blob: 3d3aae5ad36761dbe73464fdb828ad2e8abc2c13 [file] [log] [blame]
/*
* Copyright (c) 2012-2018 The Linux Foundation. All rights reserved.
*
* Previously licensed under the ISC license by Qualcomm Atheros, Inc.
*
*
* 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 was originally distributed by Qualcomm Atheros, Inc.
* under proprietary terms before Copyright ownership was assigned
* to the Linux Foundation.
*/
/**=========================================================================
EDIT HISTORY FOR FILE
This section contains comments describing changes made to the module.
Notice that changes are listed in reverse chronological order.
$Header:$ $DateTime: $ $Author: $
when who what, where, why
-------- --- --------------------------------------------------------
07/27/09 kanand Created module.
==========================================================================*/
/*--------------------------------------------------------------------------
Include Files
------------------------------------------------------------------------*/
#include <linux/firmware.h>
#include <linux/string.h>
#include <wlan_hdd_includes.h>
#include <wlan_hdd_main.h>
#include <wlan_hdd_assoc.h>
#include <wlan_hdd_cfg.h>
#include <linux/string.h>
#include <vos_types.h>
#include <csrApi.h>
#include <pmcApi.h>
#include <wlan_hdd_misc.h>
#if defined (WLAN_FEATURE_VOWIFI_11R) || defined (FEATURE_WLAN_ESE) || defined(FEATURE_WLAN_LFR)
static void
cbNotifySetRoamPrefer5GHz(hdd_context_t *pHddCtx, unsigned long NotifyId)
{
sme_UpdateRoamPrefer5GHz(pHddCtx->hHal, pHddCtx->cfg_ini->nRoamPrefer5GHz);
}
static void
cbNotifySetImmediateRoamRssiDiff(hdd_context_t *pHddCtx, unsigned long NotifyId)
{
sme_UpdateImmediateRoamRssiDiff(pHddCtx->hHal,
pHddCtx->cfg_ini->nImmediateRoamRssiDiff,
0);
}
static void
cbNotifySetRoamRssiDiff(hdd_context_t *pHddCtx, unsigned long NotifyId)
{
sme_UpdateRoamRssiDiff(pHddCtx->hHal,
0,
pHddCtx->cfg_ini->RoamRssiDiff);
}
static void
cbNotifySetFastTransitionEnabled(hdd_context_t *pHddCtx, unsigned long NotifyId)
{
sme_UpdateFastTransitionEnabled(pHddCtx->hHal,
pHddCtx->cfg_ini->isFastTransitionEnabled);
}
static void
cbNotifySetRoamIntraBand(hdd_context_t *pHddCtx, unsigned long NotifyId)
{
sme_setRoamIntraBand(pHddCtx->hHal, pHddCtx->cfg_ini->nRoamIntraBand);
}
static void
cbNotifySetWESMode(hdd_context_t *pHddCtx, unsigned long NotifyId)
{
/* At the point this routine is called, the value in the cfg_ini
table has already been updated */
sme_UpdateWESMode(pHddCtx->hHal,
pHddCtx->cfg_ini->isWESModeEnabled,
0);
}
static void
cbNotifySetRoamScanNProbes(hdd_context_t *pHddCtx, unsigned long NotifyId)
{
sme_UpdateRoamScanNProbes(pHddCtx->hHal, 0,
pHddCtx->cfg_ini->nProbes);
}
static void
cbNotifySetRoamScanHomeAwayTime(hdd_context_t *pHddCtx, unsigned long NotifyId)
{
sme_UpdateRoamScanHomeAwayTime(pHddCtx->hHal, 0,
pHddCtx->cfg_ini->nRoamScanHomeAwayTime,
eANI_BOOLEAN_TRUE);
}
#endif
#ifdef FEATURE_WLAN_OKC
static void
cbNotifySetOkcFeatureEnabled(hdd_context_t *pHddCtx, unsigned long NotifyId)
{
/* At the point this routine is called, the value in the cfg_ini
table has already been updated */
}
#endif
#ifdef FEATURE_WLAN_LFR
static void
NotifyIsFastRoamIniFeatureEnabled(hdd_context_t *pHddCtx,
unsigned long NotifyId)
{
/* At the point this routine is called, the value in the cfg_ini
table has already been updated */
sme_UpdateIsFastRoamIniFeatureEnabled(pHddCtx->hHal, 0,
pHddCtx->cfg_ini->isFastRoamIniFeatureEnabled );
}
static void
NotifyIsMAWCIniFeatureEnabled(hdd_context_t *pHddCtx, unsigned long NotifyId)
{
/* At the point this routine is called, the value in the cfg_ini
table has already been updated */
sme_UpdateIsMAWCIniFeatureEnabled(pHddCtx->hHal,
pHddCtx->cfg_ini->MAWCEnabled );
}
#endif
#ifdef FEATURE_WLAN_ESE
static void
cbNotifySetEseFeatureEnabled(hdd_context_t *pHddCtx, unsigned long NotifyId)
{
/* At the point this routine is called, the value in the cfg_ini
table has already been updated */
sme_UpdateIsEseFeatureEnabled(pHddCtx->hHal, 0,
pHddCtx->cfg_ini->isEseIniFeatureEnabled );
}
#endif
static void
cbNotifySetFwRssiMonitoring(hdd_context_t *pHddCtx, unsigned long NotifyId)
{
/* At the point this routine is called, the value in the cfg_ini
table has already been updated */
sme_UpdateConfigFwRssiMonitoring(pHddCtx->hHal,
pHddCtx->cfg_ini->fEnableFwRssiMonitoring);
}
#ifdef WLAN_FEATURE_NEIGHBOR_ROAMING
static void cbNotifySetOpportunisticScanThresholdDiff(hdd_context_t *pHddCtx,
unsigned long NotifyId)
{
/* At the point this routine is called, the value in the cfg_ini
table has already been updated */
sme_SetRoamOpportunisticScanThresholdDiff(pHddCtx->hHal, 0,
pHddCtx->cfg_ini->nOpportunisticThresholdDiff );
}
static void cbNotifySetRoamRescanRssiDiff(hdd_context_t *pHddCtx,
unsigned long NotifyId)
{
/* At the point this routine is called, the value in the cfg_ini
table has already been updated */
sme_SetRoamRescanRssiDiff(pHddCtx->hHal,
0,
pHddCtx->cfg_ini->nRoamRescanRssiDiff);
}
static void
cbNotifySetNeighborLookupRssiThreshold(hdd_context_t *pHddCtx,
unsigned long NotifyId)
{
/* At the point this routine is called, the value in the cfg_ini
table has already been updated */
sme_setNeighborLookupRssiThreshold(pHddCtx->hHal, 0,
pHddCtx->cfg_ini->nNeighborLookupRssiThreshold);
}
static void
cb_notify_set_delay_before_vdev_stop(hdd_context_t *pHddCtx,
unsigned long NotifyId)
{
/* At the point this routine is called, the value in the cfg_ini
table has already been updated */
sme_set_delay_before_vdev_stop(pHddCtx->hHal, 0,
pHddCtx->cfg_ini->delay_before_vdev_stop);
}
static void
cbNotifySetNeighborScanPeriod(hdd_context_t *pHddCtx, unsigned long NotifyId)
{
/* At the point this routine is called, the value in the cfg_ini
table has already been updated */
sme_setNeighborScanPeriod(pHddCtx->hHal, 0,
pHddCtx->cfg_ini->nNeighborScanPeriod );
}
static void
cbNotifySetNeighborResultsRefreshPeriod(hdd_context_t *pHddCtx,
unsigned long NotifyId)
{
/* At the point this routine is called, the value in the cfg_ini
table has already been updated */
sme_setNeighborScanRefreshPeriod(pHddCtx->hHal, 0,
pHddCtx->cfg_ini->nNeighborResultsRefreshPeriod);
}
static void
cbNotifySetEmptyScanRefreshPeriod(hdd_context_t *pHddCtx,
unsigned long NotifyId)
{
/* At the point this routine is called, the value in the cfg_ini
table has already been updated */
sme_UpdateEmptyScanRefreshPeriod(pHddCtx->hHal, 0,
pHddCtx->cfg_ini->nEmptyScanRefreshPeriod);
}
static void
cbNotifySetNeighborScanMinChanTime(hdd_context_t *pHddCtx,
unsigned long NotifyId)
{
/* At the point this routine is called, the value in the cfg_ini
table has already been updated */
sme_setNeighborScanMinChanTime(pHddCtx->hHal,
pHddCtx->cfg_ini->nNeighborScanMinChanTime,
0);
}
static void
cbNotifySetNeighborScanMaxChanTime(hdd_context_t *pHddCtx,
unsigned long NotifyId)
{
sme_setNeighborScanMaxChanTime(pHddCtx->hHal, 0,
pHddCtx->cfg_ini->nNeighborScanMaxChanTime);
}
static void cbNotifySetRoamBmissFirstBcnt(hdd_context_t *pHddCtx,
unsigned long NotifyId)
{
/* At the point this routine is called, the value in the cfg_ini
table has already been updated */
sme_SetRoamBmissFirstBcnt(pHddCtx->hHal,
0,
pHddCtx->cfg_ini->nRoamBmissFirstBcnt);
}
static void cbNotifySetRoamBmissFinalBcnt(hdd_context_t *pHddCtx,
unsigned long NotifyId)
{
sme_SetRoamBmissFinalBcnt(pHddCtx->hHal, 0,
pHddCtx->cfg_ini->nRoamBmissFinalBcnt);
}
static void cbNotifySetRoamBeaconRssiWeight(hdd_context_t *pHddCtx,
unsigned long NotifyId)
{
sme_SetRoamBeaconRssiWeight(pHddCtx->hHal, 0,
pHddCtx->cfg_ini->nRoamBeaconRssiWeight);
}
static void
cbNotifySetDFSScanMode(hdd_context_t *pHddCtx, unsigned long NotifyId)
{
/* At the point this routine is called, the value in the cfg_ini
table has already been updated */
sme_UpdateDFSScanMode(pHddCtx->hHal, 0,
pHddCtx->cfg_ini->allowDFSChannelRoam);
}
#endif
static void cbNotifySetEnableSSR(hdd_context_t *pHddCtx, unsigned long NotifyId)
{
sme_UpdateEnableSSR(pHddCtx->hHal, pHddCtx->cfg_ini->enableSSR);
}
static void cbNotify_set_gSapPreferredChanLocation(hdd_context_t *pHddCtx,
unsigned long NotifyId)
{
WLANSAP_set_Dfs_Preferred_Channel_location(pHddCtx->hHal,
pHddCtx->cfg_ini->gSapPreferredChanLocation);
}
static void chNotify_set_gDisableDfsJapanW53(hdd_context_t *pHddCtx,
unsigned long NotifyId)
{
WLANSAP_set_Dfs_Restrict_JapanW53(pHddCtx->hHal,
pHddCtx->cfg_ini->gDisableDfsJapanW53);
}
#ifdef WLAN_FEATURE_ROAM_SCAN_OFFLOAD
static void
cbNotifyUpdateRoamScanOffloadEnabled(hdd_context_t *pHddCtx,
unsigned long NotifyId)
{
sme_UpdateRoamScanOffloadEnabled(pHddCtx->hHal,
pHddCtx->cfg_ini->isRoamOffloadScanEnabled);
if (0 == pHddCtx->cfg_ini->isRoamOffloadScanEnabled) {
pHddCtx->cfg_ini->bFastRoamInConIniFeatureEnabled = 0;
sme_UpdateEnableFastRoamInConcurrency(pHddCtx->hHal,
pHddCtx->cfg_ini->bFastRoamInConIniFeatureEnabled);
}
}
static void
cbNotifySetEnableFastRoamInConcurrency(hdd_context_t *pHddCtx,
unsigned long NotifyId)
{
sme_UpdateEnableFastRoamInConcurrency(pHddCtx->hHal,
pHddCtx->cfg_ini->bFastRoamInConIniFeatureEnabled);
}
#endif
/**
* cb_notify_set_roam_scan_hi_rssi_scan_params() - configure hi rssi
* scan params from cfg to sme.
* @hdd_ctx: HDD context data structure
* @notify_id: Identifies 1 of the 4 parameters to be modified
*
* Picks up the value from hd configuration and passes it to SME.
* Return: void
*/
static void
cb_notify_set_roam_scan_hi_rssi_scan_params(hdd_context_t *hdd_ctx,
unsigned long notify_id)
{
int32_t val;
if (wlan_hdd_validate_context(hdd_ctx))
return;
switch (notify_id) {
case eCSR_HI_RSSI_SCAN_MAXCOUNT_ID:
val = hdd_ctx->cfg_ini->nhi_rssi_scan_max_count;
break;
case eCSR_HI_RSSI_SCAN_RSSI_DELTA_ID:
val = hdd_ctx->cfg_ini->nhi_rssi_scan_rssi_delta;
break;
case eCSR_HI_RSSI_SCAN_DELAY_ID:
val = hdd_ctx->cfg_ini->nhi_rssi_scan_delay;
break;
case eCSR_HI_RSSI_SCAN_RSSI_UB_ID:
val = hdd_ctx->cfg_ini->nhi_rssi_scan_rssi_ub;
break;
default:
return;
}
sme_update_roam_scan_hi_rssi_scan_params(hdd_ctx->hHal, 0,
notify_id, val);
}
REG_TABLE_ENTRY g_registry_table[] =
{
REG_VARIABLE( CFG_RTS_THRESHOLD_NAME, WLAN_PARAM_Integer,
hdd_config_t, RTSThreshold,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_RTS_THRESHOLD_DEFAULT,
CFG_RTS_THRESHOLD_MIN,
CFG_RTS_THRESHOLD_MAX ),
REG_VARIABLE( CFG_FRAG_THRESHOLD_NAME, WLAN_PARAM_Integer,
hdd_config_t, FragmentationThreshold,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_FRAG_THRESHOLD_DEFAULT,
CFG_FRAG_THRESHOLD_MIN,
CFG_FRAG_THRESHOLD_MAX ),
REG_VARIABLE( CFG_OPERATING_CHANNEL_NAME, WLAN_PARAM_Integer,
hdd_config_t, OperatingChannel,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_OPERATING_CHANNEL_DEFAULT,
CFG_OPERATING_CHANNEL_MIN,
CFG_OPERATING_CHANNEL_MAX ),
REG_VARIABLE( CFG_SHORT_SLOT_TIME_ENABLED_NAME, WLAN_PARAM_Integer,
hdd_config_t, ShortSlotTimeEnabled,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK,
CFG_SHORT_SLOT_TIME_ENABLED_DEFAULT,
CFG_SHORT_SLOT_TIME_ENABLED_MIN,
CFG_SHORT_SLOT_TIME_ENABLED_MAX ),
REG_VARIABLE( CFG_11D_SUPPORT_ENABLED_NAME, WLAN_PARAM_Integer,
hdd_config_t, Is11dSupportEnabled,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK,
CFG_11D_SUPPORT_ENABLED_DEFAULT,
CFG_11D_SUPPORT_ENABLED_MIN,
CFG_11D_SUPPORT_ENABLED_MAX ),
REG_VARIABLE( CFG_11H_SUPPORT_ENABLED_NAME, WLAN_PARAM_Integer,
hdd_config_t, Is11hSupportEnabled,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK,
CFG_11H_SUPPORT_ENABLED_DEFAULT,
CFG_11H_SUPPORT_ENABLED_MIN,
CFG_11H_SUPPORT_ENABLED_MAX ),
REG_VARIABLE( CFG_ENFORCE_11D_CHANNELS_NAME, WLAN_PARAM_Integer,
hdd_config_t, fEnforce11dChannels,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK,
CFG_ENFORCE_11D_CHANNELS_DEFAULT,
CFG_ENFORCE_11D_CHANNELS_MIN,
CFG_ENFORCE_11D_CHANNELS_MAX ),
REG_VARIABLE( CFG_COUNTRY_CODE_PRIORITY_NAME, WLAN_PARAM_Integer,
hdd_config_t, fSupplicantCountryCodeHasPriority,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK,
CFG_COUNTRY_CODE_PRIORITY_DEFAULT,
CFG_COUNTRY_CODE_PRIORITY_MIN,
CFG_COUNTRY_CODE_PRIORITY_MAX),
REG_VARIABLE( CFG_ENFORCE_COUNTRY_CODE_MATCH_NAME, WLAN_PARAM_Integer,
hdd_config_t, fEnforceCountryCodeMatch,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK,
CFG_ENFORCE_COUNTRY_CODE_MATCH_DEFAULT,
CFG_ENFORCE_COUNTRY_CODE_MATCH_MIN,
CFG_ENFORCE_COUNTRY_CODE_MATCH_MAX ),
REG_VARIABLE( CFG_ENFORCE_DEFAULT_DOMAIN_NAME, WLAN_PARAM_Integer,
hdd_config_t, fEnforceDefaultDomain,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK,
CFG_ENFORCE_DEFAULT_DOMAIN_DEFAULT,
CFG_ENFORCE_DEFAULT_DOMAIN_MIN,
CFG_ENFORCE_DEFAULT_DOMAIN_MAX ),
REG_VARIABLE( CFG_HEARTBEAT_THRESH_24_NAME, WLAN_PARAM_Integer,
hdd_config_t, HeartbeatThresh24,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_HEARTBEAT_THRESH_24_DEFAULT,
CFG_HEARTBEAT_THRESH_24_MIN,
CFG_HEARTBEAT_THRESH_24_MAX ),
REG_VARIABLE_STRING( CFG_POWER_USAGE_NAME, WLAN_PARAM_String,
hdd_config_t, PowerUsageControl,
VAR_FLAGS_OPTIONAL,
(void *)CFG_POWER_USAGE_DEFAULT ),
REG_VARIABLE( CFG_ENABLE_SUSPEND_NAME, WLAN_PARAM_Integer,
hdd_config_t, nEnableSuspend,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_ENABLE_SUSPEND_DEFAULT,
CFG_ENABLE_SUSPEND_MIN,
CFG_ENABLE_SUSPEND_MAX ),
REG_VARIABLE( CFG_ENABLE_ENABLE_DRIVER_STOP_NAME, WLAN_PARAM_Integer,
hdd_config_t, nEnableDriverStop,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_ENABLE_ENABLE_DRIVER_STOP_DEFAULT,
CFG_ENABLE_ENABLE_DRIVER_STOP_MIN,
CFG_ENABLE_ENABLE_DRIVER_STOP_MAX ),
REG_VARIABLE( CFG_ENABLE_LOGP_NAME, WLAN_PARAM_Integer,
hdd_config_t, fIsLogpEnabled,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_ENABLE_LOGP_DEFAULT,
CFG_ENABLE_LOGP_MIN,
CFG_ENABLE_LOGP_MAX ),
REG_VARIABLE( CFG_ENABLE_IMPS_NAME, WLAN_PARAM_Integer,
hdd_config_t, fIsImpsEnabled,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_ENABLE_IMPS_DEFAULT,
CFG_ENABLE_IMPS_MIN,
CFG_ENABLE_IMPS_MAX ),
REG_VARIABLE( CFG_IMPS_MINIMUM_SLEEP_TIME_NAME, WLAN_PARAM_Integer,
hdd_config_t, nImpsMinSleepTime,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_IMPS_MINIMUM_SLEEP_TIME_DEFAULT,
CFG_IMPS_MINIMUM_SLEEP_TIME_MIN,
CFG_IMPS_MINIMUM_SLEEP_TIME_MAX ),
REG_VARIABLE( CFG_IMPS_MAXIMUM_SLEEP_TIME_NAME, WLAN_PARAM_Integer,
hdd_config_t, nImpsMaxSleepTime,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_IMPS_MAXIMUM_SLEEP_TIME_DEFAULT,
CFG_IMPS_MAXIMUM_SLEEP_TIME_MIN,
CFG_IMPS_MAXIMUM_SLEEP_TIME_MAX ),
REG_VARIABLE( CFG_IMPS_MODERATE_SLEEP_TIME_NAME, WLAN_PARAM_Integer,
hdd_config_t, nImpsModSleepTime,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_IMPS_MODERATE_SLEEP_TIME_DEFAULT,
CFG_IMPS_MODERATE_SLEEP_TIME_MIN,
CFG_IMPS_MODERATE_SLEEP_TIME_MAX ),
REG_VARIABLE( CFG_ENABLE_BMPS_NAME, WLAN_PARAM_Integer,
hdd_config_t, fIsBmpsEnabled,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_ENABLE_BMPS_DEFAULT,
CFG_ENABLE_BMPS_MIN,
CFG_ENABLE_BMPS_MAX ),
REG_VARIABLE( CFG_BMPS_MINIMUM_LI_NAME, WLAN_PARAM_Integer,
hdd_config_t, nBmpsMinListenInterval,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_BMPS_MINIMUM_LI_DEFAULT,
CFG_BMPS_MINIMUM_LI_MIN,
CFG_BMPS_MINIMUM_LI_MAX ),
REG_VARIABLE( CFG_BMPS_MAXIMUM_LI_NAME, WLAN_PARAM_Integer,
hdd_config_t, nBmpsMaxListenInterval,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_BMPS_MAXIMUM_LI_DEFAULT,
CFG_BMPS_MAXIMUM_LI_MIN,
CFG_BMPS_MAXIMUM_LI_MAX ),
REG_VARIABLE( CFG_BMPS_MODERATE_LI_NAME, WLAN_PARAM_Integer,
hdd_config_t, nBmpsModListenInterval,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_BMPS_MODERATE_LI_DEFAULT,
CFG_BMPS_MODERATE_LI_MIN,
CFG_BMPS_MODERATE_LI_MAX ),
REG_VARIABLE( CFG_ENABLE_AUTO_BMPS_TIMER_NAME, WLAN_PARAM_Integer,
hdd_config_t, fIsAutoBmpsTimerEnabled,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_ENABLE_AUTO_BMPS_TIMER_DEFAULT,
CFG_ENABLE_AUTO_BMPS_TIMER_MIN,
CFG_ENABLE_AUTO_BMPS_TIMER_MAX ),
REG_VARIABLE( CFG_AUTO_BMPS_TIMER_VALUE_NAME, WLAN_PARAM_Integer,
hdd_config_t, nAutoBmpsTimerValue,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_AUTO_BMPS_TIMER_VALUE_DEFAULT,
CFG_AUTO_BMPS_TIMER_VALUE_MIN,
CFG_AUTO_BMPS_TIMER_VALUE_MAX ),
REG_VARIABLE( CFG_DOT11_MODE_NAME, WLAN_PARAM_Integer,
hdd_config_t, dot11Mode,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK,
CFG_DOT11_MODE_DEFAULT,
CFG_DOT11_MODE_MIN,
CFG_DOT11_MODE_MAX ),
REG_VARIABLE( CFG_CHANNEL_BONDING_MODE_24GHZ_NAME, WLAN_PARAM_Integer,
hdd_config_t, nChannelBondingMode24GHz,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK,
CFG_CHANNEL_BONDING_MODE_DEFAULT,
CFG_CHANNEL_BONDING_MODE_MIN,
CFG_CHANNEL_BONDING_MODE_MAX),
REG_VARIABLE(CFG_OVERRIDE_HT40_20_24GHZ_NAME, WLAN_PARAM_Integer,
hdd_config_t, override_ht20_40_24g,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_OVERRIDE_HT40_20_24GHZ_DEFAULT,
CFG_OVERRIDE_HT40_20_24GHZ_MIN,
CFG_OVERRIDE_HT40_20_24GHZ_MAX),
REG_VARIABLE( CFG_CHANNEL_BONDING_MODE_5GHZ_NAME, WLAN_PARAM_Integer,
hdd_config_t, nChannelBondingMode5GHz,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK,
CFG_CHANNEL_BONDING_MODE_DEFAULT,
CFG_CHANNEL_BONDING_MODE_MIN,
CFG_CHANNEL_BONDING_MODE_MAX),
REG_VARIABLE( CFG_MAX_RX_AMPDU_FACTOR_NAME, WLAN_PARAM_Integer,
hdd_config_t, MaxRxAmpduFactor,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK ,
CFG_MAX_RX_AMPDU_FACTOR_DEFAULT,
CFG_MAX_RX_AMPDU_FACTOR_MIN,
CFG_MAX_RX_AMPDU_FACTOR_MAX),
REG_VARIABLE(CFG_HT_MPDU_DENSITY_NAME, WLAN_PARAM_Integer,
hdd_config_t, ht_mpdu_density,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK ,
CFG_HT_MPDU_DENSITY_DEFAULT,
CFG_HT_MPDU_DENSITY_MIN,
CFG_HT_MPDU_DENSITY_MAX),
REG_VARIABLE( CFG_FIXED_RATE_NAME, WLAN_PARAM_Integer,
hdd_config_t, TxRate,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK,
CFG_FIXED_RATE_DEFAULT,
CFG_FIXED_RATE_MIN,
CFG_FIXED_RATE_MAX ),
REG_VARIABLE( CFG_SHORT_GI_20MHZ_NAME, WLAN_PARAM_Integer,
hdd_config_t, ShortGI20MhzEnable,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_SHORT_GI_20MHZ_DEFAULT,
CFG_SHORT_GI_20MHZ_MIN,
CFG_SHORT_GI_20MHZ_MAX ),
REG_VARIABLE( CFG_BLOCK_ACK_AUTO_SETUP_NAME, WLAN_PARAM_Integer,
hdd_config_t, BlockAckAutoSetup,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK,
CFG_BLOCK_ACK_AUTO_SETUP_DEFAULT,
CFG_BLOCK_ACK_AUTO_SETUP_MIN,
CFG_BLOCK_ACK_AUTO_SETUP_MAX ),
REG_VARIABLE( CFG_SCAN_RESULT_AGE_COUNT_NAME, WLAN_PARAM_Integer,
hdd_config_t, ScanResultAgeCount,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK,
CFG_SCAN_RESULT_AGE_COUNT_DEFAULT,
CFG_SCAN_RESULT_AGE_COUNT_MIN,
CFG_SCAN_RESULT_AGE_COUNT_MAX ),
REG_VARIABLE( CFG_SCAN_RESULT_AGE_TIME_NCNPS_NAME, WLAN_PARAM_Integer,
hdd_config_t, nScanAgeTimeNCNPS,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK,
CFG_SCAN_RESULT_AGE_TIME_NCNPS_DEFAULT,
CFG_SCAN_RESULT_AGE_TIME_NCNPS_MIN,
CFG_SCAN_RESULT_AGE_TIME_NCNPS_MAX ),
REG_VARIABLE( CFG_SCAN_RESULT_AGE_TIME_NCPS_NAME, WLAN_PARAM_Integer,
hdd_config_t, nScanAgeTimeNCPS,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK,
CFG_SCAN_RESULT_AGE_TIME_NCPS_DEFAULT,
CFG_SCAN_RESULT_AGE_TIME_NCPS_MIN,
CFG_SCAN_RESULT_AGE_TIME_NCPS_MAX ),
REG_VARIABLE( CFG_SCAN_RESULT_AGE_TIME_CNPS_NAME, WLAN_PARAM_Integer,
hdd_config_t, nScanAgeTimeCNPS,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK,
CFG_SCAN_RESULT_AGE_TIME_CNPS_DEFAULT,
CFG_SCAN_RESULT_AGE_TIME_CNPS_MIN,
CFG_SCAN_RESULT_AGE_TIME_CNPS_MAX ),
REG_VARIABLE( CFG_SCAN_RESULT_AGE_TIME_CPS_NAME, WLAN_PARAM_Integer,
hdd_config_t, nScanAgeTimeCPS,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK,
CFG_SCAN_RESULT_AGE_TIME_CPS_DEFAULT,
CFG_SCAN_RESULT_AGE_TIME_CPS_MIN,
CFG_SCAN_RESULT_AGE_TIME_CPS_MAX ),
REG_VARIABLE( CFG_RSSI_CATEGORY_GAP_NAME, WLAN_PARAM_Integer,
hdd_config_t, nRssiCatGap,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_RSSI_CATEGORY_GAP_DEFAULT,
CFG_RSSI_CATEGORY_GAP_MIN,
CFG_RSSI_CATEGORY_GAP_MAX ),
REG_VARIABLE( CFG_SHORT_PREAMBLE_NAME, WLAN_PARAM_Integer,
hdd_config_t, fIsShortPreamble,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_SHORT_PREAMBLE_DEFAULT,
CFG_SHORT_PREAMBLE_MIN,
CFG_SHORT_PREAMBLE_MAX ),
REG_VARIABLE_STRING( CFG_IBSS_BSSID_NAME, WLAN_PARAM_MacAddr,
hdd_config_t, IbssBssid,
VAR_FLAGS_OPTIONAL,
(void *)CFG_IBSS_BSSID_DEFAULT ),
REG_VARIABLE_STRING( CFG_INTF0_MAC_ADDR_NAME, WLAN_PARAM_MacAddr,
hdd_config_t, intfMacAddr[0],
VAR_FLAGS_OPTIONAL,
(void *)CFG_INTF0_MAC_ADDR_DEFAULT ),
REG_VARIABLE_STRING( CFG_INTF1_MAC_ADDR_NAME, WLAN_PARAM_MacAddr,
hdd_config_t, intfMacAddr[1],
VAR_FLAGS_OPTIONAL,
(void *)CFG_INTF1_MAC_ADDR_DEFAULT ),
REG_VARIABLE_STRING( CFG_INTF2_MAC_ADDR_NAME, WLAN_PARAM_MacAddr,
hdd_config_t, intfMacAddr[2],
VAR_FLAGS_OPTIONAL,
(void *)CFG_INTF2_MAC_ADDR_DEFAULT ),
REG_VARIABLE_STRING( CFG_INTF3_MAC_ADDR_NAME, WLAN_PARAM_MacAddr,
hdd_config_t, intfMacAddr[3],
VAR_FLAGS_OPTIONAL,
(void *)CFG_INTF3_MAC_ADDR_DEFAULT ),
REG_VARIABLE( CFG_AP_QOS_UAPSD_MODE_NAME , WLAN_PARAM_Integer,
hdd_config_t, apUapsdEnabled,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_AP_QOS_UAPSD_MODE_DEFAULT,
CFG_AP_QOS_UAPSD_MODE_MIN,
CFG_AP_QOS_UAPSD_MODE_MAX ),
REG_VARIABLE_STRING( CFG_AP_COUNTRY_CODE, WLAN_PARAM_String,
hdd_config_t, apCntryCode,
VAR_FLAGS_OPTIONAL,
(void *)CFG_AP_COUNTRY_CODE_DEFAULT ),
REG_VARIABLE( CFG_AP_ENABLE_RANDOM_BSSID_NAME, WLAN_PARAM_Integer,
hdd_config_t, apRandomBssidEnabled,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_AP_ENABLE_RANDOM_BSSID_DEFAULT,
CFG_AP_ENABLE_RANDOM_BSSID_MIN,
CFG_AP_ENABLE_RANDOM_BSSID_MAX ),
REG_VARIABLE( CFG_AP_ENABLE_PROTECTION_MODE_NAME, WLAN_PARAM_Integer,
hdd_config_t, apProtEnabled,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_AP_ENABLE_PROTECTION_MODE_DEFAULT,
CFG_AP_ENABLE_PROTECTION_MODE_MIN,
CFG_AP_ENABLE_PROTECTION_MODE_MAX ),
REG_VARIABLE( CFG_AP_PROTECTION_MODE_NAME, WLAN_PARAM_HexInteger,
hdd_config_t, apProtection,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_AP_PROTECTION_MODE_DEFAULT,
CFG_AP_PROTECTION_MODE_MIN,
CFG_AP_PROTECTION_MODE_MAX ),
REG_VARIABLE( CFG_AP_OBSS_PROTECTION_MODE_NAME, WLAN_PARAM_Integer,
hdd_config_t, apOBSSProtEnabled,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_AP_OBSS_PROTECTION_MODE_DEFAULT,
CFG_AP_OBSS_PROTECTION_MODE_MIN,
CFG_AP_OBSS_PROTECTION_MODE_MAX ),
REG_VARIABLE( CFG_AP_STA_SECURITY_SEPERATION_NAME, WLAN_PARAM_Integer,
hdd_config_t, apDisableIntraBssFwd,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_AP_STA_SECURITY_SEPERATION_DEFAULT,
CFG_AP_STA_SECURITY_SEPERATION_MIN,
CFG_AP_STA_SECURITY_SEPERATION_MAX ),
REG_VARIABLE( CFG_FRAMES_PROCESSING_TH_MODE_NAME, WLAN_PARAM_Integer,
hdd_config_t, MinFramesProcThres,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_FRAMES_PROCESSING_TH_DEFAULT,
CFG_FRAMES_PROCESSING_TH_MIN,
CFG_FRAMES_PROCESSING_TH_MAX ),
REG_VARIABLE(CFG_FORCE_SAP_ACS, WLAN_PARAM_Integer,
hdd_config_t, force_sap_acs,
VAR_FLAGS_DYNAMIC_CFG |
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_FORCE_SAP_ACS_DEFAULT,
CFG_FORCE_SAP_ACS_MIN,
CFG_FORCE_SAP_ACS_MAX),
REG_VARIABLE(CFG_FORCE_SAP_ACS_START_CH, WLAN_PARAM_Integer,
hdd_config_t, force_sap_acs_st_ch,
VAR_FLAGS_DYNAMIC_CFG |
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_FORCE_SAP_ACS_START_CH_DEFAULT,
CFG_FORCE_SAP_ACS_START_CH_MIN,
CFG_FORCE_SAP_ACS_START_CH_MAX),
REG_VARIABLE(CFG_FORCE_SAP_ACS_END_CH, WLAN_PARAM_Integer,
hdd_config_t, force_sap_acs_end_ch,
VAR_FLAGS_DYNAMIC_CFG |
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_FORCE_SAP_ACS_END_CH_DEFAULT,
CFG_FORCE_SAP_ACS_END_CH_MIN,
CFG_FORCE_SAP_ACS_END_CH_MAX),
REG_VARIABLE( CFG_ENABLE_LTE_COEX , WLAN_PARAM_Integer,
hdd_config_t, enableLTECoex,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_ENABLE_LTE_COEX_DEFAULT,
CFG_ENABLE_LTE_COEX_MIN,
CFG_ENABLE_LTE_COEX_MAX ),
REG_VARIABLE( CFG_AP_KEEP_ALIVE_PERIOD_NAME, WLAN_PARAM_Integer,
hdd_config_t, apKeepAlivePeriod,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_AP_KEEP_ALIVE_PERIOD_DEFAULT,
CFG_AP_KEEP_ALIVE_PERIOD_MIN,
CFG_AP_KEEP_ALIVE_PERIOD_MAX),
REG_VARIABLE( CFG_GO_KEEP_ALIVE_PERIOD_NAME, WLAN_PARAM_Integer,
hdd_config_t, goKeepAlivePeriod,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_GO_KEEP_ALIVE_PERIOD_DEFAULT,
CFG_GO_KEEP_ALIVE_PERIOD_MIN,
CFG_GO_KEEP_ALIVE_PERIOD_MAX),
REG_VARIABLE( CFG_AP_LINK_MONITOR_PERIOD_NAME, WLAN_PARAM_Integer,
hdd_config_t, apLinkMonitorPeriod,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_AP_LINK_MONITOR_PERIOD_DEFAULT,
CFG_AP_LINK_MONITOR_PERIOD_MIN,
CFG_AP_LINK_MONITOR_PERIOD_MAX),
REG_VARIABLE( CFG_GO_LINK_MONITOR_PERIOD_NAME, WLAN_PARAM_Integer,
hdd_config_t, goLinkMonitorPeriod,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_GO_LINK_MONITOR_PERIOD_DEFAULT,
CFG_GO_LINK_MONITOR_PERIOD_MIN,
CFG_GO_LINK_MONITOR_PERIOD_MAX),
REG_VARIABLE( CFG_DISABLE_PACKET_FILTER , WLAN_PARAM_Integer,
hdd_config_t, disablePacketFilter,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_DISABLE_PACKET_FILTER_DEFAULT,
CFG_DISABLE_PACKET_FILTER_MIN,
CFG_DISABLE_PACKET_FILTER_MAX ),
REG_VARIABLE( CFG_BEACON_INTERVAL_NAME, WLAN_PARAM_Integer,
hdd_config_t, nBeaconInterval,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK,
CFG_BEACON_INTERVAL_DEFAULT,
CFG_BEACON_INTERVAL_MIN,
CFG_BEACON_INTERVAL_MAX ),
REG_VARIABLE( CFG_ENABLE_IDLE_SCAN_NAME , WLAN_PARAM_Integer,
hdd_config_t, nEnableIdleScan,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_ENABLE_IDLE_SCAN_DEFAULT,
CFG_ENABLE_IDLE_SCAN_MIN,
CFG_ENABLE_IDLE_SCAN_MAX ),
REG_VARIABLE( CFG_ROAMING_TIME_NAME , WLAN_PARAM_Integer,
hdd_config_t, nRoamingTime,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_ROAMING_TIME_DEFAULT,
CFG_ROAMING_TIME_MIN,
CFG_ROAMING_TIME_MAX ),
REG_VARIABLE( CFG_VCC_RSSI_TRIGGER_NAME , WLAN_PARAM_Integer,
hdd_config_t, nVccRssiTrigger,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_VCC_RSSI_TRIGGER_DEFAULT,
CFG_VCC_RSSI_TRIGGER_MIN,
CFG_VCC_RSSI_TRIGGER_MAX ),
REG_VARIABLE( CFG_VCC_UL_MAC_LOSS_THRESH_NAME , WLAN_PARAM_Integer,
hdd_config_t, nVccUlMacLossThreshold,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_VCC_UL_MAC_LOSS_THRESH_DEFAULT,
CFG_VCC_UL_MAC_LOSS_THRESH_MIN,
CFG_VCC_UL_MAC_LOSS_THRESH_MAX ),
REG_VARIABLE( CFG_PASSIVE_MAX_CHANNEL_TIME_NAME, WLAN_PARAM_Integer,
hdd_config_t, nPassiveMaxChnTime,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_PASSIVE_MAX_CHANNEL_TIME_DEFAULT,
CFG_PASSIVE_MAX_CHANNEL_TIME_MIN,
CFG_PASSIVE_MAX_CHANNEL_TIME_MAX ),
REG_VARIABLE( CFG_PASSIVE_MIN_CHANNEL_TIME_NAME, WLAN_PARAM_Integer,
hdd_config_t, nPassiveMinChnTime,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_PASSIVE_MIN_CHANNEL_TIME_DEFAULT,
CFG_PASSIVE_MIN_CHANNEL_TIME_MIN,
CFG_PASSIVE_MIN_CHANNEL_TIME_MAX ),
REG_VARIABLE( CFG_ACTIVE_MAX_CHANNEL_TIME_NAME, WLAN_PARAM_Integer,
hdd_config_t, nActiveMaxChnTime,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_ACTIVE_MAX_CHANNEL_TIME_DEFAULT,
CFG_ACTIVE_MAX_CHANNEL_TIME_MIN,
CFG_ACTIVE_MAX_CHANNEL_TIME_MAX ),
REG_VARIABLE( CFG_ACTIVE_MIN_CHANNEL_TIME_NAME, WLAN_PARAM_Integer,
hdd_config_t, nActiveMinChnTime,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_ACTIVE_MIN_CHANNEL_TIME_DEFAULT,
CFG_ACTIVE_MIN_CHANNEL_TIME_MIN,
CFG_ACTIVE_MIN_CHANNEL_TIME_MAX ),
REG_VARIABLE( CFG_RETRY_LIMIT_ZERO_NAME, WLAN_PARAM_Integer,
hdd_config_t, retryLimitZero,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_RETRY_LIMIT_ZERO_DEFAULT,
CFG_RETRY_LIMIT_ZERO_MIN,
CFG_RETRY_LIMIT_ZERO_MAX ),
REG_VARIABLE( CFG_RETRY_LIMIT_ONE_NAME, WLAN_PARAM_Integer,
hdd_config_t, retryLimitOne,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_RETRY_LIMIT_ONE_DEFAULT,
CFG_RETRY_LIMIT_ONE_MIN,
CFG_RETRY_LIMIT_ONE_MAX ),
REG_VARIABLE( CFG_RETRY_LIMIT_TWO_NAME, WLAN_PARAM_Integer,
hdd_config_t, retryLimitTwo,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_RETRY_LIMIT_TWO_DEFAULT,
CFG_RETRY_LIMIT_TWO_MIN,
CFG_RETRY_LIMIT_TWO_MAX ),
REG_VARIABLE( CFG_DISABLE_AGG_WITH_BTC_NAME, WLAN_PARAM_Integer,
hdd_config_t, disableAggWithBtc,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_DISABLE_AGG_WITH_BTC_DEFAULT,
CFG_DISABLE_AGG_WITH_BTC_MIN,
CFG_DISABLE_AGG_WITH_BTC_MAX ),
#ifdef WLAN_AP_STA_CONCURRENCY
REG_VARIABLE( CFG_PASSIVE_MAX_CHANNEL_TIME_CONC_NAME, WLAN_PARAM_Integer,
hdd_config_t, nPassiveMaxChnTimeConc,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_PASSIVE_MAX_CHANNEL_TIME_CONC_DEFAULT,
CFG_PASSIVE_MAX_CHANNEL_TIME_CONC_MIN,
CFG_PASSIVE_MAX_CHANNEL_TIME_CONC_MAX ),
REG_VARIABLE( CFG_PASSIVE_MIN_CHANNEL_TIME_CONC_NAME, WLAN_PARAM_Integer,
hdd_config_t, nPassiveMinChnTimeConc,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_PASSIVE_MIN_CHANNEL_TIME_CONC_DEFAULT,
CFG_PASSIVE_MIN_CHANNEL_TIME_CONC_MIN,
CFG_PASSIVE_MIN_CHANNEL_TIME_CONC_MAX ),
REG_VARIABLE( CFG_ACTIVE_MAX_CHANNEL_TIME_CONC_NAME, WLAN_PARAM_Integer,
hdd_config_t, nActiveMaxChnTimeConc,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_ACTIVE_MAX_CHANNEL_TIME_CONC_DEFAULT,
CFG_ACTIVE_MAX_CHANNEL_TIME_CONC_MIN,
CFG_ACTIVE_MAX_CHANNEL_TIME_CONC_MAX ),
REG_VARIABLE( CFG_ACTIVE_MIN_CHANNEL_TIME_CONC_NAME, WLAN_PARAM_Integer,
hdd_config_t, nActiveMinChnTimeConc,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_ACTIVE_MIN_CHANNEL_TIME_CONC_DEFAULT,
CFG_ACTIVE_MIN_CHANNEL_TIME_CONC_MIN,
CFG_ACTIVE_MIN_CHANNEL_TIME_CONC_MAX ),
REG_VARIABLE( CFG_REST_TIME_CONC_NAME, WLAN_PARAM_Integer,
hdd_config_t, nRestTimeConc,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_REST_TIME_CONC_DEFAULT,
CFG_REST_TIME_CONC_MIN,
CFG_REST_TIME_CONC_MAX ),
REG_VARIABLE( CFG_MIN_REST_TIME_NAME, WLAN_PARAM_Integer,
hdd_config_t, min_rest_time_conc,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_MIN_REST_TIME_DEFAULT,
CFG_MIN_REST_TIME_MIN,
CFG_MIN_REST_TIME_MAX ),
REG_VARIABLE( CFG_IDLE_TIME_NAME , WLAN_PARAM_Integer,
hdd_config_t, idle_time_conc,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_IDLE_TIME_DEFAULT,
CFG_IDLE_TIME_MIN,
CFG_IDLE_TIME_MAX ),
#endif
REG_VARIABLE( CFG_MAX_PS_POLL_NAME, WLAN_PARAM_Integer,
hdd_config_t, nMaxPsPoll,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_MAX_PS_POLL_DEFAULT,
CFG_MAX_PS_POLL_MIN,
CFG_MAX_PS_POLL_MAX ),
REG_VARIABLE( CFG_MAX_TX_POWER_NAME, WLAN_PARAM_Integer,
hdd_config_t, nTxPowerCap,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_MAX_TX_POWER_DEFAULT,
CFG_MAX_TX_POWER_MIN,
CFG_MAX_TX_POWER_MAX ),
REG_VARIABLE( CFG_TX_POWER_CTRL_NAME, WLAN_PARAM_Integer,
hdd_config_t, allow_tpc_from_ap,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_TX_POWER_CTRL_DEFAULT,
CFG_TX_POWER_CTRL_MIN,
CFG_TX_POWER_CTRL_MAX ),
REG_VARIABLE( CFG_LOW_GAIN_OVERRIDE_NAME, WLAN_PARAM_Integer,
hdd_config_t, fIsLowGainOverride,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_LOW_GAIN_OVERRIDE_DEFAULT,
CFG_LOW_GAIN_OVERRIDE_MIN,
CFG_LOW_GAIN_OVERRIDE_MAX ),
REG_VARIABLE( CFG_RSSI_FILTER_PERIOD_NAME, WLAN_PARAM_Integer,
hdd_config_t, nRssiFilterPeriod,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_RSSI_FILTER_PERIOD_DEFAULT,
CFG_RSSI_FILTER_PERIOD_MIN,
CFG_RSSI_FILTER_PERIOD_MAX ),
REG_VARIABLE( CFG_IGNORE_DTIM_NAME, WLAN_PARAM_Integer,
hdd_config_t, fIgnoreDtim,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_IGNORE_DTIM_DEFAULT,
CFG_IGNORE_DTIM_MIN,
CFG_IGNORE_DTIM_MAX ),
REG_VARIABLE( CFG_MAX_LI_MODULATED_DTIM_NAME, WLAN_PARAM_Integer,
hdd_config_t, fMaxLIModulatedDTIM,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_MAX_LI_MODULATED_DTIM_DEFAULT,
CFG_MAX_LI_MODULATED_DTIM_MIN,
CFG_MAX_LI_MODULATED_DTIM_MAX ),
REG_VARIABLE( CFG_RX_ANT_CONFIGURATION_NAME, WLAN_PARAM_Integer,
hdd_config_t, nRxAnt,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_RX_ANT_CONFIGURATION_NAME_DEFAULT,
CFG_RX_ANT_CONFIGURATION_NAME_MIN,
CFG_RX_ANT_CONFIGURATION_NAME_MAX ),
REG_VARIABLE( CFG_FW_HEART_BEAT_MONITORING_NAME, WLAN_PARAM_Integer,
hdd_config_t, fEnableFwHeartBeatMonitoring,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_FW_HEART_BEAT_MONITORING_DEFAULT,
CFG_FW_HEART_BEAT_MONITORING_MIN,
CFG_FW_HEART_BEAT_MONITORING_MAX ),
REG_VARIABLE( CFG_FW_BEACON_FILTERING_NAME, WLAN_PARAM_Integer,
hdd_config_t, fEnableFwBeaconFiltering,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_FW_BEACON_FILTERING_DEFAULT,
CFG_FW_BEACON_FILTERING_MIN,
CFG_FW_BEACON_FILTERING_MAX ),
REG_DYNAMIC_VARIABLE( CFG_FW_RSSI_MONITORING_NAME, WLAN_PARAM_Integer,
hdd_config_t, fEnableFwRssiMonitoring,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_FW_RSSI_MONITORING_DEFAULT,
CFG_FW_RSSI_MONITORING_MIN,
CFG_FW_RSSI_MONITORING_MAX,
cbNotifySetFwRssiMonitoring, 0 ),
REG_VARIABLE(CFG_FW_MCC_RTS_CTS_PROT_NAME, WLAN_PARAM_Integer,
hdd_config_t, mcc_rts_cts_prot_enable,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_FW_MCC_RTS_CTS_PROT_DEFAULT,
CFG_FW_MCC_RTS_CTS_PROT_MIN,
CFG_FW_MCC_RTS_CTS_PROT_MAX),
REG_VARIABLE(CFG_FW_MCC_BCAST_PROB_RESP_NAME, WLAN_PARAM_Integer,
hdd_config_t, mcc_bcast_prob_resp_enable,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_FW_MCC_BCAST_PROB_RESP_DEFAULT,
CFG_FW_MCC_BCAST_PROB_RESP_MIN,
CFG_FW_MCC_BCAST_PROB_RESP_MAX),
REG_VARIABLE( CFG_DATA_INACTIVITY_TIMEOUT_NAME, WLAN_PARAM_Integer,
hdd_config_t, nDataInactivityTimeout,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_DATA_INACTIVITY_TIMEOUT_DEFAULT,
CFG_DATA_INACTIVITY_TIMEOUT_MIN,
CFG_DATA_INACTIVITY_TIMEOUT_MAX ),
REG_VARIABLE( CFG_NTH_BEACON_FILTER_NAME, WLAN_PARAM_Integer,
hdd_config_t, nthBeaconFilter,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_NTH_BEACON_FILTER_DEFAULT,
CFG_NTH_BEACON_FILTER_MIN,
CFG_NTH_BEACON_FILTER_MAX ),
REG_VARIABLE( CFG_QOS_WMM_MODE_NAME , WLAN_PARAM_Integer,
hdd_config_t, WmmMode,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_QOS_WMM_MODE_DEFAULT,
CFG_QOS_WMM_MODE_MIN,
CFG_QOS_WMM_MODE_MAX ),
REG_VARIABLE( CFG_STA_LOCAL_EDCA_FOR_ETSI_NAME, WLAN_PARAM_Integer,
hdd_config_t, gStaLocalEDCAEnable,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_STA_LOCAL_EDCA_FOR_ETSI_DEFAULT,
CFG_STA_LOCAL_EDCA_FOR_ETSI_MIN,
CFG_STA_LOCAL_EDCA_FOR_ETSI_MAX ),
REG_VARIABLE( CFG_QOS_WMM_80211E_ENABLED_NAME , WLAN_PARAM_Integer,
hdd_config_t, b80211eIsEnabled,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_QOS_WMM_80211E_ENABLED_DEFAULT,
CFG_QOS_WMM_80211E_ENABLED_MIN,
CFG_QOS_WMM_80211E_ENABLED_MAX ),
REG_VARIABLE( CFG_QOS_WMM_UAPSD_MASK_NAME , WLAN_PARAM_HexInteger,
hdd_config_t, UapsdMask,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_QOS_WMM_UAPSD_MASK_DEFAULT,
CFG_QOS_WMM_UAPSD_MASK_MIN,
CFG_QOS_WMM_UAPSD_MASK_MAX ),
REG_VARIABLE( CFG_QOS_WMM_INFRA_UAPSD_VO_SRV_INTV_NAME , WLAN_PARAM_Integer,
hdd_config_t, InfraUapsdVoSrvIntv,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_QOS_WMM_INFRA_UAPSD_VO_SRV_INTV_DEFAULT,
CFG_QOS_WMM_INFRA_UAPSD_VO_SRV_INTV_MIN,
CFG_QOS_WMM_INFRA_UAPSD_VO_SRV_INTV_MAX ),
REG_VARIABLE( CFG_QOS_WMM_INFRA_UAPSD_VO_SUS_INTV_NAME , WLAN_PARAM_Integer,
hdd_config_t, InfraUapsdVoSuspIntv,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_QOS_WMM_INFRA_UAPSD_VO_SUS_INTV_DEFAULT,
CFG_QOS_WMM_INFRA_UAPSD_VO_SUS_INTV_MIN,
CFG_QOS_WMM_INFRA_UAPSD_VO_SUS_INTV_MAX ),
REG_VARIABLE( CFG_QOS_WMM_INFRA_UAPSD_VI_SRV_INTV_NAME , WLAN_PARAM_Integer,
hdd_config_t, InfraUapsdViSrvIntv,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_QOS_WMM_INFRA_UAPSD_VI_SRV_INTV_DEFAULT,
CFG_QOS_WMM_INFRA_UAPSD_VI_SRV_INTV_MIN,
CFG_QOS_WMM_INFRA_UAPSD_VI_SRV_INTV_MAX ),
REG_VARIABLE( CFG_QOS_WMM_INFRA_UAPSD_VI_SUS_INTV_NAME , WLAN_PARAM_Integer,
hdd_config_t, InfraUapsdViSuspIntv,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_QOS_WMM_INFRA_UAPSD_VI_SUS_INTV_DEFAULT,
CFG_QOS_WMM_INFRA_UAPSD_VI_SUS_INTV_MIN,
CFG_QOS_WMM_INFRA_UAPSD_VI_SUS_INTV_MAX ),
REG_VARIABLE( CFG_QOS_WMM_INFRA_UAPSD_BE_SRV_INTV_NAME , WLAN_PARAM_Integer,
hdd_config_t, InfraUapsdBeSrvIntv,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_QOS_WMM_INFRA_UAPSD_BE_SRV_INTV_DEFAULT,
CFG_QOS_WMM_INFRA_UAPSD_BE_SRV_INTV_MIN,
CFG_QOS_WMM_INFRA_UAPSD_BE_SRV_INTV_MAX ),
REG_VARIABLE( CFG_QOS_WMM_INFRA_UAPSD_BE_SUS_INTV_NAME , WLAN_PARAM_Integer,
hdd_config_t, InfraUapsdBeSuspIntv,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_QOS_WMM_INFRA_UAPSD_BE_SUS_INTV_DEFAULT,
CFG_QOS_WMM_INFRA_UAPSD_BE_SUS_INTV_MIN,
CFG_QOS_WMM_INFRA_UAPSD_BE_SUS_INTV_MAX ),
REG_VARIABLE( CFG_QOS_WMM_INFRA_UAPSD_BK_SRV_INTV_NAME , WLAN_PARAM_Integer,
hdd_config_t, InfraUapsdBkSrvIntv,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_QOS_WMM_INFRA_UAPSD_BK_SRV_INTV_DEFAULT,
CFG_QOS_WMM_INFRA_UAPSD_BK_SRV_INTV_MIN,
CFG_QOS_WMM_INFRA_UAPSD_BK_SRV_INTV_MAX ),
REG_VARIABLE( CFG_QOS_WMM_INFRA_UAPSD_BK_SUS_INTV_NAME , WLAN_PARAM_Integer,
hdd_config_t, InfraUapsdBkSuspIntv,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_QOS_WMM_INFRA_UAPSD_BK_SUS_INTV_DEFAULT,
CFG_QOS_WMM_INFRA_UAPSD_BK_SUS_INTV_MIN,
CFG_QOS_WMM_INFRA_UAPSD_BK_SUS_INTV_MAX ),
#ifdef FEATURE_WLAN_ESE
REG_VARIABLE( CFG_QOS_WMM_INFRA_INACTIVITY_INTERVAL_NAME, WLAN_PARAM_Integer,
hdd_config_t, InfraInactivityInterval,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_QOS_WMM_INFRA_INACTIVITY_INTERVAL_DEFAULT,
CFG_QOS_WMM_INFRA_INACTIVITY_INTERVAL_MIN,
CFG_QOS_WMM_INFRA_INACTIVITY_INTERVAL_MAX),
REG_DYNAMIC_VARIABLE( CFG_ESE_FEATURE_ENABLED_NAME, WLAN_PARAM_Integer,
hdd_config_t, isEseIniFeatureEnabled,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_ESE_FEATURE_ENABLED_DEFAULT,
CFG_ESE_FEATURE_ENABLED_MIN,
CFG_ESE_FEATURE_ENABLED_MAX,
cbNotifySetEseFeatureEnabled, 0 ),
#endif // FEATURE_WLAN_ESE
#ifdef FEATURE_WLAN_LFR
// flag to turn ON/OFF Legacy Fast Roaming
REG_DYNAMIC_VARIABLE( CFG_LFR_FEATURE_ENABLED_NAME, WLAN_PARAM_Integer,
hdd_config_t, isFastRoamIniFeatureEnabled,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_LFR_FEATURE_ENABLED_DEFAULT,
CFG_LFR_FEATURE_ENABLED_MIN,
CFG_LFR_FEATURE_ENABLED_MAX,
NotifyIsFastRoamIniFeatureEnabled, 0 ),
/* flag to turn ON/OFF Motion assistance for Legacy Fast Roaming */
REG_DYNAMIC_VARIABLE( CFG_LFR_MAWC_FEATURE_ENABLED_NAME, WLAN_PARAM_Integer,
hdd_config_t, MAWCEnabled,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_LFR_MAWC_FEATURE_ENABLED_DEFAULT,
CFG_LFR_MAWC_FEATURE_ENABLED_MIN,
CFG_LFR_MAWC_FEATURE_ENABLED_MAX,
NotifyIsMAWCIniFeatureEnabled, 0 ),
#endif // FEATURE_WLAN_LFR
#if defined (WLAN_FEATURE_VOWIFI_11R) || defined (FEATURE_WLAN_ESE) || defined(FEATURE_WLAN_LFR)
// flag to turn ON/OFF 11r and ESE FastTransition
REG_DYNAMIC_VARIABLE( CFG_FAST_TRANSITION_ENABLED_NAME, WLAN_PARAM_Integer,
hdd_config_t, isFastTransitionEnabled,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_FAST_TRANSITION_ENABLED_NAME_DEFAULT,
CFG_FAST_TRANSITION_ENABLED_NAME_MIN,
CFG_FAST_TRANSITION_ENABLED_NAME_MAX,
cbNotifySetFastTransitionEnabled, 0 ),
/* Variable to specify the delta/difference between the RSSI of current AP
* and roamable AP while roaming */
REG_DYNAMIC_VARIABLE( CFG_ROAM_RSSI_DIFF_NAME, WLAN_PARAM_Integer,
hdd_config_t, RoamRssiDiff,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_ROAM_RSSI_DIFF_DEFAULT,
CFG_ROAM_RSSI_DIFF_MIN,
CFG_ROAM_RSSI_DIFF_MAX,
cbNotifySetRoamRssiDiff, 0),
REG_DYNAMIC_VARIABLE( CFG_IMMEDIATE_ROAM_RSSI_DIFF_NAME, WLAN_PARAM_Integer,
hdd_config_t, nImmediateRoamRssiDiff,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_IMMEDIATE_ROAM_RSSI_DIFF_DEFAULT,
CFG_IMMEDIATE_ROAM_RSSI_DIFF_MIN,
CFG_IMMEDIATE_ROAM_RSSI_DIFF_MAX,
cbNotifySetImmediateRoamRssiDiff, 0),
REG_DYNAMIC_VARIABLE( CFG_ENABLE_WES_MODE_NAME, WLAN_PARAM_Integer,
hdd_config_t, isWESModeEnabled,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_ENABLE_WES_MODE_NAME_DEFAULT,
CFG_ENABLE_WES_MODE_NAME_MIN,
CFG_ENABLE_WES_MODE_NAME_MAX,
cbNotifySetWESMode, 0),
#endif
#ifdef FEATURE_WLAN_OKC
REG_DYNAMIC_VARIABLE( CFG_OKC_FEATURE_ENABLED_NAME, WLAN_PARAM_Integer,
hdd_config_t, isOkcIniFeatureEnabled,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_OKC_FEATURE_ENABLED_DEFAULT,
CFG_OKC_FEATURE_ENABLED_MIN,
CFG_OKC_FEATURE_ENABLED_MAX,
cbNotifySetOkcFeatureEnabled, 0 ),
#endif
#ifdef WLAN_FEATURE_ROAM_SCAN_OFFLOAD
REG_DYNAMIC_VARIABLE( CFG_ROAM_SCAN_OFFLOAD_ENABLED, WLAN_PARAM_Integer,
hdd_config_t, isRoamOffloadScanEnabled,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_ROAM_SCAN_OFFLOAD_ENABLED_DEFAULT,
CFG_ROAM_SCAN_OFFLOAD_ENABLED_MIN,
CFG_ROAM_SCAN_OFFLOAD_ENABLED_MAX,
cbNotifyUpdateRoamScanOffloadEnabled, 0),
#endif
REG_VARIABLE( CFG_QOS_WMM_PKT_CLASSIFY_BASIS_NAME , WLAN_PARAM_Integer,
hdd_config_t, PktClassificationBasis,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_QOS_WMM_PKT_CLASSIFY_BASIS_DEFAULT,
CFG_QOS_WMM_PKT_CLASSIFY_BASIS_MIN,
CFG_QOS_WMM_PKT_CLASSIFY_BASIS_MAX ),
REG_VARIABLE( CFG_QOS_WMM_INFRA_DIR_AC_VO_NAME , WLAN_PARAM_Integer,
hdd_config_t, InfraDirAcVo,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_QOS_WMM_INFRA_DIR_AC_VO_DEFAULT,
CFG_QOS_WMM_INFRA_DIR_AC_VO_MIN,
CFG_QOS_WMM_INFRA_DIR_AC_VO_MAX ),
REG_VARIABLE( CFG_QOS_WMM_INFRA_NOM_MSDU_SIZE_AC_VO_NAME , WLAN_PARAM_HexInteger,
hdd_config_t, InfraNomMsduSizeAcVo,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_QOS_WMM_INFRA_NOM_MSDU_SIZE_AC_VO_DEFAULT,
CFG_QOS_WMM_INFRA_NOM_MSDU_SIZE_AC_VO_MIN,
CFG_QOS_WMM_INFRA_NOM_MSDU_SIZE_AC_VO_MAX ),
REG_VARIABLE( CFG_QOS_WMM_INFRA_MEAN_DATA_RATE_AC_VO_NAME , WLAN_PARAM_HexInteger,
hdd_config_t, InfraMeanDataRateAcVo,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_QOS_WMM_INFRA_MEAN_DATA_RATE_AC_VO_DEFAULT,
CFG_QOS_WMM_INFRA_MEAN_DATA_RATE_AC_VO_MIN,
CFG_QOS_WMM_INFRA_MEAN_DATA_RATE_AC_VO_MAX ),
REG_VARIABLE( CFG_QOS_WMM_INFRA_MIN_PHY_RATE_AC_VO_NAME , WLAN_PARAM_HexInteger,
hdd_config_t, InfraMinPhyRateAcVo,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_QOS_WMM_INFRA_MIN_PHY_RATE_AC_VO_DEFAULT,
CFG_QOS_WMM_INFRA_MIN_PHY_RATE_AC_VO_MIN,
CFG_QOS_WMM_INFRA_MIN_PHY_RATE_AC_VO_MAX ),
REG_VARIABLE( CFG_QOS_WMM_INFRA_SBA_AC_VO_NAME , WLAN_PARAM_HexInteger,
hdd_config_t, InfraSbaAcVo,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_QOS_WMM_INFRA_SBA_AC_VO_DEFAULT,
CFG_QOS_WMM_INFRA_SBA_AC_VO_MIN,
CFG_QOS_WMM_INFRA_SBA_AC_VO_MAX ),
REG_VARIABLE( CFG_QOS_WMM_INFRA_DIR_AC_VI_NAME , WLAN_PARAM_Integer,
hdd_config_t, InfraDirAcVi,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_QOS_WMM_INFRA_DIR_AC_VI_DEFAULT,
CFG_QOS_WMM_INFRA_DIR_AC_VI_MIN,
CFG_QOS_WMM_INFRA_DIR_AC_VI_MAX ),
REG_VARIABLE( CFG_QOS_WMM_INFRA_NOM_MSDU_SIZE_AC_VI_NAME , WLAN_PARAM_HexInteger,
hdd_config_t, InfraNomMsduSizeAcVi,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_QOS_WMM_INFRA_NOM_MSDU_SIZE_AC_VI_DEFAULT,
CFG_QOS_WMM_INFRA_NOM_MSDU_SIZE_AC_VI_MIN,
CFG_QOS_WMM_INFRA_NOM_MSDU_SIZE_AC_VI_MAX ),
REG_VARIABLE( CFG_QOS_WMM_INFRA_MEAN_DATA_RATE_AC_VI_NAME , WLAN_PARAM_HexInteger,
hdd_config_t, InfraMeanDataRateAcVi,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_QOS_WMM_INFRA_MEAN_DATA_RATE_AC_VI_DEFAULT,
CFG_QOS_WMM_INFRA_MEAN_DATA_RATE_AC_VI_MIN,
CFG_QOS_WMM_INFRA_MEAN_DATA_RATE_AC_VI_MAX ),
REG_VARIABLE( CFG_QOS_WMM_INFRA_MIN_PHY_RATE_AC_VI_NAME , WLAN_PARAM_HexInteger,
hdd_config_t, InfraMinPhyRateAcVi,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_QOS_WMM_INFRA_MIN_PHY_RATE_AC_VI_DEFAULT,
CFG_QOS_WMM_INFRA_MIN_PHY_RATE_AC_VI_MIN,
CFG_QOS_WMM_INFRA_MIN_PHY_RATE_AC_VI_MAX ),
REG_VARIABLE( CFG_QOS_WMM_INFRA_SBA_AC_VI_NAME , WLAN_PARAM_HexInteger,
hdd_config_t, InfraSbaAcVi,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_QOS_WMM_INFRA_SBA_AC_VI_DEFAULT,
CFG_QOS_WMM_INFRA_SBA_AC_VI_MIN,
CFG_QOS_WMM_INFRA_SBA_AC_VI_MAX ),
REG_VARIABLE( CFG_QOS_WMM_INFRA_DIR_AC_BE_NAME , WLAN_PARAM_Integer,
hdd_config_t, InfraDirAcBe,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_QOS_WMM_INFRA_DIR_AC_BE_DEFAULT,
CFG_QOS_WMM_INFRA_DIR_AC_BE_MIN,
CFG_QOS_WMM_INFRA_DIR_AC_BE_MAX ),
REG_VARIABLE( CFG_QOS_WMM_INFRA_NOM_MSDU_SIZE_AC_BE_NAME , WLAN_PARAM_HexInteger,
hdd_config_t, InfraNomMsduSizeAcBe,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_QOS_WMM_INFRA_NOM_MSDU_SIZE_AC_BE_DEFAULT,
CFG_QOS_WMM_INFRA_NOM_MSDU_SIZE_AC_BE_MIN,
CFG_QOS_WMM_INFRA_NOM_MSDU_SIZE_AC_BE_MAX ),
REG_VARIABLE( CFG_QOS_WMM_INFRA_MEAN_DATA_RATE_AC_BE_NAME , WLAN_PARAM_HexInteger,
hdd_config_t, InfraMeanDataRateAcBe,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_QOS_WMM_INFRA_MEAN_DATA_RATE_AC_BE_DEFAULT,
CFG_QOS_WMM_INFRA_MEAN_DATA_RATE_AC_BE_MIN,
CFG_QOS_WMM_INFRA_MEAN_DATA_RATE_AC_BE_MAX ),
REG_VARIABLE( CFG_QOS_WMM_INFRA_MIN_PHY_RATE_AC_BE_NAME , WLAN_PARAM_HexInteger,
hdd_config_t, InfraMinPhyRateAcBe,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_QOS_WMM_INFRA_MIN_PHY_RATE_AC_BE_DEFAULT,
CFG_QOS_WMM_INFRA_MIN_PHY_RATE_AC_BE_MIN,
CFG_QOS_WMM_INFRA_MIN_PHY_RATE_AC_BE_MAX ),
REG_VARIABLE( CFG_QOS_WMM_INFRA_SBA_AC_BE_NAME , WLAN_PARAM_HexInteger,
hdd_config_t, InfraSbaAcBe,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_QOS_WMM_INFRA_SBA_AC_BE_DEFAULT,
CFG_QOS_WMM_INFRA_SBA_AC_BE_MIN,
CFG_QOS_WMM_INFRA_SBA_AC_BE_MAX ),
REG_VARIABLE( CFG_QOS_WMM_INFRA_DIR_AC_BK_NAME , WLAN_PARAM_Integer,
hdd_config_t, InfraDirAcBk,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_QOS_WMM_INFRA_DIR_AC_BK_DEFAULT,
CFG_QOS_WMM_INFRA_DIR_AC_BK_MIN,
CFG_QOS_WMM_INFRA_DIR_AC_BK_MAX ),
REG_VARIABLE( CFG_QOS_WMM_INFRA_NOM_MSDU_SIZE_AC_BK_NAME , WLAN_PARAM_HexInteger,
hdd_config_t, InfraNomMsduSizeAcBk,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_QOS_WMM_INFRA_NOM_MSDU_SIZE_AC_BK_DEFAULT,
CFG_QOS_WMM_INFRA_NOM_MSDU_SIZE_AC_BK_MIN,
CFG_QOS_WMM_INFRA_NOM_MSDU_SIZE_AC_BK_MAX ),
REG_VARIABLE( CFG_QOS_WMM_INFRA_MEAN_DATA_RATE_AC_BK_NAME , WLAN_PARAM_HexInteger,
hdd_config_t, InfraMeanDataRateAcBk,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_QOS_WMM_INFRA_MEAN_DATA_RATE_AC_BK_DEFAULT,
CFG_QOS_WMM_INFRA_MEAN_DATA_RATE_AC_BK_MIN,
CFG_QOS_WMM_INFRA_MEAN_DATA_RATE_AC_BK_MAX ),
REG_VARIABLE( CFG_QOS_WMM_INFRA_MIN_PHY_RATE_AC_BK_NAME , WLAN_PARAM_HexInteger,
hdd_config_t, InfraMinPhyRateAcBk,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_QOS_WMM_INFRA_MIN_PHY_RATE_AC_BK_DEFAULT,
CFG_QOS_WMM_INFRA_MIN_PHY_RATE_AC_BK_MIN,
CFG_QOS_WMM_INFRA_MIN_PHY_RATE_AC_BK_MAX ),
REG_VARIABLE( CFG_QOS_WMM_INFRA_SBA_AC_BK_NAME , WLAN_PARAM_HexInteger,
hdd_config_t, InfraSbaAcBk,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_QOS_WMM_INFRA_SBA_AC_BK_DEFAULT,
CFG_QOS_WMM_INFRA_SBA_AC_BK_MIN,
CFG_QOS_WMM_INFRA_SBA_AC_BK_MAX ),
REG_VARIABLE( CFG_TL_DELAYED_TRGR_FRM_INT_NAME , WLAN_PARAM_Integer,
hdd_config_t, DelayedTriggerFrmInt,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_TL_DELAYED_TRGR_FRM_INT_DEFAULT,
CFG_TL_DELAYED_TRGR_FRM_INT_MIN,
CFG_TL_DELAYED_TRGR_FRM_INT_MAX ),
REG_VARIABLE_STRING( CFG_WOWL_PATTERN_NAME, WLAN_PARAM_String,
hdd_config_t, wowlPattern,
VAR_FLAGS_OPTIONAL,
(void *)CFG_WOWL_PATTERN_DEFAULT ),
REG_VARIABLE( CFG_QOS_IMPLICIT_SETUP_ENABLED_NAME , WLAN_PARAM_Integer,
hdd_config_t, bImplicitQosEnabled,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_QOS_IMPLICIT_SETUP_ENABLED_DEFAULT,
CFG_QOS_IMPLICIT_SETUP_ENABLED_MIN,
CFG_QOS_IMPLICIT_SETUP_ENABLED_MAX ),
REG_VARIABLE( CFG_BTC_EXECUTION_MODE_NAME , WLAN_PARAM_Integer,
hdd_config_t, btcExecutionMode,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_BTC_EXECUTION_MODE_DEFAULT,
CFG_BTC_EXECUTION_MODE_MIN,
CFG_BTC_EXECUTION_MODE_MAX ),
REG_VARIABLE( CFG_MWS_COEX_CONFIG1_NAME , WLAN_PARAM_Integer,
hdd_config_t, mwsCoexConfig[0],
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_MWS_COEX_CONFIGX_DEFAULT,
CFG_MWS_COEX_CONFIGX_MIN,
CFG_MWS_COEX_CONFIGX_MAX ),
REG_VARIABLE( CFG_MWS_COEX_CONFIG2_NAME , WLAN_PARAM_Integer,
hdd_config_t, mwsCoexConfig[1],
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_MWS_COEX_CONFIGX_DEFAULT,
CFG_MWS_COEX_CONFIGX_MIN,
CFG_MWS_COEX_CONFIGX_MAX ),
REG_VARIABLE( CFG_MWS_COEX_CONFIG3_NAME , WLAN_PARAM_Integer,
hdd_config_t, mwsCoexConfig[2],
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_MWS_COEX_CONFIGX_DEFAULT,
CFG_MWS_COEX_CONFIGX_MIN,
CFG_MWS_COEX_CONFIGX_MAX ),
REG_VARIABLE( CFG_MWS_COEX_CONFIG4_NAME , WLAN_PARAM_Integer,
hdd_config_t, mwsCoexConfig[3],
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_MWS_COEX_CONFIGX_DEFAULT,
CFG_MWS_COEX_CONFIGX_MIN,
CFG_MWS_COEX_CONFIGX_MAX ),
REG_VARIABLE( CFG_MWS_COEX_CONFIG5_NAME , WLAN_PARAM_Integer,
hdd_config_t, mwsCoexConfig[4],
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_MWS_COEX_CONFIGX_DEFAULT,
CFG_MWS_COEX_CONFIGX_MIN,
CFG_MWS_COEX_CONFIGX_MAX ),
REG_VARIABLE( CFG_MWS_COEX_CONFIG6_NAME , WLAN_PARAM_Integer,
hdd_config_t, mwsCoexConfig[5],
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_MWS_COEX_CONFIGX_DEFAULT,
CFG_MWS_COEX_CONFIGX_MIN,
CFG_MWS_COEX_CONFIGX_MAX ),
REG_VARIABLE( CFG_AP_LISTEN_MODE_NAME , WLAN_PARAM_Integer,
hdd_config_t, nEnableListenMode,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_AP_LISTEN_MODE_DEFAULT,
CFG_AP_LISTEN_MODE_MIN,
CFG_AP_LISTEN_MODE_MAX ),
REG_VARIABLE( CFG_AP_AUTO_SHUT_OFF , WLAN_PARAM_Integer,
hdd_config_t, nAPAutoShutOff,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_AP_AUTO_SHUT_OFF_DEFAULT,
CFG_AP_AUTO_SHUT_OFF_MIN,
CFG_AP_AUTO_SHUT_OFF_MAX ),
#ifdef FEATURE_WLAN_MCC_TO_SCC_SWITCH
REG_VARIABLE( CFG_WLAN_MCC_TO_SCC_SWITCH_MODE , WLAN_PARAM_Integer,
hdd_config_t, WlanMccToSccSwitchMode,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_WLAN_MCC_TO_SCC_SWITCH_MODE_DEFAULT,
CFG_WLAN_MCC_TO_SCC_SWITCH_MODE_MIN,
CFG_WLAN_MCC_TO_SCC_SWITCH_MODE_MAX ),
REG_VARIABLE( CFG_WLAN_BAND_SWITCH_ENABLE , WLAN_PARAM_Integer,
hdd_config_t, wlan_band_switch_enable,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_WLAN_BAND_SWITCH_ENABLE_DEFAULT,
CFG_WLAN_BAND_SWITCH_ENABLE_MIN,
CFG_WLAN_BAND_SWITCH_ENABLE_MAX ),
REG_VARIABLE( CFG_WLAN_AP_P2PGO_CONC_ENABLE , WLAN_PARAM_Integer,
hdd_config_t, wlan_ap_p2pgo_conc_enable,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_WLAN_AP_P2PGO_CONC_ENABLE_DEFAULT,
CFG_WLAN_AP_P2PGO_CONC_ENABLE_MIN,
CFG_WLAN_AP_P2PGO_CONC_ENABLE_MAX ),
REG_VARIABLE( CFG_WLAN_AP_P2PGC_CONC_ENABLE , WLAN_PARAM_Integer,
hdd_config_t, wlan_ap_p2pclient_conc_enable,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_WLAN_AP_P2PGC_CONC_ENABLE_DEFAULT,
CFG_WLAN_AP_P2PGC_CONC_ENABLE_MIN,
CFG_WLAN_AP_P2PGC_CONC_ENABLE_MAX ),
#endif
#ifdef FEATURE_WLAN_AUTO_SHUTDOWN
REG_VARIABLE( CFG_WLAN_AUTO_SHUTDOWN , WLAN_PARAM_Integer,
hdd_config_t, WlanAutoShutdown,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_WLAN_AUTO_SHUTDOWN_DEFAULT,
CFG_WLAN_AUTO_SHUTDOWN_MIN,
CFG_WLAN_AUTO_SHUTDOWN_MAX ),
#endif
#if defined WLAN_FEATURE_VOWIFI
REG_VARIABLE( CFG_RRM_ENABLE_NAME, WLAN_PARAM_Integer,
hdd_config_t, fRrmEnable,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_RRM_ENABLE_DEFAULT,
CFG_RRM_ENABLE_MIN,
CFG_RRM_ENABLE_MAX ),
REG_VARIABLE( CFG_RRM_OPERATING_CHAN_MAX_DURATION_NAME, WLAN_PARAM_Integer,
hdd_config_t, nInChanMeasMaxDuration,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_RRM_OPERATING_CHAN_MAX_DURATION_DEFAULT,
CFG_RRM_OPERATING_CHAN_MAX_DURATION_MIN,
CFG_RRM_OPERATING_CHAN_MAX_DURATION_MAX ),
REG_VARIABLE( CFG_RRM_NON_OPERATING_CHAN_MAX_DURATION_NAME, WLAN_PARAM_Integer,
hdd_config_t, nOutChanMeasMaxDuration,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_RRM_NON_OPERATING_CHAN_MAX_DURATION_DEFAULT,
CFG_RRM_NON_OPERATING_CHAN_MAX_DURATION_MIN,
CFG_RRM_NON_OPERATING_CHAN_MAX_DURATION_MAX ),
REG_VARIABLE( CFG_RRM_MEAS_RANDOMIZATION_INTVL_NAME, WLAN_PARAM_Integer,
hdd_config_t, nRrmRandnIntvl,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_RRM_MEAS_RANDOMIZATION_INTVL_DEFAULT,
CFG_RRM_MEAS_RANDOMIZATION_INTVL_MIN,
CFG_RRM_MEAS_RANDOMIZATION_INTVL_MAX ),
REG_VARIABLE_STRING(CFG_RM_CAPABILITY_NAME, WLAN_PARAM_String,
hdd_config_t, rm_capability, VAR_FLAGS_OPTIONAL,
(void *) CFG_RM_CAPABILITY_DEFAULT),
#endif
#ifdef WLAN_FEATURE_VOWIFI_11R
REG_VARIABLE( CFG_FT_RESOURCE_REQ_NAME, WLAN_PARAM_Integer,
hdd_config_t, fFTResourceReqSupported,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_FT_RESOURCE_REQ_DEFAULT,
CFG_FT_RESOURCE_REQ_MIN,
CFG_FT_RESOURCE_REQ_MAX ),
#endif
#ifdef WLAN_FEATURE_NEIGHBOR_ROAMING
REG_DYNAMIC_VARIABLE( CFG_NEIGHBOR_SCAN_TIMER_PERIOD_NAME, WLAN_PARAM_Integer,
hdd_config_t, nNeighborScanPeriod,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_NEIGHBOR_SCAN_TIMER_PERIOD_DEFAULT,
CFG_NEIGHBOR_SCAN_TIMER_PERIOD_MIN,
CFG_NEIGHBOR_SCAN_TIMER_PERIOD_MAX,
cbNotifySetNeighborScanPeriod, 0 ),
REG_VARIABLE( CFG_NEIGHBOR_REASSOC_RSSI_THRESHOLD_NAME, WLAN_PARAM_Integer,
hdd_config_t, nNeighborReassocRssiThreshold,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_NEIGHBOR_REASSOC_RSSI_THRESHOLD_DEFAULT,
CFG_NEIGHBOR_REASSOC_RSSI_THRESHOLD_MIN,
CFG_NEIGHBOR_REASSOC_RSSI_THRESHOLD_MAX ),
REG_DYNAMIC_VARIABLE( CFG_NEIGHBOR_LOOKUP_RSSI_THRESHOLD_NAME, WLAN_PARAM_Integer,
hdd_config_t, nNeighborLookupRssiThreshold,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_NEIGHBOR_LOOKUP_RSSI_THRESHOLD_DEFAULT,
CFG_NEIGHBOR_LOOKUP_RSSI_THRESHOLD_MIN,
CFG_NEIGHBOR_LOOKUP_RSSI_THRESHOLD_MAX,
cbNotifySetNeighborLookupRssiThreshold, 0 ),
REG_DYNAMIC_VARIABLE( CFG_OPPORTUNISTIC_SCAN_THRESHOLD_DIFF_NAME, WLAN_PARAM_Integer,
hdd_config_t, nOpportunisticThresholdDiff,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_OPPORTUNISTIC_SCAN_THRESHOLD_DIFF_DEFAULT,
CFG_OPPORTUNISTIC_SCAN_THRESHOLD_DIFF_MIN,
CFG_OPPORTUNISTIC_SCAN_THRESHOLD_DIFF_MAX,
cbNotifySetOpportunisticScanThresholdDiff, 0 ),
REG_DYNAMIC_VARIABLE( CFG_ROAM_RESCAN_RSSI_DIFF_NAME, WLAN_PARAM_Integer,
hdd_config_t, nRoamRescanRssiDiff,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_ROAM_RESCAN_RSSI_DIFF_DEFAULT,
CFG_ROAM_RESCAN_RSSI_DIFF_MIN,
CFG_ROAM_RESCAN_RSSI_DIFF_MAX,
cbNotifySetRoamRescanRssiDiff, 0 ),
REG_VARIABLE_STRING( CFG_NEIGHBOR_SCAN_CHAN_LIST_NAME, WLAN_PARAM_String,
hdd_config_t, neighborScanChanList,
VAR_FLAGS_OPTIONAL,
(void *)CFG_NEIGHBOR_SCAN_CHAN_LIST_DEFAULT ),
REG_DYNAMIC_VARIABLE( CFG_NEIGHBOR_SCAN_MIN_CHAN_TIME_NAME, WLAN_PARAM_Integer,
hdd_config_t, nNeighborScanMinChanTime,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_NEIGHBOR_SCAN_MIN_CHAN_TIME_DEFAULT,
CFG_NEIGHBOR_SCAN_MIN_CHAN_TIME_MIN,
CFG_NEIGHBOR_SCAN_MIN_CHAN_TIME_MAX,
cbNotifySetNeighborScanMinChanTime, 0 ),
REG_DYNAMIC_VARIABLE( CFG_NEIGHBOR_SCAN_MAX_CHAN_TIME_NAME, WLAN_PARAM_Integer,
hdd_config_t, nNeighborScanMaxChanTime,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_NEIGHBOR_SCAN_MAX_CHAN_TIME_DEFAULT,
CFG_NEIGHBOR_SCAN_MAX_CHAN_TIME_MIN,
CFG_NEIGHBOR_SCAN_MAX_CHAN_TIME_MAX,
cbNotifySetNeighborScanMaxChanTime, 0 ),
REG_VARIABLE( CFG_11R_NEIGHBOR_REQ_MAX_TRIES_NAME, WLAN_PARAM_Integer,
hdd_config_t, nMaxNeighborReqTries,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_11R_NEIGHBOR_REQ_MAX_TRIES_DEFAULT,
CFG_11R_NEIGHBOR_REQ_MAX_TRIES_MIN,
CFG_11R_NEIGHBOR_REQ_MAX_TRIES_MAX),
REG_DYNAMIC_VARIABLE( CFG_NEIGHBOR_SCAN_RESULTS_REFRESH_PERIOD_NAME, WLAN_PARAM_Integer,
hdd_config_t, nNeighborResultsRefreshPeriod,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_NEIGHBOR_SCAN_RESULTS_REFRESH_PERIOD_DEFAULT,
CFG_NEIGHBOR_SCAN_RESULTS_REFRESH_PERIOD_MIN,
CFG_NEIGHBOR_SCAN_RESULTS_REFRESH_PERIOD_MAX,
cbNotifySetNeighborResultsRefreshPeriod, 0 ),
REG_DYNAMIC_VARIABLE( CFG_EMPTY_SCAN_REFRESH_PERIOD_NAME, WLAN_PARAM_Integer,
hdd_config_t, nEmptyScanRefreshPeriod,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_EMPTY_SCAN_REFRESH_PERIOD_DEFAULT,
CFG_EMPTY_SCAN_REFRESH_PERIOD_MIN,
CFG_EMPTY_SCAN_REFRESH_PERIOD_MAX,
cbNotifySetEmptyScanRefreshPeriod, 0 ),
REG_DYNAMIC_VARIABLE( CFG_ROAM_BMISS_FIRST_BCNT_NAME, WLAN_PARAM_Integer,
hdd_config_t, nRoamBmissFirstBcnt,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_ROAM_BMISS_FIRST_BCNT_DEFAULT,
CFG_ROAM_BMISS_FIRST_BCNT_MIN,
CFG_ROAM_BMISS_FIRST_BCNT_MAX,
cbNotifySetRoamBmissFirstBcnt, 0 ),
REG_DYNAMIC_VARIABLE( CFG_ROAM_BMISS_FINAL_BCNT_NAME, WLAN_PARAM_Integer,
hdd_config_t, nRoamBmissFinalBcnt,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_ROAM_BMISS_FINAL_BCNT_DEFAULT,
CFG_ROAM_BMISS_FINAL_BCNT_MIN,
CFG_ROAM_BMISS_FINAL_BCNT_MAX,
cbNotifySetRoamBmissFinalBcnt, 0 ),
REG_DYNAMIC_VARIABLE( CFG_ROAM_BEACON_RSSI_WEIGHT_NAME, WLAN_PARAM_Integer,
hdd_config_t, nRoamBeaconRssiWeight,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_ROAM_BEACON_RSSI_WEIGHT_DEFAULT,
CFG_ROAM_BEACON_RSSI_WEIGHT_MIN,
CFG_ROAM_BEACON_RSSI_WEIGHT_MAX,
cbNotifySetRoamBeaconRssiWeight, 0 ),
REG_DYNAMIC_VARIABLE( CFG_ROAMING_DFS_CHANNEL_NAME , WLAN_PARAM_Integer,
hdd_config_t, allowDFSChannelRoam,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_ROAMING_DFS_CHANNEL_DEFAULT,
CFG_ROAMING_DFS_CHANNEL_MIN,
CFG_ROAMING_DFS_CHANNEL_MAX,
cbNotifySetDFSScanMode, 0),
REG_DYNAMIC_VARIABLE( CFG_DELAY_BEFORE_VDEV_STOP_NAME, WLAN_PARAM_Integer,
hdd_config_t, delay_before_vdev_stop,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_DELAY_BEFORE_VDEV_STOP_DEFAULT,
CFG_DELAY_BEFORE_VDEV_STOP_MIN,
CFG_DELAY_BEFORE_VDEV_STOP_MAX,
cb_notify_set_delay_before_vdev_stop, 0 ),
REG_DYNAMIC_VARIABLE(CFG_ROAM_SCAN_HI_RSSI_MAXCOUNT_NAME,
WLAN_PARAM_Integer,
hdd_config_t, nhi_rssi_scan_max_count,
VAR_FLAGS_OPTIONAL |
VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_ROAM_SCAN_HI_RSSI_MAXCOUNT_DEFAULT,
CFG_ROAM_SCAN_HI_RSSI_MAXCOUNT_MIN,
CFG_ROAM_SCAN_HI_RSSI_MAXCOUNT_MAX,
cb_notify_set_roam_scan_hi_rssi_scan_params,
eCSR_HI_RSSI_SCAN_MAXCOUNT_ID),
REG_DYNAMIC_VARIABLE(CFG_ROAM_SCAN_HI_RSSI_DELTA_NAME, WLAN_PARAM_Integer,
hdd_config_t, nhi_rssi_scan_rssi_delta,
VAR_FLAGS_OPTIONAL |
VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_ROAM_SCAN_HI_RSSI_DELTA_DEFAULT,
CFG_ROAM_SCAN_HI_RSSI_DELTA_MIN,
CFG_ROAM_SCAN_HI_RSSI_DELTA_MAX,
cb_notify_set_roam_scan_hi_rssi_scan_params,
eCSR_HI_RSSI_SCAN_RSSI_DELTA_ID),
REG_DYNAMIC_VARIABLE(CFG_ROAM_SCAN_HI_RSSI_DELAY_NAME, WLAN_PARAM_Integer,
hdd_config_t, nhi_rssi_scan_delay,
VAR_FLAGS_OPTIONAL |
VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_ROAM_SCAN_HI_RSSI_DELAY_DEFAULT,
CFG_ROAM_SCAN_HI_RSSI_DELAY_MIN,
CFG_ROAM_SCAN_HI_RSSI_DELAY_MAX,
cb_notify_set_roam_scan_hi_rssi_scan_params,
eCSR_HI_RSSI_SCAN_DELAY_ID),
REG_DYNAMIC_VARIABLE(CFG_ROAM_SCAN_HI_RSSI_UB_NAME,
WLAN_PARAM_SignedInteger,
hdd_config_t, nhi_rssi_scan_rssi_ub,
VAR_FLAGS_OPTIONAL |
VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_ROAM_SCAN_HI_RSSI_UB_DEFAULT,
CFG_ROAM_SCAN_HI_RSSI_UB_MIN,
CFG_ROAM_SCAN_HI_RSSI_UB_MAX,
cb_notify_set_roam_scan_hi_rssi_scan_params,
eCSR_HI_RSSI_SCAN_RSSI_UB_ID),
#endif /* WLAN_FEATURE_NEIGHBOR_ROAMING */
REG_VARIABLE( CFG_QOS_WMM_BURST_SIZE_DEFN_NAME , WLAN_PARAM_Integer,
hdd_config_t, burstSizeDefinition,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_QOS_WMM_BURST_SIZE_DEFN_DEFAULT,
CFG_QOS_WMM_BURST_SIZE_DEFN_MIN,
CFG_QOS_WMM_BURST_SIZE_DEFN_MAX ),
REG_VARIABLE( CFG_MCAST_BCAST_FILTER_SETTING_NAME, WLAN_PARAM_Integer,
hdd_config_t, mcastBcastFilterSetting,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_MCAST_BCAST_FILTER_SETTING_DEFAULT,
CFG_MCAST_BCAST_FILTER_SETTING_MIN,
CFG_MCAST_BCAST_FILTER_SETTING_MAX ),
REG_VARIABLE( CFG_ENABLE_HOST_ARPOFFLOAD_NAME, WLAN_PARAM_Integer,
hdd_config_t, fhostArpOffload,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_ENABLE_HOST_ARPOFFLOAD_DEFAULT,
CFG_ENABLE_HOST_ARPOFFLOAD_MIN,
CFG_ENABLE_HOST_ARPOFFLOAD_MAX ),
#ifdef FEATURE_WLAN_RA_FILTERING
REG_VARIABLE( CFG_RA_FILTER_ENABLE_NAME, WLAN_PARAM_Integer,
hdd_config_t, IsRArateLimitEnabled,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_RA_FILTER_ENABLE_DEFAULT,
CFG_RA_FILTER_ENABLE_MIN,
CFG_RA_FILTER_ENABLE_MAX ),
REG_VARIABLE( CFG_RA_RATE_LIMIT_INTERVAL_NAME, WLAN_PARAM_Integer,
hdd_config_t, RArateLimitInterval,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_RA_RATE_LIMIT_INTERVAL_DEFAULT,
CFG_RA_RATE_LIMIT_INTERVAL_MIN,
CFG_RA_RATE_LIMIT_INTERVAL_MAX ),
#endif
REG_VARIABLE( CFG_ENABLE_HOST_SSDP_NAME, WLAN_PARAM_Integer,
hdd_config_t, ssdp,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_ENABLE_HOST_SSDP_DEFAULT,
CFG_ENABLE_HOST_SSDP_MIN,
CFG_ENABLE_HOST_SSDP_MAX ),
REG_VARIABLE( CFG_ENABLE_HOST_BROADCAST_NAME, WLAN_PARAM_Integer,
hdd_config_t, bcastptrn,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_ENABLE_HOST_BROADCAST_DEFAULT,
CFG_ENABLE_HOST_BROADCAST_MIN,
CFG_ENABLE_HOST_BROADCAST_MAX ),
#ifdef FEATURE_RUNTIME_PM
REG_VARIABLE( CFG_ENABLE_RUNTIME_PM, WLAN_PARAM_Integer,
hdd_config_t, runtime_pm,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_ENABLE_RUNTIME_PM_DEFAULT,
CFG_ENABLE_RUNTIME_PM_MIN,
CFG_ENABLE_RUNTIME_PM_MAX ),
REG_VARIABLE( CFG_RUNTIME_PM_AUTO_NAME, WLAN_PARAM_Integer,
hdd_config_t, runtime_pm_delay,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_RUNTIME_PM_AUTO_DEFAULT,
CFG_RUNTIME_PM_AUTO_MIN,
CFG_RUNTIME_PM_AUTO_MAX ),
#endif
#ifdef FEATURE_SECURE_FIRMWARE
REG_VARIABLE(CFG_ENABLE_FW_HASH_CHECK_NAME, WLAN_PARAM_Integer,
hdd_config_t, enable_fw_hash_check,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_ENABLE_FW_HASH_CHECK_DEFAULT,
CFG_ENABLE_FW_HASH_CHECK_MIN,
CFG_ENABLE_FW_HASH_CHECK_MAX),
#endif
REG_VARIABLE( CFG_ENABLE_HOST_NSOFFLOAD_NAME, WLAN_PARAM_Integer,
hdd_config_t, fhostNSOffload,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_ENABLE_HOST_NSOFFLOAD_DEFAULT,
CFG_ENABLE_HOST_NSOFFLOAD_MIN,
CFG_ENABLE_HOST_NSOFFLOAD_MAX ),
REG_VARIABLE( CFG_QOS_WMM_TS_INFO_ACK_POLICY_NAME , WLAN_PARAM_HexInteger,
hdd_config_t, tsInfoAckPolicy,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_QOS_WMM_TS_INFO_ACK_POLICY_DEFAULT,
CFG_QOS_WMM_TS_INFO_ACK_POLICY_MIN,
CFG_QOS_WMM_TS_INFO_ACK_POLICY_MAX ),
REG_VARIABLE( CFG_SINGLE_TID_RC_NAME, WLAN_PARAM_Integer,
hdd_config_t, bSingleTidRc,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_SINGLE_TID_RC_DEFAULT,
CFG_SINGLE_TID_RC_MIN,
CFG_SINGLE_TID_RC_MAX),
REG_VARIABLE( CFG_DYNAMIC_PSPOLL_VALUE_NAME, WLAN_PARAM_Integer,
hdd_config_t, dynamicPsPollValue,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_DYNAMIC_PSPOLL_VALUE_DEFAULT,
CFG_DYNAMIC_PSPOLL_VALUE_MIN,
CFG_DYNAMIC_PSPOLL_VALUE_MAX ),
REG_VARIABLE( CFG_TELE_BCN_WAKEUP_EN_NAME, WLAN_PARAM_Integer,
hdd_config_t, teleBcnWakeupEn,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_TELE_BCN_WAKEUP_EN_DEFAULT,
CFG_TELE_BCN_WAKEUP_EN_MIN,
CFG_TELE_BCN_WAKEUP_EN_MAX ),
REG_VARIABLE( CFG_INFRA_STA_KEEP_ALIVE_PERIOD_NAME, WLAN_PARAM_Integer,
hdd_config_t, infraStaKeepAlivePeriod,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_INFRA_STA_KEEP_ALIVE_PERIOD_DEFAULT,
CFG_INFRA_STA_KEEP_ALIVE_PERIOD_MIN,
CFG_INFRA_STA_KEEP_ALIVE_PERIOD_MAX),
REG_VARIABLE( CFG_QOS_ADDTS_WHEN_ACM_IS_OFF_NAME , WLAN_PARAM_Integer,
hdd_config_t, AddTSWhenACMIsOff,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_QOS_ADDTS_WHEN_ACM_IS_OFF_DEFAULT,
CFG_QOS_ADDTS_WHEN_ACM_IS_OFF_MIN,
CFG_QOS_ADDTS_WHEN_ACM_IS_OFF_MAX ),
REG_VARIABLE( CFG_VALIDATE_SCAN_LIST_NAME , WLAN_PARAM_Integer,
hdd_config_t, fValidateScanList,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_VALIDATE_SCAN_LIST_DEFAULT,
CFG_VALIDATE_SCAN_LIST_MIN,
CFG_VALIDATE_SCAN_LIST_MAX ),
REG_VARIABLE( CFG_NULLDATA_AP_RESP_TIMEOUT_NAME, WLAN_PARAM_Integer,
hdd_config_t, nNullDataApRespTimeout,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_NULLDATA_AP_RESP_TIMEOUT_DEFAULT,
CFG_NULLDATA_AP_RESP_TIMEOUT_MIN,
CFG_NULLDATA_AP_RESP_TIMEOUT_MAX ),
REG_VARIABLE( CFG_AP_DATA_AVAIL_POLL_PERIOD_NAME, WLAN_PARAM_Integer,
hdd_config_t, apDataAvailPollPeriodInMs,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_AP_DATA_AVAIL_POLL_PERIOD_DEFAULT,
CFG_AP_DATA_AVAIL_POLL_PERIOD_MIN,
CFG_AP_DATA_AVAIL_POLL_PERIOD_MAX ),
REG_VARIABLE( CFG_BAND_CAPABILITY_NAME, WLAN_PARAM_Integer,
hdd_config_t, nBandCapability,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_BAND_CAPABILITY_DEFAULT,
CFG_BAND_CAPABILITY_MIN,
CFG_BAND_CAPABILITY_MAX ),
REG_VARIABLE( CFG_ENABLE_BEACON_EARLY_TERMINATION_NAME, WLAN_PARAM_Integer,
hdd_config_t, fEnableBeaconEarlyTermination,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_ENABLE_BEACON_EARLY_TERMINATION_DEFAULT,
CFG_ENABLE_BEACON_EARLY_TERMINATION_MIN,
CFG_ENABLE_BEACON_EARLY_TERMINATION_MAX ),
/* CFG_VOS_TRACE_ENABLE Parameters */
REG_VARIABLE( CFG_VOS_TRACE_ENABLE_TL_NAME, WLAN_PARAM_Integer,
hdd_config_t, vosTraceEnableTL,
VAR_FLAGS_OPTIONAL,
CFG_VOS_TRACE_ENABLE_DEFAULT,
CFG_VOS_TRACE_ENABLE_MIN,
CFG_VOS_TRACE_ENABLE_MAX ),
REG_VARIABLE( CFG_VOS_TRACE_ENABLE_WDI_NAME, WLAN_PARAM_Integer,
hdd_config_t, vosTraceEnableWDI,
VAR_FLAGS_OPTIONAL,
CFG_VOS_TRACE_ENABLE_DEFAULT,
CFG_VOS_TRACE_ENABLE_MIN,
CFG_VOS_TRACE_ENABLE_MAX ),
REG_VARIABLE( CFG_VOS_TRACE_ENABLE_HDD_NAME, WLAN_PARAM_Integer,
hdd_config_t, vosTraceEnableHDD,
VAR_FLAGS_OPTIONAL,
CFG_VOS_TRACE_ENABLE_DEFAULT,
CFG_VOS_TRACE_ENABLE_MIN,
CFG_VOS_TRACE_ENABLE_MAX ),
REG_VARIABLE( CFG_VOS_TRACE_ENABLE_SME_NAME, WLAN_PARAM_Integer,
hdd_config_t, vosTraceEnableSME,
VAR_FLAGS_OPTIONAL,
CFG_VOS_TRACE_ENABLE_DEFAULT,
CFG_VOS_TRACE_ENABLE_MIN,
CFG_VOS_TRACE_ENABLE_MAX ),
REG_VARIABLE( CFG_VOS_TRACE_ENABLE_PE_NAME, WLAN_PARAM_Integer,
hdd_config_t, vosTraceEnablePE,
VAR_FLAGS_OPTIONAL,
CFG_VOS_TRACE_ENABLE_DEFAULT,
CFG_VOS_TRACE_ENABLE_MIN,
CFG_VOS_TRACE_ENABLE_MAX ),
REG_VARIABLE( CFG_VOS_TRACE_ENABLE_PMC_NAME, WLAN_PARAM_Integer,
hdd_config_t, vosTraceEnablePMC,
VAR_FLAGS_OPTIONAL,
CFG_VOS_TRACE_ENABLE_DEFAULT,
CFG_VOS_TRACE_ENABLE_MIN,
CFG_VOS_TRACE_ENABLE_MAX ),
REG_VARIABLE( CFG_VOS_TRACE_ENABLE_WDA_NAME, WLAN_PARAM_Integer,
hdd_config_t, vosTraceEnableWDA,
VAR_FLAGS_OPTIONAL,
CFG_VOS_TRACE_ENABLE_DEFAULT,
CFG_VOS_TRACE_ENABLE_MIN,
CFG_VOS_TRACE_ENABLE_MAX ),
REG_VARIABLE( CFG_VOS_TRACE_ENABLE_SYS_NAME, WLAN_PARAM_Integer,
hdd_config_t, vosTraceEnableSYS,
VAR_FLAGS_OPTIONAL,
CFG_VOS_TRACE_ENABLE_DEFAULT,
CFG_VOS_TRACE_ENABLE_MIN,
CFG_VOS_TRACE_ENABLE_MAX ),
REG_VARIABLE( CFG_VOS_TRACE_ENABLE_VOSS_NAME, WLAN_PARAM_Integer,
hdd_config_t, vosTraceEnableVOSS,
VAR_FLAGS_OPTIONAL,
CFG_VOS_TRACE_ENABLE_DEFAULT,
CFG_VOS_TRACE_ENABLE_MIN,
CFG_VOS_TRACE_ENABLE_MAX ),
REG_VARIABLE( CFG_VOS_TRACE_ENABLE_SAP_NAME, WLAN_PARAM_Integer,
hdd_config_t, vosTraceEnableSAP,
VAR_FLAGS_OPTIONAL,
CFG_VOS_TRACE_ENABLE_DEFAULT,
CFG_VOS_TRACE_ENABLE_MIN,
CFG_VOS_TRACE_ENABLE_MAX ),
REG_VARIABLE( CFG_VOS_TRACE_ENABLE_HDD_SAP_NAME, WLAN_PARAM_Integer,
hdd_config_t, vosTraceEnableHDDSAP,
VAR_FLAGS_OPTIONAL,
CFG_VOS_TRACE_ENABLE_DEFAULT,
CFG_VOS_TRACE_ENABLE_MIN,
CFG_VOS_TRACE_ENABLE_MAX ),
REG_VARIABLE(CFG_VOS_TRACE_ENABLE_CFG_NAME, WLAN_PARAM_Integer,
hdd_config_t, vosTraceEnableCFG,
VAR_FLAGS_OPTIONAL,
CFG_VOS_TRACE_ENABLE_DEFAULT,
CFG_VOS_TRACE_ENABLE_MIN,
CFG_VOS_TRACE_ENABLE_MAX),
REG_VARIABLE(CFG_VOS_TRACE_ENABLE_ADF_NAME, WLAN_PARAM_Integer,
hdd_config_t, vosTraceEnableADF,
VAR_FLAGS_OPTIONAL,
CFG_VOS_TRACE_ENABLE_DEFAULT,
CFG_VOS_TRACE_ENABLE_MIN,
CFG_VOS_TRACE_ENABLE_MAX),
REG_VARIABLE(CFG_VOS_TRACE_ENABLE_TXRX_NAME, WLAN_PARAM_Integer,
hdd_config_t, vosTraceEnableTXRX,
VAR_FLAGS_OPTIONAL,
CFG_VOS_TRACE_ENABLE_DEFAULT,
CFG_VOS_TRACE_ENABLE_MIN,
CFG_VOS_TRACE_ENABLE_MAX),
REG_VARIABLE(CFG_VOS_TRACE_ENABLE_HTC_NAME, WLAN_PARAM_Integer,
hdd_config_t, vosTraceEnableHTC,
VAR_FLAGS_OPTIONAL,
CFG_VOS_TRACE_ENABLE_DEFAULT,
CFG_VOS_TRACE_ENABLE_MIN,
CFG_VOS_TRACE_ENABLE_MAX),
REG_VARIABLE(CFG_VOS_TRACE_ENABLE_HIF_NAME , WLAN_PARAM_Integer,
hdd_config_t, vosTraceEnableHIF,
VAR_FLAGS_OPTIONAL,
CFG_VOS_TRACE_ENABLE_DEFAULT,
CFG_VOS_TRACE_ENABLE_MIN,
CFG_VOS_TRACE_ENABLE_MAX),
REG_VARIABLE(CFG_VOS_TRACE_ENABLE_HDD_SAP_DATA_NAME, WLAN_PARAM_Integer,
hdd_config_t, vosTraceEnableHDDSAPDATA,
VAR_FLAGS_OPTIONAL,
CFG_VOS_TRACE_ENABLE_DEFAULT,
CFG_VOS_TRACE_ENABLE_MIN,
CFG_VOS_TRACE_ENABLE_MAX),
REG_VARIABLE(CFG_VOS_TRACE_ENABLE_HDD_DATA_NAME, WLAN_PARAM_Integer,
hdd_config_t, vosTraceEnableHDDDATA,
VAR_FLAGS_OPTIONAL,
CFG_VOS_TRACE_ENABLE_DEFAULT,
CFG_VOS_TRACE_ENABLE_MIN,
CFG_VOS_TRACE_ENABLE_MAX),
REG_VARIABLE( CFG_TELE_BCN_TRANS_LI_NAME, WLAN_PARAM_Integer,
hdd_config_t, nTeleBcnTransListenInterval,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_TELE_BCN_TRANS_LI_DEFAULT,
CFG_TELE_BCN_TRANS_LI_MIN,
CFG_TELE_BCN_TRANS_LI_MAX ),
REG_VARIABLE( CFG_TELE_BCN_TRANS_LI_NUM_IDLE_BCNS_NAME, WLAN_PARAM_Integer,
hdd_config_t, nTeleBcnTransLiNumIdleBeacons,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_TELE_BCN_TRANS_LI_NUM_IDLE_BCNS_DEFAULT,
CFG_TELE_BCN_TRANS_LI_NUM_IDLE_BCNS_MIN,
CFG_TELE_BCN_TRANS_LI_NUM_IDLE_BCNS_MAX ),
REG_VARIABLE( CFG_TELE_BCN_MAX_LI_NAME, WLAN_PARAM_Integer,
hdd_config_t, nTeleBcnMaxListenInterval,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_TELE_BCN_MAX_LI_DEFAULT,
CFG_TELE_BCN_MAX_LI_MIN,
CFG_TELE_BCN_MAX_LI_MAX ),
REG_VARIABLE( CFG_TELE_BCN_MAX_LI_NUM_IDLE_BCNS_NAME, WLAN_PARAM_Integer,
hdd_config_t, nTeleBcnMaxLiNumIdleBeacons,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_TELE_BCN_MAX_LI_NUM_IDLE_BCNS_DEFAULT,
CFG_TELE_BCN_MAX_LI_NUM_IDLE_BCNS_MIN,
CFG_TELE_BCN_MAX_LI_NUM_IDLE_BCNS_MAX ),
REG_VARIABLE( CFG_BCN_EARLY_TERM_WAKE_NAME, WLAN_PARAM_Integer,
hdd_config_t, bcnEarlyTermWakeInterval,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_BCN_EARLY_TERM_WAKE_DEFAULT,
CFG_BCN_EARLY_TERM_WAKE_MIN,
CFG_BCN_EARLY_TERM_WAKE_MAX ),
REG_VARIABLE( CFG_ENABLE_BYPASS_11D_NAME, WLAN_PARAM_Integer,
hdd_config_t, enableBypass11d,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_ENABLE_BYPASS_11D_DEFAULT,
CFG_ENABLE_BYPASS_11D_MIN,
CFG_ENABLE_BYPASS_11D_MAX ),
REG_VARIABLE( CFG_ENABLE_DFS_CHNL_SCAN_NAME, WLAN_PARAM_Integer,
hdd_config_t, enableDFSChnlScan,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_ENABLE_DFS_CHNL_SCAN_DEFAULT,
CFG_ENABLE_DFS_CHNL_SCAN_MIN,
CFG_ENABLE_DFS_CHNL_SCAN_MAX ),
REG_VARIABLE( CFG_ENABLE_DFS_PNO_CHNL_SCAN_NAME, WLAN_PARAM_Integer,
hdd_config_t, enable_dfs_pno_chnl_scan,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_ENABLE_DFS_PNO_CHNL_SCAN_DEFAULT,
CFG_ENABLE_DFS_PNO_CHNL_SCAN_MIN,
CFG_ENABLE_DFS_PNO_CHNL_SCAN_MAX ),
REG_VARIABLE( CFG_ENABLE_DYNAMIC_DTIM_NAME, WLAN_PARAM_Integer,
hdd_config_t, enableDynamicDTIM,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_ENABLE_DYNAMIC_DTIM_DEFAULT,
CFG_ENABLE_DYNAMIC_DTIM_MIN,
CFG_ENABLE_DYNAMIC_DTIM_MAX ),
REG_VARIABLE( CFG_SHORT_GI_40MHZ_NAME, WLAN_PARAM_Integer,
hdd_config_t, ShortGI40MhzEnable,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_SHORT_GI_40MHZ_DEFAULT,
CFG_SHORT_GI_40MHZ_MIN,
CFG_SHORT_GI_40MHZ_MAX ),
REG_DYNAMIC_VARIABLE( CFG_REPORT_MAX_LINK_SPEED, WLAN_PARAM_Integer,
hdd_config_t, reportMaxLinkSpeed,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_REPORT_MAX_LINK_SPEED_DEFAULT,
CFG_REPORT_MAX_LINK_SPEED_MIN,
CFG_REPORT_MAX_LINK_SPEED_MAX,
NULL, 0 ),
REG_DYNAMIC_VARIABLE( CFG_LINK_SPEED_RSSI_HIGH, WLAN_PARAM_SignedInteger,
hdd_config_t, linkSpeedRssiHigh,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_LINK_SPEED_RSSI_HIGH_DEFAULT,
CFG_LINK_SPEED_RSSI_HIGH_MIN,
CFG_LINK_SPEED_RSSI_HIGH_MAX,
NULL, 0 ),
REG_DYNAMIC_VARIABLE( CFG_LINK_SPEED_RSSI_MID, WLAN_PARAM_SignedInteger,
hdd_config_t, linkSpeedRssiMid,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_LINK_SPEED_RSSI_MID_DEFAULT,
CFG_LINK_SPEED_RSSI_MID_MIN,
CFG_LINK_SPEED_RSSI_MID_MAX,
NULL, 0 ),
REG_DYNAMIC_VARIABLE( CFG_LINK_SPEED_RSSI_LOW, WLAN_PARAM_SignedInteger,
hdd_config_t, linkSpeedRssiLow,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_LINK_SPEED_RSSI_LOW_DEFAULT,
CFG_LINK_SPEED_RSSI_LOW_MIN,
CFG_LINK_SPEED_RSSI_LOW_MAX,
NULL, 0 ),
#if defined (WLAN_FEATURE_VOWIFI_11R) || defined (FEATURE_WLAN_ESE) || defined(FEATURE_WLAN_LFR)
REG_DYNAMIC_VARIABLE( CFG_ROAM_PREFER_5GHZ, WLAN_PARAM_Integer,
hdd_config_t, nRoamPrefer5GHz,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_ROAM_PREFER_5GHZ_DEFAULT,
CFG_ROAM_PREFER_5GHZ_MIN,
CFG_ROAM_PREFER_5GHZ_MAX,
cbNotifySetRoamPrefer5GHz, 0 ),
REG_DYNAMIC_VARIABLE( CFG_ROAM_INTRA_BAND, WLAN_PARAM_Integer,
hdd_config_t, nRoamIntraBand,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_ROAM_INTRA_BAND_DEFAULT,
CFG_ROAM_INTRA_BAND_MIN,
CFG_ROAM_INTRA_BAND_MAX,
cbNotifySetRoamIntraBand, 0 ),
REG_DYNAMIC_VARIABLE( CFG_ROAM_SCAN_N_PROBES, WLAN_PARAM_Integer,
hdd_config_t, nProbes,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_ROAM_SCAN_N_PROBES_DEFAULT,
CFG_ROAM_SCAN_N_PROBES_MIN,
CFG_ROAM_SCAN_N_PROBES_MAX,
cbNotifySetRoamScanNProbes, 0 ),
REG_DYNAMIC_VARIABLE( CFG_ROAM_SCAN_HOME_AWAY_TIME, WLAN_PARAM_Integer,
hdd_config_t, nRoamScanHomeAwayTime,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_ROAM_SCAN_HOME_AWAY_TIME_DEFAULT,
CFG_ROAM_SCAN_HOME_AWAY_TIME_MIN,
CFG_ROAM_SCAN_HOME_AWAY_TIME_MAX,
cbNotifySetRoamScanHomeAwayTime, 0 ),
#endif
REG_VARIABLE( CFG_P2P_DEVICE_ADDRESS_ADMINISTRATED_NAME, WLAN_PARAM_Integer,
hdd_config_t, isP2pDeviceAddrAdministrated,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_P2P_DEVICE_ADDRESS_ADMINISTRATED_DEFAULT,
CFG_P2P_DEVICE_ADDRESS_ADMINISTRATED_MIN,
CFG_P2P_DEVICE_ADDRESS_ADMINISTRATED_MAX ),
REG_VARIABLE( CFG_ENABLE_MCC_ENABLED_NAME, WLAN_PARAM_Integer,
hdd_config_t, enableMCC,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_ENABLE_MCC_ENABLED_DEFAULT,
CFG_ENABLE_MCC_ENABLED_MIN,
CFG_ENABLE_MCC_ENABLED_MAX ),
REG_VARIABLE( CFG_ALLOW_MCC_GO_DIFF_BI_NAME, WLAN_PARAM_Integer,
hdd_config_t, allowMCCGODiffBI,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_ALLOW_MCC_GO_DIFF_BI_DEFAULT,
CFG_ALLOW_MCC_GO_DIFF_BI_MIN,
CFG_ALLOW_MCC_GO_DIFF_BI_MAX ),
REG_VARIABLE( CFG_THERMAL_MIGRATION_ENABLE_NAME, WLAN_PARAM_Integer,
hdd_config_t, thermalMitigationEnable,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_THERMAL_MIGRATION_ENABLE_DEFAULT,
CFG_THERMAL_MIGRATION_ENABLE_MIN,
CFG_THERMAL_MIGRATION_ENABLE_MAX ),
REG_VARIABLE( CFG_THROTTLE_PERIOD_NAME, WLAN_PARAM_Integer,
hdd_config_t, throttlePeriod,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_THROTTLE_PERIOD_DEFAULT,
CFG_THROTTLE_PERIOD_MIN,
CFG_THROTTLE_PERIOD_MAX ),
REG_VARIABLE( CFG_THROTTLE_DUTY_CYCLE_LEVEL0_NAME, WLAN_PARAM_Integer,
hdd_config_t, throttle_dutycycle_level0,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_THROTTLE_DUTY_CYCLE_LEVEL0_DEFAULT,
CFG_THROTTLE_DUTY_CYCLE_LEVEL0_MIN,
CFG_THROTTLE_DUTY_CYCLE_LEVEL0_MAX ),
REG_VARIABLE( CFG_THROTTLE_DUTY_CYCLE_LEVEL1_NAME, WLAN_PARAM_Integer,
hdd_config_t, throttle_dutycycle_level1,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_THROTTLE_DUTY_CYCLE_LEVEL1_DEFAULT,
CFG_THROTTLE_DUTY_CYCLE_LEVEL1_MIN,
CFG_THROTTLE_DUTY_CYCLE_LEVEL1_MAX ),
REG_VARIABLE( CFG_THROTTLE_DUTY_CYCLE_LEVEL2_NAME, WLAN_PARAM_Integer,
hdd_config_t, throttle_dutycycle_level2,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_THROTTLE_DUTY_CYCLE_LEVEL2_DEFAULT,
CFG_THROTTLE_DUTY_CYCLE_LEVEL2_MIN,
CFG_THROTTLE_DUTY_CYCLE_LEVEL2_MAX ),
REG_VARIABLE( CFG_THROTTLE_DUTY_CYCLE_LEVEL3_NAME, WLAN_PARAM_Integer,
hdd_config_t, throttle_dutycycle_level3,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_THROTTLE_DUTY_CYCLE_LEVEL3_DEFAULT,
CFG_THROTTLE_DUTY_CYCLE_LEVEL3_MIN,
CFG_THROTTLE_DUTY_CYCLE_LEVEL3_MAX ),
REG_VARIABLE( CFG_ENABLE_MODULATED_DTIM_NAME, WLAN_PARAM_Integer,
hdd_config_t, enableModulatedDTIM,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_ENABLE_MODULATED_DTIM_DEFAULT,
CFG_ENABLE_MODULATED_DTIM_MIN,
CFG_ENABLE_MODULATED_DTIM_MAX ),
REG_VARIABLE( CFG_MC_ADDR_LIST_ENABLE_NAME, WLAN_PARAM_Integer,
hdd_config_t, fEnableMCAddrList,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_MC_ADDR_LIST_ENABLE_DEFAULT,
CFG_MC_ADDR_LIST_ENABLE_MIN,
CFG_MC_ADDR_LIST_ENABLE_MAX ),
#ifdef WLAN_FEATURE_11AC
REG_VARIABLE( CFG_VHT_CHANNEL_WIDTH, WLAN_PARAM_Integer,
hdd_config_t, vhtChannelWidth,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK,
CFG_VHT_CHANNEL_WIDTH_DEFAULT,
CFG_VHT_CHANNEL_WIDTH_MIN,
CFG_VHT_CHANNEL_WIDTH_MAX),
REG_VARIABLE( CFG_VHT_ENABLE_RX_MCS_8_9, WLAN_PARAM_Integer,
hdd_config_t, vhtRxMCS,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK,
CFG_VHT_ENABLE_RX_MCS_8_9_DEFAULT,
CFG_VHT_ENABLE_RX_MCS_8_9_MIN,
CFG_VHT_ENABLE_RX_MCS_8_9_MAX),
REG_VARIABLE( CFG_VHT_ENABLE_TX_MCS_8_9, WLAN_PARAM_Integer,
hdd_config_t, vhtTxMCS,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK,
CFG_VHT_ENABLE_TX_MCS_8_9_DEFAULT,
CFG_VHT_ENABLE_TX_MCS_8_9_MIN,
CFG_VHT_ENABLE_TX_MCS_8_9_MAX),
REG_VARIABLE( CFG_VHT_ENABLE_RX_MCS2x2_8_9, WLAN_PARAM_Integer,
hdd_config_t, vhtRxMCS2x2,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK,
CFG_VHT_ENABLE_RX_MCS2x2_8_9_DEFAULT,
CFG_VHT_ENABLE_RX_MCS2x2_8_9_MIN,
CFG_VHT_ENABLE_RX_MCS2x2_8_9_MAX),
REG_VARIABLE( CFG_VHT_ENABLE_TX_MCS2x2_8_9, WLAN_PARAM_Integer,
hdd_config_t, vhtTxMCS2x2,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK,
CFG_VHT_ENABLE_TX_MCS2x2_8_9_DEFAULT,
CFG_VHT_ENABLE_TX_MCS2x2_8_9_MIN,
CFG_VHT_ENABLE_TX_MCS2x2_8_9_MAX),
REG_VARIABLE( CFG_VHT_ENABLE_2x2_CAP_FEATURE, WLAN_PARAM_Integer,
hdd_config_t, enable2x2,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_VHT_ENABLE_2x2_CAP_FEATURE_DEFAULT,
CFG_VHT_ENABLE_2x2_CAP_FEATURE_MIN,
CFG_VHT_ENABLE_2x2_CAP_FEATURE_MAX ),
REG_VARIABLE(CFG_ENABLE_VHT_DYNAMIC_STA_CHAINMASK, WLAN_PARAM_Integer,
hdd_config_t, enable_dynamic_sta_chainmask,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_ENABLE_VHT_DYNAMIC_STA_CHAINMASK_DEFAULT,
CFG_ENABLE_VHT_DYNAMIC_STA_CHAINMASK_MIN,
CFG_ENABLE_VHT_DYNAMIC_STA_CHAINMASK_MAX),
REG_VARIABLE( CFG_RX_CHAIN_MASK_2G, WLAN_PARAM_Integer,
hdd_config_t, chain_mask_2g_rx,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_RX_CHAIN_MASK_2G_DEFAULT,
CFG_RX_CHAIN_MASK_2G_MIN,
CFG_RX_CHAIN_MASK_2G_MAX ),
REG_VARIABLE( CFG_RX_CHAIN_MASK_5G, WLAN_PARAM_Integer,
hdd_config_t, chain_mask_5g_rx,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_RX_CHAIN_MASK_5G_DEFAULT,
CFG_RX_CHAIN_MASK_5G_MIN,
CFG_RX_CHAIN_MASK_5G_MAX ),
REG_VARIABLE( CFG_TX_CHAIN_MASK_2G, WLAN_PARAM_Integer,
hdd_config_t, chain_mask_2g_tx,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_TX_CHAIN_MASK_2G_DEFAULT,
CFG_TX_CHAIN_MASK_2G_MIN,
CFG_TX_CHAIN_MASK_2G_MAX ),
REG_VARIABLE( CFG_TX_CHAIN_MASK_5G, WLAN_PARAM_Integer,
hdd_config_t, chain_mask_5g_tx,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_TX_CHAIN_MASK_5G_DEFAULT,
CFG_TX_CHAIN_MASK_5G_MIN,
CFG_TX_CHAIN_MASK_5G_MAX ),
REG_VARIABLE( CFG_VDEV_TYPE_NSS_2G, WLAN_PARAM_Integer,
hdd_config_t, vdev_type_nss_2g,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_VDEV_TYPE_NSS_2G_DEFAULT,
CFG_VDEV_TYPE_NSS_2G_MIN,
CFG_VDEV_TYPE_NSS_2G_MAX ),
REG_VARIABLE( CFG_VDEV_TYPE_NSS_5G, WLAN_PARAM_Integer,
hdd_config_t, vdev_type_nss_5g,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_VDEV_TYPE_NSS_5G_DEFAULT,
CFG_VDEV_TYPE_NSS_5G_MIN,
CFG_VDEV_TYPE_NSS_5G_MAX ),
REG_VARIABLE( CFG_VHT_ENABLE_MU_BFORMEE_CAP_FEATURE, WLAN_PARAM_Integer,
hdd_config_t, enableMuBformee,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_VHT_ENABLE_MU_BFORMEE_CAP_FEATURE_DEFAULT,
CFG_VHT_ENABLE_MU_BFORMEE_CAP_FEATURE_MIN,
CFG_VHT_ENABLE_MU_BFORMEE_CAP_FEATURE_MAX ),
REG_VARIABLE( CFG_VHT_ENABLE_PAID_FEATURE, WLAN_PARAM_Integer,
hdd_config_t, enableVhtpAid,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_VHT_ENABLE_PAID_FEATURE_DEFAULT,
CFG_VHT_ENABLE_PAID_FEATURE_MIN,
CFG_VHT_ENABLE_PAID_FEATURE_MAX ),
REG_VARIABLE( CFG_VHT_ENABLE_GID_FEATURE, WLAN_PARAM_Integer,
hdd_config_t, enableVhtGid,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_VHT_ENABLE_GID_FEATURE_DEFAULT,
CFG_VHT_ENABLE_GID_FEATURE_MIN,
CFG_VHT_ENABLE_GID_FEATURE_MAX ),
#endif
REG_VARIABLE( CFG_VHT_ENABLE_1x1_TX_CHAINMASK, WLAN_PARAM_Integer,
hdd_config_t, txchainmask1x1,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_VHT_ENABLE_1x1_TX_CHAINMASK_DEFAULT,
CFG_VHT_ENABLE_1x1_TX_CHAINMASK_MIN,
CFG_VHT_ENABLE_1x1_TX_CHAINMASK_MAX ),
REG_VARIABLE( CFG_VHT_ENABLE_1x1_RX_CHAINMASK, WLAN_PARAM_Integer,
hdd_config_t, rxchainmask1x1,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_VHT_ENABLE_1x1_RX_CHAINMASK_DEFAULT,
CFG_VHT_ENABLE_1x1_RX_CHAINMASK_MIN,
CFG_VHT_ENABLE_1x1_RX_CHAINMASK_MAX ),
REG_VARIABLE( CFG_ENABLE_AMPDUPS_FEATURE, WLAN_PARAM_Integer,
hdd_config_t, enableAmpduPs,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_ENABLE_AMPDUPS_FEATURE_DEFAULT,
CFG_ENABLE_AMPDUPS_FEATURE_MIN,
CFG_ENABLE_AMPDUPS_FEATURE_MAX ),
REG_VARIABLE( CFG_HT_ENABLE_SMPS_CAP_FEATURE, WLAN_PARAM_Integer,
hdd_config_t, enableHtSmps,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_HT_ENABLE_SMPS_CAP_FEATURE_DEFAULT,
CFG_HT_ENABLE_SMPS_CAP_FEATURE_MIN,
CFG_HT_ENABLE_SMPS_CAP_FEATURE_MAX ),
REG_VARIABLE( CFG_HT_SMPS_CAP_FEATURE, WLAN_PARAM_Integer,
hdd_config_t, htSmps,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_HT_SMPS_CAP_FEATURE_DEFAULT,
CFG_HT_SMPS_CAP_FEATURE_MIN,
CFG_HT_SMPS_CAP_FEATURE_MAX ),
REG_VARIABLE( CFG_DISABLE_DFS_CH_SWITCH, WLAN_PARAM_Integer,
hdd_config_t, disableDFSChSwitch,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_DISABLE_DFS_CH_SWITCH_DEFAULT,
CFG_DISABLE_DFS_CH_SWITCH_MIN,
CFG_DISABLE_DFS_CH_SWITCH_MAX ),
REG_VARIABLE( CFG_ENABLE_RADAR_WAR, WLAN_PARAM_Integer,
hdd_config_t, enable_radar_war,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_ENABLE_RADAR_WAR_DEFAULT,
CFG_ENABLE_RADAR_WAR_MIN,
CFG_ENABLE_RADAR_WAR_MAX ),
REG_VARIABLE( CFG_ENABLE_DFS_MASTER_CAPABILITY, WLAN_PARAM_Integer,
hdd_config_t, enableDFSMasterCap,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_ENABLE_DFS_MASTER_CAPABILITY_DEFAULT,
CFG_ENABLE_DFS_MASTER_CAPABILITY_MIN,
CFG_ENABLE_DFS_MASTER_CAPABILITY_MAX ),
REG_DYNAMIC_VARIABLE( CFG_SAP_PREFERRED_CHANNEL_LOCATION, WLAN_PARAM_Integer,
hdd_config_t, gSapPreferredChanLocation,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_SAP_PREFERRED_CHANNEL_LOCATION_DEFAULT,
CFG_SAP_PREFERRED_CHANNEL_LOCATION_MIN,
CFG_SAP_PREFERRED_CHANNEL_LOCATION_MAX,
cbNotify_set_gSapPreferredChanLocation, 0),
REG_DYNAMIC_VARIABLE( CFG_DISABLE_DFS_JAPAN_W53, WLAN_PARAM_Integer,
hdd_config_t, gDisableDfsJapanW53,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_DISABLE_DFS_JAPAN_W53_DEFAULT,
CFG_DISABLE_DFS_JAPAN_W53_MIN,
CFG_DISABLE_DFS_JAPAN_W53_MAX,
chNotify_set_gDisableDfsJapanW53, 0),
REG_VARIABLE(CFG_SET_RTS_FOR_SIFS_BURSTING, WLAN_PARAM_Integer,
hdd_config_t, enable_rts_sifsbursting,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_SET_RTS_FOR_SIFS_BURSTING_DEFAULT,
CFG_SET_RTS_FOR_SIFS_BURSTING_MIN,
CFG_SET_RTS_FOR_SIFS_BURSTING_MAX),
REG_VARIABLE(CFG_MAX_MPDUS_IN_AMPDU, WLAN_PARAM_Integer,
hdd_config_t, max_mpdus_inampdu,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_MAX_MPDUS_IN_AMPDU_DEFAULT,
CFG_MAX_MPDUS_IN_AMPDU_MIN,
CFG_MAX_MPDUS_IN_AMPDU_MAX),
REG_VARIABLE(CFG_MAX_HT_MCS_FOR_TX_DATA, WLAN_PARAM_HexInteger,
hdd_config_t, max_ht_mcs_txdata,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_MAX_HT_MCS_FOR_TX_DATA_DEFAULT,
CFG_MAX_HT_MCS_FOR_TX_DATA_MIN,
CFG_MAX_HT_MCS_FOR_TX_DATA_MAX),
REG_VARIABLE(CFG_SAP_GET_PEER_INFO, WLAN_PARAM_Integer,
hdd_config_t, sap_get_peer_info,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_SAP_GET_PEER_INFO_DEFAULT,
CFG_SAP_GET_PEER_INFO_MIN,
CFG_SAP_GET_PEER_INFO_MAX),
REG_VARIABLE(CFG_DISABLE_ABG_RATE_FOR_TX_DATA, WLAN_PARAM_Integer,
hdd_config_t, disable_abg_rate_txdata,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_DISABLE_ABG_RATE_FOR_TX_DATA_DEFAULT,
CFG_DISABLE_ABG_RATE_FOR_TX_DATA_MIN,
CFG_DISABLE_ABG_RATE_FOR_TX_DATA_MAX),
REG_VARIABLE(CFG_RATE_FOR_TX_MGMT, WLAN_PARAM_HexInteger,
hdd_config_t, rate_for_tx_mgmt,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_RATE_FOR_TX_MGMT_DEFAULT,
CFG_RATE_FOR_TX_MGMT_MIN,
CFG_RATE_FOR_TX_MGMT_MAX),
REG_VARIABLE(CFG_RATE_FOR_TX_MGMT_2G, WLAN_PARAM_HexInteger,
hdd_config_t, rate_for_tx_mgmt_2g,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_RATE_FOR_TX_MGMT_2G_DEFAULT,
CFG_RATE_FOR_TX_MGMT_2G_MIN,
CFG_RATE_FOR_TX_MGMT_2G_MAX),
REG_VARIABLE(CFG_RATE_FOR_TX_MGMT_5G, WLAN_PARAM_HexInteger,
hdd_config_t, rate_for_tx_mgmt_5g,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_RATE_FOR_TX_MGMT_5G_DEFAULT,
CFG_RATE_FOR_TX_MGMT_5G_MIN,
CFG_RATE_FOR_TX_MGMT_5G_MAX),
REG_VARIABLE( CFG_ENABLE_FIRST_SCAN_2G_ONLY_NAME, WLAN_PARAM_Integer,
hdd_config_t, enableFirstScan2GOnly,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_ENABLE_FIRST_SCAN_2G_ONLY_DEFAULT,
CFG_ENABLE_FIRST_SCAN_2G_ONLY_MIN,
CFG_ENABLE_FIRST_SCAN_2G_ONLY_MAX ),
REG_VARIABLE( CFG_ENABLE_SKIP_DFS_IN_P2P_SEARCH_NAME, WLAN_PARAM_Integer,
hdd_config_t, skipDfsChnlInP2pSearch,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_ENABLE_SKIP_DFS_IN_P2P_SEARCH_DEFAULT,
CFG_ENABLE_SKIP_DFS_IN_P2P_SEARCH_MIN,
CFG_ENABLE_SKIP_DFS_IN_P2P_SEARCH_MAX ),
REG_VARIABLE( CFG_IGNORE_DYNAMIC_DTIM_IN_P2P_MODE_NAME, WLAN_PARAM_Integer,
hdd_config_t, ignoreDynamicDtimInP2pMode,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_IGNORE_DYNAMIC_DTIM_IN_P2P_MODE_DEFAULT,
CFG_IGNORE_DYNAMIC_DTIM_IN_P2P_MODE_MIN,
CFG_IGNORE_DYNAMIC_DTIM_IN_P2P_MODE_MAX ),
REG_VARIABLE( CFG_NUM_BUFF_ADVERT_NAME, WLAN_PARAM_Integer,
hdd_config_t,numBuffAdvert ,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK,
CFG_NUM_BUFF_ADVERT_DEFAULT,
CFG_NUM_BUFF_ADVERT_MIN,
CFG_NUM_BUFF_ADVERT_MAX ),
REG_VARIABLE( CFG_MCC_CONFIG_PARAM_NAME, WLAN_PARAM_Integer,
hdd_config_t, configMccParam,
VAR_FLAGS_OPTIONAL,
CFG_MCC_CONFIG_PARAM_DEFAULT,
CFG_MCC_CONFIG_PARAM_MIN,
CFG_MCC_CONFIG_PARAM_MAX ),
REG_VARIABLE( CFG_ENABLE_RX_STBC, WLAN_PARAM_Integer,
hdd_config_t, enableRxSTBC,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_ENABLE_RX_STBC_DEFAULT,
CFG_ENABLE_RX_STBC_MIN,
CFG_ENABLE_RX_STBC_MAX ),
REG_VARIABLE( CFG_ENABLE_TX_STBC, WLAN_PARAM_Integer,
hdd_config_t, enableTxSTBC,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_ENABLE_TX_STBC_DEFAULT,
CFG_ENABLE_TX_STBC_MIN,
CFG_ENABLE_TX_STBC_MAX ),
REG_VARIABLE( CFG_ENABLE_RX_LDPC, WLAN_PARAM_Integer,
hdd_config_t, enableRxLDPC,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_ENABLE_RX_LDPC_DEFAULT,
CFG_ENABLE_RX_LDPC_MIN,
CFG_ENABLE_RX_LDPC_MAX ),
REG_VARIABLE( CFG_PPS_ENABLE_5G_EBT, WLAN_PARAM_Integer,
hdd_config_t, enable5gEBT,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_PPS_ENABLE_5G_EBT_FEATURE_DEFAULT,
CFG_PPS_ENABLE_5G_EBT_FEATURE_MIN,
CFG_PPS_ENABLE_5G_EBT_FEATURE_MAX ),
#ifdef FEATURE_WLAN_TDLS
REG_VARIABLE( CFG_TDLS_SUPPORT_ENABLE, WLAN_PARAM_Integer,
hdd_config_t, fEnableTDLSSupport,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_TDLS_SUPPORT_ENABLE_DEFAULT,
CFG_TDLS_SUPPORT_ENABLE_MIN,
CFG_TDLS_SUPPORT_ENABLE_MAX ),
REG_VARIABLE( CFG_TDLS_IMPLICIT_TRIGGER, WLAN_PARAM_Integer,
hdd_config_t, fEnableTDLSImplicitTrigger,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_TDLS_IMPLICIT_TRIGGER_DEFAULT,
CFG_TDLS_IMPLICIT_TRIGGER_MIN,
CFG_TDLS_IMPLICIT_TRIGGER_MAX ),
REG_VARIABLE( CFG_TDLS_TX_STATS_PERIOD, WLAN_PARAM_Integer,
hdd_config_t, fTDLSTxStatsPeriod,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_TDLS_TX_STATS_PERIOD_DEFAULT,
CFG_TDLS_TX_STATS_PERIOD_MIN,
CFG_TDLS_TX_STATS_PERIOD_MAX ),
REG_VARIABLE( CFG_TDLS_TX_PACKET_THRESHOLD, WLAN_PARAM_Integer,
hdd_config_t, fTDLSTxPacketThreshold,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_TDLS_TX_PACKET_THRESHOLD_DEFAULT,
CFG_TDLS_TX_PACKET_THRESHOLD_MIN,
CFG_TDLS_TX_PACKET_THRESHOLD_MAX ),
REG_VARIABLE( CFG_TDLS_DISCOVERY_PERIOD, WLAN_PARAM_Integer,
hdd_config_t, fTDLSDiscoveryPeriod,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_TDLS_DISCOVERY_PERIOD_DEFAULT,
CFG_TDLS_DISCOVERY_PERIOD_MIN,
CFG_TDLS_DISCOVERY_PERIOD_MAX ),
REG_VARIABLE( CFG_TDLS_MAX_DISCOVERY_ATTEMPT, WLAN_PARAM_Integer,
hdd_config_t, fTDLSMaxDiscoveryAttempt,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_TDLS_MAX_DISCOVERY_ATTEMPT_DEFAULT,
CFG_TDLS_MAX_DISCOVERY_ATTEMPT_MIN,
CFG_TDLS_MAX_DISCOVERY_ATTEMPT_MAX ),
REG_VARIABLE( CFG_TDLS_IDLE_TIMEOUT, WLAN_PARAM_Integer,
hdd_config_t, fTDLSIdleTimeout,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_TDLS_IDLE_TIMEOUT_DEFAULT,
CFG_TDLS_IDLE_TIMEOUT_MIN,
CFG_TDLS_IDLE_TIMEOUT_MAX ),
REG_VARIABLE( CFG_TDLS_IDLE_PACKET_THRESHOLD, WLAN_PARAM_Integer,
hdd_config_t, fTDLSIdlePacketThreshold,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_TDLS_IDLE_PACKET_THRESHOLD_DEFAULT,
CFG_TDLS_IDLE_PACKET_THRESHOLD_MIN,
CFG_TDLS_IDLE_PACKET_THRESHOLD_MAX ),
REG_VARIABLE( CFG_TDLS_RSSI_HYSTERESIS, WLAN_PARAM_Integer,
hdd_config_t, fTDLSRSSIHysteresis,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_TDLS_RSSI_HYSTERESIS_DEFAULT,
CFG_TDLS_RSSI_HYSTERESIS_MIN,
CFG_TDLS_RSSI_HYSTERESIS_MAX ),
REG_VARIABLE( CFG_TDLS_RSSI_TRIGGER_THRESHOLD, WLAN_PARAM_SignedInteger,
hdd_config_t, fTDLSRSSITriggerThreshold,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_TDLS_RSSI_TRIGGER_THRESHOLD_DEFAULT,
CFG_TDLS_RSSI_TRIGGER_THRESHOLD_MIN,
CFG_TDLS_RSSI_TRIGGER_THRESHOLD_MAX ),
REG_VARIABLE( CFG_TDLS_RSSI_TEARDOWN_THRESHOLD, WLAN_PARAM_SignedInteger,
hdd_config_t, fTDLSRSSITeardownThreshold,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_TDLS_RSSI_TEARDOWN_THRESHOLD_DEFAULT,
CFG_TDLS_RSSI_TEARDOWN_THRESHOLD_MIN,
CFG_TDLS_RSSI_TEARDOWN_THRESHOLD_MAX ),
REG_VARIABLE( CFG_TDLS_RSSI_DELTA, WLAN_PARAM_SignedInteger,
hdd_config_t, fTDLSRSSIDelta,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_TDLS_RSSI_DELTA_DEFAULT,
CFG_TDLS_RSSI_DELTA_MIN,
CFG_TDLS_RSSI_DELTA_MAX ),
REG_VARIABLE( CFG_TDLS_QOS_WMM_UAPSD_MASK_NAME , WLAN_PARAM_HexInteger,
hdd_config_t, fTDLSUapsdMask,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_TDLS_QOS_WMM_UAPSD_MASK_DEFAULT,
CFG_TDLS_QOS_WMM_UAPSD_MASK_MIN,
CFG_TDLS_QOS_WMM_UAPSD_MASK_MAX ),
REG_VARIABLE( CFG_TDLS_BUFFER_STA_SUPPORT_ENABLE, WLAN_PARAM_Integer,
hdd_config_t, fEnableTDLSBufferSta,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_TDLS_BUFFER_STA_SUPPORT_ENABLE_DEFAULT,
CFG_TDLS_BUFFER_STA_SUPPORT_ENABLE_MIN,
CFG_TDLS_BUFFER_STA_SUPPORT_ENABLE_MAX ),
REG_VARIABLE( CFG_TDLS_OFF_CHANNEL_SUPPORT_ENABLE, WLAN_PARAM_Integer,
hdd_config_t, fEnableTDLSOffChannel,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_TDLS_OFF_CHANNEL_SUPPORT_ENABLE_DEFAULT,
CFG_TDLS_OFF_CHANNEL_SUPPORT_ENABLE_MIN,
CFG_TDLS_OFF_CHANNEL_SUPPORT_ENABLE_MAX ),
REG_VARIABLE( CFG_TDLS_PREFERRED_OFF_CHANNEL_NUM, WLAN_PARAM_Integer,
hdd_config_t, fTDLSPrefOffChanNum,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_TDLS_PREFERRED_OFF_CHANNEL_NUM_DEFAULT,
CFG_TDLS_PREFERRED_OFF_CHANNEL_NUM_MIN,
CFG_TDLS_PREFERRED_OFF_CHANNEL_NUM_MAX ),
REG_VARIABLE( CFG_TDLS_PREFERRED_OFF_CHANNEL_BW, WLAN_PARAM_Integer,
hdd_config_t, fTDLSPrefOffChanBandwidth,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_TDLS_PREFERRED_OFF_CHANNEL_BW_DEFAULT,
CFG_TDLS_PREFERRED_OFF_CHANNEL_BW_MIN,
CFG_TDLS_PREFERRED_OFF_CHANNEL_BW_MAX ),
REG_VARIABLE( CFG_TDLS_PUAPSD_INACTIVITY_TIME, WLAN_PARAM_Integer,
hdd_config_t, fTDLSPuapsdInactivityTimer,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_TDLS_PUAPSD_INACTIVITY_TIME_DEFAULT,
CFG_TDLS_PUAPSD_INACTIVITY_TIME_MIN,
CFG_TDLS_PUAPSD_INACTIVITY_TIME_MAX ),
REG_VARIABLE( CFG_TDLS_PUAPSD_RX_FRAME_THRESHOLD, WLAN_PARAM_Integer,
hdd_config_t, fTDLSRxFrameThreshold,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_TDLS_PUAPSD_RX_FRAME_THRESHOLD_DEFAULT,
CFG_TDLS_PUAPSD_RX_FRAME_THRESHOLD_MIN,
CFG_TDLS_PUAPSD_RX_FRAME_THRESHOLD_MAX ),
REG_VARIABLE( CFG_TDLS_PUAPSD_PEER_TRAFFIC_IND_WINDOW, WLAN_PARAM_Integer,
hdd_config_t, fTDLSPuapsdPTIWindow,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_TDLS_PUAPSD_PEER_TRAFFIC_IND_WINDOW_DEFAULT,
CFG_TDLS_PUAPSD_PEER_TRAFFIC_IND_WINDOW_MIN,
CFG_TDLS_PUAPSD_PEER_TRAFFIC_IND_WINDOW_MAX ),
REG_VARIABLE( CFG_TDLS_PUAPSD_PEER_TRAFFIC_RSP_TIMEOUT, WLAN_PARAM_Integer,
hdd_config_t, fTDLSPuapsdPTRTimeout,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_TDLS_PUAPSD_PEER_TRAFFIC_RSP_TIMEOUT_DEFAULT,
CFG_TDLS_PUAPSD_PEER_TRAFFIC_RSP_TIMEOUT_MIN,
CFG_TDLS_PUAPSD_PEER_TRAFFIC_RSP_TIMEOUT_MAX ),
REG_VARIABLE( CFG_TDLS_EXTERNAL_CONTROL, WLAN_PARAM_Integer,
hdd_config_t, fTDLSExternalControl,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_TDLS_EXTERNAL_CONTROL_DEFAULT,
CFG_TDLS_EXTERNAL_CONTROL_MIN,
CFG_TDLS_EXTERNAL_CONTROL_MAX ),
REG_VARIABLE( CFG_TDLS_WMM_MODE_ENABLE, WLAN_PARAM_Integer,
hdd_config_t, fEnableTDLSWmmMode,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_TDLS_WMM_MODE_ENABLE_DEFAULT,
CFG_TDLS_WMM_MODE_ENABLE_MIN,
CFG_TDLS_WMM_MODE_ENABLE_MAX ),
REG_VARIABLE( CFG_TDLS_SCAN_ENABLE, WLAN_PARAM_Integer,
hdd_config_t, enable_tdls_scan,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_TDLS_SCAN_ENABLE_DEFAULT,
CFG_TDLS_SCAN_ENABLE_MIN,
CFG_TDLS_SCAN_ENABLE_MAX ),
REG_VARIABLE( CFG_TDLS_PEER_KICKOUT_THRESHOLD, WLAN_PARAM_Integer,
hdd_config_t, tdls_peer_kickout_threshold,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_TDLS_PEER_KICKOUT_THRESHOLD_DEFAULT,
CFG_TDLS_PEER_KICKOUT_THRESHOLD_MIN,
CFG_TDLS_PEER_KICKOUT_THRESHOLD_MAX ),
#endif
#ifdef WLAN_SOFTAP_VSTA_FEATURE
REG_VARIABLE( CFG_VSTA_SUPPORT_ENABLE, WLAN_PARAM_Integer,
hdd_config_t, fEnableVSTASupport,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_VSTA_SUPPORT_ENABLE_DEFAULT,
CFG_VSTA_SUPPORT_ENABLE_MIN,
CFG_VSTA_SUPPORT_ENABLE_MAX ),
#endif
REG_VARIABLE( CFG_ENABLE_LPWR_IMG_TRANSITION_NAME, WLAN_PARAM_Integer,
hdd_config_t, enableLpwrImgTransition,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_ENABLE_LPWR_IMG_TRANSITION_DEFAULT,
CFG_ENABLE_LPWR_IMG_TRANSITION_MIN,
CFG_ENABLE_LPWR_IMG_TRANSITION_MAX ),
#ifdef WLAN_ACTIVEMODE_OFFLOAD_FEATURE
REG_VARIABLE( CFG_ACTIVEMODE_OFFLOAD_ENABLE, WLAN_PARAM_Integer,
hdd_config_t, fEnableActiveModeOffload,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_ACTIVEMODE_OFFLOAD_ENABLE_DEFAULT,
CFG_ACTIVEMODE_OFFLOAD_ENABLE_MIN,
CFG_ACTIVEMODE_OFFLOAD_ENABLE_MAX ),
#endif
REG_VARIABLE( CFG_ENABLE_LPWR_IMG_TRANSITION_NAME, WLAN_PARAM_Integer,
hdd_config_t, enableLpwrImgTransition,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_ENABLE_LPWR_IMG_TRANSITION_DEFAULT,
CFG_ENABLE_LPWR_IMG_TRANSITION_MIN,
CFG_ENABLE_LPWR_IMG_TRANSITION_MAX ),
REG_VARIABLE( CFG_SCAN_AGING_PARAM_NAME, WLAN_PARAM_Integer,
hdd_config_t, scanAgingTimeout,
VAR_FLAGS_OPTIONAL,
CFG_SCAN_AGING_PARAM_DEFAULT,
CFG_SCAN_AGING_PARAM_MIN,
CFG_SCAN_AGING_PARAM_MAX ),
REG_VARIABLE( CFG_TX_LDPC_ENABLE_FEATURE, WLAN_PARAM_Integer,
hdd_config_t, enableTxLdpc,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_TX_LDPC_ENABLE_FEATURE_DEFAULT,
CFG_TX_LDPC_ENABLE_FEATURE_MIN,
CFG_TX_LDPC_ENABLE_FEATURE_MAX ),
REG_VARIABLE( CFG_ENABLE_MCC_ADATIVE_SCHEDULER_ENABLED_NAME, WLAN_PARAM_Integer,
hdd_config_t, enableMCCAdaptiveScheduler,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_ENABLE_MCC_ADATIVE_SCHEDULER_ENABLED_DEFAULT,
CFG_ENABLE_MCC_ADATIVE_SCHEDULER_ENABLED_MIN,
CFG_ENABLE_MCC_ADATIVE_SCHEDULER_ENABLED_MAX ),
REG_VARIABLE( CFG_ANDRIOD_POWER_SAVE_NAME, WLAN_PARAM_Integer,
hdd_config_t, isAndroidPsEn,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_ANDRIOD_POWER_SAVE_DEFAULT,
CFG_ANDRIOD_POWER_SAVE_MIN,
CFG_ANDRIOD_POWER_SAVE_MAX),
REG_VARIABLE( CFG_IBSS_ADHOC_CHANNEL_5GHZ_NAME, WLAN_PARAM_Integer,
hdd_config_t, AdHocChannel5G,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_IBSS_ADHOC_CHANNEL_5GHZ_DEFAULT,
CFG_IBSS_ADHOC_CHANNEL_5GHZ_MIN,
CFG_IBSS_ADHOC_CHANNEL_5GHZ_MAX),
REG_VARIABLE( CFG_IBSS_ADHOC_CHANNEL_24GHZ_NAME, WLAN_PARAM_Integer,
hdd_config_t, AdHocChannel24G,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_IBSS_ADHOC_CHANNEL_24GHZ_DEFAULT,
CFG_IBSS_ADHOC_CHANNEL_24GHZ_MIN,
CFG_IBSS_ADHOC_CHANNEL_24GHZ_MAX),
#ifdef WLAN_FEATURE_11AC
REG_VARIABLE( CFG_VHT_SU_BEAMFORMEE_CAP_FEATURE, WLAN_PARAM_Integer,
hdd_config_t, enableTxBF,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_VHT_SU_BEAMFORMEE_CAP_FEATURE_DEFAULT,
CFG_VHT_SU_BEAMFORMEE_CAP_FEATURE_MIN,
CFG_VHT_SU_BEAMFORMEE_CAP_FEATURE_MAX ),
REG_VARIABLE( CFG_VHT_ENABLE_TXBF_IN_20MHZ, WLAN_PARAM_Integer,
hdd_config_t, enableTxBFin20MHz,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_VHT_ENABLE_TXBF_IN_20MHZ_DEFAULT,
CFG_VHT_ENABLE_TXBF_IN_20MHZ_MIN,
CFG_VHT_ENABLE_TXBF_IN_20MHZ_MAX ),
REG_VARIABLE( CFG_VHT_CSN_BEAMFORMEE_ANT_SUPPORTED, WLAN_PARAM_Integer,
hdd_config_t, txBFCsnValue,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_VHT_CSN_BEAMFORMEE_ANT_SUPPORTED_DEFAULT,
CFG_VHT_CSN_BEAMFORMEE_ANT_SUPPORTED_MIN,
CFG_VHT_CSN_BEAMFORMEE_ANT_SUPPORTED_MAX ),
#endif
REG_VARIABLE( CFG_SAP_ALLOW_ALL_CHANNEL_PARAM_NAME, WLAN_PARAM_Integer,
hdd_config_t, sapAllowAllChannel,
VAR_FLAGS_OPTIONAL,
CFG_SAP_ALLOW_ALL_CHANNEL_PARAM_DEFAULT,
CFG_SAP_ALLOW_ALL_CHANNEL_PARAM_MIN,
CFG_SAP_ALLOW_ALL_CHANNEL_PARAM_MAX ),
#ifdef WLAN_FEATURE_11AC
REG_VARIABLE( CFG_DISABLE_LDPC_WITH_TXBF_AP, WLAN_PARAM_Integer,
hdd_config_t, disableLDPCWithTxbfAP,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_DISABLE_LDPC_WITH_TXBF_AP_DEFAULT,
CFG_DISABLE_LDPC_WITH_TXBF_AP_MIN,
CFG_DISABLE_LDPC_WITH_TXBF_AP_MAX ),
#endif
REG_VARIABLE_STRING( CFG_LIST_OF_NON_DFS_COUNTRY_CODE, WLAN_PARAM_String,
hdd_config_t, listOfNonDfsCountryCode,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
(void *)CFG_LIST_OF_NON_DFS_COUNTRY_CODE_DEFAULT),
REG_DYNAMIC_VARIABLE( CFG_ENABLE_SSR, WLAN_PARAM_Integer,
hdd_config_t, enableSSR,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_ENABLE_SSR_DEFAULT,
CFG_ENABLE_SSR_MIN,
CFG_ENABLE_SSR_MAX,
cbNotifySetEnableSSR, 0 ),
REG_VARIABLE( CFG_MAX_MEDIUM_TIME, WLAN_PARAM_Integer,
hdd_config_t, cfgMaxMediumTime,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_MAX_MEDIUM_TIME_STADEFAULT,
CFG_MAX_MEDIUM_TIME_STAMIN,
CFG_MAX_MEDIUM_TIME_STAMAX ),
#ifdef WLAN_FEATURE_11AC
REG_VARIABLE( CFG_ENABLE_VHT_FOR_24GHZ_NAME, WLAN_PARAM_Integer,
hdd_config_t, enableVhtFor24GHzBand,
VAR_FLAGS_OPTIONAL,
CFG_ENABLE_VHT_FOR_24GHZ_DEFAULT,
CFG_ENABLE_VHT_FOR_24GHZ_MIN,
CFG_ENABLE_VHT_FOR_24GHZ_MAX),
REG_VARIABLE( CFG_ENABLE_VENDOR_VHT_FOR_24GHZ_NAME, WLAN_PARAM_Integer,
hdd_config_t, enable_vendor_vht_for_24ghz_band,
VAR_FLAGS_OPTIONAL,
CFG_ENABLE_VENDOR_VHT_FOR_24GHZ_DEFAULT,
CFG_ENABLE_VENDOR_VHT_FOR_24GHZ_MIN,
CFG_ENABLE_VENDOR_VHT_FOR_24GHZ_MAX),
#endif
#ifdef WLAN_FEATURE_ROAM_SCAN_OFFLOAD
REG_DYNAMIC_VARIABLE( CFG_ENABLE_FAST_ROAM_IN_CONCURRENCY, WLAN_PARAM_Integer,
hdd_config_t, bFastRoamInConIniFeatureEnabled,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_ENABLE_FAST_ROAM_IN_CONCURRENCY_DEFAULT,
CFG_ENABLE_FAST_ROAM_IN_CONCURRENCY_MIN,
CFG_ENABLE_FAST_ROAM_IN_CONCURRENCY_MAX,
cbNotifySetEnableFastRoamInConcurrency, 0 ),
#endif
REG_VARIABLE( CFG_ENABLE_ADAPT_RX_DRAIN_NAME, WLAN_PARAM_Integer,
hdd_config_t, fEnableAdaptRxDrain,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK ,
CFG_ENABLE_ADAPT_RX_DRAIN_DEFAULT,
CFG_ENABLE_ADAPT_RX_DRAIN_MIN,
CFG_ENABLE_ADAPT_RX_DRAIN_MAX),
REG_VARIABLE( CFG_FLEX_CONNECT_POWER_FACTOR_NAME, WLAN_PARAM_Integer,
hdd_config_t, flexConnectPowerFactor,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_MINMAX,
CFG_FLEX_CONNECT_POWER_FACTOR_DEFAULT,
CFG_FLEX_CONNECT_POWER_FACTOR_MIN,
CFG_FLEX_CONNECT_POWER_FACTOR_MAX ),
REG_VARIABLE( CFG_ENABLE_HEART_BEAT_OFFLOAD, WLAN_PARAM_Integer,
hdd_config_t, enableIbssHeartBeatOffload,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_ENABLE_HEART_BEAT_OFFLOAD_DEFAULT,
CFG_ENABLE_HEART_BEAT_OFFLOAD_MIN,
CFG_ENABLE_HEART_BEAT_OFFLOAD_MAX),
REG_VARIABLE( CFG_ANTENNA_DIVERSITY_PARAM_NAME, WLAN_PARAM_Integer,
hdd_config_t, antennaDiversity,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_ANTENNA_DIVERSITY_PARAM_DEFAULT,
CFG_ANTENNA_DIVERSITY_PARAM_MIN,
CFG_ANTENNA_DIVERSITY_PARAM_MAX),
REG_VARIABLE( CFG_ENABLE_SNR_MONITORING_NAME, WLAN_PARAM_Integer,
hdd_config_t, fEnableSNRMonitoring,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK ,
CFG_ENABLE_SNR_MONITORING_DEFAULT,
CFG_ENABLE_SNR_MONITORING_MIN,
CFG_ENABLE_SNR_MONITORING_MAX),
#ifdef FEATURE_WLAN_SCAN_PNO
REG_VARIABLE( CFG_PNO_SCAN_SUPPORT, WLAN_PARAM_Integer,
hdd_config_t, configPNOScanSupport,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_PNO_SCAN_SUPPORT_DEFAULT,
CFG_PNO_SCAN_SUPPORT_DISABLE,
CFG_PNO_SCAN_SUPPORT_ENABLE),
REG_VARIABLE( CFG_PNO_SCAN_TIMER_REPEAT_VALUE, WLAN_PARAM_Integer,
hdd_config_t, configPNOScanTimerRepeatValue,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_PNO_SCAN_TIMER_REPEAT_VALUE_DEFAULT,
CFG_PNO_SCAN_TIMER_REPEAT_VALUE_MIN,
CFG_PNO_SCAN_TIMER_REPEAT_VALUE_MAX),
REG_VARIABLE( CFG_PNO_SLOW_SCAN_MULTIPLIER, WLAN_PARAM_Integer,
hdd_config_t, pno_slow_scan_multiplier,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_PNO_SLOW_SCAN_MULTIPLIER_DEFAULT,
CFG_PNO_SLOW_SCAN_MULTIPLIER_MIN,
CFG_PNO_SLOW_SCAN_MULTIPLIER_MAX),
#endif
REG_VARIABLE(CFG_MAX_AMSDU_NUM_NAME , WLAN_PARAM_Integer,
hdd_config_t, max_amsdu_num,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_MAX_AMSDU_NUM_DEFAULT,
CFG_MAX_AMSDU_NUM_MIN,
CFG_MAX_AMSDU_NUM_MAX),
REG_VARIABLE( CFG_STRICT_5GHZ_PREF_BY_MARGIN , WLAN_PARAM_Integer,
hdd_config_t, nSelect5GHzMargin,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_STRICT_5GHZ_PREF_BY_MARGIN_DEFAULT,
CFG_STRICT_5GHZ_PREF_BY_MARGIN_MIN,
CFG_STRICT_5GHZ_PREF_BY_MARGIN_MAX ),
REG_VARIABLE( CFG_ENABLE_TCP_CHKSUM_OFFLOAD, WLAN_PARAM_Integer,
hdd_config_t, enableTCPChkSumOffld,
VAR_FLAGS_OPTIONAL,
CFG_ENABLE_TCP_CHKSUM_OFFLOAD_DEFAULT,
CFG_ENABLE_TCP_CHKSUM_OFFLOAD_MIN,
CFG_ENABLE_TCP_CHKSUM_OFFLOAD_MAX),
REG_VARIABLE( CFG_ENABLE_IP_CHKSUM_OFFLOAD, WLAN_PARAM_Integer,
hdd_config_t, enableIPChecksumOffload,
VAR_FLAGS_OPTIONAL,
CFG_ENABLE_IP_CHKSUM_OFFLOAD_DEFAULT,
CFG_ENABLE_IP_CHKSUM_OFFLOAD_DISABLE,
CFG_ENABLE_IP_CHKSUM_OFFLOAD_ENABLE ),
REG_VARIABLE( CFG_POWERSAVE_OFFLOAD_NAME, WLAN_PARAM_Integer,
hdd_config_t, enablePowersaveOffload,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK,
CFG_POWERSAVE_OFFLOAD_DEFAULT,
CFG_POWERSAVE_OFFLOAD_MIN,
CFG_POWERSAVE_OFFLOAD_MAX ),
REG_VARIABLE( CFG_ENABLE_FW_UART_PRINT_NAME, WLAN_PARAM_Integer,
hdd_config_t, enablefwprint,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_ENABLE_FW_UART_PRINT_DEFAULT,
CFG_ENABLE_FW_UART_PRINT_DISABLE,
CFG_ENABLE_FW_UART_PRINT_ENABLE),
REG_VARIABLE( CFG_ENABLE_FW_LOG_NAME, WLAN_PARAM_Integer,
hdd_config_t, enablefwlog,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_ENABLE_FW_LOG_DEFAULT,
CFG_ENABLE_FW_LOG_DISABLE,
CFG_ENABLE_FW_LOG_ENABLE),
REG_VARIABLE( CFG_ENABLE_FW_SELF_RECOVERY_NAME, WLAN_PARAM_Integer,
hdd_config_t, enableFwSelfRecovery,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_ENABLE_FW_SELF_RECOVERY_DEFAULT,
CFG_ENABLE_FW_SELF_RECOVERY_DISABLE,
CFG_ENABLE_FW_SELF_RECOVERY_ENABLE),
#ifdef IPA_OFFLOAD
REG_VARIABLE( CFG_IPA_OFFLOAD_CONFIG_NAME, WLAN_PARAM_HexInteger,
hdd_config_t, IpaConfig,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_IPA_OFFLOAD_CONFIG_DEFAULT,
CFG_IPA_OFFLOAD_CONFIG_MIN,
CFG_IPA_OFFLOAD_CONFIG_MAX),
REG_VARIABLE( CFG_IPA_DESC_SIZE_NAME, WLAN_PARAM_Integer,
hdd_config_t, IpaDescSize,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_IPA_DESC_SIZE_DEFAULT,
CFG_IPA_DESC_SIZE_MIN,
CFG_IPA_DESC_SIZE_MAX ),
REG_VARIABLE( CFG_IPA_HIGH_BANDWIDTH_MBPS, WLAN_PARAM_Integer,
hdd_config_t, IpaHighBandwidthMbps,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_IPA_HIGH_BANDWIDTH_MBPS_DEFAULT,
CFG_IPA_HIGH_BANDWIDTH_MBPS_MIN,
CFG_IPA_HIGH_BANDWIDTH_MBPS_MAX),
REG_VARIABLE( CFG_IPA_MEDIUM_BANDWIDTH_MBPS, WLAN_PARAM_Integer,
hdd_config_t, IpaMediumBandwidthMbps,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_IPA_MEDIUM_BANDWIDTH_MBPS_DEFAULT,
CFG_IPA_MEDIUM_BANDWIDTH_MBPS_MIN,
CFG_IPA_MEDIUM_BANDWIDTH_MBPS_MAX),
REG_VARIABLE( CFG_IPA_LOW_BANDWIDTH_MBPS, WLAN_PARAM_Integer,
hdd_config_t, IpaLowBandwidthMbps,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_IPA_LOW_BANDWIDTH_MBPS_DEFAULT,
CFG_IPA_LOW_BANDWIDTH_MBPS_MIN,
CFG_IPA_LOW_BANDWIDTH_MBPS_MAX),
#endif
REG_VARIABLE( CFG_P2P_LISTEN_OFFLOAD_NAME, WLAN_PARAM_Integer,
hdd_config_t, fP2pListenOffload,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_P2P_LISTEN_OFFLOAD_DEFAULT,
CFG_P2P_LISTEN_OFFLOAD_DISABLE,
CFG_P2P_LISTEN_OFFLOAD_ENABLE ),
#ifdef WLAN_FEATURE_11AC
REG_VARIABLE( CFG_VHT_AMPDU_LEN_EXPONENT_NAME, WLAN_PARAM_Integer,
hdd_config_t, fVhtAmpduLenExponent,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK ,
CFG_VHT_AMPDU_LEN_EXPONENT_DEFAULT,
CFG_VHT_AMPDU_LEN_EXPONENT_MIN,
CFG_VHT_AMPDU_LEN_EXPONENT_MAX),
REG_VARIABLE( CFG_VHT_MPDU_LEN_NAME, WLAN_PARAM_Integer,
hdd_config_t, vhtMpduLen,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK ,
CFG_VHT_MPDU_LEN_DEFAULT,
CFG_VHT_MPDU_LEN_MIN,
CFG_VHT_MPDU_LEN_MAX),
#endif
REG_VARIABLE( CFG_MAX_WOW_FILTERS_NAME, WLAN_PARAM_Integer,
hdd_config_t, maxWoWFilters,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK ,
CFG_MAX_WOW_FILTERS_DEFAULT,
CFG_MAX_WOW_FILTERS_MIN,
CFG_MAX_WOW_FILTERS_MAX),
REG_VARIABLE( CFG_WOW_STATUS_NAME, WLAN_PARAM_Integer,
hdd_config_t, wowEnable,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_WOW_STATUS_DEFAULT,
CFG_WOW_ENABLE_MIN,
CFG_WOW_ENABLE_MAX),
REG_VARIABLE( CFG_COALESING_IN_IBSS_NAME , WLAN_PARAM_Integer,
hdd_config_t, isCoalesingInIBSSAllowed,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_COALESING_IN_IBSS_DEFAULT,
CFG_COALESING_IN_IBSS_MIN,
CFG_COALESING_IN_IBSS_MAX ),
REG_VARIABLE( CFG_IBSS_ATIM_WIN_SIZE_NAME , WLAN_PARAM_Integer,
hdd_config_t, ibssATIMWinSize,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_IBSS_ATIM_WIN_SIZE_DEFAULT,
CFG_IBSS_ATIM_WIN_SIZE_MIN,
CFG_IBSS_ATIM_WIN_SIZE_MAX ),
REG_VARIABLE( CFG_SAP_MAX_NO_PEERS, WLAN_PARAM_Integer,
hdd_config_t, max_sap_peers,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_SAP_MAX_NO_PEERS_DEFAULT,
CFG_SAP_MAX_NO_PEERS_MIN,
CFG_SAP_MAX_NO_PEERS_MAX),
REG_VARIABLE( CFG_GO_MAX_NO_PEERS, WLAN_PARAM_Integer,
hdd_config_t, max_go_peers,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_GO_MAX_NO_PEERS_DEFAULT,
CFG_GO_MAX_NO_PEERS_MIN,
CFG_GO_MAX_NO_PEERS_MAX),
REG_VARIABLE( CFG_IBSS_IS_POWER_SAVE_ALLOWED_NAME , WLAN_PARAM_Integer,
hdd_config_t, isIbssPowerSaveAllowed,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_IBSS_IS_POWER_SAVE_ALLOWED_DEFAULT,
CFG_IBSS_IS_POWER_SAVE_ALLOWED_MIN,
CFG_IBSS_IS_POWER_SAVE_ALLOWED_MAX ),
REG_VARIABLE( CFG_IBSS_IS_POWER_COLLAPSE_ALLOWED_NAME , WLAN_PARAM_Integer,
hdd_config_t, isIbssPowerCollapseAllowed,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_IBSS_IS_POWER_COLLAPSE_ALLOWED_DEFAULT,
CFG_IBSS_IS_POWER_COLLAPSE_ALLOWED_MIN,
CFG_IBSS_IS_POWER_COLLAPSE_ALLOWED_MAX ),
REG_VARIABLE( CFG_IBSS_AWAKE_ON_TX_RX_NAME , WLAN_PARAM_Integer,
hdd_config_t, isIbssAwakeOnTxRx,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_IBSS_AWAKE_ON_TX_RX_DEFAULT,
CFG_IBSS_AWAKE_ON_TX_RX_MIN,
CFG_IBSS_AWAKE_ON_TX_RX_MAX ),
REG_VARIABLE( CFG_IBSS_INACTIVITY_TIME_NAME, WLAN_PARAM_Integer,
hdd_config_t, ibssInactivityCount,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_IBSS_INACTIVITY_TIME_DEFAULT,
CFG_IBSS_INACTIVITY_TIME_MIN,
CFG_IBSS_INACTIVITY_TIME_MAX ),
REG_VARIABLE( CFG_IBSS_TXSP_END_INACTIVITY_NAME, WLAN_PARAM_Integer,
hdd_config_t, ibssTxSpEndInactivityTime,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_IBSS_TXSP_END_INACTIVITY_DEFAULT,
CFG_IBSS_TXSP_END_INACTIVITY_MIN,
CFG_IBSS_TXSP_END_INACTIVITY_MAX ),
REG_VARIABLE( CFG_IBSS_PS_WARMUP_TIME_NAME, WLAN_PARAM_Integer,
hdd_config_t, ibssPsWarmupTime,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_IBSS_PS_WARMUP_TIME_DEFAULT,
CFG_IBSS_PS_WARMUP_TIME_MIN,
CFG_IBSS_PS_WARMUP_TIME_MAX ),
REG_VARIABLE( CFG_IBSS_PS_1RX_CHAIN_IN_ATIM_WINDOW_NAME, WLAN_PARAM_Integer,
hdd_config_t, ibssPs1RxChainInAtimEnable,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_IBSS_PS_1RX_CHAIN_IN_ATIM_WINDOW_DEFAULT,
CFG_IBSS_PS_1RX_CHAIN_IN_ATIM_WINDOW_MIN,
CFG_IBSS_PS_1RX_CHAIN_IN_ATIM_WINDOW_MAX ),
#if defined(CONFIG_HL_SUPPORT) && defined(QCA_BAD_PEER_TX_FLOW_CL)
REG_VARIABLE( CFG_BAD_PEER_TX_CTL_ENABLE_NAME, WLAN_PARAM_Integer,
hdd_config_t, bad_peer_txctl_enable,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_BAD_PEER_TX_CTL_ENABLE_DEFAULT,
CFG_BAD_PEER_TX_CTL_ENABLE_MIN,
CFG_BAD_PEER_TX_CTL_ENABLE_MAX ),
REG_VARIABLE( CFG_BAD_PEER_TX_CTL_PERIOD_NAME, WLAN_PARAM_Integer,
hdd_config_t, bad_peer_txctl_prd,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_BAD_PEER_TX_CTL_PERIOD_DEFAULT,
CFG_BAD_PEER_TX_CTL_PERIOD_MIN,
CFG_BAD_PEER_TX_CTL_PERIOD_MAX ),
REG_VARIABLE( CFG_BAD_PEER_TX_CTL_TXQ_LIMIT_NAME, WLAN_PARAM_Integer,
hdd_config_t, bad_peer_txctl_txq_lmt,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_BAD_PEER_TX_CTL_TXQ_LIMIT_DEFAULT,
CFG_BAD_PEER_TX_CTL_TXQ_LIMIT_MIN,
CFG_BAD_PEER_TX_CTL_TXQ_LIMIT_MAX ),
REG_VARIABLE( CFG_BAD_PEER_TX_CTL_TGT_BACKOFF_T_NAME, WLAN_PARAM_Integer,
hdd_config_t, bad_peer_tgt_backoff,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_BAD_PEER_TX_CTL_TGT_BACKOFF_T_DEFAULT,
CFG_BAD_PEER_TX_CTL_TGT_BACKOFF_T_MIN,
CFG_BAD_PEER_TX_CTL_TGT_BACKOFF_T_MAX ),
REG_VARIABLE( CFG_BAD_PEER_TX_CTL_TGT_REPORT_PRD_NAME, WLAN_PARAM_Integer,
hdd_config_t, bad_peer_tgt_report_prd,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_BAD_PEER_TX_CTL_TGT_REPORT_PRD_DEFAULT,
CFG_BAD_PEER_TX_CTL_TGT_REPORT_PRD_MIN,
CFG_BAD_PEER_TX_CTL_TGT_REPORT_PRD_MAX ),
REG_VARIABLE( CFG_BAD_PEER_TX_CTL_COND_LEVEL_IEEEB_NAME, WLAN_PARAM_Integer,
hdd_config_t, bad_peer_cond_ieee80211b,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_BAD_PEER_TX_CTL_COND_LEVEL_IEEEB_DEFAULT,
CFG_BAD_PEER_TX_CTL_COND_LEVEL_IEEEB_MIN,
CFG_BAD_PEER_TX_CTL_COND_LEVEL_IEEEB_MAX ),
REG_VARIABLE( CFG_BAD_PEER_TX_CTL_DELTA_LEVEL_IEEEB_NAME, WLAN_PARAM_Integer,
hdd_config_t, bad_peer_delta_ieee80211b,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_BAD_PEER_TX_CTL_DELTA_LEVEL_IEEEB_DEFAULT,
CFG_BAD_PEER_TX_CTL_DELTA_LEVEL_IEEEB_MIN,
CFG_BAD_PEER_TX_CTL_DELTA_LEVEL_IEEEB_MAX ),
REG_VARIABLE( CFG_BAD_PEER_TX_CTL_PCT_LEVEL_IEEEB_NAME, WLAN_PARAM_Integer,
hdd_config_t, bad_peer_pct_ieee80211b,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_BAD_PEER_TX_CTL_PCT_LEVEL_IEEEB_MIN,
CFG_BAD_PEER_TX_CTL_PCT_LEVEL_IEEEB_MAX,
CFG_BAD_PEER_TX_CTL_PCT_LEVEL_IEEEB_DEFAULT ),
REG_VARIABLE( CFG_BAD_PEER_TX_CTL_TPUT_LEVEL_IEEEB_NAME, WLAN_PARAM_Integer,
hdd_config_t, bad_peer_tput_ieee80211b,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_BAD_PEER_TX_CTL_TPUT_LEVEL_IEEEB_DEFAULT,
CFG_BAD_PEER_TX_CTL_TPUT_LEVEL_IEEEB_MIN,
CFG_BAD_PEER_TX_CTL_TPUT_LEVEL_IEEEB_MAX ),
REG_VARIABLE( CFG_BAD_PEER_TX_CTL_TX_LIMIT_LEVEL_IEEEB_NAME, WLAN_PARAM_Integer,
hdd_config_t, bad_peer_limit_ieee80211b,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_BAD_PEER_TX_CTL_TX_LIMIT_LEVEL_IEEEB_DEFAULT,
CFG_BAD_PEER_TX_CTL_TX_LIMIT_LEVEL_IEEEB_MIN,
CFG_BAD_PEER_TX_CTL_TX_LIMIT_LEVEL_IEEEB_MAX ),
REG_VARIABLE( CFG_BAD_PEER_TX_CTL_COND_LEVEL_IEEEAG_NAME, WLAN_PARAM_Integer,
hdd_config_t, bad_peer_cond_ieee80211ag,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_BAD_PEER_TX_CTL_COND_LEVEL_IEEEAG_DEFAULT,
CFG_BAD_PEER_TX_CTL_COND_LEVEL_IEEEAG_MIN,
CFG_BAD_PEER_TX_CTL_COND_LEVEL_IEEEAG_MAX ),
REG_VARIABLE( CFG_BAD_PEER_TX_CTL_DELTA_LEVEL_IEEEAG_NAME, WLAN_PARAM_Integer,
hdd_config_t, bad_peer_delta_ieee80211ag,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_BAD_PEER_TX_CTL_DELTA_LEVEL_IEEEAG_DEFAULT,
CFG_BAD_PEER_TX_CTL_DELTA_LEVEL_IEEEAG_MIN,
CFG_BAD_PEER_TX_CTL_DELTA_LEVEL_IEEEAG_MAX ),
REG_VARIABLE( CFG_BAD_PEER_TX_CTL_PCT_LEVEL_IEEEAG_NAME, WLAN_PARAM_Integer,
hdd_config_t, bad_peer_pct_ieee80211ag,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_BAD_PEER_TX_CTL_PCT_LEVEL_IEEEAG_DEFAULT,
CFG_BAD_PEER_TX_CTL_PCT_LEVEL_IEEEAG_MIN,
CFG_BAD_PEER_TX_CTL_PCT_LEVEL_IEEEAG_MAX ),
REG_VARIABLE( CFG_BAD_PEER_TX_CTL_TPUT_LEVEL_IEEEAG_NAME, WLAN_PARAM_Integer,
hdd_config_t, bad_peer_tput_ieee80211ag,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_BAD_PEER_TX_CTL_TPUT_LEVEL_IEEEAG_DEFAULT,
CFG_BAD_PEER_TX_CTL_TPUT_LEVEL_IEEEAG_MIN,
CFG_BAD_PEER_TX_CTL_TPUT_LEVEL_IEEEAG_MAX ),
REG_VARIABLE( CFG_BAD_PEER_TX_CTL_TX_LIMIT_LEVEL_IEEEAG_NAME, WLAN_PARAM_Integer,
hdd_config_t, bad_peer_limit_ieee80211ag,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_BAD_PEER_TX_CTL_TX_LIMIT_LEVEL_IEEEAG_DEFAULT,
CFG_BAD_PEER_TX_CTL_TX_LIMIT_LEVEL_IEEEAG_MIN,
CFG_BAD_PEER_TX_CTL_TX_LIMIT_LEVEL_IEEEAG_MAX ),
REG_VARIABLE( CFG_BAD_PEER_TX_CTL_COND_LEVEL_IEEEN_NAME, WLAN_PARAM_Integer,
hdd_config_t, bad_peer_cond_ieee80211n,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_BAD_PEER_TX_CTL_COND_LEVEL_IEEEN_DEFAULT,
CFG_BAD_PEER_TX_CTL_COND_LEVEL_IEEEN_MIN,
CFG_BAD_PEER_TX_CTL_COND_LEVEL_IEEEN_MAX ),
REG_VARIABLE( CFG_BAD_PEER_TX_CTL_DELTA_LEVEL_IEEEN_NAME, WLAN_PARAM_Integer,
hdd_config_t, bad_peer_delta_ieee80211n,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_BAD_PEER_TX_CTL_DELTA_LEVEL_IEEEN_DEFAULT,
CFG_BAD_PEER_TX_CTL_DELTA_LEVEL_IEEEN_MIN,
CFG_BAD_PEER_TX_CTL_DELTA_LEVEL_IEEEN_MAX ),
REG_VARIABLE( CFG_BAD_PEER_TX_CTL_PCT_LEVEL_IEEEN_NAME, WLAN_PARAM_Integer,
hdd_config_t, bad_peer_pct_ieee80211n,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_BAD_PEER_TX_CTL_PCT_LEVEL_IEEEN_DEFAULT,
CFG_BAD_PEER_TX_CTL_PCT_LEVEL_IEEEN_MIN,
CFG_BAD_PEER_TX_CTL_PCT_LEVEL_IEEEN_MAX ),
REG_VARIABLE( CFG_BAD_PEER_TX_CTL_TPUT_LEVEL_IEEEN_NAME, WLAN_PARAM_Integer,
hdd_config_t, bad_peer_tput_ieee80211n,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_BAD_PEER_TX_CTL_TPUT_LEVEL_IEEEN_DEFAULT,
CFG_BAD_PEER_TX_CTL_TPUT_LEVEL_IEEEN_MIN,
CFG_BAD_PEER_TX_CTL_TPUT_LEVEL_IEEEN_MAX ),
REG_VARIABLE( CFG_BAD_PEER_TX_CTL_TX_LIMIT_LEVEL_IEEEN_NAME, WLAN_PARAM_Integer,
hdd_config_t, bad_peer_limit_ieee80211n,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_BAD_PEER_TX_CTL_TX_LIMIT_LEVEL_IEEEN_DEFAULT,
CFG_BAD_PEER_TX_CTL_TX_LIMIT_LEVEL_IEEEN_MIN,
CFG_BAD_PEER_TX_CTL_TX_LIMIT_LEVEL_IEEEN_MAX ),
REG_VARIABLE( CFG_BAD_PEER_TX_CTL_COND_LEVEL_IEEEAC_NAME, WLAN_PARAM_Integer,
hdd_config_t, bad_peer_cond_ieee80211ac,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_BAD_PEER_TX_CTL_COND_LEVEL_IEEEAC_DEFAULT,
CFG_BAD_PEER_TX_CTL_COND_LEVEL_IEEEAC_MIN,
CFG_BAD_PEER_TX_CTL_COND_LEVEL_IEEEAC_MAX ),
REG_VARIABLE( CFG_BAD_PEER_TX_CTL_DELTA_LEVEL_IEEEAC_NAME, WLAN_PARAM_Integer,
hdd_config_t, bad_peer_delta_ieee80211ac,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_BAD_PEER_TX_CTL_DELTA_LEVEL_IEEEAC_DEFAULT,
CFG_BAD_PEER_TX_CTL_DELTA_LEVEL_IEEEAC_MIN,
CFG_BAD_PEER_TX_CTL_DELTA_LEVEL_IEEEAC_MAX ),
REG_VARIABLE( CFG_BAD_PEER_TX_CTL_PCT_LEVEL_IEEEAC_NAME, WLAN_PARAM_Integer,
hdd_config_t, bad_peer_pct_ieee80211ac,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_BAD_PEER_TX_CTL_PCT_LEVEL_IEEEAC_DEFAULT,
CFG_BAD_PEER_TX_CTL_PCT_LEVEL_IEEEAC_MIN,
CFG_BAD_PEER_TX_CTL_PCT_LEVEL_IEEEAC_MAX ),
REG_VARIABLE( CFG_BAD_PEER_TX_CTL_TPUT_LEVEL_IEEEAC_NAME, WLAN_PARAM_Integer,
hdd_config_t, bad_peer_tput_ieee80211ac,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_BAD_PEER_TX_CTL_TPUT_LEVEL_IEEEAC_DEFAULT,
CFG_BAD_PEER_TX_CTL_TPUT_LEVEL_IEEEAC_MIN,
CFG_BAD_PEER_TX_CTL_TPUT_LEVEL_IEEEAC_MAX ),
REG_VARIABLE( CFG_BAD_PEER_TX_CTL_TX_LIMIT_LEVEL_IEEEAC_NAME, WLAN_PARAM_Integer,
hdd_config_t, bad_peer_limit_ieee80211ac,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_BAD_PEER_TX_CTL_TX_LIMIT_LEVEL_IEEEAC_DEFAULT,
CFG_BAD_PEER_TX_CTL_TX_LIMIT_LEVEL_IEEEAC_MIN,
CFG_BAD_PEER_TX_CTL_TX_LIMIT_LEVEL_IEEEAC_MAX ),
#endif
REG_VARIABLE( CFG_THERMAL_TEMP_MIN_LEVEL0_NAME, WLAN_PARAM_Integer,
hdd_config_t, thermalTempMinLevel0,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_THERMAL_TEMP_MIN_LEVEL0_DEFAULT,
CFG_THERMAL_TEMP_MIN_LEVEL0_MIN,
CFG_THERMAL_TEMP_MIN_LEVEL0_MAX ),
REG_VARIABLE( CFG_THERMAL_TEMP_MAX_LEVEL0_NAME, WLAN_PARAM_Integer,
hdd_config_t, thermalTempMaxLevel0,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_THERMAL_TEMP_MAX_LEVEL0_DEFAULT,
CFG_THERMAL_TEMP_MAX_LEVEL0_MIN,
CFG_THERMAL_TEMP_MAX_LEVEL0_MAX ),
REG_VARIABLE( CFG_THERMAL_TEMP_MIN_LEVEL1_NAME, WLAN_PARAM_Integer,
hdd_config_t, thermalTempMinLevel1,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_THERMAL_TEMP_MIN_LEVEL1_DEFAULT,
CFG_THERMAL_TEMP_MIN_LEVEL1_MIN,
CFG_THERMAL_TEMP_MIN_LEVEL1_MAX ),
REG_VARIABLE( CFG_THERMAL_TEMP_MAX_LEVEL1_NAME, WLAN_PARAM_Integer,
hdd_config_t, thermalTempMaxLevel1,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_THERMAL_TEMP_MAX_LEVEL1_DEFAULT,
CFG_THERMAL_TEMP_MAX_LEVEL1_MIN,
CFG_THERMAL_TEMP_MAX_LEVEL1_MAX ),
REG_VARIABLE( CFG_THERMAL_TEMP_MIN_LEVEL2_NAME, WLAN_PARAM_Integer,
hdd_config_t, thermalTempMinLevel2,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_THERMAL_TEMP_MIN_LEVEL2_DEFAULT,
CFG_THERMAL_TEMP_MIN_LEVEL2_MIN,
CFG_THERMAL_TEMP_MIN_LEVEL2_MAX ),
REG_VARIABLE( CFG_THERMAL_TEMP_MAX_LEVEL2_NAME, WLAN_PARAM_Integer,
hdd_config_t, thermalTempMaxLevel2,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_THERMAL_TEMP_MAX_LEVEL2_DEFAULT,
CFG_THERMAL_TEMP_MAX_LEVEL2_MIN,
CFG_THERMAL_TEMP_MAX_LEVEL2_MAX ),
REG_VARIABLE( CFG_THERMAL_TEMP_MIN_LEVEL3_NAME, WLAN_PARAM_Integer,
hdd_config_t, thermalTempMinLevel3,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_THERMAL_TEMP_MIN_LEVEL3_DEFAULT,
CFG_THERMAL_TEMP_MIN_LEVEL3_MIN,
CFG_THERMAL_TEMP_MIN_LEVEL3_MAX ),
REG_VARIABLE( CFG_THERMAL_TEMP_MAX_LEVEL3_NAME, WLAN_PARAM_Integer,
hdd_config_t, thermalTempMaxLevel3,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_THERMAL_TEMP_MAX_LEVEL3_DEFAULT,
CFG_THERMAL_TEMP_MAX_LEVEL3_MIN,
CFG_THERMAL_TEMP_MAX_LEVEL3_MAX ),
#ifdef FEATURE_WLAN_THERMAL_SHUTDOWN
REG_VARIABLE( CFG_THERMAL_SHUTDOWN_ENABLE_NAME, WLAN_PARAM_Integer,
hdd_config_t, thermal_shutdown_enabled,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_THERMAL_SHUTDOWN_ENABLE_DEFAULT,
CFG_THERMAL_SHUTDOWN_ENABLE_MIN,
CFG_THERMAL_SHUTDOWN_ENABLE_MAX),
REG_VARIABLE( CFG_THERMAL_SHUTDOWN_AUTO_ENABLE_NAME, WLAN_PARAM_Integer,
hdd_config_t, thermal_shutdown_auto_enabled,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_THERMAL_SHUTDOWN_AUTO_ENABLE_DEFAULT,
CFG_THERMAL_SHUTDOWN_AUTO_ENABLE_MIN,
CFG_THERMAL_SHUTDOWN_AUTO_ENABLE_MAX),
REG_VARIABLE( CFG_THERMAL_SHUTDOWN_TEMP_RESUME_NAME, WLAN_PARAM_Integer,
hdd_config_t, thermal_resume_threshold,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_THERMAL_SHUTDOWN_TEMP_RESUME_DEFAULT,
CFG_THERMAL_SHUTDOWN_TEMP_RESUME_MIN,
CFG_THERMAL_SHUTDOWN_TEMP_RESUME_MAX),
REG_VARIABLE( CFG_THERMAL_SHUTDOWN_TEMP_WARNING_NAME, WLAN_PARAM_Integer,
hdd_config_t, thermal_warning_threshold,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_THERMAL_SHUTDOWN_TEMP_WARNING_DEFAULT,
CFG_THERMAL_SHUTDOWN_TEMP_WARNING_MIN,
CFG_THERMAL_SHUTDOWN_TEMP_WARNING_MAX),
REG_VARIABLE( CFG_THERMAL_SHUTDOWN_TEMP_SUSPEND_NAME, WLAN_PARAM_Integer,
hdd_config_t, thermal_suspend_threshold,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_THERMAL_SHUTDOWN_TEMP_SUSPEND_DEFAULT,
CFG_THERMAL_SHUTDOWN_TEMP_SUSPEND_MIN,
CFG_THERMAL_SHUTDOWN_TEMP_SUSPEND_MAX),
REG_VARIABLE( CFG_THERMAL_SAMPLE_RATE_NAME, WLAN_PARAM_Integer,
hdd_config_t, thermal_sample_rate,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_THERMAL_SAMPLE_RATE_DEFAULT,
CFG_THERMAL_SAMPLE_RATE_MIN,
CFG_THERMAL_SAMPLE_RATE_MAX),
#endif /* FEATURE_WLAN_THERMAL_SHUTDOWN */
/* Runtime DPD Recaliberation INI Parameters BEGINS */
REG_VARIABLE( CFG_DPD_RECALIB_ENABLE_NAME, WLAN_PARAM_Integer,
hdd_config_t, dpd_recalib_enabled,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_DPD_RECALIB_ENABLE_DEFAULT,
CFG_DPD_RECALIB_ENABLE_MIN,
CFG_DPD_RECALIB_ENABLE_MAX),
REG_VARIABLE( CFG_DPD_RECALIB_DELTA_DEGREE_HIGH_NAME, WLAN_PARAM_Integer,
hdd_config_t, dpd_recalib_delta_degreehigh,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_DPD_RECALIB_DELTA_DEGREE_HIGH_DEFAULT,
CFG_DPD_RECALIB_DELTA_DEGREE_HIGH_MIN,
CFG_DPD_RECALIB_DELTA_DEGREE_HIGH_MAX),
REG_VARIABLE( CFG_DPD_RECALIB_DELTA_DEGREE_LOW_NAME, WLAN_PARAM_Integer,
hdd_config_t, dpd_recalib_delta_degreelow,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_DPD_RECALIB_DELTA_DEGREE_LOW_DEFAULT,
CFG_DPD_RECALIB_DELTA_DEGREE_LOW_MIN,
CFG_DPD_RECALIB_DELTA_DEGREE_LOW_MAX),
REG_VARIABLE( CFG_DPD_RECALIB_COOLING_TIME_NAME, WLAN_PARAM_Integer,
hdd_config_t, dpd_recalib_cooling_time,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_DPD_RECALIB_COOLING_TIME_DEFAULT,
CFG_DPD_RECALIB_COOLING_TIME_MIN,
CFG_DPD_RECALIB_COOLING_TIME_MAX),
REG_VARIABLE( CFG_DPD_RECALIB_DURATION_MAX_NAME, WLAN_PARAM_Integer,
hdd_config_t, dpd_recalib_duration_max,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_DPD_RECALIB_DURATION_MAX_DEFAULT,
CFG_DPD_RECALIB_DURATION_MAX_MIN,
CFG_DPD_RECALIB_DURATION_MAX_MAX),
/* DPD Runtime Recaliberation INI Parameters END */
REG_VARIABLE( CFG_SET_TXPOWER_LIMIT2G_NAME , WLAN_PARAM_Integer,
hdd_config_t, TxPower2g,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_SET_TXPOWER_LIMIT2G_DEFAULT,
CFG_SET_TXPOWER_LIMIT2G_MIN,
CFG_SET_TXPOWER_LIMIT2G_MAX ),
REG_VARIABLE( CFG_SET_TXPOWER_LIMIT5G_NAME , WLAN_PARAM_Integer,
hdd_config_t, TxPower5g,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_SET_TXPOWER_LIMIT5G_DEFAULT,
CFG_SET_TXPOWER_LIMIT5G_MIN,
CFG_SET_TXPOWER_LIMIT5G_MAX ),
REG_VARIABLE( CFG_ENABLE_DEBUG_CONNECT_ISSUE, WLAN_PARAM_Integer,
hdd_config_t, gEnableDebugLog,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_ENABLE_DEBUG_CONNECT_ISSUE_DEFAULT,
CFG_ENABLE_DEBUG_CONNECT_ISSUE_MIN ,
CFG_ENABLE_DEBUG_CONNECT_ISSUE_MAX),
REG_VARIABLE( CFG_RX_HANDLE, WLAN_PARAM_Integer,
hdd_config_t, rxhandle,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_RX_HANDLE_DEFAULT,
CFG_RX_HANDLE_MIN,
CFG_RX_HANDLE_MAX),
REG_VARIABLE_STRING( CFG_RPS_RX_QUEUE_CPU_MAP_LIST_NAME, WLAN_PARAM_String,
hdd_config_t, cpu_map_list,
VAR_FLAGS_OPTIONAL,
(void *)CFG_RPS_RX_QUEUE_CPU_MAP_LIST_DEFAULT ),
REG_VARIABLE( CFG_ENABLE_DFS_PHYERR_FILTEROFFLOAD_NAME, WLAN_PARAM_Integer,
hdd_config_t, fDfsPhyerrFilterOffload,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_ENABLE_DFS_PHYERR_FILTEROFFLOAD_DEFAULT,
CFG_ENABLE_DFS_PHYERR_FILTEROFFLOAD_MIN,
CFG_ENABLE_DFS_PHYERR_FILTEROFFLOAD_MAX ),
REG_VARIABLE( CFG_ENABLE_OVERLAP_CH, WLAN_PARAM_Integer,
hdd_config_t, gEnableOverLapCh,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK,
CFG_ENABLE_OVERLAP_CH_DEFAULT,
CFG_ENABLE_OVERLAP_CH_MIN,
CFG_ENABLE_OVERLAP_CH_MAX ),
REG_VARIABLE( CFG_REG_CHANGE_DEF_COUNTRY_NAME, WLAN_PARAM_Integer,
hdd_config_t, fRegChangeDefCountry,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_REG_CHANGE_DEF_COUNTRY_DEFAULT,
CFG_REG_CHANGE_DEF_COUNTRY_MIN,
CFG_REG_CHANGE_DEF_COUNTRY_MAX),
REG_VARIABLE( CFG_SAP_SCAN_BAND_PREFERENCE, WLAN_PARAM_Integer,
hdd_config_t, acsScanBandPreference,
#ifndef WLAN_FEATURE_MBSSID
VAR_FLAGS_DYNAMIC_CFG |
#endif
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK,
CFG_SAP_SCAN_BAND_PREFERENCE_DEFAULT,
CFG_SAP_SCAN_BAND_PREFERENCE_MIN,
CFG_SAP_SCAN_BAND_PREFERENCE_MAX ),
REG_VARIABLE( CFG_AUTO_CHANNEL_SELECT_WEIGHT, WLAN_PARAM_HexInteger,
hdd_config_t, auto_channel_select_weight,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_AUTO_CHANNEL_SELECT_WEIGHT_DEFAULT,
CFG_AUTO_CHANNEL_SELECT_WEIGHT_MIN,
CFG_AUTO_CHANNEL_SELECT_WEIGHT_MAX ),
#ifdef QCA_LL_TX_FLOW_CT
REG_VARIABLE( CFG_LL_TX_FLOW_LWM, WLAN_PARAM_Integer,
hdd_config_t, TxFlowLowWaterMark,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_LL_TX_FLOW_LWM_DEFAULT,
CFG_LL_TX_FLOW_LWM_MIN,
CFG_LL_TX_FLOW_LWM_MAX ),
REG_VARIABLE( CFG_LL_TX_FLOW_HWM_OFFSET, WLAN_PARAM_Integer,
hdd_config_t, TxFlowHighWaterMarkOffset,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_LL_TX_FLOW_HWM_OFFSET_DEFAULT,
CFG_LL_TX_FLOW_HWM_OFFSET_MIN,
CFG_LL_TX_FLOW_HWM_OFFSET_MAX ),
REG_VARIABLE( CFG_LL_TX_FLOW_MAX_Q_DEPTH, WLAN_PARAM_Integer,
hdd_config_t, TxFlowMaxQueueDepth,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_LL_TX_FLOW_MAX_Q_DEPTH_DEFAULT,
CFG_LL_TX_FLOW_MAX_Q_DEPTH_MIN,
CFG_LL_TX_FLOW_MAX_Q_DEPTH_MAX ),
REG_VARIABLE( CFG_LL_TX_LBW_FLOW_LWM, WLAN_PARAM_Integer,
hdd_config_t, TxLbwFlowLowWaterMark,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_LL_TX_LBW_FLOW_LWM_DEFAULT,
CFG_LL_TX_LBW_FLOW_LWM_MIN,
CFG_LL_TX_LBW_FLOW_LWM_MAX ),
REG_VARIABLE( CFG_LL_TX_LBW_FLOW_HWM_OFFSET, WLAN_PARAM_Integer,
hdd_config_t, TxLbwFlowHighWaterMarkOffset,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_LL_TX_LBW_FLOW_HWM_OFFSET_DEFAULT,
CFG_LL_TX_LBW_FLOW_HWM_OFFSET_MIN,
CFG_LL_TX_LBW_FLOW_HWM_OFFSET_MAX ),
REG_VARIABLE( CFG_LL_TX_LBW_FLOW_MAX_Q_DEPTH, WLAN_PARAM_Integer,
hdd_config_t, TxLbwFlowMaxQueueDepth,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_LL_TX_LBW_FLOW_MAX_Q_DEPTH_DEFAULT,
CFG_LL_TX_LBW_FLOW_MAX_Q_DEPTH_MIN,
CFG_LL_TX_LBW_FLOW_MAX_Q_DEPTH_MAX ),
REG_VARIABLE( CFG_LL_TX_HBW_FLOW_LWM, WLAN_PARAM_Integer,
hdd_config_t, TxHbwFlowLowWaterMark,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_LL_TX_HBW_FLOW_LWM_DEFAULT,
CFG_LL_TX_HBW_FLOW_LWM_MIN,
CFG_LL_TX_HBW_FLOW_LWM_MAX ),
REG_VARIABLE( CFG_LL_TX_HBW_FLOW_HWM_OFFSET, WLAN_PARAM_Integer,
hdd_config_t, TxHbwFlowHighWaterMarkOffset,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_LL_TX_HBW_FLOW_HWM_OFFSET_DEFAULT,
CFG_LL_TX_HBW_FLOW_HWM_OFFSET_MIN,
CFG_LL_TX_HBW_FLOW_HWM_OFFSET_MAX ),
REG_VARIABLE( CFG_LL_TX_HBW_FLOW_MAX_Q_DEPTH, WLAN_PARAM_Integer,
hdd_config_t, TxHbwFlowMaxQueueDepth,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_LL_TX_HBW_FLOW_MAX_Q_DEPTH_DEFAULT,
CFG_LL_TX_HBW_FLOW_MAX_Q_DEPTH_MIN,
CFG_LL_TX_HBW_FLOW_MAX_Q_DEPTH_MAX ),
#endif /* QCA_LL_TX_FLOW_CT */
REG_VARIABLE( CFG_INITIAL_DWELL_TIME_NAME, WLAN_PARAM_Integer,
hdd_config_t, nInitialDwellTime,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_INITIAL_DWELL_TIME_DEFAULT,
CFG_INITIAL_DWELL_TIME_MIN,
CFG_INITIAL_DWELL_TIME_MAX ),
REG_VARIABLE( CFG_INITIAL_SCAN_NO_DFS_CHNL_NAME, WLAN_PARAM_Integer,
hdd_config_t, initial_scan_no_dfs_chnl,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_INITIAL_SCAN_NO_DFS_CHNL_DEFAULT,
CFG_INITIAL_SCAN_NO_DFS_CHNL_MIN,
CFG_INITIAL_SCAN_NO_DFS_CHNL_MAX ),
REG_VARIABLE( CFG_ACS_BAND_SWITCH_THRESHOLD, WLAN_PARAM_Integer,
hdd_config_t, acsBandSwitchThreshold,
#ifndef WLAN_FEATURE_MBSSID
VAR_FLAGS_DYNAMIC_CFG |
#endif
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK,
CFG_ACS_BAND_SWITCH_THRESHOLD_DEFAULT,
CFG_ACS_BAND_SWITCH_THRESHOLD_MIN,
CFG_ACS_BAND_SWITCH_THRESHOLD_MAX ),
REG_VARIABLE( CFG_SAP_MAX_OFFLOAD_PEERS, WLAN_PARAM_Integer,
hdd_config_t, apMaxOffloadPeers,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK,
CFG_SAP_MAX_OFFLOAD_PEERS_DEFAULT,
CFG_SAP_MAX_OFFLOAD_PEERS_MIN,
CFG_SAP_MAX_OFFLOAD_PEERS_MAX ),
REG_VARIABLE( CFG_SAP_MAX_OFFLOAD_REORDER_BUFFS, WLAN_PARAM_Integer,
hdd_config_t, apMaxOffloadReorderBuffs,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK,
CFG_SAP_MAX_OFFLOAD_REORDER_BUFFS_DEFAULT,
CFG_SAP_MAX_OFFLOAD_REORDER_BUFFS_MIN,
CFG_SAP_MAX_OFFLOAD_REORDER_BUFFS_MAX ),
REG_VARIABLE( CFG_ADVERTISE_CONCURRENT_OPERATION_NAME , WLAN_PARAM_Integer,
hdd_config_t, advertiseConcurrentOperation,
VAR_FLAGS_OPTIONAL,
CFG_ADVERTISE_CONCURRENT_OPERATION_DEFAULT,
CFG_ADVERTISE_CONCURRENT_OPERATION_MIN,
CFG_ADVERTISE_CONCURRENT_OPERATION_MAX ),
REG_VARIABLE( CFG_ENABLE_MEMORY_DEEP_SLEEP, WLAN_PARAM_Integer,
hdd_config_t, enableMemDeepSleep,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_ENABLE_MEMORY_DEEP_SLEEP_DEFAULT,
CFG_ENABLE_MEMORY_DEEP_SLEEP_MIN,
CFG_ENABLE_MEMORY_DEEP_SLEEP_MAX ),
REG_VARIABLE( CFG_DEFAULT_RATE_INDEX_24GH, WLAN_PARAM_Integer,
hdd_config_t, defaultRateIndex24Ghz,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_DEFAULT_RATE_INDEX_24GH_DEFAULT,
CFG_DEFAULT_RATE_INDEX_24GH_MIN,
CFG_DEFAULT_RATE_INDEX_24GH_MAX ),
REG_VARIABLE_STRING( CFG_OVERRIDE_COUNTRY_CODE, WLAN_PARAM_String,
hdd_config_t, overrideCountryCode,
VAR_FLAGS_OPTIONAL,
(void *)CFG_OVERRIDE_COUNTRY_CODE_DEFAULT),
REG_VARIABLE( CFG_DEBUG_P2P_REMAIN_ON_CHANNEL_NAME, WLAN_PARAM_Integer,
hdd_config_t, debugP2pRemainOnChannel,
VAR_FLAGS_OPTIONAL,
CFG_DEBUG_P2P_REMAIN_ON_CHANNEL_DEFAULT,
CFG_DEBUG_P2P_REMAIN_ON_CHANNEL_MIN,
CFG_DEBUG_P2P_REMAIN_ON_CHANNEL_MAX ),
REG_VARIABLE( CFG_ENABLE_PACKET_LOG, WLAN_PARAM_Integer,
hdd_config_t, enablePacketLog,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_ENABLE_PACKET_LOG_DEFAULT,
CFG_ENABLE_PACKET_LOG_MIN,
CFG_ENABLE_PACKET_LOG_MAX ),
REG_VARIABLE( CFG_EDCA_FROM_HOSTAPD, WLAN_PARAM_Integer,
hdd_config_t, enable_hostapd_edca_local,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK,
CFG_EDCA_FROM_HOSTAPD_DEFAULT,
CFG_EDCA_FROM_HOSTAPD_MIN,
CFG_EDCA_FROM_HOSTAPD_MAX),
#ifdef WLAN_FEATURE_ROAM_OFFLOAD
REG_VARIABLE( CFG_ROAMING_OFFLOAD_NAME, WLAN_PARAM_Integer,
hdd_config_t, isRoamOffloadEnabled,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK,
CFG_ROAMING_OFFLOAD_DEFAULT,
CFG_ROAMING_OFFLOAD_MIN,
CFG_ROAMING_OFFLOAD_MAX),
#endif
#ifdef FEATURE_BUS_BANDWIDTH
REG_VARIABLE( CFG_BUS_BANDWIDTH_HIGH_THRESHOLD, WLAN_PARAM_Integer,
hdd_config_t, busBandwidthHighThreshold,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_BUS_BANDWIDTH_HIGH_THRESHOLD_DEFAULT,
CFG_BUS_BANDWIDTH_HIGH_THRESHOLD_MIN,
CFG_BUS_BANDWIDTH_HIGH_THRESHOLD_MAX ),
REG_VARIABLE( CFG_BUS_BANDWIDTH_MEDIUM_THRESHOLD, WLAN_PARAM_Integer,
hdd_config_t, busBandwidthMediumThreshold,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_BUS_BANDWIDTH_MEDIUM_THRESHOLD_DEFAULT,
CFG_BUS_BANDWIDTH_MEDIUM_THRESHOLD_MIN,
CFG_BUS_BANDWIDTH_MEDIUM_THRESHOLD_MAX ),
REG_VARIABLE( CFG_BUS_BANDWIDTH_LOW_THRESHOLD, WLAN_PARAM_Integer,
hdd_config_t, busBandwidthLowThreshold,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_BUS_BANDWIDTH_LOW_THRESHOLD_DEFAULT,
CFG_BUS_BANDWIDTH_LOW_THRESHOLD_MIN,
CFG_BUS_BANDWIDTH_LOW_THRESHOLD_MAX ),
REG_VARIABLE( CFG_BUS_BANDWIDTH_COMPUTE_INTERVAL, WLAN_PARAM_Integer,
hdd_config_t, busBandwidthComputeInterval,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_BUS_BANDWIDTH_COMPUTE_INTERVAL_DEFAULT,
CFG_BUS_BANDWIDTH_COMPUTE_INTERVAL_MIN,
CFG_BUS_BANDWIDTH_COMPUTE_INTERVAL_MAX),
REG_VARIABLE( CFG_TCP_DELACK_THRESHOLD_HIGH, WLAN_PARAM_Integer,
hdd_config_t, tcpDelackThresholdHigh,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_TCP_DELACK_THRESHOLD_HIGH_DEFAULT,
CFG_TCP_DELACK_THRESHOLD_HIGH_MIN,
CFG_TCP_DELACK_THRESHOLD_HIGH_MAX ),
REG_VARIABLE( CFG_TCP_DELACK_THRESHOLD_LOW, WLAN_PARAM_Integer,
hdd_config_t, tcpDelackThresholdLow,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_TCP_DELACK_THRESHOLD_LOW_DEFAULT,
CFG_TCP_DELACK_THRESHOLD_LOW_MIN,
CFG_TCP_DELACK_THRESHOLD_LOW_MAX ),
REG_VARIABLE( CFG_TCP_DELACK_TIMER_COUNT, WLAN_PARAM_Integer,
hdd_config_t, tcpDelackTimerCount,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_TCP_DELACK_TIMER_COUNT_DEFAULT,
CFG_TCP_DELACK_TIMER_COUNT_MIN,
CFG_TCP_DELACK_TIMER_COUNT_MAX ),
REG_VARIABLE( CFG_TCP_TX_HIGH_TPUT_THRESHOLD_NAME, WLAN_PARAM_Integer,
hdd_config_t, tcp_tx_high_tput_thres,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_TCP_TX_HIGH_TPUT_THRESHOLD_DEFAULT,
CFG_TCP_TX_HIGH_TPUT_THRESHOLD_MIN,
CFG_TCP_TX_HIGH_TPUT_THRESHOLD_MAX ),
#endif
#ifdef QCA_SUPPORT_TXRX_HL_BUNDLE
REG_VARIABLE( CFG_PKT_BUNDLE_THRESHOLD_HIGH, WLAN_PARAM_Integer,
hdd_config_t, pkt_bundle_threshold_high,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_PKT_BUNDLE_THRESHOLD_HIGH_DEFAULT,
CFG_PKT_BUNDLE_THRESHOLD_HIGH_MIN,
CFG_PKT_BUNDLE_THRESHOLD_HIGH_MAX ),
REG_VARIABLE( CFG_PKT_BUNDLE_THRESHOLD_LOW, WLAN_PARAM_Integer,
hdd_config_t, pkt_bundle_threshold_low,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_PKT_BUNDLE_THRESHOLD_LOW_DEFAULT,
CFG_PKT_BUNDLE_THRESHOLD_LOW_MIN,
CFG_PKT_BUNDLE_THRESHOLD_LOW_MAX ),
REG_VARIABLE( CFG_PKT_BUNDLE_TIMER_IN_MS, WLAN_PARAM_Integer,
hdd_config_t, pkt_bundle_timer_value,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_PKT_BUNDLE_TIMER_IN_MS_DEFAULT,
CFG_PKT_BUNDLE_TIMER_IN_MS_MIN,
CFG_PKT_BUNDLE_TIMER_IN_MS_MAX ),
REG_VARIABLE( CFG_PKT_BUNDLE_SIZE, WLAN_PARAM_Integer,
hdd_config_t, pkt_bundle_size,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_PKT_BUNDLE_SIZE_DEFAULT,
CFG_PKT_BUNDLE_SIZE_MIN,
CFG_PKT_BUNDLE_SIZE_MAX ),
#endif
#ifdef QCA_SUPPORT_TXRX_DRIVER_TCP_DEL_ACK
REG_VARIABLE(CFG_DEL_ACK_THRESHOLD_HIGH, WLAN_PARAM_Integer,
hdd_config_t, del_ack_threshold_high,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_DEL_ACK_THRESHOLD_HIGH_DEFAULT,
CFG_DEL_ACK_THRESHOLD_HIGH_MIN,
CFG_DEL_ACK_THRESHOLD_HIGH_MAX),
REG_VARIABLE(CFG_DEL_ACK_THRESHOLD_LOW, WLAN_PARAM_Integer,
hdd_config_t, del_ack_threshold_low,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_DEL_ACK_THRESHOLD_LOW_DEFAULT,
CFG_DEL_ACK_THRESHOLD_LOW_MIN,
CFG_DEL_ACK_THRESHOLD_LOW_MAX),
REG_VARIABLE(CFG_DEL_ACK_TIMER_IN_MS, WLAN_PARAM_Integer,
hdd_config_t, del_ack_timer_value,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_DEL_ACK_TIMER_IN_MS_DEFAULT,
CFG_DEL_ACK_TIMER_IN_MS_MIN,
CFG_DEL_ACK_TIMER_IN_MS_MAX),
REG_VARIABLE(CFG_DEL_ACK_PKT_COUNT, WLAN_PARAM_Integer,
hdd_config_t, del_ack_pkt_count,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_DEL_ACK_PKT_COUNT_DEFAULT,
CFG_DEL_ACK_PKT_COUNT_MIN,
CFG_DEL_ACK_PKT_COUNT_MAX),
REG_VARIABLE(CFG_DEL_ACK_ENABLE, WLAN_PARAM_Integer,
hdd_config_t, del_ack_enable,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_DEL_ACK_ENABLE_DEFAULT,
CFG_DEL_ACK_ENABLE_MIN,
CFG_DEL_ACK_ENABLE_MAX),
#endif
REG_VARIABLE( CFG_ENABLE_FW_LOG_TYPE , WLAN_PARAM_Integer,
hdd_config_t, enableFwLogType,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_ENABLE_FW_LOG_TYPE_DEFAULT,
CFG_ENABLE_FW_LOG_TYPE_MIN,
CFG_ENABLE_FW_LOG_TYPE_MAX ),
REG_VARIABLE( CFG_ENABLE_FW_DEBUG_LOG_LEVEL, WLAN_PARAM_Integer,
hdd_config_t, enableFwLogLevel,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_ENABLE_FW_DEBUG_LOG_LEVEL_DEFAULT,
CFG_ENABLE_FW_DEBUG_LOG_LEVEL_MIN,
CFG_ENABLE_FW_DEBUG_LOG_LEVEL_MAX ),
REG_VARIABLE( CFG_ENABLE_FW_RTS_PROFILE, WLAN_PARAM_Integer,
hdd_config_t, rts_profile,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_ENABLE_FW_RTS_PROFILE_DEFAULT,
CFG_ENABLE_FW_RTS_PROFILE_MIN,
CFG_ENABLE_FW_RTS_PROFILE_MAX ),
REG_VARIABLE_STRING( CFG_ENABLE_FW_MODULE_LOG_LEVEL, WLAN_PARAM_String,
hdd_config_t, enableFwModuleLogLevel,
VAR_FLAGS_OPTIONAL,
(void *) CFG_ENABLE_FW_MODULE_LOG_DEFAULT),
#ifdef WLAN_FEATURE_11W
REG_VARIABLE(CFG_PMF_SA_QUERY_MAX_RETRIES_NAME, WLAN_PARAM_Integer,
hdd_config_t, pmfSaQueryMaxRetries,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_PMF_SA_QUERY_MAX_RETRIES_DEFAULT,
CFG_PMF_SA_QUERY_MAX_RETRIES_MIN,
CFG_PMF_SA_QUERY_MAX_RETRIES_MAX ),
REG_VARIABLE(CFG_PMF_SA_QUERY_RETRY_INTERVAL_NAME, WLAN_PARAM_Integer,
hdd_config_t, pmfSaQueryRetryInterval,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_PMF_SA_QUERY_RETRY_INTERVAL_DEFAULT,
CFG_PMF_SA_QUERY_RETRY_INTERVAL_MIN,
CFG_PMF_SA_QUERY_RETRY_INTERVAL_MAX ),
#endif
REG_VARIABLE(CFG_MAX_CONCURRENT_CONNECTIONS_NAME, WLAN_PARAM_Integer,
hdd_config_t, gMaxConcurrentActiveSessions,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_MAX_CONCURRENT_CONNECTIONS_DEFAULT,
CFG_MAX_CONCURRENT_CONNECTIONS_MIN,
CFG_MAX_CONCURRENT_CONNECTIONS_MAX ),
#ifdef FEATURE_GREEN_AP
REG_VARIABLE(CFG_ENABLE_GREEN_AP_FEATURE, WLAN_PARAM_Integer,
hdd_config_t, enableGreenAP,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_ENABLE_GREEN_AP_FEATURE_DEFAULT,
CFG_ENABLE_GREEN_AP_FEATURE_MIN,
CFG_ENABLE_GREEN_AP_FEATURE_MAX),
REG_VARIABLE(CFG_ENABLE_EGAP_ENABLE_FEATURE, WLAN_PARAM_Integer,
hdd_config_t, enable_egap,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_ENABLE_EGAP_ENABLE_FEATURE_DEFAULT,
CFG_ENABLE_EGAP_ENABLE_FEATURE_MIN,
CFG_ENABLE_EGAP_ENABLE_FEATURE_MAX),
REG_VARIABLE(CFG_ENABLE_EGAP_INACT_TIME_FEATURE, WLAN_PARAM_Integer,
hdd_config_t, egap_inact_time,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_ENABLE_EGAP_INACT_TIME_FEATURE_DEFAULT,
CFG_ENABLE_EGAP_INACT_TIME_FEATURE_MIN,
CFG_ENABLE_EGAP_INACT_TIME_FEATURE_MAX),
REG_VARIABLE(CFG_ENABLE_EGAP_WAIT_TIME_FEATURE, WLAN_PARAM_Integer,
hdd_config_t, egap_wait_time,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_ENABLE_EGAP_WAIT_TIME_FEATURE_DEFAULT,
CFG_ENABLE_EGAP_WAIT_TIME_FEATURE_MIN,
CFG_ENABLE_EGAP_WAIT_TIME_FEATURE_MAX),
REG_VARIABLE(CFG_ENABLE_EGAP_FLAGS_FEATURE, WLAN_PARAM_Integer,
hdd_config_t, egap_feature_flag,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_ENABLE_EGAP_FLAGS_FEATURE_DEFAULT,
CFG_ENABLE_EGAP_FLAGS_FEATURE_MIN,
CFG_ENABLE_EGAP_FLAGS_FEATURE_MAX),
#endif
REG_VARIABLE(CFG_ENABLE_CRASH_INJECT, WLAN_PARAM_Integer,
hdd_config_t, crash_inject_enabled,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_ENABLE_CRASH_INJECT_DEFAULT,
CFG_ENABLE_CRASH_INJECT_MIN,
CFG_ENABLE_CRASH_INJECT_MAX),
REG_VARIABLE(CFG_IGNORE_CAC_NAME, WLAN_PARAM_Integer,
hdd_config_t, ignoreCAC,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_IGNORE_CAC_DEFAULT,
CFG_IGNORE_CAC_MIN,
CFG_IGNORE_CAC_MAX),
REG_VARIABLE(CFG_ENABLE_SAP_DFS_CH_SIFS_BURST_NAME, WLAN_PARAM_Integer,
hdd_config_t, IsSapDfsChSifsBurstEnabled,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_ENABLE_SAP_DFS_CH_SIFS_BURST_DEFAULT,
CFG_ENABLE_SAP_DFS_CH_SIFS_BURST_MIN,
CFG_ENABLE_SAP_DFS_CH_SIFS_BURST_MAX ),
REG_VARIABLE(CFG_DFS_RADAR_PRI_MULTIPLIER_NAME, WLAN_PARAM_Integer,
hdd_config_t, dfsRadarPriMultiplier,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_DFS_RADAR_PRI_MULTIPLIER_DEFAULT,
CFG_DFS_RADAR_PRI_MULTIPLIER_MIN,
CFG_DFS_RADAR_PRI_MULTIPLIER_MAX),
REG_VARIABLE( CFG_REORDER_OFFLOAD_SUPPORT_NAME, WLAN_PARAM_Integer,
hdd_config_t, reorderOffloadSupport,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_REORDER_OFFLOAD_SUPPORT_DEFAULT,
CFG_REORDER_OFFLOAD_SUPPORT_MIN,
CFG_REORDER_OFFLOAD_SUPPORT_MAX ),
#ifdef IPA_UC_OFFLOAD
REG_VARIABLE( CFG_IPA_UC_OFFLOAD_ENABLED_NAME, WLAN_PARAM_Integer,
hdd_config_t, IpaUcOffloadEnabled,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK,
CFG_IPA_UC_OFFLOAD_ENABLED_DEFAULT,
CFG_IPA_UC_OFFLOAD_ENABLED_MIN,
CFG_IPA_UC_OFFLOAD_ENABLED_MAX ),
REG_VARIABLE( CFG_IPA_UC_TX_BUF_COUNT_NAME, WLAN_PARAM_Integer,
hdd_config_t, IpaUcTxBufCount,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK,
CFG_IPA_UC_TX_BUF_COUNT_DEFAULT,
CFG_IPA_UC_TX_BUF_COUNT_MIN,
CFG_IPA_UC_TX_BUF_COUNT_MAX ),
REG_VARIABLE( CFG_IPA_UC_TX_BUF_SIZE_NAME, WLAN_PARAM_Integer,
hdd_config_t, IpaUcTxBufSize,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK,
CFG_IPA_UC_TX_BUF_SIZE_DEFAULT,
CFG_IPA_UC_TX_BUF_SIZE_MIN,
CFG_IPA_UC_TX_BUF_SIZE_MAX ),
REG_VARIABLE( CFG_IPA_UC_RX_IND_RING_COUNT_NAME, WLAN_PARAM_Integer,
hdd_config_t, IpaUcRxIndRingCount,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK,
CFG_IPA_UC_RX_IND_RING_COUNT_DEFAULT,
CFG_IPA_UC_RX_IND_RING_COUNT_MIN,
CFG_IPA_UC_RX_IND_RING_COUNT_MAX ),
REG_VARIABLE( CFG_IPA_UC_TX_PARTITION_BASE_NAME, WLAN_PARAM_Integer,
hdd_config_t, IpaUcTxPartitionBase,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK,
CFG_IPA_UC_TX_PARTITION_BASE_DEFAULT,
CFG_IPA_UC_TX_PARTITION_BASE_MIN,
CFG_IPA_UC_TX_PARTITION_BASE_MAX ),
#endif /* IPA_UC_OFFLOAD */
#ifdef WLAN_LOGGING_SOCK_SVC_ENABLE
REG_VARIABLE(CFG_WLAN_LOGGING_SUPPORT_NAME, WLAN_PARAM_Integer,
hdd_config_t, wlanLoggingEnable,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_WLAN_LOGGING_SUPPORT_DEFAULT,
CFG_WLAN_LOGGING_SUPPORT_DISABLE,
CFG_WLAN_LOGGING_SUPPORT_ENABLE ),
REG_VARIABLE(CFG_WLAN_LOGGING_FE_CONSOLE_SUPPORT_NAME, WLAN_PARAM_Integer,
hdd_config_t, wlanLoggingFEToConsole,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_WLAN_LOGGING_FE_CONSOLE_SUPPORT_DEFAULT,
CFG_WLAN_LOGGING_FE_CONSOLE_SUPPORT_DISABLE,
CFG_WLAN_LOGGING_FE_CONSOLE_SUPPORT_ENABLE ),
REG_VARIABLE(CFG_WLAN_LOGGING_NUM_BUF_NAME, WLAN_PARAM_Integer,
hdd_config_t, wlanLoggingNumBuf,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_WLAN_LOGGING_NUM_BUF_DEFAULT,
CFG_WLAN_LOGGING_NUM_BUF_MIN,
CFG_WLAN_LOGGING_NUM_BUF_MAX ),
#endif /* WLAN_LOGGING_SOCK_SVC_ENABLE */
REG_VARIABLE( CFG_ENABLE_SIFS_BURST, WLAN_PARAM_Integer,
hdd_config_t, enableSifsBurst,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_ENABLE_SIFS_BURST_DEFAULT,
CFG_ENABLE_SIFS_BURST_MIN,
CFG_ENABLE_SIFS_BURST_MAX ),
#ifdef WLAN_FEATURE_LPSS
REG_VARIABLE(CFG_ENABLE_LPASS_SUPPORT, WLAN_PARAM_Integer,
hdd_config_t, enablelpasssupport,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_ENABLE_LPASS_SUPPORT_DEFAULT,
CFG_ENABLE_LPASS_SUPPORT_MIN,
CFG_ENABLE_LPASS_SUPPORT_MAX),
#endif
#ifdef WLAN_FEATURE_NAN
REG_VARIABLE(CFG_ENABLE_NAN_SUPPORT, WLAN_PARAM_Integer,
hdd_config_t, enable_nan_support,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_ENABLE_NAN_SUPPORT_DEFAULT,
CFG_ENABLE_NAN_SUPPORT_MIN,
CFG_ENABLE_NAN_SUPPORT_MAX),
#endif
REG_VARIABLE( CFG_ENABLE_SELF_RECOVERY, WLAN_PARAM_Integer,
hdd_config_t, enableSelfRecovery,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_ENABLE_SELF_RECOVERY_DEFAULT,
CFG_ENABLE_SELF_RECOVERY_MIN,
CFG_ENABLE_SELF_RECOVERY_MAX ),
REG_VARIABLE( CFG_ENABLE_AC_TXQ_OPTIMIZE, WLAN_PARAM_HexInteger,
hdd_config_t, enable_ac_txq_optimize,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_ENABLE_AC_TXQ_OPTIMIZE_DEFAULT,
CFG_ENABLE_AC_TXQ_OPTIMIZE_MIN,
CFG_ENABLE_AC_TXQ_OPTIMIZE_MAX ),
#ifdef FEATURE_WLAN_FORCE_SAP_SCC
REG_VARIABLE(CFG_SAP_SCC_CHAN_AVOIDANCE, WLAN_PARAM_Integer,
hdd_config_t, SapSccChanAvoidance,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_SAP_SCC_CHAN_AVOIDANCE_DEFAULT,
CFG_SAP_SCC_CHAN_AVOIDANCE_MIN,
CFG_SAP_SCC_CHAN_AVOIDANCE_MAX),
#endif /* FEATURE_WLAN_FORCE_SAP_SCC */
REG_VARIABLE( CFG_ENABLE_SAP_SUSPEND, WLAN_PARAM_Integer,
hdd_config_t, enableSapSuspend,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_ENABLE_SAP_SUSPEND_DEFAULT,
CFG_ENABLE_SAP_SUSPEND_MIN,
CFG_ENABLE_SAP_SUSPEND_MAX ),
#ifdef WLAN_FEATURE_EXTWOW_SUPPORT
REG_VARIABLE( CFG_EXTWOW_GO_TO_SUSPEND, WLAN_PARAM_Integer,
hdd_config_t, extWowGotoSuspend,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_EXTWOW_GO_TO_SUSPEND_DEFAULT,
CFG_EXTWOW_GO_TO_SUSPEND_MIN,
CFG_EXTWOW_GO_TO_SUSPEND_MAX ),
REG_VARIABLE( CFG_EXTWOW_APP1_WAKE_PIN_NUMBER, WLAN_PARAM_Integer,
hdd_config_t, extWowApp1WakeupPinNumber,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_EXTWOW_APP1_WAKE_PIN_NUMBER_DEFAULT,
CFG_EXTWOW_APP1_WAKE_PIN_NUMBER_MIN,
CFG_EXTWOW_APP1_WAKE_PIN_NUMBER_MAX ),
REG_VARIABLE( CFG_EXTWOW_APP2_WAKE_PIN_NUMBER, WLAN_PARAM_Integer,
hdd_config_t, extWowApp2WakeupPinNumber,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_EXTWOW_APP2_WAKE_PIN_NUMBER_DEFAULT,
CFG_EXTWOW_APP2_WAKE_PIN_NUMBER_MIN,
CFG_EXTWOW_APP2_WAKE_PIN_NUMBER_MAX ),
REG_VARIABLE( CFG_EXTWOW_KA_INIT_PING_INTERVAL, WLAN_PARAM_Integer,
hdd_config_t, extWowApp2KAInitPingInterval,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_EXTWOW_KA_INIT_PING_INTERVAL_DEFAULT,
CFG_EXTWOW_KA_INIT_PING_INTERVAL_MIN,
CFG_EXTWOW_KA_INIT_PING_INTERVAL_MAX ),
REG_VARIABLE( CFG_EXTWOW_KA_MIN_PING_INTERVAL, WLAN_PARAM_Integer,
hdd_config_t, extWowApp2KAMinPingInterval,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_EXTWOW_KA_MIN_PING_INTERVAL_DEFAULT,
CFG_EXTWOW_KA_MIN_PING_INTERVAL_MIN,
CFG_EXTWOW_KA_MIN_PING_INTERVAL_MAX ),
REG_VARIABLE( CFG_EXTWOW_KA_MAX_PING_INTERVAL, WLAN_PARAM_Integer,
hdd_config_t, extWowApp2KAMaxPingInterval,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_EXTWOW_KA_MAX_PING_INTERVAL_DEFAULT,
CFG_EXTWOW_KA_MAX_PING_INTERVAL_MIN,
CFG_EXTWOW_KA_MAX_PING_INTERVAL_MAX ),
REG_VARIABLE( CFG_EXTWOW_KA_INC_PING_INTERVAL, WLAN_PARAM_Integer,
hdd_config_t, extWowApp2KAIncPingInterval,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_EXTWOW_KA_INC_PING_INTERVAL_DEFAULT,
CFG_EXTWOW_KA_INC_PING_INTERVAL_MIN,
CFG_EXTWOW_KA_INC_PING_INTERVAL_MAX ),
REG_VARIABLE( CFG_EXTWOW_TCP_SRC_PORT, WLAN_PARAM_Integer,
hdd_config_t, extWowApp2TcpSrcPort,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_EXTWOW_TCP_SRC_PORT_DEFAULT,
CFG_EXTWOW_TCP_SRC_PORT_MIN,
CFG_EXTWOW_TCP_SRC_PORT_MAX ),
REG_VARIABLE( CFG_EXTWOW_TCP_DST_PORT, WLAN_PARAM_Integer,
hdd_config_t, extWowApp2TcpDstPort,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_EXTWOW_TCP_DST_PORT_DEFAULT,
CFG_EXTWOW_TCP_DST_PORT_MIN,
CFG_EXTWOW_TCP_DST_PORT_MAX ),
REG_VARIABLE( CFG_EXTWOW_TCP_TX_TIMEOUT, WLAN_PARAM_Integer,
hdd_config_t, extWowApp2TcpTxTimeout,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_EXTWOW_TCP_TX_TIMEOUT_DEFAULT,
CFG_EXTWOW_TCP_TX_TIMEOUT_MIN,
CFG_EXTWOW_TCP_TX_TIMEOUT_MAX ),
REG_VARIABLE( CFG_EXTWOW_TCP_RX_TIMEOUT, WLAN_PARAM_Integer,
hdd_config_t, extWowApp2TcpRxTimeout,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_EXTWOW_TCP_RX_TIMEOUT_DEFAULT,
CFG_EXTWOW_TCP_RX_TIMEOUT_MIN,
CFG_EXTWOW_TCP_RX_TIMEOUT_MAX ),
#endif
REG_VARIABLE( CFG_ENABLE_DEAUTH_TO_DISASSOC_MAP_NAME, WLAN_PARAM_Integer,
hdd_config_t, gEnableDeauthToDisassocMap,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_ENABLE_DEAUTH_TO_DISASSOC_MAP_DEFAULT,
CFG_ENABLE_DEAUTH_TO_DISASSOC_MAP_MIN,
CFG_ENABLE_DEAUTH_TO_DISASSOC_MAP_MAX ),
#ifdef DHCP_SERVER_OFFLOAD
REG_VARIABLE( CFG_DHCP_SERVER_OFFLOAD_SUPPORT_NAME, WLAN_PARAM_Integer,
hdd_config_t, enableDHCPServerOffload,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_DHCP_SERVER_OFFLOAD_SUPPORT_DEFAULT,
CFG_DHCP_SERVER_OFFLOAD_SUPPORT_MIN,
CFG_DHCP_SERVER_OFFLOAD_SUPPORT_MAX ),
REG_VARIABLE( CFG_DHCP_SERVER_OFFLOAD_NUM_CLIENT_NAME, WLAN_PARAM_Integer,
hdd_config_t, dhcpMaxNumClients,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_DHCP_SERVER_OFFLOAD_NUM_CLIENT_DEFAULT,
CFG_DHCP_SERVER_OFFLOAD_NUM_CLIENT_MIN,
CFG_DHCP_SERVER_OFFLOAD_NUM_CLIENT_MAX ),
REG_VARIABLE( CFG_DHCP_SERVER_OFFLOAD_CLIENT_IPBASE_NAME,
WLAN_PARAM_Integer, hdd_config_t, dhcp_client_start_ip,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_DHCP_SERVER_OFFLOAD_CLIENT_IPBASE_DEFAULT,
CFG_DHCP_SERVER_OFFLOAD_CLIENT_IPBASE_MIN,
CFG_DHCP_SERVER_OFFLOAD_CLIENT_IPBASE_MAX ),
REG_VARIABLE_STRING( CFG_DHCP_SERVER_IP_NAME, WLAN_PARAM_String,
hdd_config_t, dhcpServerIP,
VAR_FLAGS_OPTIONAL,
(void *) CFG_DHCP_SERVER_IP_DEFAULT ),
#endif /* DHCP_SERVER_OFFLOAD */
REG_VARIABLE(CFG_ENABLE_DEAUTH_BEFORE_CONNECTION, WLAN_PARAM_Integer,
hdd_config_t, sendDeauthBeforeCon,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_ENABLE_DEAUTH_BEFORE_CONNECTION_DEFAULT,
CFG_ENABLE_DEAUTH_BEFORE_CONNECTION_MIN,
CFG_ENABLE_DEAUTH_BEFORE_CONNECTION_MAX),
REG_VARIABLE( CFG_IGNORE_PEER_ERP_INFO_NAME, WLAN_PARAM_Integer,
hdd_config_t, ignorePeerErpInfo,
VAR_FLAGS_OPTIONAL |
VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_IGNORE_PEER_ERP_INFO_DEFAULT,
CFG_IGNORE_PEER_ERP_INFO_MIN,
CFG_IGNORE_PEER_ERP_INFO_MAX ),
REG_VARIABLE( CFG_ENABLE_MAC_ADDR_SPOOFING, WLAN_PARAM_Integer,
hdd_config_t, enable_mac_spoofing,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_ENABLE_MAC_ADDR_SPOOFING_DEFAULT,
CFG_ENABLE_MAC_ADDR_SPOOFING_MIN,
CFG_ENABLE_MAC_ADDR_SPOOFING_MAX ),
#ifdef IPA_UC_STA_OFFLOAD
REG_VARIABLE( CFG_IPA_UC_STA_OFFLOAD, WLAN_PARAM_Integer,
hdd_config_t, ipa_uc_sta_offload,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_IPA_UC_STA_OFFLOAD_DEFAULT,
CFG_IPA_UC_STA_OFFLOAD_MIN,
CFG_IPA_UC_STA_OFFLOAD_MAX ),
#endif
REG_VARIABLE( CFG_ENABLE_CUSTOM_CONC_RULE1_NAME, WLAN_PARAM_Integer,
hdd_config_t, conc_custom_rule1,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK,
CFG_ENABLE_CUSTOM_CONC_RULE1_NAME_DEFAULT,
CFG_ENABLE_CUSTOM_CONC_RULE1_NAME_MIN,
CFG_ENABLE_CUSTOM_CONC_RULE1_NAME_MAX),
REG_VARIABLE( CFG_ENABLE_CUSTOM_CONC_RULE2_NAME, WLAN_PARAM_Integer,
hdd_config_t, conc_custom_rule2,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK,
CFG_ENABLE_CUSTOM_CONC_RULE2_NAME_DEFAULT,
CFG_ENABLE_CUSTOM_CONC_RULE2_NAME_MIN,
CFG_ENABLE_CUSTOM_CONC_RULE2_NAME_MAX),
REG_VARIABLE( CFG_ENABLE_STA_CONNECTION_IN_5GHZ, WLAN_PARAM_Integer,
hdd_config_t, is_sta_connection_in_5gz_enabled,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK,
CFG_ENABLE_STA_CONNECTION_IN_5GHZ_DEFAULT,
CFG_ENABLE_STA_CONNECTION_IN_5GHZ_MIN,
CFG_ENABLE_STA_CONNECTION_IN_5GHZ_MAX),
#ifdef MDNS_OFFLOAD
REG_VARIABLE( CFG_MDNS_OFFLOAD_SUPPORT_NAME, WLAN_PARAM_Integer,
hdd_config_t, enable_mdns_offload,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_MDNS_OFFLOAD_SUPPORT_DEFAULT,
CFG_MDNS_OFFLOAD_SUPPORT_MIN,
CFG_MDNS_OFFLOAD_SUPPORT_MAX ),
REG_VARIABLE_STRING( CFG_MDNS_FQDN_NAME, WLAN_PARAM_String,
hdd_config_t, mdns_fqdn,
VAR_FLAGS_OPTIONAL,
(void *) CFG_MDNS_FQDN_DEFAULT ),
REG_VARIABLE_STRING( CFG_MDNS_UNIQUE_FQDN_NAME, WLAN_PARAM_String,
hdd_config_t, mdns_uniquefqdn,
VAR_FLAGS_OPTIONAL,
(void *) CFG_MDNS_UNIQUE_FQDN_DEFAULT ),
REG_VARIABLE_STRING( CFG_MDNS_RESPONSE_TYPE_A_NAME, WLAN_PARAM_String,
hdd_config_t, mdns_resp_type_a,
VAR_FLAGS_OPTIONAL,
(void *) CFG_MDNS_RESPONSE_TYPE_A_DEFAULT ),
REG_VARIABLE( CFG_MDNS_RESPONSE_TYPE_A_IPV4_NAME, WLAN_PARAM_HexInteger,
hdd_config_t, mdns_resp_type_a_ipv4,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_MDNS_RESPONSE_TYPE_A_IPV4_DEFAULT,
CFG_MDNS_RESPONSE_TYPE_A_IPV4_MIN,
CFG_MDNS_RESPONSE_TYPE_A_IPV4_MAX ),
REG_VARIABLE_STRING( CFG_MDNS_RESPONSE_TYPE_TXT_NAME, WLAN_PARAM_String,
hdd_config_t, mdns_resp_type_txt,
VAR_FLAGS_OPTIONAL,
(void *) CFG_MDNS_RESPONSE_TYPE_TXT_DEFAULT ),
REG_VARIABLE_STRING( CFG_MDNS_RESPONSE_TYPE_TXT_CNT_NAME, WLAN_PARAM_String,
hdd_config_t, mdns_resp_type_txt_content,
VAR_FLAGS_OPTIONAL,
(void *) CFG_MDNS_RESPONSE_TYPE_TXT_CNT_DEFAULT ),
REG_VARIABLE_STRING( CFG_MDNS_RESPONSE_TYPE_PTR_NAME, WLAN_PARAM_String,
hdd_config_t, mdns_resp_type_ptr,
VAR_FLAGS_OPTIONAL,
(void *) CFG_MDNS_RESPONSE_TYPE_PTR_DEFAULT ),
REG_VARIABLE_STRING( CFG_MDNS_RESPONSE_TYPE_PTR_DN_NAME, WLAN_PARAM_String,
hdd_config_t, mdns_resp_type_ptr_dname,
VAR_FLAGS_OPTIONAL,
(void *) CFG_MDNS_RESPONSE_TYPE_PTR_DN_DEFAULT ),
REG_VARIABLE_STRING( CFG_MDNS_RESPONSE_TYPE_SRV_NAME, WLAN_PARAM_String,
hdd_config_t, mdns_resp_type_srv,
VAR_FLAGS_OPTIONAL,
(void *) CFG_MDNS_RESPONSE_TYPE_SRV_DEFAULT ),
REG_VARIABLE( CFG_MDNS_RESPONSE_TYPE_SRV_PRIORITY_NAME, WLAN_PARAM_Integer,
hdd_config_t, mdns_resp_type_srv_priority,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_MDNS_RESPONSE_TYPE_SRV_PRIORITY_DEFAULT,
CFG_MDNS_RESPONSE_TYPE_SRV_PRIORITY_MIN,
CFG_MDNS_RESPONSE_TYPE_SRV_PRIORITY_MAX ),
REG_VARIABLE( CFG_MDNS_RESPONSE_TYPE_SRV_WEIGHT_NAME, WLAN_PARAM_Integer,
hdd_config_t, mdns_resp_type_srv_weight,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_MDNS_RESPONSE_TYPE_SRV_WEIGHT_DEFAULT,
CFG_MDNS_RESPONSE_TYPE_SRV_WEIGHT_MIN,
CFG_MDNS_RESPONSE_TYPE_SRV_WEIGHT_MAX ),
REG_VARIABLE( CFG_MDNS_RESPONSE_TYPE_SRV_PORT_NAME, WLAN_PARAM_Integer,
hdd_config_t, mdns_resp_type_srv_port,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_MDNS_RESPONSE_TYPE_SRV_PORT_DEFAULT,
CFG_MDNS_RESPONSE_TYPE_SRV_PORT_MIN,
CFG_MDNS_RESPONSE_TYPE_SRV_PORT_MAX ),
REG_VARIABLE_STRING( CFG_MDNS_RESPONSE_TYPE_SRV_TGT_NAME, WLAN_PARAM_String,
hdd_config_t, mdns_resp_type_srv_target,
VAR_FLAGS_OPTIONAL,
(void *) CFG_MDNS_RESPONSE_TYPE_SRV_TGT_DEFAULT ),
#endif /* MDNS_OFFLOAD */
#ifdef SAP_AUTH_OFFLOAD
REG_VARIABLE( CFG_ENABLE_SAP_AUTH_OFL_NAME, WLAN_PARAM_Integer,
hdd_config_t, enable_sap_auth_offload,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_ENABLE_SAP_AUTH_OFL_DEFAULT,
CFG_ENABLE_SAP_AUTH_OFL_MIN,
CFG_ENABLE_SAP_AUTH_OFL_MAX ),
REG_VARIABLE( CFG_SAP_AUTH_OFL_SECURITY_TYPE_NAME, WLAN_PARAM_Integer,
hdd_config_t, sap_auth_offload_sec_type,
VAR_FLAGS_OPTIONAL | CFG_SAP_AUTH_OFL_SECURITY_TYPE_DEFAULT,
CFG_SAP_AUTH_OFL_SECURITY_TYPE_DEFAULT,
CFG_SAP_AUTH_OFL_SECURITY_TYPE_MIN,
CFG_SAP_AUTH_OFL_SECURITY_TYPE_MAX ),
REG_VARIABLE_STRING( CFG_SAP_AUTH_OFL_KEY_NAME, WLAN_PARAM_String,
hdd_config_t, sap_auth_offload_key,
VAR_FLAGS_OPTIONAL,
(void *) CFG_SAP_AUTH_OFL_KEY_DEFAULT ),
REG_VARIABLE( CFG_CONNECT_FAIL_COUNT_NAME, WLAN_PARAM_Integer,
hdd_config_t, connect_fail_count,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_CONNECT_FAIL_COUNT_DEFAULT,
CFG_CONNECT_FAIL_COUNT_MIN,
CFG_CONNECT_FAIL_COUNT_MAX ),
REG_VARIABLE( CFG_CONNECT_FAIL_DURATION_NAME, WLAN_PARAM_Integer,
hdd_config_t, connect_fail_duration,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_CONNECT_FAIL_DURATION_DEFAULT,
CFG_CONNECT_FAIL_DURATION_MIN,
CFG_CONNECT_FAIL_DURATION_MAX ),
REG_VARIABLE( CFG_CONNECT_BLOCK_DURATION_NAME, WLAN_PARAM_Integer,
hdd_config_t, connect_block_duration,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_CONNECT_BLOCK_DURATION_DEFAULT,
CFG_CONNECT_BLOCK_DURATION_MIN,
CFG_CONNECT_BLOCK_DURATION_MAX ),
#endif /* SAP_AUTH_OFFLOAD */
#ifdef WLAN_FEATURE_SAP_TO_FOLLOW_STA_CHAN
REG_VARIABLE( CFG_SAP_CHANNEL_SWITCH_WITH_CSA_NAME, WLAN_PARAM_Integer,
hdd_config_t, sap_ch_switch_with_csa,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_SAP_CHANNEL_SWITCH_WITH_CSA_DEFAULT,
CFG_SAP_CHANNEL_SWITCH_WITH_CSA_MIN,
CFG_SAP_CHANNEL_SWITCH_WITH_CSA_MAX ),
#endif//#ifdef WLAN_FEATURE_SAP_TO_FOLLOW_STA_CHAN
REG_VARIABLE(CFG_DOT11P_MODE_NAME, WLAN_PARAM_Integer,
hdd_config_t, dot11p_mode,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_DOT11P_MODE_DEFAULT,
CFG_DOT11P_MODE_MIN,
CFG_DOT11P_MODE_MAX),
REG_VARIABLE( CFG_ENABLE_RAMDUMP_COLLECTION, WLAN_PARAM_Integer,
hdd_config_t, is_ramdump_enabled,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_ENABLE_RAMDUMP_COLLECTION_DEFAULT,
CFG_ENABLE_RAMDUMP_COLLECTION_MIN,
CFG_ENABLE_RAMDUMP_COLLECTION_MAX ),
REG_VARIABLE(CFG_SAP_DOT11MC, WLAN_PARAM_Integer,
hdd_config_t, sap_dot11mc,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_SAP_DOT11MC_DEFAULT,
CFG_SAP_DOT11MC_MIN,
CFG_SAP_DOT11MC_MAX ),
REG_VARIABLE( CFG_STA_MIRACAST_MCC_REST_TIME_VAL, WLAN_PARAM_Integer,
hdd_config_t, sta_miracast_mcc_rest_time_val,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_STA_MIRACAST_MCC_REST_TIME_VAL_DEFAULT,
CFG_STA_MIRACAST_MCC_REST_TIME_VAL_MIN,
CFG_STA_MIRACAST_MCC_REST_TIME_VAL_MAX ),
#ifdef FEATURE_AP_MCC_CH_AVOIDANCE
REG_VARIABLE(CFG_SAP_MCC_CHANNEL_AVOIDANCE_NAME,
WLAN_PARAM_Integer,
hdd_config_t,
sap_channel_avoidance,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK,
CFG_SAP_MCC_CHANNEL_AVOIDANCE_DEFAULT,
CFG_SAP_MCC_CHANNEL_AVOIDANCE_MIN,
CFG_SAP_MCC_CHANNEL_AVOIDANCE_MAX ),
#endif /* FEATURE_AP_MCC_CH_AVOIDANCE */
REG_VARIABLE(CFG_SAP_P2P_11AC_OVERRIDE_NAME, WLAN_PARAM_Integer,
hdd_config_t, sap_p2p_11ac_override,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_SAP_P2P_11AC_OVERRIDE_DEFAULT,
CFG_SAP_P2P_11AC_OVERRIDE_MIN,
CFG_SAP_P2P_11AC_OVERRIDE_MAX),
REG_VARIABLE(CFG_ENABLE_NON_DFS_CHAN_ON_RADAR, WLAN_PARAM_Integer,
hdd_config_t, prefer_non_dfs_on_radar,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_ENABLE_NON_DFS_CHAN_ON_RADAR_DEFAULT,
CFG_ENABLE_NON_DFS_CHAN_ON_RADAR_MIN,
CFG_ENABLE_NON_DFS_CHAN_ON_RADAR_MAX),
/* For P2P */
REG_VARIABLE(CFG_BTC_BT_INTERVAL_PAGE_P2P, WLAN_PARAM_Integer,
hdd_config_t, coex_page_p2p_bt_interval,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_BTC_BT_INTERVAL_PAGE_P2P_DEFAULT,
CFG_BTC_BT_INTERVAL_PAGE_P2P_MIN,
CFG_BTC_BT_INTERVAL_PAGE_P2P_MAX),
REG_VARIABLE(CFG_BTC_WLAN_INTERVAL_PAGE_P2P, WLAN_PARAM_Integer,
hdd_config_t, coex_page_p2p_wlan_interval,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_BTC_WLAN_INTERVAL_PAGE_P2P_DEFAULT,
CFG_BTC_WLAN_INTERVAL_PAGE_P2P_MIN,
CFG_BTC_WLAN_INTERVAL_PAGE_P2P_MAX),
/* For STA */
REG_VARIABLE(CFG_BTC_BT_INTERVAL_PAGE_STA, WLAN_PARAM_Integer,
hdd_config_t, coex_page_sta_bt_interval,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_BTC_BT_INTERVAL_PAGE_STA_DEFAULT,
CFG_BTC_BT_INTERVAL_PAGE_STA_MIN,
CFG_BTC_BT_INTERVAL_PAGE_STA_MAX),
REG_VARIABLE(CFG_BTC_WLAN_INTERVAL_PAGE_STA, WLAN_PARAM_Integer,
hdd_config_t, coex_page_sta_wlan_interval,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_BTC_WLAN_INTERVAL_PAGE_STA_DEFAULT,
CFG_BTC_WLAN_INTERVAL_PAGE_STA_MIN,
CFG_BTC_WLAN_INTERVAL_PAGE_STA_MAX),
/* For SAP */
REG_VARIABLE(CFG_BTC_BT_INTERVAL_PAGE_SAP, WLAN_PARAM_Integer,
hdd_config_t, coex_page_sap_bt_interval,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_BTC_BT_INTERVAL_PAGE_SAP_DEFAULT,
CFG_BTC_BT_INTERVAL_PAGE_SAP_MIN,
CFG_BTC_BT_INTERVAL_PAGE_SAP_MAX),
REG_VARIABLE(CFG_BTC_WLAN_INTERVAL_PAGE_SAP, WLAN_PARAM_Integer,
hdd_config_t, coex_page_sap_wlan_interval,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_BTC_WLAN_INTERVAL_PAGE_SAP_DEFAULT,
CFG_BTC_WLAN_INTERVAL_PAGE_SAP_MIN,
CFG_BTC_WLAN_INTERVAL_PAGE_SAP_MAX),
/* During WLAN Conn */
REG_VARIABLE(CFG_BTC_WLAN_CONN_PARAM0, WLAN_PARAM_Integer,
hdd_config_t, coex_config_wlan_conn_val0,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_BTC_WLAN_CONN_PARAM0_DEFAULT,
CFG_BTC_WLAN_CONN_PARAM0_MIN,
CFG_BTC_WLAN_CONN_PARAM0_MAX),
REG_VARIABLE(CFG_BTC_WLAN_CONN_PARAM1, WLAN_PARAM_Integer,
hdd_config_t, coex_config_wlan_conn_val1,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_BTC_WLAN_CONN_PARAM1_DEFAULT,
CFG_BTC_WLAN_CONN_PARAM1_MIN,
CFG_BTC_WLAN_CONN_PARAM1_MAX),
REG_VARIABLE(CFG_BTC_DYNAMIC_WLAN_BT_COEX, WLAN_PARAM_Integer,
hdd_config_t, dynamic_wlan_bt_coex,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_BTC_DYNAMIC_WLAN_BT_COEX_DEFAULT,
CFG_BTC_DYNAMIC_WLAN_BT_COEX_MIN,
CFG_BTC_DYNAMIC_WLAN_BT_COEX_MAX),
REG_VARIABLE(CFG_BTC_ANTENNA_ISOLATION, WLAN_PARAM_Integer,
hdd_config_t, antenna_isolation,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_BTC_ANTENNA_ISOLATION_DEFAULT,
CFG_BTC_ANTENNA_ISOLATION_MIN,
CFG_BTC_ANTENNA_ISOLATION_MAX),
REG_VARIABLE(CFG_BTC_BT_INTERVAL_PAGE_P2P_STA, WLAN_PARAM_Integer,
hdd_config_t, coex_page_p2p_sta_bt_interval,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_BTC_BT_INTERVAL_PAGE_P2P_STA_DEFAULT,
CFG_BTC_BT_INTERVAL_PAGE_P2P_STA_MIN,
CFG_BTC_BT_INTERVAL_PAGE_P2P_STA_MAX),
REG_VARIABLE(CFG_BTC_WLAN_INTERVAL_PAGE_P2P_STA, WLAN_PARAM_Integer,
hdd_config_t, coex_page_p2p_sta_wlan_interval,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_BTC_WLAN_INTERVAL_PAGE_P2P_STA_DEFAULT,
CFG_BTC_WLAN_INTERVAL_PAGE_P2P_STA_MIN,
CFG_BTC_WLAN_INTERVAL_PAGE_P2P_STA_MAX),
REG_VARIABLE(CFG_BTC_BT_INTERVAL_INQ_STA, WLAN_PARAM_Integer,
hdd_config_t, coex_inquiry_sta_bt_interval,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_BTC_BT_INTERVAL_INQ_STA_DEFAULT,
CFG_BTC_BT_INTERVAL_INQ_STA_MIN,
CFG_BTC_BT_INTERVAL_INQ_STA_MAX),
REG_VARIABLE(CFG_BTC_WLAN_INTERVAL_INQ_STA, WLAN_PARAM_Integer,
hdd_config_t, coex_inquiry_sta_wlan_interval,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_BTC_WLAN_INTERVAL_INQ_STA_DEFAULT,
CFG_BTC_WLAN_INTERVAL_INQ_STA_MIN,
CFG_BTC_WLAN_INTERVAL_INQ_STA_MAX),
REG_VARIABLE(CFG_BTC_BT_INTERVAL_INQ_SAP, WLAN_PARAM_Integer,
hdd_config_t, coex_inquiry_sap_bt_interval,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_BTC_BT_INTERVAL_INQ_SAP_DEFAULT,
CFG_BTC_BT_INTERVAL_INQ_SAP_MIN,
CFG_BTC_BT_INTERVAL_INQ_SAP_MAX),
REG_VARIABLE(CFG_BTC_WLAN_INTERVAL_INQ_SAP, WLAN_PARAM_Integer,
hdd_config_t, coex_inquiry_sap_wlan_interval,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_BTC_WLAN_INTERVAL_INQ_SAP_DEFAULT,
CFG_BTC_WLAN_INTERVAL_INQ_SAP_MIN,
CFG_BTC_WLAN_INTERVAL_INQ_SAP_MAX),
REG_VARIABLE(CFG_BTC_BT_INTERVAL_INQ_P2P, WLAN_PARAM_Integer,
hdd_config_t, coex_inquiry_p2p_bt_interval,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_BTC_BT_INTERVAL_INQ_P2P_DEFAULT,
CFG_BTC_BT_INTERVAL_INQ_P2P_MIN,
CFG_BTC_BT_INTERVAL_INQ_P2P_MAX),
REG_VARIABLE(CFG_BTC_WLAN_INTERVAL_INQ_P2P, WLAN_PARAM_Integer,
hdd_config_t, coex_inquiry_p2p_wlan_interval,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_BTC_WLAN_INTERVAL_INQ_P2P_DEFAULT,
CFG_BTC_WLAN_INTERVAL_INQ_P2P_MIN,
CFG_BTC_WLAN_INTERVAL_INQ_P2P_MAX),
REG_VARIABLE(CFG_BTC_BT_INTERVAL_INQ_P2P_STA, WLAN_PARAM_Integer,
hdd_config_t, coex_inquiry_p2p_sta_bt_interval,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_BTC_BT_INTERVAL_INQ_P2P_STA_DEFAULT,
CFG_BTC_BT_INTERVAL_INQ_P2P_STA_MIN,
CFG_BTC_BT_INTERVAL_INQ_P2P_STA_MAX),
REG_VARIABLE(CFG_BTC_WLAN_INTERVAL_INQ_P2P_STA, WLAN_PARAM_Integer,
hdd_config_t, coex_inquiry_p2p_sta_wlan_interval,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_BTC_WLAN_INTERVAL_INQ_P2P_STA_DEFAULT,
CFG_BTC_WLAN_INTERVAL_INQ_P2P_STA_MIN,
CFG_BTC_WLAN_INTERVAL_INQ_P2P_STA_MAX),
REG_VARIABLE(CFG_BTC_WLAN_COEX_TX_POWER, WLAN_PARAM_Integer,
hdd_config_t, coex_tx_power,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_BTC_WLAN_COEX_TX_POWER_DEFAULT,
CFG_BTC_WLAN_COEX_TX_POWER_MIN,
CFG_BTC_WLAN_COEX_TX_POWER_MAX),
REG_VARIABLE(CFG_INFORM_BSS_RSSI_RAW_NAME, WLAN_PARAM_Integer,
hdd_config_t, inform_bss_rssi_raw,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_INFORM_BSS_RSSI_RAW_DEFAULT,
CFG_INFORM_BSS_RSSI_RAW_MIN,
CFG_INFORM_BSS_RSSI_RAW_MAX),
#ifdef WLAN_FEATURE_TSF
REG_VARIABLE(CFG_SET_TSF_GPIO_PIN_NAME, WLAN_PARAM_Integer,
hdd_config_t, tsf_gpio_pin,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_SET_TSF_GPIO_PIN_DEFAULT,
CFG_SET_TSF_GPIO_PIN_MIN,
CFG_SET_TSF_GPIO_PIN_MAX),
#ifdef WLAN_FEATURE_TSF_PLUS
REG_VARIABLE(CFG_SET_TSF_PTP_OPT_NAME, WLAN_PARAM_HexInteger,
hdd_config_t, tsf_ptp_options,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_SET_TSF_PTP_OPT_DEFAULT,
CFG_SET_TSF_PTP_OPT_MIN,
CFG_SET_TSF_PTP_OPT_MAX),
#endif /* WLAN_FEATURE_TSF_PLUS */
#endif
REG_VARIABLE(CFG_FINE_TIME_MEAS_CAPABILITY, WLAN_PARAM_HexInteger,
hdd_config_t, fine_time_meas_cap,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_FINE_TIME_MEAS_CAPABILITY_DEFAULT,
CFG_FINE_TIME_MEAS_CAPABILITY_MIN,
CFG_FINE_TIME_MEAS_CAPABILITY_MAX),
REG_VARIABLE(CFG_P2P_LISTEN_DEFER_INTERVAL_NAME, WLAN_PARAM_Integer,
hdd_config_t, p2p_listen_defer_interval,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_P2P_LISTEN_DEFER_INTERVAL_DEFAULT,
CFG_P2P_LISTEN_DEFER_INTERVAL_MIN,
CFG_P2P_LISTEN_DEFER_INTERVAL_MAX),
REG_VARIABLE(CFG_MULTICAST_HOST_FW_MSGS, WLAN_PARAM_Integer,
hdd_config_t, multicast_host_fw_msgs,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_MULTICAST_HOST_FW_MSGS_DEFAULT,
CFG_MULTICAST_HOST_FW_MSGS_MIN,
CFG_MULTICAST_HOST_FW_MSGS_MAX),
REG_VARIABLE(CFG_DROPPED_PKT_DISCONNECT_TH_NAME, WLAN_PARAM_Integer,
hdd_config_t, pkt_err_disconn_th,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_DROPPED_PKT_DISCONNECT_TH_DEFAULT,
CFG_DROPPED_PKT_DISCONNECT_TH_MIN,
CFG_DROPPED_PKT_DISCONNECT_TH_MAX),
REG_VARIABLE(CFG_TX_CHAIN_MASK_CCK, WLAN_PARAM_Integer,
hdd_config_t, tx_chain_mask_cck,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_TX_CHAIN_MASK_CCK_DEFAULT,
CFG_TX_CHAIN_MASK_CCK_MIN,
CFG_TX_CHAIN_MASK_CCK_MAX),
REG_VARIABLE(CFG_TX_CHAIN_MASK_1SS, WLAN_PARAM_Integer,
hdd_config_t, tx_chain_mask_1ss,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_TX_CHAIN_MASK_1SS_DEFAULT,
CFG_TX_CHAIN_MASK_1SS_MIN,
CFG_TX_CHAIN_MASK_1SS_MAX),
REG_VARIABLE(CFG_TX_SCH_DELAY, WLAN_PARAM_Integer,
hdd_config_t, tx_sch_delay,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_TX_SCH_DELAY_DEFAULT,
CFG_TX_SCH_DELAY_MIN,
CFG_TX_SCH_DELAY_MAX),
REG_VARIABLE(CFG_SELF_GEN_FRM_PWR, WLAN_PARAM_Integer,
hdd_config_t, self_gen_frm_pwr,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_SELF_GEN_FRM_PWR_DEFAULT,
CFG_SELF_GEN_FRM_PWR_MIN,
CFG_SELF_GEN_FRM_PWR_MAX),
#ifdef FEATURE_WLAN_EXTSCAN
REG_VARIABLE(CFG_EXTSCAN_ALLOWED_NAME, WLAN_PARAM_Integer,
hdd_config_t, extscan_enabled,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_EXTSCAN_ALLOWED_DEF,
CFG_EXTSCAN_ALLOWED_MIN,
CFG_EXTSCAN_ALLOWED_MAX ),
REG_VARIABLE(CFG_EXTSCAN_PASSIVE_MAX_CHANNEL_TIME_NAME, WLAN_PARAM_Integer,
hdd_config_t, extscan_passive_max_chn_time,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_EXTSCAN_PASSIVE_MAX_CHANNEL_TIME_DEFAULT,
CFG_EXTSCAN_PASSIVE_MAX_CHANNEL_TIME_MIN,
CFG_EXTSCAN_PASSIVE_MAX_CHANNEL_TIME_MAX ),
REG_VARIABLE(CFG_EXTSCAN_PASSIVE_MIN_CHANNEL_TIME_NAME, WLAN_PARAM_Integer,
hdd_config_t, extscan_passive_min_chn_time,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_EXTSCAN_PASSIVE_MIN_CHANNEL_TIME_DEFAULT,
CFG_EXTSCAN_PASSIVE_MIN_CHANNEL_TIME_MIN,
CFG_EXTSCAN_PASSIVE_MIN_CHANNEL_TIME_MAX),
REG_VARIABLE(CFG_EXTSCAN_ACTIVE_MAX_CHANNEL_TIME_NAME, WLAN_PARAM_Integer,
hdd_config_t, extscan_active_max_chn_time,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_EXTSCAN_ACTIVE_MAX_CHANNEL_TIME_DEFAULT,
CFG_EXTSCAN_ACTIVE_MAX_CHANNEL_TIME_MIN,
CFG_EXTSCAN_ACTIVE_MAX_CHANNEL_TIME_MAX),
REG_VARIABLE(CFG_EXTSCAN_ACTIVE_MIN_CHANNEL_TIME_NAME, WLAN_PARAM_Integer,
hdd_config_t, extscan_active_min_chn_time,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_EXTSCAN_ACTIVE_MIN_CHANNEL_TIME_DEFAULT,
CFG_EXTSCAN_ACTIVE_MIN_CHANNEL_TIME_MIN,
CFG_EXTSCAN_ACTIVE_MIN_CHANNEL_TIME_MAX),
#endif
#ifdef WLAN_FEATURE_UDP_RESPONSE_OFFLOAD
REG_VARIABLE(CFG_UDP_RESP_OFFLOAD_SUPPORT_NAME, WLAN_PARAM_Integer,
hdd_config_t, udp_resp_offload_support,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_UDP_RESP_OFFLOAD_SUPPORT_DEFAULT,
CFG_UDP_RESP_OFFLOAD_SUPPORT_MIN,
CFG_UDP_RESP_OFFLOAD_SUPPORT_MAX),
REG_VARIABLE(CFG_UDP_RESP_OFFLOAD_DEST_PORT_NAME, WLAN_PARAM_Integer,
hdd_config_t, dest_port,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_UDP_RESP_OFFLOAD_DEST_PORT_DEFAULT,
CFG_UDP_RESP_OFFLOAD_DEST_PORT_MIN,
CFG_UDP_RESP_OFFLOAD_DEST_PORT_MAX),
REG_VARIABLE_STRING(CFG_UDP_RESP_OFFLOAD_PAYLOAD_FILTER_NAME,
WLAN_PARAM_String,
hdd_config_t, payload_filter,
VAR_FLAGS_OPTIONAL,
(void *)CFG_UDP_RESP_OFFLOAD_PAYLOAD_FILTER_DEFAULT),
REG_VARIABLE_STRING(CFG_UDP_RESP_OFFLOAD_RESPONSE_PAYLOAD_NAME,
WLAN_PARAM_String,
hdd_config_t, response_payload,
VAR_FLAGS_OPTIONAL,
(void *)CFG_UDP_RESP_OFFLOAD_RESPONSE_PAYLOAD_DEFAULT),
#endif
#ifdef WLAN_FEATURE_WOW_PULSE
REG_VARIABLE(CFG_WOW_PULSE_SUPPORT_NAME, WLAN_PARAM_Integer,
hdd_config_t, wow_pulse_support,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_WOW_PULSE_SUPPORT_DEFAULT,
CFG_WOW_PULSE_SUPPORT_MIN,
CFG_WOW_PULSE_SUPPORT_MAX),
REG_VARIABLE(CFG_WOW_PULSE_PIN_NAME, WLAN_PARAM_Integer,
hdd_config_t, wow_pulse_pin,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_WOW_PULSE_PIN_DEFAULT,
CFG_WOW_PULSE_PIN_MIN,
CFG_WOW_PULSE_PIN_MAX),
REG_VARIABLE(CFG_WOW_PULSE_INTERVAL_LOW_NAME, WLAN_PARAM_Integer,
hdd_config_t, wow_pulse_interval_low,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_WOW_PULSE_INTERVAL_LOW_DEFAULT,
CFG_WOW_PULSE_INTERVAL_LOW_MIN,
CFG_WOW_PULSE_INTERVAL_LOW_MAX),
REG_VARIABLE(CFG_WOW_PULSE_INTERVAL_HIGH_NAME, WLAN_PARAM_Integer,
hdd_config_t, wow_pulse_interval_high,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_WOW_PULSE_INTERVAL_HIGH_DEFAULT,
CFG_WOW_PULSE_INTERVAL_HIGH_MIN,
CFG_WOW_PULSE_INTERVAL_HIGH_MAX),
#endif
REG_VARIABLE(CFG_MIB_STATS_ENABLED_NAME, WLAN_PARAM_Integer,
hdd_config_t, mib_stats_enabled,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_MIB_STATS_ENABLED_DEFAULT,
CFG_MIB_STATS_ENABLED_MIN,
CFG_MIB_STATS_ENABLED_MAX),
REG_VARIABLE(CFG_DBG_MAX_MGMT_TX_FAILURE_COUNT_NAME, WLAN_PARAM_Integer,
hdd_config_t, max_mgmt_tx_fail_count,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_DBG_MAX_MGMT_TX_FAILURE_COUNT_DEFAULT,
CFG_DBG_MAX_MGMT_TX_FAILURE_COUNT_MIN,
CFG_DBG_MAX_MGMT_TX_FAILURE_COUNT_MAX),
REG_VARIABLE(CFG_FIRST_SCAN_BUCKET_THRESHOLD_NAME, WLAN_PARAM_SignedInteger,
hdd_config_t, first_scan_bucket_threshold,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_FIRST_SCAN_BUCKET_THRESHOLD_DEFAULT,
CFG_FIRST_SCAN_BUCKET_THRESHOLD_MIN,
CFG_FIRST_SCAN_BUCKET_THRESHOLD_MAX),
REG_VARIABLE(CFG_ENABLE_FATAL_EVENT_TRIGGER, WLAN_PARAM_Integer,
hdd_config_t, enable_fatal_event,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_ENABLE_FATAL_EVENT_TRIGGER_DEFAULT,
CFG_ENABLE_FATAL_EVENT_TRIGGER_MIN,
CFG_ENABLE_FATAL_EVENT_TRIGGER_MAX),
REG_VARIABLE(CFG_ENABLE_GO_CTS2SELF_FOR_STA,
WLAN_PARAM_Integer,
hdd_config_t, enable_go_cts2self_for_sta,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_ENABLE_GO_CTS2SELF_FOR_STA_DEFAULT,
CFG_ENABLE_GO_CTS2SELF_FOR_STA_MIN,
CFG_ENABLE_GO_CTS2SELF_FOR_STA_MAX),
REG_VARIABLE(CFG_INDOOR_CHANNEL_SUPPORT_NAME,
WLAN_PARAM_Integer,
hdd_config_t, indoor_channel_support,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_INDOOR_CHANNEL_SUPPORT_DEFAULT,
CFG_INDOOR_CHANNEL_SUPPORT_MIN,
CFG_INDOOR_CHANNEL_SUPPORT_MAX),
REG_VARIABLE(CFG_SAP_TX_LEAKAGE_THRESHOLD_NAME,
WLAN_PARAM_Integer,
hdd_config_t, sap_tx_leakage_threshold,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_SAP_TX_LEAKAGE_THRESHOLD_DEFAULT,
CFG_SAP_TX_LEAKAGE_THRESHOLD_MIN,
CFG_SAP_TX_LEAKAGE_THRESHOLD_MAX),
REG_VARIABLE(CFG_IGNORE_PEER_HT_MODE_NAME, WLAN_PARAM_Integer,
hdd_config_t, ignore_peer_ht_opmode,
VAR_FLAGS_OPTIONAL |
VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_IGNORE_PEER_HT_MODE_DEFAULT,
CFG_IGNORE_PEER_HT_MODE_MIN,
CFG_IGNORE_PEER_HT_MODE_MAX),
#ifdef WLAN_FEATURE_NAN_DATAPATH
REG_VARIABLE(CFG_ENABLE_NAN_DATAPATH_NAME, WLAN_PARAM_Integer,
hdd_config_t, enable_nan_datapath,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_ENABLE_NAN_DATAPATH_DEFAULT,
CFG_ENABLE_NAN_DATAPATH_MIN,
CFG_ENABLE_NAN_DATAPATH_MAX),
REG_VARIABLE(CFG_ENABLE_NAN_NDI_CHANNEL_NAME, WLAN_PARAM_Integer,
hdd_config_t, nan_datapath_ndi_channel,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_ENABLE_NAN_NDI_CHANNEL_DEFAULT,
CFG_ENABLE_NAN_NDI_CHANNEL_MIN,
CFG_ENABLE_NAN_NDI_CHANNEL_MAX),
#endif
REG_VARIABLE( CFG_OPTIMIZE_CA_EVENT_NAME, WLAN_PARAM_Integer,
hdd_config_t, goptimize_chan_avoid_event,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_OPTIMIZE_CA_EVENT_DEFAULT,
CFG_OPTIMIZE_CA_EVENT_DISABLE,
CFG_OPTIMIZE_CA_EVENT_ENABLE ),
REG_VARIABLE(CFG_USE_OTP_MAC, WLAN_PARAM_Integer,
hdd_config_t, g_use_otpmac,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_USE_OTP_MAC_DEFAULT,
CFG_USE_OTP_MAC_MIN,
CFG_USE_OTP_MAC_MAX),
REG_VARIABLE(CFG_TX_AGGREGATION_SIZE, WLAN_PARAM_Integer,
hdd_config_t, tx_aggregation_size,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_TX_AGGREGATION_SIZE_DEFAULT,
CFG_TX_AGGREGATION_SIZE_MIN,
CFG_TX_AGGREGATION_SIZE_MAX),
REG_VARIABLE(CFG_RX_AGGREGATION_SIZE, WLAN_PARAM_Integer,
hdd_config_t, rx_aggregation_size,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_RX_AGGREGATION_SIZE_DEFAULT,
CFG_RX_AGGREGATION_SIZE_MIN,
CFG_RX_AGGREGATION_SIZE_MAX),
REG_VARIABLE(CFG_CREATE_BUG_REPORT_FOR_SCAN, WLAN_PARAM_Integer,
hdd_config_t, bug_report_for_scan_results,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_CREATE_BUG_REPORT_FOR_SCAN_DEFAULT,
CFG_CREATE_BUG_REPORT_FOR_SCAN_DISABLE,
CFG_CREATE_BUG_REPORT_FOR_SCAN_ENABLE),
REG_VARIABLE(CFG_ENABLE_EDCA_INI_NAME, WLAN_PARAM_Integer,
hdd_config_t, enable_edca_params,
VAR_FLAGS_OPTIONAL |
VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_ENABLE_EDCA_INI_DEFAULT,
CFG_ENABLE_EDCA_INI_MIN,
CFG_ENABLE_EDCA_INI_MAX),
REG_VARIABLE(CFG_EDCA_VO_CWMIN_VALUE_NAME, WLAN_PARAM_Integer,
hdd_config_t, edca_vo_cwmin,
VAR_FLAGS_OPTIONAL |
VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_EDCA_VO_CWMIN_VALUE_DEFAULT,
CFG_EDCA_VO_CWMIN_VALUE_MIN,
CFG_EDCA_VO_CWMIN_VALUE_MAX),
REG_VARIABLE(CFG_EDCA_VI_CWMIN_VALUE_NAME, WLAN_PARAM_Integer,
hdd_config_t, edca_vi_cwmin,
VAR_FLAGS_OPTIONAL |
VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_EDCA_VI_CWMIN_VALUE_DEFAULT,
CFG_EDCA_VI_CWMIN_VALUE_MIN,
CFG_EDCA_VI_CWMIN_VALUE_MAX),
REG_VARIABLE(CFG_EDCA_BK_CWMIN_VALUE_NAME, WLAN_PARAM_Integer,
hdd_config_t, edca_bk_cwmin,
VAR_FLAGS_OPTIONAL |
VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_EDCA_BK_CWMIN_VALUE_DEFAULT,
CFG_EDCA_BK_CWMIN_VALUE_MIN,
CFG_EDCA_BK_CWMIN_VALUE_MAX),
REG_VARIABLE(CFG_EDCA_BE_CWMIN_VALUE_NAME, WLAN_PARAM_Integer,
hdd_config_t, edca_be_cwmin,
VAR_FLAGS_OPTIONAL |
VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_EDCA_BE_CWMIN_VALUE_DEFAULT,
CFG_EDCA_BE_CWMIN_VALUE_MIN,
CFG_EDCA_BE_CWMIN_VALUE_MAX),
REG_VARIABLE(CFG_EDCA_VO_CWMAX_VALUE_NAME, WLAN_PARAM_Integer,
hdd_config_t, edca_vo_cwmax,
VAR_FLAGS_OPTIONAL |
VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_EDCA_VO_CWMAX_VALUE_DEFAULT,
CFG_EDCA_VO_CWMAX_VALUE_MIN,
CFG_EDCA_VO_CWMAX_VALUE_MAX),
REG_VARIABLE(CFG_EDCA_VI_CWMAX_VALUE_NAME, WLAN_PARAM_Integer,
hdd_config_t, edca_vi_cwmax,
VAR_FLAGS_OPTIONAL |
VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_EDCA_VI_CWMAX_VALUE_DEFAULT,
CFG_EDCA_VI_CWMAX_VALUE_MIN,
CFG_EDCA_VI_CWMAX_VALUE_MAX),
REG_VARIABLE(CFG_EDCA_BK_CWMAX_VALUE_NAME, WLAN_PARAM_Integer,
hdd_config_t, edca_bk_cwmax,
VAR_FLAGS_OPTIONAL |
VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_EDCA_BK_CWMAX_VALUE_DEFAULT,
CFG_EDCA_BK_CWMAX_VALUE_MIN,
CFG_EDCA_BK_CWMAX_VALUE_MAX),
REG_VARIABLE(CFG_EDCA_BE_CWMAX_VALUE_NAME, WLAN_PARAM_Integer,
hdd_config_t, edca_be_cwmax,
VAR_FLAGS_OPTIONAL |
VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_EDCA_BE_CWMAX_VALUE_DEFAULT,
CFG_EDCA_BE_CWMAX_VALUE_MIN,
CFG_EDCA_BE_CWMAX_VALUE_MAX),
REG_VARIABLE(CFG_EDCA_VO_AIFS_VALUE_NAME, WLAN_PARAM_Integer,
hdd_config_t, edca_vo_aifs,
VAR_FLAGS_OPTIONAL |
VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_EDCA_VO_AIFS_VALUE_DEFAULT,
CFG_EDCA_VO_AIFS_VALUE_MIN,
CFG_EDCA_VO_AIFS_VALUE_MAX),
REG_VARIABLE(CFG_EDCA_VI_AIFS_VALUE_NAME, WLAN_PARAM_Integer,
hdd_config_t, edca_vi_aifs,
VAR_FLAGS_OPTIONAL |
VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_EDCA_VI_AIFS_VALUE_DEFAULT,
CFG_EDCA_VI_AIFS_VALUE_MIN,
CFG_EDCA_VI_AIFS_VALUE_MAX),
REG_VARIABLE(CFG_EDCA_BK_AIFS_VALUE_NAME, WLAN_PARAM_Integer,
hdd_config_t, edca_bk_aifs,
VAR_FLAGS_OPTIONAL |
VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_EDCA_BK_AIFS_VALUE_DEFAULT,
CFG_EDCA_BK_AIFS_VALUE_MIN,
CFG_EDCA_BK_AIFS_VALUE_MAX),
REG_VARIABLE(CFG_EDCA_BE_AIFS_VALUE_NAME, WLAN_PARAM_Integer,
hdd_config_t, edca_be_aifs,
VAR_FLAGS_OPTIONAL |
VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_EDCA_BE_AIFS_VALUE_DEFAULT,
CFG_EDCA_BE_AIFS_VALUE_MIN,
CFG_EDCA_BE_AIFS_VALUE_MAX),
REG_VARIABLE_STRING(CFG_ENABLE_TX_SCHED_WRR_VO, WLAN_PARAM_String,
hdd_config_t, tx_sched_wrr_vo,
VAR_FLAGS_OPTIONAL,
(void *) CFG_ENABLE_TX_SCHED_WRR_VO_DEFAULT),
REG_VARIABLE_STRING(CFG_ENABLE_TX_SCHED_WRR_VI, WLAN_PARAM_String,
hdd_config_t, tx_sched_wrr_vi,
VAR_FLAGS_OPTIONAL,
(void *) CFG_ENABLE_TX_SCHED_WRR_VI_DEFAULT),
REG_VARIABLE_STRING(CFG_ENABLE_TX_SCHED_WRR_BE, WLAN_PARAM_String,
hdd_config_t, tx_sched_wrr_be,
VAR_FLAGS_OPTIONAL,
(void *) CFG_ENABLE_TX_SCHED_WRR_BE_DEFAULT),
REG_VARIABLE_STRING(CFG_ENABLE_TX_SCHED_WRR_BK, WLAN_PARAM_String,
hdd_config_t, tx_sched_wrr_bk,
VAR_FLAGS_OPTIONAL,
(void *) CFG_ENABLE_TX_SCHED_WRR_BK_DEFAULT),
REG_VARIABLE(CFG_TGT_GTX_USR_CFG_NAME, WLAN_PARAM_Integer,
hdd_config_t, tgt_gtx_usr_cfg,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_TGT_GTX_USR_CFG_DEFAULT,
CFG_TGT_GTX_USR_CFG_MIN,
CFG_TGT_GTX_USR_CFG_MAX),
REG_VARIABLE(CFG_SAP_INTERNAL_RESTART_NAME, WLAN_PARAM_Integer,
hdd_config_t, sap_internal_restart,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_SAP_INTERNAL_RESTART_DEFAULT,
CFG_SAP_INTERNAL_RESTART_MIN,
CFG_SAP_INTERNAL_RESTART_MAX),
REG_VARIABLE(CFG_BUG_ON_REINIT_FAILURE_NAME, WLAN_PARAM_Integer,
hdd_config_t, bug_on_reinit_failure,
VAR_FLAGS_OPTIONAL |
VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_BUG_ON_REINIT_FAILURE_DEFAULT,
CFG_BUG_ON_REINIT_FAILURE_MIN,
CFG_BUG_ON_REINIT_FAILURE_MAX),
REG_VARIABLE(CFG_SAP_FORCE_11N_FOR_11AC_NAME, WLAN_PARAM_Integer,
hdd_config_t, sap_force_11n_for_11ac,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_SAP_FORCE_11N_FOR_11AC_DEFAULT,
CFG_SAP_FORCE_11N_FOR_11AC_MIN,
CFG_SAP_FORCE_11N_FOR_11AC_MAX),
REG_VARIABLE(CFG_SAP_MAX_INACTIVITY_OVERRIDE_NAME, WLAN_PARAM_Integer,
hdd_config_t, sap_max_inactivity_override,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_SAP_MAX_INACTIVITY_OVERRIDE_DEFAULT,
CFG_SAP_MAX_INACTIVITY_OVERRIDE_MIN,
CFG_SAP_MAX_INACTIVITY_OVERRIDE_MAX),
REG_VARIABLE(CFG_ACTIVE_MODE_OFFLOAD, WLAN_PARAM_Integer,
hdd_config_t, active_mode_offload,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_ACTIVE_MODE_OFFLOAD_DEFAULT,
CFG_ACTIVE_MODE_OFFLOAD_MIN,
CFG_ACTIVE_MODE_OFFLOAD_MAX),
REG_VARIABLE(CFG_STA_CHANGE_COUNTRYCODE_DYN_NAME, WLAN_PARAM_Integer,
hdd_config_t, sta_change_cc_via_beacon,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_STA_CHANGE_COUNTRYCODE_DYN_DEFAULT,
CFG_STA_CHANGE_COUNTRYCODE_DYN_DISABLE,
CFG_STA_CHANGE_COUNTRYCODE_DYN_ENABLE),
REG_VARIABLE(CFG_SIFS_BURST_DURATION_NAME, WLAN_PARAM_Integer,
hdd_config_t, sifs_burst_duration,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_SIFS_BURST_DURATION_DEFAULT,
CFG_SIFS_BURST_DURATION_MIN,
CFG_SIFS_BURST_DURATION_MAX),
REG_VARIABLE(CFG_BPF_PACKET_FILTER_OFFLOAD, WLAN_PARAM_Integer,
struct hdd_config, bpf_packet_filter_enable,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_BPF_PACKET_FILTER_OFFLOAD_DEFAULT,
CFG_BPF_PACKET_FILTER_OFFLOAD_MIN,
CFG_BPF_PACKET_FILTER_OFFLOAD_MAX),
REG_VARIABLE(CFG_TDLS_ENABLE_DEFER_TIMER, WLAN_PARAM_Integer,
hdd_config_t, tdls_enable_defer_time,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_TDLS_ENABLE_DEFER_TIMER_DEFAULT,
CFG_TDLS_ENABLE_DEFER_TIMER_MIN,
CFG_TDLS_ENABLE_DEFER_TIMER_MAX),
REG_VARIABLE(CFG_HOST_WAKEUP_GPIO_NAME, WLAN_PARAM_Integer,
hdd_config_t, host_wakeup_gpio,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_HOST_WAKEUP_GPIO_DEFAULT,
CFG_HOST_WAKEUP_GPIO_MIN,
CFG_HOST_WAKEUP_GPIO_MAX),
REG_VARIABLE(CFG_HOST_WAKEUP_TYPE_NAME, WLAN_PARAM_Integer,
hdd_config_t, host_wakeup_type,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_HOST_WAKEUP_TYPE_DEFAULT,
CFG_HOST_WAKEUP_TYPE_MIN,
CFG_HOST_WAKEUP_TYPE_MAX),
REG_VARIABLE(CFG_TARGET_WAKEUP_GPIO_NAME, WLAN_PARAM_Integer,
hdd_config_t, target_wakeup_gpio,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_TARGET_WAKEUP_GPIO_DEFAULT,
CFG_TARGET_WAKEUP_GPIO_MIN,
CFG_TARGET_WAKEUP_GPIO_MAX),
REG_VARIABLE(CFG_TARGET_WAKEUP_TYPE_NAME, WLAN_PARAM_Integer,
hdd_config_t, target_wakeup_type,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_TARGET_WAKEUP_TYPE_DEFAULT,
CFG_TARGET_WAKEUP_TYPE_MIN,
CFG_TARGET_WAKEUP_TYPE_MAX),
REG_VARIABLE(CFG_MAX_SCHED_SCAN_PLAN_INT_NAME, WLAN_PARAM_Integer,
hdd_config_t, max_sched_scan_plan_interval,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_MAX_SCHED_SCAN_PLAN_INT_DEFAULT,
CFG_MAX_SCHED_SCAN_PLAN_INT_MIN,
CFG_MAX_SCHED_SCAN_PLAN_INT_MAX),
REG_VARIABLE(CFG_MAX_SCHED_SCAN_PLAN_ITRNS_NAME, WLAN_PARAM_Integer,
hdd_config_t, max_sched_scan_plan_iterations,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_MAX_SCHED_SCAN_PLAN_ITRNS_DEFAULT,
CFG_MAX_SCHED_SCAN_PLAN_ITRNS_MIN,
CFG_MAX_SCHED_SCAN_PLAN_ITRNS_MAX),
REG_VARIABLE(CFG_ENABLE_5G_BAND_PREF_NAME, WLAN_PARAM_Integer,
hdd_config_t, enable_5g_band_pref,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_ENABLE_5G_BAND_PREF_DEFAULT,
CFG_ENABLE_5G_BAND_PREF_MIN,
CFG_ENABLE_5G_BAND_PREF_MAX),
REG_VARIABLE(CFG_5G_RSSI_BOOST_THRESHOLD_NAME, WLAN_PARAM_Integer,
hdd_config_t, rssi_boost_threshold_5g,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_5G_RSSI_BOOST_THRESHOLD_DEFAULT,
CFG_5G_RSSI_BOOST_THRESHOLD_MIN,
CFG_5G_RSSI_BOOST_THRESHOLD_MAX),
REG_VARIABLE(CFG_5G_RSSI_BOOST_FACTOR_NAME, WLAN_PARAM_Integer,
hdd_config_t, rssi_boost_factor_5g,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_5G_RSSI_BOOST_FACTOR_DEFAULT,
CFG_5G_RSSI_BOOST_FACTOR_MIN,
CFG_5G_RSSI_BOOST_FACTOR_MAX),
REG_VARIABLE(CFG_5G_MAX_RSSI_BOOST_NAME, WLAN_PARAM_Integer,
hdd_config_t, max_rssi_boost_5g,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_5G_MAX_RSSI_BOOST_DEFAULT,
CFG_5G_MAX_RSSI_BOOST_MIN,
CFG_5G_MAX_RSSI_BOOST_MAX),
REG_VARIABLE(CFG_5G_RSSI_PENALIZE_THRESHOLD_NAME, WLAN_PARAM_Integer,
hdd_config_t, rssi_penalize_threshold_5g,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_5G_RSSI_PENALIZE_THRESHOLD_DEFAULT,
CFG_5G_RSSI_PENALIZE_THRESHOLD_MIN,
CFG_5G_RSSI_PENALIZE_THRESHOLD_MAX),
REG_VARIABLE(CFG_5G_RSSI_PENALIZE_FACTOR_NAME, WLAN_PARAM_Integer,
hdd_config_t, rssi_penalize_factor_5g,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_5G_RSSI_PENALIZE_FACTOR_DEFAULT,
CFG_5G_RSSI_PENALIZE_FACTOR_MIN,
CFG_5G_RSSI_PENALIZE_FACTOR_MAX),
REG_VARIABLE(CFG_5G_MAX_RSSI_PENALIZE_NAME, WLAN_PARAM_Integer,
hdd_config_t, max_rssi_penalize_5g,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_5G_MAX_RSSI_PENALIZE_DEFAULT,
CFG_5G_MAX_RSSI_PENALIZE_MIN,
CFG_5G_MAX_RSSI_PENALIZE_MAX),
REG_VARIABLE(CFG_PRB_REQ_IE_WHITELIST_NAME, WLAN_PARAM_Integer,
hdd_config_t, probe_req_ie_whitelist,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_PRB_REQ_IE_WHITELIST_DEFAULT,
CFG_PRB_REQ_IE_WHITELIST_MIN,
CFG_PRB_REQ_IE_WHITELIST_MAX),
REG_VARIABLE(CFG_PRB_REQ_IE_BIT_MAP0_NAME, WLAN_PARAM_HexInteger,
hdd_config_t, probe_req_ie_bitmap_0,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_PRB_REQ_IE_BIT_MAP0_DEFAULT,
CFG_PRB_REQ_IE_BIT_MAP0_MIN,
CFG_PRB_REQ_IE_BIT_MAP0_MAX),
REG_VARIABLE(CFG_PRB_REQ_IE_BIT_MAP1_NAME, WLAN_PARAM_HexInteger,
hdd_config_t, probe_req_ie_bitmap_1,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_PRB_REQ_IE_BIT_MAP1_DEFAULT,
CFG_PRB_REQ_IE_BIT_MAP1_MIN,
CFG_PRB_REQ_IE_BIT_MAP1_MAX),
REG_VARIABLE(CFG_PRB_REQ_IE_BIT_MAP2_NAME, WLAN_PARAM_HexInteger,
hdd_config_t, probe_req_ie_bitmap_2,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_PRB_REQ_IE_BIT_MAP2_DEFAULT,
CFG_PRB_REQ_IE_BIT_MAP2_MIN,
CFG_PRB_REQ_IE_BIT_MAP2_MAX),
REG_VARIABLE(CFG_PRB_REQ_IE_BIT_MAP3_NAME, WLAN_PARAM_HexInteger,
hdd_config_t, probe_req_ie_bitmap_3,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_PRB_REQ_IE_BIT_MAP3_DEFAULT,
CFG_PRB_REQ_IE_BIT_MAP3_MIN,
CFG_PRB_REQ_IE_BIT_MAP3_MAX),
REG_VARIABLE(CFG_PRB_REQ_IE_BIT_MAP4_NAME, WLAN_PARAM_HexInteger,
hdd_config_t, probe_req_ie_bitmap_4,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_PRB_REQ_IE_BIT_MAP4_DEFAULT,
CFG_PRB_REQ_IE_BIT_MAP4_MIN,
CFG_PRB_REQ_IE_BIT_MAP4_MAX),
REG_VARIABLE(CFG_PRB_REQ_IE_BIT_MAP5_NAME, WLAN_PARAM_HexInteger,
hdd_config_t, probe_req_ie_bitmap_5,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_PRB_REQ_IE_BIT_MAP5_DEFAULT,
CFG_PRB_REQ_IE_BIT_MAP5_MIN,
CFG_PRB_REQ_IE_BIT_MAP5_MAX),
REG_VARIABLE(CFG_PRB_REQ_IE_BIT_MAP6_NAME, WLAN_PARAM_HexInteger,
hdd_config_t, probe_req_ie_bitmap_6,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_PRB_REQ_IE_BIT_MAP6_DEFAULT,
CFG_PRB_REQ_IE_BIT_MAP6_MIN,
CFG_PRB_REQ_IE_BIT_MAP6_MAX),
REG_VARIABLE(CFG_PRB_REQ_IE_BIT_MAP7_NAME, WLAN_PARAM_HexInteger,
hdd_config_t, probe_req_ie_bitmap_7,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_PRB_REQ_IE_BIT_MAP7_DEFAULT,
CFG_PRB_REQ_IE_BIT_MAP7_MIN,
CFG_PRB_REQ_IE_BIT_MAP7_MAX),
REG_VARIABLE_STRING(CFG_PROBE_REQ_OUI_NAME, WLAN_PARAM_String,
hdd_config_t, probe_req_ouis,
VAR_FLAGS_OPTIONAL,
(void *)CFG_PROBE_REQ_OUI_DEFAULT),
REG_VARIABLE(CFG_SUB_20_CHANNEL_WIDTH_NAME, WLAN_PARAM_Integer,
hdd_config_t, sub_20_channel_width,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_SUB_20_CHANNEL_WIDTH_DEFAULT,
CFG_SUB_20_CHANNEL_WIDTH_MIN,
CFG_SUB_20_CHANNEL_WIDTH_MAX),
REG_VARIABLE(CFG_RX_WAKELOCK_TIMEOUT_NAME, WLAN_PARAM_Integer,
hdd_config_t, rx_wakelock_timeout,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_RX_WAKELOCK_TIMEOUT_DEFAULT,
CFG_RX_WAKELOCK_TIMEOUT_MIN,
CFG_RX_WAKELOCK_TIMEOUT_MAX),
REG_VARIABLE(CFG_SAP_CH_SWITCH_BEACON_CNT, WLAN_PARAM_Integer,
hdd_config_t, sap_chanswitch_beacon_cnt,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_SAP_CH_SWITCH_BEACON_CNT_DEFAULT,
CFG_SAP_CH_SWITCH_BEACON_CNT_MIN,
CFG_SAP_CH_SWITCH_BEACON_CNT_MAX),
REG_VARIABLE(CFG_SAP_CH_SWITCH_MODE, WLAN_PARAM_Integer,
hdd_config_t, sap_chanswitch_mode,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_SAP_CH_SWITCH_MODE_DEFAULT,
CFG_SAP_CH_SWITCH_MODE_MIN,
CFG_SAP_CH_SWITCH_MODE_MAX),
REG_VARIABLE(CFG_DFS_BEACON_TX_ENHANCED, WLAN_PARAM_Integer,
hdd_config_t, dfs_beacon_tx_enhanced,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_DFS_BEACON_TX_ENHANCED_DEFAULT,
CFG_DFS_BEACON_TX_ENHANCED_MIN,
CFG_DFS_BEACON_TX_ENHANCED_MAX),
REG_VARIABLE(CFG_REDUCED_BEACON_INTERVAL, WLAN_PARAM_Integer,
hdd_config_t, reduced_beacon_interval,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_REDUCED_BEACON_INTERVAL_DEFAULT,
CFG_REDUCED_BEACON_INTERVAL_MIN,
CFG_REDUCED_BEACON_INTERVAL_MAX),
REG_VARIABLE(CFG_NO_ACK_ENABLE, WLAN_PARAM_Integer,
hdd_config_t, gEnableNoAck,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_NO_ACK_DEFAULT,
CFG_NO_ACK_MIN,
CFG_NO_ACK_MAX),
#ifdef FEATURE_COEX_PTA_CONFIG_ENABLE
REG_VARIABLE(CFG_COEX_PTA_CONFIG_ENABLE, WLAN_PARAM_Integer,
hdd_config_t, coex_pta_config_enable,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_COEX_PTA_CONFIG_ENABLE_DEFAULT,
CFG_COEX_PTA_CONFIG_ENABLE_MIN,
CFG_COEX_PTA_CONFIG_ENABLE_MAX),
REG_VARIABLE(CFG_COEX_PTA_CONFIG_PARAM, WLAN_PARAM_Integer,
hdd_config_t, coex_pta_config_param,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_COEX_PTA_CONFIG_PARAM_DEFAULT,
CFG_COEX_PTA_CONFIG_PARAM_MIN,
CFG_COEX_PTA_CONFIG_PARAM_MAX),
#endif
REG_VARIABLE(CFG_ARP_AC_CATEGORY, WLAN_PARAM_Integer,
hdd_config_t, arp_ac_category,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_ARP_AC_CATEGORY_DEFAULT,
CFG_ARP_AC_CATEGORY_MIN,
CFG_ARP_AC_CATEGORY_MAX),
REG_VARIABLE(CFG_SAP_PROBE_RESP_OFFLOAD_NAME, WLAN_PARAM_Integer,
hdd_config_t, sap_probe_resp_offload,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_SAP_PROBE_RESP_OFFLOAD_DEFAULT,
CFG_SAP_PROBE_RESP_OFFLOAD_MIN,
CFG_SAP_PROBE_RESP_OFFLOAD_MAX),
REG_VARIABLE( CFG_STA_AUTH_RETRIES_FOR_CODE17_NAME, WLAN_PARAM_Integer,
hdd_config_t, sta_auth_retries_for_code17,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_STA_AUTH_RETRIES_FOR_CODE17_DEFAULT,
CFG_STA_AUTH_RETRIES_FOR_CODE17_MIN,
CFG_STA_AUTH_RETRIES_FOR_CODE17_MAX ),
REG_VARIABLE(CFG_SKIP_MAC_CONFIG, WLAN_PARAM_Integer,
hdd_config_t, skip_mac_config,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_SKIP_MAC_CONFIG_DEFAULT,
CFG_SKIP_MAC_CONFIG_MIN,
CFG_SKIP_MAC_CONFIG_MAX),
#ifdef WLAN_FEATURE_DSRC
REG_VARIABLE(CFG_OCB_TX_PER_PKT_STATS_ENABLE_NAME, WLAN_PARAM_Integer,
hdd_config_t, ocb_tx_per_pkt_stats_enabled,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_OCB_TX_PER_PKT_STATS_ENABLE_DEFAULT,
CFG_OCB_TX_PER_PKT_STATS_ENABLE_MIN,
CFG_OCB_TX_PER_PKT_STATS_ENABLE_MAX),
#endif
REG_VARIABLE(CFG_CCA_THRESHOLD_ENABLE_NAME, WLAN_PARAM_Integer,
hdd_config_t, cca_threshold_enable,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_CCA_THRESHOLD_ENABLE_DEFAULT,
CFG_CCA_THRESHOLD_ENABLE_MIN,
CFG_CCA_THRESHOLD_ENABLE_MAX),
REG_VARIABLE(CFG_CCA_THRESHOLD_2G_NAME, WLAN_PARAM_Integer,
hdd_config_t, cca_threshold_2g,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_CCA_THRESHOLD_2G_DEFAULT,
CFG_CCA_THRESHOLD_2G_MIN,
CFG_CCA_THRESHOLD_2G_MAX),
REG_VARIABLE(CFG_CCA_THRESHOLD_5G_NAME, WLAN_PARAM_Integer,
hdd_config_t, cca_threshold_5g,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_CCA_THRESHOLD_5G_DEFAULT,
CFG_CCA_THRESHOLD_5G_MIN,
CFG_CCA_THRESHOLD_5G_MAX),
REG_VARIABLE(CFG_ENABLE_MONITOR_ON_STA, WLAN_PARAM_Integer,
hdd_config_t, mon_on_sta_enable,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT,
CFG_ENABLE_MONITOR_ON_STA_DEFAULT,
CFG_ENABLE_MONITOR_ON_STA_MIN,
CFG_ENABLE_MONITOR_ON_STA_MAX),
};
#ifdef WLAN_FEATURE_MBSSID
REG_TABLE_ENTRY mbssid_sap_dyn_ini_reg_table[] =
{
REG_VARIABLE( CFG_SAP_SCAN_BAND_PREFERENCE, WLAN_PARAM_Integer,
mbssid_sap_dyn_ini_config_t, acsScanBandPreference,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK
| VAR_FLAGS_DYNAMIC_CFG,
CFG_SAP_SCAN_BAND_PREFERENCE_DEFAULT,
CFG_SAP_SCAN_BAND_PREFERENCE_MIN,
CFG_SAP_SCAN_BAND_PREFERENCE_MAX ),
REG_VARIABLE( CFG_ACS_BAND_SWITCH_THRESHOLD, WLAN_PARAM_Integer,
mbssid_sap_dyn_ini_config_t, acsBandSwitchThreshold,
VAR_FLAGS_OPTIONAL | VAR_FLAGS_RANGE_CHECK
| VAR_FLAGS_DYNAMIC_CFG,
CFG_ACS_BAND_SWITCH_THRESHOLD_DEFAULT,
CFG_ACS_BAND_SWITCH_THRESHOLD_MIN,
CFG_ACS_BAND_SWITCH_THRESHOLD_MAX ),
};
#endif
/*
* This function returns a pointer to the character after the occurrence
* of a new line character. It also modifies the original string by replacing
* the '\n' character with the null character.
* Function returns NULL if no new line character was found before end of
* string was reached
*/
static char* get_next_line(char* str)
{
char c;
if( str == NULL || *str == '\0') {
return NULL;
}
c = *str;
while(c != '\n' && c != '\0' && c != 0xd) {
str = str + 1;
c = *str;
}
if (c == '\0' ) {
return NULL;
}
else
{
*str = '\0';
return (str+1);
}
return NULL;
}
// look for space. Ascii values to look are -
// 0x09 == horizontal tab
// 0x0a == Newline ("\n")
// 0x0b == vertical tab
// 0x0c == Newpage or feed form.
// 0x0d == carriage return (CR or "\r")
// Null ('\0') should not considered as space.
#define i_isspace(ch) (((ch) >= 0x09 && (ch) <= 0x0d) || (ch) == ' ')
/*
* This function trims any leading and trailing white spaces
*/
static char *i_trim(char *str)
{
char *ptr;
if(*str == '\0') return str;
/* Find the first non white-space*/
for (ptr = str; i_isspace(*ptr); ptr++);
if (*ptr == '\0')
return str;
/* This is the new start of the string*/
str = ptr;
/* Find the last non white-space */
ptr += strlen(ptr) - 1;
for (; ptr != str && i_isspace(*ptr); ptr--);
/* Null terminate the following character */
ptr[1] = '\0';
return str;
}
//Structure to store each entry in qcom_cfg.ini file
typedef struct
{
char *name;
char *value;
}tCfgIniEntry;
static VOS_STATUS hdd_apply_cfg_ini( hdd_context_t * pHddCtx,
tCfgIniEntry* iniTable, unsigned long entries);
#ifdef WLAN_CFG_DEBUG
void dump_cfg_ini (tCfgIniEntry* iniTable, unsigned long entries)
{
unsigned long i;
for (i = 0; i < entries; i++) {
VOS_TRACE(VOS_MODULE_ID_HDD, VOS_TRACE_LEVEL_INFO_HIGH, "%s entry Name=[%s] value=[%s]",
WLAN_INI_FILE, iniTable[i].name, iniTable[i].value);
}
}
#endif
#ifdef FEATURE_RUNTIME_PM
static void disable_runtime_pm(hdd_config_t *cfg_ini)
{
cfg_ini->runtime_pm = 0;
}
#else
static void disable_runtime_pm(hdd_config_t *cfg_ini)
{
}
#endif
#ifdef FEATURE_WLAN_AUTO_SHUTDOWN
static void disable_auto_shutdown(hdd_config_t *cfg_ini)
{
cfg_ini->WlanAutoShutdown = 0;
}
#else
static void disable_auto_shutdown(hdd_config_t *cfg_ini)
{
}
#endif
/**
* hdd_override_all_ps() - overrides to disables all the powersave features.
* @hdd_ctx: Pointer to HDD context.
*
* Overrides below powersave ini configurations.
* gEnableImps=0
* gEnableBmps=0
* gRuntimePM=0
* gWlanAutoShutdown = 0
* gEnableSuspend=0
* gEnablePowerSaveOffload=0
* gEnableWoW=0
*/
static void hdd_override_all_ps(hdd_context_t *hdd_ctx)
{
hdd_config_t *cfg_ini = hdd_ctx->cfg_ini;
cfg_ini->fIsImpsEnabled = 0;
cfg_ini->fIsBmpsEnabled = 0;
disable_runtime_pm(cfg_ini);
disable_auto_shutdown(cfg_ini);
cfg_ini->enablePowersaveOffload = 0;
cfg_ini->wowEnable = 0;
}
/*
* This function reads the qcom_cfg.ini file and
* parses each 'Name=Value' pair in the ini file
*/
VOS_STATUS hdd_parse_config_ini(hdd_context_t* pHddCtx)
{
int status, i=0;
/** Pointer for firmware image data */
const struct firmware *fw = NULL;
char *buffer, *line, *pTemp = NULL;
size_t size;
char *name, *value;
/* cfgIniTable is static to avoid excess stack usage */
static tCfgIniEntry cfgIniTable[MAX_CFG_INI_ITEMS];
VOS_STATUS vos_status = VOS_STATUS_SUCCESS;
memset(cfgIniTable, 0, sizeof(cfgIniTable));
status = request_firmware(&fw, WLAN_INI_FILE, pHddCtx->parent_dev);
if(status)
{
hddLog(VOS_TRACE_LEVEL_FATAL, "%s: request_firmware failed %d",__func__, status);
vos_status = VOS_STATUS_E_FAILURE;
goto config_exit;
}
if(!fw || !fw->data || !fw->size)
{
hddLog(VOS_TRACE_LEVEL_FATAL, "%s: %s download failed",
__func__, WLAN_INI_FILE);
vos_status = VOS_STATUS_E_FAILURE;
goto config_exit;
}
hddLog(LOG1, "%s: qcom_cfg.ini Size %zu", __func__, fw->size);
buffer = (char*)vos_mem_malloc(fw->size + 1);
buffer[fw->size] = '\0';
if(NULL == buffer) {
hddLog(VOS_TRACE_LEVEL_FATAL, "%s: kmalloc failure",__func__);
release_firmware(fw);
return VOS_STATUS_E_FAILURE;
}
pTemp = buffer;
vos_mem_copy((void*)buffer,(void *)fw->data, fw->size);
size = fw->size;
while (buffer != NULL)
{
line = get_next_line(buffer);
buffer = i_trim(buffer);
hddLog(LOG1, "%s: item", buffer);
if(strlen((char*)buffer) == 0 || *buffer == '#') {
buffer = line;
continue;
}
else if(strncmp(buffer, "END", 3) == 0 ) {
break;
}
else
{
name = buffer;
while(*buffer != '=' && *buffer != '\0')
buffer++;
if(*buffer != '\0') {
*buffer++ = '\0';
i_trim(name);
if(strlen (name) != 0) {
buffer = i_trim(buffer);
if(strlen(buffer)>0) {
value = buffer;
while (*buffer != '\0')
buffer++;
*buffer = '\0';
cfgIniTable[i].name= name;
cfgIniTable[i++].value= value;
if(i >= MAX_CFG_INI_ITEMS) {
hddLog(LOGE,"%s: Number of items in %s > %d",
__func__, WLAN_INI_FILE, MAX_CFG_INI_ITEMS);
break;
}
}
}
}
}
buffer = line;
}
//Loop through the registry table and apply all these configs
vos_status = hdd_apply_cfg_ini(pHddCtx, cfgIniTable, i);
if (VOS_MONITOR_MODE == hdd_get_conparam())
hdd_override_all_ps(pHddCtx);
config_exit:
release_firmware(fw);
vos_mem_free(pTemp);
return vos_status;
}
void print_hdd_cfg(hdd_context_t *pHddCtx)
{
int i;
VOS_TRACE(VOS_MODULE_ID_HDD, VOS_TRACE_LEVEL_INFO_HIGH, "*********Config values in HDD Adapter*******");
VOS_TRACE(VOS_MODULE_ID_HDD, VOS_TRACE_LEVEL_INFO_HIGH, "Name = [RTSThreshold] Value = %u",pHddCtx->cfg_ini->RTSThreshold) ;
VOS_TRACE(VOS_MODULE_ID_HDD, VOS_TRACE_LEVEL_INFO_HIGH, "Name = [OperatingChannel] Value = [%u]",pHddCtx->cfg_ini->OperatingChannel);
VOS_TRACE(VOS_MODULE_ID_HDD, VOS_TRACE_LEVEL_INFO_HIGH, "Name = [PowerUsageControl] Value = [%s]",pHddCtx->cfg_ini->PowerUsageControl);
VOS_TRACE(VOS_MODULE_ID_HDD, VOS_TRACE_LEVEL_INFO_HIGH, "Name = [fIsImpsEnabled] Value = [%u]",pHddCtx->cfg_ini->fIsImpsEnabled);
VOS_TRACE(VOS_MODULE_ID_HDD, VOS_TRACE_LEVEL_INFO_HIGH, "Name = [AutoBmpsTimerEnabled] Value = [%u]",pHddCtx->cfg_ini->fIsAutoBmpsTimerEnabled);
VOS_TRACE(VOS_MODULE_ID_HDD, VOS_TRACE_LEVEL_INFO_HIGH, "Name = [nAutoBmpsTimerValue] Value = [%u]",pHddCtx->cfg_ini->nAutoBmpsTimerValue);
VOS_TRACE(VOS_MODULE_ID_HDD, VOS_TRACE_LEVEL_INFO_HIGH, "Name = [nVccRssiTrigger] Value = [%u]",pHddCtx->cfg_ini->nVccRssiTrigger);
VOS_TRACE(VOS_MODULE_ID_HDD, VOS_TRACE_LEVEL_INFO_HIGH,
"Name = [gIbssBssid] Value =["MAC_ADDRESS_STR"]",
MAC_ADDR_ARRAY(pHddCtx->cfg_ini->IbssBssid.bytes));
for (i=0; i < VOS_MAX_CONCURRENCY_PERSONA; i++)
{
VOS_TRACE(VOS_MODULE_ID_HDD, VOS_TRACE_LEVEL_INFO_HIGH,
"Name = [Intf%dMacAddress] Value =["MAC_ADDRESS_STR"]",
i, MAC_ADDR_ARRAY(pHddCtx->cfg_ini->intfMacAddr[i].bytes));
}
VOS_TRACE(VOS_MODULE_ID_HDD, VOS_TRACE_LEVEL_INFO_HIGH, "Name = [gApEnableUapsd] value = [%u]",pHddCtx->cfg_ini->apUapsdEnabled);
VOS_TRACE(VOS_MODULE_ID_HDD, VOS_TRACE_LEVEL_INFO_HIGH, "Name = [gAPCntryCode] Value =[%c%c%c]",
pHddCtx->cfg_ini->apCntryCode[0],pHddCtx->cfg_ini->apCntryCode[1],
pHddCtx->cfg_ini->apCntryCode[2]);
VOS_TRACE(VOS_MODULE_ID_HDD, VOS_TRACE_LEVEL_INFO_HIGH, "Name = [gEnableApProt] value = [%u]", pHddCtx->cfg_ini->apProtEnabled);
VOS_TRACE(VOS_MODULE_ID_HDD, VOS_TRACE_LEVEL_INFO_HIGH, "Name = [gAPAutoShutOff] Value = [%u]", pHddCtx->cfg_ini->nAPAutoShutOff);
#ifdef FEATURE_WLAN_MCC_TO_SCC_SWITCH
VOS_TRACE(VOS_MODULE_ID_HDD, VOS_TRACE_LEVEL_INFO_HIGH, "Name = [gWlanMccToSccSwitchMode] Value = [%u]", pHddCtx->cfg_ini->WlanMccToSccSwitchMode);
VOS_TRACE(VOS_MODULE_ID_HDD, VOS_TRACE_LEVEL_INFO_HIGH, "Name = [gWlanBandSwitchEnable] Value = [%u]", pHddCtx->cfg_ini->wlan_band_switch_enable);
VOS_TRACE(VOS_MODULE_ID_HDD, VOS_TRACE_LEVEL_INFO_HIGH, "Name = [gWlanApP2pGOConcurrencyEnable] Value = [%u]", pHddCtx->cfg_ini->wlan_ap_p2pgo_conc_enable);
VOS_TRACE(VOS_MODULE_ID_HDD, VOS_TRACE_LEVEL_INFO_HIGH, "Name = [gWlanApP2pClientConcurEnable] Value = [%u]", pHddCtx->cfg_ini->wlan_ap_p2pclient_conc_enable);
#endif
#ifdef FEATURE_WLAN_AUTO_SHUTDOWN
VOS_TRACE(VOS_MODULE_ID_HDD, VOS_TRACE_LEVEL_INFO_HIGH, "Name = [gWlanAutoShutdown] Value = [%u]", pHddCtx->cfg_ini->WlanAutoShutdown);
#endif
VOS_TRACE(VOS_MODULE_ID_HDD, VOS_TRACE_LEVEL_INFO_HIGH, "Name = [gEnableListenMode] Value = [%u]", pHddCtx->cfg_ini->nEnableListenMode);
VOS_TRACE (VOS_MODULE_ID_HDD, VOS_TRACE_LEVEL_INFO_HIGH, "Name = [gApProtection] value = [%u]",pHddCtx->cfg_ini->apProtection);
VOS_TRACE (VOS_MODULE_ID_HDD, VOS_TRACE_LEVEL_INFO_HIGH, "Name = [gEnableApOBSSProt] value = [%u]",pHddCtx->cfg_ini->apOBSSProtEnabled);
#ifdef FEATURE_AP_MCC_CH_AVOIDANCE
VOS_TRACE (VOS_MODULE_ID_HDD,
VOS_TRACE_LEVEL_INFO_HIGH,
"Name = [sap_channel_avoidance] value = [%u]",
pHddCtx->cfg_ini->sap_channel_avoidance);
#endif /* FEATURE_AP_MCC_CH_AVOIDANCE */
VOS_TRACE (VOS_MODULE_ID_HDD, VOS_TRACE_LEVEL_INFO_HIGH,
"Name = [%s] value = [%u]", CFG_SAP_P2P_11AC_OVERRIDE_NAME,
pHddCtx->cfg_ini->sap_p2p_11ac_override);
VOS_TRACE (VOS_MODULE_ID_HDD, VOS_TRACE_LEVEL_INFO_HIGH,
"Name = [%s] value = [%u]", CFG_FORCE_SAP_ACS,
pHddCtx->cfg_ini->force_sap_acs);
VOS_TRACE (VOS_MODULE_ID_HDD, VOS_TRACE_LEVEL_INFO_HIGH,
"Name = [%s] value = [%u]", CFG_FORCE_SAP_ACS_START_CH,
pHddCtx->cfg_ini->force_sap_acs_st_ch);
VOS_TRACE (VOS_MODULE_ID_HDD, VOS_TRACE_LEVEL_INFO_HIGH,
"Name = [%s] value = [%u]", CFG_FORCE_SAP_ACS_END_CH,
pHddCtx->cfg_ini->force_sap_acs_end_ch);
VOS_TRACE (VOS_MODULE_ID_HDD, VOS_TRACE_LEVEL_INFO_HIGH, "Name = [gACSBandSwitchThreshold] value = [%u]", pHddCtx->cfg_ini->acsBandSwitchThreshold);
VOS_TRACE(VOS_MODULE_ID_HDD, VOS_TRACE_LEVEL_INFO_HIGH, "Name = [ChannelBondingMode] Value = [%u]",pHddCtx->cfg_ini->nChannelBondingMode24GHz);
VOS_TRACE(VOS_MODULE_ID_HDD, VOS_TRACE_LEVEL_INFO_HIGH, "Name = [%s] Value = [%u] ",
CFG_OVERRIDE_HT40_20_24GHZ_NAME, pHddCtx->cfg_ini->override_ht20_40_24g);
VOS_TRACE(VOS_MODULE_ID_HDD, VOS_TRACE_LEVEL_INFO_HIGH, "Name = [ChannelBondingMode] Value = [%u]",pHddCtx->cfg_ini->nChannelBondingMode5GHz);
VOS_TRACE(VOS_MODULE_ID_HDD, VOS_TRACE_LEVEL_INFO_HIGH, "Name = [dot11Mode] Value = [%u]",pHddCtx->cfg_ini->dot11Mode);
VOS_TRACE(VOS_MODULE_ID_HDD, VOS_TRACE_LEVEL_INFO_HIGH, "Name = [WmmMode] Value = [%u] ",pHddCtx->cfg_ini->WmmMode);
VOS_TRACE(VOS_MODULE_ID_HDD, VOS_TRACE_LEVEL_INFO_HIGH, "Name = [UapsdMask] Value = [0x%x] ",pHddCtx->cfg_ini->UapsdMask);
VOS_TRACE(VOS_MODULE_ID_HDD, VOS_TRACE_LEVEL_INFO_HIGH, "Name = [PktClassificationBasis] Value = [%u] ",pHddCtx->cfg_ini->PktClassificationBasis);
VOS_TRACE(VOS_MODULE_ID_HDD, VOS_TRACE_LEVEL_INFO_HIGH, "Name = [ImplicitQosIsEnabled] Value = [%u]",(int)pHddCtx->cfg_ini->bImplicitQosEnabled);
VOS_TRACE(VOS_MODULE_ID_HDD, VOS_TRACE_LEVEL_INFO_HIGH, "Name = [InfraUapsdVoSrvIntv] Value = [%u] ",pHddCtx->cfg_ini->InfraUapsdVoSrvIntv);
VOS_TRACE(VOS_MODULE_ID_HDD, VOS_TRACE_LEVEL_INFO_HIGH, "Name = [InfraUapsdVoSuspIntv] Value = [%u] ",pHddCtx->cfg_ini->InfraUapsdVoSuspIntv);
VOS_TRACE(VOS_MODULE_ID_HDD, VOS_TRACE_LEVEL_INFO_HIGH, "Name = [InfraUapsdViSrvIntv] Value = [%u] ",pHddCtx->cfg_ini->InfraUapsdViSrvIntv);
VOS_TRACE(VOS_MODULE_ID_HDD, VOS_TRACE_LEVEL_INFO_HIGH, "Name = [InfraUapsdViSuspIntv] Value = [%u] ",pHddCtx->cfg_ini->InfraUapsdViSuspIntv);
VOS_TRACE(VOS_MODULE_ID_HDD, VOS_TRACE_LEVEL_INFO_HIGH, "Name = [InfraUapsdBeSrvIntv] Value = [%u] ",pHddCtx->cfg_ini->InfraUapsdBeSrvIntv);
VOS_TRACE(VOS_MODULE_ID_HDD, VOS_TRACE_LEVEL_INFO_HIGH, "Name = [InfraUapsdBeSuspIntv] Value = [%u] ",pHddCtx->cfg_ini->InfraUapsdBeSuspIntv);
VOS_TRACE(VOS_MODULE_ID_HDD, VOS_TRACE_LEVEL_INFO_HIGH, "Name = [InfraUapsdBkSrvIntv] Value = [%u] ",pHddCtx->cfg_ini->InfraUapsdBkSrvIntv);
VOS_TRACE(VOS_MODULE_ID_HDD, VOS_TRACE_LEVEL_INFO_HIGH, "Name = [InfraUapsdBkSuspIntv] Value = [%u] ",pHddCtx->cfg_ini->InfraUapsdBkSuspIntv);
#ifdef FEATURE_WLAN_ESE
VOS_TRACE(VOS_MODULE_ID_HDD, VOS_TRACE_LEVEL_INFO_HIGH, "Name = [InfraInactivityInterval] Value = [%u] ",pHddCtx->cfg_ini->InfraInactivityInterval);
VOS_TRACE(VOS_MODULE_ID_HDD, VOS_TRACE_LEVEL_INFO_HIGH, "Name = [EseEnabled] Value = [%u] ",pHddCtx->cfg_ini->isEseIniFeatureEnabled);
VOS_TRACE(VOS_MODULE_ID_HDD, VOS_TRACE_LEVEL_INFO_HIGH, "Name = [FastTransitionEnabled] Value = [%u] ",pHddCtx->cfg_ini->isFastTransitionEnabled);
VOS_TRACE(VOS_MODULE_ID_HDD, VOS_TRACE_LEVEL_INFO_HIGH, "Name = [gTxPowerCap] Value = [%u] dBm ",pHddCtx->cfg_ini->nTxPowerCap);
#endif
VOS_TRACE(VOS_MODULE_ID_HDD, VOS_TRACE_LEVEL_INFO_HIGH, "Name = [gAllowTPCfromAP] Value = [%u] dBm ", pHddCtx->cfg_ini->allow_tpc_from_ap);
#ifdef FEATURE_WLAN_LFR
VOS_TRACE(VOS_MODULE_ID_HDD, VOS_TRACE_LEVEL_INFO_HIGH, "Name = [FastRoamEnabled] Value = [%u] ",pHddCtx->cfg_ini->isFastRoamIniFeatureEnabled);
VOS_TRACE(VOS_MODULE_ID_HDD, VOS_TRACE_LEVEL_INFO_HIGH, "Name = [MAWCEnabled] Value = [%u] ",pHddCtx->cfg_ini->MAWCEnabled);
#endif
#if defined (WLAN_FEATURE_VOWIFI_11R) || defined (FEATURE_WLAN_ESE) || defined(FEATURE_WLAN_LFR)
VOS_TRACE(VOS_MODULE_ID_HDD, VOS_TRACE_LEVEL_INFO_HIGH, "Name = [RoamRssiDiff] Value = [%u] ",pHddCtx->cfg_ini->RoamRssiDiff);
VOS_TRACE(VOS_MODULE_ID_HDD, VOS_TRACE_LEVEL_INFO_HIGH, "Name = [ImmediateRoamRssiDiff] Value = [%u] ",pHddCtx->cfg_ini->nImmediateRoamRssiDiff);
VOS_TRACE(VOS_MODULE_ID_HDD, VOS_TRACE_LEVEL_INFO_HIGH, "Name = [isWESModeEnabled] Value = [%u] ",pHddCtx->cfg_ini->isWESModeEnabled);
#endif
#ifdef FEATURE_WLAN_OKC
VOS_TRACE(VOS_MODULE_ID_HDD, VOS_TRACE_LEVEL_INFO_HIGH, "Name = [OkcEnabled] Value = [%u] ",pHddCtx->cfg_ini->isOkcIniFeatureEnabled);
#endif
#ifdef FEATURE_WLAN_SCAN_PNO
VOS_TRACE(VOS_MODULE_ID_HDD, VOS_TRACE_LEVEL_INFO_HIGH, "Name = [configPNOScanSupport] Value = [%u] ",pHddCtx->cfg_ini->configPNOScanSupport);
VOS_TRACE(VOS_MODULE_ID_HDD, VOS_TRACE_LEVEL_INFO_HIGH, "Name = [configPNOScanTimerRepeatValue] Value = [%u] ",pHddCtx->cfg_ini->configPNOScanTimerRepeatValue);
VOS_TRACE(VOS_MODULE_ID_HDD, VOS_TRACE_LEVEL_INFO_HIGH, "Name = [pno_slow_scan_multiplier] Value = [%u] ",pHddCtx->cfg_ini->pno_slow_scan_multiplier);
#endif
#ifdef FEATURE_WLAN_TDLS
VOS_TRACE(VOS_MODULE_ID_HDD, VOS_TRACE_LEVEL_INFO_HIGH, "Name = [fEnableTDLSSupport] Value = [%u] ",pHddCtx->cfg_ini->fEnableTDLSSupport);
VOS_TRACE(VOS_MODULE_ID_HDD, VOS_TRACE_LEVEL_INFO_HIGH, "Name = [fEnableTDLSImplicitTrigger] Value = [%u] ",pHddCtx->cfg_ini->fEnableTDLSImplicitTrigger);
VOS_TRACE(VOS_MODULE_ID_HDD, VOS_TRACE_LEVEL_INFO_HIGH, "Name = [fTDLSExternalControl] Value = [%u] ",pHddCtx->cfg_ini->fTDLSExternalControl);
VOS_TRACE(VOS_MODULE_ID_HDD, VOS_TRACE_LEVEL_INFO_HIGH, "Name = [fTDLSUapsdMask] Value = [%u] ",pHddCtx->cfg_ini->fTDLSUapsdMask);
VOS_TRACE(VOS_MODULE_ID_HDD, VOS_TRACE_LEVEL_INFO_HIGH, "Name = [fEnableTDLSBufferSta] Value = [%u] ",pHddCtx->cfg_ini->fEnableTDLSBufferSta);
VOS_TRACE(VOS_MODULE_ID_HDD, VOS_TRACE_LEVEL_INFO_HIGH, "Name = [fEnableTDLSWmmMode] Value = [%u] ",pHddCtx->cfg_ini->fEnableTDLSWmmMode);
VOS_TRACE(VOS_MODULE_ID_HDD, VOS_TRACE_LEVEL_INFO_HIGH,
"Name = [enable_tdls_scan] Value = [%u]",
pHddCtx->cfg_ini->enable_tdls_scan);
#endif
VOS_TRACE(VOS_MODULE_ID_HDD, VOS_TRACE_LEVEL_INFO_HIGH, "Name = [gEnableNoAck] Value = [%u] ",pHddCtx->cfg_ini->gEnableNoAck);
VOS_TRACE(VOS_MODULE_ID_HDD, VOS_TRACE_LEVEL_INFO_HIGH, "Name = [InfraDirAcVo] Value = [%u] ",pHddCtx->cfg_ini->InfraDirAcVo);
VOS_TRACE(VOS_MODULE_ID_HDD, VOS_TRACE_LEVEL_INFO_HIGH, "Name = [InfraNomMsduSizeAcVo] Value = [0x%x] ",pHddCtx->cfg_ini->InfraNomMsduSizeAcVo);
VOS_TRACE(VOS_MODULE_ID_HDD, VOS_TRACE_LEVEL_INFO_HIGH, "Name = [InfraMeanDataRateAcVo] Value = [0x%x] ",pHddCtx->cfg_ini->InfraMeanDataRateAcVo);
VOS_TRACE(VOS_MODULE_ID_HDD, VOS_TRACE_LEVEL_INFO_HIGH, "Name = [InfraMinPhyRateAcVo] Value = [0x%x] ",pHddCtx->cfg_ini->InfraMinPhyRateAcVo);
VOS_TRACE(VOS_MODULE_ID_HDD, VOS_TRACE_LEVEL_INFO_HIGH, "Name = [InfraSbaAcVo] Value = [0x%x] ",pHddCtx->cfg_ini->InfraSbaAcVo);
VOS_TRACE(VOS_MODULE_ID_HDD, VOS_TRACE_LEVEL_INFO_HIGH, "Name = [InfraDirAcVi] Value = [%u] ",pHddCtx->cfg_ini->InfraDirAcVi);
VOS_TRACE(VOS_MODULE_ID_HDD, VOS_TRACE_LEVEL_INFO_HIGH, "Name = [InfraNomMsduSizeAcVi] Value = [0x%x] ",pHddCtx->cfg_ini->InfraNomMsduSizeAcVi);
VOS_TRACE(VOS_MODULE_ID_HDD, VOS_TRACE_LEVEL_INFO_HIGH, "Name = [InfraMeanDataRateAcVi] Value = [0x%x] ",pHddCtx->cfg_ini->InfraMeanDataRateAcVi);
VOS_TRACE(VOS_MODULE_ID_HDD, VOS_TRACE_LEVEL_INFO_HIGH, "Name = [InfraMinPhyRateAcVi] Value = [0x%x] ",pHddCtx->cfg_ini->InfraMinPhyRateAcVi);
VOS_TRACE(VOS_MODULE_ID_HDD, VOS_TRACE_LEVEL_INFO_HIGH, "Name = [InfraSbaAcVi] Value = [0x%x] ",pHddCtx->cfg_ini->InfraSbaAcVi);
VOS_TRACE(VOS_MODULE_ID_HDD, VOS_TRACE_LEVEL_INFO_HIGH, "Name = [InfraDirAcBe] Value = [%u] ",pHddCtx->cfg_ini->InfraDirAcBe);
VOS_TRACE(VOS_MODULE_ID_HDD, VOS_TRACE_LEVEL_INFO_HIGH, "Name = [InfraNomMsduSizeAcBe] Value = [0x%x] ",pHddCtx->cfg_ini->InfraNomMsduSizeAcBe);
VOS_TRACE(VOS_MODULE_ID_HDD, VOS_TRACE_LEVEL_INFO_HIGH, "Name = [InfraMeanDataRateAcBe] Value = [0x%x] ",pHddCtx->cfg_ini->InfraMeanDataRateAcBe);
VOS_TRACE(VOS_MODULE_ID_HDD, VOS_TRACE_LEVEL_INFO_HIGH, "Name = [InfraMinPhyRateAcBe] Value = [0x%x] ",pHddCtx->cfg_ini->InfraMinPhyRateAcBe);
VOS_TRACE(VOS_MODULE_ID_HDD, VOS_TRACE_LEVEL_INFO_HIGH, "Name = [InfraSbaAcBe] Value = [0x%x] ",pHddCtx->cfg_ini->InfraSbaAcBe);
VOS_TRACE(VOS_MODULE_ID_HDD, VOS_TRACE_LEVEL_INFO_HIGH, "Name = [InfraDirAcBk] Value = [%u] ",pHddCtx->cfg_ini->InfraDirAcBk);
VOS_TRACE(VOS_MODULE_ID_HDD, VOS_TRACE_LEVEL_INFO_HIGH, "Name = [InfraNomMsduSizeAcBk] Value = [0x%x] ",pHddCtx->cfg_ini->InfraNomMsduSizeAcBk);
VOS_TRACE(VOS_MODULE_ID_HDD, VOS_TRACE_LEVEL_INFO_HIGH, "Name = [InfraMeanDataRateAcBk] Value = [0x%x] ",pHddCtx->cfg_ini->InfraMeanDataRateAcBk);
VOS_TRACE(VOS_MODULE_ID_HDD, VOS_TRACE_LEVEL_INFO_HIGH, "Name = [InfraMinPhyRateAcBk] Value = [0x%x] ",pHddCtx->cfg_ini->InfraMinPhyRateAcBk);
VOS_TRACE(VOS_MODULE_ID_HDD, VOS_TRACE_LEVEL_INFO_HIGH, "Name = [InfraSbaAcBk] Value = [0x%x] ",pHddCtx->cfg_ini->InfraSbaAcBk);
VOS_TRACE(VOS_MODULE_ID_HDD, VOS_TRACE_LEVEL_INFO_HIGH, "Name = [DelayedTriggerFrmInt] Value = [%u] ",pHddCtx->cfg_ini->DelayedTriggerFrmInt);
VOS_TRACE(VOS_MODULE_ID_HDD, VOS_TRACE_LEVEL_INFO_HIGH, "Name = [mcastBcastFilterSetting] Value = [%u] ",pHddCtx->cfg_ini->mcastBcastFilterSetting);
VOS_TRACE(VOS_MODULE_ID_HDD, VOS_TRACE_LEVEL_INFO_HIGH, "Name = [fhostArpOffload] Value = [%u] ",pHddCtx->cfg_ini->fhostArpOffload);
VOS_TRACE(VOS_MODULE_ID_HDD, VOS_TRACE_LEVEL_INFO_HIGH, "Name = [ssdp] Value = [%u] ", pHddCtx->cfg_ini->ssdp);
VOS_TRACE(VOS_MODULE_ID_HDD, VOS_TRACE_LEVEL_INFO_HIGH, "Name = [%s] Value = [%u] ", CFG_ENABLE_HOST_BROADCAST_NAME, pHddCtx->cfg_ini->bcastptrn);
#ifdef FEATURE_RUNTIME_PM
VOS_TRACE(VOS_MODULE_ID_HDD, VOS_TRACE_LEVEL_INFO_HIGH, "Name = [runtime_pm] Value = [%u] ", pHddCtx->cfg_ini->runtime_pm);
VOS_TRACE(VOS_MODULE_ID_HDD, VOS_TRACE_LEVEL_INFO_HIGH, "Name = [runtime_pm_delay] Value = [%u] ", pHddCtx->cfg_ini->runtime_pm_delay);
#endif
#ifdef FEATURE_SECURE_FIRMWARE
hddLog(LOG2, "Name = [enable_fw_hash_check] Value = [%u]",
pHddCtx->cfg_ini->enable_fw_hash_check);
#endif
#ifdef FEATURE_WLAN_RA_FILTERING
VOS_TRACE(VOS_MODULE_ID_HDD, VOS_TRACE_LEVEL_INFO_HIGH, "Name = [RArateLimitInterval] Value = [%u] ", pHddCtx->cfg_ini->RArateLimitInterval);
VOS_TRACE(VOS_MODULE_ID_HDD, VOS_TRACE_LEVEL_INFO_HIGH, "Name = [IsRArateLimitEnabled] Value = [%u] ", pHddCtx->cfg_ini->IsRArateLimitEnabled);
#endif
#ifdef WLAN_FEATURE_VOWIFI_11R
VOS_TRACE(VOS_MODULE_ID_HDD, VOS_TRACE_LEVEL_INFO_HIGH, "Name = [fFTResourceReqSupported] Value = [%u] ",pHddCtx->cfg_ini->fFTResourceReqSupported);
#endif
#ifdef WLAN_FEATURE_NEIGHBOR_ROAMING
VOS_TRACE(VOS_MODULE_ID_HDD, VOS_TRACE_LEVEL_INFO_HIGH, "Name = [nNeighborReassocRssiThreshold] Value = [%u] ",pHddCtx->cfg_ini->nNeighborReassocRssiThreshold);
VOS_TRACE(VOS_MODULE_ID_HDD, VOS_TRACE_LEVEL_INFO_HIGH, "Name = [nNeighborLookupRssiThreshold] Value = [%u] ",pHddCtx->cfg_ini->nNeighborLookupRssiThreshold);
VOS_TRACE(VOS_MODULE_ID_HDD, VOS_TRACE_LEVEL_INFO_HIGH,
"Name = [nOpportunisticThresholdDiff] Value = [%u] ",
pHddCtx->cfg_ini->nOpportunisticThresholdDiff);
VOS_TRACE(VOS_MODULE_ID_HDD, VOS_TRACE_LEVEL_INFO_HIGH,
"Name = [nRoamRescanRssiDiff] Value = [%u] ",
pHddCtx->cfg_ini->nRoamRescanRssiDiff);
VOS_TRACE(VOS_MODULE_ID_HDD, VOS_TRACE_LEVEL_INFO_HIGH, "Name = [nNeighborScanMinChanTime] Value = [%u] ",pHddCtx->cfg_ini->nNeighborScanMinChanTime);
VOS_TRACE(VOS_MODULE_ID_HDD, VOS_TRACE_LEVEL_INFO_HIGH, "Name = [nNeighborScanMaxChanTime] Value = [%u] ",pHddCtx->cfg_ini->nNeighborScanMaxChanTime);
VOS_TRACE(VOS_MODULE_ID_HDD, VOS_TRACE_LEVEL_INFO_HIGH, "Name = [nMaxNeighborRetries] Value = [%u] ",pHddCtx->cfg_ini->nMaxNeighborReqTries);
VOS_TRACE(VOS_MODULE_ID_HDD, VOS_TRACE_LEVEL_INFO_HIGH, "Name = [nNeighborScanPeriod] Value = [%u] ",pHddCtx->cfg_ini->nNeighborScanPeriod);
VOS_TRACE(VOS_MODULE_ID_HDD, VOS_TRACE_LEVEL_INFO_HIGH, "Name = [nNeighborScanResultsRefreshPeriod] Value = [%u] ",pHddCtx->cfg_ini->nNeighborResultsRefreshPeriod);
VOS_TRACE(VOS_MODULE_ID_HDD, VOS_TRACE_LEVEL_INFO_HIGH, "Name = [nEmptyScanRefreshPeriod] Value = [%u] ",pHddCtx->cfg_ini->nEmptyScanRefreshPeriod);
VOS_TRACE(VOS_MODULE_ID_HDD, VOS_TRACE_LEVEL_INFO_HIGH,
"Name = [nRoamBmissFirstBcnt] Value = [%u] ",
pHddCtx->cfg_ini->nRoamBmissFirstBcnt);
VOS_TRACE(VOS_MODULE_ID_HDD, VOS_TRACE_LEVEL_INFO_HIGH,
"Name = [nRoamBmissFinalBcnt] Value = [%u] ",
pHddCtx->cfg_ini->nRoamBmissFinalBcnt);
VOS_TRACE(VOS_MODULE_ID_HDD, VOS_TRACE_LEVEL_INFO_HIGH,
"Name = [nRoamBeaconRssiWeight] Value = [%u] ",
pHddCtx->cfg_ini->nRoamBeaconRssiWeight);
VOS_TRACE(VOS_MODULE_ID_HDD, VOS_TRACE_LEVEL_INFO_HIGH,
"Name = [allowDFSChannelRoam] Value = [%u] ",
pHddCtx->cfg_ini->allowDFSChannelRoam);
VOS_TRACE(VOS_MODULE_ID_HDD, VOS_TRACE_LEVEL_INFO_HIGH,
"Name = [nhi_rssi_scan_max_count] Value = [%u] ",
pHddCtx->cfg_ini->nhi_rssi_scan_max_count);
VOS_TRACE(VOS_MODULE_ID_HDD, VOS_TRACE_LEVEL_INFO_HIGH,
"Name = [nhi_rssi_scan_rssi_delta] Value = [%u] ",
pHddCtx->cfg_ini->nhi_rssi_scan_rssi_delta);
VOS_TRACE(VOS_MODULE_ID_HDD, VOS_TRACE_LEVEL_INFO_HIGH,
"Name = [nhi_rssi_scan_delay] Value = [%u] ",
pHddCtx->cfg_ini->nhi_rssi_scan_delay);
VOS_TRACE(VOS_MODULE_ID_HDD, VOS_TRACE_LEVEL_INFO_HIGH,
"Name = [nhi_rssi_scan_rssi_ub] Value = [%u] ",
pHddCtx->cfg_ini->nhi_rssi_scan_rssi_ub);
#endif
VOS_TRACE(VOS_MODULE_ID_HDD, VOS_TRACE_LEVEL_INFO_HIGH, "Name = [burstSizeDefinition] Value = [0x%x] ",pHddCtx->cfg_ini->burstSizeDefinition);
VOS_TRACE(VOS_MODULE_ID_HDD, VOS_TRACE_LEVEL_INFO_HIGH, "Name = [tsInfoAckPolicy] Value = [0x%x] ",pHddCtx->cfg_ini->tsInfoAckPolicy);
VOS_TRACE(VOS_MODULE_ID_HDD, VOS_TRACE_LEVEL_INFO_HIGH, "Name = [rfSettlingTimeUs] Value = [%u] ",pHddCtx->cfg_ini->rfSettlingTimeUs);
VOS_TRACE(VOS_MODULE_ID_HDD, VOS_TRACE_LEVEL_INFO_HIGH, "Name = [bSingleTidRc] Value = [%u] ",pHddCtx->cfg_ini->bSingleTidRc);
VOS_TRACE(VOS_MODULE_ID_HDD, VOS_TRACE_LEVEL_INFO_HIGH, "Name = [gDynamicPSPollvalue] Value = [%u] ",pHddCtx->cfg_ini->dynamicPsPollValue);
VOS_TRACE(VOS_MODULE_ID_HDD, VOS_TRACE_LEVEL_INFO_HIGH, "Name = [gAddTSWhenACMIsOff] Value = [%u] ",pHddCtx->cfg_ini->AddTSWhenACMIsOff);
VOS_TRACE(VOS_MODULE_ID_HDD, VOS_TRACE_LEVEL_INFO_HIGH, "Name = [gValidateScanList] Value = [%u] ",pHddCtx->cfg_ini->fValidateScanList);
VOS_TRACE(VOS_MODULE_ID_HDD, VOS_TRACE_LEVEL_INFO_HIGH, "Name = [gStaKeepAlivePeriod] Value = [%u] ",pHddCtx->cfg_ini->infraStaKeepAlivePeriod);
VOS_TRACE(VOS_MODULE_ID_HDD, VOS_TRACE_LEVEL_INFO_HIGH, "Name = [gApDataAvailPollInterVal] Value = [%u] ",pHddCtx->cfg_ini->apDataAvailPollPeriodInMs);
VOS_TRACE(VOS_MODULE_ID_HDD, VOS_TRACE_LEVEL_INFO_HIGH, "Name = [BandCapability] Value = [%u] ",pHddCtx->cfg_ini->nBandCapability);
VOS_TRACE(VOS_MODULE_ID_HDD, VOS_TRACE_LEVEL_INFO_HIGH, "Name = [fEnableBeaconEarlyTermination] Value = [%u] ",pHddCtx->cfg_ini->fEnableBeaconEarlyTermination);
VOS_TRACE(VOS_MODULE_ID_HDD, VOS_TRACE_LEVEL_INFO_HIGH, "Name = [teleBcnWakeupEnable] Value = [%u] ",pHddCtx->cfg_ini->teleBcnWakeupEn);
VOS_TRACE(VOS_MODULE_ID_HDD, VOS_TRACE_LEVEL_INFO_HIGH, "Name = [transListenInterval] Value = [%u] ",pHddCtx->cfg_ini->nTeleBcnTransListenInterval);
VOS_TRACE(VOS_MODULE_ID_HDD, VOS_TRACE_LEVEL_INFO_HIGH, "Name = [transLiNumIdleBeacons] Value = [%u] ",pHddCtx->cfg_ini->nTeleBcnTransLiNumIdleBeacons);
VOS_TRACE(VOS_MODULE_ID_HDD, VOS_TRACE_LEVEL_INFO_HIGH, "Name = [maxListenInterval] Value = [%u] ",pHddCtx->cfg_ini->nTeleBcnMaxListenInterval);
VOS_TRACE(VOS_MODULE_ID_HDD, VOS_TRACE_LEVEL_INFO_HIGH, "Name = [maxLiNumIdleBeacons] Value = [%u] ",pHddCtx->cfg_ini->nTeleBcnMaxLiNumIdleBeacons);
VOS_TRACE(VOS_MODULE_ID_HDD, VOS_TRACE_LEVEL_INFO_HIGH, "Name = [bcnEarlyTermWakeInterval] Value = [%u] ",pHddCtx->cfg_ini->bcnEarlyTermWakeInterval);
VOS_TRACE(VOS_MODULE_ID_HDD, VOS_TRACE_LEVEL_INFO_HIGH, "Name = [gEnableBypass11d] Value = [%u] ",pHddCtx->cfg_ini->enableBypass11d);
VOS_TRACE(VOS_MODULE_ID_HDD, VOS_TRACE_LEVEL_INFO_HIGH, "Name = [gEnableDFSChnlScan] Value = [%u] ",pHddCtx->cfg_ini->enableDFSChnlScan);
VOS_TRACE(VOS_MODULE_ID_HDD, VOS_TRACE_LEVEL_INFO_HIGH, "Name = [gEnableDFSPnoChnlScan] Value = [%u] ",pHddCtx->cfg_ini->enable_dfs_pno_chnl_scan);
VOS_TRACE(VOS_MODULE_ID_HDD, VOS_TRACE_LEVEL_INFO_HIGH, "Name = [gReportMaxLinkSpeed] Value = [%u] ",pHddCtx->cfg_ini->reportMaxLinkSpeed);
VOS_TRACE(VOS_MODULE_ID_HDD, VOS_TRACE_LEVEL_INFO_HIGH, "Name = [thermalMitigationEnable] Value = [%u] ",pHddCtx->cfg_ini->thermalMitigationEnable);
#ifdef WLAN_FEATURE_11AC
VOS_TRACE(VOS_MODULE_ID_HDD, VOS_TRACE_LEVEL_INFO_HIGH, "Name = [gVhtChannelWidth] value = [%u]",pHddCtx->cfg_ini->vhtChannelWidth);
#endif
VOS_TRACE(VOS_MODULE_ID_HDD, VOS_TRACE_LEVEL_INFO_HIGH, "Name = [enableFirstScan2GOnly] Value = [%u] ",pHddCtx->cfg_ini->enableFirstScan2GOnly);
VOS_TRACE(VOS_MODULE_ID_HDD, VOS_TRACE_LEVEL_INFO_HIGH, "Name = [skipDfsChnlInP2pSearch] Value = [%u] ",pHddCtx->cfg_ini->skipDfsChnlInP2pSearch);
VOS_TRACE(VOS_MODULE_ID_HDD, VOS_TRACE_LEVEL_INFO_HIGH, "Name = [ignoreDynamicDtimInP2pMode] Value = [%u] ",pHddCtx->cfg_ini->ignoreDynamicDtimInP2pMode);
VOS_TRACE(VOS_MODULE_ID_HDD, VOS_TRACE_LEVEL_INFO_HIGH, "Name = [enableRxSTBC] Value = [%u] ",pHddCtx->cfg_ini->enableRxSTBC);
VOS_TRACE(VOS_MODULE_ID_HDD, VOS_TRACE_LEVEL_INFO_HIGH, "Name = [gEnableLpwrImgTransition] Value = [%u] ",pHddCtx->cfg_ini->enableLpwrImgTransition);
VOS_TRACE(VOS_MODULE_ID_HDD, VOS_TRACE_LEVEL_INFO_HIGH, "Name = [gEnableSSR] Value = [%u] ",pHddCtx->cfg_ini->enableSSR);
VOS_TRACE(VOS_MODULE_ID_HDD, VOS_TRACE_LEVEL_INFO_HIGH, "Name = [gEnableVhtFor24GHzBand] Value = [%u] ",pHddCtx->cfg_ini->enableVhtFor24GHzBand);
VOS_TRACE(VOS_MODULE_ID_HDD, VOS_TRACE_LEVEL_INFO_HIGH,
"Name = [gEnableVendorVhtFor24GHzBand] Value = [%u] ",
pHddCtx->cfg_ini->enable_vendor_vht_for_24ghz_band);
VOS_TRACE(VOS_MODULE_ID_HDD, VOS_TRACE_LEVEL_INFO_HIGH, "Name = [gFlexConnectPowerFactor] Value = [%u] ", pHddCtx->cfg_ini->flexConnectPowerFactor);
VOS_TRACE(VOS_MODULE_ID_HDD, VOS_TRACE_LEVEL_INFO_HIGH, "Name = [gEnableIbssHeartBeatOffload] Value = [%u] ", pHddCtx->cfg_ini->enableIbssHeartBeatOffload);
VOS_TRACE(VOS_MODULE_ID_HDD, VOS_TRACE_LEVEL_INFO_HIGH, "Name = [gAntennaDiversity] Value = [%u] ", pHddCtx->cfg_ini->antennaDiversity);
VOS_TRACE(VOS_MODULE_ID_HDD, VOS_TRACE_LEVEL_INFO_HIGH, "Name = [gGoLinkMonitorPeriod] Value = [%u]",pHddCtx->cfg_ini->goLinkMonitorPeriod);
VOS_TRACE(VOS_MODULE_ID_HDD, VOS_TRACE_LEVEL_INFO_HIGH, "Name = [gApLinkMonitorPeriod] Value = [%u]",pHddCtx->cfg_ini->apLinkMonitorPeriod);
VOS_TRACE(VOS_MODULE_ID_HDD, VOS_TRACE_LEVEL_INFO_HIGH, "Name = [gGoKeepAlivePeriod] Value = [%u]",pHddCtx->cfg_ini->goKeepAlivePeriod);
VOS_TRACE(VOS_MODULE_ID_HDD, VOS_TRACE_LEVEL_INFO_HIGH, "Name = [gApKeepAlivePeriod]Value = [%u]",pHddCtx->cfg_ini->apKeepAlivePeriod);
VOS_TRACE(VOS_MODULE_ID_HDD, VOS_TRACE_LEVEL_INFO_HIGH,
"Name = [gMaxAmsduNum] Value = [%u] ", pHddCtx->cfg_ini->max_amsdu_num);
VOS_TRACE(VOS_MODULE_ID_HDD, VOS_TRACE_LEVEL_INFO_HIGH, "Name = [nSelect5GHzMargin] Value = [%u] ",pHddCtx->cfg_ini->nSelect5GHzMargin);
VOS_TRACE(VOS_MODULE_ID_HDD, VOS_TRACE_LEVEL_INFO_HIGH, "Name = [gCoalesingInIBSS] Value = [%u] ",pHddCtx->cfg_ini->isCoalesingInIBSSAllowed);
VOS_TRACE(VOS_MODULE_ID_HDD, VOS_TRACE_LEVEL_INFO_HIGH, "Name = [gIbssATIMWinSize] Value = [%u] ",pHddCtx->cfg_ini->ibssATIMWinSize);
VOS_TRACE(VOS_MODULE_ID_HDD, VOS_TRACE_LEVEL_INFO_HIGH, "Name = [gIbssIsPowerSaveAllowed] Value = [%u] ",pHddCtx->cfg_ini->isIbssPowerSaveAllowed);
VOS_TRACE(VOS_MODULE_ID_HDD, VOS_TRACE_LEVEL_INFO_HIGH, "Name = [gIbssIsPowerCollapseAllowed] Value = [%u] ",pHddCtx->cfg_ini->isIbssPowerCollapseAllowed);
VOS_TRACE(VOS_MODULE_ID_HDD, VOS_TRACE_LEVEL_INFO_HIGH, "Name = [gIbssAwakeOnTxRx] Value = [%u] ",pHddCtx->cfg_ini->isIbssAwakeOnTxRx);
VOS_TRACE(VOS_MODULE_ID_HDD, VOS_TRACE_LEVEL_INFO_HIGH, "Name = [gIbssInactivityTime] Value = [%u] ",pHddCtx->cfg_ini->ibssInactivityCount);
VOS_TRACE(VOS_MODULE_ID_HDD, VOS_TRACE_LEVEL_INFO_HIGH, "Name = [gIbssTxSpEndInactivityTime] Value = [%u] ",pHddCtx->cfg_ini->ibssTxSpEndInactivityTime);
VOS_TRACE(VOS_MODULE_ID_HDD, VOS_TRACE_LEVEL_INFO_HIGH, "Name = [gIbssPsWarmupTime] Value = [%u] ",pHddCtx->cfg_ini->ibssPsWarmupTime);
VOS_TRACE(VOS_MODULE_ID_HDD, VOS_TRACE_LEVEL_INFO_HIGH,
"Name = [gIbssPs1RxChainInAtim] Value = [%u] ",
pHddCtx->cfg_ini->ibssPs1RxChainInAtimEnable);
VOS_TRACE(VOS_MODULE_ID_HDD, VOS_TRACE_LEVEL_INFO_HIGH,
"Name = [gIgnorePeerErpInfo] Value = [%u] ",
pHddCtx->cfg_ini->ignorePeerErpInfo);
VOS_TRACE(VOS_MODULE_ID_HDD, VOS_TRACE_LEVEL_INFO_HIGH, "Name = [fDfsPhyerrFilterOffload] Value = [%u] ",pHddCtx->cfg_ini->fDfsPhyerrFilterOffload);
#ifdef IPA_OFFLOAD
VOS_TRACE(VOS_MODULE_ID_HDD, VOS_TRACE_LEVEL_INFO_HIGH, "Name = [gIPAConfig] Value = [0x%x] ",pHddCtx->cfg_ini->IpaConfig);
VOS_TRACE(VOS_MODULE_ID_HDD, VOS_TRACE_LEVEL_INFO_HIGH, "Name = [gIPADescSize] Value = [%u] ",pHddCtx->cfg_ini->IpaDescSize);
VOS_TRACE(VOS_MODULE_ID_HDD, VOS_TRACE_LEVEL_INFO_HIGH, "Name = [IpaHighBandwidthMbpsg] Value = [%u] ",pHddCtx->cfg_ini->IpaHighBandwidthMbps);
VOS_TRACE(VOS_MODULE_ID_HDD, VOS_TRACE_LEVEL_INFO_HIGH, "Name = [IpaMediumBandwidthMbps] Value = [%u] ",pHddCtx->cfg_ini->IpaMediumBandwidthMbps);
VOS_TRACE(VOS_MODULE_ID_HDD, VOS_TRACE_LEVEL_INFO_HIGH, "Name = [IpaLowBandwidthMbps] Value = [%u] ",pHddCtx->cfg_ini->IpaLowBandwidthMbps);
#endif
VOS_TRACE(VOS_MODULE_ID_HDD, VOS_TRACE_LEVEL_INFO_HIGH, "Name = [gEnableOverLapCh] Value = [%u] ",pHddCtx->cfg_ini->gEnableOverLapCh);
VOS_TRACE(VOS_MODULE_ID_HDD, VOS_TRACE_LEVEL_INFO_HIGH, "Name = [gAcsScanBandPreference] Value = [%u] ",pHddCtx->cfg_ini->acsScanBandPreference);
VOS_TRACE(VOS_MODULE_ID_HDD, VOS_TRACE_LEVEL_INFO_HIGH, "Name = [gMaxOffloadPeers] Value = [%u] ",pHddCtx->cfg_ini->apMaxOffloadPeers);
VOS_TRACE(VOS_MODULE_ID_HDD, VOS_TRACE_LEVEL_INFO_HIGH, "Name = [gMaxOffloadReorderBuffs] value = [%u] ",pHddCtx->cfg_ini->apMaxOffloadReorderBuffs);
VOS_TRACE(VOS_MODULE_ID_HDD, VOS_TRACE_LEVEL_INFO_HIGH, "Name = [overrideCountryCode] Value = [%s] ",pHddCtx->cfg_ini->overrideCountryCode);
VOS_TRACE(VOS_MODULE_ID_HDD, VOS_TRACE_LEVEL_INFO_HIGH, "Name = [gAllowDFSChannelRoam] Value = [%u] ",pHddCtx->cfg_ini->allowDFSChannelRoam);
hddLog(VOS_TRACE_LEVEL_INFO_HIGH, "Name = [gMaxConcurrentActiveSessions] Value = [%u] ", pHddCtx->cfg_ini->gMaxConcurrentActiveSessions);
#ifdef FEATURE_BUS_BANDWIDTH
VOS_TRACE(VOS_MODULE_ID_HDD, VOS_TRACE_LEVEL_INFO_HIGH,
"Name = [gBusBandwidthHighThreshold] Value = [%u] ",
pHddCtx->cfg_ini->busBandwidthHighThreshold);
VOS_TRACE(VOS_MODULE_ID_HDD, VOS_TRACE_LEVEL_INFO_HIGH,
"Name = [gBusBandwidthMediumThreshold] Value = [%u] ",
pHddCtx->cfg_ini->busBandwidthMediumThreshold);
VOS_TRACE(VOS_MODULE_ID_HDD, VOS_TRACE_LEVEL_INFO_HIGH,
"Name = [gBusBandwidthLowThreshold] Value = [%u] ",
pHddCtx->cfg_ini->busBandwidthLowThreshold);
VOS_TRACE(VOS_MODULE_ID_HDD, VOS_TRACE_LEVEL_INFO_HIGH,
"Name = [gbusBandwidthComputeInterval] Value = [%u] ",
pHddCtx->cfg_ini->busBandwidthComputeInterval);
VOS_TRACE(VOS_MODULE_ID_HDD, VOS_TRACE_LEVEL_INFO_HIGH,
"Name = [gTcpDelAckThresholdHigh] Value = [%u] ",
pHddCtx->cfg_ini->tcpDelackThresholdHigh);
VOS_TRACE(VOS_MODULE_ID_HDD, VOS_TRACE_LEVEL_INFO_HIGH,
"Name = [gTcpDelAckThresholdLow] Value = [%u] ",
pHddCtx->cfg_ini->tcpDelackThresholdLow);
VOS_TRACE(VOS_MODULE_ID_HDD, VOS_TRACE_LEVEL_INFO_HIGH,
"Name = [tcpDelackTimerCount] Value = [%u] ",
pHddCtx->cfg_ini->tcpDelackTimerCount);
VOS_TRACE(VOS_MODULE_ID_HDD, VOS_TRACE_LEVEL_INFO_HIGH,
"Name = [%s] Value = [%u] ", CFG_TCP_TX_HIGH_TPUT_THRESHOLD_NAME,
pHddCtx->cfg_ini->tcp_tx_high_tput_thres);
#endif
VOS_TRACE(VOS_MODULE_ID_HDD, VOS_TRACE_LEVEL_INFO_HIGH,
"Name = [gIgnoreCAC] Value = [%u] ",
pHddCtx->cfg_ini->ignoreCAC);
VOS_TRACE(VOS_MODULE_ID_HDD, VOS_TRACE_LEVEL_INFO_HIGH,
"Name = [gSapPreferredChanLocation] Value = [%u] ",
pHddCtx->cfg_ini->gSapPreferredChanLocation);
VOS_TRACE(VOS_MODULE_ID_HDD, VOS_TRACE_LEVEL_INFO_HIGH,
"Name = [gDisableDfsJapanW53] Value = [%u] ",
pHddCtx->cfg_ini->gDisableDfsJapanW53);
#ifdef FEATURE_GREEN_AP
VOS_TRACE(VOS_MODULE_ID_HDD, VOS_TRACE_LEVEL_INFO_HIGH,
"Name = [gEnableGreenAp] Value = [%u] ",
pHddCtx->cfg_ini->enableGreenAP);
VOS_TRACE(VOS_MODULE_ID_HDD, VOS_TRACE_LEVEL_INFO_HIGH,
"Name = [gEenableEGAP] Value = [%u] ",
pHddCtx->cfg_ini->enable_egap);
VOS_TRACE(VOS_MODULE_ID_HDD, VOS_TRACE_LEVEL_INFO_HIGH,
"Name = [gEGAPInactTime] Value = [%u] ",
pHddCtx->cfg_ini->egap_inact_time);
VOS_TRACE(VOS_MODULE_ID_HDD, VOS_TRACE_LEVEL_INFO_HIGH,
"Name = [gEGAPWaitTime] Value = [%u] ",
pHddCtx->cfg_ini->egap_wait_time);
VOS_TRACE(VOS_MODULE_ID_HDD, VOS_TRACE_LEVEL_INFO_HIGH,
"Name = [gEGAPFeatures] Value = [%u] ",
pHddCtx->cfg_ini->egap_feature_flag);
#endif
#ifdef WLAN_FEATURE_ROAM_OFFLOAD
VOS_TRACE(VOS_MODULE_ID_HDD, VOS_TRACE_LEVEL_INFO_HIGH,
"Name = [isRoamOffloadEnabled] Value = [%u]",
pHddCtx->cfg_ini->isRoamOffloadEnabled);
#endif
VOS_TRACE(VOS_MODULE_ID_HDD, VOS_TRACE_LEVEL_ERROR,
"Name = [gEnableHostapdEdcaLocal] Value = [%u]",
pHddCtx->cfg_ini->enable_hostapd_edca_local);
VOS_TRACE(VOS_MODULE_ID_HDD, VOS_TRACE_LEVEL_INFO_HIGH,
"Name = [gEnableSifsBurst] Value = [%u]",
pHddCtx->cfg_ini->enableSifsBurst);
#ifdef WLAN_FEATURE_LPSS
VOS_TRACE(VOS_MODULE_ID_HDD, VOS_TRACE_LEVEL_INFO_HIGH,
"Name = [gEnableLpassSupport] Value = [%u] ",
pHddCtx->cfg_ini->enablelpasssupport);
#endif
VOS_TRACE(VOS_MODULE_ID_HDD, VOS_TRACE_LEVEL_INFO_HIGH,
"Name = [gEnableSelfRecovery] Value = [%u]",
pHddCtx->cfg_ini->enableSelfRecovery);
VOS_TRACE(VOS_MODULE_ID_HDD, VOS_TRACE_LEVEL_INFO_HIGH,
"Name = [gEnableAcTxqOptimize] Value = [%u]",
pHddCtx->cfg_ini->enable_ac_txq_optimize);
VOS_TRACE(VOS_MODULE_ID_HDD, VOS_TRACE_LEVEL_INFO_HIGH,
"Name = [gEnableSapSuspend] Value = [%u]",
pHddCtx->cfg_ini->enableSapSuspend);
VOS_TRACE(VOS_MODULE_ID_HDD, VOS_TRACE_LEVEL_INFO_HIGH,
"Name = [gIgnorePeerHTopMode] Value = [%u]",
pHddCtx->cfg_ini->ignore_peer_ht_opmode);
#ifdef WLAN_FEATURE_EXTWOW_SUPPORT
VOS_TRACE(VOS_MODULE_ID_HDD, VOS_TRACE_LEVEL_INFO_HIGH,
"Name = [gExtWoWgotoSuspend] Value = [%u]",
pHddCtx->cfg_ini->extWowGotoSuspend);
VOS_TRACE(VOS_MODULE_ID_HDD, VOS_TRACE_LEVEL_INFO_HIGH,
"Name = [gExtWowApp1WakeupPinNumber] Value = [%u]",
pHddCtx->cfg_ini->extWowApp1WakeupPinNumber);
VOS_TRACE(VOS_MODULE_ID_HDD, VOS_TRACE_LEVEL_INFO_HIGH,
"Name = [gExtWowApp2WakeupPinNumber] Value = [%u]",
pHddCtx->cfg_ini->extWowApp2WakeupPinNumber);
VOS_TRACE(VOS_MODULE_ID_HDD, VOS_TRACE_LEVEL_INFO_HIGH,
"Name = [gExtWoWApp2KAInitPingInterval] Value = [%u]",
pHddCtx->cfg_ini->extWowApp2KAInitPingInterval);
VOS_TRACE(VOS_MODULE_ID_HDD, VOS_TRACE_LEVEL_INFO_HIGH,
"Name = [gExtWoWApp2KAMinPingInterval] Value = [%u]",
pHddCtx->cfg_ini->extWowApp2KAMinPingInterval);
VOS_TRACE(VOS_MODULE_ID_HDD, VOS_TRACE_LEVEL_INFO_HIGH,
"Name = [gExtWoWApp2KAMaxPingInterval] Value = [%u]",
pHddCtx->cfg_ini->extWowApp2KAMaxPingInterval);
VOS_TRACE(VOS_MODULE_ID_HDD, VOS_TRACE_LEVEL_INFO_HIGH,
"Name = [gExtWoWApp2KAIncPingInterval] Value = [%u]",
pHddCtx->cfg_ini->extWowApp2KAIncPingInterval);
VOS_TRACE(VOS_MODULE_ID_HDD, VOS_TRACE_LEVEL_INFO_HIGH,
"Name = [gExtWoWApp2TcpSrcPort] Value = [%u]",
pHddCtx->cfg_ini->extWowApp2TcpSrcPort);
VOS_TRACE(VOS_MODULE_ID_HDD, VOS_TRACE_LEVEL_INFO_HIGH,
"Name = [gExtWoWApp2TcpDstPort] Value = [%u]",
pHddCtx->cfg_ini->extWowApp2TcpDstPort);
VOS_TRACE(VOS_MODULE_ID_HDD, VOS_TRACE_LEVEL_INFO_HIGH,
"Name = [gExtWoWApp2TcpTxTimeout] Value = [%u]",
pHddCtx->cfg_ini->extWowApp2TcpTxTimeout);
VOS_TRACE(VOS_MODULE_ID_HDD, VOS_TRACE_LEVEL_INFO_HIGH,
"Name = [gExtWoWApp2TcpRxTimeout] Value = [%u]",
pHddCtx->cfg_ini->extWowApp2TcpRxTimeout);
#endif
#ifdef IPA_UC_STA_OFFLOAD
VOS_TRACE(VOS_MODULE_ID_HDD, VOS_TRACE_LEVEL_INFO_HIGH,
"Name = [gIpaUcStaOffload] Value = [%u] ",
pHddCtx->cfg_ini->ipa_uc_sta_offload);
#endif
#ifdef DHCP_SERVER_OFFLOAD
VOS_TRACE(VOS_MODULE_ID_HDD, VOS_TRACE_LEVEL_INFO_HIGH,
"Name = [gDHCPServerOffloadEnable] Value = [%u]",
pHddCtx->cfg_ini->enableDHCPServerOffload);
VOS_TRACE(VOS_MODULE_ID_HDD, VOS_TRACE_LEVEL_INFO_HIGH,
"Name = [gDHCPMaxNumClients] Value = [%u]",
pHddCtx->cfg_ini->dhcpMaxNumClients);
VOS_TRACE(VOS_MODULE_ID_HDD, VOS_TRACE_LEVEL_INFO_HIGH,
"Name = [gDHCPClientStartIP] Value = [%u]",
pHddCtx->cfg_ini->dhcp_client_start_ip);
VOS_TRACE(VOS_MODULE_ID_HDD, VOS_TRACE_LEVEL_INFO_HIGH,
"Name = [gDHCPServerIP] Value = [%s]",
pHddCtx->cfg_ini->dhcpServerIP);
#endif
#ifdef MDNS_OFFLOAD
VOS_TRACE(VOS_MODULE_ID_HDD, VOS_TRACE_LEVEL_INFO_HIGH,
"Name = [gMDNSOffloadEnable] Value = [%u]",
pHddCtx->cfg_ini->enable_mdns_offload);
VOS_TRACE(VOS_MODULE_ID_HDD, VOS_TRACE_LEVEL_INFO_HIGH,
"Name = [gMDNSFqdn] Value = [%s]",
pHddCtx->cfg_ini->mdns_fqdn);
VOS_TRACE(VOS_MODULE_ID_HDD, VOS_TRACE_LEVEL_INFO_HIGH,
"Name = [gMDNSUniqueFqdn] Value = [%s]",
pHddCtx->cfg_ini->mdns_uniquefqdn);
VOS_TRACE(VOS_MODULE_ID_HDD, VOS_TRACE_LEVEL_INFO_HIGH,
"Name = [gMDNSResponseTypeA] Value = [%s]",
pHddCtx->cfg_ini->mdns_resp_type_a);
VOS_TRACE(VOS_MODULE_ID_HDD, VOS_TRACE_LEVEL_INFO_HIGH,
"Name = [gMDNSResponseTypeAIpv4Addr] Value = [%u]",
pHddCtx->cfg_ini->mdns_resp_type_a_ipv4);
VOS_TRACE(VOS_MODULE_ID_HDD, VOS_TRACE_LEVEL_INFO_HIGH,
"Name = [gMDNSResponseTypeTXT] Value = [%s]",
pHddCtx->cfg_ini->mdns_resp_type_txt);
VOS_TRACE(VOS_MODULE_ID_HDD, VOS_TRACE_LEVEL_INFO_HIGH,
"Name = [gMDNSResponseTypeTXTContent] Value = [%s]",
pHddCtx->cfg_ini->mdns_resp_type_txt_content);
VOS_TRACE(VOS_MODULE_ID_HDD, VOS_TRACE_LEVEL_INFO_HIGH,
"Name = [gMDNSResponseTypePTR] Value = [%s]",
pHddCtx->cfg_ini->mdns_resp_type_ptr);
VOS_TRACE(VOS_MODULE_ID_HDD, VOS_TRACE_LEVEL_INFO_HIGH,
"Name = [gMDNSResponseTypePTRDomainName] Value = [%s]",
pHddCtx->cfg_ini->mdns_resp_type_ptr_dname);
VOS_TRACE(VOS_MODULE_ID_HDD, VOS_TRACE_LEVEL_INFO_HIGH,
"Name = [gMDNSResponseTypeSRV] Value = [%s]",
pHddCtx->cfg_ini->mdns_resp_type_srv);
VOS_TRACE(VOS_MODULE_ID_HDD, VOS_TRACE_LEVEL_INFO_HIGH,
"Name = [gMDNSResponseTypeSRVPriority] Value = [%u]",
pHddCtx->cfg_ini->mdns_resp_type_srv_priority);
VOS_TRACE(VOS_MODULE_ID_HDD, VOS_TRACE_LEVEL_INFO_HIGH,
"Name = [gMDNSResponseTypeSRVWeight] Value = [%u]",
pHddCtx->cfg_ini->mdns_resp_type_srv_weight);
VOS_TRACE(VOS_MODULE_ID_HDD, VOS_TRACE_LEVEL_INFO_HIGH,
"Name = [gMDNSResponseTypeSRVPort] Value = [%u]",
pHddCtx->cfg_ini->mdns_resp_type_srv_port);
VOS_TRACE(VOS_MODULE_ID_HDD, VOS_TRACE_LEVEL_INFO_HIGH,
"Name = [gMDNSResponseTypeSRVTarget] Value = [%s]",
pHddCtx->cfg_ini->mdns_resp_type_srv_target);
#endif
VOS_TRACE(VOS_MODULE_ID_HDD, VOS_TRACE_LEVEL_INFO_HIGH,
"Name = [gEnableFatalEvent] Value = [%u] ",
pHddCtx->cfg_ini->enable_fatal_event);
VOS_TRACE(VOS_MODULE_ID_HDD, VOS_TRACE_LEVEL_INFO_HIGH,
"Name = [gEnableDumpCollect] Value = [%u]",
pHddCtx->cfg_ini->is_ramdump_enabled);
VOS_TRACE(VOS_MODULE_ID_HDD, VOS_TRACE_LEVEL_INFO_HIGH,
"Name = [sta_auth_retries_for_code17] Value = [%u] ",
pHddCtx->cfg_ini->sta_auth_retries_for_code17);
hddLog(LOG2, "Name = [gP2PListenDeferInterval] Value = [%u]",
pHddCtx->cfg_ini->p2p_listen_defer_interval);
hddLog(LOG2, "Name = [gfine_time_meas_cap] Value = [%u]",
pHddCtx->cfg_ini->fine_time_meas_cap);
hddLog(LOG2, "Name = [gmax_mgmt_tx_failure_count] Value = [%u]",
pHddCtx->cfg_ini->max_mgmt_tx_fail_count);
hddLog(LOG2, "Name = [%s] Value = [%d]",
CFG_FIRST_SCAN_BUCKET_THRESHOLD_NAME,
pHddCtx->cfg_ini->first_scan_bucket_threshold);
hddLog(LOG2, "Name = [gdot11_mib_stats_enabled] Value = [%u]",
pHddCtx->cfg_ini->mib_stats_enabled);
hddLog(LOG2, "Name = [gEnable_go_cts2self_for_sta] Value = [%u]",
pHddCtx->cfg_ini->enable_go_cts2self_for_sta);
hddLog(LOG2, "Name = [ght_mpdu_density] Value = [%u]",
pHddCtx->cfg_ini->ht_mpdu_density);
hddLog(LOG2, "Name = [gMinRestTimeConc] Value = [%u]",
pHddCtx->cfg_ini->min_rest_time_conc);
hddLog(LOG2, "Name = [gIdleTimeConc] Value = [%u]",
pHddCtx->cfg_ini->idle_time_conc);
hddLog(LOG2, "Name = [%s] Value = [%u]",
CFG_USE_OTP_MAC, pHddCtx->cfg_ini->g_use_otpmac);
hddLog(LOG2,"Name = [%s] Value = [%u]",
CFG_ENABLE_EDCA_INI_NAME,
pHddCtx->cfg_ini->enable_edca_params);
hddLog(LOG2, "Name = [%s] Value = [%u]",
CFG_EDCA_VO_CWMIN_VALUE_NAME,
pHddCtx->cfg_ini->edca_vo_cwmin);
hddLog(LOG2, "Name = [%s] Value = [%u]",
CFG_EDCA_VI_CWMIN_VALUE_NAME,
pHddCtx->cfg_ini->edca_vi_cwmin);
hddLog(LOG2, "Name = [%s] Value = [%u]",
CFG_EDCA_BK_CWMIN_VALUE_NAME,
pHddCtx->cfg_ini->edca_bk_cwmin);
hddLog(LOG2, "Name = [%s] Value = [%u]",
CFG_EDCA_BE_CWMIN_VALUE_NAME,
pHddCtx->cfg_ini->edca_be_cwmin);
hddLog(LOG2, "Name = [%s] Value = [%u]",
CFG_EDCA_VO_CWMAX_VALUE_NAME,
pHddCtx->cfg_ini->edca_vo_cwmax);
hddLog(LOG2, "Name = [%s] Value = [%u]",
CFG_EDCA_VI_CWMAX_VALUE_NAME,
pHddCtx->cfg_ini->edca_vi_cwmax);
hddLog(LOG2, "Name = [%s] Value = [%u]",
CFG_EDCA_BK_CWMAX_VALUE_NAME,
pHddCtx->cfg_ini->edca_bk_cwmax);
hddLog(LOG2, "Name = [%s] Value = [%u]",
CFG_EDCA_BE_CWMAX_VALUE_NAME,
pHddCtx->cfg_ini->edca_be_cwmax);
hddLog(LOG2, "Name = [%s] Value = [%u]",
CFG_EDCA_VO_AIFS_VALUE_NAME,
pHddCtx->cfg_ini->edca_vo_aifs);
hddLog(LOG2, "Name = [%s] Value = [%u]",
CFG_EDCA_VI_AIFS_VALUE_NAME,
pHddCtx->cfg_ini->edca_vi_aifs);
hddLog(LOG2, "Name = [%s] Value = [%u]",
CFG_EDCA_BK_AIFS_VALUE_NAME,
pHddCtx->cfg_ini->edca_bk_aifs);
hddLog(LOG2, "Name = [%s] Value = [%u]",
CFG_EDCA_BE_AIFS_VALUE_NAME,
pHddCtx->cfg_ini->edca_be_aifs);
hddLog(LOG2, "Name = [%s] Value = [%u]",
CFG_ENABLE_VHT_DYNAMIC_STA_CHAINMASK,
pHddCtx->cfg_ini->enable_dynamic_sta_chainmask);
hddLog(LOG2, "Name = [%s] Value = [%u]",
CFG_BUG_ON_REINIT_FAILURE_NAME,
pHddCtx->cfg_ini->bug_on_reinit_failure);
hddLog(LOG2, "Name = [%s] Value = [%s]",
CFG_ENABLE_TX_SCHED_WRR_VO,
pHddCtx->cfg_ini->tx_sched_wrr_vo);
hddLog(LOG2, "Name = [%s] Value = [%s]",
CFG_ENABLE_TX_SCHED_WRR_VI,
pHddCtx->cfg_ini->tx_sched_wrr_vi);
hddLog(LOG2, "Name = [%s] Value = [%s]",
CFG_ENABLE_TX_SCHED_WRR_BK,
pHddCtx->cfg_ini->tx_sched_wrr_bk);
hddLog(LOG2, "Name = [%s] Value = [%s]",
CFG_ENABLE_TX_SCHED_WRR_BE,
pHddCtx->cfg_ini->tx_sched_wrr_be);
hddLog(LOG2, "Name = [%s] Value = [%u]",
CFG_TGT_GTX_USR_CFG_NAME,
pHddCtx->cfg_ini->tgt_gtx_usr_cfg);
hddLog(LOG2, "Name = [%s] Value = [%u]",
CFG_SAP_INTERNAL_RESTART_NAME,
pHddCtx->cfg_ini->sap_internal_restart);
hddLog(LOG2, "Name = [%s] Value = [%u]",
CFG_SAP_FORCE_11N_FOR_11AC_NAME,
pHddCtx->cfg_ini->sap_force_11n_for_11ac);
hddLog(LOG2, "Name = [%s] Value = [%u]",
CFG_SAP_MAX_INACTIVITY_OVERRIDE_NAME,
pHddCtx->cfg_ini->sap_max_inactivity_override);
hddLog(LOG2, "Name = [%s] Value = [%u]",
CFG_ACTIVE_MODE_OFFLOAD,
pHddCtx->cfg_ini->active_mode_offload);
hddLog(LOG2, "Name = [%s] Value = [%u]",
CFG_BPF_PACKET_FILTER_OFFLOAD,
pHddCtx->cfg_ini->bpf_packet_filter_enable);
hddLog(LOG2, "Name = [%s] Value = [%u] ",
CFG_SAP_PROBE_RESP_OFFLOAD_NAME,
pHddCtx->cfg_ini->sap_probe_resp_offload);
hddLog(LOG2, "Name = [%s] Value = [%u]",
CFG_SUB_20_CHANNEL_WIDTH_NAME,
pHddCtx->cfg_ini->sub_20_channel_width);
hddLog(LOGE, "Name = [%s] Value = [%u]",
CFG_STA_CHANGE_COUNTRYCODE_DYN_NAME ,
pHddCtx->cfg_ini->sta_change_cc_via_beacon);
hdd_ndp_print_ini_config(pHddCtx);
hddLog(LOG2, "Name = [%s] Value = [%u] ",
CFG_TDLS_ENABLE_DEFER_TIMER,
pHddCtx->cfg_ini->tdls_enable_defer_time);
hddLog(LOG2, "Name = [%s] Value = [%x] ",
CFG_PRB_REQ_IE_WHITELIST_NAME,
pHddCtx->cfg_ini->probe_req_ie_whitelist);
hddLog(LOG2, "Name = [%s] Value = [%x] ",
CFG_PRB_REQ_IE_BIT_MAP0_NAME,
pHddCtx->cfg_ini->probe_req_ie_bitmap_0);
hddLog(LOG2, "Name = [%s] Value = [%x] ",
CFG_PRB_REQ_IE_BIT_MAP1_NAME,
pHddCtx->cfg_ini->probe_req_ie_bitmap_1);
hddLog(LOG2, "Name = [%s] Value = [%x] ",
CFG_PRB_REQ_IE_BIT_MAP2_NAME,
pHddCtx->cfg_ini->probe_req_ie_bitmap_2);
hddLog(LOG2, "Name = [%s] Value = [%x] ",
CFG_PRB_REQ_IE_BIT_MAP3_NAME,
pHddCtx->cfg_ini->probe_req_ie_bitmap_3);
hddLog(LOG2, "Name = [%s] Value = [%x] ",
CFG_PRB_REQ_IE_BIT_MAP4_NAME,
pHddCtx->cfg_ini->probe_req_ie_bitmap_4);
hddLog(LOG2, "Name = [%s] Value = [%x] ",
CFG_PRB_REQ_IE_BIT_MAP5_NAME,
pHddCtx->cfg_ini->probe_req_ie_bitmap_5);
hddLog(LOG2, "Name = [%s] Value = [%x] ",
CFG_PRB_REQ_IE_BIT_MAP6_NAME,
pHddCtx->cfg_ini->probe_req_ie_bitmap_6);
hddLog(LOG2, "Name = [%s] Value = [%x] ",
CFG_PRB_REQ_IE_BIT_MAP7_NAME,
pHddCtx->cfg_ini->probe_req_ie_bitmap_7);
hddLog(LOG2, "Name = [%s] Value =[%s]",
CFG_PROBE_REQ_OUI_NAME,
pHddCtx->cfg_ini->probe_req_ouis);
hddLog(LOG2, "Name = [%s] Value = [%u]",
CFG_ARP_AC_CATEGORY,
pHddCtx->cfg_ini->arp_ac_category);
}
#define CFG_VALUE_MAX_LEN 256
#define CFG_ENTRY_MAX_LEN (32+CFG_VALUE_MAX_LEN)
static VOS_STATUS hdd_cfg_get_config(REG_TABLE_ENTRY *reg_table,
unsigned long cRegTableEntries,
v_U8_t *ini_struct,
hdd_context_t *pHddCtx, char *pBuf, int buflen)
{
unsigned int idx;
REG_TABLE_ENTRY *pRegEntry = reg_table;
v_U32_t value;
char valueStr[CFG_VALUE_MAX_LEN];
char configStr[CFG_ENTRY_MAX_LEN];
char *fmt;
void *pField;
v_MACADDR_t *pMacAddr;
char *pCur = pBuf;
int curlen;
// start with an empty string
*pCur = '\0';
for ( idx = 0; idx < cRegTableEntries; idx++, pRegEntry++ )
{
pField = ini_struct + pRegEntry->VarOffset;
if ( ( WLAN_PARAM_Integer == pRegEntry->RegType ) ||
( WLAN_PARAM_SignedInteger == pRegEntry->RegType ) ||
( WLAN_PARAM_HexInteger == pRegEntry->RegType ) )
{
value = 0;
memcpy( &value, pField, pRegEntry->VarSize );
if ( WLAN_PARAM_HexInteger == pRegEntry->RegType )
{
fmt = "%x";
}
else if ( WLAN_PARAM_SignedInteger == pRegEntry->RegType )
{
fmt = "%d";
}
else
{
fmt = "%u";
}
snprintf(valueStr, CFG_VALUE_MAX_LEN, fmt, value);
}
else if ( WLAN_PARAM_String == pRegEntry->RegType )
{
snprintf(valueStr, CFG_VALUE_MAX_LEN, "%s", (char *)pField);
}
else if ( WLAN_PARAM_MacAddr == pRegEntry->RegType )
{
pMacAddr = (v_MACADDR_t *) pField;
snprintf(valueStr, CFG_VALUE_MAX_LEN,
"%02x:%02x:%02x:%02x:%02x:%02x",
pMacAddr->bytes[0],
pMacAddr->bytes[1],
pMacAddr->bytes[2],
pMacAddr->bytes[3],
pMacAddr->bytes[4],
pMacAddr->bytes[5]);
}
else
{
snprintf(valueStr, CFG_VALUE_MAX_LEN, "(unhandled)");
}
curlen = scnprintf(configStr, CFG_ENTRY_MAX_LEN,
"%s=[%s]%s\n",
pRegEntry->RegName,
valueStr,
test_bit(idx, (void *)&pHddCtx->cfg_ini->bExplicitCfg) ?
"*" : "");
// ideally we want to return the config to the application
// however the config is too big so we just printk() for now
#ifdef RETURN_IN_BUFFER
if (curlen < buflen)
{
// copy string + '\0'
memcpy(pCur, configStr, curlen+1);
// account for addition;
pCur += curlen;
buflen -= curlen;
}
else
{
// buffer space exhausted, return what we have
return VOS_STATUS_E_RESOURCES;
}
#else
printk(KERN_INFO "%s", configStr);
#endif // RETURN_IN_BUFFER
}
#ifndef RETURN_IN_BUFFER
// notify application that output is in system log
snprintf(pCur, buflen, "WLAN configuration written to system log");
#endif // RETURN_IN_BUFFER
return VOS_STATUS_SUCCESS;
}
VOS_STATUS hdd_cfg_get_global_config(hdd_context_t *pHddCtx, char *pBuf,
int buflen)
{
return hdd_cfg_get_config(g_registry_table, ARRAY_SIZE(g_registry_table),
(v_U8_t *) pHddCtx->cfg_ini,
pHddCtx, pBuf, buflen);
}
#ifdef WLAN_FEATURE_MBSSID
VOS_STATUS hdd_cfg_get_sap_dyn_config(hdd_adapter_t *pAdapter, char *pBuf,
int buflen)
{
return hdd_cfg_get_config(mbssid_sap_dyn_ini_reg_table,
ARRAY_SIZE(mbssid_sap_dyn_ini_reg_table),
(v_U8_t *) &pAdapter->sap_dyn_ini_cfg,
WLAN_HDD_GET_CTX(pAdapter),
pBuf, buflen);
}
#endif
static VOS_STATUS find_cfg_item (tCfgIniEntry* iniTable, unsigned long entries,
char *name, char** value)
{
VOS_STATUS status = VOS_STATUS_E_FAILURE;
unsigned long i;
for (i = 0; i < entries; i++) {
if (strcmp(iniTable[i].name, name) == 0) {
*value = iniTable[i].value;
VOS_TRACE(VOS_MODULE_ID_HDD, VOS_TRACE_LEVEL_INFO_HIGH, "Found %s entry for Name=[%s] Value=[%s] ",
WLAN_INI_FILE, name, *value);
return VOS_STATUS_SUCCESS;
}
}
return status;
}
static int parseHexDigit(char c)
{
if (c >= '0' && c <= '9')
return c-'0';
if (c >= 'a' && c <= 'f')
return c-'a'+10;
if (c >= 'A' && c <= 'F')
return c-'A'+10;
return 0;
}
/* convert string to 6 bytes mac address
* 00AA00BB00CC -> 0x00 0xAA 0x00 0xBB 0x00 0xCC
*/
static void update_mac_from_string(hdd_context_t *pHddCtx, tCfgIniEntry *macTable, int num)
{
int i = 0, j = 0, res = 0;
char *candidate = NULL;
v_MACADDR_t macaddr[VOS_MAX_CONCURRENCY_PERSONA];
memset(macaddr, 0, sizeof(macaddr));
for (i = 0; i < num; i++)
{
candidate = macTable[i].value;
for (j = 0; j < VOS_MAC_ADDR_SIZE; j++) {
res = hex2bin(&macaddr[i].bytes[j], &candidate[(j<<1)], 1);
if (res < 0)
break;
}
if (res == 0 && !vos_is_macaddr_zero(&macaddr[i])) {
vos_mem_copy((v_U8_t *)&pHddCtx->cfg_ini->intfMacAddr[i].bytes[0],
(v_U8_t *)&macaddr[i].bytes[0], VOS_MAC_ADDR_SIZE);
}
}
}
/*
* This function tries to update mac address from cfg file.
* It overwrites the MAC address if config file exist.
*/
VOS_STATUS hdd_update_mac_config(hdd_context_t *pHddCtx)
{
int status, i = 0;
const struct firmware *fw = NULL;
char *line, *buffer = NULL, *temp = NULL;
char *name, *value;
tCfgIniEntry macTable[VOS_MAX_CONCURRENCY_PERSONA];
tSirMacAddr customMacAddr;
VOS_STATUS vos_status = VOS_STATUS_SUCCESS;
memset(macTable, 0, sizeof(macTable));
status = request_firmware(&fw, WLAN_MAC_FILE, pHddCtx->parent_dev);
if (status)
{
hddLog(VOS_TRACE_LEVEL_WARN, "%s: request_firmware failed %d",
__func__, status);
vos_status = VOS_STATUS_E_FAILURE;
return vos_status;
}
if (!fw || !fw->data || !fw->size)
{
hddLog(VOS_TRACE_LEVEL_FATAL, "%s: invalid firmware", __func__);
vos_status = VOS_STATUS_E_INVAL;
goto config_exit;
}
temp = buffer = (char *) vos_mem_malloc(fw->size + 1);
if (NULL == buffer) {
hddLog(VOS_TRACE_LEVEL_FATAL, "%s: unable to allocate memory",__func__);
release_firmware(fw);
return VOS_STATUS_E_NOMEM;
}
vos_mem_copy((void*)buffer,(void *)fw->data, fw->size);
buffer[fw->size] = '\0';
/* data format:
* Intf0MacAddress=00AA00BB00CC
* Intf1MacAddress=00AA00BB00CD
* END
*/
while (buffer != NULL)
{
line = get_next_line(buffer);
buffer = i_trim(buffer);
if (strlen((char *)buffer) == 0 || *buffer == '#') {
buffer = line;
continue;
}
if (strncmp(buffer, "END", 3) == 0)
break;
name = buffer;
buffer = strchr(buffer, '=');
if (buffer) {
*buffer++ = '\0';
i_trim(name);
if (strlen(name) != 0) {
buffer = i_trim(buffer);
if (strlen(buffer) == 12) {
value = buffer;
macTable[i].name = name;
macTable[i++].value = value;
if (i >= VOS_MAX_CONCURRENCY_PERSONA)
break;
}
}
}
buffer = line;
}
if (i <= VOS_MAX_CONCURRENCY_PERSONA) {
hddLog(VOS_TRACE_LEVEL_INFO, "%s: %d Mac addresses provided", __func__, i);
}
else {
hddLog(VOS_TRACE_LEVEL_ERROR, "%s: invalid number of Mac address provided, nMac = %d",
__func__, i);
vos_status = VOS_STATUS_E_INVAL;
goto config_exit;
}
update_mac_from_string(pHddCtx, &macTable[0], i);
vos_mem_copy(&customMacAddr,
&pHddCtx->cfg_ini->intfMacAddr[0].bytes[0],
sizeof(tSirMacAddr));
sme_SetCustomMacAddr(customMacAddr);
config_exit:
release_firmware(fw);
vos_mem_free(temp);
return vos_status;
}
static VOS_STATUS hdd_apply_cfg_ini( hdd_context_t *pHddCtx, tCfgIniEntry* iniTable, unsigned long entries)
{
VOS_STATUS match_status = VOS_STATUS_E_FAILURE;
VOS_STATUS ret_status = VOS_STATUS_SUCCESS;
unsigned int idx;
void *pField;
char *value_str = NULL;
unsigned long len_value_str;
char *candidate;
v_U32_t value;
v_S31_t svalue;
void *pStructBase = pHddCtx->cfg_ini;
REG_TABLE_ENTRY *pRegEntry = g_registry_table;
unsigned long cRegTableEntries = sizeof(g_registry_table) / sizeof( g_registry_table[ 0 ]);
v_U32_t cbOutString;
int i;
int rv;
if (MAX_CFG_INI_ITEMS < cRegTableEntries) {
hddLog(LOGE, FL("MAX_CFG_INI_ITEMS too small, must be at least %ld"),
cRegTableEntries);
WARN_ON(1);
}
for ( idx = 0; idx < cRegTableEntries; idx++, pRegEntry++ )
{
//Calculate the address of the destination field in the structure.
pField = ( (v_U8_t *)pStructBase )+ pRegEntry->VarOffset;
match_status = find_cfg_item(iniTable, entries, pRegEntry->RegName, &value_str);
if( (match_status != VOS_STATUS_SUCCESS) && ( pRegEntry->Flags & VAR_FLAGS_REQUIRED ) )
{
// If we could not read the cfg item and it is required, this is an error.
hddLog(LOGE, "%s: Failed to read required config parameter %s",
__func__, pRegEntry->RegName);
ret_status = VOS_STATUS_E_FAILURE;
break;
}
if ( ( WLAN_PARAM_Integer == pRegEntry->RegType ) ||
( WLAN_PARAM_HexInteger == pRegEntry->RegType ) )
{
// If successfully read from the registry, use the value read.
// If not, use the default value.
if ( match_status == VOS_STATUS_SUCCESS && (WLAN_PARAM_Integer == pRegEntry->RegType)) {
rv = kstrtou32(value_str, 10, &value);
if (rv < 0) {
hddLog(LOGE, "%s: Reg Parameter %s invalid. Enforcing default",
__func__, pRegEntry->RegName);
value = pRegEntry->VarDefault;
}
}
else if ( match_status == VOS_STATUS_SUCCESS && (WLAN_PARAM_HexInteger == pRegEntry->RegType)) {
rv = kstrtou32(value_str, 16, &value);
if (rv < 0) {
hddLog(LOGE, "%s: Reg paramter %s invalid. Enforcing default",
__func__, pRegEntry->RegName);
value = pRegEntry->VarDefault;
}
}
else {
value = pRegEntry->VarDefault;
}
// If this parameter needs range checking, do it here.
if ( pRegEntry->Flags & VAR_FLAGS_RANGE_CHECK )
{
if ( value > pRegEntry->VarMax )
{
hddLog(LOGE, "%s: Reg Parameter %s > allowed Maximum [%u > %lu]. Enforcing Maximum",
__func__, pRegEntry->RegName, value, pRegEntry->VarMax );
value = pRegEntry->VarMax;
}
if ( value < pRegEntry->VarMin )
{
hddLog(LOGE, "%s: Reg Parameter %s < allowed Minimum [%u < %lu]. Enforcing Minimum",
__func__, pRegEntry->RegName, value, pRegEntry->VarMin);
value = pRegEntry->VarMin;
}
}
// If this parameter needs range checking, do it here.
else if ( pRegEntry->Flags & VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT )
{
if ( value > pRegEntry->VarMax )
{
hddLog(LOGE, "%s: Reg Parameter %s > allowed Maximum [%u > %lu]. Enforcing Default= %lu",
__func__, pRegEntry->RegName, value, pRegEntry->VarMax, pRegEntry->VarDefault );
value = pRegEntry->VarDefault;
}
if ( value < pRegEntry->VarMin )
{
hddLog(LOGE, "%s: Reg Parameter %s < allowed Minimum [%u < %lu]. Enforcing Default= %lu",
__func__, pRegEntry->RegName, value, pRegEntry->VarMin, pRegEntry->VarDefault );
value = pRegEntry->VarDefault;
}
}
// Move the variable into the output field.
memcpy( pField, &value, pRegEntry->VarSize );
}
else if ( WLAN_PARAM_SignedInteger == pRegEntry->RegType )
{
// If successfully read from the registry, use the value read.
// If not, use the default value.
if (VOS_STATUS_SUCCESS == match_status)
{
rv = kstrtos32(value_str, 10, &svalue);
if (rv < 0) {
hddLog(VOS_TRACE_LEVEL_WARN, "%s: Reg Parameter %s invalid. Enforcing Default",
__func__, pRegEntry->RegName);
svalue = (v_S31_t)pRegEntry->VarDefault;
}
}
else
{
svalue = (v_S31_t)pRegEntry->VarDefault;
}
// If this parameter needs range checking, do it here.
if ( pRegEntry->Flags & VAR_FLAGS_RANGE_CHECK )
{
if ( svalue > (v_S31_t)pRegEntry->VarMax )
{
hddLog(LOGE, "%s: Reg Parameter %s > allowed Maximum "
"[%d > %d]. Enforcing Maximum", __func__,
pRegEntry->RegName, svalue, (int)pRegEntry->VarMax );
svalue = (v_S31_t)pRegEntry->VarMax;
}
if ( svalue < (v_S31_t)pRegEntry->VarMin )
{
hddLog(LOGE, "%s: Reg Parameter %s < allowed Minimum "
"[%d < %d]. Enforcing Minimum", __func__,
pRegEntry->RegName, svalue, (int)pRegEntry->VarMin);
svalue = (v_S31_t)pRegEntry->VarMin;
}
}
// If this parameter needs range checking, do it here.
else if ( pRegEntry->Flags & VAR_FLAGS_RANGE_CHECK_ASSUME_DEFAULT )
{
if ( svalue > (v_S31_t)pRegEntry->VarMax )
{
hddLog(LOGE, "%s: Reg Parameter %s > allowed Maximum "
"[%d > %d]. Enforcing Default= %d",
__func__, pRegEntry->RegName, svalue,
(int)pRegEntry->VarMax,
(int)pRegEntry->VarDefault );
svalue = (v_S31_t)pRegEntry->VarDefault;
}
if ( svalue < (v_S31_t)pRegEntry->VarMin )
{
hddLog(LOGE, "%s: Reg Parameter %s < allowed Minimum "
"[%d < %d]. Enforcing Default= %d",
__func__, pRegEntry->RegName, svalue,
(int)pRegEntry->VarMin,
(int)pRegEntry->VarDefault);
svalue = pRegEntry->VarDefault;
}
}
// Move the variable into the output field.
memcpy( pField, &svalue, pRegEntry->VarSize );
}
// Handle string parameters
else if ( WLAN_PARAM_String == pRegEntry->RegType )
{
#ifdef WLAN_CFG_DEBUG
VOS_TRACE(VOS_MODULE_ID_HDD, VOS_TRACE_LEVEL_INFO_HIGH, "RegName = %s, VarOffset %u VarSize %u VarDefault %s",
pRegEntry->RegName, pRegEntry->VarOffset, pRegEntry->VarSize, (char*)pRegEntry->VarDefault);
#endif
if ( match_status == VOS_STATUS_SUCCESS)
{
len_value_str = strlen(value_str);
if(len_value_str > (pRegEntry->VarSize - 1)) {
hddLog(LOGE, "%s: Invalid Value=[%s] specified for Name=[%s] in %s",
__func__, value_str, pRegEntry->RegName, WLAN_INI_FILE);
cbOutString = utilMin( strlen( (char *)pRegEntry->VarDefault ), pRegEntry->VarSize - 1 );
memcpy( pField, (void *)(pRegEntry->VarDefault), cbOutString );
( (v_U8_t *)pField )[ cbOutString ] = '\0';
}
else
{
memcpy( pField, (void *)(value_str), len_value_str);
( (v_U8_t *)pField )[ len_value_str ] = '\0';
}
}
else
{
// Failed to read the string parameter from the registry. Use the default.
cbOutString = utilMin( strlen( (char *)pRegEntry->VarDefault ), pRegEntry->VarSize - 1 );
memcpy( pField, (void *)(pRegEntry->VarDefault), cbOutString );
( (v_U8_t *)pField )[ cbOutString ] = '\0';
}
}
else if ( WLAN_PARAM_MacAddr == pRegEntry->RegType )
{
if(pRegEntry->VarSize != VOS_MAC_ADDR_SIZE) {
hddLog(LOGE, "%s: Invalid VarSize %u for Name=[%s]",
__func__, pRegEntry->VarSize, pRegEntry->RegName);
continue;
}
candidate = (char*)pRegEntry->VarDefault;
if ( match_status == VOS_STATUS_SUCCESS) {
len_value_str = strlen(value_str);
if(len_value_str != (VOS_MAC_ADDR_SIZE*2)) {
hddLog(LOGE, "%s: Invalid MAC addr [%s] specified for Name=[%s] in %s",
__func__, value_str, pRegEntry->RegName, WLAN_INI_FILE);
}
else
candidate = value_str;
}
//parse the string and store it in the byte array
for(i=0; i<VOS_MAC_ADDR_SIZE; i++)
{
((char*)pField)[i] =
(char)(parseHexDigit(candidate[i*2])*16 + parseHexDigit(candidate[i*2+1]));
}
}
else
{
hddLog(LOGE, "%s: Unknown param type for name[%s] in registry table",
__func__, pRegEntry->RegName);
}
// did we successfully parse a cfg item for this parameter?
if( (match_status == VOS_STATUS_SUCCESS) &&
(idx < MAX_CFG_INI_ITEMS) )
{
set_bit(idx, (void *)&pHddCtx->cfg_ini->bExplicitCfg);
}
}
print_hdd_cfg(pHddCtx);
return( ret_status );
}
#ifdef WLAN_FEATURE_MBSSID
v_VOID_t hdd_mbssid_apply_def_cfg_ini(hdd_adapter_t *pAdapter)
{
hdd_context_t *pHddCtx = WLAN_HDD_GET_CTX(pAdapter);
hdd_config_t *iniConfig = pHddCtx->cfg_ini;
mbssid_sap_dyn_ini_config_t *sap_ini_cfg = &pAdapter->sap_dyn_ini_cfg;
sap_ini_cfg->acsScanBandPreference = iniConfig->acsScanBandPreference;
sap_ini_cfg->acsBandSwitchThreshold = iniConfig->acsBandSwitchThreshold;
}
#endif
eCsrPhyMode hdd_cfg_xlate_to_csr_phy_mode( eHddDot11Mode dot11Mode )
{
switch (dot11Mode)
{
case (eHDD_DOT11_MODE_abg):
return eCSR_DOT11_MODE_abg;
case (eHDD_DOT11_MODE_11b):
return eCSR_DOT11_MODE_11b;
case (eHDD_DOT11_MODE_11g):
return eCSR_DOT11_MODE_11g;
default:
case (eHDD_DOT11_MODE_11n):
return eCSR_DOT11_MODE_11n;
case (eHDD_DOT11_MODE_11g_ONLY):
return eCSR_DOT11_MODE_11g_ONLY;
case (eHDD_DOT11_MODE_11n_ONLY):
return eCSR_DOT11_MODE_11n_ONLY;
case (eHDD_DOT11_MODE_11b_ONLY):
return eCSR_DOT11_MODE_11b_ONLY;
#ifdef WLAN_FEATURE_11AC
case (eHDD_DOT11_MODE_11ac_ONLY):
return eCSR_DOT11_MODE_11ac_ONLY;
case (eHDD_DOT11_MODE_11ac):
return eCSR_DOT11_MODE_11ac;
#else
/* If 11AC support is not compiled set Auto mode */
case (eHDD_DOT11_MODE_11ac):
case (eHDD_DOT11_MODE_11ac_ONLY):
return eCSR_DOT11_MODE_AUTO;
#endif
case (eHDD_DOT11_MODE_AUTO):
return eCSR_DOT11_MODE_AUTO;
case (eHDD_DOT11_MODE_11a):
return eCSR_DOT11_MODE_11a;
}
}
#ifdef FEATURE_WLAN_SUB_20_MHZ
/**
* hdd_cfg_get_sub20_dyn_capabilities()
* @hdd_ctx_ptr: HDD context
*
* This function is used to get dynamic capabilities of sub 20MHz channel width
* Return: sub 20 channel width
*/
uint8_t hdd_cfg_get_sub20_dyn_capabilities(hdd_context_t *hdd_ctx_ptr)
{
hdd_config_t *config_ptr = hdd_ctx_ptr->cfg_ini;
uint8_t sub_20_channel_width = config_ptr->sub_20_channel_width;
switch (sub_20_channel_width) {
case CFG_SUB_20_CHANNEL_WIDTH_DYN_5MHZ:
return SUB20_MODE_5MHZ;
case CFG_SUB_20_CHANNEL_WIDTH_DYN_10MHZ:
return SUB20_MODE_10MHZ;
case CFG_SUB_20_CHANNEL_WIDTH_DYN_ALL:
case CFG_SUB_20_CHANNEL_WIDTH_MANUAL:
return SUB20_MODE_5MHZ | SUB20_MODE_10MHZ;
default:
return SUB20_MODE_NONE;
}
}
/**
* hdd_cfg_get_static_sub20_channel_width()
* @hdd_ctx_ptr: HDD context
*
* This function is used to get static sub 20MHz channel width
* Return: sub 20 channel width
*/
uint8_t hdd_cfg_get_static_sub20_channel_width(hdd_context_t *hdd_ctx_ptr)
{
hdd_config_t *config_ptr = hdd_ctx_ptr->cfg_ini;
if (config_ptr->sub_20_channel_width ==
CFG_SUB_20_CHANNEL_WIDTH_5MHZ) {
return SUB20_MODE_5MHZ;
} else if (config_ptr->sub_20_channel_width ==
CFG_SUB_20_CHANNEL_WIDTH_10MHZ) {
return SUB20_MODE_10MHZ;
}
return SUB20_MODE_NONE;
}
/**
* hdd_cfg_is_sub20_channel_width_enabled()
* @hdd_ctx_ptr: HDD context
*
* This function is used to check if sub 20MHz enabled
* Return: true of false
*/
bool hdd_cfg_is_sub20_channel_width_enabled(hdd_context_t *hdd_ctx_ptr)
{
hdd_config_t *config_ptr = hdd_ctx_ptr->cfg_ini;
return config_ptr->sub_20_channel_width !=
CFG_SUB_20_CHANNEL_WIDTH_DISABLE;
}
/**
* hdd_cfg_is_static_sub20_channel_width_enabled()
* @hdd_ctx_ptr: HDD context
*
* This function is used to check if static sub 20MHz enabled
* Return: true of false
*/
bool hdd_cfg_is_static_sub20_channel_width_enabled(hdd_context_t *hdd_ctx_ptr)
{
hdd_config_t *config_ptr = hdd_ctx_ptr->cfg_ini;
return (config_ptr->sub_20_channel_width ==
CFG_SUB_20_CHANNEL_WIDTH_5MHZ) ||
(config_ptr->sub_20_channel_width ==
CFG_SUB_20_CHANNEL_WIDTH_10MHZ);
}
/**
* hdd_cfg_get_sub20_channel_config()
* @hdd_ctx_ptr: HDD context
*
* This function is used to get sub20 config
* Return: sub20 config value
*/
uint8_t hdd_cfg_get_sub20_channel_config(hdd_context_t *hdd_ctx_ptr)
{
hdd_config_t *config_ptr = hdd_ctx_ptr->cfg_ini;
if (config_ptr->sub_20_channel_width >= CFG_SUB_20_CHANNEL_WIDTH_MIN &&
config_ptr->sub_20_channel_width <= CFG_SUB_20_CHANNEL_WIDTH_MAX)
return config_ptr->sub_20_channel_width;
return 0;
}
#endif
#ifdef WLAN_FEATURE_TSF_PLUS
bool hdd_cfg_is_ptp_opt_enable(hdd_context_t *hdd_ctx_ptr)
{
hdd_config_t *config_ptr = hdd_ctx_ptr->cfg_ini;
return (config_ptr->tsf_ptp_options != 0);
}
#endif
static void hdd_set_power_save_config(hdd_context_t *pHddCtx, tSmeConfigParams *smeConfig)
{
hdd_config_t *pConfig = pHddCtx->cfg_ini;
tPmcBmpsConfigParams bmpsParams;
sme_GetConfigPowerSave(pHddCtx->hHal, ePMC_BEACON_MODE_POWER_SAVE, &bmpsParams);
if (strcmp(pConfig->PowerUsageControl, "Min") == 0)
{
smeConfig->csrConfig.impsSleepTime = pConfig->nImpsMinSleepTime;
bmpsParams.bmpsPeriod = pConfig->nBmpsMinListenInterval;
bmpsParams.enableBeaconEarlyTermination = pConfig->fEnableBeaconEarlyTermination;
bmpsParams.bcnEarlyTermWakeInterval = pConfig->bcnEarlyTermWakeInterval;
}
if (strcmp(pConfig->PowerUsageControl, "Max") == 0)
{
smeConfig->csrConfig.impsSleepTime = pConfig->nImpsMaxSleepTime;
bmpsParams.bmpsPeriod = pConfig->nBmpsMaxListenInterval;
bmpsParams.enableBeaconEarlyTermination = pConfig->fEnableBeaconEarlyTermination;
bmpsParams.bcnEarlyTermWakeInterval = pConfig->bcnEarlyTermWakeInterval;
}
if (strcmp(pConfig->PowerUsageControl, "Mod") == 0)
{
smeConfig->csrConfig.impsSleepTime = pConfig->nImpsModSleepTime;
bmpsParams.bmpsPeriod = pConfig->nBmpsModListenInterval;
bmpsParams.enableBeaconEarlyTermination = pConfig->fEnableBeaconEarlyTermination;
bmpsParams.bcnEarlyTermWakeInterval = pConfig->bcnEarlyTermWakeInterval;
}
if (pConfig->fIsImpsEnabled)
{
sme_EnablePowerSave (pHddCtx->hHal, ePMC_IDLE_MODE_POWER_SAVE);
}
else
{
sme_DisablePowerSave (pHddCtx->hHal, ePMC_IDLE_MODE_POWER_SAVE);
}
/*If isAndroidPsEn is 1 then Host driver and above layers control the PS mechanism
If Value set to 0 Driver/Core Stack internally control the Power saving mechanism */
sme_SetHostPowerSave (pHddCtx->hHal, pConfig->isAndroidPsEn);
if (pConfig->fIsBmpsEnabled)
{
sme_EnablePowerSave (pHddCtx->hHal, ePMC_BEACON_MODE_POWER_SAVE);
}
else
{
sme_DisablePowerSave (pHddCtx->hHal, ePMC_BEACON_MODE_POWER_SAVE);
}
bmpsParams.trafficMeasurePeriod = pConfig->nAutoBmpsTimerValue;
if (sme_SetConfigPowerSave(pHddCtx->hHal, ePMC_BEACON_MODE_POWER_SAVE, &bmpsParams)== eHAL_STATUS_FAILURE)
{
hddLog(LOGE, "SetConfigPowerSave failed to set BMPS params");
}
if(pConfig->fIsAutoBmpsTimerEnabled)
{
sme_StartAutoBmpsTimer(pHddCtx->hHal);
}
}
static void hdd_set_power_save_offload_config(hdd_context_t *pHddCtx)
{
hdd_config_t *pConfig = pHddCtx->cfg_ini;
tANI_U32 listenInterval = 0;
if (strcmp(pConfig->PowerUsageControl, "Min") == 0)
{
listenInterval = pConfig->nBmpsMinListenInterval;
}
else if (strcmp(pConfig->PowerUsageControl, "Max") == 0)
{
listenInterval = pConfig->nBmpsMaxListenInterval;
}
else if (strcmp(pConfig->PowerUsageControl, "Mod") == 0)
{
listenInterval = pConfig->nBmpsModListenInterval;
}
/*
* Based on Mode Set the LI
* Otherwise default LI value of 1 will
* be taken
*/
if (listenInterval)
{
/*
* setcfg for listenInterval.
* Make sure CFG is updated because PE reads this
* from CFG at the time of assoc or reassoc
*/
ccmCfgSetInt(pHddCtx->hHal, WNI_CFG_LISTEN_INTERVAL, listenInterval,
NULL, eANI_BOOLEAN_FALSE);
}
if(pConfig->fIsBmpsEnabled)
{
sme_ConfigEnablePowerSave(pHddCtx->hHal, ePMC_BEACON_MODE_POWER_SAVE);
}
else
{
sme_ConfigDisablePowerSave(pHddCtx->hHal, ePMC_BEACON_MODE_POWER_SAVE);
}
}
VOS_STATUS hdd_set_idle_ps_config(hdd_context_t *pHddCtx, v_U32_t val)
{
hdd_config_t *pConfig = pHddCtx->cfg_ini;
VOS_STATUS status = VOS_STATUS_SUCCESS;
hddLog(LOG1, "hdd_set_idle_ps_config: Enter Val %d pconfig %pK ",
val, pConfig);
if(pConfig && pConfig->fIsImpsEnabled)
{
status = sme_SetIdlePowersaveConfig(pHddCtx->pvosContext, val);
if(VOS_STATUS_SUCCESS != status)
{
hddLog(LOGE, "Fail to Set Idle PS Config val %d", val);
}
}
else
{
hddLog(LOG1, "hdd_set_idle_ps_config: IMPS not enabled in ini");
}
return status;
}
/**
* hdd_set_fine_time_meas_cap() - set fine timing measurement capability
* @hdd_ctx: HDD context
* @sme_config: pointer to SME config
*
* This function is used to pass fine timing measurement capability coming
* from INI to SME. This function make sure that configure INI is supported
* by the device. Use bit mask to mask out the unsupported capabilities.
*
* Return: None
*/
static void hdd_set_fine_time_meas_cap(hdd_context_t *hdd_ctx,
tSmeConfigParams *sme_config)
{
hdd_config_t *config = hdd_ctx->cfg_ini;
uint32_t capability = config->fine_time_meas_cap;
/* Make sure only supported capabilities are enabled in INI */
capability &= CFG_FINE_TIME_MEAS_CAPABILITY_MAX;
sme_config->fine_time_meas_cap = capability;
hddLog(LOG1, FL("fine time meas capability - INI: %04x Enabled: %04x"),
config->fine_time_meas_cap, sme_config->fine_time_meas_cap);
return;
}
/**
* hdd_convert_string_to_u8_array() - used to convert string into u8 array
* @str: String to be converted
* @hex_array: Array where converted value is stored
* @len: Length of the populated array
* @array_max_len: Maximum length of the array
* @to_hex: true, if conversion required for hex string
*
* This API is called to convert string (each byte separated by
* a comma) into an u8 array
*
* Return: VOS_STATUS
*/
static VOS_STATUS hdd_convert_string_to_array(char *str, uint8_t *array,
uint8_t *len, uint8_t array_max_len, bool to_hex)
{
char *format, *s = str;
if (str == NULL || array == NULL || len == NULL)
return VOS_STATUS_E_INVAL;
format = (to_hex) ? "%02x" : "%d";
*len = 0;
while ((s != NULL) && (*len < array_max_len)) {
int val;
/* Increment length only if sscanf successfully extracted
* one element. Any other return value means error.
* Ignore it. */
if (sscanf(s, format, &val) == 1) {
array[*len] = (tANI_U8) val;
*len += 1;
}
s = strpbrk(s, ",");
if (s)
s++;
}
return VOS_STATUS_SUCCESS;
}
/**
* hdd_hex_string_to_u8_array() - used to convert hex string into u8 array
* @str: Hexadecimal string
* @hex_array: Array where converted value is stored
* @len: Length of the populated array
* @array_max_len: Maximum length of the array
*
* This API is called to convert hexadecimal string (each byte separated by
* a comma) into an u8 array
*
* Return: VOS_STATUS
*/
VOS_STATUS hdd_hex_string_to_u8_array(char *str, uint8_t *hex_array,
uint8_t *len, uint8_t array_max_len)
{
return hdd_convert_string_to_array(str, hex_array, len,
array_max_len, true);
}
/**
* hdd_string_to_u8_array() - used to convert decimal string into u8 array
* @str: Decimal string
* @hex_array: Array where converted value is stored
* @len: Length of the populated array
* @array_max_len: Maximum length of the array
*
* This API is called to convert decimal string (each byte separated by
* a comma) into an u8 array
*
* Return: VOS_STATUS
*/
VOS_STATUS hdd_string_to_u8_array(char *str, uint8_t *array,
uint8_t *len, uint8_t array_max_len)
{
return hdd_convert_string_to_array(str, array, len,
array_max_len, false);
}
/**
* hdd_hex_string_to_u16_array() - convert a hex string to a uint16 array
* @str: input string
* @int_array: pointer to input array of type uint16
* @len: pointer to number of elements which the function adds to the array
* @int_array_max_len: maximum number of elements in input uint16 array
*
* This function is used to convert a space separated hex string to an array of
* uint16_t. For example, an input string str = "a b c d" would be converted to
* a unint16 array, int_array = {0xa, 0xb, 0xc, 0xd}, *len = 4.
* This assumes that input value int_array_max_len >= 4.
*
* Return: VOS_STATUS_SUCCESS - if the conversion is successful
* non zero value - if the conversion is a failure
*/
VOS_STATUS hdd_hex_string_to_u16_array(char *str,
uint16_t *int_array, uint8_t *len, uint8_t int_array_max_len)
{
char *s = str;
uint32_t val = 0;
if (str == NULL || int_array == NULL || len == NULL)
return VOS_STATUS_E_INVAL;
hddLog(VOS_TRACE_LEVEL_ERROR,
FL("str %pK intArray %pK intArrayMaxLen %d"),
s, int_array, int_array_max_len);
*len = 0;
while ((s != NULL) && (*len < int_array_max_len)) {
/*
* Increment length only if sscanf successfully extracted one
* element. Any other return value means error. Ignore it.
*/
if (sscanf(s, "%x", &val) == 1) {
int_array[*len] = (uint16_t) val;
hddLog(VOS_TRACE_LEVEL_DEBUG,
FL("s %pK val %x intArray[%d]=0x%x"),
s, val, *len, int_array[*len]);
*len += 1;
}
s = strpbrk(s, " ");
if (s)
s++;
}
return VOS_STATUS_SUCCESS;
}
#ifdef MDNS_OFFLOAD
VOS_STATUS hdd_string_to_string_array(char *data, uint8_t *datalist,
char separator, uint8_t *num_entries,
uint8_t max_entries, uint8_t max_len_entry)
{
uint8_t num = 0;
char *str = data;
char *field;
if ((data == NULL) || ( datalist == NULL) || (num_entries == NULL))
return VOS_STATUS_E_INVAL;
/* parse the string */
while (str && ('\0' != *str) && (num < max_entries)) {
field = str;
while (('\0' != *str) && (separator != *str))
str++;
if ('\0' == *str) {
/* reach the end of string */
if ('\0' != *field) {
strlcpy((char *)(datalist + (num * max_len_entry)),
field, max_len_entry);
num++;
}
break;
}
/* replace separator with NUL to terminate the data */
*str++ = '\0';
strlcpy((char *)(datalist + (num * max_len_entry)),
field, max_len_entry);
num++;
}
*num_entries = num;
return VOS_STATUS_SUCCESS;
}
#endif
v_BOOL_t hdd_update_config_dat( hdd_context_t *pHddCtx )
{
v_BOOL_t fStatus = TRUE;
tANI_U32 val;
tANI_U16 val16;
hdd_config_t *pConfig = pHddCtx->cfg_ini;
tSirMacHTCapabilityInfo *phtCapInfo;
if (ccmCfgSetInt(pHddCtx->hHal, WNI_CFG_SHORT_GI_20MHZ,
pConfig->ShortGI20MhzEnable, NULL, eANI_BOOLEAN_FALSE)==eHAL_STATUS_FAILURE)
{
fStatus = FALSE;
hddLog(LOGE, "Could not pass on WNI_CFG_SHORT_GI_20MHZ to CCM");
}
if (ccmCfgSetInt(pHddCtx->hHal, WNI_CFG_BA_AUTO_SETUP, pConfig->BlockAckAutoSetup,
NULL, eANI_BOOLEAN_FALSE)==eHAL_STATUS_FAILURE)
{
fStatus = FALSE;
hddLog(LOGE, "Could not pass on WNI_CFG_BA_AUTO_SETUP to CCM");
}
if (ccmCfgSetInt(pHddCtx->hHal, WNI_CFG_FIXED_RATE, pConfig->TxRate,
NULL, eANI_BOOLEAN_FALSE)==eHAL_STATUS_FAILURE)
{
fStatus = FALSE;
hddLog(LOGE, "Could not pass on WNI_CFG_FIXED_RATE to CCM");
}
if (ccmCfgSetInt(pHddCtx->hHal, WNI_CFG_MAX_RX_AMPDU_FACTOR,
pConfig->MaxRxAmpduFactor, NULL, eANI_BOOLEAN_FALSE)==eHAL_STATUS_FAILURE)
{
fStatus = FALSE;
hddLog(LOGE,"Could not pass on WNI_CFG_HT_AMPDU_PARAMS_MAX_RX_AMPDU_FACTOR to CCM");
}
if (ccmCfgSetInt(pHddCtx->hHal, WNI_CFG_MPDU_DENSITY,
pConfig->ht_mpdu_density, NULL, eANI_BOOLEAN_FALSE) ==
eHAL_STATUS_FAILURE) {
fStatus = FALSE;
hddLog(LOGE, FL("Could not pass on WNI_CFG_MPDU_DENSITY to CCM"));
}
if (ccmCfgSetInt(pHddCtx->hHal, WNI_CFG_SHORT_PREAMBLE, pConfig->fIsShortPreamble,
NULL, eANI_BOOLEAN_FALSE)==eHAL_STATUS_FAILURE)
{
fStatus = FALSE;
hddLog(LOGE,"Could not pass on WNI_CFG_SHORT_PREAMBLE to CCM");
}
if (ccmCfgSetInt(pHddCtx->hHal, WNI_CFG_PASSIVE_MINIMUM_CHANNEL_TIME,
pConfig->nPassiveMinChnTime, NULL,
eANI_BOOLEAN_FALSE)==eHAL_STATUS_FAILURE)
{
fStatus = FALSE;
hddLog(LOGE, "Could not pass on WNI_CFG_PASSIVE_MINIMUM_CHANNEL_TIME"
" to CCM");
}
if (ccmCfgSetInt(pHddCtx->hHal, WNI_CFG_PASSIVE_MAXIMUM_CHANNEL_TIME,
pConfig->nPassiveMaxChnTime, NULL,
eANI_BOOLEAN_FALSE)==eHAL_STATUS_FAILURE)
{
fStatus = FALSE;
hddLog(LOGE, "Could not pass on WNI_CFG_PASSIVE_MAXIMUM_CHANNEL_TIME"
" to CCM");
}
if (ccmCfgSetInt(pHddCtx->hHal, WNI_CFG_BEACON_INTERVAL, pConfig->nBeaconInterval,
NULL, eANI_BOOLEAN_FALSE)==eHAL_STATUS_FAILURE)
{
fStatus = FALSE;
hddLog(LOGE, "Could not pass on WNI_CFG_BEACON_INTERVAL to CCM");
}
if (ccmCfgSetInt(pHddCtx->hHal, WNI_CFG_MAX_PS_POLL, pConfig->nMaxPsPoll,
NULL, eANI_BOOLEAN_FALSE)==eHAL_STATUS_FAILURE)
{
fStatus = FALSE;
hddLog(LOGE, "Could not pass on WNI_CFG_MAX_PS_POLL to CCM");
}
if (ccmCfgSetInt(pHddCtx->hHal, WNI_CFG_CURRENT_RX_ANTENNA, pConfig-> nRxAnt, NULL, eANI_BOOLEAN_FALSE)==eHAL_STATUS_FAILURE)
{
fStatus = FALSE;
hddLog(LOGE, "Failure: Could not pass on WNI_CFG_CURRENT_RX_ANTENNA configuration info to HAL");
}
if (ccmCfgSetInt(pHddCtx->hHal, WNI_CFG_LOW_GAIN_OVERRIDE, pConfig->fIsLowGainOverride,
NULL, eANI_BOOLEAN_FALSE)==eHAL_STATUS_FAILURE)
{
fStatus = FALSE;
hddLog(LOGE, "Could not pass on WNI_CFG_LOW_GAIN_OVERRIDE to HAL");
}
if (ccmCfgSetInt(pHddCtx->hHal, WNI_CFG_RSSI_FILTER_PERIOD, pConfig->nRssiFilterPeriod,
NULL, eANI_BOOLEAN_FALSE)==eHAL_STATUS_FAILURE)
{
fStatus = FALSE;
hddLog(LOGE, "Could not pass on WNI_CFG_RSSI_FILTER_PERIOD to CCM");
}
if (ccmCfgSetInt(pHddCtx->hHal, WNI_CFG_IGNORE_DTIM, pConfig->fIgnoreDtim,
NULL, eANI_BOOLEAN_FALSE)==eHAL_STATUS_FAILURE)
{
fStatus = FALSE;
hddLog(LOGE, "Could not pass on WNI_IGNORE_DTIM configuration to CCM");
}
if (ccmCfgSetInt(pHddCtx->hHal, WNI_CFG_PS_ENABLE_HEART_BEAT, pConfig->fEnableFwHeartBeatMonitoring,
NULL, eANI_BOOLEAN_FALSE)==eHAL_STATUS_FAILURE)
{
fStatus = FALSE;
hddLog(LOGE, "Failure: Could not pass on WNI_CFG_PS_HEART_BEAT configuration info to CCM");
}
if (ccmCfgSetInt(pHddCtx->hHal, WNI_CFG_PS_ENABLE_BCN_FILTER, pConfig->fEnableFwBeaconFiltering,
NULL, eANI_BOOLEAN_FALSE)==eHAL_STATUS_FAILURE)
{
fStatus = FALSE;
hddLog(LOGE, "Failure: Could not pass on WNI_CFG_PS_BCN_FILTER configuration info to CCM");
}
if (ccmCfgSetInt(pHddCtx->hHal, WNI_CFG_PS_ENABLE_RSSI_MONITOR, pConfig->fEnableFwRssiMonitoring,
NULL, eANI_BOOLEAN_FALSE)==eHAL_STATUS_FAILURE)
{
fStatus = FALSE;
hddLog(LOGE, "Failure: Could not pass on WNI_CFG_PS_RSSI_MONITOR configuration info to CCM");
}
if (ccmCfgSetInt(pHddCtx->hHal, WNI_CFG_PS_DATA_INACTIVITY_TIMEOUT, pConfig->nDataInactivityTimeout,
NULL, eANI_BOOLEAN_FALSE)==eHAL_STATUS_FAILURE)
{
fStatus = FALSE;
hddLog(LOGE,"Failure: Could not pass on WNI_CFG_PS_DATA_INACTIVITY_TIMEOUT configuration info to CCM");
}
if (ccmCfgSetInt(pHddCtx->hHal, WNI_CFG_NTH_BEACON_FILTER, pConfig->nthBeaconFilter,
NULL, eANI_BOOLEAN_FALSE)==eHAL_STATUS_FAILURE)
{
fStatus = FALSE;
hddLog(LOGE,"Failure: Could not pass on WNI_CFG_NTH_BEACON_FILTER configuration info to CCM");
}
if (ccmCfgSetInt(pHddCtx->hHal, WNI_CFG_ENABLE_LTE_COEX, pConfig->enableLTECoex,
NULL, eANI_BOOLEAN_FALSE)==eHAL_STATUS_FAILURE)
{
fStatus = FALSE;
hddLog(LOGE, "Could not pass on WNI_CFG_ENABLE_LTE_COEX to CCM");
}
if (ccmCfgSetInt(pHddCtx->hHal, WNI_CFG_ENABLE_PHY_AGC_LISTEN_MODE, pConfig->nEnableListenMode,
NULL, eANI_BOOLEAN_FALSE)==eHAL_STATUS_FAILURE)
{
fStatus = FALSE;
hddLog(LOGE, "Could not pass on WNI_CFG_ENABLE_PHY_AGC_LISTEN_MODE to CCM");
}
if (ccmCfgSetInt(pHddCtx->hHal, WNI_CFG_AP_KEEP_ALIVE_TIMEOUT, pConfig->apKeepAlivePeriod,
NULL, eANI_BOOLEAN_FALSE)==eHAL_STATUS_FAILURE)
{
fStatus = FALSE;
hddLog(LOGE, "Could not pass on WNI_CFG_AP_KEEP_ALIVE_TIMEOUT to CCM");
}
if (ccmCfgSetInt(pHddCtx->hHal, WNI_CFG_GO_KEEP_ALIVE_TIMEOUT, pConfig->goKeepAlivePeriod,
NULL, eANI_BOOLEAN_FALSE)==eHAL_STATUS_FAILURE)
{
fStatus = FALSE;
hddLog(LOGE, "Could not pass on WNI_CFG_GO_KEEP_ALIVE_TIMEOUT to CCM");
}
if (ccmCfgSetInt(pHddCtx->hHal, WNI_CFG_AP_LINK_MONITOR_TIMEOUT, pConfig->apLinkMonitorPeriod,
NULL, eANI_BOOLEAN_FALSE)==eHAL_STATUS_FAILURE)
{
fStatus = FALSE;
hddLog(LOGE, "Could not pass on WNI_CFG_AP_LINK_MONITOR_TIMEOUT to CCM");
}
if (ccmCfgSetInt(pHddCtx->hHal, WNI_CFG_GO_LINK_MONITOR_TIMEOUT, pConfig->goLinkMonitorPeriod,
NULL, eANI_BOOLEAN_FALSE)==eHAL_STATUS_FAILURE)
{
fStatus = FALSE;
hddLog(LOGE, "Could not pass on WNI_CFG_GO_LINK_MONITOR_TIMEOUT to CCM");
}
#if defined WLAN_FEATURE_VOWIFI
if (ccmCfgSetInt(pHddCtx->hHal, WNI_CFG_MCAST_BCAST_FILTER_SETTING, pConfig->mcastBcastFilterSetting,
NULL, eANI_BOOLEAN_FALSE)==eHAL_STATUS_FAILURE)
{
fStatus = FALSE;
hddLog(LOGE,
"Could not pass on WNI_CFG_MCAST_BCAST_FILTER_SETTING to CCM");
}
#endif
if (ccmCfgSetInt(pHddCtx->hHal, WNI_CFG_SINGLE_TID_RC, pConfig->bSingleTidRc,
NULL, eANI_BOOLEAN_FALSE)==eHAL_STATUS_FAILURE)
{
fStatus = FALSE;
hddLog(LOGE,"Failure: Could not pass on WNI_CFG_SINGLE_TID_RC configuration info to CCM");
}
if (ccmCfgSetInt(pHddCtx->hHal, WNI_CFG_TELE_BCN_WAKEUP_EN, pConfig->teleBcnWakeupEn,
NULL, eANI_BOOLEAN_FALSE)==eHAL_STATUS_FAILURE)
{
fStatus = FALSE;
hddLog(LOGE,"Failure: Could not pass on WNI_CFG_TELE_BCN_WAKEUP_EN configuration info to CCM");
}
if (ccmCfgSetInt(pHddCtx->hHal, WNI_CFG_TELE_BCN_TRANS_LI, pConfig->nTeleBcnTransListenInterval,
NULL, eANI_BOOLEAN_FALSE)==eHAL_STATUS_FAILURE)
{
fStatus = FALSE;
hddLog(LOGE,"Failure: Could not pass on WNI_CFG_TELE_BCN_TRANS_LI configuration info to CCM");
}
if (ccmCfgSetInt(pHddCtx->hHal, WNI_CFG_TELE_BCN_MAX_LI, pConfig->nTeleBcnMaxListenInterval,
NULL, eANI_BOOLEAN_FALSE)==eHAL_STATUS_FAILURE)
{
fStatus = FALSE;
hddLog(LOGE,"Failure: Could not pass on WNI_CFG_TELE_BCN_MAX_LI configuration info to CCM");
}
if (ccmCfgSetInt(pHddCtx->hHal, WNI_CFG_TELE_BCN_TRANS_LI_IDLE_BCNS, pConfig->nTeleBcnTransLiNumIdleBeacons,
NULL, eANI_BOOLEAN_FALSE)==eHAL_STATUS_FAILURE)
{
fStatus = FALSE;
hddLog(LOGE,"Failure: Could not pass on WNI_CFG_TELE_BCN_TRANS_LI_IDLE_BCNS configuration info to CCM");
}
if (ccmCfgSetInt(pHddCtx->hHal, WNI_CFG_TELE_BCN_MAX_LI_IDLE_BCNS, pConfig->nTeleBcnMaxLiNumIdleBeacons,
NULL, eANI_BOOLEAN_FALSE)==eHAL_STATUS_FAILURE)
{
fStatus = FALSE;
hddLog(LOGE,"Failure: Could not pass on WNI_CFG_TELE_BCN_MAX_LI_IDLE_BCNS configuration info to CCM");
}
if (ccmCfgSetInt(pHddCtx->hHal, WNI_CFG_RF_SETTLING_TIME_CLK, pConfig->rfSettlingTimeUs,
NULL, eANI_BOOLEAN_FALSE)==eHAL_STATUS_FAILURE)
{
fStatus = FALSE;
hddLog(LOGE,"Failure: Could not pass on WNI_CFG_RF_SETTLING_TIME_CLK configuration info to CCM");
}
if (ccmCfgSetInt(pHddCtx->hHal, WNI_CFG_INFRA_STA_KEEP_ALIVE_PERIOD, pConfig->infraStaKeepAlivePeriod,
NULL, eANI_BOOLEAN_FALSE)==eHAL_STATUS_FAILURE)
{
fStatus = FALSE;
hddLog(LOGE,"Failure: Could not pass on WNI_CFG_INFRA_STA_KEEP_ALIVE_PERIOD configuration info to CCM");
}
if (ccmCfgSetInt(pHddCtx->hHal, WNI_CFG_DYNAMIC_PS_POLL_VALUE, pConfig->dynamicPsPollValue,
NULL, eANI_BOOLEAN_FALSE)==eHAL_STATUS_FAILURE)
{
fStatus = FALSE;
hddLog(LOGE,"Failure: Could not pass on WNI_CFG_DYNAMIC_PS_POLL_VALUE configuration info to CCM");
}
if (ccmCfgSetInt(pHddCtx->hHal, WNI_CFG_PS_NULLDATA_AP_RESP_TIMEOUT, pConfig->nNullDataApRespTimeout,
NULL, eANI_BOOLEAN_FALSE)==eHAL_STATUS_FAILURE)
{
fStatus = FALSE;
hddLog(LOGE,"Failure: Could not pass on WNI_CFG_PS_NULLDATA_DELAY_TIMEOUT configuration info to CCM");
}
if (ccmCfgSetInt(pHddCtx->hHal, WNI_CFG_AP_DATA_AVAIL_POLL_PERIOD, pConfig->apDataAvailPollPeriodInMs,
NULL, eANI_BOOLEAN_FALSE)==eHAL_STATUS_FAILURE)
{
fStatus = FALSE;
hddLog(LOGE,"Failure: Could not pass on WNI_CFG_AP_DATA_AVAIL_POLL_PERIOD configuration info to CCM");
}
if(ccmCfgSetInt(pHddCtx->hHal, WNI_CFG_FRAGMENTATION_THRESHOLD, pConfig->FragmentationThreshold,
NULL, eANI_BOOLEAN_FALSE) == eHAL_STATUS_FAILURE)
{
fStatus = FALSE;
hddLog(LOGE,"Failure: Could not pass on WNI_CFG_FRAGMENTATION_THRESHOLD configuration info to CCM");
}
if(ccmCfgSetInt(pHddCtx->hHal, WNI_CFG_RTS_THRESHOLD, pConfig->RTSThreshold,
NULL, eANI_BOOLEAN_FALSE) == eHAL_STATUS_FAILURE)
{
fStatus = FALSE;
hddLog(LOGE,"Failure: Could not pass on WNI_CFG_RTS_THRESHOLD configuration info to CCM");
}
if(ccmCfgSetInt(pHddCtx->hHal, WNI_CFG_11D_ENABLED, pConfig->Is11dSupportEnabled,
NULL, eANI_BOOLEAN_FALSE) == eHAL_STATUS_FAILURE)
{
fStatus = FALSE;
hddLog(LOGE,"Failure: Could not pass on WNI_CFG_11D_ENABLED configuration info to CCM");
}
if (ccmCfgSetInt(pHddCtx->hHal, WNI_CFG_DFS_MASTER_ENABLED,
pConfig->enableDFSMasterCap, NULL,
eANI_BOOLEAN_FALSE) == eHAL_STATUS_FAILURE) {
fStatus = FALSE;
hddLog(LOGE,
"Failure: Could not set value for WNI_CFG_DFS_MASTER_ENABLED");
}
if (ccmCfgSetInt(pHddCtx->hHal, WNI_CFG_VHT_ENABLE_TXBF_20MHZ,
pConfig->enableTxBFin20MHz, NULL,
eANI_BOOLEAN_FALSE) == eHAL_STATUS_FAILURE) {
fStatus = FALSE;
hddLog(LOGE,
"Failure: Could not set value for WNI_CFG_VHT_ENABLE_TXBF_20MHZ");
}
if(ccmCfgSetInt(pHddCtx->hHal, WNI_CFG_HEART_BEAT_THRESHOLD, pConfig->HeartbeatThresh24,
NULL, eANI_BOOLEAN_FALSE) == eHAL_STATUS_FAILURE)
{
fStatus = FALSE;
hddLog(LOGE,"Failure: Could not pass on WNI_CFG_HEART_BEAT_THRESHOLD configuration info to CCM");
}
if (ccmCfgSetInt(pHddCtx->hHal, WNI_CFG_SHORT_GI_40MHZ,
pConfig->ShortGI40MhzEnable, NULL, eANI_BOOLEAN_FALSE)==eHAL_STATUS_FAILURE)
{
fStatus = FALSE;
hddLog(LOGE, "Could not pass on WNI_CFG_SHORT_GI_40MHZ to CCM");
}
if (ccmCfgSetInt(pHddCtx->hHal, WNI_CFG_ENABLE_MC_ADDR_LIST, pConfig->fEnableMCAddrList,
NULL, eANI_BOOLEAN_FALSE)==eHAL_STATUS_FAILURE)
{
fStatus = FALSE;
hddLog(LOGE, "Could not pass on WNI_CFG_ENABLE_MC_ADDR_LIST to CCM");
}
#ifdef WLAN_FEATURE_11AC
/* Based on cfg.ini, update the Basic MCS set, RX/TX MCS map in the cfg.dat */
/* valid values are 0(MCS0-7), 1(MCS0-8), 2(MCS0-9) */
/* we update only the least significant 2 bits in the corresponding fields */
if( (pConfig->dot11Mode == eHDD_DOT11_MODE_AUTO) ||
(pConfig->dot11Mode == eHDD_DOT11_MODE_11ac_ONLY) ||
(pConfig->dot11Mode == eHDD_DOT11_MODE_11ac) )
{
{
/* Currently shortGI40Mhz is used for shortGI80Mhz */
if (ccmCfgSetInt(pHddCtx->hHal, WNI_CFG_VHT_SHORT_GI_80MHZ,
pConfig->ShortGI40MhzEnable, NULL, eANI_BOOLEAN_FALSE)
== eHAL_STATUS_FAILURE)
{
fStatus = FALSE;
hddLog(LOGE, "Could not pass WNI_VHT_SHORT_GI_80MHZ to CCM");
}
// Hardware is capable of doing 128K AMPDU in 11AC mode
if(ccmCfgSetInt(pHddCtx->hHal, WNI_CFG_VHT_AMPDU_LEN_EXPONENT,
pConfig->fVhtAmpduLenExponent, NULL,
eANI_BOOLEAN_FALSE)
== eHAL_STATUS_FAILURE)
{
fStatus = FALSE;
hddLog(LOGE, "Could not pass on WNI_CFG_VHT_AMPDU_LEN_EXPONENT to CCM");
}
/* Change MU Bformee only when TxBF is enabled */
if (pConfig->enableTxBF)
{
ccmCfgGetInt(pHddCtx->hHal, WNI_CFG_VHT_MU_BEAMFORMEE_CAP,
&val);
if(val != pConfig->enableMuBformee)
{
if(ccmCfgSetInt(pHddCtx->hHal,
WNI_CFG_VHT_MU_BEAMFORMEE_CAP,
pConfig->enableMuBformee, NULL,
eANI_BOOLEAN_FALSE) ==eHAL_STATUS_FAILURE)
{
fStatus = FALSE;
hddLog(LOGE, "Could not pass on WNI_CFG_VHT_MU_BEAMFORMEE_CAP to CCM");
}
}
}
if(ccmCfgSetInt(pHddCtx->hHal, WNI_CFG_VHT_MAX_MPDU_LENGTH,
pConfig->vhtMpduLen, NULL,
eANI_BOOLEAN_FALSE)
== eHAL_STATUS_FAILURE)
{
fStatus = FALSE;
hddLog(LOGE, "Could not pass on WNI_CFG_VHT_MAX_MPDU_LENGTH to CCM");
}
}
}
#endif
if (ccmCfgSetInt(pHddCtx->hHal, WNI_CFG_NUM_BUFF_ADVERT,pConfig->numBuffAdvert,
NULL, eANI_BOOLEAN_FALSE)==eHAL_STATUS_FAILURE)
{
fStatus = FALSE;
hddLog(LOGE, "Could not pass on WNI_CFG_NUM_BUFF_ADVERT to CCM");
}
if(ccmCfgSetInt(pHddCtx->hHal, WNI_CFG_HT_RX_STBC,
pConfig->enableRxSTBC, NULL, eANI_BOOLEAN_FALSE)
==eHAL_STATUS_FAILURE)
{
fStatus = FALSE;
hddLog(LOGE, "Could not pass on WNI_CFG_HT_RX_STBC to CCM");
}
ccmCfgGetInt(pHddCtx->hHal, WNI_CFG_HT_CAP_INFO, &val);
val16 = (tANI_U16)val;
phtCapInfo = (tSirMacHTCapabilityInfo *)&val16;
phtCapInfo->rxSTBC = pConfig->enableRxSTBC;
phtCapInfo->advCodingCap = pConfig->enableRxLDPC;
val = val16;
if (ccmCfgSetInt(pHddCtx->hHal, WNI_CFG_HT_CAP_INFO,
val, NULL, eANI_BOOLEAN_FALSE)
== eHAL_STATUS_FAILURE)
{
fStatus = FALSE;
hddLog(LOGE, "Could not pass on WNI_CFG_HT_CAP_INFO to CCM");
}
if(ccmCfgSetInt(pHddCtx->hHal, WNI_CFG_VHT_RXSTBC,
pConfig->enableRxSTBC, NULL, eANI_BOOLEAN_FALSE)
==eHAL_STATUS_FAILURE)
{
fStatus = FALSE;
hddLog(LOGE, "Could not pass on WNI_CFG_VHT_RXSTBC to CCM");
}
if(ccmCfgSetInt(pHddCtx->hHal, WNI_CFG_VHT_TXSTBC,
pConfig->enableTxSTBC, NULL, eANI_BOOLEAN_FALSE)
==eHAL_STATUS_FAILURE)
{
fStatus = FALSE;
hddLog(LOGE, "Could not pass on WNI_CFG_VHT_TXSTBC to CCM");
}
if(ccmCfgSetInt(pHddCtx->hHal, WNI_CFG_VHT_LDPC_CODING_CAP,
pConfig->enableRxLDPC, NULL, eANI_BOOLEAN_FALSE)
==eHAL_STATUS_FAILURE)
{
fStatus = FALSE;
hddLog(LOGE, "Could not pass on WNI_CFG_VHT_LDPC_CODING_CAP to CCM");
}
#ifdef WLAN_SOFTAP_VSTA_FEATURE
if(pConfig->fEnableVSTASupport)
{
ccmCfgGetInt(pHddCtx->hHal, WNI_CFG_ASSOC_STA_LIMIT, &val);
if( val <= WNI_CFG_ASSOC_STA_LIMIT_STADEF)
val = WNI_CFG_ASSOC_STA_LIMIT_STAMAX;
}
else
{
val = pHddCtx->max_peers;
}
if(ccmCfgSetInt(pHddCtx->hHal, WNI_CFG_ASSOC_STA_LIMIT, val,
NULL, eANI_BOOLEAN_FALSE) == eHAL_STATUS_FAILURE)
{
fStatus = FALSE;
hddLog(LOGE,"Failure: Could not pass on WNI_CFG_ASSOC_STA_LIMIT configuration info to CCM");
}
if(ccmCfgSetInt(pHddCtx->hHal, WNI_CFG_ASSOC_STA_LIMIT_AP,
pConfig->max_sap_peers, NULL, eANI_BOOLEAN_FALSE)
== eHAL_STATUS_FAILURE) {
fStatus = FALSE;
hddLog(LOGE,"can't pass WNI_CFG_ASSOC_STA_LIMIT_AP to CCM");
}
if(ccmCfgSetInt(pHddCtx->hHal, WNI_CFG_ASSOC_STA_LIMIT_GO,
pConfig->max_go_peers, NULL, eANI_BOOLEAN_FALSE)
== eHAL_STATUS_FAILURE) {
fStatus = FALSE;
hddLog(LOGE,"can't pass WNI_CFG_ASSOC_STA_LIMIT_GO to CCM");
}
#endif
if(ccmCfgSetInt(pHddCtx->hHal, WNI_CFG_ENABLE_LPWR_IMG_TRANSITION,
pConfig->enableLpwrImgTransition, NULL, eANI_BOOLEAN_FALSE)
==eHAL_STATUS_FAILURE)
{
fStatus = FALSE;
hddLog(LOGE, "Could not pass on WNI_CFG_ENABLE_LPWR_IMG_TRANSITION to CCM");
}
if (ccmCfgSetInt(pHddCtx->hHal, WNI_CFG_ENABLE_MCC_ADAPTIVE_SCHED, pConfig->enableMCCAdaptiveScheduler,
NULL, eANI_BOOLEAN_FALSE)==eHAL_STATUS_FAILURE)
{
fStatus = FALSE;
hddLog(LOGE, "Could not pass on WNI_CFG_ENABLE_MCC_ADAPTIVE_SCHED to CCM");
}
if (ccmCfgSetInt(pHddCtx->hHal, WNI_CFG_DISABLE_LDPC_WITH_TXBF_AP, pConfig->disableLDPCWithTxbfAP,
NULL, eANI_BOOLEAN_FALSE)==eHAL_STATUS_FAILURE)
{
fStatus = FALSE;
hddLog(LOGE, "Could not pass on WNI_CFG_DISABLE_LDPC_WITH_TXBF_AP to CCM");
}
if (ccmCfgSetInt(pHddCtx->hHal, WNI_CFG_DYNAMIC_THRESHOLD_ZERO, pConfig->retryLimitZero,
NULL, eANI_BOOLEAN_FALSE)==eHAL_STATUS_FAILURE)
{
fStatus = FALSE;
hddLog(LOGE, "Could not pass on WNI_CFG_DYNAMIC_THRESHOLD_ZERO to CCM");
}
if (ccmCfgSetInt(pHddCtx->hHal, WNI_CFG_DYNAMIC_THRESHOLD_ONE, pConfig->retryLimitOne,
NULL, eANI_BOOLEAN_FALSE)==eHAL_STATUS_FAILURE)
{
fStatus = FALSE;
hddLog(LOGE, "Could not pass on WNI_CFG_DYNAMIC_THRESHOLD_ONE to CCM");
}
if (ccmCfgSetInt(pHddCtx->hHal, WNI_CFG_DYNAMIC_THRESHOLD_TWO, pConfig->retryLimitTwo,
NULL, eANI_BOOLEAN_FALSE)==eHAL_STATUS_FAILURE)
{
fStatus = FALSE;
hddLog(LOGE, "Could not pass on WNI_CFG_DYNAMIC_THRESHOLD_TWO to CCM");
}
if (ccmCfgSetInt(pHddCtx->hHal, WNI_CFG_MAX_MEDIUM_TIME, pConfig->cfgMaxMediumTime,
NULL, eANI_BOOLEAN_FALSE) == eHAL_STATUS_FAILURE)
{
fStatus = FALSE;
hddLog(LOGE, "Could not pass on WNI_CFG_MAX_MEDIUM_TIME to CCM");
}
#ifdef FEATURE_WLAN_TDLS
if (ccmCfgSetInt(pHddCtx->hHal, WNI_CFG_TDLS_QOS_WMM_UAPSD_MASK,
pConfig->fTDLSUapsdMask, NULL,
eANI_BOOLEAN_FALSE) == eHAL_STATUS_FAILURE)
{
fStatus = FALSE;
hddLog(LOGE, "Could not pass on WNI_CFG_TDLS_QOS_WMM_UAPSD_MASK to CCM");
}
if (ccmCfgSetInt(pHddCtx->hHal, WNI_CFG_TDLS_BUF_STA_ENABLED,
pConfig->fEnableTDLSBufferSta, NULL,
eANI_BOOLEAN_FALSE) == eHAL_STATUS_FAILURE)
{
fStatus = FALSE;
hddLog(LOGE, "Could not pass on WNI_CFG_TDLS_BUF_STA_ENABLED to CCM");
}
if (ccmCfgSetInt(pHddCtx->hHal, WNI_CFG_TDLS_PUAPSD_INACT_TIME,
pConfig->fTDLSPuapsdInactivityTimer, NULL,
eANI_BOOLEAN_FALSE) == eHAL_STATUS_FAILURE)
{
fStatus = FALSE;
hddLog(LOGE, "Could not pass on WNI_CFG_TDLS_PUAPSD_INACT_TIME to CCM");
}
if (ccmCfgSetInt(pHddCtx->hHal, WNI_CFG_TDLS_RX_FRAME_THRESHOLD,
pConfig->fTDLSRxFrameThreshold, NULL,
eANI_BOOLEAN_FALSE) == eHAL_STATUS_FAILURE)
{
fStatus = FALSE;
hddLog(LOGE, "Could not pass on WNI_CFG_TDLS_RX_FRAME_THRESHOLD to CCM");
}
if (ccmCfgSetInt(pHddCtx->hHal, WNI_CFG_TDLS_OFF_CHANNEL_ENABLED,
pConfig->fEnableTDLSOffChannel, NULL,
eANI_BOOLEAN_FALSE) == eHAL_STATUS_FAILURE)
{
fStatus = FALSE;
hddLog(LOGE, "Could not pass on WNI_CFG_TDLS_BUF_STA_ENABLED to CCM");
}
if (ccmCfgSetInt(pHddCtx->hHal, WNI_CFG_TDLS_WMM_MODE_ENABLED,
pConfig->fEnableTDLSWmmMode, NULL,
eANI_BOOLEAN_FALSE)==eHAL_STATUS_FAILURE)
{
fStatus = FALSE;
hddLog(LOGE, "Could not pass on WNI_CFG_TDLS_WMM_MODE_ENABLED to CCM");
}
#endif
if (ccmCfgSetInt(pHddCtx->hHal, WNI_CFG_ENABLE_ADAPT_RX_DRAIN,
pConfig->fEnableAdaptRxDrain, NULL,
eANI_BOOLEAN_FALSE) == eHAL_STATUS_FAILURE)
{
fStatus = FALSE;
hddLog(LOGE, "Could not pass on WNI_CFG_ENABLE_ADAPT_RX_DRAIN to CCM");
}
if (ccmCfgSetInt(pHddCtx->hHal, WNI_CFG_FLEX_CONNECT_POWER_FACTOR,
pConfig->flexConnectPowerFactor, NULL,
eANI_BOOLEAN_FALSE) == eHAL_STATUS_FAILURE)
{
fStatus = FALSE;
hddLog(LOGE, "Failure: Could not pass on "
"WNI_CFG_FLEX_CONNECT_POWER_FACTOR to CCM");
}
if (ccmCfgSetInt(pHddCtx->hHal, WNI_CFG_ANTENNA_DIVESITY,
pConfig->antennaDiversity, NULL,
eANI_BOOLEAN_FALSE)==eHAL_STATUS_FAILURE)
{
fStatus = FALSE;
hddLog(LOGE, "Could not pass on WNI_CFG_ANTENNA_DIVESITY to CCM");
}
if (ccmCfgSetInt(pHddCtx->hHal,
WNI_CFG_DEFAULT_RATE_INDEX_24GHZ,
pConfig->defaultRateIndex24Ghz,
NULL, eANI_BOOLEAN_FALSE) == eHAL_STATUS_FAILURE)
{
fStatus = FALSE;
hddLog(LOGE, "Could not pass on WNI_CFG_DEFAULT_RATE_INDEX_24GHZ to CCM");
}
if (ccmCfgSetInt(pHddCtx->hHal,
WNI_CFG_DEBUG_P2P_REMAIN_ON_CHANNEL,
pConfig->debugP2pRemainOnChannel,
NULL, eANI_BOOLEAN_FALSE) == eHAL_STATUS_FAILURE)
{
fStatus = FALSE;
hddLog(LOGE,
"Could not pass on WNI_CFG_DEBUG_P2P_REMAIN_ON_CHANNEL to CCM");
}
#ifdef WLAN_FEATURE_11W
if (ccmCfgSetInt(pHddCtx->hHal, WNI_CFG_PMF_SA_QUERY_MAX_RETRIES,
pConfig->pmfSaQueryMaxRetries, NULL,
eANI_BOOLEAN_FALSE) == eHAL_STATUS_FAILURE)
{
fStatus = FALSE;
hddLog(LOGE, "Could not pass on WNI_CFG_SA_QUERY_MAX_RETRIES to CCM");
}
if (ccmCfgSetInt(pHddCtx->hHal, WNI_CFG_PMF_SA_QUERY_RETRY_INTERVAL,
pConfig->pmfSaQueryRetryInterval, NULL,
eANI_BOOLEAN_FALSE) == eHAL_STATUS_FAILURE)
{
fStatus = FALSE;
hddLog(LOGE, "Could not pass on WNI_CFG_SA_QUERY_RETRY_INTERVAL to CCM");
}
#endif
if (ccmCfgSetInt(pHddCtx->hHal, WNI_CFG_IBSS_ATIM_WIN_SIZE,
pConfig->ibssATIMWinSize, NULL,
eANI_BOOLEAN_FALSE) == eHAL_STATUS_FAILURE)
{
fStatus = FALSE;
hddLog(LOGE, "Could not pass on WNI_CFG_IBSS_ATIM_WIN_SIZE to CCM");
}
if (ccmCfgSetInt(pHddCtx->hHal, WNI_CFG_TGT_GTX_USR_CFG,
pConfig->tgt_gtx_usr_cfg, NULL,
eANI_BOOLEAN_FALSE) == eHAL_STATUS_FAILURE)
{
fStatus = FALSE;
hddLog(LOGE, "Could not pass on WNI_CFG_TGT_GTX_USR_CFG to CCM");
}
if (ccmCfgSetInt(pHddCtx->hHal, WNI_CFG_MAX_HT_MCS_TX_DATA,
pConfig->max_ht_mcs_txdata, NULL,
eANI_BOOLEAN_FALSE) == eHAL_STATUS_FAILURE) {
fStatus = FALSE;
hddLog(LOGE, "Could not pass on WNI_CFG_MAX_HT_MCS_TX_DATA to CCM");
}
if (ccmCfgSetInt(pHddCtx->hHal, WNI_CFG_DISABLE_ABG_RATE_FOR_TX_DATA,
pConfig->disable_abg_rate_txdata, NULL,
eANI_BOOLEAN_FALSE) == eHAL_STATUS_FAILURE) {
fStatus = FALSE;
hddLog(LOGE, "Could not pass on WNI_CFG_DISABLE_ABG_RATE_FOR_TX_DATA to CCM");
}
if (ccmCfgSetInt(pHddCtx->hHal, WNI_CFG_RATE_FOR_TX_MGMT,
pConfig->rate_for_tx_mgmt, NULL,
eANI_BOOLEAN_FALSE) == eHAL_STATUS_FAILURE) {
fStatus = FALSE;
hddLog(LOGE, "Could not pass on WNI_CFG_RATE_FOR_TX_MGMT to CCM");
}
if (ccmCfgSetInt(pHddCtx->hHal, WNI_CFG_RATE_FOR_TX_MGMT_2G,
pConfig->rate_for_tx_mgmt_2g, NULL,
eANI_BOOLEAN_FALSE) == eHAL_STATUS_FAILURE) {
fStatus = FALSE;
hddLog(LOGE, "Could not pass on WNI_CFG_RATE_FOR_TX_MGMT_2G to CCM");
}
if (ccmCfgSetInt(pHddCtx->hHal, WNI_CFG_RATE_FOR_TX_MGMT_5G,
pConfig->rate_for_tx_mgmt_5g, NULL,
eANI_BOOLEAN_FALSE) == eHAL_STATUS_FAILURE) {
fStatus = FALSE;
hddLog(LOGE, "Could not pass on WNI_CFG_RATE_FOR_TX_MGMT_5G to CCM");
}
return fStatus;
}
/**---------------------------------------------------------------------------
\brief hdd_set_sme_config() -
This function initializes the sme configuration parameters
\param - pHddCtx - Pointer to the HDD Adapter.
\return - 0 for success, non zero for failure
--------------------------------------------------------------------------*/
VOS_STATUS hdd_set_sme_config( hdd_context_t *pHddCtx )
{
VOS_STATUS status = VOS_STATUS_SUCCESS;
eHalStatus halStatus;
tSmeConfigParams *smeConfig;
uint8_t rrm_capab_len;
hdd_config_t *pConfig = pHddCtx->cfg_ini;
smeConfig = vos_mem_malloc(sizeof(*smeConfig));
if (NULL == smeConfig)
{
VOS_TRACE( VOS_MODULE_ID_HDD, VOS_TRACE_LEVEL_ERROR,
"%s: unable to allocate smeConfig", __func__);
return VOS_STATUS_E_NOMEM;
}
vos_mem_zero(smeConfig, sizeof(*smeConfig));
VOS_TRACE( VOS_MODULE_ID_HDD, VOS_TRACE_LEVEL_INFO_HIGH,
"%s bWmmIsEnabled=%d 802_11e_enabled=%d dot11Mode=%d", __func__,
pConfig->WmmMode, pConfig->b80211eIsEnabled, pConfig->dot11Mode);
// Config params obtained from the registry
/* To Do */
// set regulatory information here
smeConfig->csrConfig.RTSThreshold = pConfig->RTSThreshold;
smeConfig->csrConfig.FragmentationThreshold = pConfig->FragmentationThreshold;
smeConfig->csrConfig.shortSlotTime = pConfig->ShortSlotTimeEnabled;
smeConfig->csrConfig.Is11dSupportEnabled = pConfig->Is11dSupportEnabled;
smeConfig->csrConfig.HeartbeatThresh24 = pConfig->HeartbeatThresh24;
smeConfig->csrConfig.phyMode = hdd_cfg_xlate_to_csr_phy_mode ( pConfig->dot11Mode );
if (pConfig->dot11Mode == eHDD_DOT11_MODE_abg ||
pConfig->dot11Mode == eHDD_DOT11_MODE_11b ||
pConfig->dot11Mode == eHDD_DOT11_MODE_11g ||
pConfig->dot11Mode == eHDD_DOT11_MODE_11b_ONLY ||
pConfig->dot11Mode == eHDD_DOT11_MODE_11g_ONLY) {
smeConfig->csrConfig.channelBondingMode24GHz = 0;
smeConfig->csrConfig.channelBondingMode5GHz = 0;
} else {
smeConfig->csrConfig.channelBondingMode24GHz =
pConfig->nChannelBondingMode24GHz;
smeConfig->csrConfig.channelBondingMode5GHz =
pConfig->nChannelBondingMode5GHz;
}
smeConfig->csrConfig.TxRate = pConfig->TxRate;
smeConfig->csrConfig.nScanResultAgeCount = pConfig->ScanResultAgeCount;
smeConfig->csrConfig.scanAgeTimeNCNPS = pConfig->nScanAgeTimeNCNPS;
smeConfig->csrConfig.scanAgeTimeNCPS = pConfig->nScanAgeTimeNCPS;
smeConfig->csrConfig.scanAgeTimeCNPS = pConfig->nScanAgeTimeCNPS;
smeConfig->csrConfig.scanAgeTimeCPS = pConfig->nScanAgeTimeCPS;
smeConfig->csrConfig.AdHocChannel24 = pConfig->OperatingChannel;
smeConfig->csrConfig.fEnforce11dChannels = pConfig->fEnforce11dChannels;
smeConfig->csrConfig.fSupplicantCountryCodeHasPriority = pConfig->fSupplicantCountryCodeHasPriority;
smeConfig->csrConfig.fEnforceCountryCodeMatch = pConfig->fEnforceCountryCodeMatch;
smeConfig->csrConfig.fEnforceDefaultDomain = pConfig->fEnforceDefaultDomain;
smeConfig->csrConfig.bCatRssiOffset = pConfig->nRssiCatGap;
smeConfig->csrConfig.vccRssiThreshold = pConfig->nVccRssiTrigger;
smeConfig->csrConfig.vccUlMacLossThreshold = pConfig->nVccUlMacLossThreshold;
smeConfig->csrConfig.nRoamingTime = pConfig->nRoamingTime;
smeConfig->csrConfig.IsIdleScanEnabled = pConfig->nEnableIdleScan;
smeConfig->csrConfig.nInitialDwellTime = pConfig->nInitialDwellTime;
smeConfig->csrConfig.initial_scan_no_dfs_chnl =
pConfig->initial_scan_no_dfs_chnl;
smeConfig->csrConfig.nActiveMaxChnTime = pConfig->nActiveMaxChnTime;
smeConfig->csrConfig.nActiveMinChnTime = pConfig->nActiveMinChnTime;
smeConfig->csrConfig.nPassiveMaxChnTime = pConfig->nPassiveMaxChnTime;
smeConfig->csrConfig.nPassiveMinChnTime = pConfig->nPassiveMinChnTime;
smeConfig->csrConfig.disableAggWithBtc = pConfig->disableAggWithBtc;
#ifdef WLAN_AP_STA_CONCURRENCY
smeConfig->csrConfig.nActiveMaxChnTimeConc = pConfig->nActiveMaxChnTimeConc;
smeConfig->csrConfig.nActiveMinChnTimeConc = pConfig->nActiveMinChnTimeConc;
smeConfig->csrConfig.nPassiveMaxChnTimeConc = pConfig->nPassiveMaxChnTimeConc;
smeConfig->csrConfig.nPassiveMinChnTimeConc = pConfig->nPassiveMinChnTimeConc;
smeConfig->csrConfig.nRestTimeConc = pConfig->nRestTimeConc;
smeConfig->csrConfig.min_rest_time_conc = pConfig->min_rest_time_conc;
smeConfig->csrConfig.idle_time_conc = pConfig->idle_time_conc;
#endif
smeConfig->csrConfig.Is11eSupportEnabled = pConfig->b80211eIsEnabled;
smeConfig->csrConfig.WMMSupportMode = pConfig->WmmMode;
smeConfig->csrConfig.gStaLocalEDCAEnable = pConfig->gStaLocalEDCAEnable;
/*
* -channelBondingMode5GHz is getting updated by SAP
* so stacbmode will be used for STA connection.
* -Rome STA doesnt support HT40 in 2.4Ghz so interested in only
* 5GHz configuration.
*/
smeConfig->csrConfig.stacbmode =
pConfig->nChannelBondingMode5GHz;
#if defined WLAN_FEATURE_VOWIFI
smeConfig->rrmConfig.rrm_enabled = pConfig->fRrmEnable;
smeConfig->rrmConfig.max_randn_interval = pConfig->nRrmRandnIntvl;
hdd_hex_string_to_u8_array(pConfig->rm_capability,
smeConfig->rrmConfig.rm_capability, &rrm_capab_len,
DOT11F_IE_RRMENABLEDCAP_MAX_LEN);
/*
* Update the INI values gRrmOperChanMax and gRrmNonOperChanMax appropriately
*/
smeConfig->rrmConfig.rm_capability[2] =
((pConfig->nOutChanMeasMaxDuration <<
CAP_NONOPER_CHAN_MAX_DURATION_OFFSET) |
(pConfig->nOutChanMeasMaxDuration <<
CAP_OPER_CHAN_MAX_DURATION_OFFSET) |
(smeConfig->rrmConfig.rm_capability[2] &
(RM_CAP_RM_MIB | RM_CAP_AP_CHAN_REPORT)));
#endif
//Remaining config params not obtained from registry
// On RF EVB beacon using channel 1.
#ifdef WLAN_FEATURE_11AC
smeConfig->csrConfig.nVhtChannelWidth = pConfig->vhtChannelWidth;
smeConfig->csrConfig.enableTxBF = pConfig->enableTxBF;
smeConfig->csrConfig.txBFCsnValue = pConfig->txBFCsnValue;
smeConfig->csrConfig.enable2x2 = pConfig->enable2x2;
smeConfig->csrConfig.enableVhtFor24GHz = pConfig->enableVhtFor24GHzBand;
smeConfig->csrConfig.vendor_vht_for_24ghz_sap =
pConfig->enable_vendor_vht_for_24ghz_band;
smeConfig->csrConfig.enableMuBformee = pConfig->enableMuBformee;
smeConfig->csrConfig.enableVhtpAid = pConfig->enableVhtpAid;
smeConfig->csrConfig.enableVhtGid = pConfig->enableVhtGid;
#endif
smeConfig->csrConfig.enableAmpduPs = pConfig->enableAmpduPs;
smeConfig->csrConfig.enableHtSmps = pConfig->enableHtSmps;
smeConfig->csrConfig.htSmps = pConfig->htSmps;
smeConfig->csrConfig.AdHocChannel5G = pConfig->AdHocChannel5G;
smeConfig->csrConfig.AdHocChannel24 = pConfig->AdHocChannel24G;
smeConfig->csrConfig.ProprietaryRatesEnabled = 0;
smeConfig->csrConfig.HeartbeatThresh50 = 40;
smeConfig->csrConfig.bandCapability = pConfig->nBandCapability;
if (pConfig->nBandCapability == eCSR_BAND_24)
{
smeConfig->csrConfig.Is11hSupportEnabled = 0;
} else {
smeConfig->csrConfig.Is11hSupportEnabled = pConfig->Is11hSupportEnabled;
}
smeConfig->csrConfig.cbChoice = 0;
smeConfig->csrConfig.bgScanInterval = 0;
smeConfig->csrConfig.eBand = pConfig->nBandCapability;
smeConfig->csrConfig.nTxPowerCap = pConfig->nTxPowerCap;
smeConfig->csrConfig.allow_tpc_from_ap = pConfig->allow_tpc_from_ap;
smeConfig->csrConfig.fEnableBypass11d = pConfig->enableBypass11d;
smeConfig->csrConfig.fEnableDFSChnlScan = pConfig->enableDFSChnlScan;
#if defined (WLAN_FEATURE_VOWIFI_11R) || defined (FEATURE_WLAN_ESE) || defined(FEATURE_WLAN_LFR)
smeConfig->csrConfig.nRoamPrefer5GHz = pConfig->nRoamPrefer5GHz;
smeConfig->csrConfig.nRoamIntraBand = pConfig->nRoamIntraBand;
smeConfig->csrConfig.nProbes = pConfig->nProbes;
smeConfig->csrConfig.nRoamScanHomeAwayTime = pConfig->nRoamScanHomeAwayTime;
#endif
smeConfig->csrConfig.fFirstScanOnly2GChnl = pConfig->enableFirstScan2GOnly;
//FIXME 11d config is hardcoded
if ( VOS_STA_SAP_MODE != hdd_get_conparam())
{
smeConfig->csrConfig.Csr11dinfo.Channels.numChannels = 0;
/* if there is a requirement that HDD will control the default
* channel list & country code (say from .ini file) we need to
* add some logic here. Otherwise the default 11d info should
* come from NV as per our current implementation */
}
else
{
VOS_TRACE( VOS_MODULE_ID_HDD, VOS_TRACE_LEVEL_ERROR,
"AP country Code %s", pConfig->apCntryCode);
if (memcmp(pConfig->apCntryCode, CFG_AP_COUNTRY_CODE_DEFAULT, 3) != 0)
sme_setRegInfo(pHddCtx->hHal, pConfig->apCntryCode);
sme_set11dinfo(pHddCtx->hHal, smeConfig);
}
if (!pConfig->enablePowersaveOffload)
{
hdd_set_power_save_config(pHddCtx, smeConfig);
}
else
{
hdd_set_power_save_offload_config(pHddCtx);
}
#ifdef WLAN_FEATURE_VOWIFI_11R
smeConfig->csrConfig.csr11rConfig.IsFTResourceReqSupported = pConfig->fFTResourceReqSupported;
#endif
#ifdef FEATURE_WLAN_LFR
smeConfig->csrConfig.isFastRoamIniFeatureEnabled = pConfig->isFastRoamIniFeatureEnabled;
smeConfig->csrConfig.MAWCEnabled = pConfig->MAWCEnabled;
#endif
#ifdef FEATURE_WLAN_ESE
smeConfig->csrConfig.isEseIniFeatureEnabled = pConfig->isEseIniFeatureEnabled;
if( pConfig->isEseIniFeatureEnabled )
{
pConfig->isFastTransitionEnabled = TRUE;
}
#endif
#if defined (WLAN_FEATURE_VOWIFI_11R) || defined (FEATURE_WLAN_ESE) || defined(FEATURE_WLAN_LFR)
smeConfig->csrConfig.isFastTransitionEnabled = pConfig->isFastTransitionEnabled;
smeConfig->csrConfig.RoamRssiDiff = pConfig->RoamRssiDiff;
smeConfig->csrConfig.nImmediateRoamRssiDiff = pConfig->nImmediateRoamRssiDiff;
smeConfig->csrConfig.isWESModeEnabled = pConfig->isWESModeEnabled;
#endif
#ifdef WLAN_FEATURE_ROAM_SCAN_OFFLOAD
smeConfig->csrConfig.isRoamOffloadScanEnabled = pConfig->isRoamOffloadScanEnabled;
smeConfig->csrConfig.bFastRoamInConIniFeatureEnabled = pConfig->bFastRoamInConIniFeatureEnabled;
if (0 == smeConfig->csrConfig.isRoamOffloadScanEnabled)
{
/* Disable roaming in concurrency if roam scan offload is disabled */
smeConfig->csrConfig.bFastRoamInConIniFeatureEnabled = 0;
}
#endif
#ifdef WLAN_FEATURE_NEIGHBOR_ROAMING
smeConfig->csrConfig.neighborRoamConfig.nNeighborReassocRssiThreshold = pConfig->nNeighborReassocRssiThreshold;
smeConfig->csrConfig.neighborRoamConfig.nNeighborLookupRssiThreshold = pConfig->nNeighborLookupRssiThreshold;
smeConfig->csrConfig.neighborRoamConfig.delay_before_vdev_stop =
pConfig->delay_before_vdev_stop;
smeConfig->csrConfig.neighborRoamConfig.nOpportunisticThresholdDiff =
pConfig->nOpportunisticThresholdDiff;
smeConfig->csrConfig.neighborRoamConfig.nRoamRescanRssiDiff =
pConfig->nRoamRescanRssiDiff;
smeConfig->csrConfig.neighborRoamConfig.nNeighborScanMaxChanTime = pConfig->nNeighborScanMaxChanTime;
smeConfig->csrConfig.neighborRoamConfig.nNeighborScanMinChanTime = pConfig->nNeighborScanMinChanTime;
smeConfig->csrConfig.neighborRoamConfig.nNeighborScanTimerPeriod = pConfig->nNeighborScanPeriod;
smeConfig->csrConfig.neighborRoamConfig.nMaxNeighborRetries = pConfig->nMaxNeighborReqTries;
smeConfig->csrConfig.neighborRoamConfig.nNeighborResultsRefreshPeriod = pConfig->nNeighborResultsRefreshPeriod;
smeConfig->csrConfig.neighborRoamConfig.nEmptyScanRefreshPeriod = pConfig->nEmptyScanRefreshPeriod;
hdd_string_to_u8_array( pConfig->neighborScanChanList,
smeConfig->csrConfig.neighborRoamConfig.neighborScanChanList.channelList,
&smeConfig->csrConfig.neighborRoamConfig.neighborScanChanList.numChannels,
WNI_CFG_VALID_CHANNEL_LIST_LEN);
smeConfig->csrConfig.neighborRoamConfig.nRoamBmissFirstBcnt = pConfig->nRoamBmissFirstBcnt;
smeConfig->csrConfig.neighborRoamConfig.nRoamBmissFinalBcnt = pConfig->nRoamBmissFinalBcnt;
smeConfig->csrConfig.neighborRoamConfig.nRoamBeaconRssiWeight =
pConfig->nRoamBeaconRssiWeight;
smeConfig->csrConfig.neighborRoamConfig.nhi_rssi_scan_max_count =
pConfig->nhi_rssi_scan_max_count;
smeConfig->csrConfig.neighborRoamConfig.nhi_rssi_scan_rssi_delta =
pConfig->nhi_rssi_scan_rssi_delta;
smeConfig->csrConfig.neighborRoamConfig.nhi_rssi_scan_delay =
pConfig->nhi_rssi_scan_delay;
smeConfig->csrConfig.neighborRoamConfig.nhi_rssi_scan_rssi_ub =
pConfig->nhi_rssi_scan_rssi_ub;
#endif
smeConfig->csrConfig.addTSWhenACMIsOff = pConfig->AddTSWhenACMIsOff;
smeConfig->csrConfig.fValidateList = pConfig->fValidateScanList;
smeConfig->csrConfig.allowDFSChannelRoam = pConfig->allowDFSChannelRoam;
//Enable/Disable MCC
smeConfig->csrConfig.fEnableMCCMode = pConfig->enableMCC;
smeConfig->csrConfig.mcc_rts_cts_prot_enable =
pConfig->mcc_rts_cts_prot_enable;
smeConfig->csrConfig.mcc_bcast_prob_resp_enable =
pConfig->mcc_bcast_prob_resp_enable;
smeConfig->csrConfig.fAllowMCCGODiffBI = pConfig->allowMCCGODiffBI;
//Scan Results Aging Time out value
smeConfig->csrConfig.scanCfgAgingTime = pConfig->scanAgingTimeout;
smeConfig->csrConfig.enableTxLdpc = pConfig->enableTxLdpc;
#ifdef FEATURE_WLAN_MCC_TO_SCC_SWITCH
smeConfig->csrConfig.cc_switch_mode = pConfig->WlanMccToSccSwitchMode;
smeConfig->csrConfig.band_switch_enable = pConfig->wlan_band_switch_enable;
smeConfig->csrConfig.ap_p2pgo_concurrency_enable =
pConfig->wlan_ap_p2pgo_conc_enable;
smeConfig->csrConfig.ap_p2pclient_concur_enable =
pConfig->wlan_ap_p2pclient_conc_enable;
smeConfig->csrConfig.ch_width_24g_orig = pConfig->nChannelBondingMode24GHz ?
eHT_CHANNEL_WIDTH_40MHZ : eHT_CHANNEL_WIDTH_20MHZ;
smeConfig->csrConfig.ch_width_5g_orig = pConfig->vhtChannelWidth;
#endif
smeConfig->csrConfig.max_amsdu_num = pConfig->max_amsdu_num;
smeConfig->csrConfig.nSelect5GHzMargin = pConfig->nSelect5GHzMargin;
smeConfig->csrConfig.isCoalesingInIBSSAllowed =
pHddCtx->cfg_ini->isCoalesingInIBSSAllowed;
/* update SSR config */
sme_UpdateEnableSSR((tHalHandle)(pHddCtx->hHal), pHddCtx->cfg_ini->enableSSR);
/* Update the Directed scan offload setting */
smeConfig->fScanOffload = true;
/* Update the p2p listen offload setting */
smeConfig->fP2pListenOffload = pHddCtx->cfg_ini->fP2pListenOffload;
smeConfig->csrConfig.scanBandPreference =
pHddCtx->cfg_ini->acsScanBandPreference;
#ifdef FEATURE_WLAN_SCAN_PNO
/* Update PNO offload status */
smeConfig->pnoOffload = pHddCtx->cfg_ini->PnoOffload;
#endif
/* Update maximum interfaces information */
smeConfig->max_intf_count = pHddCtx->max_intf_count;
smeConfig->fEnableDebugLog = pHddCtx->cfg_ini->gEnableDebugLog;
smeConfig->enable5gEBT = pHddCtx->cfg_ini->enable5gEBT;
smeConfig->enableSelfRecovery = pHddCtx->cfg_ini->enableSelfRecovery;
#ifdef WLAN_FEATURE_ROAM_OFFLOAD
smeConfig->csrConfig.isRoamOffloadEnabled =
pHddCtx->cfg_ini->isRoamOffloadEnabled;
#endif
smeConfig->csrConfig.conc_custom_rule1 =
pHddCtx->cfg_ini->conc_custom_rule1;
smeConfig->csrConfig.conc_custom_rule2 =
pHddCtx->cfg_ini->conc_custom_rule2;
smeConfig->csrConfig.is_sta_connection_in_5gz_enabled =
pHddCtx->cfg_ini->is_sta_connection_in_5gz_enabled;
/* Update 802.11p config */
smeConfig->csrConfig.enable_dot11p = (pHddCtx->cfg_ini->dot11p_mode !=
WLAN_HDD_11P_DISABLED);
smeConfig->f_sta_miracast_mcc_rest_time_val =
pHddCtx->cfg_ini->sta_miracast_mcc_rest_time_val;
#ifdef FEATURE_AP_MCC_CH_AVOIDANCE
smeConfig->sap_channel_avoidance =
pHddCtx->cfg_ini->sap_channel_avoidance;
#endif /* FEATURE_AP_MCC_CH_AVOIDANCE */
smeConfig->csrConfig.ignore_peer_ht_opmode =
pConfig->ignore_peer_ht_opmode;
smeConfig->csrConfig.pkt_err_disconn_th =
pHddCtx->cfg_ini->pkt_err_disconn_th;
smeConfig->f_prefer_non_dfs_on_radar =
pHddCtx->cfg_ini->prefer_non_dfs_on_radar;
smeConfig->csrConfig.first_scan_bucket_threshold =
pHddCtx->cfg_ini->first_scan_bucket_threshold;
vos_set_multicast_logging(pHddCtx->cfg_ini->multicast_host_fw_msgs);
hdd_set_fine_time_meas_cap(pHddCtx, smeConfig);
smeConfig->csrConfig.enable_fatal_event =
pConfig->enable_fatal_event;
smeConfig->csrConfig.sendDeauthBeforeCon = pConfig->sendDeauthBeforeCon;
smeConfig->csrConfig.ignorePeerErpInfo = pConfig->ignorePeerErpInfo;
smeConfig->csrConfig.tx_aggregation_size =
pHddCtx->cfg_ini->tx_aggregation_size;
smeConfig->csrConfig.rx_aggregation_size =
pHddCtx->cfg_ini->rx_aggregation_size;
smeConfig->csrConfig.enable_edca_params =
pHddCtx->cfg_ini->enable_edca_params;
smeConfig->csrConfig.edca_vo_cwmin =
pHddCtx->cfg_ini->edca_vo_cwmin;
smeConfig->csrConfig.edca_vi_cwmin =
pHddCtx->cfg_ini->edca_vi_cwmin;
smeConfig->csrConfig.edca_bk_cwmin =
pHddCtx->cfg_ini->edca_bk_cwmin;
smeConfig->csrConfig.edca_be_cwmin =
pHddCtx->cfg_ini->edca_be_cwmin;
smeConfig->csrConfig.edca_vo_cwmax =
pHddCtx->cfg_ini->edca_vo_cwmax;
smeConfig->csrConfig.edca_vi_cwmax =
pHddCtx->cfg_ini->edca_vi_cwmax;
smeConfig->csrConfig.edca_bk_cwmax =
pHddCtx->cfg_ini->edca_bk_cwmax;
smeConfig->csrConfig.edca_be_cwmax =
pHddCtx->cfg_ini->edca_be_cwmax;
smeConfig->csrConfig.edca_vo_aifs =
pHddCtx->cfg_ini->edca_vo_aifs;
smeConfig->csrConfig.edca_vi_aifs =
pHddCtx->cfg_ini->edca_vi_aifs;
smeConfig->csrConfig.edca_bk_aifs =
pHddCtx->cfg_ini->edca_bk_aifs;
smeConfig->csrConfig.edca_be_aifs =
pHddCtx->cfg_ini->edca_be_aifs;
smeConfig->csrConfig.sta_roam_policy_params.dfs_mode =
CSR_STA_ROAM_POLICY_DFS_ENABLED;
smeConfig->csrConfig.sta_roam_policy_params.skip_unsafe_channels = 0;
smeConfig->snr_monitor_enabled = pHddCtx->cfg_ini->fEnableSNRMonitoring;
smeConfig->sub20_config_info =
hdd_cfg_get_sub20_channel_config(pHddCtx);
smeConfig->sub20_channelwidth =
hdd_cfg_get_static_sub20_channel_width(pHddCtx);
smeConfig->sub20_dynamic_channelwidth =
hdd_cfg_get_sub20_dyn_capabilities(pHddCtx);
smeConfig->csrConfig.sta_auth_retries_for_code17 =
pHddCtx->cfg_ini->sta_auth_retries_for_code17;
smeConfig->sta_change_cc_via_beacon =
pHddCtx->cfg_ini->sta_change_cc_via_beacon;
#ifdef WLAN_FEATURE_SAP_TO_FOLLOW_STA_CHAN
smeConfig->csrConfig.sap_ch_switch_with_csa = pHddCtx->cfg_ini->sap_ch_switch_with_csa;
#endif//#ifdef WLAN_FEATURE_SAP_TO_FOLLOW_STA_CHAN
halStatus = sme_UpdateConfig( pHddCtx->hHal, smeConfig);
if ( !HAL_STATUS_SUCCESS( halStatus ) )
{
status = VOS_STATUS_E_FAILURE;
hddLog(LOGE, "sme_UpdateConfig() return failure %d", halStatus);
}
vos_mem_free(smeConfig);
return status;
}
/**---------------------------------------------------------------------------
\brief hdd_execute_config_command() -
This function executes an arbitrary configuration set command
\param - pHddCtx - Pointer to the HDD Adapter.
\parmm - command - a configuration command of the form:
<name>=<value>
\return - 0 for success, non zero for failure
--------------------------------------------------------------------------*/
static VOS_STATUS hdd_execute_config_command(REG_TABLE_ENTRY *reg_table,
unsigned long tableSize, v_U8_t *ini_struct,
hdd_context_t *pHddCtx, char *command)
{
REG_TABLE_ENTRY *pRegEntry;
char *clone;
char *pCmd;
void *pField;
char *name;
char *value_str;
v_U32_t value;
v_S31_t svalue;
size_t len_value_str;
unsigned int idx;
unsigned int i;
VOS_STATUS vstatus;
int rv;
// assume failure until proven otherwise
vstatus = VOS_STATUS_E_FAILURE;
// clone the command so that we can manipulate it
clone = kstrdup(command, GFP_ATOMIC);
if (NULL == clone)
{
hddLog(LOGE, "%s: memory allocation failure, unable to process [%s]",
__func__, command);
return vstatus;
}
// 'clone' will point to the beginning of the string so it can be freed
// 'pCmd' will be used to walk/parse the command
pCmd = clone;
// get rid of leading/trailing whitespace
pCmd = i_trim(pCmd);
if ('\0' == *pCmd)
{
// only whitespace
hddLog(LOGE, "%s: invalid command, only whitespace:[%s]",
__func__, command);
goto done;
}
// parse the <name> = <value>
name = pCmd;
while (('=' != *pCmd) && ('\0' != *pCmd))
{
pCmd++;
}
if ('\0' == *pCmd)
{
// did not find '='
hddLog(LOGE, "%s: invalid command, no '=':[%s]",
__func__, command);
goto done;
}
// replace '=' with NUL to terminate the <name>
*pCmd++ = '\0';
name = i_trim(name);
if ('\0' == *name)
{
// did not find a name
hddLog(LOGE, "%s: invalid command, no <name>:[%s]",
__func__, command);
goto done;
}
value_str = i_trim(pCmd);
if ('\0' == *value_str)
{
// did not find a value
hddLog(LOGE, "%s: invalid command, no <value>:[%s]",
__func__, command);
goto done;
}
// lookup the configuration item
for (idx = 0; idx < tableSize; idx++)
{
if (0 == strcmp(name, reg_table[idx].RegName))
{
// found a match
break;
}
}
if (tableSize == idx)
{
// did not match the name
hddLog(LOGE, "%s: invalid command, unknown configuration item:[%s]",
__func__, command);
goto done;
}
pRegEntry = &reg_table[idx];
if (!(pRegEntry->Flags & VAR_FLAGS_DYNAMIC_CFG))
{
// does not support dynamic configuration
hddLog(LOGE, "%s: Global_Registry_Table.%s does not support "
"dynamic configuration", __func__, name);
vstatus = VOS_STATUS_E_PERM;
goto done;
}
pField = ini_struct + pRegEntry->VarOffset;
switch (pRegEntry->RegType)
{
case WLAN_PARAM_Integer:
rv = kstrtou32(value_str, 10, &value);
if (rv < 0)
goto done;
if (value < pRegEntry->VarMin)
{
// out of range
hddLog(LOGE, "%s: invalid command, value %u < min value %lu",
__func__, value, pRegEntry->VarMin);
goto done;
}
if (value > pRegEntry->VarMax)
{
// out of range
hddLog(LOGE, "%s: invalid command, value %u > max value %lu",
__func__, value, pRegEntry->VarMax);
goto done;
}
memcpy(pField, &value, pRegEntry->VarSize);
break;
case WLAN_PARAM_HexInteger:
rv = kstrtou32(value_str, 16, &value);
if (rv < 0)
goto done;
if (value < pRegEntry->VarMin)
{
// out of range
hddLog(LOGE, "%s: invalid command, value %x < min value %lx",
__func__, value, pRegEntry->VarMin);
goto done;
}
if (value > pRegEntry->VarMax)
{
// out of range
hddLog(LOGE, "%s: invalid command, value %x > max value %lx",
__func__, value, pRegEntry->VarMax);
goto done;
}
memcpy(pField, &value, pRegEntry->VarSize);
break;
case WLAN_PARAM_SignedInteger:
rv = kstrtos32(value_str, 10, &svalue);
if (rv < 0)
goto done;
if (svalue < (v_S31_t)pRegEntry->VarMin)
{
// out of range
hddLog(LOGE, "%s: invalid command, value %d < min value %d",
__func__, svalue, (int)pRegEntry->VarMin);
goto done;
}
if (svalue > (v_S31_t)pRegEntry->VarMax)
{
// out of range
hddLog(LOGE, "%s: invalid command, value %d > max value %d",
__func__, svalue, (int)pRegEntry->VarMax);
goto done;
}
memcpy(pField, &svalue, pRegEntry->VarSize);
break;
case WLAN_PARAM_String:
len_value_str = strlen(value_str);
if (len_value_str > (pRegEntry->VarSize - 1))
{
// too big
hddLog(LOGE,
"%s: invalid command, string [%s] length "
"%zu exceeds maximum length %u",
__func__, value_str,
len_value_str, (pRegEntry->VarSize - 1));
goto done;
}
// copy string plus NUL
memcpy(pField, value_str, (len_value_str + 1));
break;
case WLAN_PARAM_MacAddr:
len_value_str = strlen(value_str);
if (len_value_str != (VOS_MAC_ADDR_SIZE * 2))
{
// out of range
hddLog(LOGE,
"%s: invalid command, MAC address [%s] length "
"%zu is not expected length %u",
__func__, value_str,
len_value_str, (VOS_MAC_ADDR_SIZE * 2));
goto done;
}
//parse the string and store it in the byte array
for (i = 0; i < VOS_MAC_ADDR_SIZE; i++)
{
((char*)pField)[i] = (char)
((parseHexDigit(value_str[(i * 2)]) * 16) +
parseHexDigit(value_str[(i * 2) + 1]));
}
break;
default:
goto done;
}
// if we get here, we had a successful modification
vstatus = VOS_STATUS_SUCCESS;
// config table has been modified, is there a notifier?
if (NULL != pRegEntry->pfnDynamicNotify)
{
(pRegEntry->pfnDynamicNotify)(pHddCtx, pRegEntry->NotifyId);
}
// note that this item was explicitly configured
if (idx < MAX_CFG_INI_ITEMS)
{
set_bit(idx, (void *)&pHddCtx->cfg_ini->bExplicitCfg);
}
done:
kfree(clone);
return vstatus;
}
VOS_STATUS hdd_execute_global_config_command(hdd_context_t *pHddCtx,
char *command)
{
return hdd_execute_config_command(g_registry_table,
ARRAY_SIZE(g_registry_table),
(v_U8_t *) pHddCtx->cfg_ini,
pHddCtx, command);
}
#ifdef WLAN_FEATURE_MBSSID
VOS_STATUS hdd_execute_sap_dyn_config_command(hdd_adapter_t *pAdapter,
char *command)
{
return hdd_execute_config_command(mbssid_sap_dyn_ini_reg_table,
ARRAY_SIZE(mbssid_sap_dyn_ini_reg_table),
(v_U8_t *) &pAdapter->sap_dyn_ini_cfg,
WLAN_HDD_GET_CTX(pAdapter), command);
}
#endif
/**---------------------------------------------------------------------------
\brief hdd_is_okc_mode_enabled() -
This function returns whether OKC mode is enabled or not
\param - pHddCtx - Pointer to the HDD Adapter.
\return - 1 for enabled, zero for disabled
--------------------------------------------------------------------------*/
tANI_BOOLEAN hdd_is_okc_mode_enabled(hdd_context_t *pHddCtx)
{
if (NULL == pHddCtx)
{
hddLog(VOS_TRACE_LEVEL_FATAL, "%s: pHddCtx is NULL", __func__);
return -EINVAL;
}
#ifdef FEATURE_WLAN_OKC
return pHddCtx->cfg_ini->isOkcIniFeatureEnabled;
#else
return eANI_BOOLEAN_FALSE;
#endif
}
/**
* hdd_update_nss() - configures the provided nss value to the driver
*
* @hdd_ctx: the pointer to hdd context
* @nss : the number of spatial streams to be updated
*
* Return: VOS_STATUS_SUCCESS if nss is correctly updated,
* otherwise VOS_STATUS_E_FAILURE would be returned
*/
VOS_STATUS hdd_update_nss(hdd_context_t *hdd_ctx, uint8_t nss)
{
hdd_config_t *hdd_config = hdd_ctx->cfg_ini;
uint32_t temp = 0;
uint32_t rx_supp_data_rate, tx_supp_data_rate;
uint8_t status = TRUE;
tSirMacHTCapabilityInfo *ht_cap_info;
uint8_t mcs_set[SIZE_OF_SUPPORTED_MCS_SET] = {0};
uint8_t mcs_set_temp[SIZE_OF_SUPPORTED_MCS_SET];
uint32_t val;
uint16_t val16;
uint8_t enable2x2;
if ((nss == 2) && (hdd_ctx->num_rf_chains != 2)) {
hddLog(LOGE, "No support for 2 spatial streams");
return VOS_STATUS_E_FAILURE;
}
enable2x2 = (nss == 1) ? 0 : 1;
if (hdd_config->enable2x2 == enable2x2) {
hddLog(LOGE, "NSS same as requested");
return VOS_STATUS_SUCCESS;
}
if (TRUE == sme_is_any_session_in_connected_state(hdd_ctx->hHal)) {
hddLog(LOGE, "Connected sessions present, Do not change NSS");
return VOS_STATUS_E_FAILURE;
}
hdd_config->enable2x2 = enable2x2;
if (!hdd_config->enable2x2) {
/* 1x1 */
rx_supp_data_rate = VHT_RX_HIGHEST_SUPPORTED_DATA_RATE_1_1;
tx_supp_data_rate = VHT_TX_HIGHEST_SUPPORTED_DATA_RATE_1_1;
} else {
/* 2x2 */
rx_supp_data_rate = VHT_RX_HIGHEST_SUPPORTED_DATA_RATE_2_2;
tx_supp_data_rate = VHT_TX_HIGHEST_SUPPORTED_DATA_RATE_2_2;
}
/* Update Rx Highest Long GI data Rate */
if (ccmCfgSetInt(hdd_ctx->hHal,
WNI_CFG_VHT_RX_HIGHEST_SUPPORTED_DATA_RATE,
rx_supp_data_rate, NULL,
eANI_BOOLEAN_FALSE) == eHAL_STATUS_FAILURE) {
status = FALSE;
hddLog(LOGE,
"Could not pass on WNI_CFG_VHT_RX_HIGHEST_SUPPORTED_DATA_RATE to CCM");
}
/* Update Tx Highest Long GI data Rate */
if (ccmCfgSetInt(hdd_ctx->hHal,
WNI_CFG_VHT_TX_HIGHEST_SUPPORTED_DATA_RATE,
tx_supp_data_rate, NULL,
eANI_BOOLEAN_FALSE) == eHAL_STATUS_FAILURE) {
status = FALSE;
hddLog(LOGE,
"Could not pass on HDD_VHT_RX_HIGHEST_SUPPORTED_DATA_RATE_1_1 to CCM");
}
ccmCfgGetInt(hdd_ctx->hHal, WNI_CFG_HT_CAP_INFO, &temp);
val16 = (uint16_t)temp;
ht_cap_info = (tSirMacHTCapabilityInfo *)&val16;
if (!(hdd_ctx->ht_tx_stbc_supported && hdd_config->enable2x2))
ht_cap_info->txSTBC = 0;
else
ht_cap_info->txSTBC = hdd_config->enableTxSTBC;
temp = val16;
if (ccmCfgSetInt(hdd_ctx->hHal, WNI_CFG_HT_CAP_INFO,
temp, NULL,
eANI_BOOLEAN_FALSE) == eHAL_STATUS_FAILURE) {
status = FALSE;
hddLog(LOGE, "Could not pass on WNI_CFG_HT_CAP_INFO to CCM");
}
ccmCfgGetInt(hdd_ctx->hHal, WNI_CFG_VHT_BASIC_MCS_SET, &temp);
temp = (temp & 0xFFFC) | hdd_config->vhtRxMCS;
if (hdd_config->enable2x2)
temp = (temp & 0xFFF3) | (hdd_config->vhtRxMCS2x2 << 2);
else
temp |= 0x000C;
if (ccmCfgSetInt(hdd_ctx->hHal, WNI_CFG_VHT_BASIC_MCS_SET,
temp, NULL,
eANI_BOOLEAN_FALSE) == eHAL_STATUS_FAILURE) {
status = FALSE;
hddLog(LOGE,
"Could not pass on WNI_CFG_VHT_BASIC_MCS_SET to CCM");
}
ccmCfgGetInt(hdd_ctx->hHal, WNI_CFG_VHT_RX_MCS_MAP, &temp);
temp = (temp & 0xFFFC) | hdd_config->vhtRxMCS;
if (hdd_config->enable2x2)
temp = (temp & 0xFFF3) | (hdd_config->vhtRxMCS2x2 << 2);
else
temp |= 0x000C;
if (ccmCfgSetInt(hdd_ctx->hHal, WNI_CFG_VHT_RX_MCS_MAP,
temp, NULL,
eANI_BOOLEAN_FALSE) == eHAL_STATUS_FAILURE) {
status = FALSE;
hddLog(LOGE, "Could not pass on WNI_CFG_VHT_RX_MCS_MAP to CCM");
}
ccmCfgGetInt(hdd_ctx->hHal, WNI_CFG_VHT_TX_MCS_MAP, &temp);
temp = (temp & 0xFFFC) | hdd_config->vhtTxMCS;
if (hdd_config->enable2x2)
temp = (temp & 0xFFF3) | (hdd_config->vhtTxMCS2x2 << 2);
else
temp |= 0x000C;
if (ccmCfgSetInt(hdd_ctx->hHal, WNI_CFG_VHT_TX_MCS_MAP,
temp, NULL,
eANI_BOOLEAN_FALSE) == eHAL_STATUS_FAILURE) {
status = FALSE;
hddLog(LOGE, "Could not pass on WNI_CFG_VHT_TX_MCS_MAP to CCM");
}
#define WLAN_HDD_RX_MCS_ALL_NSTREAM_RATES 0xff
val = SIZE_OF_SUPPORTED_MCS_SET;
ccmCfgGetStr(hdd_ctx->hHal, WNI_CFG_SUPPORTED_MCS_SET,
mcs_set_temp, &val);
mcs_set[0] = mcs_set_temp[0];
if (hdd_config->enable2x2)
for (val = 0; val < nss; val++)
mcs_set[val] = WLAN_HDD_RX_MCS_ALL_NSTREAM_RATES;
if (ccmCfgSetStr(hdd_ctx->hHal, WNI_CFG_SUPPORTED_MCS_SET,
mcs_set, SIZE_OF_SUPPORTED_MCS_SET, NULL,
eANI_BOOLEAN_FALSE) == eHAL_STATUS_FAILURE) {
status = FALSE;
hddLog(LOGE, "Could not pass on MCS SET to CCM");
}
#undef WLAN_HDD_RX_MCS_ALL_NSTREAM_RATES
if (eHAL_STATUS_SUCCESS != sme_update_nss(hdd_ctx->hHal, nss))
status = FALSE;
return (status == FALSE) ? VOS_STATUS_E_FAILURE : VOS_STATUS_SUCCESS;
}
/**
* hdd_set_btc_bt_wlan_interval() - set btc bt/wlan interval page to FW
* @hdd_ctx: the pointer to hdd context
*
* This function set btc bt/wlan interval page (p2p/sta/sap) to FW.
*
* Return: None
*/
void hdd_set_btc_bt_wlan_interval(hdd_context_t *hdd_ctx)
{
hdd_config_t *config = hdd_ctx->cfg_ini;
VOS_STATUS status = VOS_STATUS_SUCCESS;
/** Sanity check.
* If not set in ini file, these parameters will be zero.
* Otherwise hdd_apply_cfg_ini()
* will ensure the valuse to be in the range 20~200 (ms as unit).
* If no parameters sent to firmware,
* firmware will set relevant parameters to default value itself.
*/
if ((config->coex_page_p2p_bt_interval !=0) &&
(config->coex_page_p2p_wlan_interval !=0)) {
status = sme_set_btc_bt_wlan_interval_page_p2p(
config->coex_page_p2p_bt_interval,
config->coex_page_p2p_wlan_interval);
if (VOS_STATUS_SUCCESS != status)
hddLog(LOGE, "Fail to set coex page p2p bt interval parameters");
}
if ((config->coex_page_sta_bt_interval !=0) &&
(config->coex_page_sta_wlan_interval !=0)) {
status = sme_set_btc_bt_wlan_interval_page_sta(
config->coex_page_sta_bt_interval,
config->coex_page_sta_wlan_interval);
if (VOS_STATUS_SUCCESS != status)
hddLog(LOGE, "Fail to set coex page sta bt interval parameters");
}
if ((config->coex_page_sap_bt_interval !=0) &&
(config->coex_page_sap_wlan_interval !=0)) {
status = sme_set_btc_bt_wlan_interval_page_sap(
config->coex_page_sap_bt_interval,
config->coex_page_sap_wlan_interval);
if (VOS_STATUS_SUCCESS != status)
hddLog(LOGE, "Fail to set coex page sap bt interval parameters");
}
if ((config->coex_config_wlan_conn_val0 != 0) ||
(config->coex_config_wlan_conn_val1 != 0)) {
status = sme_set_btc_wlan_conn_params(
config->coex_config_wlan_conn_val0,
config->coex_config_wlan_conn_val1);
if (VOS_STATUS_SUCCESS != status)
hddLog(LOGE, "Fail to set coex wlan connection parameters");
}
if ((config->coex_page_p2p_sta_bt_interval !=0) &&
(config->coex_page_p2p_sta_wlan_interval !=0)) {
status = sme_set_btc_bt_wlan_interval_page_p2p_sta(
config->coex_page_p2p_sta_bt_interval,
config->coex_page_p2p_sta_wlan_interval);
if (VOS_STATUS_SUCCESS != status)
hddLog(LOGE, "Fail to set coex page p2p sta bt interval parameters");
}
if ((config->coex_inquiry_sta_bt_interval !=0) &&
(config->coex_inquiry_sta_wlan_interval !=0)) {
status = sme_set_btc_bt_wlan_interval_inquiry_sta(
config->coex_inquiry_sta_bt_interval,
config->coex_inquiry_sta_wlan_interval);
if (VOS_STATUS_SUCCESS != status)
hddLog(LOGE, "Fail to set coex inquiry sta bt interval parameters");
}
if ((config->coex_inquiry_sap_bt_interval !=0) &&
(config->coex_inquiry_sap_wlan_interval !=0)) {
status = sme_set_btc_bt_wlan_interval_inquiry_sap(
config->coex_inquiry_sap_bt_interval,
config->coex_inquiry_sap_wlan_interval);
if (VOS_STATUS_SUCCESS != status)
hddLog(LOGE, "Fail to set coex inquiry sap bt interval parameters");
}
if ((config->coex_inquiry_p2p_bt_interval !=0) &&
(config->coex_inquiry_p2p_wlan_interval !=0)) {
status = sme_set_btc_bt_wlan_interval_inquiry_p2p(
config->coex_inquiry_p2p_bt_interval,
config->coex_inquiry_p2p_wlan_interval);
if (VOS_STATUS_SUCCESS != status)
hddLog(LOGE, "Fail to set coex inquiry p2p bt interval parameters");
}
if ((config->coex_inquiry_p2p_sta_bt_interval !=0) &&
(config->coex_inquiry_p2p_sta_wlan_interval !=0)) {
status = sme_set_btc_bt_wlan_interval_inquiry_p2p_sta(
config->coex_inquiry_p2p_sta_bt_interval,
config->coex_inquiry_p2p_sta_wlan_interval);
if (VOS_STATUS_SUCCESS != status)
hddLog(LOGE, "Fail to set coex inquiry p2p sta bt interval parameters");
}
status = sme_set_btc_dynamic_bt_wlan_coex(
config->dynamic_wlan_bt_coex, config->antenna_isolation);
if (VOS_STATUS_SUCCESS != status)
hddLog(LOGE, "Fail to set enable bt wlan coex parameters");
status = sme_set_btc_wlan_coex_tx_power(config->coex_tx_power);
if (VOS_STATUS_SUCCESS != status)
hddLog(LOGE, "Fail to set coex tx power");
#ifdef FEATURE_COEX_PTA_CONFIG_ENABLE
status = sme_configure_pta_coex(config->coex_pta_config_enable,config->coex_pta_config_param);
if (VOS_STATUS_SUCCESS != status)
hddLog(LOGE, "Fail to set pta coex");
#endif
}
/**
* hdd_validate_prb_req_ie_bitmap - validates user input for ie bit map
* @hdd_ctx: the pointer to hdd context
*
* This function checks whether user have entered valid probe request
* ie bitmap and also verifies vendor ouis if vendor specific ie is set
*
* Return: status of verification
* 1 - valid input
* 0 - invalid input
*/
uint32_t hdd_validate_prb_req_ie_bitmap(hdd_context_t* pHddCtx)
{
if (!(pHddCtx->cfg_ini->probe_req_ie_bitmap_0 ||
pHddCtx->cfg_ini->probe_req_ie_bitmap_1 ||
pHddCtx->cfg_ini->probe_req_ie_bitmap_2 ||
pHddCtx->cfg_ini->probe_req_ie_bitmap_3 ||
pHddCtx->cfg_ini->probe_req_ie_bitmap_4 ||
pHddCtx->cfg_ini->probe_req_ie_bitmap_5 ||
pHddCtx->cfg_ini->probe_req_ie_bitmap_6 ||
pHddCtx->cfg_ini->probe_req_ie_bitmap_7))
return 0;
/**
* check whether vendor oui IE is set and OUIs are present, each OUI
* is eneterd in the form of string of 8 characters from ini, therefore,
* for atleast one OUI, minimum length is 8 and hence this string length
* is checked for minimum of 8
*/
if ((pHddCtx->cfg_ini->probe_req_ie_bitmap_6 &
VENDOR_SPECIFIC_IE_BITMAP) &&
(strlen(pHddCtx->cfg_ini->probe_req_ouis) < 8))
return 0;
/* check whether vendor oui IE is not set but OUIs are present */
if (!(pHddCtx->cfg_ini->probe_req_ie_bitmap_6 &
VENDOR_SPECIFIC_IE_BITMAP) &&
(strlen(pHddCtx->cfg_ini->probe_req_ouis) > 0))
return 0;
return 1;
}
/**
* probe_req_voui_convert_to_hex - converts str of 8 chars into two hex values
* @temp: string to be converted
* @voui: contains the type and subtype values
*
* This function converts the string length of 8 characters into two
* hexa-decimal values, oui_type and oui_subtype, where oui_type is the
* hexa decimal value converted from first 6 characters and oui_subtype is
* hexa decimal value converted from last 2 characters.
* strings which doesn't match with the specified pattern are ignored.
*
* Return: status of conversion
* 1 - if conversion is successful
* 0 - if conversion is failed
*/
static uint32_t hdd_probe_req_voui_convert_to_hex(uint8_t *temp,
struct vendor_oui *voui)
{
uint32_t hex_value[4];
uint32_t i = 0;
uint32_t indx = 0;
memset(hex_value, 0x00, sizeof(hex_value));
memset(voui, 0x00, sizeof(*voui));
/* convert string to hex */
for (i = 0; i < 8; i++) {
if (temp[i] >= '0' && temp[i] <= '9') {
hex_value[indx] = (temp[i] - '0') << 4;
} else if (temp[i] >= 'A' && temp[i] <= 'F') {
hex_value[indx] = (temp[i] - 'A') + 0xA;
hex_value[indx] = hex_value[indx] << 4;
} else {
/* invalid character in oui */
return 0;
}
if (temp[i + 1] >= '0' && temp[i + 1] <= '9') {
hex_value[indx] |= (temp[i + 1] - '0');
i = i + 1;
indx = indx + 1;
} else if (temp[i + 1] >= 'A' && temp[i + 1] <= 'F') {
hex_value[indx] |= ((temp[i + 1] - 'A') + 0xA);
i = i + 1;
indx = indx + 1;
} else {
/* invalid character in oui */
return 0;
}
}
voui->oui_type = (hex_value[0] | (hex_value[1] << 8) |
(hex_value[2] << 16));
voui->oui_subtype = hex_value[3];
hddLog(LOG1, FL("OUI_type = %x and OUI_subtype = %x"), voui->oui_type,
voui->oui_subtype);
return 1;
}
/**
* hdd_parse_probe_req_ouis - form ouis from ini gProbeReqOUIs
* @hdd_ctx: the pointer to hdd context
*
* This function parses the ini string gProbeReqOUIs which needs to in the
* following format:
* "<8 characters of [0-9] or [A-F]>space<8 characters from [0-9] etc.,"
* example: "AABBCCDD 1122EEFF"
* and the logic counts the number of OUIS and allocates the memory
* for every valid OUI and is stored in hdd_context_t
*
* Return: status of parsing
*/
VOS_STATUS hdd_parse_probe_req_ouis(hdd_context_t* pHddCtx)
{
struct vendor_oui voui[MAX_PROBE_REQ_OUIS];
uint8_t *str;
uint8_t temp[9];
uint32_t start = 0, end = 0;
uint32_t oui_indx = 0;
uint32_t i = 0;
pHddCtx->cfg_ini->probe_req_ouis[MAX_PRB_REQ_VENDOR_OUI_INI_LEN - 1] =
'\0';
if (!strlen(pHddCtx->cfg_ini->probe_req_ouis)) {
pHddCtx->no_of_probe_req_ouis = 0;
pHddCtx->probe_req_voui = NULL;
hddLog(LOG1, FL("NO OUIS to parse"));
return VOS_STATUS_SUCCESS;
}
str = (uint8_t *)(pHddCtx->cfg_ini->probe_req_ouis);
while(str[i] != '\0') {
if (str[i] == ' ') {
if ((end - start) != 8)
{
end = start = 0;
i++;
continue;
} else {
memcpy(temp, &str[i - 8], 8);
i++;
temp[8] = '\0';
if (hdd_probe_req_voui_convert_to_hex(temp,
&voui[oui_indx]) == 0) {
end = start = 0;
continue;
}
oui_indx++;
if (oui_indx >= MAX_PROBE_REQ_OUIS) {
hddLog(LOGE, "Max no.of OUIS supported "
"is 16. ignoring the rest");
break;
}
}
start = end = 0;
} else {
i++;
end++;
}
}
if ((end - start) == 8 && oui_indx < MAX_PROBE_REQ_OUIS) {
memcpy(temp, &str[i - 8], 8);
temp[8] = '\0';
if (hdd_probe_req_voui_convert_to_hex(temp,
&voui[oui_indx]) == 1)
oui_indx++;
}
if (!oui_indx)
return VOS_STATUS_SUCCESS;
pHddCtx->probe_req_voui = (struct vendor_oui *)vos_mem_malloc(oui_indx *
sizeof(struct vendor_oui));
if (pHddCtx->probe_req_voui == NULL) {
hddLog(LOGE,"Not Enough memory for OUI");
pHddCtx->no_of_probe_req_ouis = 0;
return VOS_STATUS_E_FAILURE;
}
vos_mem_zero(pHddCtx->probe_req_voui,
oui_indx * sizeof(struct vendor_oui));
pHddCtx->no_of_probe_req_ouis = oui_indx;
vos_mem_copy(pHddCtx->probe_req_voui, voui,
oui_indx * sizeof(struct vendor_oui));
return VOS_STATUS_SUCCESS;
}
/**
* hdd_free_probe_req_ouis - de-allocates the probe req ouis
* @hdd_ctx: the pointer to hdd context
*
* This function de-alloactes the probe req ouis which are
* allocated while parsing of ini string gProbeReqOUIs
*
* Return: None
*/
void hdd_free_probe_req_ouis(hdd_context_t* pHddCtx)
{
if (pHddCtx->probe_req_voui) {
vos_mem_free(pHddCtx->probe_req_voui);
pHddCtx->probe_req_voui = NULL;
}
pHddCtx->no_of_probe_req_ouis = 0;
}