht_cap->bw_160_rx_max_nss_for_mcs_12_and_13 =
				ehtcap_ie_get(ehtcap->mcs_nss_map_bytes[idx],
					      EHTCAP_RX_MCS_NSS_MAP_IDX,
					      EHTCAP_RX_MCS_NSS_MAP_BITS);

			dot11f_eht_cap->bw_160_tx_max_nss_for_mcs_12_and_13 =
				ehtcap_ie_get(ehtcap->mcs_nss_map_bytes[idx],
					      EHTCAP_TX_MCS_NSS_MAP_IDX,
					      EHTCAP_TX_MCS_NSS_MAP_BITS);
			idx++;
		}

		if (dot11f_eht_cap->support_320mhz_6ghz) {
			dot11f_eht_cap->bw_320_rx_max_nss_for_mcs_0_to_9 =
				ehtcap_ie_get(ehtcap->mcs_nss_map_bytes[idx],
					      EHTCAP_RX_MCS_NSS_MAP_IDX,
					      EHTCAP_RX_MCS_NSS_MAP_BITS);

			dot11f_eht_cap->bw_320_tx_max_nss_for_mcs_0_to_9 =
				ehtcap_ie_get(ehtcap->mcs_nss_map_bytes[idx],
					      EHTCAP_TX_MCS_NSS_MAP_IDX,
					      EHTCAP_TX_MCS_NSS_MAP_BITS);
			idx++;

			dot11f_eht_cap->bw_320_rx_max_nss_for_mcs_10_and_11 =
				ehtcap_ie_get(ehtcap->mcs_nss_map_bytes[idx],
					      EHTCAP_RX_MCS_NSS_MAP_IDX,
					      EHTCAP_RX_MCS_NSS_MAP_BITS);

			dot11f_eht_cap->bw_320_tx_max_nss_for_mcs_10_and_11 =
				ehtcap_ie_get(ehtcap->mcs_nss_map_bytes[idx],
					      EHTCAP_TX_MCS_NSS_MAP_IDX,
					      EHTCAP_TX_MCS_NSS_MAP_BITS);
			idx++;

			dot11f_eht_cap->bw_320_rx_max_nss_for_mcs_12_and_13 =
				ehtcap_ie_get(ehtcap->mcs_nss_map_bytes[idx],
					      EHTCAP_RX_MCS_NSS_MAP_IDX,
					      EHTCAP_RX_MCS_NSS_MAP_BITS);

			dot11f_eht_cap->bw_320_tx_max_nss_for_mcs_12_and_13 =
				ehtcap_ie_get(ehtcap->mcs_nss_map_bytes[idx],
					      EHTCAP_TX_MCS_NSS_MAP_IDX,
					      EHTCAP_TX_MCS_NSS_MAP_BITS);
			idx++;
		}
	}

	/* Fill in TxRx EHT NSS & MCS support */
	mcs_map_len = idx;
	//ehtcap->elem_len = EHTCAP_FIXED_LEN + mcs_map_len;
	//ehtcaplen = ehtcap->elem_len + WLAN_IE_HDR_LEN;

	return QDF_STATUS_SUCCESS;
}

QDF_STATUS lim_strip_and_decode_eht_cap(uint8_t *ie, uint16_t ie_len,
					tDot11fIEeht_cap *dot11f_eht_cap,
					tDot11fIEhe_cap dot11f_he_cap,
					uint16_t freq)
{
	const uint8_t *eht_cap_ie;
	bool is_band_2g;
	QDF_STATUS status;

	eht_cap_ie = lim_get_ext_ie_ptr_from_ext_id(ie, ie_len,
						    EHT_CAP_OUI_TYPE,
						    EHT_CAP_OUI_SIZE);

	if (!eht_cap_ie)
		return QDF_STATUS_SUCCESS;

	is_band_2g = WLAN_REG_IS_24GHZ_CH_FREQ(freq);

	status = lim_ieee80211_unpack_ehtcap(eht_cap_ie, dot11f_eht_cap,
					     dot11f_he_cap,
					     is_band_2g);

	if (status != QDF_STATUS_SUCCESS) {
		pe_err("Failed to extract eht cap");
		return QDF_STATUS_E_FAILURE;
	}

	return QDF_STATUS_SUCCESS;
}

void lim_ieee80211_pack_ehtcap(uint8_t *ie, tDot11fIEeht_cap dot11f_eht_cap,
			       tDot11fIEhe_cap dot11f_he_cap, bool is_band_2g)
{
	struct wlan_ie_ehtcaps *ehtcap  = (struct wlan_ie_ehtcaps *)ie;
	uint32_t ehtcaplen;
	uint32_t val, idx = 0;
	bool chwidth_320;
	uint32_t mcs_map_len;

	if (!ie) {
		pe_err("ie is null");
		return;
	}

	/* deduct the variable size fields before
	 * memsetting hecap to 0
	 */
	qdf_mem_zero(ehtcap,
		     (sizeof(struct wlan_ie_ehtcaps)));

	ehtcap->elem_id = DOT11F_EID_EHT_CAP;
	/* elem id + len = 2 bytes  readjust based on
	 *  mcs-nss and ppet fields
	 */
	qdf_mem_copy(&ehtcap->elem_id_extn, EHT_CAP_OUI_TYPE, EHT_CAP_OUI_SIZE);

	val = dot11f_eht_cap.epcs_pri_access;
	EHTCAP_MAC_EPCSPRIACCESS_SET_TO_IE(ehtcap->eht_mac_cap, val);

	val = dot11f_eht_cap.eht_om_ctl;
	EHTCAP_MAC_EHTOMCTRL_SET_TO_IE(ehtcap->eht_mac_cap, val);

	val = dot11f_eht_cap.triggered_txop_sharing_mode1;
	EHTCAP_MAC_TRIGTXOP_MODE1_SET_TO_IE(ehtcap->eht_mac_cap, val);

	val = dot11f_eht_cap.triggered_txop_sharing_mode2;
	EHTCAP_MAC_TRIGTXOP_MODE2_SET_TO_IE(ehtcap->eht_mac_cap, val);

	val = dot11f_eht_cap.restricted_twt;
	EHTCAP_MAC_RESTRICTED_TWT_SET_TO_IE(ehtcap->eht_mac_cap, val);

	val = dot11f_eht_cap.scs_traffic_desc;
	EHTCAP_MAC_SCS_TRAFFIC_DESC_SET_TO_IE(ehtcap->eht_mac_cap, val);

	val = dot11f_eht_cap.max_mpdu_len;
	EHTCAP_MAC_MAX_MPDU_LEN_SET_TO_IE(ehtcap->eht_mac_cap, val);

	val = dot11f_eht_cap.max_a_mpdu_len_exponent_ext;
	EHTCAP_MAC_MAX_A_MPDU_LEN_EXPONENT_EXT_SET_TO_IE(ehtcap->eht_mac_cap,
							 val);

	val = dot11f_eht_cap.eht_trs_support;
	EHTCAP_MAC_EHT_TRS_SUPPORT_SET_TO_IE(ehtcap->eht_mac_cap, val);

	val = dot11f_eht_cap.txop_return_support_txop_share_m2;
	EHTCAP_MAC_TXOP_RETURN_SUPPORT_SHARE_M2_SET_FROM_IE(ehtcap->eht_mac_cap,
							    val);
	val = dot11f_eht_cap.two_bqrs_support;
	EHTCAP_MAC_TWO_BQRS_SUPP_SET_FROM_IE(ehtcap->eht_mac_cap,
					     val);

	val = dot11f_eht_cap.eht_link_adaptation_support;
	EHTCAP_MAC_EHT_LINK_ADAPTATION_SUPP_SET_FROM_IE(ehtcap->eht_mac_cap,
							val);

	chwidth_320 = dot11f_eht_cap.support_320mhz_6ghz;
	EHTCAP_PHY_320MHZIN6GHZ_SET_TO_IE(ehtcap->eht_phy_cap.phy_cap_bytes,
					  chwidth_320);

	val = dot11f_eht_cap.ru_242tone_wt_20mhz;
	EHTCAP_PHY_242TONERUBWGT20MHZ_SET_TO_IE(
				      ehtcap->eht_phy_cap.phy_cap_bytes, val);

	val = dot11f_eht_cap.ndp_4x_eht_ltf_3dot2_us_gi;
	EHTCAP_PHY_NDP4XEHTLTFAND320NSGI_SET_TO_IE(
				     ehtcap->eht_phy_cap.phy_cap_bytes, val);

	val = dot11f_eht_cap.partial_bw_mu_mimo;
	EHTCAP_PHY_PARTIALBWULMU_SET_TO_IE(
				     ehtcap->eht_phy_cap.phy_cap_bytes, val);

	val = dot11f_eht_cap.su_beamformer;
	EHTCAP_PHY_SUBFMR_SET_TO_IE(ehtcap->eht_phy_cap.phy_cap_bytes, val);

	val = dot11f_eht_cap.su_beamformee;
	EHTCAP_PHY_SUBFME_SET_TO_IE(ehtcap->eht_phy_cap.phy_cap_bytes, val);

	val = dot11f_eht_cap.bfee_ss_le_80mhz;
	EHTCAP_PHY_BFMESSLT80MHZ_SET_TO_IE_BYTE0(
				     ehtcap->eht_phy_cap.phy_cap_bytes,
				     val & 1);

	EHTCAP_PHY_BFMESSLT80MHZ_SET_TO_IE_BYTE1(
				     ehtcap->eht_phy_cap.phy_cap_bytes,
				     (val >> 1));
	val = dot11f_eht_cap.bfee_ss_160mhz;
	EHTCAP_PHY_BFMESS160MHZ_SET_TO_IE(
				     ehtcap->eht_phy_cap.phy_cap_bytes, val);

	val = dot11f_eht_cap.bfee_ss_320mhz;
	EHTCAP_PHY_BFMESS320MHZ_SET_TO_IE(
				     ehtcap->eht_phy_cap.phy_cap_bytes, val);

	val = dot11f_eht_cap.num_sounding_dim_le_80mhz;
	EHTCAP_PHY_NUMSOUNDLT80MHZ_SET_TO_IE(
				     ehtcap->eht_phy_cap.phy_cap_bytes, val);

	val = dot11f_eht_cap.num_sounding_dim_160mhz;
	EHTCAP_PHY_NUMSOUND160MHZ_SET_TO_IE(
				     ehtcap->eht_phy_cap.phy_cap_bytes, val);

	val = dot11f_eht_cap.num_sounding_dim_320mhz;
	EHTCAP_PHY_NUMSOUND320MHZ_SET_TO_IE(
				     ehtcap->eht_phy_cap.phy_cap_bytes, val);

	val = dot11f_eht_cap.ng_16_su_feedback;
	EHTCAP_PHY_NG16SUFB_SET_TO_IE(ehtcap->eht_phy_cap.phy_cap_bytes, val);

	val = dot11f_eht_cap.ng_16_mu_feedback;
	EHTCAP_PHY_NG16MUFB_SET_TO_IE(ehtcap->eht_phy_cap.phy_cap_bytes, val);

	val = dot11f_eht_cap.cb_sz_4_2_su_feedback;
	EHTCAP_PHY_CODBK42SUFB_SET_TO_IE(
				     ehtcap->eht_phy_cap.phy_cap_bytes, val);

	val = dot11f_eht_cap.cb_sz_7_5_su_feedback;
	EHTCAP_PHY_CODBK75MUFB_SET_TO_IE(
				     ehtcap->eht_phy_cap.phy_cap_bytes, val);

	val = dot11f_eht_cap.trig_su_bforming_feedback;
	EHTCAP_PHY_TRIGSUBFFB_SET_TO_IE(
				     ehtcap->eht_phy_cap.phy_cap_bytes, val);

	val = dot11f_eht_cap.trig_mu_bforming_partial_bw_feedback;
	EHTCAP_PHY_TRIGMUBFPARTBWFB_SET_TO_IE(
				     ehtcap->eht_phy_cap.phy_cap_bytes, val);

	val = dot11f_eht_cap.triggered_cqi_feedback;
	EHTCAP_PHY_TRIGCQIFB_SET_TO_IE(ehtcap->eht_phy_cap.phy_cap_bytes, val);

	val = dot11f_eht_cap.partial_bw_dl_mu_mimo;
	EHTCAP_PHY_PARTBWDLMUMIMO_SET_TO_IE(
				     ehtcap->eht_phy_cap.phy_cap_bytes, val);

	val = dot11f_eht_cap.psr_based_sr;
	EHTCAP_PHY_PSRSR_SET_TO_IE(ehtcap->eht_phy_cap.phy_cap_bytes, val);

	val = dot11f_eht_cap.power_boost_factor;
	EHTCAP_PHY_PWRBSTFACTOR_SET_TO_IE(
				     ehtcap->eht_phy_cap.phy_cap_bytes, val);

	val = dot11f_eht_cap.eht_mu_ppdu_4x_ltf_0_8_us_gi;
	EHTCAP_PHY_4XEHTMULTFAND800NSGI_SET_TO_IE(
				     ehtcap->eht_phy_cap.phy_cap_bytes, val);

	val = dot11f_eht_cap.max_nc;
	EHTCAP_PHY_MAXNC_SET_TO_IE(ehtcap->eht_phy_cap.phy_cap_bytes, val);

	val = dot11f_eht_cap.non_trig_cqi_feedback;
	EHTCAP_PHY_NONTRIGCQIFB_SET_TO_IE(
				     ehtcap->eht_phy_cap.phy_cap_bytes, val);

	val = dot11f_eht_cap.tx_1024_4096_qam_lt_242_tone_ru;
	EHTCAP_PHY_TX1024AND4096QAMLT242TONERU_SET_TO_IE(
				     ehtcap->eht_phy_cap.phy_cap_bytes, val);

	val = dot11f_eht_cap.rx_1024_4096_qam_lt_242_tone_ru;
	EHTCAP_PHY_RX1024AND4096QAMLT242TONERU_SET_TO_IE(
				     ehtcap->eht_phy_cap.phy_cap_bytes, val);

	val = dot11f_eht_cap.ppet_present;
	EHTCAP_PHY_PPETHRESPRESENT_SET_TO_IE(
				     ehtcap->eht_phy_cap.phy_cap_bytes, val);

	val = dot11f_eht_cap.common_nominal_pkt_padding;
	EHTCAP_PHY_CMNNOMPKTPAD_SET_TO_IE(
				     ehtcap->eht_phy_cap.phy_cap_bytes, val);

	val = dot11f_eht_cap.max_num_eht_ltf;
	EHTCAP_PHY_MAXNUMEHTLTF_SET_TO_IE(
				     ehtcap->eht_phy_cap.phy_cap_bytes, val);

	val = dot11f_eht_cap.mcs_15;
	EHTCAP_PHY_SUPMCS15_SET_TO_IE(ehtcap->eht_phy_cap.phy_cap_bytes, val);

	val = dot11f_eht_cap.eht_dup_6ghz;
	EHTCAP_PHY_EHTDUPIN6GHZ_SET_TO_IE(
				     ehtcap->eht_phy_cap.phy_cap_bytes, val);

	val = dot11f_eht_cap.op_sta_rx_ndp_wider_bw_20mhz;
	EHTCAP_PHY_20MHZOPSTARXNDPWIDERBW_SET_TO_IE(
				     ehtcap->eht_phy_cap.phy_cap_bytes, val);

	val = dot11f_eht_cap.non_ofdma_ul_mu_mimo_le_80mhz;
	EHTCAP_PHY_NONOFDMAULMUMIMOLT80MHZ_SET_TO_IE(
				     ehtcap->eht_phy_cap.phy_cap_bytes, val);

	val = dot11f_eht_cap.non_ofdma_ul_mu_mimo_160mhz;
	EHTCAP_PHY_NONOFDMAULMUMIMO160MHZ_SET_TO_IE(
				     ehtcap->eht_phy_cap.phy_cap_bytes, val);

	val = dot11f_eht_cap.non_ofdma_ul_mu_mimo_320mhz;
	EHTCAP_PHY_NONOFDMAULMUMIMO320MHZ_SET_TO_IE(
				     ehtcap->eht_phy_cap.phy_cap_bytes, val);

	val = dot11f_eht_cap.mu_bformer_le_80mhz;
	EHTCAP_PHY_MUBFMRLT80MHZ_SET_TO_IE(
				     ehtcap->eht_phy_cap.phy_cap_bytes, val);

	val = dot11f_eht_cap.mu_bformer_160mhz;
	EHTCAP_PHY_MUBFMR160MHZ_SET_TO_IE(
				     ehtcap->eht_phy_cap.phy_cap_bytes, val);

	val = dot11f_eht_cap.mu_bformer_320mhz;
	EHTCAP_PHY_MUBFMR320MHZ_SET_TO_IE(
				     ehtcap->eht_phy_cap.phy_cap_bytes, val);

	val = dot11f_eht_cap.tb_sounding_feedback_rl;
	EHTCAP_PHY_TB_SOUNDING_FB_RL_SET_TO_IE(
				     ehtcap->eht_phy_cap.phy_cap_bytes,	val);

	val = dot11f_eht_cap.rx_1k_qam_in_wider_bw_dl_ofdma;
	EHTCAP_PHY_RX_1K_QAM_IN_WIDER_BW_DL_OFDMA_SET_TO_IE(
				     ehtcap->eht_phy_cap.phy_cap_bytes, val);

	val = dot11f_eht_cap.rx_4k_qam_in_wider_bw_dl_ofdma;
	EHTCAP_PHY_RX_4K_QAM_IN_WIDER_BW_DL_OFDMA_SET_TO_IE(
				     ehtcap->eht_phy_cap.phy_cap_bytes, val);

	val = dot11f_eht_cap.limited_cap_support_20mhz;
	EHTCAP_PHY_20MHZ_ONLY_CAPS_SET_TO_IE(
				     ehtcap->eht_phy_cap.phy_cap_bytes, val);

	val = dot11f_eht_cap.triggered_mu_bf_full_bw_fb_and_dl_mumimo;
	EHTCAP_PHY_20MHZ_ONLY_TRIGGER_MUBF_FULL_BW_FB_AND_DLMUMIMO_SET_TO_IE(
				     ehtcap->eht_phy_cap.phy_cap_bytes, val);

	val = dot11f_eht_cap.mru_support_20mhz;
	EHTCAP_PHY_20MHZ_ONLY_MRU_SUPP_SET_TO_IE(
				     ehtcap->eht_phy_cap.phy_cap_bytes, val);

	/* Fill EHT MCS and NSS set field */
	if ((is_band_2g && !dot11f_he_cap.chan_width_0) ||
	    (!is_band_2g && !dot11f_he_cap.chan_width_1 &&
	     !dot11f_he_cap.chan_width_2 && !dot11f_he_cap.chan_width_3)) {
		val = dot11f_eht_cap.bw_20_rx_max_nss_for_mcs_0_to_7;
		ehtcap_ie_set(&ehtcap->mcs_nss_map_bytes[idx],
			      EHTCAP_RX_MCS_NSS_MAP_IDX,
			      EHTCAP_RX_MCS_NSS_MAP_BITS, val);

		val = dot11f_eht_cap.bw_20_tx_max_nss_for_mcs_0_to_7;
		ehtcap_ie_set(&ehtcap->mcs_nss_map_bytes[idx],
			      EHTCAP_TX_MCS_NSS_MAP_IDX,
			      EHTCAP_TX_MCS_NSS_MAP_BITS, val);
		idx++;

		val = dot11f_eht_cap.bw_20_rx_max_nss_for_mcs_8_and_9;
		ehtcap_ie_set(&ehtcap->mcs_nss_map_bytes[idx],
			      EHTCAP_RX_MCS_NSS_MAP_IDX,
			      EHTCAP_RX_MCS_NSS_MAP_BITS, val);

		val = dot11f_eht_cap.bw_20_tx_max_nss_for_mcs_8_and_9;
		ehtcap_ie_set(&ehtcap->mcs_nss_map_bytes[idx],
			      EHTCAP_TX_MCS_NSS_MAP_IDX,
			      EHTCAP_TX_MCS_NSS_MAP_BITS, val);
		idx++;

		val = dot11f_eht_cap.bw_20_rx_max_nss_for_mcs_10_and_11;
		ehtcap_ie_set(&ehtcap->mcs_nss_map_bytes[idx],
			      EHTCAP_RX_MCS_NSS_MAP_IDX,
			      EHTCAP_RX_MCS_NSS_MAP_BITS, val);

		val = dot11f_eht_cap.bw_20_tx_max_nss_for_mcs_10_and_11;
		ehtcap_ie_set(&ehtcap->mcs_nss_map_bytes[idx],
			      EHTCAP_TX_MCS_NSS_MAP_IDX,
			      EHTCAP_TX_MCS_NSS_MAP_BITS, val);
		idx++;

		val = dot11f_eht_cap.bw_20_rx_max_nss_for_mcs_12_and_13;
		ehtcap_ie_set(&ehtcap->mcs_nss_map_bytes[idx],
			      EHTCAP_RX_MCS_NSS_MAP_IDX,
			      EHTCAP_RX_MCS_NSS_MAP_BITS, val);

		val = dot11f_eht_cap.bw_20_tx_max_nss_for_mcs_12_and_13;
		ehtcap_ie_set(&ehtcap->mcs_nss_map_bytes[idx],
			      EHTCAP_TX_MCS_NSS_MAP_IDX,
			      EHTCAP_TX_MCS_NSS_MAP_BITS, val);
		idx++;
	} else {
		if ((is_band_2g && dot11f_he_cap.chan_width_0) ||
		    (!is_band_2g && dot11f_he_cap.chan_width_1)) {
			val = dot11f_eht_cap.bw_le_80_rx_max_nss_for_mcs_0_to_9;
			ehtcap_ie_set(&ehtcap->mcs_nss_map_bytes[idx],
				      EHTCAP_RX_MCS_NSS_MAP_IDX,
				      EHTCAP_RX_MCS_NSS_MAP_BITS, val);

			val = dot11f_eht_cap.bw_le_80_tx_max_nss_for_mcs_0_to_9;
			ehtcap_ie_set(&ehtcap->mcs_nss_map_bytes[idx],
				      EHTCAP_TX_MCS_NSS_MAP_IDX,
				      EHTCAP_TX_MCS_NSS_MAP_BITS, val);
			idx++;

			val = dot11f_eht_cap.bw_le_80_rx_max_nss_for_mcs_10_and_11;
			ehtcap_ie_set(&ehtcap->mcs_nss_map_bytes[idx],
				      EHTCAP_RX_MCS_NSS_MAP_IDX,
				      EHTCAP_RX_MCS_NSS_MAP_BITS, val);

			val = dot11f_eht_cap.bw_le_80_tx_max_nss_for_mcs_10_and_11;
			ehtcap_ie_set(&ehtcap->mcs_nss_map_bytes[idx],
				      EHTCAP_TX_MCS_NSS_MAP_IDX,
				      EHTCAP_TX_MCS_NSS_MAP_BITS, val);
			idx++;

			val = dot11f_eht_cap.bw_le_80_rx_max_nss_for_mcs_12_and_13;
			ehtcap_ie_set(&ehtcap->mcs_nss_map_bytes[idx],
				      EHTCAP_RX_MCS_NSS_MAP_IDX,
				      EHTCAP_RX_MCS_NSS_MAP_BITS, val);

			val = dot11f_eht_cap.bw_le_80_tx_max_nss_for_mcs_12_and_13;
			ehtcap_ie_set(&ehtcap->mcs_nss_map_bytes[idx],
				      EHTCAP_TX_MCS_NSS_MAP_IDX,
				      EHTCAP_TX_MCS_NSS_MAP_BITS, val);
			idx++;
		}

		if (dot11f_he_cap.chan_width_2 == 1) {
			val = dot11f_eht_cap.bw_160_rx_max_nss_for_mcs_0_to_9;
			ehtcap_ie_set(&ehtcap->mcs_nss_map_bytes[idx],
				      EHTCAP_RX_MCS_NSS_MAP_IDX,
				      EHTCAP_RX_MCS_NSS_MAP_BITS, val);

			val = dot11f_eht_cap.bw_160_tx_max_nss_for_mcs_0_to_9;
			ehtcap_ie_set(&ehtcap->mcs_nss_map_bytes[idx],
				      EHTCAP_TX_MCS_NSS_MAP_IDX,
				      EHTCAP_TX_MCS_NSS_MAP_BITS, val);
			idx++;

			val = dot11f_eht_cap.bw_160_rx_max_nss_for_mcs_10_and_11;
			ehtcap_ie_set(&ehtcap->mcs_nss_map_bytes[idx],
				      EHTCAP_RX_MCS_NSS_MAP_IDX,
				      EHTCAP_RX_MCS_NSS_MAP_BITS, val);

			val = dot11f_eht_cap.bw_160_tx_max_nss_for_mcs_10_and_11;
			ehtcap_ie_set(&ehtcap->mcs_nss_map_bytes[idx],
				      EHTCAP_TX_MCS_NSS_MAP_IDX,
				      EHTCAP_TX_MCS_NSS_MAP_BITS, val);
			idx++;

			val = dot11f_eht_cap.bw_160_rx_max_nss_for_mcs_12_and_13;
			ehtcap_ie_set(&ehtcap->mcs_nss_map_bytes[idx],
				      EHTCAP_RX_MCS_NSS_MAP_IDX,
				      EHTCAP_RX_MCS_NSS_MAP_BITS, val);

			val = dot11f_eht_cap.bw_160_tx_max_nss_for_mcs_12_and_13;
			ehtcap_ie_set(&ehtcap->mcs_nss_map_bytes[idx],
				      EHTCAP_TX_MCS_NSS_MAP_IDX,
				      EHTCAP_TX_MCS_NSS_MAP_BITS, val);
			idx++;
		}

		if (chwidth_320) {
			val = dot11f_eht_cap.bw_320_rx_max_nss_for_mcs_0_to_9;
			ehtcap_ie_set(&ehtcap->mcs_nss_map_bytes[idx],
				      EHTCAP_RX_MCS_NSS_MAP_IDX,
				      EHTCAP_RX_MCS_NSS_MAP_BITS, val);

			val = dot11f_eht_cap.bw_320_tx_max_nss_for_mcs_0_to_9;
			ehtcap_ie_set(&ehtcap->mcs_nss_map_bytes[idx],
				      EHTCAP_TX_MCS_NSS_MAP_IDX,
				      EHTCAP_TX_MCS_NSS_MAP_BITS, val);
			idx++;

			val = dot11f_eht_cap.bw_320_rx_max_nss_for_mcs_10_and_11;
			ehtcap_ie_set(&ehtcap->mcs_nss_map_bytes[idx],
				      EHTCAP_RX_MCS_NSS_MAP_IDX,
				      EHTCAP_RX_MCS_NSS_MAP_BITS, val);

			val = dot11f_eht_cap.bw_320_tx_max_nss_for_mcs_10_and_11;
			ehtcap_ie_set(&ehtcap->mcs_nss_map_bytes[idx],
				      EHTCAP_TX_MCS_NSS_MAP_IDX,
				      EHTCAP_TX_MCS_NSS_MAP_BITS, val);
			idx++;

			val = dot11f_eht_cap.bw_320_rx_max_nss_for_mcs_12_and_13;
			ehtcap_ie_set(&ehtcap->mcs_nss_map_bytes[idx],
				      EHTCAP_RX_MCS_NSS_MAP_IDX,
				      EHTCAP_RX_MCS_NSS_MAP_BITS, val);

			val = dot11f_eht_cap.bw_320_tx_max_nss_for_mcs_12_and_13;
			ehtcap_ie_set(&ehtcap->mcs_nss_map_bytes[idx],
				      EHTCAP_TX_MCS_NSS_MAP_IDX,
				      EHTCAP_TX_MCS_NSS_MAP_BITS, val);
			idx++;
		}
	}

	/* Fill in TxRx EHT NSS & MCS support */
	mcs_map_len = idx;
	ehtcap->elem_len = EHTCAP_FIXED_LEN + mcs_map_len;
	ehtcaplen = ehtcap->elem_len + WLAN_IE_HDR_LEN;
}

#ifdef WLAN_SUPPORT_TWT
static void
populate_dot11f_rtwt_eht_cap(struct mac_context *mac,
			    tDot11fIEeht_cap *eht_cap)
{
	bool restricted_support = false;

	wlan_twt_get_rtwt_support(mac->psoc, &restricted_support);

	pe_debug("rTWT support: %d", restricted_support);

	eht_cap->restricted_twt = restricted_support;
}
#else
static inline void
populate_dot11f_rtwt_eht_cap(struct mac_context *mac,
			    tDot11fIEeht_cap *eht_cap)
{
	eht_cap->restricted_twt = false;
}
#endif
static void
populate_dot11f_revise_eht_caps(struct pe_session *session,
				tDot11fIEeht_cap *eht_cap)
{
	if (session->ch_width != CH_WIDTH_320MHZ)
		eht_cap->support_320mhz_6ghz = 0;

	if (wlan_epcs_get_config(session->vdev))
		eht_cap->epcs_pri_access = 1;
	else
		eht_cap->epcs_pri_access = 0;
}

QDF_STATUS populate_dot11f_eht_caps(struct mac_context *mac_ctx,
				    struct pe_session *session,
				    tDot11fIEeht_cap *eht_cap)
{
	eht_cap->present = 1;

	if (!session) {
		qdf_mem_copy(eht_cap,
			     &mac_ctx->mlme_cfg->eht_caps.dot11_eht_cap,
			     sizeof(tDot11fIEeht_cap));
		return QDF_STATUS_SUCCESS;
	}

	/** TODO: String items needs attention. **/
	qdf_mem_copy(eht_cap, &session->eht_config, sizeof(*eht_cap));
	populate_dot11f_revise_eht_caps(session, eht_cap);

	populate_dot11f_rtwt_eht_cap(mac_ctx, eht_cap);
	return QDF_STATUS_SUCCESS;
}

QDF_STATUS
populate_dot11f_eht_caps_by_band(struct mac_context *mac_ctx,
				 bool is_2g, tDot11fIEeht_cap *eht_cap,
				 struct pe_session *session)
{
	pe_debug("is_2g %d", is_2g);
	if (is_2g)
		qdf_mem_copy(eht_cap,
			     &mac_ctx->eht_cap_2g,
			     sizeof(tDot11fIEeht_cap));
	else
		qdf_mem_copy(eht_cap,
			     &mac_ctx->eht_cap_5g,
			     sizeof(tDot11fIEeht_cap));
	if (session)
		populate_dot11f_revise_eht_caps(session, eht_cap);

	populate_dot11f_rtwt_eht_cap(mac_ctx, eht_cap);
	return QDF_STATUS_SUCCESS;
}

QDF_STATUS lim_strip_and_decode_eht_op(uint8_t *ie, uint16_t ie_len,
				       tDot11fIEeht_op *dot11f_eht_op,
				       tDot11fIEVHTOperation dot11f_vht_op,
				       tDot11fIEhe_op dot11f_he_op,
				       tDot11fIEHTInfo dot11f_ht_info)
{
	const uint8_t *eht_op_ie;
	QDF_STATUS status;

	eht_op_ie = lim_get_ext_ie_ptr_from_ext_id(ie, ie_len,
						   EHT_OP_OUI_TYPE,
						   EHT_OP_OUI_SIZE);

	if (!eht_op_ie)
		return QDF_STATUS_SUCCESS;

	status = lim_ieee80211_unpack_ehtop(eht_op_ie, dot11f_eht_op,
					    dot11f_vht_op, dot11f_he_op,
					    dot11f_ht_info);

	if (status != QDF_STATUS_SUCCESS) {
		pe_err("Failed to extract eht op");
		return QDF_STATUS_E_FAILURE;
	}

	return QDF_STATUS_SUCCESS;
}

void lim_ieee80211_pack_ehtop(uint8_t *ie, tDot11fIEeht_op dot11f_eht_op,
			      tDot11fIEVHTOperation dot11f_vht_op,
			      tDot11fIEhe_op dot11f_he_op,
			      tDot11fIEHTInfo dot11f_ht_info)
{
	struct wlan_ie_ehtops *ehtop = (struct wlan_ie_ehtops *)ie;
	uint32_t val;
	uint32_t i;
	uint32_t eht_op_info_len = 0;
	uint32_t ehtoplen;
	bool diff_chan_width = false;

	if (!ie) {
		pe_err("ie is null");
		return;
	}

	qdf_mem_zero(ehtop, (sizeof(struct wlan_ie_ehtops)));

	ehtop->elem_id = DOT11F_EID_EHT_OP;

	qdf_mem_copy(&ehtop->elem_id_extn, EHT_OP_OUI_TYPE, EHT_OP_OUI_SIZE);

	if (dot11f_he_op.present && dot11f_he_op.oper_info_6g_present &&
	    (dot11f_he_op.oper_info_6g.info.ch_width !=
	     dot11f_eht_op.channel_width)) {
		diff_chan_width = true;
	} else if (dot11f_vht_op.present &&
		   (dot11f_vht_op.chanWidth != dot11f_eht_op.channel_width)) {
		diff_chan_width = true;
	} else if (dot11f_ht_info.present &&
		   (dot11f_ht_info.recommendedTxWidthSet !=
		    dot11f_eht_op.channel_width)) {
		diff_chan_width = true;
	}

	if (diff_chan_width) {
		val = dot11f_eht_op.eht_op_information_present;
		EHTOP_PARAMS_INFOP_SET_TO_IE(ehtop->ehtop_param, val);
	}

	val = dot11f_eht_op.eht_default_pe_duration;
	EHTOP_PARAMS_EHT_DEF_PE_DURATION_SET_TO_IE(ehtop->ehtop_param, val);

	val = dot11f_eht_op.group_addr_bu_indication_limit;
	EHTOP_PARAMS_GROUP_ADDR_BU_IND_LIMIT_SET_TO_IE(ehtop->ehtop_param, val);

	val = dot11f_eht_op.group_addr_bu_indication_exponent;
	EHTOP_PARAMS_GROUP_ADDR_BU_IND_EXPONENT_SET_TO_IE(ehtop->ehtop_param,
							  val);

	val = dot11f_eht_op.basic_rx_max_nss_for_mcs_0_to_7;
	ehtop_ie_set(&ehtop->basic_mcs_nss_set.max_nss_mcs_0_7,
		     EHTOP_RX_MCS_NSS_MAP_IDX,
		     EHTOP_RX_MCS_NSS_MAP_BITS, val);
	val = dot11f_eht_op.basic_tx_max_nss_for_mcs_0_to_7;
	ehtop_ie_set(&ehtop->basic_mcs_nss_set.max_nss_mcs_0_7,
		     EHTOP_TX_MCS_NSS_MAP_IDX,
		     EHTOP_TX_MCS_NSS_MAP_BITS, val);

	val = dot11f_eht_op.basic_rx_max_nss_for_mcs_8_and_9;
	ehtop_ie_set(&ehtop->basic_mcs_nss_set.max_nss_mcs_8_9,
		     EHTOP_RX_MCS_NSS_MAP_IDX,
		     EHTOP_RX_MCS_NSS_MAP_BITS, val);
	val = dot11f_eht_op.basic_tx_max_nss_for_mcs_8_and_9;
	ehtop_ie_set(&ehtop->basic_mcs_nss_set.max_nss_mcs_8_9,
		     EHTOP_TX_MCS_NSS_MAP_IDX,
		     EHTOP_TX_MCS_NSS_MAP_BITS, val);

	val = dot11f_eht_op.basic_rx_max_nss_for_mcs_10_and_11;
	ehtop_ie_set(&ehtop->basic_mcs_nss_set.max_nss_mcs_10_11,
		     EHTOP_RX_MCS_NSS_MAP_IDX,
		     EHTOP_RX_MCS_NSS_MAP_BITS, val);
	val = dot11f_eht_op.basic_tx_max_nss_for_mcs_10_and_11;
	ehtop_ie_set(&ehtop->basic_mcs_nss_set.max_nss_mcs_10_11,
		     EHTOP_TX_MCS_NSS_MAP_IDX,
		     EHTOP_TX_MCS_NSS_MAP_BITS, val);

	val = dot11f_eht_op.basic_rx_max_nss_for_mcs_12_and_13;
	ehtop_ie_set(&ehtop->basic_mcs_nss_set.max_nss_mcs_12_13,
		     EHTOP_RX_MCS_NSS_MAP_IDX,
		     EHTOP_RX_MCS_NSS_MAP_BITS, val);
	val = dot11f_eht_op.basic_tx_max_nss_for_mcs_12_and_13;
	ehtop_ie_set(&ehtop->basic_mcs_nss_set.max_nss_mcs_12_13,
		     EHTOP_TX_MCS_NSS_MAP_IDX,
		     EHTOP_TX_MCS_NSS_MAP_BITS, val);

	if (EHTOP_PARAMS_INFOP_GET_FROM_IE(ehtop->ehtop_param)) {
		val = dot11f_eht_op.channel_width;
		EHTOP_INFO_CHANWIDTH_SET_TO_IE(ehtop->control, val);

		ehtop->ccfs0 = dot11f_eht_op.ccfs0;

		ehtop->ccfs1 = dot11f_eht_op.ccfs1;
		/*1 byte for Control, 1 byte for CCFS0, 1 bytes for CCFS1*/
		eht_op_info_len += 3;

		if (dot11f_eht_op.disabled_sub_chan_bitmap_present) {
			val = dot11f_eht_op.disabled_sub_chan_bitmap_present;
			EHTOP_PARAMS_DISABLEDSUBCHANBITMAPP_SET_TO_IE(ehtop->ehtop_param, val);

			eht_op_info_len += WLAN_MAX_DISABLED_SUB_CHAN_BITMAP;

			for (i = 0; i < WLAN_MAX_DISABLED_SUB_CHAN_BITMAP; i++)
				ehtop->disabled_sub_chan_bitmap[i] =
				dot11f_eht_op.disabled_sub_chan_bitmap[0][i];
		}
	}

	ehtop->elem_len = EHTOP_FIXED_LEN + eht_op_info_len;
	ehtoplen = ehtop->elem_len + WLAN_IE_HDR_LEN;
}

QDF_STATUS populate_dot11f_eht_operation(struct mac_context *mac_ctx,
					 struct pe_session *session,
					 tDot11fIEeht_op *eht_op)
{
	enum phy_ch_width oper_ch_width;

	qdf_mem_copy(eht_op, &session->eht_op, sizeof(*eht_op));

	eht_op->present = 1;

	eht_op->eht_op_information_present = 1;

	oper_ch_width = wlan_mlme_get_ap_oper_ch_width(session->vdev);
	if (oper_ch_width == CH_WIDTH_320MHZ) {
		eht_op->channel_width = WLAN_EHT_CHWIDTH_320;
		eht_op->ccfs0 = session->ch_center_freq_seg0;
		eht_op->ccfs1 = session->ch_center_freq_seg1;
	} else if (oper_ch_width == CH_WIDTH_160MHZ ||
		   oper_ch_width == CH_WIDTH_80P80MHZ) {
		eht_op->channel_width = WLAN_EHT_CHWIDTH_160;
		eht_op->ccfs0 = session->ch_center_freq_seg0;
		eht_op->ccfs1 = session->ch_center_freq_seg1;
	} else if (oper_ch_width == CH_WIDTH_80MHZ) {
		eht_op->channel_width = WLAN_EHT_CHWIDTH_80;
		eht_op->ccfs0 = session->ch_center_freq_seg0;
		eht_op->ccfs1 = 0;
	} else if (oper_ch_width == CH_WIDTH_40MHZ) {
		eht_op->channel_width = WLAN_EHT_CHWIDTH_40;
		eht_op->ccfs0 = session->ch_center_freq_seg0;
		eht_op->ccfs1 = 0;
	} else if (oper_ch_width == CH_WIDTH_20MHZ) {
		eht_op->channel_width = WLAN_EHT_CHWIDTH_20;
		eht_op->ccfs0 = session->ch_center_freq_seg0;
		eht_op->ccfs1 = 0;
	}

	lim_log_eht_op(mac_ctx, eht_op, session);

	return QDF_STATUS_SUCCESS;
}


QDF_STATUS populate_dot11f_bw_ind_element(struct mac_context *mac_ctx,
					  struct pe_session *session,
					  tDot11fIEbw_ind_element *bw_ind)
{
	tLimChannelSwitchInfo *ch_switch;

	ch_switch = &session->gLimChannelSwitch;
	bw_ind->present = true;
	bw_ind->channel_width =	wlan_mlme_convert_phy_ch_width_to_eht_op_bw(
							ch_switch->ch_width);
	if (ch_switch->puncture_bitmap) {
		bw_ind->disabled_sub_chan_bitmap_present = 1;
		bw_ind->disabled_sub_chan_bitmap[0][0] =
				QDF_GET_BITS(ch_switch->puncture_bitmap, 0, 8);
		bw_ind->disabled_sub_chan_bitmap[0][1] =
				QDF_GET_BITS(ch_switch->puncture_bitmap, 8, 8);
	}
	bw_ind->ccfs0 = ch_switch->ch_center_freq_seg0;
	bw_ind->ccfs1 = ch_switch->ch_center_freq_seg1;

	return QDF_STATUS_SUCCESS;
}

#endif /* WLAN_FEATURE_11BE */

#ifdef WLAN_FEATURE_11BE_MLO
QDF_STATUS
populate_dot11f_probe_req_mlo_ie(struct mac_context *mac,
				 struct pe_session *session)
{
	struct wlan_mlo_ie *mlo_ie;
	uint8_t *p_ml_ie, *sta_data;
	uint16_t len_remaining, sta_len_left;
	struct wlan_mlo_sta_profile *sta_pro;
	int num_sta_pro = 0;
	struct mlo_partner_info partner_info;
	uint8_t link;

	if (!session || !session->vdev || !session->vdev->mlo_dev_ctx) {
		pe_err("Null value");
		return QDF_STATUS_E_NULL_VALUE;
	}

	mlo_ie = &session->mlo_ie;
	p_ml_ie = mlo_ie->data;
	len_remaining = sizeof(mlo_ie->data);

	*p_ml_ie++ = WLAN_ELEMID_EXTN_ELEM;
	len_remaining--;

	/* set length later */
	*p_ml_ie++ = 0;
	len_remaining--;

	*p_ml_ie++ = WLAN_EXTN_ELEMID_MULTI_LINK;
	len_remaining--;

	/* Set ML IE multi link control bitmap:
	 * ML probe variant type = 1
	 * In presence bitmap, set MLD ID presence bit = 1
	 */
	mlo_ie->type = WLAN_ML_VARIANT_PROBEREQ;
	QDF_SET_BITS(*(uint16_t *)p_ml_ie, WLAN_ML_CTRL_TYPE_IDX,
		     WLAN_ML_CTRL_TYPE_BITS, mlo_ie->type);
	QDF_SET_BITS(*(uint16_t *)p_ml_ie, WLAN_ML_CTRL_PBM_IDX,
		     WLAN_ML_CTRL_PBM_BITS, 1);

	p_ml_ie += WLAN_ML_CTRL_SIZE;
	len_remaining -= WLAN_ML_CTRL_SIZE;

	/* common info length is 2 */
	*p_ml_ie++ = 2;
	len_remaining--;

	/* mld id is always 0 for tx link for SAP or AP */
	*p_ml_ie++ = 0;
	len_remaining--;

	mlo_ie->num_data = p_ml_ie - mlo_ie->data;

	if (wlan_vdev_mlme_cap_get(session->vdev,
				   WLAN_VDEV_C_EXCL_STA_PROF_PRB_REQ)) {
		pe_debug("Do not populate sta profile in MLO IE");
		goto no_sta_prof;
	}

	partner_info = session->lim_join_req->partner_info;
	for (link = 0; link < partner_info.num_partner_links; link++) {
		sta_pro = &mlo_ie->sta_profile[num_sta_pro];
		sta_data = sta_pro->data;
		sta_len_left = sizeof(sta_pro->data);

		*sta_data++ = WLAN_ML_LINFO_SUBELEMID_PERSTAPROFILE;
		sta_len_left--;
		/* length of subelement, filled at last */
		*sta_data++ = 0;
		sta_len_left--;

		QDF_SET_BITS(*(uint16_t *)sta_data,
			     WLAN_ML_BV_LINFO_PERSTAPROF_STACTRL_LINKID_IDX,
			     WLAN_ML_BV_LINFO_PERSTAPROF_STACTRL_LINKID_BITS,
			     partner_info.partner_link_info[link].link_id);

		QDF_SET_BITS(*(uint16_t *)sta_data,
			     WLAN_ML_BV_LINFO_PERSTAPROF_STACTRL_CMPLTPROF_IDX,
			     WLAN_ML_BV_LINFO_PERSTAPROF_STACTRL_CMPLTPROF_BITS,
			     1);
		sta_data += WLAN_ML_BV_LINFO_PERSTAPROF_STACTRL_SIZE;
		sta_len_left -= WLAN_ML_BV_LINFO_PERSTAPROF_STACTRL_SIZE;

		sta_pro->num_data = sta_data - sta_pro->data;
		sta_pro->data[TAG_LEN_POS] = sta_pro->num_data - MIN_IE_LEN;

		num_sta_pro++;
	}

no_sta_prof:
	mlo_ie->num_sta_profile = num_sta_pro;
	session->lim_join_req->is_ml_probe_req_sent = true;

	return QDF_STATUS_SUCCESS;
}

#if defined(SAP_MULTI_LINK_EMULATION)
QDF_STATUS populate_dot11f_assoc_rsp_mlo_ie(struct mac_context *mac_ctx,
					    struct pe_session *session,
					    tpDphHashNode sta,
					    tDot11fAssocResponse *frm)
{
	struct wlan_mlo_ie *mlo_ie;
	struct wlan_mlo_sta_profile *sta_pro;
	tpSirAssocReq assoc_req;
	uint8_t *sta_data;
	uint32_t sta_len_left;
	uint8_t common_info_len = 0;
	uint8_t *p_ml_ie;
	uint16_t len_remaining;
	uint16_t presence_bitmap = 0;
	uint16_t sta_prof_len;
	uint8_t sta_prof_[] = {0x00, 0xff, 0xf1, 0x01, 0x13, 0x02, 0x03, 0x7f, 0x95, 0xaf, 0x62, 0x64, 0x00, 0x54, 0x00, 0x00,
		0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x01, 0x31, 0x04, 0x00, 0x00, 0x01, 0x08, 0x8c, 0x12, 0x98, 0x24, 0xb0,
		0x48, 0x60, 0x6c, 0x07, 0x0a, 0x55, 0x53, 0x04, 0xc9, 0x83, 0x00, 0x01, 0x3b, 0x00, 0x00, 0x20,
		0x01, 0x00, 0x23, 0x02, 0x0a, 0x00, 0x32, 0x01, 0xfb, 0x7f, 0x0b, 0x04, 0x00, 0x4f, 0x02, 0x00,
		0x00, 0x00, 0x40, 0x00, 0x40, 0x19, 0xc3, 0x02, 0x58, 0x0a, 0xc3, 0x02, 0x18, 0xfe, 0xff, 0x23,
		0x23, 0x0d, 0x01, 0x08, 0x1a, 0x40, 0x10, 0x00, 0x63, 0x40, 0x88, 0x1f, 0x43, 0x81, 0x1c, 0x11,
		0x08, 0x00, 0xaa, 0xff, 0xaa, 0xff, 0x7b, 0x1c, 0xc7, 0x71, 0x1c, 0xc7, 0x71, 0x1c, 0xc7, 0x71,
		0x1c, 0xc7, 0x71, 0xff, 0x0c, 0x24, 0xf4, 0x3f, 0x02, 0x28, 0xfc, 0xff, 0x25, 0x00, 0x25, 0x00,
		0x01, 0xff, 0x0e, 0x26, 0x00, 0x03, 0xa4, 0xff, 0x27, 0xa4, 0xff, 0x42, 0x43, 0xff, 0x62, 0x32,
		0xff, 0xff, 0x03, 0x3b, 0xb8, 0x36, 0xff, 0x0f, 0x6c, 0x17, 0x00, 0xe0, 0x03, 0x03, 0x00, 0x18,
		0x76, 0xd8, 0x12, 0x00, 0x44, 0x44, 0x44, 0xff, 0x06, 0x6a, 0x04, 0x11, 0x00, 0x00, 0x00};
	QDF_STATUS status;

	if (!mac_ctx || !session || !frm)
		return QDF_STATUS_E_NULL_VALUE;

	mlo_ie = &session->mlo_ie;

	p_ml_ie = mlo_ie->data;
	len_remaining = sizeof(mlo_ie->data);

	*p_ml_ie++ = WLAN_ELEMID_EXTN_ELEM;
	len_remaining--;
	/* set length later */
	*p_ml_ie++ = 0;
	len_remaining--;
	*p_ml_ie++ = WLAN_EXTN_ELEMID_MULTI_LINK;
	len_remaining--;

	mlo_ie->type = 0;
	/* Common Info Length*/
	common_info_len += WLAN_ML_BV_CINFO_LENGTH_SIZE;
	qdf_mem_copy(mlo_ie->mld_mac_addr,
		     session->vdev->mlo_dev_ctx->mld_addr.bytes,
		     sizeof(mlo_ie->mld_mac_addr));
	common_info_len += QDF_MAC_ADDR_SIZE;

	mlo_ie->link_id_info_present = 1;
	presence_bitmap |= WLAN_ML_BV_CTRL_PBM_LINKIDINFO_P;
	mlo_ie->link_id = wlan_vdev_get_link_id(session->vdev);
	common_info_len += WLAN_ML_BV_CINFO_LINKIDINFO_SIZE;

	mlo_ie->bss_param_change_cnt_present = 1;
	presence_bitmap |= WLAN_ML_BV_CTRL_PBM_BSSPARAMCHANGECNT_P;
	mlo_ie->bss_param_change_count =
			session->mlo_link_info.link_ie.bss_param_change_cnt;
	common_info_len += WLAN_ML_BSSPARAMCHNGCNT_SIZE;

	mlo_ie->mld_capab_and_op_present = 1;
	mlo_ie->mld_id_present = 1;
	mlo_ie->ext_mld_capab_and_op_present = 1;
	common_info_len += WLAN_ML_BV_CINFO_MLDCAPANDOP_SIZE;
	presence_bitmap |= WLAN_ML_BV_CTRL_PBM_MLDCAPANDOP_P;

	common_info_len += WLAN_ML_BV_CINFO_EMLCAP_SIZE;
	presence_bitmap |= WLAN_ML_BV_CTRL_PBM_EMLCAP_P;

	common_info_len += WLAN_ML_BV_CINFO_MLDCAPANDOP_SIZE;
	presence_bitmap |= WLAN_ML_BV_CTRL_PBM_MEDIUMSYNCDELAYINFO_P;

	mlo_ie->common_info_length = common_info_len;

	QDF_SET_BITS(*(uint16_t *)p_ml_ie, WLAN_ML_CTRL_TYPE_IDX,
		     WLAN_ML_CTRL_TYPE_BITS, mlo_ie->type);
	QDF_SET_BITS(*(uint16_t *)p_ml_ie, WLAN_ML_CTRL_PBM_IDX,
		     WLAN_ML_CTRL_PBM_BITS, presence_bitmap);
	p_ml_ie += WLAN_ML_CTRL_SIZE;
	len_remaining -= WLAN_ML_CTRL_SIZE;

	*p_ml_ie++ = common_info_len;
	len_remaining--;

	qdf_mem_copy(p_ml_ie, mlo_ie->mld_mac_addr, QDF_MAC_ADDR_SIZE);
	p_ml_ie += QDF_MAC_ADDR_SIZE;
	len_remaining -= QDF_MAC_ADDR_SIZE;

	QDF_SET_BITS(*p_ml_ie, WLAN_ML_BV_CINFO_LINKIDINFO_LINKID_IDX,
		     WLAN_ML_BV_CINFO_LINKIDINFO_LINKID_BITS, mlo_ie->link_id);
	p_ml_ie++;
	len_remaining--;

	*p_ml_ie++ = mlo_ie->bss_param_change_count;
	len_remaining--;

	p_ml_ie += WLAN_ML_BV_CINFO_MLDCAPANDOP_SIZE;
	p_ml_ie += WLAN_ML_BV_CINFO_MLDCAPANDOP_SIZE;
	len_remaining -= WLAN_ML_BV_CINFO_MLDCAPANDOP_SIZE;
	len_remaining -= WLAN_ML_BV_CINFO_MLDCAPANDOP_SIZE;

	if (mlo_ie->mld_capab_and_op_present) {
		QDF_SET_BITS(*(uint16_t *)p_ml_ie,
		     WLAN_ML_BV_CINFO_MLDCAPANDOP_MAXSIMULLINKS_IDX,
		     WLAN_ML_BV_CINFO_MLDCAPANDOP_MAXSIMULLINKS_BITS,
		     mlo_ie->mld_capab_and_op_info.max_simultaneous_link_num);
		QDF_SET_BITS(*(uint16_t *)p_ml_ie,
		     WLAN_ML_BV_CINFO_MLDCAPANDOP_TIDTOLINKMAPNEGSUPPORT_IDX,
		     WLAN_ML_BV_CINFO_MLDCAPANDOP_TIDTOLINKMAPNEGSUPPORT_BITS,
		     mlo_ie->mld_capab_and_op_info.tid_link_map_supported);
		p_ml_ie += WLAN_ML_BV_CINFO_MLDCAPANDOP_SIZE;
		len_remaining -= WLAN_ML_BV_CINFO_MLDCAPANDOP_SIZE;
	}

	mlo_ie->num_data = p_ml_ie - mlo_ie->data;

	sta_prof_[5] = session->self_mac_addr[0];
	sta_prof_[6] = session->self_mac_addr[1];
	sta_prof_[7] = session->self_mac_addr[2];
	sta_prof_[8] = session->self_mac_addr[3];

	sta_prof_[9] = 0xaf;
	sta_prof_[10] = 0x62;

	sta_pro = &mlo_ie->sta_profile[0];
	sta_data = sta_pro->data;
	sta_len_left = sizeof(sta_pro->data);

	sta_prof_len = ARRAY_SIZE(sta_prof_);
	qdf_mem_copy(sta_data, sta_prof_, sta_prof_len);
	sta_data += sta_prof_len;
	sta_len_left -= sta_prof_len;

	sta_pro->num_data = sta_data - sta_pro->data;
	pe_debug("num data: %d, sta_prof_len: %d, sta_data len: %d",
		 sta_pro->num_data, sta_prof_len, sizeof(sta_pro->data));
	sta_pro->data[TAG_LEN_POS] = sta_pro->num_data - MIN_IE_LEN;

	mlo_ie->num_sta_profile = 1;
	mlo_ie->mld_capab_and_op_info.max_simultaneous_link_num = 1;

		if (sta_pro->num_data > WLAN_MAX_IE_LEN + MIN_IE_LEN) {
			sta_pro->data[TAG_LEN_POS] = WLAN_MAX_IE_LEN;
			status =
			    lim_add_frag_ie_for_sta_profile(sta_pro->data,
							    &sta_pro->num_data);
			if (status != QDF_STATUS_SUCCESS) {
				pe_debug("add frg ie for sta profile error.");
				sta_pro->num_data =
					WLAN_MAX_IE_LEN + MIN_IE_LEN;
			}
		} else {
			sta_pro->data[TAG_LEN_POS] =
					sta_pro->num_data - MIN_IE_LEN;
		}
	assoc_req = session->parsedAssocReq[sta->assocId];

	pe_debug("num partner links: %d", assoc_req->mlo_info.num_partner_links);
	return QDF_STATUS_SUCCESS;
}

QDF_STATUS populate_dot11f_bcn_mlo_ie(struct mac_context *mac_ctx,
				      struct pe_session *session)
{
	struct wlan_mlo_ie *mlo_ie;
	struct wlan_mlo_sta_profile *sta_pro;
	uint16_t vdev_count;
	struct wlan_objmgr_vdev *wlan_vdev_list[WLAN_UMAC_MLO_MAX_VDEVS];
	uint16_t tmp_offset = 0;
	struct ml_sch_partner_info *tmp_info;
	struct mlo_sch_partner_links *sch_info;
	uint8_t *sta_data;
	uint8_t common_info_length = 0;
	uint8_t *p_ml_ie;
	uint16_t len_remaining;
	uint16_t presence_bitmap = 0;
	uint32_t sta_len_left;
	QDF_STATUS status;
	uint16_t sta_prof_len;
	uint8_t sta_prof_[] = {0x00, 0xff, 0xf1, 0x01, 0x13, 0x02, 0x03, 0x7f, 0x95, 0xaf, 0x62, 0x64, 0x00, 0x54, 0x00, 0x00,
		0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x01, 0x11, 0x05, 0x01, 0x08, 0x8c, 0x12, 0x98, 0x24, 0xb0,
		0x48, 0x60, 0x6c, 0x07, 0x0a, 0x55, 0x53, 0x04, 0xc9, 0x83, 0x00, 0x01, 0x3b, 0x00, 0x00, 0x20,
		0x01, 0x00, 0x23, 0x02, 0x0a, 0x00, 0x32, 0x01, 0xfb, 0x7f, 0x0b, 0x04, 0x00, 0x4f, 0x02, 0x00,
		0x00, 0x00, 0x40, 0x00, 0x40, 0x19, 0xc3, 0x02, 0x58, 0x0a, 0xc3, 0x02, 0x18, 0xfe, 0xff, 0x23,
		0x23, 0x0d, 0x01, 0x08, 0x1a, 0x40, 0x10, 0x00, 0x63, 0x40, 0x88, 0x1f, 0x43, 0x81, 0x1c, 0x11,
		0x08, 0x00, 0xaa, 0xff, 0xaa, 0xff, 0x7b, 0x1c, 0xc7, 0x71, 0x1c, 0xc7, 0x71, 0x1c, 0xc7, 0x71,
		0x1c, 0xc7, 0x71, 0xff, 0x0c, 0x24, 0xf4, 0x3f, 0x02, 0x28, 0xfc, 0xff, 0x25, 0x00, 0x25, 0x00,
		0x01, 0xff, 0x0e, 0x26, 0x00, 0x03, 0xa4, 0xff, 0x27, 0xa4, 0xff, 0x42, 0x43, 0xff, 0x62, 0x32,
		0xff, 0xff, 0x03, 0x3b, 0xb8, 0x36, 0xff, 0x0f, 0x6c, 0x17, 0x00, 0xe0, 0x03, 0x03, 0x00, 0x18,
		0x76, 0xd8, 0x12, 0x00, 0x44, 0x44, 0x44, 0xff, 0x06, 0x6a, 0x04, 0x11, 0x00, 0x00, 0x00};
	if (!mac_ctx || !session)
		return QDF_STATUS_E_NULL_VALUE;

	mlo_ie = &session->mlo_ie;

	/* Common Info Length */
	common_info_length += WLAN_ML_BV_CINFO_LENGTH_SIZE;
	qdf_mem_zero(&mac_ctx->sch.sch_mlo_partner,
		     sizeof(mac_ctx->sch.sch_mlo_partner));
	sch_info = &mac_ctx->sch.sch_mlo_partner;
	mlo_ie->type = 0;
	tmp_offset += 1; /* Element ID */
	tmp_offset += 1; /* length */
	tmp_offset += 1; /* Element ID extension */
	tmp_offset += 2; /* Multi-link control */
	qdf_mem_copy(mlo_ie->mld_mac_addr,
		     session->vdev->mlo_dev_ctx->mld_addr.bytes,
		     sizeof(mlo_ie->mld_mac_addr));
	tmp_offset += 1; /* Common Info Length */
	tmp_offset += 6; /* mld mac addr */
	common_info_length += QDF_MAC_ADDR_SIZE;
	mlo_ie->link_id_info_present = 1;
	presence_bitmap |= WLAN_ML_BV_CTRL_PBM_LINKIDINFO_P;
	mlo_ie->link_id = wlan_vdev_get_link_id(session->vdev);
	tmp_offset += 1; /* link id */
	common_info_length += WLAN_ML_BV_CINFO_LINKIDINFO_SIZE;
	mlo_ie->bss_param_change_cnt_present = 1;
	presence_bitmap |= WLAN_ML_BV_CTRL_PBM_BSSPARAMCHANGECNT_P;
	mlo_ie->bss_param_change_count =
			session->mlo_link_info.link_ie.bss_param_change_cnt;
	tmp_offset += 1; /* bss parameters change count */
	common_info_length += WLAN_ML_BSSPARAMCHNGCNT_SIZE;

	tmp_offset += 2;/* MLD Parameters */
	mlo_ie->mld_capab_and_op_present = 1;
	mlo_ie->mld_id_present = 1;
	mlo_ie->ext_mld_capab_and_op_present = 1;
	sch_info->num_links = 1;
	common_info_length += WLAN_ML_BV_CINFO_MLDCAPANDOP_SIZE;
	presence_bitmap |= WLAN_ML_BV_CTRL_PBM_MLDCAPANDOP_P;

	tmp_offset += 2;
	common_info_length += WLAN_ML_BV_CINFO_EMLCAP_SIZE;
	presence_bitmap |= WLAN_ML_BV_CTRL_PBM_EMLCAP_P;

	tmp_offset += 2;
	common_info_length += WLAN_ML_BV_CINFO_MLDCAPANDOP_SIZE;
	presence_bitmap |= WLAN_ML_BV_CTRL_PBM_MEDIUMSYNCDELAYINFO_P;

	lim_get_mlo_vdev_list(session, &vdev_count, wlan_vdev_list);
	mlo_ie->mld_capab_and_op_info.max_simultaneous_link_num =
							vdev_count;

	mlo_ie->mld_capab_and_op_info.tid_link_map_supported = 1;

	mlo_ie->common_info_length = common_info_length;
	sch_info->mlo_ie_link_info_ofst = tmp_offset;

	p_ml_ie = mlo_ie->data;
	len_remaining = sizeof(mlo_ie->data);

	*p_ml_ie++ = WLAN_ELEMID_EXTN_ELEM;
	len_remaining--;
	*p_ml_ie++ = 0;
	len_remaining--;
	*p_ml_ie++ = WLAN_EXTN_ELEMID_MULTI_LINK;
	len_remaining--;

	QDF_SET_BITS(*(uint16_t *)p_ml_ie, WLAN_ML_CTRL_TYPE_IDX,
		     WLAN_ML_CTRL_TYPE_BITS, mlo_ie->type);
	QDF_SET_BITS(*(uint16_t *)p_ml_ie, WLAN_ML_CTRL_PBM_IDX,
		     WLAN_ML_CTRL_PBM_BITS, presence_bitmap);
	p_ml_ie += WLAN_ML_CTRL_SIZE;
	len_remaining -= WLAN_ML_CTRL_SIZE;

	*p_ml_ie++ = common_info_length;
	len_remaining--;

	qdf_mem_copy(p_ml_ie, mlo_ie->mld_mac_addr, QDF_MAC_ADDR_SIZE);
	p_ml_ie += QDF_MAC_ADDR_SIZE;
	len_remaining -= QDF_MAC_ADDR_SIZE;

	QDF_SET_BITS(*p_ml_ie, WLAN_ML_BV_CINFO_LINKIDINFO_LINKID_IDX,
		     WLAN_ML_BV_CINFO_LINKIDINFO_LINKID_BITS,
		     mlo_ie->link_id);
	p_ml_ie++;
	len_remaining--;

	*p_ml_ie++ = mlo_ie->bss_param_change_count;
	len_remaining--;

	p_ml_ie += WLAN_ML_BV_CINFO_MLDCAPANDOP_SIZE;
	p_ml_ie += WLAN_ML_BV_CINFO_MLDCAPANDOP_SIZE;
	len_remaining -= WLAN_ML_BV_CINFO_MLDCAPANDOP_SIZE;
	len_remaining -= WLAN_ML_BV_CINFO_MLDCAPANDOP_SIZE;

	if (mlo_ie->mld_capab_and_op_present) {
		QDF_SET_BITS(*(uint16_t *)p_ml_ie,
		     WLAN_ML_BV_CINFO_MLDCAPANDOP_MAXSIMULLINKS_IDX,
		     WLAN_ML_BV_CINFO_MLDCAPANDOP_MAXSIMULLINKS_BITS,
		     mlo_ie->mld_capab_and_op_info.max_simultaneous_link_num);
		QDF_SET_BITS(*(uint16_t *)p_ml_ie,
		     WLAN_ML_BV_CINFO_MLDCAPANDOP_TIDTOLINKMAPNEGSUPPORT_IDX,
		     WLAN_ML_BV_CINFO_MLDCAPANDOP_TIDTOLINKMAPNEGSUPPORT_BITS,
		     mlo_ie->mld_capab_and_op_info.tid_link_map_supported);
		p_ml_ie += WLAN_ML_BV_CINFO_MLDCAPANDOP_SIZE;
		len_remaining -= WLAN_ML_BV_CINFO_MLDCAPANDOP_SIZE;
	}

	mlo_ie->num_data = p_ml_ie - mlo_ie->data;

	sta_prof_[5] = session->self_mac_addr[0];
	sta_prof_[6] = session->self_mac_addr[1];
	sta_prof_[7] = session->self_mac_addr[2];
	sta_prof_[8] = session->self_mac_addr[3];

	sta_prof_[9] = 0xaf;
	sta_prof_[10] = 0x62;

	sta_pro = &mlo_ie->sta_profile[0];
	sta_data = sta_pro->data;
	sta_len_left = sizeof(sta_pro->data);

	sta_prof_len = ARRAY_SIZE(sta_prof_);
	qdf_mem_copy(sta_data, sta_prof_, sta_prof_len);
	sta_data += sta_prof_len;
	sta_len_left -= sta_prof_len;
	sch_info->num_links = 1;
	mlo_ie->num_sta_profile = 1;

	sta_pro->num_data = sta_data - sta_pro->data;
	pe_debug("num data: %d, sta_prof_len: %d, sta_data len: %d",
		 sta_pro->num_data, sta_prof_len, sizeof(sta_pro->data));
	sta_pro->data[TAG_LEN_POS] =	sta_pro->num_data - MIN_IE_LEN;
	tmp_info = &sch_info->partner_info[0];
	tmp_info->link_info_sta_prof_ofst = sta_prof_len;

	mlo_ie->num_sta_profile = 1;
	status = QDF_STATUS_SUCCESS;

	return status;
}
#else
QDF_STATUS populate_dot11f_assoc_rsp_mlo_ie(struct mac_context *mac_ctx,
					    struct pe_session *session,
					    tpDphHashNode sta,
					    tDot11fAssocResponse *frm)
{
	int link;
	int num_sta_pro = 0;
	struct wlan_mlo_ie *mlo_ie;
	struct wlan_mlo_sta_profile *sta_pro;
	struct mlo_link_ie_info *link_info;
	struct mlo_link_ie *link_ie;
	tpSirAssocReq assoc_req;
	tpSirAssocReq link_assoc_req;
	const uint8_t *reported_p2p_ie;
	uint8_t non_inher_ie_lists[255];
	uint8_t non_inher_len;
	uint8_t non_inher_ext_len;
	uint8_t non_inher_ext_ie_lists[255];
	bool same_ie, reported_vendor_vht_ie_pres;
	bool reported_wmm_caps_pres, reported_wmm_param_pres;
	tDot11fIEvendor_vht_ie vendor_vht_ie;
	tpDphHashNode link_sta;
	tDot11fIESuppRates supp_rates;
	tDot11fIEExtSuppRates ext_supp_rates;
	uint8_t lle_mode;
	struct pe_session *link_session;
	uint16_t assoc_id = 0;
	uint8_t link_id;
	uint8_t *sta_addr;
	uint8_t *sta_data;
	uint32_t sta_len_left;
	uint32_t sta_len_consumed;
	tDot11fFfStatus sta_status;
	tDot11fIEP2PAssocRes sta_p2p_assoc_res;
	tDot11fIEnon_inheritance sta_non_inheritance;
	uint8_t common_info_len = 0, len = 0;
	uint8_t *p_ml_ie;
	uint16_t len_remaining;
	uint16_t presence_bitmap = 0;
	QDF_STATUS status;

	if (!mac_ctx || !session || !frm)
		return QDF_STATUS_E_NULL_VALUE;

	mlo_ie = &session->mlo_ie;

	p_ml_ie = mlo_ie->data;
	len_remaining = sizeof(mlo_ie->data);

	*p_ml_ie++ = WLAN_ELEMID_EXTN_ELEM;
	len_remaining--;
	/* set length later */
	*p_ml_ie++ = 0;
	len_remaining--;
	*p_ml_ie++ = WLAN_EXTN_ELEMID_MULTI_LINK;
	len_remaining--;

	mlo_ie->type = 0;
	/* Common Info Length*/
	common_info_len += WLAN_ML_BV_CINFO_LENGTH_SIZE;
	qdf_mem_copy(mlo_ie->mld_mac_addr,
		     session->vdev->mlo_dev_ctx->mld_addr.bytes,
		     sizeof(mlo_ie->mld_mac_addr));
	common_info_len += QDF_MAC_ADDR_SIZE;

	mlo_ie->link_id_info_present = 1;
	presence_bitmap |= WLAN_ML_BV_CTRL_PBM_LINKIDINFO_P;
	mlo_ie->link_id = wlan_vdev_get_link_id(session->vdev);
	common_info_len += WLAN_ML_BV_CINFO_LINKIDINFO_SIZE;

	mlo_ie->bss_param_change_cnt_present = 1;
	presence_bitmap |= WLAN_ML_BV_CTRL_PBM_BSSPARAMCHANGECNT_P;
	mlo_ie->bss_param_change_count =
			session->mlo_link_info.link_ie.bss_param_change_cnt;
	common_info_len += WLAN_ML_BSSPARAMCHNGCNT_SIZE;

	mlo_ie->mld_capab_and_op_present = 0;
	mlo_ie->mld_id_present = 0;
	mlo_ie->ext_mld_capab_and_op_present = 0;

	mlo_ie->common_info_length = common_info_len;

	QDF_SET_BITS(*(uint16_t *)p_ml_ie, WLAN_ML_CTRL_TYPE_IDX,
		     WLAN_ML_CTRL_TYPE_BITS, mlo_ie->type);
	QDF_SET_BITS(*(uint16_t *)p_ml_ie, WLAN_ML_CTRL_PBM_IDX,
		     WLAN_ML_CTRL_PBM_BITS, presence_bitmap);
	p_ml_ie += WLAN_ML_CTRL_SIZE;
	len_remaining -= WLAN_ML_CTRL_SIZE;

	*p_ml_ie++ = common_info_len;
	len_remaining--;

	qdf_mem_copy(p_ml_ie, mlo_ie->mld_mac_addr, QDF_MAC_ADDR_SIZE);
	p_ml_ie += QDF_MAC_ADDR_SIZE;
	len_remaining -= QDF_MAC_ADDR_SIZE;

	QDF_SET_BITS(*p_ml_ie, WLAN_ML_BV_CINFO_LINKIDINFO_LINKID_IDX,
		     WLAN_ML_BV_CINFO_LINKIDINFO_LINKID_BITS, mlo_ie->link_id);
	p_ml_ie++;
	len_remaining--;

	*p_ml_ie++ = mlo_ie->bss_param_change_count;
	len_remaining--;

	mlo_ie->num_data = p_ml_ie - mlo_ie->data;

	assoc_req = session->parsedAssocReq[sta->assocId];
	if (!assoc_req)
		goto no_partner;

	for (link = 0; link < assoc_req->mlo_info.num_partner_links; link++) {
		lle_mode = 0;
		sta_pro = &mlo_ie->sta_profile[num_sta_pro];
		link_id = assoc_req->mlo_info.partner_link_info[link].link_id;
		link_session = pe_find_partner_session_by_link_id(session,
								  link_id);
		if (!link_session)
			continue;
		link_info = &link_session->mlo_link_info;
		link_ie = &link_info->link_ie;
		sta_addr =
		    assoc_req->mlo_info.partner_link_info[link].link_addr.bytes;
		link_sta = dph_lookup_hash_entry(
				mac_ctx,
				sta_addr,
				&assoc_id,
				&link_session->dph.dphHashTable);
		if (!link_sta) {
			lim_mlo_release_vdev_ref(link_session->vdev);
			continue;
		}
		link_assoc_req =
			link_session->parsedAssocReq[link_sta->assocId];
		sta_data = sta_pro->data;
		sta_len_left = sizeof(sta_pro->data);

		*sta_data++ = WLAN_ML_LINFO_SUBELEMID_PERSTAPROFILE;
		/* set length later */
		*sta_data++ = 0;
		sta_len_left -= 2;

		QDF_SET_BITS(
			*(uint16_t *)sta_data,
			WLAN_ML_BV_LINFO_PERSTAPROF_STACTRL_LINKID_IDX,
			WLAN_ML_BV_LINFO_PERSTAPROF_STACTRL_LINKID_BITS,
			link_id);
		QDF_SET_BITS(
			*(uint16_t *)sta_data,
			WLAN_ML_BV_LINFO_PERSTAPROF_STACTRL_CMPLTPROF_IDX,
			WLAN_ML_BV_LINFO_PERSTAPROF_STACTRL_CMPLTPROF_BITS,
			1);
		QDF_SET_BITS(
			*(uint16_t *)sta_data,
			WLAN_ML_BV_LINFO_PERSTAPROF_STACTRL_MACADDRP_IDX,
			WLAN_ML_BV_LINFO_PERSTAPROF_STACTRL_MACADDRP_BITS,
			1);
		QDF_SET_BITS(
			*(uint16_t *)sta_data,
			WLAN_ML_BV_LINFO_PERSTAPROF_STACTRL_BCNINTP_IDX,
			WLAN_ML_BV_LINFO_PERSTAPROF_STACTRL_BCNINTP_BITS,
			1);
		QDF_SET_BITS(
			*(uint16_t *)sta_data,
			WLAN_ML_BV_LINFO_PERSTAPROF_STACTRL_DTIMINFOP_IDX,
			WLAN_ML_BV_LINFO_PERSTAPROF_STACTRL_DTIMINFOP_BITS,
			1);
		/* sta control */
		sta_data += 2;
		sta_len_left -= 2;

		/*
		 * 1 Bytes for STA Info Length + 6 bytes for STA MAC Address +
		 * 2 Bytes for Becon Interval + 2 Bytes for DTIM Info
		 */
		len = WLAN_ML_BV_LINFO_PERSTAPROF_STAINFO_LENGTH_SIZE +
		      QDF_MAC_ADDR_SIZE + WLAN_BEACONINTERVAL_LEN +
		      sizeof(struct wlan_ml_bv_linfo_perstaprof_stainfo_dtiminfo);
		*sta_data = len;

		/* STA Info Length */
		sta_data += WLAN_ML_BV_LINFO_PERSTAPROF_STAINFO_LENGTH_SIZE;
		sta_len_left -= WLAN_ML_BV_LINFO_PERSTAPROF_STAINFO_LENGTH_SIZE;

		/*mac addr*/
		qdf_mem_copy(sta_data, link_session->self_mac_addr,
			     QDF_MAC_ADDR_SIZE);
		sta_data += QDF_MAC_ADDR_SIZE;
		sta_len_left -= QDF_MAC_ADDR_SIZE;
		/* Beacon interval */
		*(uint16_t *)sta_data =
			link_session->beaconParams.beaconInterval;
		sta_data += WLAN_BEACONINTERVAL_LEN;
		sta_len_left -= WLAN_BEACONINTERVAL_LEN;
		/* DTIM populated by FW */
		sta_data += sizeof(
			struct wlan_ml_bv_linfo_perstaprof_stainfo_dtiminfo);
		sta_len_left -= sizeof(
			struct wlan_ml_bv_linfo_perstaprof_stainfo_dtiminfo);
		/* Capabilities */
		dot11f_pack_ff_capabilities(mac_ctx, &link_ie->link_cap,
					    sta_data);
		sta_data += WLAN_CAPABILITYINFO_LEN;
		sta_len_left -= WLAN_CAPABILITYINFO_LEN;
		/* status */
		sta_status.status = 0;
		dot11f_pack_ff_status(mac_ctx, &sta_status, sta_data);
		sta_data += WLAN_STATUSCODE_LEN;
		sta_len_left -= WLAN_STATUSCODE_LEN;

		qdf_mem_zero(non_inher_ie_lists, sizeof(non_inher_ie_lists));
		qdf_mem_zero(non_inher_ext_ie_lists,
			     sizeof(non_inher_ext_ie_lists));
		qdf_mem_zero(&supp_rates, sizeof(tDot11fIESuppRates));
		qdf_mem_zero(&ext_supp_rates, sizeof(tDot11fIEExtSuppRates));
		qdf_mem_zero(&sta_p2p_assoc_res, sizeof(tDot11fIEP2PAssocRes));
		qdf_mem_zero(&sta_non_inheritance,
			     sizeof(tDot11fIEnon_inheritance));
		non_inher_len = 0;
		non_inher_ext_len = 0;

		populate_dot11f_assoc_rsp_rates(
			mac_ctx, &supp_rates,
			&ext_supp_rates,
			link_sta->supportedRates.llbRates,
			link_sta->supportedRates.llaRates);
		if ((supp_rates.present && frm->SuppRates.present &&
		     qdf_mem_cmp(&supp_rates, &frm->SuppRates,
				 sizeof(supp_rates))) ||
		    (supp_rates.present && !frm->SuppRates.present)) {
			sta_len_consumed = 0;
			dot11f_pack_ie_supp_rates(mac_ctx, &supp_rates,
						  sta_data,
						  sta_len_left,
						  &sta_len_consumed);
			sta_data += sta_len_consumed;
			sta_len_left -= sta_len_consumed;
		} else if (frm->SuppRates.present && !supp_rates.present) {
			non_inher_ie_lists[non_inher_len++] =
				DOT11F_EID_SUPPRATES;
		}

		if (link_session->limQosEnabled && link_sta->lleEnabled) {
			lle_mode = 1;
			if ((link_ie->link_edca.present &&
			     frm->EDCAParamSet.present &&
			     qdf_mem_cmp(&link_ie->link_edca,
					 &frm->EDCAParamSet,
					 sizeof(link_ie->link_edca))) ||
			    (link_ie->link_edca.present &&
			     !frm->EDCAParamSet.present)) {
				sta_len_consumed = 0;
				dot11f_pack_ie_edca_param_set(
					mac_ctx, &link_ie->link_edca,
					sta_data, sta_len_left,
					&sta_len_consumed);
				sta_data += sta_len_consumed;
				sta_len_left -= sta_len_consumed;
			} else if (frm->EDCAParamSet.present &&
				   !link_ie->link_edca.present) {
				non_inher_ie_lists[non_inher_len++] =
					DOT11F_EID_EDCAPARAMSET;
			}
		}

		if ((link_ie->link_ht_cap.present && frm->HTCaps.present &&
		     qdf_mem_cmp(&link_ie->link_ht_cap, &frm->HTCaps,
				 sizeof(tDot11fIEHTCaps))) ||
		    (link_ie->link_ht_cap.present && !frm->HTCaps.present)) {
			sta_len_consumed = 0;
			dot11f_pack_ie_ht_caps(
				mac_ctx, &link_ie->link_ht_cap,
				sta_data, sta_len_left, &sta_len_consumed);
			sta_data += sta_len_consumed;
			sta_len_left -= sta_len_consumed;
		} else if (frm->HTCaps.present &&
			   !link_ie->link_ht_cap.present) {
			non_inher_ie_lists[non_inher_len++] = DOT11F_EID_HTCAPS;
		}

		if ((ext_supp_rates.present && frm->ExtSuppRates.present &&
		     qdf_mem_cmp(&ext_supp_rates, &frm->ExtSuppRates,
				 sizeof(ext_supp_rates))) ||
		    (ext_supp_rates.present && !frm->ExtSuppRates.present)) {
			sta_len_consumed = 0;
			dot11f_pack_ie_ext_supp_rates(
				mac_ctx, &ext_supp_rates, sta_data,
				sta_len_left,
				&sta_len_consumed);
			sta_data += sta_len_consumed;
			sta_len_left -= sta_len_consumed;
		} else if (frm->SuppRates.present && !ext_supp_rates.present) {
			non_inher_ie_lists[non_inher_len++] =
				DOT11F_EID_EXTSUPPRATES;
		}

		if ((link_ie->link_ht_info.present && frm->HTInfo.present &&
		     qdf_mem_cmp(&link_ie->link_ht_info, &frm->HTInfo,
				 sizeof(tDot11fIEHTInfo))) ||
		    (link_ie->link_ht_info.present && !frm->HTInfo.present)) {
			sta_len_consumed = 0;
			dot11f_pack_ie_ht_info(
				mac_ctx, &link_ie->link_ht_info,
				sta_data, sta_len_left,
				&sta_len_consumed);
			sta_data += sta_len_consumed;
			sta_len_left -= sta_len_consumed;
		} else if (frm->HTInfo.present &&
			   !link_ie->link_ht_info.present) {
			non_inher_ie_lists[non_inher_len++] = DOT11F_EID_HTINFO;
		}

		if ((link_ie->link_ext_cap.present && frm->ExtCap.present &&
		     qdf_mem_cmp(&link_ie->link_ext_cap, &frm->ExtCap,
				 sizeof(tDot11fIEExtCap))) ||
		     (link_ie->link_ext_cap.present && !frm->ExtCap.present)) {
			sta_len_consumed = 0;
			dot11f_pack_ie_ext_cap(
				mac_ctx, &link_ie->link_ext_cap,
				sta_data, sta_len_left,
				&sta_len_consumed);
			sta_data += sta_len_consumed;
			sta_len_left -= sta_len_consumed;
		} else if (frm->ExtCap.present &&
			   !link_ie->link_ext_cap.present) {
			non_inher_ie_lists[non_inher_len++] = DOT11F_EID_EXTCAP;
		}

		if ((link_ie->link_vht_cap.present && frm->VHTCaps.present &&
		     qdf_mem_cmp(&link_ie->link_vht_cap, &frm->VHTCaps,
				 sizeof(frm->VHTCaps))) ||
		    (link_ie->link_vht_cap.present && !frm->VHTCaps.present)) {
			sta_len_consumed = 0;
			dot11f_pack_ie_vht_caps(
				mac_ctx, &link_ie->link_vht_cap,
				sta_data, sta_len_left,
				&sta_len_consumed);
			sta_data += sta_len_consumed;
			sta_len_left -= sta_len_consumed;
		} else if (frm->VHTCaps.present &&
			   !link_ie->link_vht_cap.present) {
			non_inher_ie_lists[non_inher_len++] =
				DOT11F_EID_VHTCAPS;
		}

		if ((link_ie->link_vht_op.present &&
		     frm->VHTOperation.present &&
		     qdf_mem_cmp(&link_ie->link_vht_op, &frm->VHTOperation,
				 sizeof(tDot11fIEVHTOperation))) ||
		    (link_ie->link_vht_op.present &&
		     !frm->VHTOperation.present)) {
			sta_len_consumed = 0;
			dot11f_pack_ie_vht_operation(
				mac_ctx, &link_ie->link_vht_op,
				sta_data, sta_len_left,
				&sta_len_consumed);
			sta_data += sta_len_consumed;
			sta_len_left -= sta_len_consumed;
		} else if (frm->VHTOperation.present &&
			   !link_ie->link_vht_op.present) {
			non_inher_ie_lists[non_inher_len++] =
				DOT11F_EID_VHTOPERATION;
		}
		/* Check every 221 EID whether it's the same with assoc link */
		same_ie = false;
		// P2PAssocRes is different or not
		if (link_assoc_req)
			reported_p2p_ie = limGetP2pIEPtr(
						mac_ctx,
						link_assoc_req->addIE.addIEdata,
						link_assoc_req->addIE.length);
		else
			reported_p2p_ie = NULL;
		if ((reported_p2p_ie && frm->P2PAssocRes.present) ||
		    (!reported_p2p_ie && !frm->P2PAssocRes.present))
			same_ie = true;
		// vendor_vht_ie is different or not
		reported_vendor_vht_ie_pres =
			link_session->vhtCapability &&
			link_session->vendor_vht_sap &&
			link_assoc_req &&
			link_assoc_req->vendor_vht_ie.VHTCaps.present;
		if (same_ie && frm->vendor_vht_ie.VHTCaps.present &&
		    reported_vendor_vht_ie_pres) {
			if (qdf_mem_cmp(&link_ie->link_vht_cap,
					&frm->vendor_vht_ie.VHTCaps,
					sizeof(tDot11fIEVHTCaps)) ||
			    qdf_mem_cmp(&link_ie->link_vht_op,
					&frm->vendor_vht_ie.VHTOperation,
					sizeof(tDot11fIEVHTOperation)))
				same_ie = false;

		} else if (same_ie && ((frm->vendor_vht_ie.VHTCaps.present &&
					!reported_vendor_vht_ie_pres) ||
				       (!frm->vendor_vht_ie.VHTCaps.present &&
					reported_vendor_vht_ie_pres))) {
			same_ie = false;
		}
		// qcn ie is different or not
		if (same_ie && link_ie->link_qcn_ie.present &&
		    frm->qcn_ie.present) {
			if (qdf_mem_cmp(&link_ie->link_qcn_ie, &frm->qcn_ie,
					sizeof(tDot11fIEqcn_ie)))
				same_ie = false;
		} else if (same_ie && ((link_ie->link_qcn_ie.present &&
					!frm->qcn_ie.present) ||
				       (!link_ie->link_qcn_ie.present &&
					frm->qcn_ie.present))) {
			same_ie = false;
		}
		/* wmm param and wmm caps are different or not*/
		reported_wmm_caps_pres = false;
		reported_wmm_param_pres = false;
		if (!lle_mode && link_session->limWmeEnabled &&
		    link_sta->wmeEnabled) {
			if (link_ie->link_wmm_params.present)
				reported_wmm_param_pres = true;

			if (link_sta->wsmEnabled &&
			    link_ie->link_wmm_caps.present)
				reported_wmm_caps_pres = true;
		}
		if (same_ie && reported_wmm_param_pres &&
		    frm->WMMParams.present) {
			if (qdf_mem_cmp(&link_ie->link_wmm_params,
					&frm->WMMParams,
					sizeof(link_ie->link_wmm_params)))
				same_ie = false;
		} else if (same_ie && ((reported_wmm_param_pres &&
					!frm->WMMParams.present) ||
				       (!reported_wmm_param_pres &&
					frm->WMMParams.present))) {
			same_ie = false;
		}
		if (same_ie && reported_wmm_caps_pres &&
		    frm->WMMCaps.present) {
			if (qdf_mem_cmp(&link_ie->link_wmm_caps,
					&frm->WMMCaps,
					sizeof(link_ie->link_wmm_caps)))
				same_ie = false;
		} else if (same_ie && ((reported_wmm_caps_pres &&
					!frm->WMMCaps.present) ||
				       (!reported_wmm_caps_pres &&
					frm->WMMCaps.present))) {
			same_ie = false;
		}
		/*
		 * Nothing need to do if all 221 ie in the reported assoc resp
		 * are the same with reporting assoc resp.
		 */
		if (!same_ie) {
			if (reported_p2p_ie && link_assoc_req) {
				populate_dot11_assoc_res_p2p_ie(
					mac_ctx,
					&sta_p2p_assoc_res,
					link_assoc_req);
				sta_len_consumed = 0;
				dot11f_pack_ie_p2_p_assoc_res(
					mac_ctx, &sta_p2p_assoc_res,
					sta_data, sta_len_left,
					&sta_len_consumed);
				sta_data += sta_len_consumed;
				sta_len_left -= sta_len_consumed;
			}
			if (reported_vendor_vht_ie_pres) {
				qdf_mem_zero(&vendor_vht_ie,
					     sizeof(vendor_vht_ie));
				vendor_vht_ie.present = 1;
				vendor_vht_ie.sub_type =
				link_session->vendor_specific_vht_ie_sub_type;
				populate_dot11f_vht_caps(
					mac_ctx, link_session,
					&vendor_vht_ie.VHTCaps);
				populate_dot11f_vht_operation(
					mac_ctx, link_session,
					&vendor_vht_ie.VHTOperation);

				sta_len_consumed = 0;
				dot11f_pack_ie_vendor_vht_ie(
					mac_ctx, &vendor_vht_ie,
					sta_data, sta_len_left,
					&sta_len_consumed);
				sta_data += sta_len_consumed;
				sta_len_left -= sta_len_consumed;
			}
			sta_len_consumed = 0;
			dot11f_pack_ie_qcn_ie(
				mac_ctx, &link_ie->link_qcn_ie,
				sta_data, sta_len_left,
				&sta_len_consumed);
			sta_data += sta_len_consumed;
			sta_len_left -= sta_len_consumed;
			if (reported_wmm_param_pres) {
				sta_len_consumed = 0;
				dot11f_pack_ie_wmm_params(
					mac_ctx,
					&link_ie->link_wmm_params,
					sta_data, sta_len_left,
					&sta_len_consumed);
				sta_data += sta_len_consumed;
				sta_len_left -= sta_len_consumed;
			}
			if (reported_wmm_caps_pres) {
				sta_len_consumed = 0;
				dot11f_pack_ie_wmm_caps(
					mac_ctx,
					&link_ie->link_wmm_caps,
					sta_data, sta_len_left,
					&sta_len_consumed);
				sta_data += sta_len_consumed;
				sta_len_left -= sta_len_consumed;
			}
			/*
			 * if there is no 221 IE in partner link
			 * while there is such IE in current link
			 * include 221 in the non inheritance IE lists
			 */
			if (!reported_p2p_ie &&
			    !link_ie->link_qcn_ie.present &&
			    !reported_vendor_vht_ie_pres &&
			    !reported_wmm_caps_pres && !reported_wmm_param_pres)
				non_inher_ie_lists[non_inher_len++] =
				DOT11F_EID_QCN_IE;
		}

		if ((link_ie->link_he_cap.present && frm->he_cap.present &&
		     qdf_mem_cmp(&link_ie->link_he_cap, &frm->he_cap,
				 sizeof(frm->he_cap))) ||
		    (link_ie->link_he_cap.present && !frm->he_cap.present)) {
			sta_len_consumed = 0;
			dot11f_pack_ie_he_cap(
				mac_ctx, &link_ie->link_he_cap,
				sta_data, sta_len_left,
				&sta_len_consumed);
			sta_data += sta_len_consumed;
			sta_len_left -= sta_len_consumed;
		} else if (frm->he_cap.present &&
			   !link_ie->link_he_cap.present) {
			non_inher_ext_ie_lists[non_inher_ext_len++] =
				WLAN_EXTN_ELEMID_HECAP;
		}

		if ((link_ie->link_he_op.present && frm->he_op.present &&
		     qdf_mem_cmp(&link_ie->link_he_op, &frm->he_op,
				 sizeof(tDot11fIEhe_op))) ||
		    (link_ie->link_he_op.present && !frm->he_op.present)) {
			sta_len_consumed = 0;
			dot11f_pack_ie_he_op(
				mac_ctx, &link_ie->link_he_op,
				sta_data, sta_len_left,
				&sta_len_consumed);
			sta_data += sta_len_consumed;
			sta_len_left -= sta_len_consumed;
		} else if (frm->he_op.present && !link_ie->link_he_op.present) {
			non_inher_ext_ie_lists[non_inher_ext_len++] =
				WLAN_EXTN_ELEMID_HEOP;
		}
		if ((link_ie->link_he_6ghz_band_cap.present &&
		     frm->he_6ghz_band_cap.present &&
		     qdf_mem_cmp(&link_ie->link_he_6ghz_band_cap,
				 &frm->he_6ghz_band_cap,
				 sizeof(tDot11fIEhe_6ghz_band_cap))) ||
		    (link_ie->link_he_6ghz_band_cap.present &&
		     !frm->he_6ghz_band_cap.present)) {
			sta_len_consumed = 0;
			dot11f_pack_ie_he_6ghz_band_cap(
				mac_ctx, &link_ie->link_he_6ghz_band_cap,
				sta_data, sta_len_left,
				&sta_len_consumed);
			sta_data += sta_len_consumed;
			sta_len_left -= sta_len_consumed;
		} else if (frm->he_6ghz_band_cap.present &&
			   !link_ie->link_he_6ghz_band_cap.present) {
			non_inher_ext_ie_lists[non_inher_ext_len++] =
				WLAN_EXTN_ELEMID_HE_6G_CAP;
		}
		if ((link_ie->link_eht_op.present && frm->eht_op.present &&
		     qdf_mem_cmp(&link_ie->link_eht_op, &frm->eht_op,
				 sizeof(tDot11fIEeht_op))) ||
		    (link_ie->link_eht_op.present && !frm->eht_op.present)) {
			sta_len_consumed = 0;
			dot11f_pack_ie_eht_op(
				mac_ctx, &link_ie->link_eht_op,
				sta_data, sta_len_left,
				&sta_len_consumed);
			sta_data += sta_len_consumed;
			sta_len_left -= sta_len_consumed;
		} else if (frm->eht_op.present &&
			   !link_ie->link_eht_op.present) {
			non_inher_ext_ie_lists[non_inher_ext_len++] =
				WLAN_EXTN_ELEMID_EHTOP;
		}
		if ((link_ie->link_eht_cap.present && frm->eht_cap.present &&
		     qdf_mem_cmp(&link_ie->link_eht_cap, &frm->eht_cap,
				 sizeof(frm->eht_cap))) ||
		    (link_ie->link_eht_cap.present && !frm->eht_cap.present)) {
			sta_len_consumed = 0;
			dot11f_pack_ie_eht_cap(
				mac_ctx, &link_ie->link_eht_cap,
				sta_data, sta_len_left,
				&sta_len_consumed);
			sta_data += sta_len_consumed;
			sta_len_left -= sta_len_consumed;
		} else if (frm->eht_cap.present &&
			   !link_ie->link_eht_cap.present) {
			non_inher_ext_ie_lists[non_inher_ext_len++] =
				WLAN_EXTN_ELEMID_EHTCAP;
		}
		populate_dot11f_non_inheritance(mac_ctx, &sta_non_inheritance,
						non_inher_ie_lists,
						non_inher_ext_ie_lists,
						non_inher_len,
						non_inher_ext_len);
		if (sta_non_inheritance.present) {
			sta_len_consumed = 0;
			dot11f_pack_ie_non_inheritance(
				mac_ctx, &sta_non_inheritance,
				sta_data, sta_len_left,
				&sta_len_consumed);
			sta_data += sta_len_consumed;
			sta_len_left -= sta_len_consumed;
		}
		sta_pro->num_data = sta_data - sta_pro->data;
		if (sta_pro->num_data > WLAN_MAX_IE_LEN + MIN_IE_LEN) {
			sta_pro->data[TAG_LEN_POS] = WLAN_MAX_IE_LEN;
			status =
			    lim_add_frag_ie_for_sta_profile(sta_pro->data,
							    &sta_pro->num_data);
			if (status != QDF_STATUS_SUCCESS) {
				pe_debug("add frg ie for sta profile error.");
				sta_pro->num_data =
					WLAN_MAX_IE_LEN + MIN_IE_LEN;
			}
		} else {
			sta_pro->data[TAG_LEN_POS] =
					sta_pro->num_data - MIN_IE_LEN;
		}
		lim_mlo_release_vdev_ref(link_session->vdev);
		num_sta_pro++;
	}

no_partner:
	mlo_ie->num_sta_profile = num_sta_pro;
	mlo_ie->mld_capab_and_op_info.max_simultaneous_link_num = num_sta_pro;
	return QDF_STATUS_SUCCESS;
}

QDF_STATUS populate_dot11f_bcn_mlo_ie(struct mac_context *mac_ctx,
				      struct pe_session *session)
{
	int link;
	int num_sta_pro = 0;
	struct wlan_mlo_ie *mlo_ie;
	struct wlan_mlo_sta_profile *sta_pro;
	struct mlo_link_ie *link_ie;
	uint16_t vdev_count;
	struct wlan_objmgr_vdev *wlan_vdev_list[WLAN_UMAC_MLO_MAX_VDEVS];
	struct pe_session *link_session;
	uint16_t tmp_offset = 0;
	struct ml_sch_partner_info *tmp_info;
	struct mlo_sch_partner_links *sch_info;
	uint8_t *sta_data;
	uint32_t sta_len_left;
	uint32_t sta_len_consumed;
	uint8_t common_info_length = 0;
	uint8_t *p_ml_ie;
	uint16_t len_remaining;
	uint16_t presence_bitmap = 0;
	bool sta_pro_present;
	QDF_STATUS status;

	if (!mac_ctx || !session)
		return QDF_STATUS_E_NULL_VALUE;

	mlo_ie = &session->mlo_ie;

	/* Common Info Length */
	common_info_length += WLAN_ML_BV_CINFO_LENGTH_SIZE;
	qdf_mem_zero(&mac_ctx->sch.sch_mlo_partner,
		     sizeof(mac_ctx->sch.sch_mlo_partner));
	sch_info = &mac_ctx->sch.sch_mlo_partner;
	mlo_ie->type = 0;
	tmp_offset += 1; /* Element ID */
	tmp_offset += 1; /* length */
	tmp_offset += 1; /* Element ID extension */
	tmp_offset += 2; /* Multi-link control */
	qdf_mem_copy(mlo_ie->mld_mac_addr,
		     session->vdev->mlo_dev_ctx->mld_addr.bytes,
		     sizeof(mlo_ie->mld_mac_addr));
	tmp_offset += 1; /* Common Info Length */
	tmp_offset += 6; /* mld mac addr */
	common_info_length += QDF_MAC_ADDR_SIZE;
	mlo_ie->link_id_info_present = 1;
	presence_bitmap |= WLAN_ML_BV_CTRL_PBM_LINKIDINFO_P;
	mlo_ie->link_id = wlan_vdev_get_link_id(session->vdev);
	tmp_offset += 1; /* link id */
	common_info_length += WLAN_ML_BV_CINFO_LINKIDINFO_SIZE;
	mlo_ie->bss_param_change_cnt_present = 1;
	presence_bitmap |= WLAN_ML_BV_CTRL_PBM_BSSPARAMCHANGECNT_P;
	mlo_ie->bss_param_change_count =
			session->mlo_link_info.link_ie.bss_param_change_cnt;
	tmp_offset += 1; /* bss parameters change count */
	common_info_length += WLAN_ML_BSSPARAMCHNGCNT_SIZE;
	mlo_ie->mld_capab_and_op_present = 0;
	mlo_ie->mld_id_present = 0;
	mlo_ie->ext_mld_capab_and_op_present = 0;
	sch_info->num_links = 0;

	lim_get_mlo_vdev_list(session, &vdev_count, wlan_vdev_list);
	mlo_ie->mld_capab_and_op_info.max_simultaneous_link_num =
							vdev_count - 1;

	mlo_ie->common_info_length = common_info_length;
	sch_info->mlo_ie_link_info_ofst = tmp_offset;

	p_ml_ie = mlo_ie->data;
	len_remaining = sizeof(mlo_ie->data);

	*p_ml_ie++ = WLAN_ELEMID_EXTN_ELEM;
	len_remaining--;
	*p_ml_ie++ = 0;
	len_remaining--;
	*p_ml_ie++ = WLAN_EXTN_ELEMID_MULTI_LINK;
	len_remaining--;

	QDF_SET_BITS(*(uint16_t *)p_ml_ie, WLAN_ML_CTRL_TYPE_IDX,
		     WLAN_ML_CTRL_TYPE_BITS, mlo_ie->type);
	QDF_SET_BITS(*(uint16_t *)p_ml_ie, WLAN_ML_CTRL_PBM_IDX,
		     WLAN_ML_CTRL_PBM_BITS, presence_bitmap);
	p_ml_ie += WLAN_ML_CTRL_SIZE;
	len_remaining -= WLAN_ML_CTRL_SIZE;

	*p_ml_ie++ = common_info_length;
	len_remaining--;

	qdf_mem_copy(p_ml_ie, mlo_ie->mld_mac_addr, QDF_MAC_ADDR_SIZE);
	p_ml_ie += QDF_MAC_ADDR_SIZE;
	len_remaining -= QDF_MAC_ADDR_SIZE;

	QDF_SET_BITS(*p_ml_ie, WLAN_ML_BV_CINFO_LINKIDINFO_LINKID_IDX,
		     WLAN_ML_BV_CINFO_LINKIDINFO_LINKID_BITS,
		     mlo_ie->link_id);
	p_ml_ie++;
	len_remaining--;

	*p_ml_ie++ = mlo_ie->bss_param_change_count;
	len_remaining--;

	mlo_ie->num_data = p_ml_ie - mlo_ie->data;

	for (link = 0; link < vdev_count; link++) {
		if (!wlan_vdev_list[link])
			continue;
		if (wlan_vdev_list[link] == session->vdev) {
			lim_mlo_release_vdev_ref(wlan_vdev_list[link]);
			continue;
		}
		if (!wlan_vdev_mlme_is_mlo_ap(wlan_vdev_list[link])) {
			lim_mlo_release_vdev_ref(wlan_vdev_list[link]);
			continue;
		}
		link_session = pe_find_session_by_vdev_id(
			mac_ctx, wlan_vdev_list[link]->vdev_objmgr.vdev_id);
		if (!link_session) {
			lim_mlo_release_vdev_ref(wlan_vdev_list[link]);
			continue;
		}
		sta_pro = &mlo_ie->sta_profile[num_sta_pro];
		link_ie = &link_session->mlo_link_info.link_ie;
		tmp_info = &sch_info->partner_info[sch_info->num_links++];
		tmp_info->vdev_id = wlan_vdev_get_id(wlan_vdev_list[link]);
		tmp_info->beacon_interval =
			link_session->beaconParams.beaconInterval;
		sta_pro_present = false;
		sta_data = sta_pro->data;
		sta_len_left = sizeof(sta_pro->data);
		*sta_data++ = WLAN_ML_LINFO_SUBELEMID_PERSTAPROFILE;
		*sta_data++ = 0;
		sta_data += 2; /* sta control */
		sta_len_left -= 4;
		tmp_offset = 1; /* sub element id */
		tmp_offset += 1; /* length */
		if (link_ie->link_csa.present) {
			sta_len_consumed = 0;
			dot11f_pack_ie_chan_switch_ann(mac_ctx,
						       &link_ie->link_csa,
						       sta_data, sta_len_left,
						       &sta_len_consumed);
			sta_data += sta_len_consumed;
			sta_len_left -= sta_len_consumed;
			sta_pro_present = true;
			tmp_info->csa_ext_csa_exist = true;
		}
		if (link_ie->link_ecsa.present) {
			sta_len_consumed = 0;
			dot11f_pack_ie_ext_chan_switch_ann(mac_ctx,
							   &link_ie->link_ecsa,
							   sta_data,
							   sta_len_left,
							   &sta_len_consumed);
			sta_data += sta_len_consumed;
			sta_len_left -= sta_len_consumed;
			sta_pro_present = true;
			tmp_info->csa_ext_csa_exist = true;
		}
		if (link_ie->link_quiet.present) {
			sta_len_consumed = 0;
			dot11f_pack_ie_quiet(mac_ctx, &link_ie->link_quiet,
					     sta_data, sta_len_left,
					     &sta_len_consumed);
			sta_data += sta_len_consumed;
			sta_len_left -= sta_len_consumed;
			sta_pro_present = true;
		}
		if (link_ie->link_swt_time.present) {
			sta_len_consumed = 0;
			dot11f_pack_ie_max_chan_switch_time(
				mac_ctx, &link_ie->link_swt_time, sta_data,
				sta_len_left, &sta_len_consumed);
			sta_data += sta_len_consumed;
			sta_len_left -= sta_len_consumed;
			sta_pro_present = true;
		}
		if (sta_pro_present) {
			sta_pro->num_data = sta_data - sta_pro->data;
			if (sta_pro->num_data > WLAN_MAX_IE_LEN + MIN_IE_LEN) {
				sta_pro->data[TAG_LEN_POS] = WLAN_MAX_IE_LEN;
				status =
				  lim_add_frag_ie_for_sta_profile(sta_pro->data,
							    &sta_pro->num_data);
				if (status != QDF_STATUS_SUCCESS) {
					pe_debug("STA profile flag error");
					sta_pro->num_data =
						  WLAN_MAX_IE_LEN + MIN_IE_LEN;
				}
			} else {
				sta_pro->data[TAG_LEN_POS] =
						sta_pro->num_data - MIN_IE_LEN;
			}
			QDF_SET_BITS(
				*(uint16_t *)(sta_pro->data + MIN_IE_LEN),
				WLAN_ML_BV_LINFO_PERSTAPROF_STACTRL_LINKID_IDX,
				WLAN_ML_BV_LINFO_PERSTAPROF_STACTRL_LINKID_BITS,
				wlan_vdev_get_link_id(link_session->vdev));

			num_sta_pro++;
			tmp_offset += 2; /* sta control */
			tmp_info->link_info_sta_prof_ofst = tmp_offset;
		}
		lim_mlo_release_vdev_ref(wlan_vdev_list[link]);
	}
	mlo_ie->num_sta_profile = num_sta_pro;

	return QDF_STATUS_SUCCESS;
}
#endif

QDF_STATUS populate_dot11f_tdls_mgmt_mlo_ie(struct mac_context *mac_ctx,
					    struct pe_session *session)
{
	struct wlan_mlo_ie *mlo_ie;
	uint8_t *p_ml_ie;
	uint16_t len_remaining;
	uint16_t presence_bitmap = 0;
	uint8_t common_info_length = 0;

	if (!mac_ctx || !session)
		return QDF_STATUS_E_NULL_VALUE;

	mlo_ie = &session->mlo_ie;

	p_ml_ie = mlo_ie->data;
	len_remaining = sizeof(mlo_ie->data);

	*p_ml_ie++ = WLAN_ELEMID_EXTN_ELEM;
	len_remaining--;
	*p_ml_ie++ = 0;
	len_remaining--;

	*p_ml_ie++ = WLAN_EXTN_ELEMID_MULTI_LINK;
	len_remaining--;

	common_info_length += WLAN_ML_BV_CINFO_LENGTH_SIZE;
	presence_bitmap |= WLAN_ML_BV_CTRL_PBM_BSSPARAMCHANGECNT_P;
	common_info_length += WLAN_ML_BSSPARAMCHNGCNT_SIZE;

	QDF_SET_BITS(*(uint16_t *)p_ml_ie, WLAN_ML_CTRL_TYPE_IDX,
		     WLAN_ML_CTRL_TYPE_BITS, WLAN_ML_VARIANT_TDLS);
	QDF_SET_BITS(*(uint16_t *)p_ml_ie, WLAN_ML_CTRL_PBM_IDX,
		     WLAN_ML_CTRL_PBM_BITS, presence_bitmap);

	p_ml_ie += WLAN_ML_CTRL_SIZE;
	len_remaining -= WLAN_ML_CTRL_SIZE;

	*p_ml_ie++ = common_info_length;
	len_remaining--;

	qdf_mem_copy(p_ml_ie, session->vdev->mlo_dev_ctx->mld_addr.bytes,
		     QDF_MAC_ADDR_SIZE);

	p_ml_ie += QDF_MAC_ADDR_SIZE;
	len_remaining -= QDF_MAC_ADDR_SIZE;

	mlo_ie->num_data = p_ml_ie - mlo_ie->data;

	return QDF_STATUS_SUCCESS;
}

#if defined (SAP_MULTI_LINK_EMULATION)
static void populate_2link_rnr_info(struct pe_session *session,
				    tDot11fIEreduced_neighbor_report *dot11f)
{
	tSirMacAddr fake_mac_addr;

	qdf_mem_copy(fake_mac_addr, session->self_mac_addr, sizeof(tSirMacAddr));

	pe_debug(QDF_MAC_ADDR_FMT, QDF_MAC_ADDR_REF(fake_mac_addr));

	dot11f->present = 1;
	dot11f->op_class = 131;
	dot11f->channel_num = 37;

	dot11f->tbtt_info_count = 0;
	dot11f->tbtt_info_len = 16;

	fake_mac_addr[4] = 0xaf;
	fake_mac_addr[5] = 0x62;
	qdf_mem_copy(dot11f->tbtt_info.tbtt_info_16.bssid,
		     fake_mac_addr, sizeof(tSirMacAddr));
	dot11f->tbtt_info.tbtt_info_16.mld_id = 0;
	dot11f->tbtt_info.tbtt_info_16.link_id = 1;

	dot11f->tbtt_info.tbtt_info_16.bss_params = 0x4e;
	dot11f->tbtt_info.tbtt_info_16.short_ssid = 0x558df58e;
	dot11f->tbtt_info.tbtt_info_16.psd_20mhz = 0xfe;

	dot11f->tbtt_info.tbtt_info_16.bss_param_change_cnt =
		session->mlo_link_info.link_ie.bss_param_change_cnt;

	pe_debug("Populated rnr IE...");
}
#else
static inline void populate_2link_rnr_info(struct pe_session *session,
					   tDot11fIEreduced_neighbor_report *dot11f)
{
}
#endif

void populate_dot11f_mlo_rnr(struct mac_context *mac_ctx,
			     struct pe_session *session,
			     tDot11fIEreduced_neighbor_report *dot11f)
{
	int link;
	uint16_t vdev_count;
	struct wlan_objmgr_vdev *wlan_vdev_list[WLAN_UMAC_MLO_MAX_VDEVS];
	struct pe_session *link_session;
	bool rnr_populated = false;

	lim_get_mlo_vdev_list(session, &vdev_count, wlan_vdev_list);
	for (link = 0; link < vdev_count; link++) {
		if (!wlan_vdev_list[link])
			continue;
		if (wlan_vdev_list[link] == session->vdev) {
			lim_mlo_release_vdev_ref(wlan_vdev_list[link]);
			continue;
		}
		if (!wlan_vdev_mlme_is_mlo_ap(wlan_vdev_list[link])) {
			lim_mlo_release_vdev_ref(wlan_vdev_list[link]);
			continue;
		}
		link_session = pe_find_session_by_vdev_id(
			mac_ctx, wlan_vdev_get_id(wlan_vdev_list[link]));
		if (!link_session) {
			pe_debug("vdev id %d pe session is not created",
				 wlan_vdev_get_id(wlan_vdev_list[link]));
			lim_mlo_release_vdev_ref(wlan_vdev_list[link]);
			continue;
		}
		if (!rnr_populated) {
			populate_dot11f_rnr_tbtt_info_16(mac_ctx, session,
							 link_session, dot11f);
			pe_debug("mlo vdev id %d populate vdev id %d link id %d op class %d chan num %d in RNR IE",
				 wlan_vdev_get_id(session->vdev),
				 wlan_vdev_get_id(wlan_vdev_list[link]),
				 dot11f->tbtt_info.tbtt_info_16.link_id,
				 dot11f->op_class, dot11f->channel_num);
			rnr_populated = true;
		}
		lim_mlo_release_vdev_ref(wlan_vdev_list[link]);
	}

	populate_2link_rnr_info(session, dot11f);

}

void populate_dot11f_rnr_tbtt_info_16(struct mac_context *mac_ctx,
				      struct pe_session *pe_session,
				      struct pe_session *rnr_session,
				      tDot11fIEreduced_neighbor_report *dot11f)
{
	uint8_t reg_class;
	uint8_t ch_offset;

	dot11f->present = 1;
	dot11f->tbtt_type = 0;
	if (rnr_session->ch_width == CH_WIDTH_80MHZ) {
		ch_offset = BW80;
	} else {
		switch (rnr_session->htSecondaryChannelOffset) {
		case PHY_DOUBLE_CHANNEL_HIGH_PRIMARY:
			ch_offset = BW40_HIGH_PRIMARY;
			break;
		case PHY_DOUBLE_CHANNEL_LOW_PRIMARY:
			ch_offset = BW40_LOW_PRIMARY;
			break;
		default:
			ch_offset = BW20;
			break;
		}
	}

	reg_class = lim_op_class_from_bandwidth(mac_ctx,
						rnr_session->curr_op_freq,
						rnr_session->ch_width,
						ch_offset);

	dot11f->op_class = reg_class;
	dot11f->channel_num = wlan_reg_freq_to_chan(mac_ctx->pdev,
						    rnr_session->curr_op_freq);
	dot11f->tbtt_info_count = 0;
	dot11f->tbtt_info_len = 16;
	qdf_mem_copy(dot11f->tbtt_info.tbtt_info_16.bssid,
		     rnr_session->self_mac_addr, sizeof(tSirMacAddr));
	dot11f->tbtt_info.tbtt_info_16.mld_id = 0;
	dot11f->tbtt_info.tbtt_info_16.link_id = wlan_vdev_get_link_id(
							rnr_session->vdev);
	dot11f->tbtt_info.tbtt_info_16.bss_param_change_cnt =
		rnr_session->mlo_link_info.link_ie.bss_param_change_cnt;
}

QDF_STATUS
populate_dot11f_mlo_caps(struct mac_context *mac_ctx,
			 struct pe_session *session,
			 struct wlan_mlo_ie *mlo_ie)
{
	uint8_t *mld_addr;
	uint8_t common_info_len = 0;

	mlo_ie->type = 0;
	/* Common Info Length */
	common_info_len += WLAN_ML_BV_CINFO_LENGTH_SIZE;
	mld_addr = wlan_vdev_mlme_get_mldaddr(session->vdev);
	qdf_mem_copy(&mlo_ie->mld_mac_addr, mld_addr,
		     sizeof(mlo_ie->mld_mac_addr));
	common_info_len += QDF_MAC_ADDR_SIZE;
	mlo_ie->link_id_info_present = 0;

	mlo_ie->bss_param_change_cnt_present = 0;
	mlo_ie->medium_sync_delay_info_present = 0;

	if (wlan_vdev_mlme_cap_get(session->vdev, WLAN_VDEV_C_EMLSR_CAP)) {
		mlo_ie->eml_capab_present = 1;
		mlo_ie->eml_capabilities_info.emlmr_support = 0;
		mlo_ie->eml_capabilities_info.emlsr_support = 1;
		common_info_len += WLAN_ML_BV_CINFO_EMLCAP_SIZE;
	} else {
		mlo_ie->eml_capab_present = 0;
	}

	common_info_len += WLAN_ML_BV_CINFO_MLDCAPANDOP_SIZE;
	mlo_ie->ext_mld_capab_and_op_present = 0;
	mlo_ie->mld_id_present = 0;
	mlo_ie->mld_capab_and_op_present = 1;
	mlo_ie->mld_capab_and_op_info.tid_link_map_supported =
		wlan_mlme_get_t2lm_negotiation_supported(mac_ctx->psoc);
	mlo_ie->reserved = 0;
	mlo_ie->reserved_1 = 0;
	mlo_ie->common_info_length = common_info_len;

	return QDF_STATUS_SUCCESS;
}

QDF_STATUS
sir_convert_mlo_probe_rsp_frame2_struct(uint8_t *ml_ie,
					uint32_t ml_ie_total_len,
					struct sir_multi_link_ie *mlo_ie_ptr)
{
	bool link_id_found;
	uint8_t link_id;
	bool bss_param_change_cnt_found;
	uint8_t bss_param_change_cnt;
	struct qdf_mac_addr mld_mac_addr;
	uint8_t *sta_prof;

	if (!ml_ie)
		return QDF_STATUS_E_NULL_VALUE;

	if (!ml_ie_total_len)
		return QDF_STATUS_E_NULL_VALUE;

	qdf_mem_zero((uint8_t *)mlo_ie_ptr, sizeof(*mlo_ie_ptr));

	util_get_mlie_common_info_len(ml_ie, ml_ie_total_len,
				      &mlo_ie_ptr->mlo_ie.common_info_length);

	sta_prof = ml_ie + sizeof(struct wlan_ie_multilink) +
		   mlo_ie_ptr->mlo_ie.common_info_length;
	lim_store_mlo_ie_raw_info(ml_ie, sta_prof,
				  ml_ie_total_len, &mlo_ie_ptr->mlo_ie);

	util_get_bvmlie_mldmacaddr(ml_ie, ml_ie_total_len, &mld_mac_addr);
	qdf_mem_copy(mlo_ie_ptr->mlo_ie.mld_mac_addr, mld_mac_addr.bytes,
		     QDF_MAC_ADDR_SIZE);

	util_get_bvmlie_primary_linkid(ml_ie, ml_ie_total_len,
				       &link_id_found, &link_id);
	mlo_ie_ptr->mlo_ie.link_id_info_present = link_id_found;
	mlo_ie_ptr->mlo_ie.link_id = link_id;

	util_get_bvmlie_bssparamchangecnt(ml_ie, ml_ie_total_len,
					  &bss_param_change_cnt_found,
					  &bss_param_change_cnt);
	mlo_ie_ptr->mlo_ie.bss_param_change_cnt_present =
						bss_param_change_cnt_found;
	mlo_ie_ptr->mlo_ie.bss_param_change_count = bss_param_change_cnt;
	mlo_ie_ptr->mlo_ie_present = true;

	return QDF_STATUS_SUCCESS;
}
#endif

#if defined(WLAN_FEATURE_11AX) && defined(WLAN_SUPPORT_TWT)
QDF_STATUS populate_dot11f_twt_extended_caps(struct mac_context *mac_ctx,
					     struct pe_session *pe_session,
					     tDot11fIEExtCap *dot11f)
{
	struct s_ext_cap *p_ext_cap;
	bool twt_responder = false;
	bool twt_requestor = false;

	if (pe_session->opmode == QDF_STA_MODE &&
	    !pe_session->enable_session_twt_support) {
		return QDF_STATUS_SUCCESS;
	}

	dot11f->num_bytes = DOT11F_IE_EXTCAP_MAX_LEN;
	p_ext_cap = (struct s_ext_cap *)dot11f->bytes;
	dot11f->present = 1;

	if (pe_session->opmode == QDF_STA_MODE) {
		wlan_twt_get_requestor_cfg(mac_ctx->psoc, &twt_requestor);
		p_ext_cap->twt_requestor_support =
			twt_requestor && twt_get_requestor_flag(mac_ctx);
	}

	if (pe_session->opmode == QDF_SAP_MODE) {
		wlan_twt_get_responder_cfg(mac_ctx->psoc, &twt_responder);
		p_ext_cap->twt_responder_support =
			twt_responder && twt_get_responder_flag(mac_ctx);
	}

	dot11f->num_bytes = lim_compute_ext_cap_ie_length(dot11f);
	if (!dot11f->num_bytes) {
		dot11f->present = 0;
		pe_debug("ext ie length become 0, disable the ext caps");
	}

	return QDF_STATUS_SUCCESS;
}
#endif

#if defined(WLAN_SAE_SINGLE_PMK) && defined(WLAN_FEATURE_ROAM_OFFLOAD)
/**
 * wlan_fill_single_pmk_ap_cap_from_scan_entry() - WAP3_SPMK VSIE from scan
 * entry
 * @mac_ctx: pointer to mac_context
 * @bss_desc: BSS Descriptor
 * @scan_entry: scan entry
 *
 * Return: None
 */
static void
wlan_fill_single_pmk_ap_cap_from_scan_entry(struct mac_context *mac_ctx,
					    struct bss_description *bss_desc,
					    struct scan_cache_entry *scan_entry)
{
	bss_desc->is_single_pmk =
		util_scan_entry_single_pmk(mac_ctx->psoc, scan_entry) &&
		mac_ctx->mlme_cfg->lfr.sae_single_pmk_feature_enabled;
}
#else
static inline void
wlan_fill_single_pmk_ap_cap_from_scan_entry(struct mac_context *mac_ctx,
					    struct bss_description *bss_desc,
					    struct scan_cache_entry *scan_entry)
{
}
#endif

QDF_STATUS wlan_parse_bss_description_ies(struct mac_context *mac_ctx,
					  struct bss_description *bss_desc,
					  tDot11fBeaconIEs *ie_struct)
{
	int ie_len = wlan_get_ielen_from_bss_description(bss_desc);
	QDF_STATUS status;

	if (ie_len <= 0 || !ie_struct) {
		pe_err("BSS description has invalid IE : %d", ie_len);
		return QDF_STATUS_E_FAILURE;
	}
	if (DOT11F_FAILED(dot11f_unpack_beacon_i_es
			  (mac_ctx, (uint8_t *)bss_desc->ieFields,
			  ie_len, ie_struct, false))) {
		pe_err("Beacon IE parsing failed");
		return QDF_STATUS_E_FAILURE;
	}

	status = lim_strip_and_decode_eht_op((uint8_t *)bss_desc->ieFields,
					     ie_len, &ie_struct->eht_op,
					     ie_struct->VHTOperation,
					     ie_struct->he_op,
					     ie_struct->HTInfo);
	if (status != QDF_STATUS_SUCCESS) {
		pe_err("Failed to extract eht op");
		return QDF_STATUS_E_FAILURE;
	}

	status = lim_strip_and_decode_eht_cap((uint8_t *)bss_desc->ieFields,
					      ie_len, &ie_struct->eht_cap,
					      ie_struct->he_cap,
					      bss_desc->chan_freq);
	if (status != QDF_STATUS_SUCCESS) {
		pe_err("Failed to extract eht cap");
		return QDF_STATUS_E_FAILURE;
	}

	return QDF_STATUS_SUCCESS;
}

QDF_STATUS
wlan_get_parsed_bss_description_ies(struct mac_context *mac_ctx,
				    struct bss_description *bss_desc,
				    tDot11fBeaconIEs **ie_struct)
{
	QDF_STATUS status;

	if (!bss_desc || !ie_struct)
		return QDF_STATUS_E_INVAL;

	*ie_struct = qdf_mem_malloc(sizeof(tDot11fBeaconIEs));
	if (!*ie_struct)
		return QDF_STATUS_E_NOMEM;

	status = wlan_parse_bss_description_ies(mac_ctx, bss_desc,
					        *ie_struct);
	if (QDF_IS_STATUS_ERROR(status)) {
		qdf_mem_free(*ie_struct);
		*ie_struct = NULL;
	}

	return status;
}

void
wlan_populate_basic_rates(tSirMacRateSet *rate_set, bool is_ofdm_rates,
			  bool is_basic_rates)
{
	uint8_t ofdm_rates[8] = {
		SIR_MAC_RATE_6,
		SIR_MAC_RATE_9,
		SIR_MAC_RATE_12,
		SIR_MAC_RATE_18,
		SIR_MAC_RATE_24,
		SIR_MAC_RATE_36,
		SIR_MAC_RATE_48,
		SIR_MAC_RATE_54
	};
	uint8_t cck_rates[4] = {
		SIR_MAC_RATE_1,
		SIR_MAC_RATE_2,
		SIR_MAC_RATE_5_5,
		SIR_MAC_RATE_11
	};

	if (is_ofdm_rates == true) {
		rate_set->numRates = 8;
		qdf_mem_copy(rate_set->rate, ofdm_rates, sizeof(ofdm_rates));
		if (is_basic_rates) {
			rate_set->rate[0] |= WLAN_DOT11_BASIC_RATE_MASK;
			rate_set->rate[2] |= WLAN_DOT11_BASIC_RATE_MASK;
			rate_set->rate[4] |= WLAN_DOT11_BASIC_RATE_MASK;
		}
		pe_debug("Default OFDM Rates");
		QDF_TRACE_HEX_DUMP(QDF_MODULE_ID_PE, QDF_TRACE_LEVEL_DEBUG,
				   rate_set->rate, rate_set->numRates);
	} else {
		rate_set->numRates = 4;
		qdf_mem_copy(rate_set->rate, cck_rates, sizeof(cck_rates));
		if (is_basic_rates) {
			rate_set->rate[0] |= WLAN_DOT11_BASIC_RATE_MASK;
			rate_set->rate[1] |= WLAN_DOT11_BASIC_RATE_MASK;
			rate_set->rate[2] |= WLAN_DOT11_BASIC_RATE_MASK;
			rate_set->rate[3] |= WLAN_DOT11_BASIC_RATE_MASK;
		}
		pe_debug("Default CCK Rates");
		QDF_TRACE_HEX_DUMP(QDF_MODULE_ID_PE, QDF_TRACE_LEVEL_DEBUG,
				   rate_set->rate, rate_set->numRates);
	}
}

/**
 * wlan_is_aggregate_rate_supported() - to check if aggregate rate is supported
 * @mac_ctx: pointer to mac context
 * @rate: A rate in units of 500kbps
 *
 *
 * The rate encoding  is just as in 802.11  Information Elements, except
 * that the high bit is \em  not interpreted as indicating a Basic Rate,
 * and proprietary rates are allowed, too.
 *
 * Note  that if the  adapter's dot11Mode  is g,  we don't  restrict the
 * rates.  According to hwReadEepromParameters, this will happen when:
 * ... the  card is  configured for ALL  bands through  the property
 * page.  If this occurs, and the card is not an ABG card ,then this
 * code  is  setting the  dot11Mode  to  assume  the mode  that  the
 * hardware can support.   For example, if the card  is an 11BG card
 * and we  are configured to support  ALL bands, then  we change the
 * dot11Mode  to 11g  because  ALL in  this  case is  only what  the
 * hardware can support.
 *
 * Return: true if  the adapter is currently capable of supporting this rate
 */

static bool wlan_is_aggregate_rate_supported(struct mac_context *mac_ctx,
					     uint16_t rate)
{
	bool supported = false;
	uint16_t idx, new_rate;
	enum mlme_dot11_mode self_dot11_mode =
				mac_ctx->mlme_cfg->dot11_mode.dot11_mode;

	/* In case basic rate flag is set */
	new_rate = BITS_OFF(rate, WLAN_DOT11_BASIC_RATE_MASK);
	if (self_dot11_mode == MLME_DOT11_MODE_11A) {
		switch (new_rate) {
		case SUPP_RATE_6_MBPS:
		case SUPP_RATE_9_MBPS:
		case SUPP_RATE_12_MBPS:
		case SUPP_RATE_18_MBPS:
		case SUPP_RATE_24_MBPS:
		case SUPP_RATE_36_MBPS:
		case SUPP_RATE_48_MBPS:
		case SUPP_RATE_54_MBPS:
			supported = true;
			break;
		default:
			supported = false;
			break;
		}
	} else if (self_dot11_mode == MLME_DOT11_MODE_11B) {
		switch (new_rate) {
		case SUPP_RATE_1_MBPS:
		case SUPP_RATE_2_MBPS:
		case SUPP_RATE_5_MBPS:
		case SUPP_RATE_11_MBPS:
			supported = true;
			break;
		default:
			supported = false;
			break;
		}
	} else if (!mac_ctx->roam.configParam.ProprietaryRatesEnabled) {
		switch (new_rate) {
		case SUPP_RATE_1_MBPS:
		case SUPP_RATE_2_MBPS:
		case SUPP_RATE_5_MBPS:
		case SUPP_RATE_6_MBPS:
		case SUPP_RATE_9_MBPS:
		case SUPP_RATE_11_MBPS:
		case SUPP_RATE_12_MBPS:
		case SUPP_RATE_18_MBPS:
		case SUPP_RATE_24_MBPS:
		case SUPP_RATE_36_MBPS:
		case SUPP_RATE_48_MBPS:
		case SUPP_RATE_54_MBPS:
			supported = true;
			break;
		default:
			supported = false;
			break;
		}
	} else if (new_rate == SUPP_RATE_1_MBPS ||
		   new_rate == SUPP_RATE_2_MBPS ||
		   new_rate == SUPP_RATE_5_MBPS ||
		   new_rate == SUPP_RATE_11_MBPS)
		supported = true;
	else {
		idx = 0x1;

		switch (new_rate) {
		case SUPP_RATE_6_MBPS:
			supported = g_phy_rates_suppt[0][idx];
			break;
		case SUPP_RATE_9_MBPS:
			supported = g_phy_rates_suppt[1][idx];
			break;
		case SUPP_RATE_12_MBPS:
			supported = g_phy_rates_suppt[2][idx];
			break;
		case SUPP_RATE_18_MBPS:
			supported = g_phy_rates_suppt[3][idx];
			break;
		case SUPP_RATE_20_MBPS:
			supported = g_phy_rates_suppt[4][idx];
			break;
		case SUPP_RATE_24_MBPS:
			supported = g_phy_rates_suppt[5][idx];
			break;
		case SUPP_RATE_36_MBPS:
			supported = g_phy_rates_suppt[6][idx];
			break;
		case SUPP_RATE_40_MBPS:
			supported = g_phy_rates_suppt[7][idx];
			break;
		case SUPP_RATE_42_MBPS:
			supported = g_phy_rates_suppt[8][idx];
			break;
		case SUPP_RATE_48_MBPS:
			supported = g_phy_rates_suppt[9][idx];
			break;
		case SUPP_RATE_54_MBPS:
			supported = g_phy_rates_suppt[10][idx];
			break;
		case SUPP_RATE_72_MBPS:
			supported = g_phy_rates_suppt[11][idx];
			break;
		case SUPP_RATE_80_MBPS:
			supported = g_phy_rates_suppt[12][idx];
			break;
		case SUPP_RATE_84_MBPS:
			supported = g_phy_rates_suppt[13][idx];
			break;
		case SUPP_RATE_96_MBPS:
			supported = g_phy_rates_suppt[14][idx];
			break;
		case SUPP_RATE_108_MBPS:
			supported = g_phy_rates_suppt[15][idx];
			break;
		case SUPP_RATE_120_MBPS:
			supported = g_phy_rates_suppt[16][idx];
			break;
		case SUPP_RATE_126_MBPS:
			supported = g_phy_rates_suppt[17][idx];
			break;
		case SUPP_RATE_144_MBPS:
			supported = g_phy_rates_suppt[18][idx];
			break;
		case SUPP_RATE_160_MBPS:
			supported = g_phy_rates_suppt[19][idx];
			break;
		case SUPP_RATE_168_MBPS:
			supported = g_phy_rates_suppt[20][idx];
			break;
		case SUPP_RATE_192_MBPS:
			supported = g_phy_rates_suppt[21][idx];
			break;
		case SUPP_RATE_216_MBPS:
			supported = g_phy_rates_suppt[22][idx];
			break;
		case SUPP_RATE_240_MBPS:
			supported = g_phy_rates_suppt[23][idx];
			break;
		default:
			supported = false;
			break;
		}
	}

	return supported;
}

bool wlan_rates_is_dot11_rate_supported(struct mac_context *mac_ctx,
					uint8_t rate)
{
	uint16_t n = BITS_OFF(rate, WLAN_DOT11_BASIC_RATE_MASK);

	return wlan_is_aggregate_rate_supported(mac_ctx, n);
}

bool wlan_check_rate_bitmap(uint8_t rate, uint16_t rate_bitmap)
{
	uint16_t n = BITS_OFF(rate, WLAN_DOT11_BASIC_RATE_MASK);

	switch (n) {
	case SIR_MAC_RATE_1:
		rate_bitmap &= SIR_MAC_RATE_1_BITMAP;
		break;
	case SIR_MAC_RATE_2:
		rate_bitmap &= SIR_MAC_RATE_2_BITMAP;
		break;
	case SIR_MAC_RATE_5_5:
		rate_bitmap &= SIR_MAC_RATE_5_5_BITMAP;
		break;
	case SIR_MAC_RATE_11:
		rate_bitmap &= SIR_MAC_RATE_11_BITMAP;
		break;
	case SIR_MAC_RATE_6:
		rate_bitmap &= SIR_MAC_RATE_6_BITMAP;
		break;
	case SIR_MAC_RATE_9:
		rate_bitmap &= SIR_MAC_RATE_9_BITMAP;
		break;
	case SIR_MAC_RATE_12:
		rate_bitmap &= SIR_MAC_RATE_12_BITMAP;
		break;
	case SIR_MAC_RATE_18:
		rate_bitmap &= SIR_MAC_RATE_18_BITMAP;
		break;
	case SIR_MAC_RATE_24:
		rate_bitmap &= SIR_MAC_RATE_24_BITMAP;
		break;
	case SIR_MAC_RATE_36:
		rate_bitmap &= SIR_MAC_RATE_36_BITMAP;
		break;
	case SIR_MAC_RATE_48:
		rate_bitmap &= SIR_MAC_RATE_48_BITMAP;
		break;
	case SIR_MAC_RATE_54:
		rate_bitmap &= SIR_MAC_RATE_54_BITMAP;
		break;
	}
	return !!rate_bitmap;
}

void wlan_add_rate_bitmap(uint8_t rate, uint16_t *rate_bitmap)
{
	uint16_t n = BITS_OFF(rate, CSR_DOT11_BASIC_RATE_MASK);

	switch (n) {
	case SIR_MAC_RATE_1:
		*rate_bitmap |= SIR_MAC_RATE_1_BITMAP;
		break;
	case SIR_MAC_RATE_2:
		*rate_bitmap |= SIR_MAC_RATE_2_BITMAP;
		break;
	case SIR_MAC_RATE_5_5:
		*rate_bitmap |= SIR_MAC_RATE_5_5_BITMAP;
		break;
	case SIR_MAC_RATE_11:
		*rate_bitmap |= SIR_MAC_RATE_11_BITMAP;
		break;
	case SIR_MAC_RATE_6:
		*rate_bitmap |= SIR_MAC_RATE_6_BITMAP;
		break;
	case SIR_MAC_RATE_9:
		*rate_bitmap |= SIR_MAC_RATE_9_BITMAP;
		break;
	case SIR_MAC_RATE_12:
		*rate_bitmap |= SIR_MAC_RATE_12_BITMAP;
		break;
	case SIR_MAC_RATE_18:
		*rate_bitmap |= SIR_MAC_RATE_18_BITMAP;
		break;
	case SIR_MAC_RATE_24:
		*rate_bitmap |= SIR_MAC_RATE_24_BITMAP;
		break;
	case SIR_MAC_RATE_36:
		*rate_bitmap |= SIR_MAC_RATE_36_BITMAP;
		break;
	case SIR_MAC_RATE_48:
		*rate_bitmap |= SIR_MAC_RATE_48_BITMAP;
		break;
	case SIR_MAC_RATE_54:
		*rate_bitmap |= SIR_MAC_RATE_54_BITMAP;
		break;
	}
}

static bool is_ofdm_rates(uint16_t rate)
{
	uint16_t n = BITS_OFF(rate, WLAN_DOT11_BASIC_RATE_MASK);

	switch (n) {
	case SIR_MAC_RATE_6:
	case SIR_MAC_RATE_9:
	case SIR_MAC_RATE_12:
	case SIR_MAC_RATE_18:
	case SIR_MAC_RATE_24:
	case SIR_MAC_RATE_36:
	case SIR_MAC_RATE_48:
	case SIR_MAC_RATE_54:
		return true;
	default:
		break;
	}

	return false;
}

QDF_STATUS wlan_get_rate_set(struct mac_context *mac,
			     tDot11fBeaconIEs *ie_struct,
			     struct pe_session *pe_session)
{
	QDF_STATUS status = QDF_STATUS_E_FAILURE;
	int i;
	uint8_t *dst_rate;
	uint16_t rateBitmap = 0;
	bool is_24ghz_freq;
	tSirMacRateSet *op_rate;
	tSirMacRateSet *ext_rate;
	tSirMacRateSet rate_set;


	if (!pe_session) {
		pe_err("pe session is NULL");
		return QDF_STATUS_E_INVAL;
	}
	op_rate = &pe_session->rateSet;
	ext_rate = &pe_session->extRateSet;
	is_24ghz_freq = wlan_reg_is_24ghz_ch_freq(pe_session->curr_op_freq);

	qdf_mem_zero(op_rate, sizeof(tSirMacRateSet));
	qdf_mem_zero(ext_rate, sizeof(tSirMacRateSet));
	qdf_mem_zero(&rate_set, sizeof(tSirMacRateSet));
	QDF_ASSERT(ie_struct);

	/*
	 * Originally, we thought that for 11a networks, the 11a rates
	 * are always in the Operational Rate set & for 11b and 11g
	 * networks, the 11b rates appear in the Operational Rate set.
	 * Consequently, in either case, we would blindly put the rates
	 * we support into our Operational Rate set.
	 * (including the basic rates, which we've already verified are
	 * supported earlier in the roaming decision).
	 * However, it turns out that this is not always the case.
	 * Some AP's (e.g. D-Link DI-784) ram 11g rates into the
	 * Operational Rate set too.  Now, we're a little more careful.
	 */
	dst_rate = op_rate->rate;
	if (ie_struct->SuppRates.present) {
		for (i = 0; i < ie_struct->SuppRates.num_rates; i++) {
			if (!is_24ghz_freq &&
			    !is_ofdm_rates(ie_struct->SuppRates.rates[i]))
				continue;

			if (wlan_rates_is_dot11_rate_supported(mac,
				ie_struct->SuppRates.rates[i]) &&
				!wlan_check_rate_bitmap(
					ie_struct->SuppRates.rates[i],
					rateBitmap)) {
				wlan_add_rate_bitmap(ie_struct->SuppRates.
						    rates[i], &rateBitmap);
				*dst_rate++ = ie_struct->SuppRates.rates[i];
				op_rate->numRates++;
			}
		}
	}
	/*
	 * If there are Extended Rates in the beacon, we will reflect the
	 * extended rates that we support in our Extended Operational Rate
	 * set.
	 */
	if (ie_struct->ExtSuppRates.present) {
		dst_rate = ext_rate->rate;
		for (i = 0; i < ie_struct->ExtSuppRates.num_rates; i++) {
			if (wlan_rates_is_dot11_rate_supported(mac,
				ie_struct->ExtSuppRates.rates[i]) &&
				!wlan_check_rate_bitmap(
					ie_struct->ExtSuppRates.rates[i],
					rateBitmap)) {
				*dst_rate++ = ie_struct->ExtSuppRates.rates[i];
				ext_rate->numRates++;
			}
		}
	}
	if (!op_rate->numRates) {
		dst_rate = op_rate->rate;
		wlan_populate_basic_rates(&rate_set, !is_24ghz_freq, true);
		for (i = 0; i < rate_set.numRates; i++) {
			if (!wlan_check_rate_bitmap(rate_set.rate[i],
						    rateBitmap)) {
				wlan_add_rate_bitmap(rate_set.rate[i],
						     &rateBitmap);
				*dst_rate++ = rate_set.rate[i];
				op_rate->numRates++;
			}
		}
		if (!is_24ghz_freq)
			return QDF_STATUS_SUCCESS;

		wlan_populate_basic_rates(&rate_set, true, false);
		for (i = op_rate->numRates;
		     i < WLAN_SUPPORTED_RATES_IE_MAX_LEN; i++) {
			if (!wlan_check_rate_bitmap(rate_set.rate[i],
						    rateBitmap)) {
				wlan_add_rate_bitmap(rate_set.rate[i],
						     &rateBitmap);
				*dst_rate++ = rate_set.rate[i];
				op_rate->numRates++;
			}
		}
	}
	if (op_rate->numRates > 0 || ext_rate->numRates > 0)
		status = QDF_STATUS_SUCCESS;

	return status;
}

uint32_t wlan_get_11h_power_constraint(struct mac_context *mac_ctx,
				       tDot11fIEPowerConstraints *constraints)
{
	uint32_t local_power_constraint = 0;

	/*
	 * check if .11h support is enabled, if not,
	 * the power constraint is 0.
	 */
	if (mac_ctx->mlme_cfg->gen.enabled_11h && constraints->present)
		local_power_constraint = constraints->localPowerConstraints;

	return local_power_constraint;
}

#ifdef FEATURE_WLAN_ESE
static void wlan_fill_qbss_load_param(tDot11fBeaconIEs *bcn_ies,
				      struct bss_description *bss_desc)
{
	if (!bcn_ies->QBSSLoad.present)
		return;

	bss_desc->QBSSLoad_present = true;
	bss_desc->QBSSLoad_avail = bcn_ies->QBSSLoad.avail;
}
#else
static void wlan_fill_qbss_load_param(tDot11fBeaconIEs *bcn_ies,
				      struct bss_description *bss_desc)
{
}
#endif

#ifdef WLAN_FEATURE_FILS_SK
static void wlan_update_bss_with_fils_data(struct mac_context *mac_ctx,
					  struct scan_cache_entry *scan_entry,
					  struct bss_description *bss_descr)
{
	int ret;
	tDot11fIEfils_indication *fils_indication;
	struct sir_fils_indication *fils_ind;

	if (!scan_entry->ie_list.fils_indication)
		return;

	fils_indication = qdf_mem_malloc(sizeof(*fils_indication));
	if (!fils_indication) {
		pe_err("malloc failed for fils_indication");
		return;
	}

	ret = dot11f_unpack_ie_fils_indication(mac_ctx,
				scan_entry->ie_list.fils_indication +
				SIR_FILS_IND_ELEM_OFFSET,
				*(scan_entry->ie_list.fils_indication + 1),
				fils_indication, false);
	if (DOT11F_FAILED(ret)) {
		pe_err("unpack failed ret: 0x%x", ret);
		qdf_mem_free(fils_indication);
		return;
	}

	fils_ind = qdf_mem_malloc(sizeof(*fils_ind));
	if (!fils_ind) {
		pe_err("malloc failed for fils_ind");
		qdf_mem_free(fils_indication);
		return;
	}

	update_fils_data(fils_ind, fils_indication);
	if (fils_ind->realm_identifier.realm_cnt > SIR_MAX_REALM_COUNT)
		fils_ind->realm_identifier.realm_cnt = SIR_MAX_REALM_COUNT;

	bss_descr->fils_info_element.realm_cnt =
		fils_ind->realm_identifier.realm_cnt;
	qdf_mem_copy(bss_descr->fils_info_element.realm,
			fils_ind->realm_identifier.realm,
			bss_descr->fils_info_element.realm_cnt * SIR_REALM_LEN);
	pe_debug("FILS: bssid:" QDF_MAC_ADDR_FMT "is_present:%d cache_id[0x%x%x]",
		 QDF_MAC_ADDR_REF(bss_descr->bssId),
		 fils_ind->cache_identifier.is_present,
		 fils_ind->cache_identifier.identifier[0],
		 fils_ind->cache_identifier.identifier[1]);
	if (fils_ind->cache_identifier.is_present) {
		bss_descr->fils_info_element.is_cache_id_present = true;
		qdf_mem_copy(bss_descr->fils_info_element.cache_id,
			fils_ind->cache_identifier.identifier, CACHE_ID_LEN);
	}
	if (fils_ind->is_fils_sk_auth_supported)
		bss_descr->fils_info_element.is_fils_sk_supported = true;

	qdf_mem_free(fils_ind);
	qdf_mem_free(fils_indication);
}
#else
static void wlan_update_bss_with_fils_data(struct mac_context *mac_ctx,
					  struct scan_cache_entry *scan_entry,
					  struct bss_description *bss_descr)
{ }
#endif

QDF_STATUS
wlan_fill_bss_desc_from_scan_entry(struct mac_context *mac_ctx,
				   struct bss_description *bss_desc,
				   struct scan_cache_entry *scan_entry)
{
	uint8_t *ie_ptr;
	uint32_t ie_len;
	tpSirMacMgmtHdr hdr;
	tDot11fBeaconIEs *bcn_ies;
	QDF_STATUS status;

	hdr = (tpSirMacMgmtHdr)scan_entry->raw_frame.ptr;

	ie_len = util_scan_entry_ie_len(scan_entry);
	ie_ptr = util_scan_entry_ie_data(scan_entry);

	bss_desc->length = (uint16_t) (offsetof(struct bss_description,
			   ieFields[0]) - sizeof(bss_desc->length) + ie_len);

	qdf_mem_copy(bss_desc->bssId, scan_entry->bssid.bytes,
		     QDF_MAC_ADDR_SIZE);
	bss_desc->scansystimensec = scan_entry->boottime_ns;
	qdf_mem_copy(bss_desc->timeStamp,
		scan_entry->tsf_info.data, 8);

	bss_desc->beaconInterval = scan_entry->bcn_int;
	bss_desc->capabilityInfo = scan_entry->cap_info.value;

	if (WLAN_REG_IS_5GHZ_CH_FREQ(scan_entry->channel.chan_freq) ||
	    WLAN_REG_IS_6GHZ_CHAN_FREQ(scan_entry->channel.chan_freq))
		bss_desc->nwType = eSIR_11A_NW_TYPE;
	else if (scan_entry->phy_mode == WLAN_PHYMODE_11B)
		bss_desc->nwType = eSIR_11B_NW_TYPE;
	else
		bss_desc->nwType = eSIR_11G_NW_TYPE;

	bss_desc->rssi = scan_entry->rssi_raw;
	bss_desc->rssi_raw = scan_entry->rssi_raw;

	/* channel frequency what peer sent in beacon/probersp. */
	bss_desc->chan_freq = scan_entry->channel.chan_freq;
	bss_desc->received_time =
		scan_entry->scan_entry_time;
	bss_desc->startTSF[0] =
		mac_ctx->rrm.rrmPEContext.startTSF[0];
	bss_desc->startTSF[1] =
		mac_ctx->rrm.rrmPEContext.startTSF[1];
	bss_desc->parentTSF =
		scan_entry->rrm_parent_tsf;
	bss_desc->fProbeRsp = (scan_entry->frm_subtype ==
			  MGMT_SUBTYPE_PROBE_RESP);
	bss_desc->seq_ctrl = hdr->seqControl;
	bss_desc->tsf_delta = scan_entry->tsf_delta;
	bss_desc->adaptive_11r_ap = scan_entry->adaptive_11r_ap;

	bss_desc->mbo_oce_enabled_ap =
			util_scan_entry_mbo_oce(scan_entry) ? true : false;

	wlan_fill_single_pmk_ap_cap_from_scan_entry(mac_ctx, bss_desc,
						    scan_entry);

	qdf_mem_copy(&bss_desc->mbssid_info, &scan_entry->mbssid_info,
		     sizeof(struct scan_mbssid_info));

	qdf_mem_copy((uint8_t *) &bss_desc->ieFields, ie_ptr, ie_len);

	status = wlan_get_parsed_bss_description_ies(mac_ctx, bss_desc,
						     &bcn_ies);
	if (QDF_IS_STATUS_ERROR(status))
		return status;

	if (bcn_ies->MobilityDomain.present) {
		bss_desc->mdiePresent = true;
		qdf_mem_copy((uint8_t *)&(bss_desc->mdie[0]),
			     (uint8_t *)&(bcn_ies->MobilityDomain.MDID),
			     sizeof(uint16_t));
		bss_desc->mdie[2] =
			((bcn_ies->MobilityDomain.overDSCap << 0) |
			(bcn_ies->MobilityDomain.resourceReqCap << 1));
	}

	wlan_fill_qbss_load_param(bcn_ies, bss_desc);
	wlan_update_bss_with_fils_data(mac_ctx, scan_entry, bss_desc);

	qdf_mem_free(bcn_ies);

	return QDF_STATUS_SUCCESS;
}

uint16_t
wlan_get_ielen_from_bss_description(struct bss_description *bss_desc)
{
	uint16_t ielen, ieFields_offset;

	ieFields_offset = GET_FIELD_OFFSET(struct bss_description, ieFields);

	if (!bss_desc) {
		pe_err_rl("Bss_desc is NULL");
		return 0;
	}

	if (bss_desc->length <= (ieFields_offset - sizeof(bss_desc->length))) {
		pe_err_rl("Invalid bss_desc len:%d ie_fields_offset:%d",
			  bss_desc->length, ieFields_offset);
		return 0;
	}

	/*
	 * Length of BSS description is without length of
	 * length itself and length of pointer
	 * that holds ieFields
	 *
	 * <------------sizeof(struct bss_description)-------------------->
	 * +--------+---------------------------------+---------------+
	 * | length | other fields                    | pointer to IEs|
	 * +--------+---------------------------------+---------------+
	 *                                            ^
	 *                                            ieFields
	 */

	ielen = (uint16_t)(bss_desc->length + sizeof(bss_desc->length) -
			   ieFields_offset);

	return ielen;
}

QDF_STATUS populate_dot11f_btm_extended_caps(struct mac_context *mac_ctx,
					     struct pe_session *pe_session,
					     struct sDot11fIEExtCap *dot11f)
{
	struct s_ext_cap *p_ext_cap;
	QDF_STATUS  status;
	bool is_disable_btm;
	struct cm_roam_values_copy temp;

	dot11f->num_bytes = DOT11F_IE_EXTCAP_MAX_LEN;
	p_ext_cap = (struct s_ext_cap *)dot11f->bytes;
	dot11f->present = 1;

	status = cm_akm_roam_allowed(mac_ctx->psoc, pe_session->vdev);
	if (QDF_IS_STATUS_ERROR(status)) {
		p_ext_cap->bss_transition = 0;
		pe_debug("vdev:%d, Disable btm for roaming not suppprted",
			 pe_session->vdev_id);
	}

	wlan_cm_roam_cfg_get_value(mac_ctx->psoc, pe_session->vdev_id,
				   IS_DISABLE_BTM, &temp);
	is_disable_btm = temp.bool_value;
	if (is_disable_btm) {
		pe_debug("vdev:%d, Disable BTM as BTM roam disabled by user",
			 pe_session->vdev_id);
		p_ext_cap->bss_transition = 0;
	}

	if (!pe_session->lim_join_req)
		goto compute_len;

	if (p_ext_cap->bss_transition && !cm_is_open_mode(pe_session->vdev) &&
	    pe_session->lim_join_req->bssDescription.mbo_oce_enabled_ap &&
	    !pe_session->limRmfEnabled) {
		pe_debug("vdev:%d, Disable BTM as MBO AP doesn't support PMF",
			 pe_session->vdev_id);
		p_ext_cap->bss_transition = 0;
	}

compute_len:
	dot11f->num_bytes = lim_compute_ext_cap_ie_length(dot11f);
	if (!dot11f->num_bytes) {
		dot11f->present = 0;
		pe_debug("ext ie length become 0, disable the ext caps");
	}

	wlan_cm_set_assoc_btm_cap(pe_session->vdev, p_ext_cap->bss_transition);
	return QDF_STATUS_SUCCESS;
}

#ifdef WLAN_FEATURE_11BE_MLO
/**
 * populate_dot11f_mlo_partner_sta_cap() - populate mlo sta partner capability
 * @mac: mac
 * @pDot11f: tDot11fFfCapabilities
 *
 * Return: QDF_STATUS
 */
static QDF_STATUS
populate_dot11f_mlo_partner_sta_cap(struct mac_context *mac,
				    tDot11fFfCapabilities *pDot11f)
{
	uint16_t cap = 0;
	uint32_t val = 0;
	tpSirMacCapabilityInfo pcap_info;

	pcap_info = (tpSirMacCapabilityInfo)&cap;

	pcap_info->ess = 1;      /* ESS bit */

	if (mac->mlme_cfg->wep_params.is_privacy_enabled)
		pcap_info->privacy = 1;

	/* Short preamble bit */
	if (mac->mlme_cfg->ht_caps.short_preamble)
		pcap_info->shortPreamble =
			mac->mlme_cfg->ht_caps.short_preamble;

	/* criticalUpdateFlag bit */
	pcap_info->criticalUpdateFlag = 0;

	/* Channel agility bit */
	pcap_info->channelAgility = 0;

	/* Short slot time bit */
	if (mac->mlme_cfg->feature_flags.enable_short_slot_time_11g)
		pcap_info->shortSlotTime = 1;

	/* Spectrum Management bit */
	if (mac->mlme_cfg->gen.enabled_11h)
		pcap_info->spectrumMgt = 1;
	/* QoS bit */
	if (mac->mlme_cfg->wmm_params.qos_enabled)
		pcap_info->qos = 1;

	/* APSD bit */
	if (mac->mlme_cfg->roam_scoring.apsd_enabled)
		pcap_info->apsd = 1;

	pcap_info->rrm = mac->rrm.rrmConfig.rrm_enabled;
	/* DSSS-OFDM */
	/* FIXME : no config defined yet. */

	/* Block ack bit */
	val = mac->mlme_cfg->feature_flags.enable_block_ack;
	pcap_info->delayedBA =
		(uint16_t)((val >> WNI_CFG_BLOCK_ACK_ENABLED_DELAYED) & 1);
	pcap_info->immediateBA =
		(uint16_t)((val >> WNI_CFG_BLOCK_ACK_ENABLED_IMMEDIATE) & 1);

	swap_bit_field16(cap, (uint16_t *)pDot11f);

	return QDF_STATUS_SUCCESS;
}

QDF_STATUS populate_dot11f_auth_mlo_ie(struct mac_context *mac_ctx,
				       struct pe_session *pe_session,
				       struct wlan_mlo_ie *mlo_ie)
{
	struct qdf_mac_addr *mld_addr;
	uint8_t *p_ml_ie;
	uint16_t len_remaining;

	pe_debug("Populate Auth MLO IEs");

	mlo_ie->type = 0;

	mlo_ie->common_info_length = WLAN_ML_BV_CINFO_LENGTH_SIZE;
	mld_addr = (struct qdf_mac_addr *)wlan_vdev_mlme_get_mldaddr(
							pe_session->vdev);
	qdf_mem_copy(&mlo_ie->mld_mac_addr, mld_addr, QDF_MAC_ADDR_SIZE);
	mlo_ie->common_info_length += QDF_MAC_ADDR_SIZE;

	pe_debug("MLD mac addr: " QDF_MAC_ADDR_FMT,
		 QDF_MAC_ADDR_REF(mld_addr->bytes));

	mlo_ie->link_id_info_present = 0;
	mlo_ie->bss_param_change_cnt_present = 0;
	mlo_ie->medium_sync_delay_info_present = 0;
	mlo_ie->eml_capab_present = 0;
	mlo_ie->mld_capab_and_op_present = 0;
	mlo_ie->mld_id_present = 0;
	mlo_ie->ext_mld_capab_and_op_present = 0;

	p_ml_ie = mlo_ie->data;
	len_remaining = sizeof(mlo_ie->data);

	*p_ml_ie++ = WLAN_ELEMID_EXTN_ELEM;
	len_remaining--;
	*p_ml_ie++ = 0;
	len_remaining--;
	*p_ml_ie++ = WLAN_EXTN_ELEMID_MULTI_LINK;
	len_remaining--;

	QDF_SET_BITS(*(uint16_t *)p_ml_ie, WLAN_ML_CTRL_TYPE_IDX,
		     WLAN_ML_CTRL_TYPE_BITS, mlo_ie->type);
	p_ml_ie += WLAN_ML_CTRL_SIZE;
	len_remaining -= WLAN_ML_CTRL_SIZE;

	*p_ml_ie++ = mlo_ie->common_info_length;
	len_remaining--;

	qdf_mem_copy(p_ml_ie, mlo_ie->mld_mac_addr, QDF_MAC_ADDR_SIZE);
	p_ml_ie += QDF_MAC_ADDR_SIZE;
	len_remaining -= QDF_MAC_ADDR_SIZE;

	mlo_ie->num_data = p_ml_ie - mlo_ie->data;

	return QDF_STATUS_SUCCESS;
}

QDF_STATUS populate_dot11f_assoc_req_mlo_ie(struct mac_context *mac_ctx,
					    struct pe_session *pe_session,
					    tDot11fAssocRequest *frm)
{
	uint8_t link;
	uint8_t num_sta_prof = 0, total_sta_prof;
	struct wlan_mlo_ie *mlo_ie;
	struct wlan_mlo_sta_profile *sta_prof;
	struct mlo_link_info *link_info = NULL;
	struct mlo_partner_info *partner_info;
	struct qdf_mac_addr *mld_addr;
	struct wlan_mlo_dev_context *mlo_dev_ctx;
	tSirMacRateSet b_rates;
	tSirMacRateSet e_rates;
	uint8_t non_inher_len;
	uint8_t non_inher_ie_lists[255];
	uint8_t non_inher_ext_len;
	uint8_t non_inher_ext_ie_lists[255];
	qdf_freq_t chan_freq = 0;
	uint8_t chan;
	uint8_t op_class;
	uint8_t *p_sta_prof;
	uint8_t *p_ml_ie;
	uint32_t len_consumed;
	uint16_t len_remaining, len;
	QDF_STATUS status;
	struct wlan_objmgr_psoc *psoc;
	tDot11fIEnon_inheritance sta_prof_non_inherit;
	tDot11fFfCapabilities mlo_cap;
	tDot11fIEHTCaps ht_caps;
	tDot11fIEVHTCaps vht_caps;
	tDot11fIEExtCap ext_cap;
	tDot11fIEhe_cap he_caps;
	tDot11fIEhe_6ghz_band_cap he_6ghz_band_cap;
	tDot11fIEeht_cap eht_caps;
	tDot11fIESuppRates supp_rates;
	tDot11fIEExtSuppRates ext_supp_rates;
	struct wlan_mlo_eml_cap eml_cap = {0};
	uint16_t presence_bitmap = 0;
	bool is_2g;
	uint32_t value = 0;
	uint8_t *ppet, cb_mode;
	uint8_t *eht_cap_ie = NULL;
	bool sta_prof_he_ie = false;

	if (!mac_ctx || !pe_session || !frm)
		return QDF_STATUS_E_NULL_VALUE;

	psoc = wlan_vdev_get_psoc(pe_session->vdev);
	if (!psoc) {
		pe_err("Invalid psoc");
		return QDF_STATUS_E_FAILURE;
	}

	pe_debug("Populate Assoc req MLO IEs");

	mlo_ie = &pe_session->mlo_ie;

	mlo_ie->type = 0;
	mlo_ie->common_info_length = WLAN_ML_BV_CINFO_LENGTH_SIZE;
	mld_addr =
	    (struct qdf_mac_addr *)wlan_vdev_mlme_get_mldaddr(pe_session->vdev);
	qdf_mem_copy(&mlo_ie->mld_mac_addr, mld_addr, QDF_MAC_ADDR_SIZE);
	mlo_ie->common_info_length += QDF_MAC_ADDR_SIZE;

	mlo_ie->link_id_info_present = 0;
	mlo_ie->bss_param_change_cnt_present = 0;
	mlo_ie->medium_sync_delay_info_present = 0;
	mlo_ie->eml_capab_present = 0;
	mlo_ie->mld_capab_and_op_present = 1;
	mlo_ie->mld_id_present = 0;
	mlo_ie->ext_mld_capab_and_op_present = 0;

	if (!pe_session->lim_join_req)
		return QDF_STATUS_E_FAILURE;

	partner_info = &pe_session->lim_join_req->partner_info;

	if (mlo_ie->mld_capab_and_op_present) {
		presence_bitmap |= WLAN_ML_BV_CTRL_PBM_MLDCAPANDOP_P;
		mlo_ie->common_info_length += WLAN_ML_BV_CINFO_MLDCAPANDOP_SIZE;
		mlo_ie->mld_capab_and_op_info.max_simultaneous_link_num =
			QDF_MIN(partner_info->num_partner_links,
				wlan_mlme_get_sta_mlo_simultaneous_links(psoc));
		pe_debug("max_simultaneous_link_num %d",
			 mlo_ie->mld_capab_and_op_info.max_simultaneous_link_num);
		mlo_ie->mld_capab_and_op_info.srs_support = 0;
		mlo_ie->mld_capab_and_op_info.tid_link_map_supported =
			wlan_mlme_get_t2lm_negotiation_supported(mac_ctx->psoc);
		mlo_ie->mld_capab_and_op_info.str_freq_separation = 0;
		mlo_ie->mld_capab_and_op_info.aar_support = 0;
	}

	/* Check if STA supports EMLSR and vendor command prefers EMLSR mode */
	if (wlan_vdev_mlme_cap_get(pe_session->vdev, WLAN_VDEV_C_EMLSR_CAP)) {
		wlan_mlme_get_eml_params(psoc, &eml_cap);
		mlo_ie->eml_capab_present = 1;
		presence_bitmap |= WLAN_ML_BV_CTRL_PBM_EMLCAP_P;
		mlo_ie->common_info_length += WLAN_ML_BV_CINFO_EMLCAP_SIZE;
		mlo_ie->eml_capabilities_info.emlsr_support =
						eml_cap.emlsr_supp;
		mlo_ie->eml_capabilities_info.emlmr_support =
						eml_cap.emlmr_supp;
		mlo_ie->eml_capabilities_info.transition_timeout = 0;
		mlo_ie->eml_capabilities_info.emlsr_padding_delay =
						eml_cap.emlsr_pad_delay;
		mlo_ie->eml_capabilities_info.emlsr_transition_delay =
						eml_cap.emlsr_trans_delay;
	}

	p_ml_ie = mlo_ie->data;
	len_remaining = sizeof(mlo_ie->data);

	/* element ID, length and extension element ID */
	*p_ml_ie++ = WLAN_ELEMID_EXTN_ELEM;
	len_remaining--;
	/* length will set later */
	*p_ml_ie++ = 0;
	len_remaining--;
	*p_ml_ie++ = WLAN_EXTN_ELEMID_MULTI_LINK;
	len_remaining--;

	QDF_SET_BITS(*(uint16_t *)p_ml_ie, WLAN_ML_CTRL_TYPE_IDX,
		     WLAN_ML_CTRL_TYPE_BITS, mlo_ie->type);
	QDF_SET_BITS(*(uint16_t *)p_ml_ie, WLAN_ML_CTRL_PBM_IDX,
		     WLAN_ML_CTRL_PBM_BITS, presence_bitmap);
	p_ml_ie += WLAN_ML_CTRL_SIZE;
	len_remaining -= WLAN_ML_CTRL_SIZE;

	*p_ml_ie++ = mlo_ie->common_info_length;
	len_remaining--;

	qdf_mem_copy(p_ml_ie, mld_addr, QDF_MAC_ADDR_SIZE);
	p_ml_ie += QDF_MAC_ADDR_SIZE;
	len_remaining -= QDF_MAC_ADDR_SIZE;

	if (mlo_ie->eml_capab_present) {
		QDF_SET_BITS(*(uint16_t *)p_ml_ie,
		     WLAN_ML_BV_CINFO_EMLCAP_EMLSRSUPPORT_IDX,
		     WLAN_ML_BV_CINFO_EMLCAP_EMLSRSUPPORT_BITS,
		     mlo_ie->eml_capabilities_info.emlsr_support);
		QDF_SET_BITS(*(uint16_t *)p_ml_ie,
		     WLAN_ML_BV_CINFO_EMLCAP_EMLSR_PADDINGDELAY_IDX,
		     WLAN_ML_BV_CINFO_EMLCAP_EMLSR_PADDINGDELAY_BITS,
		     mlo_ie->eml_capabilities_info.emlsr_padding_delay);
		QDF_SET_BITS(*(uint16_t *)p_ml_ie,
		     WLAN_ML_BV_CINFO_EMLCAP_EMLSRTRANSDELAY_IDX,
		     WLAN_ML_BV_CINFO_EMLCAP_EMLSRTRANSDELAY_BITS,
		     mlo_ie->eml_capabilities_info.emlsr_transition_delay);
		QDF_SET_BITS(*(uint16_t *)p_ml_ie,
		     WLAN_ML_BV_CINFO_EMLCAP_EMLMRSUPPORT_IDX,
		     WLAN_ML_BV_CINFO_EMLCAP_EMLMRSUPPORT_BITS,
		     mlo_ie->eml_capabilities_info.emlmr_support);
		QDF_SET_BITS(*(uint16_t *)p_ml_ie,
		     WLAN_ML_BV_CINFO_EMLCAP_EMLMRDELAY_IDX,
		     WLAN_ML_BV_CINFO_EMLCAP_EMLMRDELAY_BITS,
		     mlo_ie->eml_capabilities_info.emlmr_delay);
		QDF_SET_BITS(*(uint16_t *)p_ml_ie,
		     WLAN_ML_BV_CINFO_EMLCAP_TRANSTIMEOUT_IDX,
		     WLAN_ML_BV_CINFO_EMLCAP_TRANSTIMEOUT_BITS,
		     mlo_ie->eml_capabilities_info.transition_timeout);

		p_ml_ie += WLAN_ML_BV_CINFO_EMLCAP_SIZE;
		len_remaining -= WLAN_ML_BV_CINFO_EMLCAP_SIZE;
	}

	pe_debug("EMLSR support: %d, padding delay: %d, transition delay: %d",
		 mlo_ie->eml_capabilities_info.emlsr_support,
		 mlo_ie->eml_capabilities_info.emlsr_padding_delay,
		 mlo_ie->eml_capabilities_info.emlsr_transition_delay);

	if (mlo_ie->mld_capab_and_op_present) {
		QDF_SET_BITS(*(uint16_t *)p_ml_ie,
		     WLAN_ML_BV_CINFO_MLDCAPANDOP_MAXSIMULLINKS_IDX,
		     WLAN_ML_BV_CINFO_MLDCAPANDOP_MAXSIMULLINKS_BITS,
		     mlo_ie->mld_capab_and_op_info.max_simultaneous_link_num);
		QDF_SET_BITS(*(uint16_t *)p_ml_ie,
		     WLAN_ML_BV_CINFO_MLDCAPANDOP_TIDTOLINKMAPNEGSUPPORT_IDX,
		     WLAN_ML_BV_CINFO_MLDCAPANDOP_TIDTOLINKMAPNEGSUPPORT_BITS,
		     mlo_ie->mld_capab_and_op_info.tid_link_map_supported);
		p_ml_ie += WLAN_ML_BV_CINFO_MLDCAPANDOP_SIZE;
		len_remaining -= WLAN_ML_BV_CINFO_MLDCAPANDOP_SIZE;
	}

	mlo_ie->num_data = p_ml_ie - mlo_ie->data;

	/* find out number of links from bcn or prb rsp */
	total_sta_prof = partner_info->num_partner_links;

	mlo_dev_ctx = pe_session->vdev->mlo_dev_ctx;
	if (!mlo_dev_ctx) {
		pe_err("mlo_dev_ctx is null");
		return QDF_STATUS_E_NULL_VALUE;
	}

	for (link = 0;
	     link < total_sta_prof && total_sta_prof != num_sta_prof;
	     link++) {
		struct mlo_link_info *ml_link_info;

		if (!partner_info->num_partner_links)
			continue;

		sta_prof = &mlo_ie->sta_profile[num_sta_prof];
		link_info = &partner_info->partner_link_info[link];
		p_sta_prof = sta_prof->data;
		len_remaining = sizeof(sta_prof->data);
		ml_link_info =
			mlo_mgr_get_ap_link_by_link_id(
					pe_session->vdev->mlo_dev_ctx,
					link_info->link_id);
		if (!ml_link_info)
			continue;

		/* subelement ID 0, length(sta_prof->num_data - 2) */
		*p_sta_prof++ = WLAN_ML_LINFO_SUBELEMID_PERSTAPROFILE;
		*p_sta_prof++ = 0;
		len_remaining -= 2;

		qdf_mem_zero(non_inher_ie_lists, sizeof(non_inher_ie_lists));
		qdf_mem_zero(non_inher_ext_ie_lists,
			     sizeof(non_inher_ext_ie_lists));
		non_inher_len = 0;
		non_inher_ext_len = 0;

		QDF_SET_BITS(*(uint16_t *)(sta_prof->data + MIN_IE_LEN),
			     WLAN_ML_BV_LINFO_PERSTAPROF_STACTRL_LINKID_IDX,
			     WLAN_ML_BV_LINFO_PERSTAPROF_STACTRL_LINKID_BITS,
			     link_info->link_id);
		QDF_SET_BITS(*(uint16_t *)(sta_prof->data + MIN_IE_LEN),
			     WLAN_ML_BV_LINFO_PERSTAPROF_STACTRL_CMPLTPROF_IDX,
			     WLAN_ML_BV_LINFO_PERSTAPROF_STACTRL_CMPLTPROF_BITS,
			     1);
		QDF_SET_BITS(*(uint16_t *)(sta_prof->data + MIN_IE_LEN),
			     WLAN_ML_BV_LINFO_PERSTAPROF_STACTRL_MACADDRP_IDX,
			     WLAN_ML_BV_LINFO_PERSTAPROF_STACTRL_MACADDRP_BITS,
			     1);
		/* 2 Bytes for sta control field*/
		p_sta_prof += 2;
		len_remaining -= 2;

		/* 1 Bytes for STA Info Length + 6 bytes for STA MAC Address*/
		len = WLAN_ML_BV_LINFO_PERSTAPROF_STAINFO_LENGTH_SIZE +
		      QDF_MAC_ADDR_SIZE;
		*p_sta_prof = len;

		/* 1 Byte for STA Info Length */
		p_sta_prof += WLAN_ML_BV_LINFO_PERSTAPROF_STAINFO_LENGTH_SIZE;
		len_remaining -=
			WLAN_ML_BV_LINFO_PERSTAPROF_STAINFO_LENGTH_SIZE;

		/* Copying sta mac address in sta info field */
		qdf_mem_copy(p_sta_prof, ml_link_info->link_addr.bytes,
			     QDF_MAC_ADDR_SIZE);
		p_sta_prof += QDF_MAC_ADDR_SIZE;
		len_remaining -= QDF_MAC_ADDR_SIZE;

		pe_debug("Sta profile mac: " QDF_MAC_ADDR_FMT,
			 QDF_MAC_ADDR_REF(ml_link_info->link_addr.bytes));

		/* TBD : populate beacon_interval, dtim_info
		 * nstr_link_pair_present, nstr_bitmap_size
		 */
		QDF_SET_BITS(*(uint16_t *)(sta_prof->data + MIN_IE_LEN),
			     WLAN_ML_BV_LINFO_PERSTAPROF_STACTRL_BCNINTP_IDX,
			     WLAN_ML_BV_LINFO_PERSTAPROF_STACTRL_BCNINTP_BITS,
			     0);
		QDF_SET_BITS(*(uint16_t *)(sta_prof->data + MIN_IE_LEN),
			     WLAN_ML_BV_LINFO_PERSTAPROF_STACTRL_DTIMINFOP_IDX,
			     WLAN_ML_BV_LINFO_PERSTAPROF_STACTRL_DTIMINFOP_BITS,
			     0);
		QDF_SET_BITS(
			*(uint16_t *)(sta_prof->data + MIN_IE_LEN),
			WLAN_ML_BV_LINFO_PERSTAPROF_STACTRL_NSTRLINKPRP_IDX,
			WLAN_ML_BV_LINFO_PERSTAPROF_STACTRL_NSTRLINKPRP_BITS,
			0);
		QDF_SET_BITS(*(uint16_t *)(sta_prof->data + MIN_IE_LEN),
			     WLAN_ML_BV_LINFO_PERSTAPROF_STACTRL_NSTRBMSZ_IDX,
			     WLAN_ML_BV_LINFO_PERSTAPROF_STACTRL_NSTRBMSZ_BITS,
			     0);

		qdf_mem_zero(&mlo_cap, sizeof(tDot11fFfCapabilities));
		qdf_mem_zero(&b_rates, sizeof(b_rates));
		qdf_mem_zero(&e_rates, sizeof(e_rates));
		qdf_mem_zero(&supp_rates, sizeof(supp_rates));
		qdf_mem_zero(&ext_supp_rates, sizeof(ext_supp_rates));
		qdf_mem_zero(&sta_prof_non_inherit,
			     sizeof(tDot11fIEnon_inheritance));
		qdf_mem_zero(&ht_caps, sizeof(tDot11fIEHTCaps));
		qdf_mem_zero(&ext_cap, sizeof(tDot11fIEExtCap));
		qdf_mem_zero(&vht_caps, sizeof(tDot11fIEVHTCaps));
		qdf_mem_zero(&he_caps, sizeof(tDot11fIEhe_cap));
		qdf_mem_zero(&he_6ghz_band_cap,
			     sizeof(tDot11fIEhe_6ghz_band_cap));
		qdf_mem_zero(&eht_caps, sizeof(tDot11fIEeht_cap));

		// TBD: mlo_capab, supported oper classes
		populate_dot11f_mlo_partner_sta_cap(mac_ctx, &mlo_cap);
		dot11f_pack_ff_capabilities(mac_ctx, &mlo_cap, p_sta_prof);
		p_sta_prof += WLAN_CAPABILITYINFO_LEN;
		len_remaining -= WLAN_CAPABILITYINFO_LEN;

		wlan_get_chan_by_bssid_from_rnr(pe_session->vdev,
						pe_session->cm_id,
						&link_info->link_addr,
						&chan, &op_class);
		if (!chan)
			wlan_get_chan_by_link_id_from_rnr(pe_session->vdev,
							  pe_session->cm_id,
							  link_info->link_id,
							  &chan, &op_class);
		if (!chan) {
			pe_err("Invalid parter link id %d link mac: " QDF_MAC_ADDR_FMT,
			       link_info->link_id,
			       QDF_MAC_ADDR_REF(link_info->link_addr.bytes));
			continue;
		}
		chan_freq = wlan_reg_chan_opclass_to_freq_auto(chan, op_class,
							       false);
		is_2g = WLAN_REG_IS_24GHZ_CH_FREQ(chan_freq);
		if (is_2g) {
			wlan_populate_basic_rates(&b_rates, false, true);
			wlan_populate_basic_rates(&e_rates, true, false);
		} else {
			wlan_populate_basic_rates(&b_rates, true, true);
		}

		if ((b_rates.numRates && frm->SuppRates.present &&
		     (qdf_mem_cmp(frm->SuppRates.rates, b_rates.rate,
		      b_rates.numRates))) || (b_rates.numRates &&
		      !frm->SuppRates.present)) {
			supp_rates.num_rates = b_rates.numRates;
			qdf_mem_copy(supp_rates.rates, b_rates.rate,
				     b_rates.numRates);
			supp_rates.present = 1;
			len_consumed = 0;
			dot11f_pack_ie_supp_rates(mac_ctx, &supp_rates,
						  p_sta_prof, len_remaining,
						  &len_consumed);
			p_sta_prof += len_consumed;
			len_remaining -= len_consumed;
		} else if (frm->SuppRates.present && !b_rates.numRates) {
			non_inher_ie_lists[non_inher_len++] =
						DOT11F_EID_SUPPRATES;
		}

		if (!WLAN_REG_IS_6GHZ_CHAN_FREQ(chan_freq)) {
			cb_mode = lim_get_cb_mode_for_freq(mac_ctx, pe_session,
							   chan_freq);
			populate_dot11f_ht_caps(mac_ctx, NULL, &ht_caps);
			if (!cb_mode) {
				ht_caps.supportedChannelWidthSet = 0;
				ht_caps.shortGI40MHz = 0;
			} else {
				ht_caps.supportedChannelWidthSet = 1;
				ht_caps.shortGI40MHz = 1;
			}
		}

		if ((ht_caps.present && frm->HTCaps.present &&
		     qdf_mem_cmp(&ht_caps, &frm->HTCaps, sizeof(ht_caps))) ||
		     (ht_caps.present && !frm->HTCaps.present)) {
			len_consumed = 0;
			dot11f_pack_ie_ht_caps(mac_ctx, &ht_caps, p_sta_prof,
					       len_remaining, &len_consumed);
			p_sta_prof += len_consumed;
			len_remaining -= len_consumed;
		} else if (frm->HTCaps.present && !ht_caps.present) {
			non_inher_ie_lists[non_inher_len++] = DOT11F_EID_HTCAPS;
		}

		if ((e_rates.numRates && frm->ExtSuppRates.present &&
		     (qdf_mem_cmp(frm->ExtSuppRates.rates, e_rates.rate,
		      e_rates.numRates))) || (e_rates.numRates &&
		     !frm->ExtSuppRates.present)) {
			ext_supp_rates.num_rates = e_rates.numRates;
			qdf_mem_copy(ext_supp_rates.rates, e_rates.rate,
				     e_rates.numRates);
			ext_supp_rates.present = 1;
			len_consumed = 0;
			dot11f_pack_ie_ext_supp_rates(mac_ctx, &ext_supp_rates,
						      p_sta_prof,
						      len_remaining,
						      &len_consumed);
			p_sta_prof += len_consumed;
			len_remaining -= len_consumed;
		} else if (frm->ExtSuppRates.present) {
			non_inher_ie_lists[non_inher_len++] =
						DOT11F_EID_EXTSUPPRATES;
		}

		populate_dot11f_ext_cap(mac_ctx, true, &ext_cap, NULL);
		populate_dot11f_btm_extended_caps(mac_ctx, pe_session,
						  &ext_cap);
		if ((ext_cap.present && frm->ExtCap.present &&
		     qdf_mem_cmp(&ext_cap, &frm->ExtCap, sizeof(ext_cap))) ||
		     (ext_cap.present && !frm->ExtCap.present)) {
			len_consumed = 0;
			dot11f_pack_ie_ext_cap(mac_ctx, &ext_cap, p_sta_prof,
					       len_remaining, &len_consumed);
			p_sta_prof += len_consumed;
			len_remaining -= len_consumed;
		} else if (ext_cap.present && !frm->ExtCap.present) {
			non_inher_ie_lists[non_inher_len++] = DOT11F_EID_EXTCAP;
		}

		if (!WLAN_REG_IS_6GHZ_CHAN_FREQ(chan_freq))
			populate_dot11f_vht_caps(mac_ctx, NULL, &vht_caps);
		if ((vht_caps.present && frm->VHTCaps.present &&
		     qdf_mem_cmp(&vht_caps, &frm->VHTCaps, sizeof(vht_caps))) ||
		     (vht_caps.present && !frm->VHTCaps.present)) {
			len_consumed = 0;
			dot11f_pack_ie_vht_caps(mac_ctx, &vht_caps, p_sta_prof,
						len_remaining, &len_consumed);
			p_sta_prof += len_consumed;
			len_remaining -= len_consumed;
		} else if (frm->VHTCaps.present && !vht_caps.present) {
			non_inher_ie_lists[non_inher_len++] =
						DOT11F_EID_VHTCAPS;
		}

		populate_dot11f_he_caps_by_band(mac_ctx, is_2g, &he_caps,
						pe_session);
		if (he_caps.ppet_present) {
			value = WNI_CFG_HE_PPET_LEN;
			if (!is_2g)
				qdf_mem_copy(he_caps.ppet.ppe_threshold.ppe_th,
					mac_ctx->mlme_cfg->he_caps.he_ppet_5g,
					value);
			else
				qdf_mem_copy(he_caps.ppet.ppe_threshold.ppe_th,
					mac_ctx->mlme_cfg->he_caps.he_ppet_2g,
					value);

			ppet = he_caps.ppet.ppe_threshold.ppe_th;
			he_caps.ppet.ppe_threshold.num_ppe_th =
				lim_truncate_ppet(ppet, value);
		} else {
			he_caps.ppet.ppe_threshold.num_ppe_th = 0;
		}
		if ((he_caps.present && frm->he_cap.present &&
		     qdf_mem_cmp(&he_caps, &frm->he_cap, sizeof(he_caps))) ||
		     (he_caps.present && !frm->he_cap.present)) {
			len_consumed = 0;
			dot11f_pack_ie_he_cap(mac_ctx, &he_caps, p_sta_prof,
					      len_remaining, &len_consumed);
			p_sta_prof += len_consumed;
			len_remaining -= len_consumed;
			sta_prof_he_ie = true;
		} else if (frm->he_cap.present && !he_caps.present) {
			non_inher_ext_ie_lists[non_inher_ext_len++] =
						WLAN_EXTN_ELEMID_HECAP;
		}

		if (WLAN_REG_IS_6GHZ_CHAN_FREQ(chan_freq))
			populate_dot11f_he_6ghz_cap(mac_ctx, NULL,
						    &he_6ghz_band_cap);
		if ((he_6ghz_band_cap.present &&
		     frm->he_6ghz_band_cap.present &&
		     qdf_mem_cmp(&he_6ghz_band_cap, &frm->he_6ghz_band_cap,
				 sizeof(he_6ghz_band_cap))) ||
				 (he_6ghz_band_cap.present &&
				  !frm->he_6ghz_band_cap.present)) {
			len_consumed = 0;
			dot11f_pack_ie_he_6ghz_band_cap(
				mac_ctx, &he_6ghz_band_cap, p_sta_prof,
				len_remaining, &len_consumed);
			p_sta_prof += len_consumed;
			len_remaining -= len_consumed;
		} else if (frm->he_6ghz_band_cap.present &&
			   !he_6ghz_band_cap.present) {
			non_inher_ext_ie_lists[non_inher_ext_len++] =
						WLAN_EXTN_ELEMID_HE_6G_CAP;
		}
		populate_dot11f_eht_caps_by_band(mac_ctx, is_2g, &eht_caps,
						 NULL);
		if (!WLAN_REG_IS_6GHZ_CHAN_FREQ(chan_freq))
			eht_caps.support_320mhz_6ghz = 0;

		if ((eht_caps.present && frm->eht_cap.present &&
		     qdf_mem_cmp(&eht_caps, &frm->eht_cap, sizeof(eht_caps))) ||
		     (eht_caps.present && !frm->eht_cap.present) ||
		     sta_prof_he_ie) {
			eht_cap_ie = qdf_mem_malloc(WLAN_MAX_IE_LEN + 2);
			if (eht_cap_ie) {
				len_consumed = 0;
				lim_ieee80211_pack_ehtcap(eht_cap_ie, eht_caps,
							  he_caps, is_2g);
				len_consumed = eht_cap_ie[1] + 2;

				qdf_mem_copy(p_sta_prof, eht_cap_ie,
					     len_consumed);
				qdf_mem_free(eht_cap_ie);
				p_sta_prof += len_consumed;
				len_remaining -= len_consumed;
			} else {
				pe_err("malloc failed for eht_cap_ie");
			}
		} else if (frm->eht_cap.present && !eht_caps.present) {
			pe_debug("eht non inher");
			non_inher_ext_ie_lists[non_inher_ext_len++] =
						WLAN_EXTN_ELEMID_EHTCAP;
		} else {
			pe_debug("eht ie not included");
		}
		if (frm->OperatingMode.present) {
			pe_info("opmode in assoc req, add to non inher list");
			non_inher_ie_lists[non_inher_len++] =
						DOT11F_EID_OPERATINGMODE;
		}

		populate_dot11f_non_inheritance(
				mac_ctx, &sta_prof_non_inherit,
				non_inher_ie_lists, non_inher_ext_ie_lists,
				non_inher_len, non_inher_ext_len);
		if (sta_prof_non_inherit.present) {
			len_consumed = 0;
			dot11f_pack_ie_non_inheritance(
				mac_ctx, &sta_prof_non_inherit,
				p_sta_prof, len_remaining, &len_consumed);
			p_sta_prof += len_consumed;
			len_remaining -= len_consumed;
		}
		sta_prof->num_data = p_sta_prof - sta_prof->data;
		if (sta_prof->num_data > WLAN_MAX_IE_LEN + MIN_IE_LEN) {
			sta_prof->data[TAG_LEN_POS] = WLAN_MAX_IE_LEN;
			status =
			    lim_add_frag_ie_for_sta_profile(sta_prof->data,
							&sta_prof->num_data);
			if (status != QDF_STATUS_SUCCESS) {
				pe_debug("STA profile frag error");
				sta_prof->num_data =
						WLAN_MAX_IE_LEN + MIN_IE_LEN;
			}
		} else {
			sta_prof->data[TAG_LEN_POS] =
					sta_prof->num_data - MIN_IE_LEN;
		}
		num_sta_prof++;
	}
	mlo_ie->num_sta_profile = num_sta_prof;

	return QDF_STATUS_SUCCESS;
}

QDF_STATUS populate_dot11f_mlo_ie(struct mac_context *mac_ctx,
				  struct wlan_objmgr_vdev *vdev,
				  struct wlan_mlo_ie *mlo_ie)
{
	struct qdf_mac_addr *mld_addr;
	uint8_t *p_ml_ie;
	uint16_t len_remaining;
	struct wlan_objmgr_psoc *psoc;
	struct wlan_mlo_eml_cap eml_cap = {0};
	uint16_t presence_bitmap = 0;
	bool emlsr_cap,  emlsr_enabled = false;

	if (!mac_ctx || !mlo_ie)
		return QDF_STATUS_E_NULL_VALUE;

	psoc = wlan_vdev_get_psoc(vdev);
	if (!psoc) {
		pe_err("Invalid psoc");
		return QDF_STATUS_E_FAILURE;
	}

	mlo_ie->type = 0;
	mlo_ie->common_info_length = WLAN_ML_BV_CINFO_LENGTH_SIZE;
	mld_addr =
	    (struct qdf_mac_addr *)wlan_vdev_mlme_get_mldaddr(vdev);
	qdf_mem_copy(&mlo_ie->mld_mac_addr, mld_addr, QDF_MAC_ADDR_SIZE);
	mlo_ie->common_info_length += QDF_MAC_ADDR_SIZE;

	mlo_ie->link_id_info_present = 0;
	mlo_ie->bss_param_change_cnt_present = 0;
	mlo_ie->medium_sync_delay_info_present = 0;
	mlo_ie->eml_capab_present = 0;
	mlo_ie->mld_capab_and_op_present = 1;
	mlo_ie->mld_id_present = 0;
	mlo_ie->ext_mld_capab_and_op_present = 0;

	if (mlo_ie->mld_capab_and_op_present) {
		presence_bitmap |= WLAN_ML_BV_CTRL_PBM_MLDCAPANDOP_P;
		mlo_ie->common_info_length += WLAN_ML_BV_CINFO_MLDCAPANDOP_SIZE;
		mlo_ie->mld_capab_and_op_info.max_simultaneous_link_num =
				wlan_mlme_get_sta_mlo_simultaneous_links(psoc);
		mlo_ie->mld_capab_and_op_info.srs_support = 0;
		mlo_ie->mld_capab_and_op_info.tid_link_map_supported =
			wlan_mlme_get_t2lm_negotiation_supported(mac_ctx->psoc);
		mlo_ie->mld_capab_and_op_info.str_freq_separation = 0;
		mlo_ie->mld_capab_and_op_info.aar_support = 0;
	}

	/* Check if HW supports eMLSR mode */
	emlsr_cap = policy_mgr_is_hw_emlsr_capable(mac_ctx->psoc);

	/* Check if vendor command chooses eMLSR mode */
	wlan_mlme_get_emlsr_mode_enabled(mac_ctx->psoc, &emlsr_enabled);

	/* Check if STA supports EMLSR and vendor command prefers EMLSR mode */
	if (emlsr_cap && emlsr_enabled) {
		wlan_mlme_get_eml_params(psoc, &eml_cap);
		mlo_ie->eml_capab_present = 1;
		presence_bitmap |= WLAN_ML_BV_CTRL_PBM_EMLCAP_P;
		mlo_ie->common_info_length += WLAN_ML_BV_CINFO_EMLCAP_SIZE;
		mlo_ie->eml_capabilities_info.emlsr_support =
						eml_cap.emlsr_supp;
		mlo_ie->eml_capabilities_info.emlmr_support =
						eml_cap.emlmr_supp;
		mlo_ie->eml_capabilities_info.transition_timeout = 0;
		mlo_ie->eml_capabilities_info.emlsr_padding_delay =
						eml_cap.emlsr_pad_delay;
		mlo_ie->eml_capabilities_info.emlsr_transition_delay =
						eml_cap.emlsr_trans_delay;
	}

	p_ml_ie = mlo_ie->data;
	len_remaining = sizeof(mlo_ie->data);

	/* element ID, length and extension element ID */
	*p_ml_ie++ = WLAN_ELEMID_EXTN_ELEM;
	len_remaining--;
	/* length will set later */
	*p_ml_ie++ = 0;
	len_remaining--;
	*p_ml_ie++ = WLAN_EXTN_ELEMID_MULTI_LINK;
	len_remaining--;

	QDF_SET_BITS(*(uint16_t *)p_ml_ie, WLAN_ML_CTRL_TYPE_IDX,
		     WLAN_ML_CTRL_TYPE_BITS, mlo_ie->type);
	QDF_SET_BITS(*(uint16_t *)p_ml_ie, WLAN_ML_CTRL_PBM_IDX,
		     WLAN_ML_CTRL_PBM_BITS, presence_bitmap);
	p_ml_ie += WLAN_ML_CTRL_SIZE;
	len_remaining -= WLAN_ML_CTRL_SIZE;

	*p_ml_ie++ = mlo_ie->common_info_length;
	len_remaining--;

	qdf_mem_copy(p_ml_ie, mld_addr, QDF_MAC_ADDR_SIZE);
	p_ml_ie += QDF_MAC_ADDR_SIZE;
	len_remaining -= QDF_MAC_ADDR_SIZE;

	if (mlo_ie->eml_capab_present) {
		QDF_SET_BITS(*(uint16_t *)p_ml_ie,
			     WLAN_ML_BV_CINFO_EMLCAP_EMLSRSUPPORT_IDX,
			     WLAN_ML_BV_CINFO_EMLCAP_EMLSRSUPPORT_BITS,
			     mlo_ie->eml_capabilities_info.emlsr_support);
		QDF_SET_BITS(*(uint16_t *)p_ml_ie,
			     WLAN_ML_BV_CINFO_EMLCAP_EMLSR_PADDINGDELAY_IDX,
			     WLAN_ML_BV_CINFO_EMLCAP_EMLSR_PADDINGDELAY_BITS,
			     mlo_ie->eml_capabilities_info.emlsr_padding_delay);
		QDF_SET_BITS(*(uint16_t *)p_ml_ie,
			     WLAN_ML_BV_CINFO_EMLCAP_EMLSRTRANSDELAY_IDX,
			     WLAN_ML_BV_CINFO_EMLCAP_EMLSRTRANSDELAY_BITS,
			     mlo_ie->eml_capabilities_info.emlsr_transition_delay);
		QDF_SET_BITS(*(uint16_t *)p_ml_ie,
			     WLAN_ML_BV_CINFO_EMLCAP_EMLMRSUPPORT_IDX,
			     WLAN_ML_BV_CINFO_EMLCAP_EMLMRSUPPORT_BITS,
			     mlo_ie->eml_capabilities_info.emlmr_support);
		QDF_SET_BITS(*(uint16_t *)p_ml_ie,
			     WLAN_ML_BV_CINFO_EMLCAP_EMLMRDELAY_IDX,
			     WLAN_ML_BV_CINFO_EMLCAP_EMLMRDELAY_BITS,
			     mlo_ie->eml_capabilities_info.emlmr_delay);
		QDF_SET_BITS(*(uint16_t *)p_ml_ie,
			     WLAN_ML_BV_CINFO_EMLCAP_TRANSTIMEOUT_IDX,
			     WLAN_ML_BV_CINFO_EMLCAP_TRANSTIMEOUT_BITS,
			     mlo_ie->eml_capabilities_info.transition_timeout);

		p_ml_ie += WLAN_ML_BV_CINFO_EMLCAP_SIZE;
		len_remaining -= WLAN_ML_BV_CINFO_EMLCAP_SIZE;
	}

	if (mlo_ie->mld_capab_and_op_present) {
		QDF_SET_BITS(*(uint16_t *)p_ml_ie,
			     WLAN_ML_BV_CINFO_MLDCAPANDOP_MAXSIMULLINKS_IDX,
			     WLAN_ML_BV_CINFO_MLDCAPANDOP_MAXSIMULLINKS_BITS,
			     mlo_ie->mld_capab_and_op_info.max_simultaneous_link_num);
		QDF_SET_BITS(*(uint16_t *)p_ml_ie,
			     WLAN_ML_BV_CINFO_MLDCAPANDOP_TIDTOLINKMAPNEGSUPPORT_IDX,
			     WLAN_ML_BV_CINFO_MLDCAPANDOP_TIDTOLINKMAPNEGSUPPORT_BITS,
			     mlo_ie->mld_capab_and_op_info.tid_link_map_supported);
		p_ml_ie += WLAN_ML_BV_CINFO_MLDCAPANDOP_SIZE;
		len_remaining -= WLAN_ML_BV_CINFO_MLDCAPANDOP_SIZE;
	}

	mlo_ie->num_data = p_ml_ie - mlo_ie->data;
	pe_debug("VDEV %d ML-IE common info len %d eMLSR support %d pad_delay %d, trans_delay %d",
		 wlan_vdev_get_id(vdev), mlo_ie->num_data,
		 mlo_ie->eml_capabilities_info.emlsr_support,
		 mlo_ie->eml_capabilities_info.emlsr_padding_delay,
		 mlo_ie->eml_capabilities_info.emlsr_transition_delay);

	return QDF_STATUS_SUCCESS;
}
#endif

QDF_STATUS
populate_dot11f_rnr_tbtt_info(struct mac_context *mac_ctx,
			      struct pe_session *pe_session,
			      struct pe_session *rnr_session,
			      tDot11fIEreduced_neighbor_report *dot11f,
			      uint8_t tbtt_len)
{
	uint8_t reg_class;
	uint8_t ch_offset;
	uint8_t psd_power;

	dot11f->present = 1;
	dot11f->tbtt_type = 0;
	if (rnr_session->ch_width == CH_WIDTH_80MHZ) {
		ch_offset = BW80;
	} else {
		switch (rnr_session->htSecondaryChannelOffset) {
		case PHY_DOUBLE_CHANNEL_HIGH_PRIMARY:
			ch_offset = BW40_HIGH_PRIMARY;
			break;
		case PHY_DOUBLE_CHANNEL_LOW_PRIMARY:
			ch_offset = BW40_LOW_PRIMARY;
			break;
		default:
			ch_offset = BW20;
			break;
		}
	}

	reg_class = lim_op_class_from_bandwidth(mac_ctx,
						rnr_session->curr_op_freq,
						rnr_session->ch_width,
						ch_offset);

	psd_power = wlan_mlme_get_sap_psd_for_20mhz(rnr_session->vdev);

	dot11f->op_class = reg_class;
	dot11f->channel_num = wlan_reg_freq_to_chan(mac_ctx->pdev,
						    rnr_session->curr_op_freq);
	dot11f->tbtt_info_count = 0;
	dot11f->tbtt_info_len = tbtt_len;

	switch (tbtt_len) {
	case 7:
		dot11f->tbtt_info.tbtt_info_7.tbtt_offset =
						WLAN_RNR_TBTT_OFFSET_INVALID;
		qdf_mem_copy(dot11f->tbtt_info.tbtt_info_7.bssid,
			     rnr_session->self_mac_addr, sizeof(tSirMacAddr));
		break;
	case 9:
		dot11f->tbtt_info.tbtt_info_9.tbtt_offset =
						WLAN_RNR_TBTT_OFFSET_INVALID;
		qdf_mem_copy(dot11f->tbtt_info.tbtt_info_9.bssid,
			     rnr_session->self_mac_addr, sizeof(tSirMacAddr));
		dot11f->tbtt_info.tbtt_info_9.bss_params =
							WLAN_RNR_BSS_PARAM_COLOCATED_AP;
		if (!lim_cmp_ssid(&rnr_session->ssId, pe_session))
			dot11f->tbtt_info.tbtt_info_9.bss_params |=
							WLAN_RNR_BSS_PARAM_SAME_SSID;
		if (psd_power)
			dot11f->tbtt_info.tbtt_info_9.psd_20mhz = psd_power;
		else
			dot11f->tbtt_info.tbtt_info_9.psd_20mhz = 127;
		break;
	case 13:
		dot11f->tbtt_info.tbtt_info_13.tbtt_offset =
						WLAN_RNR_TBTT_OFFSET_INVALID;
		qdf_mem_copy(dot11f->tbtt_info.tbtt_info_13.bssid,
			     rnr_session->self_mac_addr, sizeof(tSirMacAddr));

		dot11f->tbtt_info.tbtt_info_13.short_ssid =
			wlan_construct_shortssid(rnr_session->ssId.ssId,
						 rnr_session->ssId.length);

		dot11f->tbtt_info.tbtt_info_13.bss_params =
						WLAN_RNR_BSS_PARAM_COLOCATED_AP;
		if (!lim_cmp_ssid(&rnr_session->ssId, pe_session))
			dot11f->tbtt_info.tbtt_info_13.bss_params |=
							WLAN_RNR_BSS_PARAM_SAME_SSID;

		if (psd_power)
			dot11f->tbtt_info.tbtt_info_13.psd_20mhz = psd_power;
		else
			dot11f->tbtt_info.tbtt_info_13.psd_20mhz = 127;
		break;
	default:
		dot11f->tbtt_info_len = 0;
		return QDF_STATUS_E_FAILURE;
	}

	return QDF_STATUS_SUCCESS;
}

/**
 * lim_is_6g_vdev() - loop every vdev to populate 6g vdev id
 * @psoc: pointer to psoc
 * @obj: vdev
 * @args: vdev list to record 6G vdev id
 *
 * Return: void
 */
static void lim_is_6g_vdev(struct wlan_objmgr_psoc *psoc, void *obj, void *args)
{
	struct wlan_objmgr_vdev *vdev = (struct wlan_objmgr_vdev *)obj;
	uint8_t *vdev_id_list = (uint8_t *)args;
	int i;

	if (!vdev || (wlan_vdev_mlme_get_opmode(vdev) != QDF_SAP_MODE))
		return;
	if (QDF_IS_STATUS_ERROR(wlan_vdev_chan_config_valid(vdev)))
		return;
	if (!wlan_reg_is_6ghz_chan_freq(wlan_get_operation_chan_freq(vdev)))
		return;

	for (i = 0; i < MAX_NUMBER_OF_CONC_CONNECTIONS; i++) {
		if (vdev_id_list[i] == INVALID_VDEV_ID) {
			vdev_id_list[i] = wlan_vdev_get_id(vdev);
			break;
		}
	}
}

void populate_dot11f_6g_rnr(struct mac_context *mac_ctx,
			    struct pe_session *session,
			    tDot11fIEreduced_neighbor_report *dot11f)
{
	struct pe_session *co_session;
	struct wlan_objmgr_psoc *psoc;
	int vdev_id;
	uint8_t vdev_id_list[MAX_NUMBER_OF_CONC_CONNECTIONS];

	if (!session || !mac_ctx || !dot11f || !session->vdev) {
		pe_err("Invalid params");
		return;
	}

	psoc = wlan_vdev_get_psoc(session->vdev);
	if (!psoc) {
		pe_err("Invalid psoc");
		return;
	}

	for (vdev_id = 0; vdev_id < MAX_NUMBER_OF_CONC_CONNECTIONS; vdev_id++)
		vdev_id_list[vdev_id] = INVALID_VDEV_ID;

	wlan_objmgr_iterate_obj_list(psoc, WLAN_VDEV_OP,
				     lim_is_6g_vdev,
				     vdev_id_list, 1,
				     WLAN_LEGACY_MAC_ID);

	if (vdev_id_list[0] == INVALID_VDEV_ID)
		return;

	co_session = pe_find_session_by_vdev_id(mac_ctx,
						vdev_id_list[0]);
	if (!co_session) {
		pe_err("Invalid co located session");
		return;
	}
	populate_dot11f_rnr_tbtt_info(mac_ctx, session, co_session, dot11f,
				      CURRENT_RNR_TBTT_INFO_LEN);
	pe_debug("vdev id %d populate RNR IE with 6G vdev id %d op class %d chan num %d",
		 wlan_vdev_get_id(session->vdev),
		 wlan_vdev_get_id(co_session->vdev),
		 dot11f->op_class, dot11f->channel_num);
}

QDF_STATUS populate_dot11f_bcn_prot_extcaps(struct mac_context *mac_ctx,
					    struct pe_session *pe_session,
					    tDot11fIEExtCap *dot11f)
{
	struct s_ext_cap *p_ext_cap;

	/*
	 * Some legacy STA might not connect with SAP broadcasting
	 * EXTCAP with size greater than 8bytes.
	 * In such cases, disable the beacon protection only if
	 * a) disable_sap_bcn_prot ini is set
	 * b) The SAP is not operating in 6 GHz or 11be profile
	 * where BP is mandatory.
	 */
	if (pe_session->opmode != QDF_SAP_MODE ||
	    !wlan_mlme_is_bcn_prot_disabled_for_sap(mac_ctx->psoc) ||
	    WLAN_REG_IS_6GHZ_CHAN_FREQ(pe_session->curr_op_freq) ||
	    pe_session->dot11mode > MLME_DOT11_MODE_11AX_ONLY)
		return QDF_STATUS_SUCCESS;

	p_ext_cap = (struct s_ext_cap *)dot11f->bytes;
	if (!dot11f->present || !p_ext_cap->beacon_protection_enable)
		return QDF_STATUS_SUCCESS;

	p_ext_cap->beacon_protection_enable = 0;
	dot11f->num_bytes = lim_compute_ext_cap_ie_length(dot11f);

	return QDF_STATUS_SUCCESS;
}
/* parser_api.c ends here. */