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/******************************************************************************
*
* Copyright ( c ) 2007 - 2012 Realtek Corporation . All rights reserved .
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*
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* This program is free software ; you can redistribute it and / or modify it
* under the terms of version 2 of the GNU General Public License as
* published by the Free Software Foundation .
*
* This program is distributed in the hope that it will be useful , but WITHOUT
* ANY WARRANTY ; without even the implied warranty of MERCHANTABILITY or
* FITNESS FOR A PARTICULAR PURPOSE . See the GNU General Public License for
* more details .
*
* You should have received a copy of the GNU General Public License along with
* this program ; if not , write to the Free Software Foundation , Inc . ,
* 51 Franklin Street , Fifth Floor , Boston , MA 02110 , USA
*
*
* * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * */
# define _RTW_WLAN_UTIL_C_
# include <drv_types.h>
# if defined(CONFIG_WOWLAN) || defined(CONFIG_AP_WOWLAN)
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# include <linux/inetdevice.h>
# define ETH_TYPE_OFFSET 12
# define PROTOCOL_OFFSET 23
# define IP_OFFSET 30
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# endif
unsigned char ARTHEROS_OUI1 [ ] = { 0x00 , 0x03 , 0x7f } ;
unsigned char ARTHEROS_OUI2 [ ] = { 0x00 , 0x13 , 0x74 } ;
unsigned char BROADCOM_OUI1 [ ] = { 0x00 , 0x10 , 0x18 } ;
unsigned char BROADCOM_OUI2 [ ] = { 0x00 , 0x0a , 0xf7 } ;
unsigned char BROADCOM_OUI3 [ ] = { 0x00 , 0x05 , 0xb5 } ;
unsigned char CISCO_OUI [ ] = { 0x00 , 0x40 , 0x96 } ;
unsigned char MARVELL_OUI [ ] = { 0x00 , 0x50 , 0x43 } ;
unsigned char RALINK_OUI [ ] = { 0x00 , 0x0c , 0x43 } ;
unsigned char REALTEK_OUI [ ] = { 0x00 , 0xe0 , 0x4c } ;
unsigned char AIRGOCAP_OUI [ ] = { 0x00 , 0x0a , 0xf5 } ;
unsigned char REALTEK_96B_IE [ ] = { 0x00 , 0xe0 , 0x4c , 0x02 , 0x01 , 0x20 } ;
extern unsigned char RTW_WPA_OUI [ ] ;
extern unsigned char WPA_TKIP_CIPHER [ 4 ] ;
extern unsigned char RSN_TKIP_CIPHER [ 4 ] ;
# define R2T_PHY_DELAY (0)
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/* #define WAIT_FOR_BCN_TO_MIN (3000) */
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# define WAIT_FOR_BCN_TO_MIN (6000)
# define WAIT_FOR_BCN_TO_MAX (20000)
# define DISCONNECT_BY_CHK_BCN_FAIL_OBSERV_PERIOD_IN_MS 1000
# define DISCONNECT_BY_CHK_BCN_FAIL_THRESHOLD 3
static u8 rtw_basic_rate_cck [ 4 ] = {
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IEEE80211_CCK_RATE_1MB | IEEE80211_BASIC_RATE_MASK , IEEE80211_CCK_RATE_2MB | IEEE80211_BASIC_RATE_MASK ,
IEEE80211_CCK_RATE_5MB | IEEE80211_BASIC_RATE_MASK , IEEE80211_CCK_RATE_11MB | IEEE80211_BASIC_RATE_MASK
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} ;
static u8 rtw_basic_rate_ofdm [ 3 ] = {
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IEEE80211_OFDM_RATE_6MB | IEEE80211_BASIC_RATE_MASK , IEEE80211_OFDM_RATE_12MB | IEEE80211_BASIC_RATE_MASK ,
IEEE80211_OFDM_RATE_24MB | IEEE80211_BASIC_RATE_MASK
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} ;
static u8 rtw_basic_rate_mix [ 7 ] = {
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IEEE80211_CCK_RATE_1MB | IEEE80211_BASIC_RATE_MASK , IEEE80211_CCK_RATE_2MB | IEEE80211_BASIC_RATE_MASK ,
IEEE80211_CCK_RATE_5MB | IEEE80211_BASIC_RATE_MASK , IEEE80211_CCK_RATE_11MB | IEEE80211_BASIC_RATE_MASK ,
IEEE80211_OFDM_RATE_6MB | IEEE80211_BASIC_RATE_MASK , IEEE80211_OFDM_RATE_12MB | IEEE80211_BASIC_RATE_MASK ,
IEEE80211_OFDM_RATE_24MB | IEEE80211_BASIC_RATE_MASK
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} ;
int new_bcn_max = 3 ;
int cckrates_included ( unsigned char * rate , int ratelen )
{
int i ;
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for ( i = 0 ; i < ratelen ; i + + ) {
if ( ( ( ( rate [ i ] ) & 0x7f ) = = 2 ) | | ( ( ( rate [ i ] ) & 0x7f ) = = 4 ) | |
( ( ( rate [ i ] ) & 0x7f ) = = 11 ) | | ( ( ( rate [ i ] ) & 0x7f ) = = 22 ) )
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return _TRUE ;
}
return _FALSE ;
}
int cckratesonly_included ( unsigned char * rate , int ratelen )
{
int i ;
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for ( i = 0 ; i < ratelen ; i + + ) {
if ( ( ( ( rate [ i ] ) & 0x7f ) ! = 2 ) & & ( ( ( rate [ i ] ) & 0x7f ) ! = 4 ) & &
( ( ( rate [ i ] ) & 0x7f ) ! = 11 ) & & ( ( ( rate [ i ] ) & 0x7f ) ! = 22 ) )
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return _FALSE ;
}
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return _TRUE ;
}
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# ifdef CONFIG_GET_RAID_BY_DRV
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s8 rtw_get_tx_nss ( _adapter * adapter , struct sta_info * psta )
{
u8 rf_type = RF_1T1R , custom_rf_type , vht_mcs [ 2 ] ;
s8 nss = 1 ;
custom_rf_type = adapter - > registrypriv . rf_config ;
rtw_hal_get_hwreg ( adapter , HW_VAR_RF_TYPE , ( u8 * ) ( & rf_type ) ) ;
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if ( ! psta )
return nss ;
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/* rf_config is dependent on efuse or sw config */
if ( custom_rf_type ! = RF_MAX_TYPE )
rf_type = custom_rf_type ;
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# ifdef CONFIG_80211AC_VHT
if ( psta - > vhtpriv . vht_option ) {
u8 vht_mcs [ 2 ] ;
struct mlme_priv * pmlmepriv = & ( adapter - > mlmepriv ) ;
struct vht_priv * pvhtpriv_ap = & pmlmepriv - > vhtpriv ;
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_rtw_memcpy ( vht_mcs , psta - > vhtpriv . vht_mcs_map , 2 ) ;
/* doesn't support 5~8 SS so far */
vht_mcs [ 1 ] = 0xff ;
switch ( rf_type ) {
case RF_1T1R :
case RF_1T2R :
vht_mcs [ 0 ] | = 0xfc ;
break ;
case RF_2T2R :
case RF_2T4R :
case RF_2T2R_GREEN :
case RF_2T3R :
vht_mcs [ 0 ] | = 0xf0 ;
break ;
case RF_3T3R :
case RF_3T4R :
vht_mcs [ 0 ] | = 0xc0 ;
break ;
default :
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RTW_INFO ( " %s,%d, unknown rf type \n " , __func__ , __LINE__ ) ;
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break ;
}
nss = rtw_vht_mcsmap_to_nss ( vht_mcs ) ;
} else
# endif /* CONFIG_80211AC_VHT */
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if ( psta - > htpriv . ht_option ) {
u8 supp_mcs_set [ 4 ] ;
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_rtw_memcpy ( supp_mcs_set , psta - > htpriv . ht_cap . supp_mcs_set , 4 ) ;
switch ( rf_type ) {
case RF_1T1R :
case RF_1T2R :
supp_mcs_set [ 1 ] = supp_mcs_set [ 2 ] = supp_mcs_set [ 3 ] = 0 ;
break ;
case RF_2T2R :
case RF_2T4R :
case RF_2T2R_GREEN :
case RF_2T3R :
supp_mcs_set [ 2 ] = supp_mcs_set [ 3 ] = 0 ;
break ;
case RF_3T3R :
case RF_3T4R :
supp_mcs_set [ 3 ] = 0 ;
break ;
default :
RTW_INFO ( " %s,%d, unknown rf type \n " , __func__ , __LINE__ ) ;
break ;
}
nss = rtw_ht_mcsset_to_nss ( supp_mcs_set ) ;
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}
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RTW_INFO ( " %s: %d SS, rf_type=%d \n " , __func__ , nss , rf_type ) ;
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return nss ;
}
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u8 networktype_to_raid ( _adapter * adapter , struct sta_info * psta )
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{
unsigned char raid ;
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switch ( psta - > wireless_mode ) {
case WIRELESS_11B :
raid = RATR_INX_WIRELESS_B ;
break ;
case WIRELESS_11A :
case WIRELESS_11G :
raid = RATR_INX_WIRELESS_G ;
break ;
case WIRELESS_11BG :
raid = RATR_INX_WIRELESS_GB ;
break ;
case WIRELESS_11_24N :
case WIRELESS_11_5N :
raid = RATR_INX_WIRELESS_N ;
break ;
case WIRELESS_11A_5N :
case WIRELESS_11G_24N :
raid = RATR_INX_WIRELESS_NG ;
break ;
case WIRELESS_11BG_24N :
raid = RATR_INX_WIRELESS_NGB ;
break ;
default :
raid = RATR_INX_WIRELESS_GB ;
break ;
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}
return raid ;
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}
u8 networktype_to_raid_ex ( _adapter * adapter , struct sta_info * psta )
{
struct mlme_ext_priv * pmlmeext = & adapter - > mlmeextpriv ;
u8 raid = RATEID_IDX_BGN_40M_1SS , cur_rf_type , rf_type , custom_rf_type ;
s8 tx_nss ;
tx_nss = rtw_get_tx_nss ( adapter , psta ) ;
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switch ( psta - > wireless_mode ) {
case WIRELESS_11B :
raid = RATEID_IDX_B ;
break ;
case WIRELESS_11A :
case WIRELESS_11G :
raid = RATEID_IDX_G ;
break ;
case WIRELESS_11BG :
raid = RATEID_IDX_BG ;
break ;
case WIRELESS_11_24N :
case WIRELESS_11_5N :
case WIRELESS_11A_5N :
case WIRELESS_11G_24N :
if ( tx_nss = = 1 )
raid = RATEID_IDX_GN_N1SS ;
else if ( tx_nss = = 2 )
raid = RATEID_IDX_GN_N2SS ;
else if ( tx_nss = = 3 )
raid = RATEID_IDX_BGN_3SS ;
else
RTW_INFO ( " tx_nss error!(tx_nss=%d) \n " , tx_nss ) ;
break ;
case WIRELESS_11B_24N :
case WIRELESS_11BG_24N :
if ( psta - > bw_mode = = CHANNEL_WIDTH_20 ) {
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if ( tx_nss = = 1 )
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raid = RATEID_IDX_BGN_20M_1SS_BN ;
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else if ( tx_nss = = 2 )
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raid = RATEID_IDX_BGN_20M_2SS_BN ;
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else if ( tx_nss = = 3 )
raid = RATEID_IDX_BGN_3SS ;
else
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RTW_INFO ( " tx_nss error!(tx_nss=%d) \n " , tx_nss ) ;
} else {
if ( tx_nss = = 1 )
raid = RATEID_IDX_BGN_40M_1SS ;
else if ( tx_nss = = 2 )
raid = RATEID_IDX_BGN_40M_2SS ;
else if ( tx_nss = = 3 )
raid = RATEID_IDX_BGN_3SS ;
else
RTW_INFO ( " tx_nss error!(tx_nss=%d) \n " , tx_nss ) ;
}
break ;
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# ifdef CONFIG_80211AC_VHT
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case WIRELESS_11_5AC :
if ( tx_nss = = 1 )
raid = RATEID_IDX_VHT_1SS ;
else if ( tx_nss = = 2 )
raid = RATEID_IDX_VHT_2SS ;
else if ( tx_nss = = 3 )
raid = RATEID_IDX_VHT_3SS ;
else
RTW_INFO ( " tx_nss error!(tx_nss=%d) \n " , tx_nss ) ;
break ;
case WIRELESS_11_24AC :
if ( psta - > bw_mode > = CHANNEL_WIDTH_80 ) {
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if ( tx_nss = = 1 )
raid = RATEID_IDX_VHT_1SS ;
else if ( tx_nss = = 2 )
raid = RATEID_IDX_VHT_2SS ;
else if ( tx_nss = = 3 )
raid = RATEID_IDX_VHT_3SS ;
else
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RTW_INFO ( " tx_nss error!(tx_nss=%d) \n " , tx_nss ) ;
} else {
if ( tx_nss = = 1 )
raid = RATEID_IDX_MIX1 ;
else if ( tx_nss = = 2 )
raid = RATEID_IDX_MIX2 ;
else if ( tx_nss = = 3 )
raid = RATEID_IDX_VHT_3SS ;
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else
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RTW_INFO ( " tx_nss error!(tx_nss=%d) \n " , tx_nss ) ;
}
break ;
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# endif
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default :
RTW_INFO ( " unexpected wireless mode!(psta->wireless_mode=%x) \n " , psta - > wireless_mode ) ;
break ;
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}
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/* RTW_INFO("psta->wireless_mode=%x, tx_nss=%d\n", psta->wireless_mode, tx_nss); */
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return raid ;
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}
# endif
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u8 judge_network_type ( _adapter * padapter , unsigned char * rate , int ratelen )
{
u8 network_type = 0 ;
struct mlme_ext_priv * pmlmeext = & padapter - > mlmeextpriv ;
struct mlme_ext_info * pmlmeinfo = & ( pmlmeext - > mlmext_info ) ;
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if ( pmlmeext - > cur_channel > 14 ) {
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if ( pmlmeinfo - > VHT_enable )
network_type = WIRELESS_11AC ;
else if ( pmlmeinfo - > HT_enable )
network_type = WIRELESS_11_5N ;
network_type | = WIRELESS_11A ;
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} else {
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if ( pmlmeinfo - > HT_enable )
network_type = WIRELESS_11_24N ;
if ( ( cckratesonly_included ( rate , ratelen ) ) = = _TRUE )
network_type | = WIRELESS_11B ;
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else if ( ( cckrates_included ( rate , ratelen ) ) = = _TRUE )
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network_type | = WIRELESS_11BG ;
else
network_type | = WIRELESS_11G ;
}
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return network_type ;
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}
unsigned char ratetbl_val_2wifirate ( unsigned char rate ) ;
unsigned char ratetbl_val_2wifirate ( unsigned char rate )
{
unsigned char val = 0 ;
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switch ( rate & 0x7f ) {
case 0 :
val = IEEE80211_CCK_RATE_1MB ;
break ;
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case 1 :
val = IEEE80211_CCK_RATE_2MB ;
break ;
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case 2 :
val = IEEE80211_CCK_RATE_5MB ;
break ;
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case 3 :
val = IEEE80211_CCK_RATE_11MB ;
break ;
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case 4 :
val = IEEE80211_OFDM_RATE_6MB ;
break ;
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case 5 :
val = IEEE80211_OFDM_RATE_9MB ;
break ;
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case 6 :
val = IEEE80211_OFDM_RATE_12MB ;
break ;
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case 7 :
val = IEEE80211_OFDM_RATE_18MB ;
break ;
case 8 :
val = IEEE80211_OFDM_RATE_24MB ;
break ;
case 9 :
val = IEEE80211_OFDM_RATE_36MB ;
break ;
case 10 :
val = IEEE80211_OFDM_RATE_48MB ;
break ;
case 11 :
val = IEEE80211_OFDM_RATE_54MB ;
break ;
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}
return val ;
}
int is_basicrate ( _adapter * padapter , unsigned char rate ) ;
int is_basicrate ( _adapter * padapter , unsigned char rate )
{
int i ;
unsigned char val ;
struct mlme_ext_priv * pmlmeext = & padapter - > mlmeextpriv ;
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for ( i = 0 ; i < NumRates ; i + + ) {
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val = pmlmeext - > basicrate [ i ] ;
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if ( ( val ! = 0xff ) & & ( val ! = 0xfe ) ) {
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if ( rate = = ratetbl_val_2wifirate ( val ) )
return _TRUE ;
}
}
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return _FALSE ;
}
unsigned int ratetbl2rateset ( _adapter * padapter , unsigned char * rateset ) ;
unsigned int ratetbl2rateset ( _adapter * padapter , unsigned char * rateset )
{
int i ;
unsigned char rate ;
unsigned int len = 0 ;
struct mlme_ext_priv * pmlmeext = & padapter - > mlmeextpriv ;
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for ( i = 0 ; i < NumRates ; i + + ) {
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rate = pmlmeext - > datarate [ i ] ;
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if ( rtw_get_oper_ch ( padapter ) > 14 & & rate < _6M_RATE_ ) /*5G no support CCK rate*/
continue ;
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switch ( rate ) {
case 0xff :
return len ;
case 0xfe :
continue ;
default :
rate = ratetbl_val_2wifirate ( rate ) ;
if ( is_basicrate ( padapter , rate ) = = _TRUE )
rate | = IEEE80211_BASIC_RATE_MASK ;
rateset [ len ] = rate ;
len + + ;
break ;
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}
}
return len ;
}
void get_rate_set ( _adapter * padapter , unsigned char * pbssrate , int * bssrate_len )
{
unsigned char supportedrates [ NumRates ] ;
_rtw_memset ( supportedrates , 0 , NumRates ) ;
* bssrate_len = ratetbl2rateset ( padapter , supportedrates ) ;
_rtw_memcpy ( pbssrate , supportedrates , * bssrate_len ) ;
}
void set_mcs_rate_by_mask ( u8 * mcs_set , u32 mask )
{
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u8 mcs_rate_1r = ( u8 ) ( mask & 0xff ) ;
u8 mcs_rate_2r = ( u8 ) ( ( mask > > 8 ) & 0xff ) ;
u8 mcs_rate_3r = ( u8 ) ( ( mask > > 16 ) & 0xff ) ;
u8 mcs_rate_4r = ( u8 ) ( ( mask > > 24 ) & 0xff ) ;
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mcs_set [ 0 ] & = mcs_rate_1r ;
mcs_set [ 1 ] & = mcs_rate_2r ;
mcs_set [ 2 ] & = mcs_rate_3r ;
mcs_set [ 3 ] & = mcs_rate_4r ;
}
void UpdateBrateTbl (
IN PADAPTER Adapter ,
IN u8 * mBratesOS
)
{
u8 i ;
u8 rate ;
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/* 1M, 2M, 5.5M, 11M, 6M, 12M, 24M are mandatory. */
for ( i = 0 ; i < NDIS_802_11_LENGTH_RATES_EX ; i + + ) {
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rate = mBratesOS [ i ] & 0x7f ;
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switch ( rate ) {
case IEEE80211_CCK_RATE_1MB :
case IEEE80211_CCK_RATE_2MB :
case IEEE80211_CCK_RATE_5MB :
case IEEE80211_CCK_RATE_11MB :
case IEEE80211_OFDM_RATE_6MB :
case IEEE80211_OFDM_RATE_12MB :
case IEEE80211_OFDM_RATE_24MB :
mBratesOS [ i ] | = IEEE80211_BASIC_RATE_MASK ;
break ;
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}
}
}
void UpdateBrateTblForSoftAP ( u8 * bssrateset , u32 bssratelen )
{
u8 i ;
u8 rate ;
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for ( i = 0 ; i < bssratelen ; i + + ) {
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rate = bssrateset [ i ] & 0x7f ;
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switch ( rate ) {
case IEEE80211_CCK_RATE_1MB :
case IEEE80211_CCK_RATE_2MB :
case IEEE80211_CCK_RATE_5MB :
case IEEE80211_CCK_RATE_11MB :
bssrateset [ i ] | = IEEE80211_BASIC_RATE_MASK ;
break ;
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}
}
}
void Set_MSR ( _adapter * padapter , u8 type )
{
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rtw_hal_set_hwreg ( padapter , HW_VAR_MEDIA_STATUS , ( u8 * ) ( & type ) ) ;
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}
inline u8 rtw_get_oper_ch ( _adapter * adapter )
{
return adapter_to_dvobj ( adapter ) - > oper_channel ;
}
inline void rtw_set_oper_ch ( _adapter * adapter , u8 ch )
{
# ifdef DBG_CH_SWITCH
const int len = 128 ;
char msg [ 128 ] = { 0 } ;
int cnt = 0 ;
int i = 0 ;
# endif /* DBG_CH_SWITCH */
struct dvobj_priv * dvobj = adapter_to_dvobj ( adapter ) ;
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if ( dvobj - > oper_channel ! = ch ) {
dvobj - > on_oper_ch_time = rtw_get_current_time ( ) ;
# ifdef DBG_CH_SWITCH
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cnt + = snprintf ( msg + cnt , len - cnt , " switch to ch %3u " , ch ) ;
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for ( i = 0 ; i < dvobj - > iface_nums ; i + + ) {
_adapter * iface = dvobj - > padapters [ i ] ;
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cnt + = snprintf ( msg + cnt , len - cnt , " [ " ADPT_FMT " : " , ADPT_ARG ( iface ) ) ;
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if ( iface - > mlmeextpriv . cur_channel = = ch )
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cnt + = snprintf ( msg + cnt , len - cnt , " C " ) ;
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else
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cnt + = snprintf ( msg + cnt , len - cnt , " _ " ) ;
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if ( iface - > wdinfo . listen_channel = = ch & & ! rtw_p2p_chk_state ( & iface - > wdinfo , P2P_STATE_NONE ) )
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cnt + = snprintf ( msg + cnt , len - cnt , " L " ) ;
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else
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cnt + = snprintf ( msg + cnt , len - cnt , " _ " ) ;
cnt + = snprintf ( msg + cnt , len - cnt , " ] " ) ;
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}
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RTW_INFO ( FUNC_ADPT_FMT " %s \n " , FUNC_ADPT_ARG ( adapter ) , msg ) ;
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# endif /* DBG_CH_SWITCH */
}
dvobj - > oper_channel = ch ;
}
inline u8 rtw_get_oper_bw ( _adapter * adapter )
{
return adapter_to_dvobj ( adapter ) - > oper_bwmode ;
}
inline void rtw_set_oper_bw ( _adapter * adapter , u8 bw )
{
adapter_to_dvobj ( adapter ) - > oper_bwmode = bw ;
}
inline u8 rtw_get_oper_choffset ( _adapter * adapter )
{
return adapter_to_dvobj ( adapter ) - > oper_ch_offset ;
}
inline void rtw_set_oper_choffset ( _adapter * adapter , u8 offset )
{
adapter_to_dvobj ( adapter ) - > oper_ch_offset = offset ;
}
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u8 rtw_get_offset_by_chbw ( u8 ch , u8 bw , u8 * r_offset )
{
u8 valid = 1 ;
u8 offset = HAL_PRIME_CHNL_OFFSET_DONT_CARE ;
if ( bw = = CHANNEL_WIDTH_20 )
goto exit ;
if ( bw > = CHANNEL_WIDTH_80 & & ch < = 14 ) {
valid = 0 ;
goto exit ;
}
if ( ch > = 1 & & ch < = 4 )
offset = HAL_PRIME_CHNL_OFFSET_LOWER ;
else if ( ch > = 5 & & ch < = 9 ) {
if ( * r_offset = = HAL_PRIME_CHNL_OFFSET_LOWER | | * r_offset = = HAL_PRIME_CHNL_OFFSET_UPPER )
offset = * r_offset ; /* both lower and upper is valid, obey input value */
else
offset = HAL_PRIME_CHNL_OFFSET_UPPER ; /* default use upper */
} else if ( ch > = 10 & & ch < = 13 )
offset = HAL_PRIME_CHNL_OFFSET_UPPER ;
else if ( ch = = 14 ) {
valid = 0 ; /* ch14 doesn't support 40MHz bandwidth */
goto exit ;
} else if ( ch > = 36 & & ch < = 177 ) {
switch ( ch ) {
case 36 :
case 44 :
case 52 :
case 60 :
case 100 :
case 108 :
case 116 :
case 124 :
case 132 :
case 140 :
case 149 :
case 157 :
case 165 :
case 173 :
offset = HAL_PRIME_CHNL_OFFSET_LOWER ;
break ;
case 40 :
case 48 :
case 56 :
case 64 :
case 104 :
case 112 :
case 120 :
case 128 :
case 136 :
case 144 :
case 153 :
case 161 :
case 169 :
case 177 :
offset = HAL_PRIME_CHNL_OFFSET_UPPER ;
break ;
default :
valid = 0 ;
break ;
}
} else
valid = 0 ;
exit :
if ( valid & & r_offset )
* r_offset = offset ;
return valid ;
}
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u8 rtw_get_offset_by_ch ( u8 channel )
{
u8 offset = HAL_PRIME_CHNL_OFFSET_DONT_CARE ;
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if ( channel > = 1 & & channel < = 4 )
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offset = HAL_PRIME_CHNL_OFFSET_LOWER ;
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else if ( channel > = 5 & & channel < = 14 )
offset = HAL_PRIME_CHNL_OFFSET_UPPER ;
else {
switch ( channel ) {
case 36 :
case 44 :
case 52 :
case 60 :
case 100 :
case 108 :
case 116 :
case 124 :
case 132 :
case 149 :
case 157 :
offset = HAL_PRIME_CHNL_OFFSET_LOWER ;
break ;
case 40 :
case 48 :
case 56 :
case 64 :
case 104 :
case 112 :
case 120 :
case 128 :
case 136 :
case 153 :
case 161 :
offset = HAL_PRIME_CHNL_OFFSET_UPPER ;
break ;
default :
offset = HAL_PRIME_CHNL_OFFSET_DONT_CARE ;
break ;
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}
}
return offset ;
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}
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u8 rtw_get_center_ch ( u8 channel , u8 chnl_bw , u8 chnl_offset )
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{
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u8 center_ch = channel ;
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if ( chnl_bw = = CHANNEL_WIDTH_80 ) {
if ( channel = = 36 | | channel = = 40 | | channel = = 44 | | channel = = 48 )
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center_ch = 42 ;
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else if ( channel = = 52 | | channel = = 56 | | channel = = 60 | | channel = = 64 )
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center_ch = 58 ;
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else if ( channel = = 100 | | channel = = 104 | | channel = = 108 | | channel = = 112 )
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center_ch = 106 ;
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else if ( channel = = 116 | | channel = = 120 | | channel = = 124 | | channel = = 128 )
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center_ch = 122 ;
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else if ( channel = = 132 | | channel = = 136 | | channel = = 140 | | channel = = 144 )
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center_ch = 138 ;
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else if ( channel = = 149 | | channel = = 153 | | channel = = 157 | | channel = = 161 )
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center_ch = 155 ;
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else if ( channel = = 165 | | channel = = 169 | | channel = = 173 | | channel = = 177 )
center_ch = 171 ;
else if ( channel < = 14 )
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center_ch = 7 ;
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} else if ( chnl_bw = = CHANNEL_WIDTH_40 ) {
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if ( chnl_offset = = HAL_PRIME_CHNL_OFFSET_LOWER )
center_ch = channel + 2 ;
else
center_ch = channel - 2 ;
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} else if ( chnl_bw = = CHANNEL_WIDTH_20 )
center_ch = channel ;
else
rtw_warn_on ( 1 ) ;
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return center_ch ;
}
inline u32 rtw_get_on_oper_ch_time ( _adapter * adapter )
{
return adapter_to_dvobj ( adapter ) - > on_oper_ch_time ;
}
inline u32 rtw_get_on_cur_ch_time ( _adapter * adapter )
{
if ( adapter - > mlmeextpriv . cur_channel = = adapter_to_dvobj ( adapter ) - > oper_channel )
return adapter_to_dvobj ( adapter ) - > on_oper_ch_time ;
else
return 0 ;
}
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void set_channel_bwmode ( _adapter * padapter , unsigned char channel , unsigned char channel_offset , unsigned short bwmode )
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{
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u8 center_ch , chnl_offset80 = HAL_PRIME_CHNL_OFFSET_DONT_CARE ;
struct mlme_ext_priv * pmlmeext = & padapter - > mlmeextpriv ;
# if (defined(CONFIG_TDLS) && defined(CONFIG_TDLS_CH_SW)) || defined(CONFIG_MCC_MODE)
u8 iqk_info_backup = _FALSE ;
# endif
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if ( padapter - > bNotifyChannelChange )
RTW_INFO ( " [%s] ch = %d, offset = %d, bwmode = %d \n " , __FUNCTION__ , channel , channel_offset , bwmode ) ;
center_ch = rtw_get_center_ch ( channel , bwmode , channel_offset ) ;
if ( bwmode = = CHANNEL_WIDTH_80 ) {
if ( center_ch > channel )
chnl_offset80 = HAL_PRIME_CHNL_OFFSET_LOWER ;
else if ( center_ch < channel )
chnl_offset80 = HAL_PRIME_CHNL_OFFSET_UPPER ;
else
chnl_offset80 = HAL_PRIME_CHNL_OFFSET_DONT_CARE ;
}
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_enter_critical_mutex ( & ( adapter_to_dvobj ( padapter ) - > setch_mutex ) , NULL ) ;
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# ifdef CONFIG_MCC_MODE
if ( MCC_EN ( padapter ) ) {
/* driver doesn't set channel setting reg under MCC */
if ( rtw_hal_check_mcc_status ( padapter , MCC_STATUS_DOING_MCC ) ) {
RTW_INFO ( " Warning: Do not set channel setting reg MCC mode \n " ) ;
rtw_warn_on ( 1 ) ;
}
}
# endif
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# ifdef CONFIG_DFS_MASTER
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{
struct rf_ctl_t * rfctl = adapter_to_rfctl ( padapter ) ;
bool ori_overlap_radar_detect_ch = rtw_rfctl_overlap_radar_detect_ch ( rfctl ) ;
bool new_overlap_radar_detect_ch = _rtw_rfctl_overlap_radar_detect_ch ( rfctl , channel , bwmode , channel_offset ) ;
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if ( new_overlap_radar_detect_ch )
rtw_odm_radar_detect_enable ( padapter ) ;
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if ( new_overlap_radar_detect_ch & & IS_CH_WAITING ( rfctl ) ) {
u8 pause = 0xFF ;
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rtw_hal_set_hwreg ( padapter , HW_VAR_TXPAUSE , & pause ) ;
}
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# endif /* CONFIG_DFS_MASTER */
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/* set Channel */
/* saved channel/bw info */
rtw_set_oper_ch ( padapter , channel ) ;
rtw_set_oper_bw ( padapter , bwmode ) ;
rtw_set_oper_choffset ( padapter , channel_offset ) ;
# if (defined(CONFIG_TDLS) && defined(CONFIG_TDLS_CH_SW)) || defined(CONFIG_MCC_MODE)
/* To check if we need to backup iqk info after switch chnl & bw */
{
u8 take_care_iqk , do_iqk ;
rtw_hal_get_hwreg ( padapter , HW_VAR_CH_SW_NEED_TO_TAKE_CARE_IQK_INFO , & take_care_iqk ) ;
rtw_hal_get_hwreg ( padapter , HW_VAR_DO_IQK , & do_iqk ) ;
if ( ( take_care_iqk = = _TRUE ) & & ( do_iqk = = _TRUE ) )
iqk_info_backup = _TRUE ;
}
# endif
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rtw_hal_set_chnl_bw ( padapter , center_ch , bwmode , channel_offset , chnl_offset80 ) ; /* set center channel */
# if (defined(CONFIG_TDLS) && defined(CONFIG_TDLS_CH_SW)) || defined(CONFIG_MCC_MODE)
if ( iqk_info_backup = = _TRUE )
rtw_hal_ch_sw_iqk_info_backup ( padapter ) ;
# endif
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# ifdef CONFIG_DFS_MASTER
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if ( ori_overlap_radar_detect_ch & & ! new_overlap_radar_detect_ch ) {
u8 pause = 0x00 ;
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rtw_odm_radar_detect_disable ( padapter ) ;
rtw_hal_set_hwreg ( padapter , HW_VAR_TXPAUSE , & pause ) ;
}
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}
# endif /* CONFIG_DFS_MASTER */
_exit_critical_mutex ( & ( adapter_to_dvobj ( padapter ) - > setch_mutex ) , NULL ) ;
}
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int get_bsstype ( unsigned short capability )
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{
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if ( capability & BIT ( 0 ) )
return WIFI_FW_AP_STATE ;
else if ( capability & BIT ( 1 ) )
return WIFI_FW_ADHOC_STATE ;
else
return 0 ;
}
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__inline u8 * get_my_bssid ( WLAN_BSSID_EX * pnetwork )
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{
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return pnetwork - > MacAddress ;
}
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u16 get_beacon_interval ( WLAN_BSSID_EX * bss )
{
unsigned short val ;
_rtw_memcpy ( ( unsigned char * ) & val , rtw_get_beacon_interval_from_ie ( bss - > IEs ) , 2 ) ;
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return le16_to_cpu ( val ) ;
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}
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int is_client_associated_to_ap ( _adapter * padapter )
{
struct mlme_ext_priv * pmlmeext ;
struct mlme_ext_info * pmlmeinfo ;
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if ( ! padapter )
return _FAIL ;
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pmlmeext = & padapter - > mlmeextpriv ;
pmlmeinfo = & ( pmlmeext - > mlmext_info ) ;
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if ( ( pmlmeinfo - > state & WIFI_FW_ASSOC_SUCCESS ) & & ( ( pmlmeinfo - > state & 0x03 ) = = WIFI_FW_STATION_STATE ) )
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return _TRUE ;
else
return _FAIL ;
}
int is_client_associated_to_ibss ( _adapter * padapter )
{
struct mlme_ext_priv * pmlmeext = & padapter - > mlmeextpriv ;
struct mlme_ext_info * pmlmeinfo = & ( pmlmeext - > mlmext_info ) ;
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if ( ( pmlmeinfo - > state & WIFI_FW_ASSOC_SUCCESS ) & & ( ( pmlmeinfo - > state & 0x03 ) = = WIFI_FW_ADHOC_STATE ) )
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return _TRUE ;
else
return _FAIL ;
}
int is_IBSS_empty ( _adapter * padapter )
{
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int i ;
struct macid_ctl_t * macid_ctl = & padapter - > dvobj - > macid_ctl ;
for ( i = 0 ; i < macid_ctl - > num ; i + + ) {
if ( ! rtw_macid_is_used ( macid_ctl , i ) )
continue ;
if ( rtw_macid_get_if_g ( macid_ctl , i ) ! = padapter - > iface_id )
continue ;
if ( ! GET_H2CCMD_MSRRPT_PARM_OPMODE ( & macid_ctl - > h2c_msr [ i ] ) )
continue ;
if ( GET_H2CCMD_MSRRPT_PARM_ROLE ( & macid_ctl - > h2c_msr [ i ] ) = = H2C_MSR_ROLE_ADHOC )
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return _FAIL ;
}
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return _TRUE ;
}
unsigned int decide_wait_for_beacon_timeout ( unsigned int bcn_interval )
{
if ( ( bcn_interval < < 2 ) < WAIT_FOR_BCN_TO_MIN )
return WAIT_FOR_BCN_TO_MIN ;
else if ( ( bcn_interval < < 2 ) > WAIT_FOR_BCN_TO_MAX )
return WAIT_FOR_BCN_TO_MAX ;
else
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return bcn_interval < < 2 ;
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}
void CAM_empty_entry (
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PADAPTER Adapter ,
u8 ucIndex
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)
{
rtw_hal_set_hwreg ( Adapter , HW_VAR_CAM_EMPTY_ENTRY , ( u8 * ) ( & ucIndex ) ) ;
}
void invalidate_cam_all ( _adapter * padapter )
{
struct dvobj_priv * dvobj = adapter_to_dvobj ( padapter ) ;
struct cam_ctl_t * cam_ctl = & dvobj - > cam_ctl ;
_irqL irqL ;
u8 val8 = 0 ;
rtw_hal_set_hwreg ( padapter , HW_VAR_CAM_INVALID_ALL , & val8 ) ;
_enter_critical_bh ( & cam_ctl - > lock , & irqL ) ;
rtw_sec_cam_map_clr_all ( & cam_ctl - > used ) ;
_rtw_memset ( dvobj - > cam_cache , 0 , sizeof ( struct sec_cam_ent ) * SEC_CAM_ENT_NUM_SW_LIMIT ) ;
_exit_critical_bh ( & cam_ctl - > lock , & irqL ) ;
}
void _clear_cam_entry ( _adapter * padapter , u8 entry )
{
unsigned char null_sta [ ] = { 0x00 , 0x00 , 0x00 , 0x00 , 0x00 , 0x00 } ;
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unsigned char null_key [ ] = { 0x00 , 0x00 , 0x00 , 0x00 , 0x00 , 0x00 , 0x00 , 0x00 , 0x00 , 0x00 , 0x00 , 0x00 , 0x00 , 0x00 , 0x00 , 0x00 } ;
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rtw_sec_write_cam_ent ( padapter , entry , 0 , null_sta , null_key ) ;
}
inline void write_cam ( _adapter * adapter , u8 id , u16 ctrl , u8 * mac , u8 * key )
{
# ifdef CONFIG_WRITE_CACHE_ONLY
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write_cam_cache ( adapter , id , ctrl , mac , key ) ;
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# else
rtw_sec_write_cam_ent ( adapter , id , ctrl , mac , key ) ;
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write_cam_cache ( adapter , id , ctrl , mac , key ) ;
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# endif
}
inline void clear_cam_entry ( _adapter * adapter , u8 id )
{
_clear_cam_entry ( adapter , id ) ;
clear_cam_cache ( adapter , id ) ;
}
inline void write_cam_from_cache ( _adapter * adapter , u8 id )
{
struct dvobj_priv * dvobj = adapter_to_dvobj ( adapter ) ;
struct cam_ctl_t * cam_ctl = & dvobj - > cam_ctl ;
_irqL irqL ;
struct sec_cam_ent cache ;
_enter_critical_bh ( & cam_ctl - > lock , & irqL ) ;
_rtw_memcpy ( & cache , & dvobj - > cam_cache [ id ] , sizeof ( struct sec_cam_ent ) ) ;
_exit_critical_bh ( & cam_ctl - > lock , & irqL ) ;
rtw_sec_write_cam_ent ( adapter , id , cache . ctrl , cache . mac , cache . key ) ;
}
void write_cam_cache ( _adapter * adapter , u8 id , u16 ctrl , u8 * mac , u8 * key )
{
struct dvobj_priv * dvobj = adapter_to_dvobj ( adapter ) ;
struct cam_ctl_t * cam_ctl = & dvobj - > cam_ctl ;
_irqL irqL ;
_enter_critical_bh ( & cam_ctl - > lock , & irqL ) ;
dvobj - > cam_cache [ id ] . ctrl = ctrl ;
_rtw_memcpy ( dvobj - > cam_cache [ id ] . mac , mac , ETH_ALEN ) ;
_rtw_memcpy ( dvobj - > cam_cache [ id ] . key , key , 16 ) ;
_exit_critical_bh ( & cam_ctl - > lock , & irqL ) ;
}
void clear_cam_cache ( _adapter * adapter , u8 id )
{
struct dvobj_priv * dvobj = adapter_to_dvobj ( adapter ) ;
struct cam_ctl_t * cam_ctl = & dvobj - > cam_ctl ;
_irqL irqL ;
_enter_critical_bh ( & cam_ctl - > lock , & irqL ) ;
_rtw_memset ( & ( dvobj - > cam_cache [ id ] ) , 0 , sizeof ( struct sec_cam_ent ) ) ;
_exit_critical_bh ( & cam_ctl - > lock , & irqL ) ;
}
inline bool _rtw_camctl_chk_cap ( _adapter * adapter , u8 cap )
{
struct dvobj_priv * dvobj = adapter_to_dvobj ( adapter ) ;
struct cam_ctl_t * cam_ctl = & dvobj - > cam_ctl ;
if ( cam_ctl - > sec_cap & cap )
return _TRUE ;
return _FALSE ;
}
inline void _rtw_camctl_set_flags ( _adapter * adapter , u32 flags )
{
struct dvobj_priv * dvobj = adapter_to_dvobj ( adapter ) ;
struct cam_ctl_t * cam_ctl = & dvobj - > cam_ctl ;
cam_ctl - > flags | = flags ;
}
inline void rtw_camctl_set_flags ( _adapter * adapter , u32 flags )
{
struct dvobj_priv * dvobj = adapter_to_dvobj ( adapter ) ;
struct cam_ctl_t * cam_ctl = & dvobj - > cam_ctl ;
_irqL irqL ;
_enter_critical_bh ( & cam_ctl - > lock , & irqL ) ;
_rtw_camctl_set_flags ( adapter , flags ) ;
_exit_critical_bh ( & cam_ctl - > lock , & irqL ) ;
}
inline void _rtw_camctl_clr_flags ( _adapter * adapter , u32 flags )
{
struct dvobj_priv * dvobj = adapter_to_dvobj ( adapter ) ;
struct cam_ctl_t * cam_ctl = & dvobj - > cam_ctl ;
cam_ctl - > flags & = ~ flags ;
}
inline void rtw_camctl_clr_flags ( _adapter * adapter , u32 flags )
{
struct dvobj_priv * dvobj = adapter_to_dvobj ( adapter ) ;
struct cam_ctl_t * cam_ctl = & dvobj - > cam_ctl ;
_irqL irqL ;
_enter_critical_bh ( & cam_ctl - > lock , & irqL ) ;
_rtw_camctl_clr_flags ( adapter , flags ) ;
_exit_critical_bh ( & cam_ctl - > lock , & irqL ) ;
}
inline bool _rtw_camctl_chk_flags ( _adapter * adapter , u32 flags )
{
struct dvobj_priv * dvobj = adapter_to_dvobj ( adapter ) ;
struct cam_ctl_t * cam_ctl = & dvobj - > cam_ctl ;
if ( cam_ctl - > flags & flags )
return _TRUE ;
return _FALSE ;
}
void dump_sec_cam_map ( void * sel , struct sec_cam_bmp * map , u8 max_num )
{
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RTW_PRINT_SEL ( sel , " 0x%08x \n " , map - > m0 ) ;
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# if (SEC_CAM_ENT_NUM_SW_LIMIT > 32)
if ( max_num & & max_num > 32 )
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RTW_PRINT_SEL ( sel , " 0x%08x \n " , map - > m1 ) ;
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# endif
# if (SEC_CAM_ENT_NUM_SW_LIMIT > 64)
if ( max_num & & max_num > 64 )
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RTW_PRINT_SEL ( sel , " 0x%08x \n " , map - > m2 ) ;
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# endif
# if (SEC_CAM_ENT_NUM_SW_LIMIT > 96)
if ( max_num & & max_num > 96 )
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RTW_PRINT_SEL ( sel , " 0x%08x \n " , map - > m3 ) ;
2016-03-27 17:56:02 +00:00
# endif
}
inline bool rtw_sec_camid_is_set ( struct sec_cam_bmp * map , u8 id )
{
if ( id < 32 )
2017-04-07 11:39:45 +00:00
return map - > m0 & BIT ( id ) ;
2016-03-27 17:56:02 +00:00
# if (SEC_CAM_ENT_NUM_SW_LIMIT > 32)
else if ( id < 64 )
2017-04-07 11:39:45 +00:00
return map - > m1 & BIT ( id - 32 ) ;
2016-03-27 17:56:02 +00:00
# endif
# if (SEC_CAM_ENT_NUM_SW_LIMIT > 64)
else if ( id < 96 )
2017-04-07 11:39:45 +00:00
return map - > m2 & BIT ( id - 64 ) ;
2016-03-27 17:56:02 +00:00
# endif
# if (SEC_CAM_ENT_NUM_SW_LIMIT > 96)
else if ( id < 128 )
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return map - > m3 & BIT ( id - 96 ) ;
2016-03-27 17:56:02 +00:00
# endif
else
rtw_warn_on ( 1 ) ;
return 0 ;
}
inline void rtw_sec_cam_map_set ( struct sec_cam_bmp * map , u8 id )
{
if ( id < 32 )
map - > m0 | = BIT ( id ) ;
# if (SEC_CAM_ENT_NUM_SW_LIMIT > 32)
else if ( id < 64 )
map - > m1 | = BIT ( id - 32 ) ;
# endif
# if (SEC_CAM_ENT_NUM_SW_LIMIT > 64)
else if ( id < 96 )
map - > m2 | = BIT ( id - 64 ) ;
# endif
# if (SEC_CAM_ENT_NUM_SW_LIMIT > 96)
else if ( id < 128 )
map - > m3 | = BIT ( id - 96 ) ;
# endif
else
rtw_warn_on ( 1 ) ;
}
inline void rtw_sec_cam_map_clr ( struct sec_cam_bmp * map , u8 id )
{
if ( id < 32 )
map - > m0 & = ~ BIT ( id ) ;
# if (SEC_CAM_ENT_NUM_SW_LIMIT > 32)
else if ( id < 64 )
2017-04-07 11:39:45 +00:00
map - > m1 & = ~ BIT ( id - 32 ) ;
2016-03-27 17:56:02 +00:00
# endif
# if (SEC_CAM_ENT_NUM_SW_LIMIT > 64)
else if ( id < 96 )
2017-04-07 11:39:45 +00:00
map - > m2 & = ~ BIT ( id - 64 ) ;
2016-03-27 17:56:02 +00:00
# endif
# if (SEC_CAM_ENT_NUM_SW_LIMIT > 96)
else if ( id < 128 )
2017-04-07 11:39:45 +00:00
map - > m3 & = ~ BIT ( id - 96 ) ;
2016-03-27 17:56:02 +00:00
# endif
else
rtw_warn_on ( 1 ) ;
}
inline void rtw_sec_cam_map_clr_all ( struct sec_cam_bmp * map )
{
map - > m0 = 0 ;
# if (SEC_CAM_ENT_NUM_SW_LIMIT > 32)
map - > m1 = 0 ;
# endif
# if (SEC_CAM_ENT_NUM_SW_LIMIT > 64)
map - > m2 = 0 ;
# endif
# if (SEC_CAM_ENT_NUM_SW_LIMIT > 96)
map - > m3 = 0 ;
# endif
}
inline bool rtw_sec_camid_is_drv_forbid ( struct cam_ctl_t * cam_ctl , u8 id )
{
struct sec_cam_bmp forbid_map ;
forbid_map . m0 = 0x00000ff0 ;
# if (SEC_CAM_ENT_NUM_SW_LIMIT > 32)
forbid_map . m1 = 0x00000000 ;
# endif
# if (SEC_CAM_ENT_NUM_SW_LIMIT > 64)
forbid_map . m2 = 0x00000000 ;
# endif
# if (SEC_CAM_ENT_NUM_SW_LIMIT > 96)
forbid_map . m3 = 0x00000000 ;
# endif
if ( id < 32 )
2017-04-07 11:39:45 +00:00
return forbid_map . m0 & BIT ( id ) ;
2016-03-27 17:56:02 +00:00
# if (SEC_CAM_ENT_NUM_SW_LIMIT > 32)
else if ( id < 64 )
2017-04-07 11:39:45 +00:00
return forbid_map . m1 & BIT ( id - 32 ) ;
2016-03-27 17:56:02 +00:00
# endif
# if (SEC_CAM_ENT_NUM_SW_LIMIT > 64)
else if ( id < 96 )
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return forbid_map . m2 & BIT ( id - 64 ) ;
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# endif
# if (SEC_CAM_ENT_NUM_SW_LIMIT > 96)
else if ( id < 128 )
2017-04-07 11:39:45 +00:00
return forbid_map . m3 & BIT ( id - 96 ) ;
2016-03-27 17:56:02 +00:00
# endif
else
rtw_warn_on ( 1 ) ;
return 1 ;
}
bool _rtw_sec_camid_is_used ( struct cam_ctl_t * cam_ctl , u8 id )
{
bool ret = _FALSE ;
if ( id > = cam_ctl - > num ) {
rtw_warn_on ( 1 ) ;
goto exit ;
}
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#if 0 /* for testing */
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if ( rtw_sec_camid_is_drv_forbid ( cam_ctl , id ) ) {
ret = _TRUE ;
goto exit ;
}
2017-04-07 11:39:45 +00:00
# endif
2016-03-27 17:56:02 +00:00
ret = rtw_sec_camid_is_set ( & cam_ctl - > used , id ) ;
exit :
return ret ;
}
inline bool rtw_sec_camid_is_used ( struct cam_ctl_t * cam_ctl , u8 id )
{
_irqL irqL ;
bool ret ;
_enter_critical_bh ( & cam_ctl - > lock , & irqL ) ;
ret = _rtw_sec_camid_is_used ( cam_ctl , id ) ;
_exit_critical_bh ( & cam_ctl - > lock , & irqL ) ;
return ret ;
}
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u8 rtw_get_sec_camid ( _adapter * adapter , u8 max_bk_key_num , u8 * sec_key_id )
{
struct dvobj_priv * dvobj = adapter_to_dvobj ( adapter ) ;
struct cam_ctl_t * cam_ctl = & dvobj - > cam_ctl ;
int i ;
_irqL irqL ;
u8 sec_cam_num = 0 ;
_enter_critical_bh ( & cam_ctl - > lock , & irqL ) ;
for ( i = 0 ; i < cam_ctl - > num ; i + + ) {
if ( _rtw_sec_camid_is_used ( cam_ctl , i ) ) {
sec_key_id [ sec_cam_num + + ] = i ;
if ( sec_cam_num = = max_bk_key_num )
break ;
}
}
_exit_critical_bh ( & cam_ctl - > lock , & irqL ) ;
return sec_cam_num ;
}
2016-03-27 17:56:02 +00:00
inline bool _rtw_camid_is_gk ( _adapter * adapter , u8 cam_id )
{
struct dvobj_priv * dvobj = adapter_to_dvobj ( adapter ) ;
struct cam_ctl_t * cam_ctl = & dvobj - > cam_ctl ;
bool ret = _FALSE ;
if ( cam_id > = cam_ctl - > num ) {
rtw_warn_on ( 1 ) ;
goto exit ;
}
if ( _rtw_sec_camid_is_used ( cam_ctl , cam_id ) = = _FALSE )
goto exit ;
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ret = ( dvobj - > cam_cache [ cam_id ] . ctrl & BIT6 ) ? _TRUE : _FALSE ;
2016-03-27 17:56:02 +00:00
exit :
return ret ;
}
inline bool rtw_camid_is_gk ( _adapter * adapter , u8 cam_id )
{
struct dvobj_priv * dvobj = adapter_to_dvobj ( adapter ) ;
struct cam_ctl_t * cam_ctl = & dvobj - > cam_ctl ;
_irqL irqL ;
bool ret ;
_enter_critical_bh ( & cam_ctl - > lock , & irqL ) ;
ret = _rtw_camid_is_gk ( adapter , cam_id ) ;
_exit_critical_bh ( & cam_ctl - > lock , & irqL ) ;
return ret ;
}
bool cam_cache_chk ( _adapter * adapter , u8 id , u8 * addr , s16 kid , s8 gk )
{
struct dvobj_priv * dvobj = adapter_to_dvobj ( adapter ) ;
bool ret = _FALSE ;
if ( addr & & _rtw_memcmp ( dvobj - > cam_cache [ id ] . mac , addr , ETH_ALEN ) = = _FALSE )
goto exit ;
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if ( kid > = 0 & & kid ! = ( dvobj - > cam_cache [ id ] . ctrl & 0x03 ) )
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goto exit ;
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if ( gk ! = - 1 & & ( gk ? _TRUE : _FALSE ) ! = _rtw_camid_is_gk ( adapter , id ) )
2016-03-27 17:56:02 +00:00
goto exit ;
ret = _TRUE ;
exit :
return ret ;
}
s16 _rtw_camid_search ( _adapter * adapter , u8 * addr , s16 kid , s8 gk )
{
struct dvobj_priv * dvobj = adapter_to_dvobj ( adapter ) ;
struct cam_ctl_t * cam_ctl = & dvobj - > cam_ctl ;
int i ;
s16 cam_id = - 1 ;
for ( i = 0 ; i < cam_ctl - > num ; i + + ) {
if ( cam_cache_chk ( adapter , i , addr , kid , gk ) ) {
cam_id = i ;
break ;
}
}
if ( 0 ) {
if ( addr )
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RTW_INFO ( FUNC_ADPT_FMT " addr: " MAC_FMT " kid:%d, gk:%d, return cam_id:%d \n "
2016-03-27 17:56:02 +00:00
, FUNC_ADPT_ARG ( adapter ) , MAC_ARG ( addr ) , kid , gk , cam_id ) ;
else
2017-04-07 11:39:45 +00:00
RTW_INFO ( FUNC_ADPT_FMT " addr:%p kid:%d, gk:%d, return cam_id:%d \n "
2016-03-27 17:56:02 +00:00
, FUNC_ADPT_ARG ( adapter ) , addr , kid , gk , cam_id ) ;
}
return cam_id ;
}
s16 rtw_camid_search ( _adapter * adapter , u8 * addr , s16 kid , s8 gk )
{
struct dvobj_priv * dvobj = adapter_to_dvobj ( adapter ) ;
struct cam_ctl_t * cam_ctl = & dvobj - > cam_ctl ;
_irqL irqL ;
s16 cam_id = - 1 ;
_enter_critical_bh ( & cam_ctl - > lock , & irqL ) ;
cam_id = _rtw_camid_search ( adapter , addr , kid , gk ) ;
_exit_critical_bh ( & cam_ctl - > lock , & irqL ) ;
return cam_id ;
}
2017-04-07 11:39:45 +00:00
s16 rtw_get_camid ( _adapter * adapter , struct sta_info * sta , u8 * addr , s16 kid )
{
struct dvobj_priv * dvobj = adapter_to_dvobj ( adapter ) ;
struct cam_ctl_t * cam_ctl = & dvobj - > cam_ctl ;
int i ;
#if 0 /* for testing */
static u8 start_id = 0 ;
# else
u8 start_id = 0 ;
# endif
s16 cam_id = - 1 ;
if ( addr = = NULL ) {
RTW_PRINT ( FUNC_ADPT_FMT " mac_address is NULL \n "
, FUNC_ADPT_ARG ( adapter ) ) ;
rtw_warn_on ( 1 ) ;
goto _exit ;
}
/* find cam entry which has the same addr, kid (, gk bit) */
if ( _rtw_camctl_chk_cap ( adapter , SEC_CAP_CHK_BMC ) = = _TRUE )
i = _rtw_camid_search ( adapter , addr , kid , sta ? _FALSE : _TRUE ) ;
else
i = _rtw_camid_search ( adapter , addr , kid , - 1 ) ;
if ( i > = 0 ) {
cam_id = i ;
goto _exit ;
}
for ( i = 0 ; i < cam_ctl - > num ; i + + ) {
/* bypass default key which is allocated statically */
# ifndef CONFIG_CONCURRENT_MODE
if ( ( ( i + start_id ) % cam_ctl - > num ) < 4 )
continue ;
# endif
if ( _rtw_sec_camid_is_used ( cam_ctl , ( ( i + start_id ) % cam_ctl - > num ) ) = = _FALSE )
break ;
}
if ( i = = cam_ctl - > num ) {
if ( sta )
RTW_PRINT ( FUNC_ADPT_FMT " pairwise key with " MAC_FMT " id:%u no room \n "
, FUNC_ADPT_ARG ( adapter ) , MAC_ARG ( addr ) , kid ) ;
else
RTW_PRINT ( FUNC_ADPT_FMT " group key with " MAC_FMT " id:%u no room \n "
, FUNC_ADPT_ARG ( adapter ) , MAC_ARG ( addr ) , kid ) ;
rtw_warn_on ( 1 ) ;
goto _exit ;
}
cam_id = ( ( i + start_id ) % cam_ctl - > num ) ;
start_id = ( ( i + start_id + 1 ) % cam_ctl - > num ) ;
_exit :
return cam_id ;
}
2016-03-27 17:56:02 +00:00
s16 rtw_camid_alloc ( _adapter * adapter , struct sta_info * sta , u8 kid , bool * used )
{
2017-04-07 11:39:45 +00:00
struct mlme_ext_info * mlmeinfo = & adapter - > mlmeextpriv . mlmext_info ;
2016-03-27 17:56:02 +00:00
struct dvobj_priv * dvobj = adapter_to_dvobj ( adapter ) ;
struct cam_ctl_t * cam_ctl = & dvobj - > cam_ctl ;
_irqL irqL ;
s16 cam_id = - 1 ;
* used = _FALSE ;
_enter_critical_bh ( & cam_ctl - > lock , & irqL ) ;
2017-04-07 11:39:45 +00:00
if ( ( ( ( mlmeinfo - > state & 0x03 ) = = WIFI_FW_AP_STATE ) | | ( ( mlmeinfo - > state & 0x03 ) = = WIFI_FW_ADHOC_STATE ) )
& & ! sta ) {
# ifndef CONFIG_CONCURRENT_MODE
/* AP/Ad-hoc mode group key static alloction to default key by key ID on Non-concurrent*/
if ( kid > 3 ) {
RTW_PRINT ( FUNC_ADPT_FMT " group key with invalid key id:%u \n "
, FUNC_ADPT_ARG ( adapter ) , kid ) ;
rtw_warn_on ( 1 ) ;
goto bitmap_handle ;
2016-03-27 17:56:02 +00:00
}
2017-04-07 11:39:45 +00:00
cam_id = kid ;
# else
u8 * addr = adapter_mac_addr ( adapter ) ;
2016-03-27 17:56:02 +00:00
2017-04-07 11:39:45 +00:00
cam_id = rtw_get_camid ( adapter , sta , addr , kid ) ;
if ( 1 )
RTW_PRINT ( FUNC_ADPT_FMT " group key with " MAC_FMT " assigned cam_id:%u \n "
, FUNC_ADPT_ARG ( adapter ) , MAC_ARG ( addr ) , cam_id ) ;
# endif
} else {
u8 * addr = sta ? sta - > hwaddr : NULL ;
2016-03-27 17:56:02 +00:00
2017-04-07 11:39:45 +00:00
if ( ! sta ) {
if ( ! ( mlmeinfo - > state & WIFI_FW_ASSOC_SUCCESS ) ) {
/* bypass STA mode group key setting before connected(ex:WEP) because bssid is not ready */
2016-03-27 17:56:02 +00:00
goto bitmap_handle ;
}
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addr = get_bssid ( & adapter - > mlmepriv ) ; /*A2*/
2016-03-27 17:56:02 +00:00
}
2017-04-07 11:39:45 +00:00
cam_id = rtw_get_camid ( adapter , sta , addr , kid ) ;
2016-03-27 17:56:02 +00:00
}
2017-04-07 11:39:45 +00:00
2016-03-27 17:56:02 +00:00
bitmap_handle :
if ( cam_id > = 0 ) {
* used = _rtw_sec_camid_is_used ( cam_ctl , cam_id ) ;
rtw_sec_cam_map_set ( & cam_ctl - > used , cam_id ) ;
}
_exit_critical_bh ( & cam_ctl - > lock , & irqL ) ;
return cam_id ;
}
2017-04-07 11:39:45 +00:00
void rtw_camid_set ( _adapter * adapter , u8 cam_id )
{
struct dvobj_priv * dvobj = adapter_to_dvobj ( adapter ) ;
struct cam_ctl_t * cam_ctl = & dvobj - > cam_ctl ;
_irqL irqL ;
_enter_critical_bh ( & cam_ctl - > lock , & irqL ) ;
if ( cam_id < cam_ctl - > num )
rtw_sec_cam_map_set ( & cam_ctl - > used , cam_id ) ;
_exit_critical_bh ( & cam_ctl - > lock , & irqL ) ;
}
2016-03-27 17:56:02 +00:00
void rtw_camid_free ( _adapter * adapter , u8 cam_id )
{
struct dvobj_priv * dvobj = adapter_to_dvobj ( adapter ) ;
struct cam_ctl_t * cam_ctl = & dvobj - > cam_ctl ;
_irqL irqL ;
_enter_critical_bh ( & cam_ctl - > lock , & irqL ) ;
if ( cam_id < cam_ctl - > num )
rtw_sec_cam_map_clr ( & cam_ctl - > used , cam_id ) ;
_exit_critical_bh ( & cam_ctl - > lock , & irqL ) ;
}
2017-04-07 11:39:45 +00:00
/*Must pause TX/RX before use this API*/
inline void rtw_sec_cam_swap ( _adapter * adapter , u8 cam_id_a , u8 cam_id_b )
2016-03-27 17:56:02 +00:00
{
2017-04-07 11:39:45 +00:00
struct dvobj_priv * dvobj = adapter_to_dvobj ( adapter ) ;
struct cam_ctl_t * cam_ctl = & dvobj - > cam_ctl ;
struct sec_cam_ent cache_a , cache_b ;
_irqL irqL ;
bool cam_a_used , cam_b_used ;
if ( 1 )
RTW_INFO ( ADPT_FMT " - sec_cam %d,%d swap \n " , ADPT_ARG ( adapter ) , cam_id_a , cam_id_b ) ;
if ( cam_id_a = = cam_id_b )
return ;
# ifdef CONFIG_CONCURRENT_MODE
rtw_mi_update_ap_bmc_camid ( adapter , cam_id_a , cam_id_b ) ;
# endif
/*setp-1. backup org cam_info*/
_enter_critical_bh ( & cam_ctl - > lock , & irqL ) ;
cam_a_used = _rtw_sec_camid_is_used ( cam_ctl , cam_id_a ) ;
cam_b_used = _rtw_sec_camid_is_used ( cam_ctl , cam_id_b ) ;
if ( cam_a_used )
_rtw_memcpy ( & cache_a , & dvobj - > cam_cache [ cam_id_a ] , sizeof ( struct sec_cam_ent ) ) ;
if ( cam_b_used )
_rtw_memcpy ( & cache_b , & dvobj - > cam_cache [ cam_id_b ] , sizeof ( struct sec_cam_ent ) ) ;
_exit_critical_bh ( & cam_ctl - > lock , & irqL ) ;
/*setp-2. clean cam_info*/
if ( cam_a_used ) {
rtw_camid_free ( adapter , cam_id_a ) ;
clear_cam_entry ( adapter , cam_id_a ) ;
}
if ( cam_b_used ) {
rtw_camid_free ( adapter , cam_id_b ) ;
clear_cam_entry ( adapter , cam_id_b ) ;
}
/*setp-3. set cam_info*/
if ( cam_a_used ) {
write_cam ( adapter , cam_id_b , cache_a . ctrl , cache_a . mac , cache_a . key ) ;
rtw_camid_set ( adapter , cam_id_b ) ;
}
if ( cam_b_used ) {
write_cam ( adapter , cam_id_a , cache_b . ctrl , cache_b . mac , cache_b . key ) ;
rtw_camid_set ( adapter , cam_id_a ) ;
}
}
s16 rtw_get_empty_cam_entry ( _adapter * adapter , u8 start_camid )
{
struct dvobj_priv * dvobj = adapter_to_dvobj ( adapter ) ;
struct cam_ctl_t * cam_ctl = & dvobj - > cam_ctl ;
_irqL irqL ;
int i ;
s16 cam_id = - 1 ;
_enter_critical_bh ( & cam_ctl - > lock , & irqL ) ;
for ( i = start_camid ; i < cam_ctl - > num ; i + + ) {
if ( _FALSE = = _rtw_sec_camid_is_used ( cam_ctl , i ) ) {
cam_id = i ;
2016-03-27 17:56:02 +00:00
break ;
}
}
2017-04-07 11:39:45 +00:00
_exit_critical_bh ( & cam_ctl - > lock , & irqL ) ;
return cam_id ;
}
void rtw_clean_dk_section ( _adapter * adapter )
{
struct dvobj_priv * dvobj = adapter_to_dvobj ( adapter ) ;
struct cam_ctl_t * cam_ctl = dvobj_to_sec_camctl ( dvobj ) ;
s16 ept_cam_id ;
int i ;
for ( i = 0 ; i < 4 ; i + + ) {
if ( rtw_sec_camid_is_used ( cam_ctl , i ) ) {
ept_cam_id = rtw_get_empty_cam_entry ( adapter , 4 ) ;
if ( ept_cam_id > 0 )
rtw_sec_cam_swap ( adapter , i , ept_cam_id ) ;
}
}
}
void rtw_clean_hw_dk_cam ( _adapter * adapter )
{
int i ;
for ( i = 0 ; i < 4 ; i + + )
rtw_sec_clr_cam_ent ( adapter , i ) ;
/*_clear_cam_entry(adapter, i);*/
2016-03-27 17:56:02 +00:00
}
void flush_all_cam_entry ( _adapter * padapter )
{
struct mlme_ext_priv * pmlmeext = & padapter - > mlmeextpriv ;
struct mlme_ext_info * pmlmeinfo = & ( pmlmeext - > mlmext_info ) ;
struct mlme_priv * pmlmepriv = & ( padapter - > mlmepriv ) ;
2017-04-07 11:39:45 +00:00
struct security_priv * psecpriv = & padapter - > securitypriv ;
2016-03-27 17:56:02 +00:00
# ifdef CONFIG_CONCURRENT_MODE
2017-04-07 11:39:45 +00:00
if ( check_fwstate ( pmlmepriv , WIFI_STATION_STATE ) ) {
struct sta_priv * pstapriv = & padapter - > stapriv ;
struct sta_info * psta ;
psta = rtw_get_stainfo ( pstapriv , pmlmeinfo - > network . MacAddress ) ;
if ( psta ) {
if ( psta - > state & WIFI_AP_STATE ) {
/*clear cam when ap free per sta_info*/
} else
rtw_clearstakey_cmd ( padapter , psta , _FALSE ) ;
2016-03-27 17:56:02 +00:00
}
2017-04-07 11:39:45 +00:00
} else if ( check_fwstate ( pmlmepriv , WIFI_AP_STATE ) = = _TRUE ) {
# if 1
int cam_id = - 1 ;
u8 * addr = adapter_mac_addr ( padapter ) ;
while ( ( cam_id = rtw_camid_search ( padapter , addr , - 1 , - 1 ) ) > = 0 ) {
RTW_PRINT ( " clear wep or group key for addr: " MAC_FMT " , camid:%d \n " , MAC_ARG ( addr ) , cam_id ) ;
clear_cam_entry ( padapter , cam_id ) ;
rtw_camid_free ( padapter , cam_id ) ;
}
# else
/* clear default key */
int i , cam_id ;
u8 null_addr [ ETH_ALEN ] = { 0 , 0 , 0 , 0 , 0 , 0 } ;
for ( i = 0 ; i < 4 ; i + + ) {
cam_id = rtw_camid_search ( padapter , null_addr , i , - 1 ) ;
if ( cam_id > = 0 ) {
clear_cam_entry ( padapter , cam_id ) ;
rtw_camid_free ( padapter , cam_id ) ;
2016-03-27 17:56:02 +00:00
}
}
/* clear default key related key search setting */
2017-04-07 11:39:45 +00:00
rtw_hal_set_hwreg ( padapter , HW_VAR_SEC_DK_CFG , ( u8 * ) _FALSE ) ;
# endif
2016-03-27 17:56:02 +00:00
}
2017-04-07 11:39:45 +00:00
# else /*NON CONFIG_CONCURRENT_MODE*/
invalidate_cam_all ( padapter ) ;
/* clear default key related key search setting */
rtw_hal_set_hwreg ( padapter , HW_VAR_SEC_DK_CFG , ( u8 * ) _FALSE ) ;
# endif
2016-03-27 17:56:02 +00:00
}
# if defined(CONFIG_P2P) && defined(CONFIG_WFD)
2017-04-07 11:39:45 +00:00
void rtw_process_wfd_ie ( _adapter * adapter , u8 * wfd_ie , u8 wfd_ielen , const char * tag )
2016-03-27 17:56:02 +00:00
{
2017-04-07 11:39:45 +00:00
struct wifidirect_info * wdinfo = & adapter - > wdinfo ;
2016-03-27 17:56:02 +00:00
2017-04-07 11:39:45 +00:00
u8 * attr_content ;
u32 attr_contentlen = 0 ;
2016-03-27 17:56:02 +00:00
2017-04-07 11:39:45 +00:00
if ( ! hal_chk_wl_func ( adapter , WL_FUNC_MIRACAST ) )
return ;
RTW_INFO ( " [%s] Found WFD IE \n " , tag ) ;
attr_content = rtw_get_wfd_attr_content ( wfd_ie , wfd_ielen , WFD_ATTR_DEVICE_INFO , NULL , & attr_contentlen ) ;
if ( attr_content & & attr_contentlen ) {
wdinfo - > wfd_info - > peer_rtsp_ctrlport = RTW_GET_BE16 ( attr_content + 2 ) ;
RTW_INFO ( " [%s] Peer PORT NUM = %d \n " , tag , wdinfo - > wfd_info - > peer_rtsp_ctrlport ) ;
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}
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}
void rtw_process_wfd_ies ( _adapter * adapter , u8 * ies , u8 ies_len , const char * tag )
{
u8 * wfd_ie ;
u32 wfd_ielen ;
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if ( ! hal_chk_wl_func ( adapter , WL_FUNC_MIRACAST ) )
return ;
wfd_ie = rtw_get_wfd_ie ( ies , ies_len , NULL , & wfd_ielen ) ;
while ( wfd_ie ) {
rtw_process_wfd_ie ( adapter , wfd_ie , wfd_ielen , tag ) ;
wfd_ie = rtw_get_wfd_ie ( wfd_ie + wfd_ielen , ( ies + ies_len ) - ( wfd_ie + wfd_ielen ) , NULL , & wfd_ielen ) ;
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}
}
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# endif /* defined(CONFIG_P2P) && defined(CONFIG_WFD) */
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int WMM_param_handler ( _adapter * padapter , PNDIS_802_11_VARIABLE_IEs pIE )
{
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/* struct registry_priv *pregpriv = &padapter->registrypriv; */
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struct mlme_priv * pmlmepriv = & ( padapter - > mlmepriv ) ;
struct mlme_ext_priv * pmlmeext = & padapter - > mlmeextpriv ;
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struct mlme_ext_info * pmlmeinfo = & ( pmlmeext - > mlmext_info ) ;
if ( pmlmepriv - > qospriv . qos_option = = 0 ) {
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pmlmeinfo - > WMM_enable = 0 ;
return _FALSE ;
}
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if ( _rtw_memcmp ( & ( pmlmeinfo - > WMM_param ) , ( pIE - > data + 6 ) , sizeof ( struct WMM_para_element ) ) )
return _FALSE ;
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else
_rtw_memcpy ( & ( pmlmeinfo - > WMM_param ) , ( pIE - > data + 6 ) , sizeof ( struct WMM_para_element ) ) ;
pmlmeinfo - > WMM_enable = 1 ;
return _TRUE ;
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#if 0
if ( pregpriv - > wifi_spec = = 1 ) {
if ( pmlmeinfo - > WMM_enable = = 1 ) {
/* todo: compare the parameter set count & decide wheher to update or not */
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return _FAIL ;
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} else {
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pmlmeinfo - > WMM_enable = 1 ;
_rtw_rtw_memcpy ( & ( pmlmeinfo - > WMM_param ) , ( pIE - > data + 6 ) , sizeof ( struct WMM_para_element ) ) ;
return _TRUE ;
}
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} else {
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pmlmeinfo - > WMM_enable = 0 ;
return _FAIL ;
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}
# endif
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}
void WMMOnAssocRsp ( _adapter * padapter )
{
u8 ACI , ACM , AIFS , ECWMin , ECWMax , aSifsTime ;
u8 acm_mask ;
u16 TXOP ;
u32 acParm , i ;
u32 edca [ 4 ] , inx [ 4 ] ;
struct mlme_ext_priv * pmlmeext = & padapter - > mlmeextpriv ;
struct mlme_ext_info * pmlmeinfo = & ( pmlmeext - > mlmext_info ) ;
struct xmit_priv * pxmitpriv = & padapter - > xmitpriv ;
struct registry_priv * pregpriv = & padapter - > registrypriv ;
acm_mask = 0 ;
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if ( IsSupported5G ( pmlmeext - > cur_wireless_mode ) | |
( pmlmeext - > cur_wireless_mode & WIRELESS_11_24N ) )
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aSifsTime = 16 ;
else
aSifsTime = 10 ;
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if ( pmlmeinfo - > WMM_enable = = 0 ) {
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padapter - > mlmepriv . acm_mask = 0 ;
AIFS = aSifsTime + ( 2 * pmlmeinfo - > slotTime ) ;
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if ( pmlmeext - > cur_wireless_mode & ( WIRELESS_11G | WIRELESS_11A ) ) {
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ECWMin = 4 ;
ECWMax = 10 ;
} else if ( pmlmeext - > cur_wireless_mode & WIRELESS_11B ) {
ECWMin = 5 ;
ECWMax = 10 ;
} else {
ECWMin = 4 ;
ECWMax = 10 ;
}
TXOP = 0 ;
acParm = AIFS | ( ECWMin < < 8 ) | ( ECWMax < < 12 ) | ( TXOP < < 16 ) ;
rtw_hal_set_hwreg ( padapter , HW_VAR_AC_PARAM_BE , ( u8 * ) ( & acParm ) ) ;
rtw_hal_set_hwreg ( padapter , HW_VAR_AC_PARAM_BK , ( u8 * ) ( & acParm ) ) ;
rtw_hal_set_hwreg ( padapter , HW_VAR_AC_PARAM_VI , ( u8 * ) ( & acParm ) ) ;
ECWMin = 2 ;
ECWMax = 3 ;
TXOP = 0x2f ;
acParm = AIFS | ( ECWMin < < 8 ) | ( ECWMax < < 12 ) | ( TXOP < < 16 ) ;
rtw_hal_set_hwreg ( padapter , HW_VAR_AC_PARAM_VO , ( u8 * ) ( & acParm ) ) ;
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} else {
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edca [ 0 ] = edca [ 1 ] = edca [ 2 ] = edca [ 3 ] = 0 ;
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for ( i = 0 ; i < 4 ; i + + ) {
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ACI = ( pmlmeinfo - > WMM_param . ac_param [ i ] . ACI_AIFSN > > 5 ) & 0x03 ;
ACM = ( pmlmeinfo - > WMM_param . ac_param [ i ] . ACI_AIFSN > > 4 ) & 0x01 ;
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/* AIFS = AIFSN * slot time + SIFS - r2t phy delay */
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AIFS = ( pmlmeinfo - > WMM_param . ac_param [ i ] . ACI_AIFSN & 0x0f ) * pmlmeinfo - > slotTime + aSifsTime ;
ECWMin = ( pmlmeinfo - > WMM_param . ac_param [ i ] . CW & 0x0f ) ;
ECWMax = ( pmlmeinfo - > WMM_param . ac_param [ i ] . CW & 0xf0 ) > > 4 ;
TXOP = le16_to_cpu ( pmlmeinfo - > WMM_param . ac_param [ i ] . TXOP_limit ) ;
acParm = AIFS | ( ECWMin < < 8 ) | ( ECWMax < < 12 ) | ( TXOP < < 16 ) ;
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switch ( ACI ) {
case 0x0 :
rtw_hal_set_hwreg ( padapter , HW_VAR_AC_PARAM_BE , ( u8 * ) ( & acParm ) ) ;
acm_mask | = ( ACM ? BIT ( 1 ) : 0 ) ;
edca [ XMIT_BE_QUEUE ] = acParm ;
break ;
case 0x1 :
rtw_hal_set_hwreg ( padapter , HW_VAR_AC_PARAM_BK , ( u8 * ) ( & acParm ) ) ;
/* acm_mask |= (ACM? BIT(0):0); */
edca [ XMIT_BK_QUEUE ] = acParm ;
break ;
case 0x2 :
rtw_hal_set_hwreg ( padapter , HW_VAR_AC_PARAM_VI , ( u8 * ) ( & acParm ) ) ;
acm_mask | = ( ACM ? BIT ( 2 ) : 0 ) ;
edca [ XMIT_VI_QUEUE ] = acParm ;
break ;
case 0x3 :
rtw_hal_set_hwreg ( padapter , HW_VAR_AC_PARAM_VO , ( u8 * ) ( & acParm ) ) ;
acm_mask | = ( ACM ? BIT ( 3 ) : 0 ) ;
edca [ XMIT_VO_QUEUE ] = acParm ;
break ;
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}
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RTW_INFO ( " WMM(%x): %x, %x \n " , ACI , ACM , acParm ) ;
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}
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if ( padapter - > registrypriv . acm_method = = 1 )
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rtw_hal_set_hwreg ( padapter , HW_VAR_ACM_CTRL , ( u8 * ) ( & acm_mask ) ) ;
else
padapter - > mlmepriv . acm_mask = acm_mask ;
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inx [ 0 ] = 0 ;
inx [ 1 ] = 1 ;
inx [ 2 ] = 2 ;
inx [ 3 ] = 3 ;
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if ( pregpriv - > wifi_spec = = 1 ) {
u32 j , tmp , change_inx = _FALSE ;
/* entry indx: 0->vo, 1->vi, 2->be, 3->bk. */
for ( i = 0 ; i < 4 ; i + + ) {
for ( j = i + 1 ; j < 4 ; j + + ) {
/* compare CW and AIFS */
if ( ( edca [ j ] & 0xFFFF ) < ( edca [ i ] & 0xFFFF ) )
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change_inx = _TRUE ;
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else if ( ( edca [ j ] & 0xFFFF ) = = ( edca [ i ] & 0xFFFF ) ) {
/* compare TXOP */
if ( ( edca [ j ] > > 16 ) > ( edca [ i ] > > 16 ) )
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change_inx = _TRUE ;
}
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if ( change_inx ) {
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tmp = edca [ i ] ;
edca [ i ] = edca [ j ] ;
edca [ j ] = tmp ;
tmp = inx [ i ] ;
inx [ i ] = inx [ j ] ;
inx [ j ] = tmp ;
change_inx = _FALSE ;
}
}
}
}
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for ( i = 0 ; i < 4 ; i + + ) {
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pxmitpriv - > wmm_para_seq [ i ] = inx [ i ] ;
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RTW_INFO ( " wmm_para_seq(%d): %d \n " , i , pxmitpriv - > wmm_para_seq [ i ] ) ;
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}
}
}
static void bwmode_update_check ( _adapter * padapter , PNDIS_802_11_VARIABLE_IEs pIE )
{
# ifdef CONFIG_80211N_HT
unsigned char new_bwmode ;
unsigned char new_ch_offset ;
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struct HT_info_element * pHT_info ;
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struct mlme_priv * pmlmepriv = & ( padapter - > mlmepriv ) ;
struct mlme_ext_priv * pmlmeext = & padapter - > mlmeextpriv ;
struct mlme_ext_info * pmlmeinfo = & ( pmlmeext - > mlmext_info ) ;
struct registry_priv * pregistrypriv = & padapter - > registrypriv ;
struct ht_priv * phtpriv = & pmlmepriv - > htpriv ;
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u8 cbw40_enable = 0 ;
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if ( ! pIE )
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return ;
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if ( phtpriv - > ht_option = = _FALSE )
return ;
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if ( pmlmeext - > cur_bwmode > = CHANNEL_WIDTH_80 )
return ;
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if ( pIE - > Length > sizeof ( struct HT_info_element ) )
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return ;
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pHT_info = ( struct HT_info_element * ) pIE - > data ;
if ( hal_chk_bw_cap ( padapter , BW_CAP_40M ) ) {
if ( pmlmeext - > cur_channel > 14 ) {
if ( REGSTY_IS_BW_5G_SUPPORT ( pregistrypriv , CHANNEL_WIDTH_40 ) )
cbw40_enable = 1 ;
} else {
if ( REGSTY_IS_BW_2G_SUPPORT ( pregistrypriv , CHANNEL_WIDTH_40 ) )
cbw40_enable = 1 ;
}
}
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if ( ( pHT_info - > infos [ 0 ] & BIT ( 2 ) ) & & cbw40_enable ) {
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new_bwmode = CHANNEL_WIDTH_40 ;
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switch ( pHT_info - > infos [ 0 ] & 0x3 ) {
case 1 :
new_ch_offset = HAL_PRIME_CHNL_OFFSET_LOWER ;
break ;
case 3 :
new_ch_offset = HAL_PRIME_CHNL_OFFSET_UPPER ;
break ;
default :
new_bwmode = CHANNEL_WIDTH_20 ;
new_ch_offset = HAL_PRIME_CHNL_OFFSET_DONT_CARE ;
break ;
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}
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} else {
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new_bwmode = CHANNEL_WIDTH_20 ;
new_ch_offset = HAL_PRIME_CHNL_OFFSET_DONT_CARE ;
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}
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if ( ( new_bwmode ! = pmlmeext - > cur_bwmode | | new_ch_offset ! = pmlmeext - > cur_ch_offset )
& & new_bwmode < pmlmeext - > cur_bwmode
) {
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pmlmeinfo - > bwmode_updated = _TRUE ;
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pmlmeext - > cur_bwmode = new_bwmode ;
pmlmeext - > cur_ch_offset = new_ch_offset ;
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/* update HT info also */
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HT_info_handler ( padapter , pIE ) ;
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} else
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pmlmeinfo - > bwmode_updated = _FALSE ;
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if ( _TRUE = = pmlmeinfo - > bwmode_updated ) {
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struct sta_info * psta ;
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WLAN_BSSID_EX * cur_network = & ( pmlmeinfo - > network ) ;
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struct sta_priv * pstapriv = & padapter - > stapriv ;
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/* set_channel_bwmode(padapter, pmlmeext->cur_channel, pmlmeext->cur_ch_offset, pmlmeext->cur_bwmode); */
/* update ap's stainfo */
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psta = rtw_get_stainfo ( pstapriv , cur_network - > MacAddress ) ;
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if ( psta ) {
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struct ht_priv * phtpriv_sta = & psta - > htpriv ;
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if ( phtpriv_sta - > ht_option ) {
/* bwmode */
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psta - > bw_mode = pmlmeext - > cur_bwmode ;
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phtpriv_sta - > ch_offset = pmlmeext - > cur_ch_offset ;
} else {
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psta - > bw_mode = CHANNEL_WIDTH_20 ;
phtpriv_sta - > ch_offset = HAL_PRIME_CHNL_OFFSET_DONT_CARE ;
}
rtw_dm_ra_mask_wk_cmd ( padapter , ( u8 * ) psta ) ;
}
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/* pmlmeinfo->bwmode_updated = _FALSE; */ /* bwmode_updated done, reset it! */
}
# endif /* CONFIG_80211N_HT */
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}
void HT_caps_handler ( _adapter * padapter , PNDIS_802_11_VARIABLE_IEs pIE )
{
# ifdef CONFIG_80211N_HT
unsigned int i ;
u8 rf_type = RF_1T1R ;
u8 max_AMPDU_len , min_MPDU_spacing ;
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u8 cur_ldpc_cap = 0 , cur_stbc_cap = 0 , cur_beamform_cap = 0 ;
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struct mlme_ext_priv * pmlmeext = & padapter - > mlmeextpriv ;
struct mlme_ext_info * pmlmeinfo = & ( pmlmeext - > mlmext_info ) ;
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struct mlme_priv * pmlmepriv = & padapter - > mlmepriv ;
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struct ht_priv * phtpriv = & pmlmepriv - > htpriv ;
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struct registry_priv * pregistrypriv = & padapter - > registrypriv ;
if ( pIE = = NULL )
return ;
if ( phtpriv - > ht_option = = _FALSE )
return ;
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pmlmeinfo - > HT_caps_enable = 1 ;
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for ( i = 0 ; i < ( pIE - > Length ) ; i + + ) {
if ( i ! = 2 ) {
/* Commented by Albert 2010/07/12 */
/* Got the endian issue here. */
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pmlmeinfo - > HT_caps . u . HT_cap [ i ] & = ( pIE - > data [ i ] ) ;
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} else {
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/* AMPDU Parameters field */
/* Get MIN of MAX AMPDU Length Exp */
if ( ( pmlmeinfo - > HT_caps . u . HT_cap_element . AMPDU_para & 0x3 ) > ( pIE - > data [ i ] & 0x3 ) )
max_AMPDU_len = ( pIE - > data [ i ] & 0x3 ) ;
else
max_AMPDU_len = ( pmlmeinfo - > HT_caps . u . HT_cap_element . AMPDU_para & 0x3 ) ;
/* Get MAX of MIN MPDU Start Spacing */
if ( ( pmlmeinfo - > HT_caps . u . HT_cap_element . AMPDU_para & 0x1c ) > ( pIE - > data [ i ] & 0x1c ) )
min_MPDU_spacing = ( pmlmeinfo - > HT_caps . u . HT_cap_element . AMPDU_para & 0x1c ) ;
else
min_MPDU_spacing = ( pIE - > data [ i ] & 0x1c ) ;
pmlmeinfo - > HT_caps . u . HT_cap_element . AMPDU_para = max_AMPDU_len | min_MPDU_spacing ;
}
}
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/* Commented by Albert 2010/07/12 */
/* Have to handle the endian issue after copying. */
/* HT_ext_caps didn't be used yet. */
pmlmeinfo - > HT_caps . u . HT_cap_element . HT_caps_info = le16_to_cpu ( pmlmeinfo - > HT_caps . u . HT_cap_element . HT_caps_info ) ;
pmlmeinfo - > HT_caps . u . HT_cap_element . HT_ext_caps = le16_to_cpu ( pmlmeinfo - > HT_caps . u . HT_cap_element . HT_ext_caps ) ;
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rtw_hal_get_hwreg ( padapter , HW_VAR_RF_TYPE , ( u8 * ) ( & rf_type ) ) ;
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/* update the MCS set */
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for ( i = 0 ; i < 16 ; i + + )
pmlmeinfo - > HT_caps . u . HT_cap_element . MCS_rate [ i ] & = pmlmeext - > default_supported_mcs_set [ i ] ;
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/* update the MCS rates */
switch ( rf_type ) {
case RF_1T1R :
case RF_1T2R :
set_mcs_rate_by_mask ( pmlmeinfo - > HT_caps . u . HT_cap_element . MCS_rate , MCS_RATE_1R ) ;
break ;
case RF_2T2R :
# ifdef CONFIG_DISABLE_MCS13TO15
if ( pmlmeext - > cur_bwmode = = CHANNEL_WIDTH_40 & & pregistrypriv - > wifi_spec ! = 1 )
set_mcs_rate_by_mask ( pmlmeinfo - > HT_caps . u . HT_cap_element . MCS_rate , MCS_RATE_2R_13TO15_OFF ) ;
else
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set_mcs_rate_by_mask ( pmlmeinfo - > HT_caps . u . HT_cap_element . MCS_rate , MCS_RATE_2R ) ;
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# else /* CONFIG_DISABLE_MCS13TO15 */
set_mcs_rate_by_mask ( pmlmeinfo - > HT_caps . u . HT_cap_element . MCS_rate , MCS_RATE_2R ) ;
# endif /* CONFIG_DISABLE_MCS13TO15 */
break ;
case RF_3T3R :
set_mcs_rate_by_mask ( pmlmeinfo - > HT_caps . u . HT_cap_element . MCS_rate , MCS_RATE_3R ) ;
break ;
default :
RTW_INFO ( " [warning] rf_type %d is not expected \n " , rf_type ) ;
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}
if ( check_fwstate ( pmlmepriv , WIFI_AP_STATE ) ) {
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/* Config STBC setting */
if ( TEST_FLAG ( phtpriv - > stbc_cap , STBC_HT_ENABLE_TX ) & & GET_HT_CAP_ELE_RX_STBC ( pIE - > data ) ) {
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SET_FLAG ( cur_stbc_cap , STBC_HT_ENABLE_TX ) ;
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RTW_INFO ( " Enable HT Tx STBC ! \n " ) ;
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}
phtpriv - > stbc_cap = cur_stbc_cap ;
# ifdef CONFIG_BEAMFORMING
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/* Config Tx beamforming setting */
if ( TEST_FLAG ( phtpriv - > beamform_cap , BEAMFORMING_HT_BEAMFORMER_ENABLE ) & &
GET_HT_CAP_TXBF_EXPLICIT_COMP_STEERING_CAP ( pIE - > data ) ) {
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SET_FLAG ( cur_beamform_cap , BEAMFORMING_HT_BEAMFORMER_ENABLE ) ;
/* Shift to BEAMFORMING_HT_BEAMFORMEE_CHNL_EST_CAP*/
SET_FLAG ( cur_beamform_cap , GET_HT_CAP_TXBF_CHNL_ESTIMATION_NUM_ANTENNAS ( pIE - > data ) < < 6 ) ;
}
if ( TEST_FLAG ( phtpriv - > beamform_cap , BEAMFORMING_HT_BEAMFORMEE_ENABLE ) & &
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GET_HT_CAP_TXBF_EXPLICIT_COMP_FEEDBACK_CAP ( pIE - > data ) ) {
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SET_FLAG ( cur_beamform_cap , BEAMFORMING_HT_BEAMFORMEE_ENABLE ) ;
/* Shift to BEAMFORMING_HT_BEAMFORMER_STEER_NUM*/
SET_FLAG ( cur_beamform_cap , GET_HT_CAP_TXBF_COMP_STEERING_NUM_ANTENNAS ( pIE - > data ) < < 4 ) ;
}
phtpriv - > beamform_cap = cur_beamform_cap ;
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if ( cur_beamform_cap )
RTW_INFO ( " AP HT Beamforming Cap = 0x%02X \n " , cur_beamform_cap ) ;
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# endif /*CONFIG_BEAMFORMING*/
} else {
/*WIFI_STATION_STATEorI_ADHOC_STATE or WIFI_ADHOC_MASTER_STATE*/
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/* Config LDPC Coding Capability */
if ( TEST_FLAG ( phtpriv - > ldpc_cap , LDPC_HT_ENABLE_TX ) & & GET_HT_CAP_ELE_LDPC_CAP ( pIE - > data ) ) {
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SET_FLAG ( cur_ldpc_cap , ( LDPC_HT_ENABLE_TX | LDPC_HT_CAP_TX ) ) ;
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RTW_INFO ( " Enable HT Tx LDPC! \n " ) ;
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}
phtpriv - > ldpc_cap = cur_ldpc_cap ;
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/* Config STBC setting */
if ( TEST_FLAG ( phtpriv - > stbc_cap , STBC_HT_ENABLE_TX ) & & GET_HT_CAP_ELE_RX_STBC ( pIE - > data ) ) {
SET_FLAG ( cur_stbc_cap , ( STBC_HT_ENABLE_TX | STBC_HT_CAP_TX ) ) ;
RTW_INFO ( " Enable HT Tx STBC! \n " ) ;
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}
phtpriv - > stbc_cap = cur_stbc_cap ;
# ifdef CONFIG_BEAMFORMING
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/* Config Tx beamforming setting */
if ( TEST_FLAG ( phtpriv - > beamform_cap , BEAMFORMING_HT_BEAMFORMEE_ENABLE ) & &
GET_HT_CAP_TXBF_EXPLICIT_COMP_STEERING_CAP ( pIE - > data ) ) {
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SET_FLAG ( cur_beamform_cap , BEAMFORMING_HT_BEAMFORMER_ENABLE ) ;
/* Shift to BEAMFORMING_HT_BEAMFORMEE_CHNL_EST_CAP*/
SET_FLAG ( cur_beamform_cap , GET_HT_CAP_TXBF_CHNL_ESTIMATION_NUM_ANTENNAS ( pIE - > data ) < < 6 ) ;
}
if ( TEST_FLAG ( phtpriv - > beamform_cap , BEAMFORMING_HT_BEAMFORMER_ENABLE ) & &
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GET_HT_CAP_TXBF_EXPLICIT_COMP_FEEDBACK_CAP ( pIE - > data ) ) {
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SET_FLAG ( cur_beamform_cap , BEAMFORMING_HT_BEAMFORMEE_ENABLE ) ;
/* Shift to BEAMFORMING_HT_BEAMFORMER_STEER_NUM*/
SET_FLAG ( cur_beamform_cap , GET_HT_CAP_TXBF_COMP_STEERING_NUM_ANTENNAS ( pIE - > data ) < < 4 ) ;
}
phtpriv - > beamform_cap = cur_beamform_cap ;
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if ( cur_beamform_cap )
RTW_INFO ( " Client HT Beamforming Cap = 0x%02X \n " , cur_beamform_cap ) ;
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# endif /*CONFIG_BEAMFORMING*/
}
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# endif /* CONFIG_80211N_HT */
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}
void HT_info_handler ( _adapter * padapter , PNDIS_802_11_VARIABLE_IEs pIE )
{
# ifdef CONFIG_80211N_HT
struct mlme_ext_priv * pmlmeext = & padapter - > mlmeextpriv ;
struct mlme_ext_info * pmlmeinfo = & ( pmlmeext - > mlmext_info ) ;
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struct mlme_priv * pmlmepriv = & padapter - > mlmepriv ;
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struct ht_priv * phtpriv = & pmlmepriv - > htpriv ;
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if ( pIE = = NULL )
return ;
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if ( phtpriv - > ht_option = = _FALSE )
return ;
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if ( pIE - > Length > sizeof ( struct HT_info_element ) )
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return ;
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pmlmeinfo - > HT_info_enable = 1 ;
_rtw_memcpy ( & ( pmlmeinfo - > HT_info ) , pIE - > data , pIE - > Length ) ;
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# endif /* CONFIG_80211N_HT */
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return ;
}
void HTOnAssocRsp ( _adapter * padapter )
{
unsigned char max_AMPDU_len ;
unsigned char min_MPDU_spacing ;
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/* struct registry_priv *pregpriv = &padapter->registrypriv; */
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struct mlme_ext_priv * pmlmeext = & padapter - > mlmeextpriv ;
struct mlme_ext_info * pmlmeinfo = & ( pmlmeext - > mlmext_info ) ;
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RTW_INFO ( " %s \n " , __FUNCTION__ ) ;
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if ( ( pmlmeinfo - > HT_info_enable ) & & ( pmlmeinfo - > HT_caps_enable ) )
pmlmeinfo - > HT_enable = 1 ;
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else {
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pmlmeinfo - > HT_enable = 0 ;
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/* set_channel_bwmode(padapter, pmlmeext->cur_channel, pmlmeext->cur_ch_offset, pmlmeext->cur_bwmode); */
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return ;
}
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/* handle A-MPDU parameter field */
/*
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AMPDU_para [ 1 : 0 ] : Max AMPDU Len = > 0 : 8 k , 1 : 16 k , 2 : 32 k , 3 : 64 k
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AMPDU_para [ 4 : 2 ] : Min MPDU Start Spacing
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*/
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max_AMPDU_len = pmlmeinfo - > HT_caps . u . HT_cap_element . AMPDU_para & 0x03 ;
min_MPDU_spacing = ( pmlmeinfo - > HT_caps . u . HT_cap_element . AMPDU_para & 0x1c ) > > 2 ;
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rtw_hal_set_hwreg ( padapter , HW_VAR_AMPDU_MIN_SPACE , ( u8 * ) ( & min_MPDU_spacing ) ) ;
rtw_hal_set_hwreg ( padapter , HW_VAR_AMPDU_FACTOR , ( u8 * ) ( & max_AMPDU_len ) ) ;
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#if 0 /* move to rtw_update_ht_cap() */
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if ( ( pregpriv - > bw_mode > 0 ) & &
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( pmlmeinfo - > HT_caps . u . HT_cap_element . HT_caps_info & BIT ( 1 ) ) & &
( pmlmeinfo - > HT_info . infos [ 0 ] & BIT ( 2 ) ) ) {
/* switch to the 40M Hz mode accoring to the AP */
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pmlmeext - > cur_bwmode = CHANNEL_WIDTH_40 ;
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switch ( ( pmlmeinfo - > HT_info . infos [ 0 ] & 0x3 ) ) {
case EXTCHNL_OFFSET_UPPER :
pmlmeext - > cur_ch_offset = HAL_PRIME_CHNL_OFFSET_LOWER ;
break ;
case EXTCHNL_OFFSET_LOWER :
pmlmeext - > cur_ch_offset = HAL_PRIME_CHNL_OFFSET_UPPER ;
break ;
default :
pmlmeext - > cur_ch_offset = HAL_PRIME_CHNL_OFFSET_DONT_CARE ;
break ;
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}
}
# endif
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/* set_channel_bwmode(padapter, pmlmeext->cur_channel, pmlmeext->cur_ch_offset, pmlmeext->cur_bwmode); */
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#if 0 /* move to rtw_update_ht_cap() */
/* */
/* Config SM Power Save setting */
/* */
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pmlmeinfo - > SM_PS = ( pmlmeinfo - > HT_caps . u . HT_cap_element . HT_caps_info & 0x0C ) > > 2 ;
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if ( pmlmeinfo - > SM_PS = = WLAN_HT_CAP_SM_PS_STATIC ) {
#if 0
u8 i ;
/* update the MCS rates */
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for ( i = 0 ; i < 16 ; i + + )
pmlmeinfo - > HT_caps . HT_cap_element . MCS_rate [ i ] & = MCS_rate_1R [ i ] ;
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# endif
RTW_INFO ( " %s(): WLAN_HT_CAP_SM_PS_STATIC \n " , __FUNCTION__ ) ;
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}
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/* */
/* Config current HT Protection mode. */
/* */
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pmlmeinfo - > HT_protection = pmlmeinfo - > HT_info . infos [ 1 ] & 0x3 ;
# endif
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}
void ERP_IE_handler ( _adapter * padapter , PNDIS_802_11_VARIABLE_IEs pIE )
{
struct mlme_ext_priv * pmlmeext = & padapter - > mlmeextpriv ;
struct mlme_ext_info * pmlmeinfo = & ( pmlmeext - > mlmext_info ) ;
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if ( pIE - > Length > 1 )
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return ;
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pmlmeinfo - > ERP_enable = 1 ;
_rtw_memcpy ( & ( pmlmeinfo - > ERP_IE ) , pIE - > data , pIE - > Length ) ;
}
void VCS_update ( _adapter * padapter , struct sta_info * psta )
{
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struct registry_priv * pregpriv = & padapter - > registrypriv ;
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struct mlme_priv * pmlmepriv = & padapter - > mlmepriv ;
struct mlme_ext_priv * pmlmeext = & padapter - > mlmeextpriv ;
struct mlme_ext_info * pmlmeinfo = & ( pmlmeext - > mlmext_info ) ;
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switch ( pregpriv - > vrtl_carrier_sense ) { /* 0:off 1:on 2:auto */
case 0 : /* off */
psta - > rtsen = 0 ;
psta - > cts2self = 0 ;
break ;
case 1 : /* on */
if ( pregpriv - > vcs_type = = 1 ) { /* 1:RTS/CTS 2:CTS to self */
psta - > rtsen = 1 ;
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psta - > cts2self = 0 ;
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} else {
psta - > rtsen = 0 ;
psta - > cts2self = 1 ;
}
break ;
case 2 : /* auto */
default :
if ( ( ( pmlmeinfo - > ERP_enable ) & & ( pmlmeinfo - > ERP_IE & BIT ( 1 ) ) )
/*||(pmlmepriv->ht_op_mode & HT_INFO_OPERATION_MODE_NON_GF_DEVS_PRESENT)*/
) {
if ( pregpriv - > vcs_type = = 1 ) {
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psta - > rtsen = 1 ;
psta - > cts2self = 0 ;
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} else {
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psta - > rtsen = 0 ;
psta - > cts2self = 1 ;
}
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} else {
psta - > rtsen = 0 ;
psta - > cts2self = 0 ;
}
break ;
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}
}
void update_ldpc_stbc_cap ( struct sta_info * psta )
{
# ifdef CONFIG_80211N_HT
# ifdef CONFIG_80211AC_VHT
if ( psta - > vhtpriv . vht_option ) {
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if ( TEST_FLAG ( psta - > vhtpriv . ldpc_cap , LDPC_VHT_ENABLE_TX ) )
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psta - > ldpc = 1 ;
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if ( TEST_FLAG ( psta - > vhtpriv . stbc_cap , STBC_VHT_ENABLE_TX ) )
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psta - > stbc = 1 ;
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} else
# endif /* CONFIG_80211AC_VHT */
if ( psta - > htpriv . ht_option ) {
if ( TEST_FLAG ( psta - > htpriv . ldpc_cap , LDPC_HT_ENABLE_TX ) )
psta - > ldpc = 1 ;
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if ( TEST_FLAG ( psta - > htpriv . stbc_cap , STBC_HT_ENABLE_TX ) )
psta - > stbc = 1 ;
} else {
psta - > ldpc = 0 ;
psta - > stbc = 0 ;
}
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# endif /* CONFIG_80211N_HT */
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}
/*
* rtw_get_bcn_keys : get beacon keys from recv frame
*
* TODO :
* WLAN_EID_COUNTRY
* WLAN_EID_ERP_INFO
* WLAN_EID_CHANNEL_SWITCH
* WLAN_EID_PWR_CONSTRAINT
*/
int rtw_get_bcn_keys ( ADAPTER * Adapter , u8 * pframe , u32 packet_len ,
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struct beacon_keys * recv_beacon )
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{
int left ;
u16 capability ;
unsigned char * pos ;
struct rtw_ieee802_11_elems elems ;
struct rtw_ieee80211_ht_cap * pht_cap = NULL ;
struct HT_info_element * pht_info = NULL ;
_rtw_memset ( recv_beacon , 0 , sizeof ( * recv_beacon ) ) ;
/* checking capabilities */
capability = le16_to_cpu ( * ( unsigned short * ) ( pframe + WLAN_HDR_A3_LEN + 10 ) ) ;
/* checking IEs */
left = packet_len - sizeof ( struct rtw_ieee80211_hdr_3addr ) - _BEACON_IE_OFFSET_ ;
pos = pframe + sizeof ( struct rtw_ieee80211_hdr_3addr ) + _BEACON_IE_OFFSET_ ;
if ( rtw_ieee802_11_parse_elems ( pos , left , & elems , 1 ) = = ParseFailed )
return _FALSE ;
/* check bw and channel offset */
if ( elems . ht_capabilities ) {
if ( elems . ht_capabilities_len ! = sizeof ( * pht_cap ) )
return _FALSE ;
pht_cap = ( struct rtw_ieee80211_ht_cap * ) elems . ht_capabilities ;
recv_beacon - > ht_cap_info = pht_cap - > cap_info ;
}
if ( elems . ht_operation ) {
if ( elems . ht_operation_len ! = sizeof ( * pht_info ) )
return _FALSE ;
pht_info = ( struct HT_info_element * ) elems . ht_operation ;
recv_beacon - > ht_info_infos_0_sco = pht_info - > infos [ 0 ] & 0x03 ;
}
/* Checking for channel */
if ( elems . ds_params & & elems . ds_params_len = = sizeof ( recv_beacon - > bcn_channel ) )
_rtw_memcpy ( & recv_beacon - > bcn_channel , elems . ds_params ,
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sizeof ( recv_beacon - > bcn_channel ) ) ;
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else if ( pht_info )
/* In 5G, some ap do not have DSSET IE checking HT info for channel */
recv_beacon - > bcn_channel = pht_info - > primary_channel ;
else {
/* we don't find channel IE, so don't check it */
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/* RTW_INFO("Oops: %s we don't find channel IE, so don't check it\n", __func__); */
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recv_beacon - > bcn_channel = Adapter - > mlmeextpriv . cur_channel ;
}
/* checking SSID */
if ( elems . ssid ) {
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if ( elems . ssid_len > sizeof ( recv_beacon - > ssid ) )
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return _FALSE ;
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_rtw_memcpy ( recv_beacon - > ssid , elems . ssid , elems . ssid_len ) ;
recv_beacon - > ssid_len = elems . ssid_len ;
} else
; /* means hidden ssid */
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/* checking RSN first */
if ( elems . rsn_ie & & elems . rsn_ie_len ) {
recv_beacon - > encryp_protocol = ENCRYP_PROTOCOL_WPA2 ;
rtw_parse_wpa2_ie ( elems . rsn_ie - 2 , elems . rsn_ie_len + 2 ,
& recv_beacon - > group_cipher , & recv_beacon - > pairwise_cipher ,
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& recv_beacon - > is_8021x ) ;
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}
/* checking WPA secon */
else if ( elems . wpa_ie & & elems . wpa_ie_len ) {
recv_beacon - > encryp_protocol = ENCRYP_PROTOCOL_WPA ;
rtw_parse_wpa_ie ( elems . wpa_ie - 2 , elems . wpa_ie_len + 2 ,
& recv_beacon - > group_cipher , & recv_beacon - > pairwise_cipher ,
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& recv_beacon - > is_8021x ) ;
} else if ( capability & BIT ( 4 ) )
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recv_beacon - > encryp_protocol = ENCRYP_PROTOCOL_WEP ;
return _TRUE ;
}
void rtw_dump_bcn_keys ( struct beacon_keys * recv_beacon )
{
int i ;
char * p ;
u8 ssid [ IW_ESSID_MAX_SIZE + 1 ] ;
_rtw_memcpy ( ssid , recv_beacon - > ssid , recv_beacon - > ssid_len ) ;
ssid [ recv_beacon - > ssid_len ] = ' \0 ' ;
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RTW_INFO ( " %s: ssid = %s \n " , __func__ , ssid ) ;
RTW_INFO ( " %s: channel = %x \n " , __func__ , recv_beacon - > bcn_channel ) ;
RTW_INFO ( " %s: ht_cap = %x \n " , __func__ , recv_beacon - > ht_cap_info ) ;
RTW_INFO ( " %s: ht_info_infos_0_sco = %x \n " , __func__ , recv_beacon - > ht_info_infos_0_sco ) ;
RTW_INFO ( " %s: sec=%d, group = %x, pair = %x, 8021X = %x \n " , __func__ ,
recv_beacon - > encryp_protocol , recv_beacon - > group_cipher ,
recv_beacon - > pairwise_cipher , recv_beacon - > is_8021x ) ;
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}
int rtw_check_bcn_info ( ADAPTER * Adapter , u8 * pframe , u32 packet_len )
{
#if 0
unsigned int len ;
unsigned char * p ;
unsigned short val16 , subtype ;
struct wlan_network * cur_network = & ( Adapter - > mlmepriv . cur_network ) ;
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/* u8 wpa_ie[255],rsn_ie[255]; */
u16 wpa_len = 0 , rsn_len = 0 ;
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u8 encryp_protocol = 0 ;
WLAN_BSSID_EX * bssid ;
int group_cipher = 0 , pairwise_cipher = 0 , is_8021x = 0 ;
unsigned char * pbuf ;
u32 wpa_ielen = 0 ;
u8 * pbssid = GetAddr3Ptr ( pframe ) ;
u32 hidden_ssid = 0 ;
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u8 cur_network_type , network_type = 0 ;
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struct HT_info_element * pht_info = NULL ;
struct rtw_ieee80211_ht_cap * pht_cap = NULL ;
u32 bcn_channel ;
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unsigned short ht_cap_info ;
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unsigned char ht_info_infos_0 ;
# endif
unsigned int len ;
u8 * pbssid = GetAddr3Ptr ( pframe ) ;
struct mlme_priv * pmlmepriv = & Adapter - > mlmepriv ;
struct wlan_network * cur_network = & ( Adapter - > mlmepriv . cur_network ) ;
struct beacon_keys recv_beacon ;
if ( is_client_associated_to_ap ( Adapter ) = = _FALSE )
return _TRUE ;
len = packet_len - sizeof ( struct rtw_ieee80211_hdr_3addr ) ;
if ( len > MAX_IE_SZ ) {
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RTW_INFO ( " %s IE too long for survey event \n " , __func__ ) ;
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return _FAIL ;
}
if ( _rtw_memcmp ( cur_network - > network . MacAddress , pbssid , 6 ) = = _FALSE ) {
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RTW_INFO ( " Oops: rtw_check_network_encrypt linked but recv other bssid bcn \n " MAC_FMT MAC_FMT ,
MAC_ARG ( pbssid ) , MAC_ARG ( cur_network - > network . MacAddress ) ) ;
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return _TRUE ;
}
if ( rtw_get_bcn_keys ( Adapter , pframe , packet_len , & recv_beacon ) = = _FALSE )
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return _TRUE ; /* parsing failed => broken IE */
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/* don't care hidden ssid, use current beacon ssid directly */
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if ( recv_beacon . ssid_len = = 0 ) {
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_rtw_memcpy ( recv_beacon . ssid , pmlmepriv - > cur_beacon_keys . ssid ,
pmlmepriv - > cur_beacon_keys . ssid_len ) ;
recv_beacon . ssid_len = pmlmepriv - > cur_beacon_keys . ssid_len ;
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}
if ( _rtw_memcmp ( & recv_beacon , & pmlmepriv - > cur_beacon_keys , sizeof ( recv_beacon ) ) = = _TRUE )
pmlmepriv - > new_beacon_cnts = 0 ;
else if ( ( pmlmepriv - > new_beacon_cnts = = 0 ) | |
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_rtw_memcmp ( & recv_beacon , & pmlmepriv - > new_beacon_keys , sizeof ( recv_beacon ) ) = = _FALSE ) {
RTW_ERR ( " %s: start new beacon (seq=%d) \n " , __func__ , GetSequence ( pframe ) ) ;
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if ( pmlmepriv - > new_beacon_cnts = = 0 ) {
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RTW_ERR ( " %s: cur beacon key \n " , __func__ ) ;
RTW_DBG_EXPR ( rtw_dump_bcn_keys ( & pmlmepriv - > cur_beacon_keys ) ) ;
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}
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RTW_ERR ( " %s: new beacon key \n " , __func__ ) ;
RTW_DBG_EXPR ( rtw_dump_bcn_keys ( & recv_beacon ) ) ;
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memcpy ( & pmlmepriv - > new_beacon_keys , & recv_beacon , sizeof ( recv_beacon ) ) ;
pmlmepriv - > new_beacon_cnts = 1 ;
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} else {
RTW_ERR ( " %s: new beacon again (seq=%d) \n " , __func__ , GetSequence ( pframe ) ) ;
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pmlmepriv - > new_beacon_cnts + + ;
}
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/* if counter >= max, it means beacon is changed really */
if ( pmlmepriv - > new_beacon_cnts > = new_bcn_max ) {
RTW_ERR ( " %s: new beacon occur!! \n " , __func__ ) ;
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/* check bw mode change only? */
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pmlmepriv - > cur_beacon_keys . ht_cap_info = recv_beacon . ht_cap_info ;
pmlmepriv - > cur_beacon_keys . ht_info_infos_0_sco = recv_beacon . ht_info_infos_0_sco ;
if ( _rtw_memcmp ( & recv_beacon , & pmlmepriv - > cur_beacon_keys ,
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sizeof ( recv_beacon ) ) = = _FALSE ) {
/* beacon is changed, have to do disconnect/connect */
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return _FAIL ;
}
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RTW_INFO ( " %s bw mode change \n " , __func__ ) ;
RTW_INFO ( " %s bcn now: ht_cap_info:%x ht_info_infos_0:%x \n " , __func__ ,
cur_network - > BcnInfo . ht_cap_info ,
cur_network - > BcnInfo . ht_info_infos_0 ) ;
2016-03-27 17:56:02 +00:00
cur_network - > BcnInfo . ht_cap_info = recv_beacon . ht_cap_info ;
cur_network - > BcnInfo . ht_info_infos_0 =
( cur_network - > BcnInfo . ht_info_infos_0 & ( ~ 0x03 ) ) |
recv_beacon . ht_info_infos_0_sco ;
2017-04-07 11:39:45 +00:00
RTW_INFO ( " %s bcn link: ht_cap_info:%x ht_info_infos_0:%x \n " , __func__ ,
cur_network - > BcnInfo . ht_cap_info ,
cur_network - > BcnInfo . ht_info_infos_0 ) ;
2016-03-27 17:56:02 +00:00
memcpy ( & pmlmepriv - > cur_beacon_keys , & recv_beacon , sizeof ( recv_beacon ) ) ;
pmlmepriv - > new_beacon_cnts = 0 ;
}
return _SUCCESS ;
#if 0
bssid = ( WLAN_BSSID_EX * ) rtw_zmalloc ( sizeof ( WLAN_BSSID_EX ) ) ;
if ( bssid = = NULL ) {
2017-04-07 11:39:45 +00:00
RTW_INFO ( " %s rtw_zmalloc fail !!! \n " , __func__ ) ;
2016-03-27 17:56:02 +00:00
return _TRUE ;
}
2017-04-07 11:39:45 +00:00
if ( ( pmlmepriv - > timeBcnInfoChkStart ! = 0 ) & & ( rtw_get_passing_time_ms ( pmlmepriv - > timeBcnInfoChkStart ) > DISCONNECT_BY_CHK_BCN_FAIL_OBSERV_PERIOD_IN_MS ) ) {
2016-03-27 17:56:02 +00:00
pmlmepriv - > timeBcnInfoChkStart = 0 ;
pmlmepriv - > NumOfBcnInfoChkFail = 0 ;
}
subtype = GetFrameSubType ( pframe ) > > 4 ;
2017-04-07 11:39:45 +00:00
if ( subtype = = WIFI_BEACON )
2016-03-27 17:56:02 +00:00
bssid - > Reserved [ 0 ] = 1 ;
bssid - > Length = sizeof ( WLAN_BSSID_EX ) - MAX_IE_SZ + len ;
/* below is to copy the information element */
bssid - > IELength = len ;
_rtw_memcpy ( bssid - > IEs , ( pframe + sizeof ( struct rtw_ieee80211_hdr_3addr ) ) , bssid - > IELength ) ;
/* check bw and channel offset */
/* parsing HT_CAP_IE */
p = rtw_get_ie ( bssid - > IEs + _FIXED_IE_LENGTH_ , _HT_CAPABILITY_IE_ , & len , bssid - > IELength - _FIXED_IE_LENGTH_ ) ;
2017-04-07 11:39:45 +00:00
if ( p & & len > 0 ) {
pht_cap = ( struct rtw_ieee80211_ht_cap * ) ( p + 2 ) ;
ht_cap_info = pht_cap - > cap_info ;
} else
ht_cap_info = 0 ;
2016-03-27 17:56:02 +00:00
/* parsing HT_INFO_IE */
p = rtw_get_ie ( bssid - > IEs + _FIXED_IE_LENGTH_ , _HT_ADD_INFO_IE_ , & len , bssid - > IELength - _FIXED_IE_LENGTH_ ) ;
2017-04-07 11:39:45 +00:00
if ( p & & len > 0 ) {
pht_info = ( struct HT_info_element * ) ( p + 2 ) ;
ht_info_infos_0 = pht_info - > infos [ 0 ] ;
} else
ht_info_infos_0 = 0 ;
2016-03-27 17:56:02 +00:00
if ( ht_cap_info ! = cur_network - > BcnInfo . ht_cap_info | |
2017-04-07 11:39:45 +00:00
( ( ht_info_infos_0 & 0x03 ) ! = ( cur_network - > BcnInfo . ht_info_infos_0 & 0x03 ) ) ) {
RTW_INFO ( " %s bcn now: ht_cap_info:%x ht_info_infos_0:%x \n " , __func__ ,
ht_cap_info , ht_info_infos_0 ) ;
RTW_INFO ( " %s bcn link: ht_cap_info:%x ht_info_infos_0:%x \n " , __func__ ,
cur_network - > BcnInfo . ht_cap_info , cur_network - > BcnInfo . ht_info_infos_0 ) ;
RTW_INFO ( " %s bw mode change \n " , __func__ ) ;
{
/* bcn_info_update */
cur_network - > BcnInfo . ht_cap_info = ht_cap_info ;
cur_network - > BcnInfo . ht_info_infos_0 = ht_info_infos_0 ;
/* to do : need to check that whether modify related register of BB or not */
}
/* goto _mismatch; */
2016-03-27 17:56:02 +00:00
}
/* Checking for channel */
p = rtw_get_ie ( bssid - > IEs + _FIXED_IE_LENGTH_ , _DSSET_IE_ , & len , bssid - > IELength - _FIXED_IE_LENGTH_ ) ;
2017-04-07 11:39:45 +00:00
if ( p )
bcn_channel = * ( p + 2 ) ;
else { /* In 5G, some ap do not have DSSET IE checking HT info for channel */
rtw_get_ie ( bssid - > IEs + _FIXED_IE_LENGTH_ , _HT_ADD_INFO_IE_ , & len , bssid - > IELength - _FIXED_IE_LENGTH_ ) ;
if ( pht_info )
bcn_channel = pht_info - > primary_channel ;
else { /* we don't find channel IE, so don't check it */
/* RTW_INFO("Oops: %s we don't find channel IE, so don't check it\n", __func__); */
bcn_channel = Adapter - > mlmeextpriv . cur_channel ;
}
2016-03-27 17:56:02 +00:00
}
if ( bcn_channel ! = Adapter - > mlmeextpriv . cur_channel ) {
2017-04-07 11:39:45 +00:00
RTW_INFO ( " %s beacon channel:%d cur channel:%d disconnect \n " , __func__ ,
bcn_channel , Adapter - > mlmeextpriv . cur_channel ) ;
goto _mismatch ;
2016-03-27 17:56:02 +00:00
}
/* checking SSID */
2017-04-07 11:39:45 +00:00
p = rtw_get_ie ( bssid - > IEs + _FIXED_IE_LENGTH_ , _SSID_IE_ , & len , bssid - > IELength - _FIXED_IE_LENGTH_ ) ;
if ( p = = NULL ) {
RTW_INFO ( " %s marc: cannot find SSID for survey event \n " , __func__ ) ;
2016-03-27 17:56:02 +00:00
hidden_ssid = _TRUE ;
2017-04-07 11:39:45 +00:00
} else
2016-03-27 17:56:02 +00:00
hidden_ssid = _FALSE ;
2017-04-07 11:39:45 +00:00
if ( ( NULL ! = p ) & & ( _FALSE = = hidden_ssid & & ( * ( p + 1 ) ) ) ) {
2016-03-27 17:56:02 +00:00
_rtw_memcpy ( bssid - > Ssid . Ssid , ( p + 2 ) , * ( p + 1 ) ) ;
bssid - > Ssid . SsidLength = * ( p + 1 ) ;
} else {
bssid - > Ssid . SsidLength = 0 ;
bssid - > Ssid . Ssid [ 0 ] = ' \0 ' ;
}
if ( _rtw_memcmp ( bssid - > Ssid . Ssid , cur_network - > network . Ssid . Ssid , 32 ) = = _FALSE | |
2017-04-07 11:39:45 +00:00
bssid - > Ssid . SsidLength ! = cur_network - > network . Ssid . SsidLength ) {
2016-03-27 17:56:02 +00:00
if ( bssid - > Ssid . Ssid [ 0 ] ! = ' \0 ' & & bssid - > Ssid . SsidLength ! = 0 ) { /* not hidden ssid */
2017-04-07 11:39:45 +00:00
RTW_INFO ( " %s(), SSID is not match \n " , __func__ ) ;
2016-03-27 17:56:02 +00:00
goto _mismatch ;
}
}
/* check encryption info */
val16 = rtw_get_capability ( ( WLAN_BSSID_EX * ) bssid ) ;
if ( val16 & BIT ( 4 ) )
bssid - > Privacy = 1 ;
else
bssid - > Privacy = 0 ;
if ( cur_network - > network . Privacy ! = bssid - > Privacy ) {
2017-04-07 11:39:45 +00:00
RTW_INFO ( " %s(), privacy is not match \n " , __func__ ) ;
2016-03-27 17:56:02 +00:00
goto _mismatch ;
}
2017-04-07 11:39:45 +00:00
rtw_get_sec_ie ( bssid - > IEs , bssid - > IELength , NULL , & rsn_len , NULL , & wpa_len ) ;
2016-03-27 17:56:02 +00:00
2017-04-07 11:39:45 +00:00
if ( rsn_len > 0 )
2016-03-27 17:56:02 +00:00
encryp_protocol = ENCRYP_PROTOCOL_WPA2 ;
2017-04-07 11:39:45 +00:00
else if ( wpa_len > 0 )
2016-03-27 17:56:02 +00:00
encryp_protocol = ENCRYP_PROTOCOL_WPA ;
2017-04-07 11:39:45 +00:00
else {
2016-03-27 17:56:02 +00:00
if ( bssid - > Privacy )
encryp_protocol = ENCRYP_PROTOCOL_WEP ;
}
if ( cur_network - > BcnInfo . encryp_protocol ! = encryp_protocol ) {
2017-04-07 11:39:45 +00:00
RTW_INFO ( " %s(): enctyp is not match \n " , __func__ ) ;
2016-03-27 17:56:02 +00:00
goto _mismatch ;
}
if ( encryp_protocol = = ENCRYP_PROTOCOL_WPA | | encryp_protocol = = ENCRYP_PROTOCOL_WPA2 ) {
2017-04-07 11:39:45 +00:00
pbuf = rtw_get_wpa_ie ( & bssid - > IEs [ 12 ] , & wpa_ielen , bssid - > IELength - 12 ) ;
if ( pbuf & & ( wpa_ielen > 0 ) ) {
rtw_parse_wpa_ie ( pbuf , wpa_ielen + 2 , & group_cipher , & pairwise_cipher , & is_8021x ) ;
2016-03-27 17:56:02 +00:00
} else {
2017-04-07 11:39:45 +00:00
pbuf = rtw_get_wpa2_ie ( & bssid - > IEs [ 12 ] , & wpa_ielen , bssid - > IELength - 12 ) ;
2016-03-27 17:56:02 +00:00
2017-04-07 11:39:45 +00:00
if ( pbuf & & ( wpa_ielen > 0 ) ) {
rtw_parse_wpa2_ie ( pbuf , wpa_ielen + 2 , & group_cipher , & pairwise_cipher , & is_8021x ) ;
2016-03-27 17:56:02 +00:00
}
}
if ( pairwise_cipher ! = cur_network - > BcnInfo . pairwise_cipher | | group_cipher ! = cur_network - > BcnInfo . group_cipher ) {
2017-04-07 11:39:45 +00:00
RTW_INFO ( " %s pairwise_cipher(%x:%x) or group_cipher(%x:%x) is not match \n " , __func__ ,
pairwise_cipher , cur_network - > BcnInfo . pairwise_cipher ,
group_cipher , cur_network - > BcnInfo . group_cipher ) ;
2016-03-27 17:56:02 +00:00
goto _mismatch ;
}
if ( is_8021x ! = cur_network - > BcnInfo . is_8021x ) {
2017-04-07 11:39:45 +00:00
RTW_INFO ( " %s authentication is not match \n " , __func__ ) ;
2016-03-27 17:56:02 +00:00
goto _mismatch ;
}
}
rtw_mfree ( ( u8 * ) bssid , sizeof ( WLAN_BSSID_EX ) ) ;
return _SUCCESS ;
_mismatch :
rtw_mfree ( ( u8 * ) bssid , sizeof ( WLAN_BSSID_EX ) ) ;
if ( pmlmepriv - > NumOfBcnInfoChkFail = = 0 )
pmlmepriv - > timeBcnInfoChkStart = rtw_get_current_time ( ) ;
pmlmepriv - > NumOfBcnInfoChkFail + + ;
2017-04-07 11:39:45 +00:00
RTW_INFO ( " %s by " ADPT_FMT " - NumOfChkFail = %d (SeqNum of this Beacon frame = %d). \n " , __func__ , ADPT_ARG ( Adapter ) , pmlmepriv - > NumOfBcnInfoChkFail , GetSequence ( pframe ) ) ;
2016-03-27 17:56:02 +00:00
2017-04-07 11:39:45 +00:00
if ( ( pmlmepriv - > timeBcnInfoChkStart ! = 0 ) & & ( rtw_get_passing_time_ms ( pmlmepriv - > timeBcnInfoChkStart ) < = DISCONNECT_BY_CHK_BCN_FAIL_OBSERV_PERIOD_IN_MS )
& & ( pmlmepriv - > NumOfBcnInfoChkFail > = DISCONNECT_BY_CHK_BCN_FAIL_THRESHOLD ) ) {
RTW_INFO ( " %s by " ADPT_FMT " - NumOfChkFail = %d >= threshold : %d (in %d ms), return FAIL. \n " , __func__ , ADPT_ARG ( Adapter ) , pmlmepriv - > NumOfBcnInfoChkFail ,
2016-03-27 17:56:02 +00:00
DISCONNECT_BY_CHK_BCN_FAIL_THRESHOLD , rtw_get_passing_time_ms ( pmlmepriv - > timeBcnInfoChkStart ) ) ;
pmlmepriv - > timeBcnInfoChkStart = 0 ;
pmlmepriv - > NumOfBcnInfoChkFail = 0 ;
return _FAIL ;
}
return _SUCCESS ;
# endif
}
void update_beacon_info ( _adapter * padapter , u8 * pframe , uint pkt_len , struct sta_info * psta )
{
unsigned int i ;
unsigned int len ;
PNDIS_802_11_VARIABLE_IEs pIE ;
2017-04-07 11:39:45 +00:00
2016-03-27 17:56:02 +00:00
# ifdef CONFIG_TDLS
struct tdls_info * ptdlsinfo = & padapter - > tdlsinfo ;
2017-04-07 11:39:45 +00:00
u8 tdls_prohibited [ ] = { 0x00 , 0x00 , 0x00 , 0x00 , 0x10 } ; /* bit(38): TDLS_prohibited */
# endif /* CONFIG_TDLS */
2016-03-27 17:56:02 +00:00
len = pkt_len - ( _BEACON_IE_OFFSET_ + WLAN_HDR_A3_LEN ) ;
2017-04-07 11:39:45 +00:00
for ( i = 0 ; i < len ; ) {
2016-03-27 17:56:02 +00:00
pIE = ( PNDIS_802_11_VARIABLE_IEs ) ( pframe + ( _BEACON_IE_OFFSET_ + WLAN_HDR_A3_LEN ) + i ) ;
2017-04-07 11:39:45 +00:00
switch ( pIE - > ElementID ) {
case _VENDOR_SPECIFIC_IE_ :
/* to update WMM paramter set while receiving beacon */
if ( _rtw_memcmp ( pIE - > data , WMM_PARA_OUI , 6 ) & & pIE - > Length = = WLAN_WMM_LEN ) /* WMM */
( WMM_param_handler ( padapter , pIE ) ) ? report_wmm_edca_update ( padapter ) : 0 ;
2016-03-27 17:56:02 +00:00
2017-04-07 11:39:45 +00:00
break ;
case _HT_EXTRA_INFO_IE_ : /* HT info */
/* HT_info_handler(padapter, pIE); */
bwmode_update_check ( padapter , pIE ) ;
break ;
2016-03-27 17:56:02 +00:00
# ifdef CONFIG_80211AC_VHT
2017-04-07 11:39:45 +00:00
case EID_OpModeNotification :
rtw_process_vht_op_mode_notify ( padapter , pIE - > data , psta ) ;
break ;
# endif /* CONFIG_80211AC_VHT */
case _ERPINFO_IE_ :
ERP_IE_handler ( padapter , pIE ) ;
VCS_update ( padapter , psta ) ;
break ;
2016-03-27 17:56:02 +00:00
# ifdef CONFIG_TDLS
2017-04-07 11:39:45 +00:00
case _EXT_CAP_IE_ :
if ( check_ap_tdls_prohibited ( pIE - > data , pIE - > Length ) = = _TRUE )
ptdlsinfo - > ap_prohibited = _TRUE ;
if ( check_ap_tdls_ch_switching_prohibited ( pIE - > data , pIE - > Length ) = = _TRUE )
ptdlsinfo - > ch_switch_prohibited = _TRUE ;
break ;
# endif /* CONFIG_TDLS */
default :
break ;
2016-03-27 17:56:02 +00:00
}
2017-04-07 11:39:45 +00:00
2016-03-27 17:56:02 +00:00
i + = ( pIE - > Length + 2 ) ;
}
}
# ifdef CONFIG_DFS
void process_csa_ie ( _adapter * padapter , u8 * pframe , uint pkt_len )
{
unsigned int i ;
unsigned int len ;
PNDIS_802_11_VARIABLE_IEs pIE ;
2017-04-07 11:39:45 +00:00
u8 new_ch_no = 0 ;
2016-03-27 17:56:02 +00:00
2017-04-07 11:39:45 +00:00
if ( padapter - > mlmepriv . handle_dfs = = _TRUE )
2016-03-27 17:56:02 +00:00
return ;
2017-04-07 11:39:45 +00:00
2016-03-27 17:56:02 +00:00
len = pkt_len - ( _BEACON_IE_OFFSET_ + WLAN_HDR_A3_LEN ) ;
2017-04-07 11:39:45 +00:00
for ( i = 0 ; i < len ; ) {
2016-03-27 17:56:02 +00:00
pIE = ( PNDIS_802_11_VARIABLE_IEs ) ( pframe + ( _BEACON_IE_OFFSET_ + WLAN_HDR_A3_LEN ) + i ) ;
2017-04-07 11:39:45 +00:00
switch ( pIE - > ElementID ) {
case _CH_SWTICH_ANNOUNCE_ :
padapter - > mlmepriv . handle_dfs = _TRUE ;
_rtw_memcpy ( & new_ch_no , pIE - > data + 1 , 1 ) ;
rtw_set_csa_cmd ( padapter , new_ch_no ) ;
break ;
default :
break ;
2016-03-27 17:56:02 +00:00
}
2017-04-07 11:39:45 +00:00
2016-03-27 17:56:02 +00:00
i + = ( pIE - > Length + 2 ) ;
}
}
2017-04-07 11:39:45 +00:00
# endif /* CONFIG_DFS */
2016-03-27 17:56:02 +00:00
unsigned int is_ap_in_tkip ( _adapter * padapter )
{
u32 i ;
PNDIS_802_11_VARIABLE_IEs pIE ;
struct mlme_ext_priv * pmlmeext = & padapter - > mlmeextpriv ;
struct mlme_ext_info * pmlmeinfo = & ( pmlmeext - > mlmext_info ) ;
2017-04-07 11:39:45 +00:00
WLAN_BSSID_EX * cur_network = & ( pmlmeinfo - > network ) ;
2016-03-27 17:56:02 +00:00
2017-04-07 11:39:45 +00:00
if ( rtw_get_capability ( ( WLAN_BSSID_EX * ) cur_network ) & WLAN_CAPABILITY_PRIVACY ) {
for ( i = sizeof ( NDIS_802_11_FIXED_IEs ) ; i < pmlmeinfo - > network . IELength ; ) {
2016-03-27 17:56:02 +00:00
pIE = ( PNDIS_802_11_VARIABLE_IEs ) ( pmlmeinfo - > network . IEs + i ) ;
2017-04-07 11:39:45 +00:00
switch ( pIE - > ElementID ) {
case _VENDOR_SPECIFIC_IE_ :
if ( ( _rtw_memcmp ( pIE - > data , RTW_WPA_OUI , 4 ) ) & & ( _rtw_memcmp ( ( pIE - > data + 12 ) , WPA_TKIP_CIPHER , 4 ) ) )
return _TRUE ;
break ;
case _RSN_IE_2_ :
if ( _rtw_memcmp ( ( pIE - > data + 8 ) , RSN_TKIP_CIPHER , 4 ) )
return _TRUE ;
default :
break ;
2016-03-27 17:56:02 +00:00
}
2017-04-07 11:39:45 +00:00
2016-03-27 17:56:02 +00:00
i + = ( pIE - > Length + 2 ) ;
}
2017-04-07 11:39:45 +00:00
2016-03-27 17:56:02 +00:00
return _FALSE ;
2017-04-07 11:39:45 +00:00
} else
2016-03-27 17:56:02 +00:00
return _FALSE ;
2017-04-07 11:39:45 +00:00
2016-03-27 17:56:02 +00:00
}
2017-04-07 11:39:45 +00:00
unsigned int should_forbid_n_rate ( _adapter * padapter )
2016-03-27 17:56:02 +00:00
{
u32 i ;
PNDIS_802_11_VARIABLE_IEs pIE ;
struct mlme_priv * pmlmepriv = & padapter - > mlmepriv ;
WLAN_BSSID_EX * cur_network = & pmlmepriv - > cur_network . network ;
2017-04-07 11:39:45 +00:00
if ( rtw_get_capability ( ( WLAN_BSSID_EX * ) cur_network ) & WLAN_CAPABILITY_PRIVACY ) {
for ( i = sizeof ( NDIS_802_11_FIXED_IEs ) ; i < cur_network - > IELength ; ) {
2016-03-27 17:56:02 +00:00
pIE = ( PNDIS_802_11_VARIABLE_IEs ) ( cur_network - > IEs + i ) ;
2017-04-07 11:39:45 +00:00
switch ( pIE - > ElementID ) {
case _VENDOR_SPECIFIC_IE_ :
if ( _rtw_memcmp ( pIE - > data , RTW_WPA_OUI , 4 ) & &
( ( _rtw_memcmp ( ( pIE - > data + 12 ) , WPA_CIPHER_SUITE_CCMP , 4 ) ) | |
( _rtw_memcmp ( ( pIE - > data + 16 ) , WPA_CIPHER_SUITE_CCMP , 4 ) ) ) )
return _FALSE ;
break ;
case _RSN_IE_2_ :
if ( ( _rtw_memcmp ( ( pIE - > data + 8 ) , RSN_CIPHER_SUITE_CCMP , 4 ) ) | |
( _rtw_memcmp ( ( pIE - > data + 12 ) , RSN_CIPHER_SUITE_CCMP , 4 ) ) )
return _FALSE ;
default :
break ;
2016-03-27 17:56:02 +00:00
}
i + = ( pIE - > Length + 2 ) ;
}
return _TRUE ;
2017-04-07 11:39:45 +00:00
} else
2016-03-27 17:56:02 +00:00
return _FALSE ;
}
unsigned int is_ap_in_wep ( _adapter * padapter )
{
u32 i ;
PNDIS_802_11_VARIABLE_IEs pIE ;
struct mlme_ext_priv * pmlmeext = & padapter - > mlmeextpriv ;
struct mlme_ext_info * pmlmeinfo = & ( pmlmeext - > mlmext_info ) ;
2017-04-07 11:39:45 +00:00
WLAN_BSSID_EX * cur_network = & ( pmlmeinfo - > network ) ;
2016-03-27 17:56:02 +00:00
2017-04-07 11:39:45 +00:00
if ( rtw_get_capability ( ( WLAN_BSSID_EX * ) cur_network ) & WLAN_CAPABILITY_PRIVACY ) {
for ( i = sizeof ( NDIS_802_11_FIXED_IEs ) ; i < pmlmeinfo - > network . IELength ; ) {
2016-03-27 17:56:02 +00:00
pIE = ( PNDIS_802_11_VARIABLE_IEs ) ( pmlmeinfo - > network . IEs + i ) ;
2017-04-07 11:39:45 +00:00
switch ( pIE - > ElementID ) {
case _VENDOR_SPECIFIC_IE_ :
if ( _rtw_memcmp ( pIE - > data , RTW_WPA_OUI , 4 ) )
2016-03-27 17:56:02 +00:00
return _FALSE ;
2017-04-07 11:39:45 +00:00
break ;
2016-03-27 17:56:02 +00:00
2017-04-07 11:39:45 +00:00
case _RSN_IE_2_ :
return _FALSE ;
default :
break ;
2016-03-27 17:56:02 +00:00
}
i + = ( pIE - > Length + 2 ) ;
}
return _TRUE ;
2017-04-07 11:39:45 +00:00
} else
2016-03-27 17:56:02 +00:00
return _FALSE ;
}
int wifirate2_ratetbl_inx ( unsigned char rate ) ;
int wifirate2_ratetbl_inx ( unsigned char rate )
{
int inx = 0 ;
rate = rate & 0x7f ;
2017-04-07 11:39:45 +00:00
switch ( rate ) {
case 54 * 2 :
inx = 11 ;
break ;
2016-03-27 17:56:02 +00:00
2017-04-07 11:39:45 +00:00
case 48 * 2 :
inx = 10 ;
break ;
2016-03-27 17:56:02 +00:00
2017-04-07 11:39:45 +00:00
case 36 * 2 :
inx = 9 ;
break ;
2016-03-27 17:56:02 +00:00
2017-04-07 11:39:45 +00:00
case 24 * 2 :
inx = 8 ;
break ;
2016-03-27 17:56:02 +00:00
2017-04-07 11:39:45 +00:00
case 18 * 2 :
inx = 7 ;
break ;
2016-03-27 17:56:02 +00:00
2017-04-07 11:39:45 +00:00
case 12 * 2 :
inx = 6 ;
break ;
2016-03-27 17:56:02 +00:00
2017-04-07 11:39:45 +00:00
case 9 * 2 :
inx = 5 ;
break ;
2016-03-27 17:56:02 +00:00
2017-04-07 11:39:45 +00:00
case 6 * 2 :
inx = 4 ;
break ;
case 11 * 2 :
inx = 3 ;
break ;
case 11 :
inx = 2 ;
break ;
case 2 * 2 :
inx = 1 ;
break ;
case 1 * 2 :
inx = 0 ;
break ;
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}
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return inx ;
2016-03-27 17:56:02 +00:00
}
unsigned int update_basic_rate ( unsigned char * ptn , unsigned int ptn_sz )
{
unsigned int i , num_of_rate ;
unsigned int mask = 0 ;
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num_of_rate = ( ptn_sz > NumRates ) ? NumRates : ptn_sz ;
for ( i = 0 ; i < num_of_rate ; i + + ) {
2016-03-27 17:56:02 +00:00
if ( ( * ( ptn + i ) ) & 0x80 )
mask | = 0x1 < < wifirate2_ratetbl_inx ( * ( ptn + i ) ) ;
}
return mask ;
}
unsigned int update_supported_rate ( unsigned char * ptn , unsigned int ptn_sz )
{
unsigned int i , num_of_rate ;
unsigned int mask = 0 ;
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num_of_rate = ( ptn_sz > NumRates ) ? NumRates : ptn_sz ;
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for ( i = 0 ; i < num_of_rate ; i + + )
mask | = 0x1 < < wifirate2_ratetbl_inx ( * ( ptn + i ) ) ;
return mask ;
}
unsigned int update_MCS_rate ( struct HT_caps_element * pHT_caps )
{
unsigned int mask = 0 ;
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mask = ( ( pHT_caps - > u . HT_cap_element . MCS_rate [ 0 ] < < 12 ) | ( pHT_caps - > u . HT_cap_element . MCS_rate [ 1 ] < < 20 ) ) ;
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return mask ;
}
int support_short_GI ( _adapter * padapter , struct HT_caps_element * pHT_caps , u8 bwmode )
{
unsigned char bit_offset ;
struct mlme_ext_priv * pmlmeext = & padapter - > mlmeextpriv ;
struct mlme_ext_info * pmlmeinfo = & ( pmlmeext - > mlmext_info ) ;
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if ( ! ( pmlmeinfo - > HT_enable ) )
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return _FAIL ;
bit_offset = ( bwmode & CHANNEL_WIDTH_40 ) ? 6 : 5 ;
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if ( pHT_caps - > u . HT_cap_element . HT_caps_info & ( 0x1 < < bit_offset ) )
return _SUCCESS ;
else
return _FAIL ;
}
unsigned char get_highest_rate_idx ( u32 mask )
{
int i ;
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unsigned char rate_idx = 0 ;
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for ( i = 31 ; i > = 0 ; i - - ) {
if ( mask & BIT ( i ) ) {
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rate_idx = i ;
break ;
}
}
return rate_idx ;
}
unsigned char get_highest_mcs_rate ( struct HT_caps_element * pHT_caps ) ;
unsigned char get_highest_mcs_rate ( struct HT_caps_element * pHT_caps )
{
int i , mcs_rate ;
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mcs_rate = ( pHT_caps - > u . HT_cap_element . MCS_rate [ 0 ] | ( pHT_caps - > u . HT_cap_element . MCS_rate [ 1 ] < < 8 ) ) ;
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for ( i = 15 ; i > = 0 ; i - - ) {
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if ( mcs_rate & ( 0x1 < < i ) )
break ;
}
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return i ;
}
void Update_RA_Entry ( _adapter * padapter , struct sta_info * psta )
{
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rtw_hal_update_ra_mask ( psta , psta - > rssi_level ) ;
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}
void set_sta_rate ( _adapter * padapter , struct sta_info * psta )
{
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/* rate adaptive */
rtw_hal_update_ra_mask ( psta , psta - > rssi_level ) ;
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}
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/* Update RRSR and Rate for USERATE */
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void update_tx_basic_rate ( _adapter * padapter , u8 wirelessmode )
{
NDIS_802_11_RATES_EX supported_rates ;
struct mlme_ext_priv * pmlmeext = & padapter - > mlmeextpriv ;
# ifdef CONFIG_P2P
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struct wifidirect_info * pwdinfo = & padapter - > wdinfo ;
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2017-04-07 11:39:45 +00:00
/* Added by Albert 2011/03/22 */
/* In the P2P mode, the driver should not support the b mode. */
/* So, the Tx packet shouldn't use the CCK rate */
if ( ! rtw_p2p_chk_state ( pwdinfo , P2P_STATE_NONE ) )
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return ;
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# endif /* CONFIG_P2P */
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_rtw_memset ( supported_rates , 0 , NDIS_802_11_LENGTH_RATES_EX ) ;
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/* clear B mod if current channel is in 5G band, avoid tx cck rate in 5G band. */
if ( pmlmeext - > cur_channel > 14 )
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wirelessmode & = ~ ( WIRELESS_11B ) ;
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if ( ( wirelessmode & WIRELESS_11B ) & & ( wirelessmode = = WIRELESS_11B ) )
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_rtw_memcpy ( supported_rates , rtw_basic_rate_cck , 4 ) ;
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else if ( wirelessmode & WIRELESS_11B )
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_rtw_memcpy ( supported_rates , rtw_basic_rate_mix , 7 ) ;
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else
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_rtw_memcpy ( supported_rates , rtw_basic_rate_ofdm , 3 ) ;
if ( wirelessmode & WIRELESS_11B )
update_mgnt_tx_rate ( padapter , IEEE80211_CCK_RATE_1MB ) ;
else
update_mgnt_tx_rate ( padapter , IEEE80211_OFDM_RATE_6MB ) ;
rtw_hal_set_hwreg ( padapter , HW_VAR_BASIC_RATE , supported_rates ) ;
}
unsigned char check_assoc_AP ( u8 * pframe , uint len )
{
unsigned int i ;
PNDIS_802_11_VARIABLE_IEs pIE ;
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for ( i = sizeof ( NDIS_802_11_FIXED_IEs ) ; i < len ; ) {
2016-03-27 17:56:02 +00:00
pIE = ( PNDIS_802_11_VARIABLE_IEs ) ( pframe + i ) ;
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switch ( pIE - > ElementID ) {
case _VENDOR_SPECIFIC_IE_ :
if ( ( _rtw_memcmp ( pIE - > data , ARTHEROS_OUI1 , 3 ) ) | | ( _rtw_memcmp ( pIE - > data , ARTHEROS_OUI2 , 3 ) ) ) {
RTW_INFO ( " link to Artheros AP \n " ) ;
return HT_IOT_PEER_ATHEROS ;
} else if ( ( _rtw_memcmp ( pIE - > data , BROADCOM_OUI1 , 3 ) )
| | ( _rtw_memcmp ( pIE - > data , BROADCOM_OUI2 , 3 ) )
| | ( _rtw_memcmp ( pIE - > data , BROADCOM_OUI3 , 3 ) ) ) {
RTW_INFO ( " link to Broadcom AP \n " ) ;
return HT_IOT_PEER_BROADCOM ;
} else if ( _rtw_memcmp ( pIE - > data , MARVELL_OUI , 3 ) ) {
RTW_INFO ( " link to Marvell AP \n " ) ;
return HT_IOT_PEER_MARVELL ;
} else if ( _rtw_memcmp ( pIE - > data , RALINK_OUI , 3 ) ) {
RTW_INFO ( " link to Ralink AP \n " ) ;
return HT_IOT_PEER_RALINK ;
} else if ( _rtw_memcmp ( pIE - > data , CISCO_OUI , 3 ) ) {
RTW_INFO ( " link to Cisco AP \n " ) ;
return HT_IOT_PEER_CISCO ;
} else if ( _rtw_memcmp ( pIE - > data , REALTEK_OUI , 3 ) ) {
u32 Vender = HT_IOT_PEER_REALTEK ;
if ( pIE - > Length > = 5 ) {
if ( pIE - > data [ 4 ] = = 1 ) {
/* if(pIE->data[5] & RT_HT_CAP_USE_LONG_PREAMBLE) */
/* bssDesc->BssHT.RT2RT_HT_Mode |= RT_HT_CAP_USE_LONG_PREAMBLE; */
if ( pIE - > data [ 5 ] & RT_HT_CAP_USE_92SE ) {
/* bssDesc->BssHT.RT2RT_HT_Mode |= RT_HT_CAP_USE_92SE; */
Vender = HT_IOT_PEER_REALTEK_92SE ;
2016-03-27 17:56:02 +00:00
}
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}
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if ( pIE - > data [ 5 ] & RT_HT_CAP_USE_SOFTAP )
Vender = HT_IOT_PEER_REALTEK_SOFTAP ;
if ( pIE - > data [ 4 ] = = 2 ) {
if ( pIE - > data [ 6 ] & RT_HT_CAP_USE_JAGUAR_BCUT ) {
Vender = HT_IOT_PEER_REALTEK_JAGUAR_BCUTAP ;
RTW_INFO ( " link to Realtek JAGUAR_BCUTAP \n " ) ;
}
if ( pIE - > data [ 6 ] & RT_HT_CAP_USE_JAGUAR_CCUT ) {
Vender = HT_IOT_PEER_REALTEK_JAGUAR_CCUTAP ;
RTW_INFO ( " link to Realtek JAGUAR_CCUTAP \n " ) ;
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}
}
}
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RTW_INFO ( " link to Realtek AP \n " ) ;
return Vender ;
} else if ( _rtw_memcmp ( pIE - > data , AIRGOCAP_OUI , 3 ) ) {
RTW_INFO ( " link to Airgo Cap \n " ) ;
return HT_IOT_PEER_AIRGO ;
} else
2016-03-27 17:56:02 +00:00
break ;
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default :
break ;
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}
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i + = ( pIE - > Length + 2 ) ;
}
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RTW_INFO ( " link to new AP \n " ) ;
2016-03-27 17:56:02 +00:00
return HT_IOT_PEER_UNKNOWN ;
}
void update_capinfo ( PADAPTER Adapter , u16 updateCap )
{
struct mlme_ext_priv * pmlmeext = & Adapter - > mlmeextpriv ;
struct mlme_ext_info * pmlmeinfo = & ( pmlmeext - > mlmext_info ) ;
BOOLEAN ShortPreamble ;
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/* Check preamble mode, 2005.01.06, by rcnjko. */
/* Mark to update preamble value forever, 2008.03.18 by lanhsin */
/* if( pMgntInfo->RegPreambleMode == PREAMBLE_AUTO ) */
2016-03-27 17:56:02 +00:00
{
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if ( updateCap & cShortPreamble ) {
/* Short Preamble */
if ( pmlmeinfo - > preamble_mode ! = PREAMBLE_SHORT ) { /* PREAMBLE_LONG or PREAMBLE_AUTO */
2016-03-27 17:56:02 +00:00
ShortPreamble = _TRUE ;
pmlmeinfo - > preamble_mode = PREAMBLE_SHORT ;
2017-04-07 11:39:45 +00:00
rtw_hal_set_hwreg ( Adapter , HW_VAR_ACK_PREAMBLE , ( u8 * ) & ShortPreamble ) ;
2016-03-27 17:56:02 +00:00
}
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} else {
/* Long Preamble */
if ( pmlmeinfo - > preamble_mode ! = PREAMBLE_LONG ) { /* PREAMBLE_SHORT or PREAMBLE_AUTO */
2016-03-27 17:56:02 +00:00
ShortPreamble = _FALSE ;
pmlmeinfo - > preamble_mode = PREAMBLE_LONG ;
2017-04-07 11:39:45 +00:00
rtw_hal_set_hwreg ( Adapter , HW_VAR_ACK_PREAMBLE , ( u8 * ) & ShortPreamble ) ;
2016-03-27 17:56:02 +00:00
}
}
}
2017-04-07 11:39:45 +00:00
if ( updateCap & cIBSS ) {
/* Filen: See 802.11-2007 p.91 */
2016-03-27 17:56:02 +00:00
pmlmeinfo - > slotTime = NON_SHORT_SLOT_TIME ;
2017-04-07 11:39:45 +00:00
} else {
/* Filen: See 802.11-2007 p.90 */
if ( pmlmeext - > cur_wireless_mode & ( WIRELESS_11_24N | WIRELESS_11A | WIRELESS_11_5N | WIRELESS_11AC ) )
2016-03-27 17:56:02 +00:00
pmlmeinfo - > slotTime = SHORT_SLOT_TIME ;
2017-04-07 11:39:45 +00:00
else if ( pmlmeext - > cur_wireless_mode & ( WIRELESS_11G ) ) {
if ( ( updateCap & cShortSlotTime ) /* && (!(pMgntInfo->pHTInfo->RT2RT_HT_Mode & RT_HT_CAP_USE_LONG_PREAMBLE)) */ ) {
/* Short Slot Time */
2016-03-27 17:56:02 +00:00
pmlmeinfo - > slotTime = SHORT_SLOT_TIME ;
2017-04-07 11:39:45 +00:00
} else {
/* Long Slot Time */
2016-03-27 17:56:02 +00:00
pmlmeinfo - > slotTime = NON_SHORT_SLOT_TIME ;
}
2017-04-07 11:39:45 +00:00
} else {
/* B Mode */
2016-03-27 17:56:02 +00:00
pmlmeinfo - > slotTime = NON_SHORT_SLOT_TIME ;
}
2017-04-07 11:39:45 +00:00
}
rtw_hal_set_hwreg ( Adapter , HW_VAR_SLOT_TIME , & pmlmeinfo - > slotTime ) ;
2016-03-27 17:56:02 +00:00
}
/*
* set adapter . mlmeextpriv . mlmext_info . HT_enable
* set adapter . mlmeextpriv . cur_wireless_mode
* set SIFS register
* set mgmt tx rate
*/
void update_wireless_mode ( _adapter * padapter )
{
int ratelen , network_type = 0 ;
u32 SIFS_Timer ;
struct mlme_ext_priv * pmlmeext = & padapter - > mlmeextpriv ;
struct mlme_ext_info * pmlmeinfo = & ( pmlmeext - > mlmext_info ) ;
2017-04-07 11:39:45 +00:00
WLAN_BSSID_EX * cur_network = & ( pmlmeinfo - > network ) ;
2016-03-27 17:56:02 +00:00
unsigned char * rate = cur_network - > SupportedRates ;
# ifdef CONFIG_P2P
2017-04-07 11:39:45 +00:00
struct wifidirect_info * pwdinfo = & ( padapter - > wdinfo ) ;
# endif /* CONFIG_P2P */
2016-03-27 17:56:02 +00:00
ratelen = rtw_get_rateset_len ( cur_network - > SupportedRates ) ;
if ( ( pmlmeinfo - > HT_info_enable ) & & ( pmlmeinfo - > HT_caps_enable ) )
pmlmeinfo - > HT_enable = 1 ;
2017-04-07 11:39:45 +00:00
if ( pmlmeext - > cur_channel > 14 ) {
2016-03-27 17:56:02 +00:00
if ( pmlmeinfo - > VHT_enable )
network_type = WIRELESS_11AC ;
else if ( pmlmeinfo - > HT_enable )
network_type = WIRELESS_11_5N ;
network_type | = WIRELESS_11A ;
2017-04-07 11:39:45 +00:00
} else {
2016-03-27 17:56:02 +00:00
if ( pmlmeinfo - > VHT_enable )
network_type = WIRELESS_11AC ;
else if ( pmlmeinfo - > HT_enable )
network_type = WIRELESS_11_24N ;
2017-04-07 11:39:45 +00:00
2016-03-27 17:56:02 +00:00
if ( ( cckratesonly_included ( rate , ratelen ) ) = = _TRUE )
network_type | = WIRELESS_11B ;
2017-04-07 11:39:45 +00:00
else if ( ( cckrates_included ( rate , ratelen ) ) = = _TRUE )
2016-03-27 17:56:02 +00:00
network_type | = WIRELESS_11BG ;
else
network_type | = WIRELESS_11G ;
}
pmlmeext - > cur_wireless_mode = network_type & padapter - > registrypriv . wireless_mode ;
2017-04-07 11:39:45 +00:00
/* RTW_INFO("network_type=%02x, padapter->registrypriv.wireless_mode=%02x\n", network_type, padapter->registrypriv.wireless_mode); */
#if 0
if ( ( pmlmeext - > cur_wireless_mode = = WIRELESS_11G ) | |
( pmlmeext - > cur_wireless_mode = = WIRELESS_11BG ) ) /* WIRELESS_MODE_G) */
SIFS_Timer = 0x0a0a ; /* CCK */
2016-03-27 17:56:02 +00:00
else
2017-04-07 11:39:45 +00:00
SIFS_Timer = 0x0e0e ; /* pHalData->SifsTime; //OFDM */
# endif
SIFS_Timer = 0x0a0a0808 ; /* 0x0808->for CCK, 0x0a0a->for OFDM
* change this value if having IOT issues . */
2016-03-27 17:56:02 +00:00
2017-04-07 11:39:45 +00:00
rtw_hal_set_hwreg ( padapter , HW_VAR_RESP_SIFS , ( u8 * ) & SIFS_Timer ) ;
rtw_hal_set_hwreg ( padapter , HW_VAR_WIRELESS_MODE , ( u8 * ) & ( pmlmeext - > cur_wireless_mode ) ) ;
2016-03-27 17:56:02 +00:00
if ( ( pmlmeext - > cur_wireless_mode & WIRELESS_11B )
2017-04-07 11:39:45 +00:00
# ifdef CONFIG_P2P
& & rtw_p2p_chk_state ( pwdinfo , P2P_STATE_NONE )
# endif /* CONFIG_P2P */
)
2016-03-27 17:56:02 +00:00
update_mgnt_tx_rate ( padapter , IEEE80211_CCK_RATE_1MB ) ;
else
update_mgnt_tx_rate ( padapter , IEEE80211_OFDM_RATE_6MB ) ;
}
void fire_write_MAC_cmd ( _adapter * padapter , unsigned int addr , unsigned int value ) ;
void fire_write_MAC_cmd ( _adapter * padapter , unsigned int addr , unsigned int value )
{
#if 0
struct cmd_obj * ph2c ;
struct reg_rw_parm * pwriteMacPara ;
struct cmd_priv * pcmdpriv = & ( padapter - > cmdpriv ) ;
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ph2c = ( struct cmd_obj * ) rtw_zmalloc ( sizeof ( struct cmd_obj ) ) ;
if ( ph2c = = NULL )
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return ;
2017-04-07 11:39:45 +00:00
pwriteMacPara = ( struct reg_rw_parm * ) rtw_malloc ( sizeof ( struct reg_rw_parm ) ) ;
if ( pwriteMacPara = = NULL ) {
2016-03-27 17:56:02 +00:00
rtw_mfree ( ( unsigned char * ) ph2c , sizeof ( struct cmd_obj ) ) ;
return ;
}
2017-04-07 11:39:45 +00:00
2016-03-27 17:56:02 +00:00
pwriteMacPara - > rw = 1 ;
pwriteMacPara - > addr = addr ;
pwriteMacPara - > value = value ;
2017-04-07 11:39:45 +00:00
2016-03-27 17:56:02 +00:00
init_h2fwcmd_w_parm_no_rsp ( ph2c , pwriteMacPara , GEN_CMD_CODE ( _Write_MACREG ) ) ;
rtw_enqueue_cmd ( pcmdpriv , ph2c ) ;
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# endif
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}
void update_sta_basic_rate ( struct sta_info * psta , u8 wireless_mode )
{
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if ( IsSupportedTxCCK ( wireless_mode ) ) {
/* Only B, B/G, and B/G/N AP could use CCK rate */
2016-03-27 17:56:02 +00:00
_rtw_memcpy ( psta - > bssrateset , rtw_basic_rate_cck , 4 ) ;
psta - > bssratelen = 4 ;
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} else {
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_rtw_memcpy ( psta - > bssrateset , rtw_basic_rate_ofdm , 3 ) ;
psta - > bssratelen = 3 ;
}
}
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int rtw_ies_get_supported_rate ( u8 * ies , uint ies_len , u8 * rate_set , u8 * rate_num )
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{
2017-04-07 11:39:45 +00:00
u8 * ie ;
unsigned int ie_len ;
if ( ! rate_set | | ! rate_num )
return _FALSE ;
* rate_num = 0 ;
ie = rtw_get_ie ( ies , _SUPPORTEDRATES_IE_ , & ie_len , ies_len ) ;
if ( ie = = NULL )
goto ext_rate ;
_rtw_memcpy ( rate_set , ie + 2 , ie_len ) ;
* rate_num = ie_len ;
ext_rate :
ie = rtw_get_ie ( ies , _EXT_SUPPORTEDRATES_IE_ , & ie_len , ies_len ) ;
if ( ie ) {
_rtw_memcpy ( rate_set + * rate_num , ie + 2 , ie_len ) ;
* rate_num + = ie_len ;
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}
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if ( * rate_num = = 0 )
return _FAIL ;
if ( 0 ) {
int i ;
for ( i = 0 ; i < * rate_num ; i + + )
RTW_INFO ( " rate:0x%02x \n " , * ( rate_set + i ) ) ;
2016-03-27 17:56:02 +00:00
}
return _SUCCESS ;
}
void process_addba_req ( _adapter * padapter , u8 * paddba_req , u8 * addr )
{
struct sta_info * psta ;
2017-04-07 11:39:45 +00:00
u16 tid , start_seq , param ;
struct sta_priv * pstapriv = & padapter - > stapriv ;
struct ADDBA_request * preq = ( struct ADDBA_request * ) paddba_req ;
2016-03-27 17:56:02 +00:00
struct mlme_ext_priv * pmlmeext = & padapter - > mlmeextpriv ;
struct mlme_ext_info * pmlmeinfo = & ( pmlmeext - > mlmext_info ) ;
2017-04-07 11:39:45 +00:00
u8 size , accept = _FALSE ;
2016-03-27 17:56:02 +00:00
psta = rtw_get_stainfo ( pstapriv , addr ) ;
if ( ! psta )
goto exit ;
start_seq = le16_to_cpu ( preq - > BA_starting_seqctrl ) > > 4 ;
param = le16_to_cpu ( preq - > BA_para_set ) ;
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tid = ( param > > 2 ) & 0x0f ;
2016-03-27 17:56:02 +00:00
2017-04-07 11:39:45 +00:00
accept = rtw_rx_ampdu_is_accept ( padapter ) ;
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size = rtw_rx_ampdu_size ( padapter ) ;
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if ( accept = = _TRUE )
rtw_addbarsp_cmd ( padapter , addr , tid , 0 , size , start_seq ) ;
else
rtw_addbarsp_cmd ( padapter , addr , tid , 37 , size , start_seq ) ; /* reject ADDBA Req */
2016-03-27 17:56:02 +00:00
exit :
return ;
}
void update_TSF ( struct mlme_ext_priv * pmlmeext , u8 * pframe , uint len )
2017-04-07 11:39:45 +00:00
{
u8 * pIE ;
2016-03-27 17:56:02 +00:00
u32 * pbuf ;
2017-04-07 11:39:45 +00:00
2016-03-27 17:56:02 +00:00
pIE = pframe + sizeof ( struct rtw_ieee80211_hdr_3addr ) ;
2017-04-07 11:39:45 +00:00
pbuf = ( u32 * ) pIE ;
pmlmeext - > TSFValue = le32_to_cpu ( * ( pbuf + 1 ) ) ;
2016-03-27 17:56:02 +00:00
pmlmeext - > TSFValue = pmlmeext - > TSFValue < < 32 ;
pmlmeext - > TSFValue | = le32_to_cpu ( * pbuf ) ;
}
void correct_TSF ( _adapter * padapter , struct mlme_ext_priv * pmlmeext )
{
rtw_hal_set_hwreg ( padapter , HW_VAR_CORRECT_TSF , 0 ) ;
}
void adaptive_early_32k ( struct mlme_ext_priv * pmlmeext , u8 * pframe , uint len )
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{
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int i ;
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u8 * pIE ;
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u32 * pbuf ;
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u64 tsf = 0 ;
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u32 delay_ms ;
struct mlme_ext_info * pmlmeinfo = & ( pmlmeext - > mlmext_info ) ;
pmlmeext - > bcn_cnt + + ;
pIE = pframe + sizeof ( struct rtw_ieee80211_hdr_3addr ) ;
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pbuf = ( u32 * ) pIE ;
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tsf = le32_to_cpu ( * ( pbuf + 1 ) ) ;
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tsf = tsf < < 32 ;
tsf | = le32_to_cpu ( * pbuf ) ;
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/* RTW_INFO("%s(): tsf_upper= 0x%08x, tsf_lower=0x%08x\n", __func__, (u32)(tsf>>32), (u32)tsf); */
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/* delay = (timestamp mod 1024*100)/1000 (unit: ms) */
/* delay_ms = do_div(tsf, (pmlmeinfo->bcn_interval*1024))/1000; */
delay_ms = rtw_modular64 ( tsf , ( pmlmeinfo - > bcn_interval * 1024 ) ) ;
delay_ms = delay_ms / 1000 ;
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if ( delay_ms > = 8 ) {
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pmlmeext - > bcn_delay_cnt [ 8 ] + + ;
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/* pmlmeext->bcn_delay_ratio[8] = (pmlmeext->bcn_delay_cnt[8] * 100) /pmlmeext->bcn_cnt; */
} else {
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pmlmeext - > bcn_delay_cnt [ delay_ms ] + + ;
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/* pmlmeext->bcn_delay_ratio[delay_ms] = (pmlmeext->bcn_delay_cnt[delay_ms] * 100) /pmlmeext->bcn_cnt; */
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}
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/*
RTW_INFO ( " %s(): (a)bcn_cnt = %d \n " , __func__ , pmlmeext - > bcn_cnt ) ;
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for ( i = 0 ; i < 9 ; i + + )
{
RTW_INFO ( " %s():bcn_delay_cnt[%d]=%d, bcn_delay_ratio[%d]=%d \n " , __func__ , i ,
pmlmeext - > bcn_delay_cnt [ i ] , i , pmlmeext - > bcn_delay_ratio [ i ] ) ;
}
*/
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/* dump for adaptive_early_32k */
if ( pmlmeext - > bcn_cnt > 100 & & ( pmlmeext - > adaptive_tsf_done = = _TRUE ) ) {
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u8 ratio_20_delay , ratio_80_delay ;
u8 DrvBcnEarly , DrvBcnTimeOut ;
ratio_20_delay = 0 ;
ratio_80_delay = 0 ;
DrvBcnEarly = 0xff ;
DrvBcnTimeOut = 0xff ;
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RTW_INFO ( " %s(): bcn_cnt = %d \n " , __func__ , pmlmeext - > bcn_cnt ) ;
for ( i = 0 ; i < 9 ; i + + ) {
pmlmeext - > bcn_delay_ratio [ i ] = ( pmlmeext - > bcn_delay_cnt [ i ] * 100 ) / pmlmeext - > bcn_cnt ;
/* RTW_INFO("%s():bcn_delay_cnt[%d]=%d, bcn_delay_ratio[%d]=%d\n", __func__, i, */
/* pmlmeext->bcn_delay_cnt[i] , i, pmlmeext->bcn_delay_ratio[i]); */
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ratio_20_delay + = pmlmeext - > bcn_delay_ratio [ i ] ;
ratio_80_delay + = pmlmeext - > bcn_delay_ratio [ i ] ;
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if ( ratio_20_delay > 20 & & DrvBcnEarly = = 0xff ) {
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DrvBcnEarly = i ;
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/* RTW_INFO("%s(): DrvBcnEarly = %d\n", __func__, DrvBcnEarly); */
}
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if ( ratio_80_delay > 80 & & DrvBcnTimeOut = = 0xff ) {
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DrvBcnTimeOut = i ;
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/* RTW_INFO("%s(): DrvBcnTimeOut = %d\n", __func__, DrvBcnTimeOut); */
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}
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/* reset adaptive_early_32k cnt */
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pmlmeext - > bcn_delay_cnt [ i ] = 0 ;
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pmlmeext - > bcn_delay_ratio [ i ] = 0 ;
}
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pmlmeext - > DrvBcnEarly = DrvBcnEarly ;
pmlmeext - > DrvBcnTimeOut = DrvBcnTimeOut ;
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pmlmeext - > bcn_cnt = 0 ;
}
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}
void beacon_timing_control ( _adapter * padapter )
{
rtw_hal_bcn_related_reg_setting ( padapter ) ;
}
# define CONFIG_SHARED_BMC_MACID
void dump_macid_map ( void * sel , struct macid_bmp * map , u8 max_num )
{
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RTW_PRINT_SEL ( sel , " 0x%08x \n " , map - > m0 ) ;
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# if (MACID_NUM_SW_LIMIT > 32)
if ( max_num & & max_num > 32 )
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RTW_PRINT_SEL ( sel , " 0x%08x \n " , map - > m1 ) ;
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# endif
# if (MACID_NUM_SW_LIMIT > 64)
if ( max_num & & max_num > 64 )
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RTW_PRINT_SEL ( sel , " 0x%08x \n " , map - > m2 ) ;
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# endif
# if (MACID_NUM_SW_LIMIT > 96)
if ( max_num & & max_num > 96 )
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RTW_PRINT_SEL ( sel , " 0x%08x \n " , map - > m3 ) ;
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# endif
}
inline bool rtw_macid_is_set ( struct macid_bmp * map , u8 id )
{
if ( id < 32 )
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return map - > m0 & BIT ( id ) ;
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# if (MACID_NUM_SW_LIMIT > 32)
else if ( id < 64 )
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return map - > m1 & BIT ( id - 32 ) ;
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# endif
# if (MACID_NUM_SW_LIMIT > 64)
else if ( id < 96 )
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return map - > m2 & BIT ( id - 64 ) ;
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# endif
# if (MACID_NUM_SW_LIMIT > 96)
else if ( id < 128 )
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return map - > m3 & BIT ( id - 96 ) ;
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# endif
else
rtw_warn_on ( 1 ) ;
return 0 ;
}
inline void rtw_macid_map_set ( struct macid_bmp * map , u8 id )
{
if ( id < 32 )
map - > m0 | = BIT ( id ) ;
# if (MACID_NUM_SW_LIMIT > 32)
else if ( id < 64 )
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map - > m1 | = BIT ( id - 32 ) ;
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# endif
# if (MACID_NUM_SW_LIMIT > 64)
else if ( id < 96 )
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map - > m2 | = BIT ( id - 64 ) ;
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# endif
# if (MACID_NUM_SW_LIMIT > 96)
else if ( id < 128 )
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map - > m3 | = BIT ( id - 96 ) ;
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# endif
else
rtw_warn_on ( 1 ) ;
}
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/*Record bc's mac-id and sec-cam-id*/
inline void rtw_iface_bcmc_id_set ( _adapter * padapter , u8 mac_id )
{
struct dvobj_priv * dvobj = adapter_to_dvobj ( padapter ) ;
struct macid_ctl_t * macid_ctl = dvobj_to_macidctl ( dvobj ) ;
macid_ctl - > iface_bmc [ padapter - > iface_id ] = mac_id ;
}
inline u8 rtw_iface_bcmc_id_get ( _adapter * padapter )
{
struct dvobj_priv * dvobj = adapter_to_dvobj ( padapter ) ;
struct macid_ctl_t * macid_ctl = dvobj_to_macidctl ( dvobj ) ;
return macid_ctl - > iface_bmc [ padapter - > iface_id ] ;
}
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inline void rtw_macid_map_clr ( struct macid_bmp * map , u8 id )
{
if ( id < 32 )
map - > m0 & = ~ BIT ( id ) ;
# if (MACID_NUM_SW_LIMIT > 32)
else if ( id < 64 )
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map - > m1 & = ~ BIT ( id - 32 ) ;
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# endif
# if (MACID_NUM_SW_LIMIT > 64)
else if ( id < 96 )
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map - > m2 & = ~ BIT ( id - 64 ) ;
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# endif
# if (MACID_NUM_SW_LIMIT > 96)
else if ( id < 128 )
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map - > m3 & = ~ BIT ( id - 96 ) ;
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# endif
else
rtw_warn_on ( 1 ) ;
}
inline bool rtw_macid_is_used ( struct macid_ctl_t * macid_ctl , u8 id )
{
return rtw_macid_is_set ( & macid_ctl - > used , id ) ;
}
inline bool rtw_macid_is_bmc ( struct macid_ctl_t * macid_ctl , u8 id )
{
return rtw_macid_is_set ( & macid_ctl - > bmc , id ) ;
}
inline s8 rtw_macid_get_if_g ( struct macid_ctl_t * macid_ctl , u8 id )
{
int i ;
# ifdef CONFIG_SHARED_BMC_MACID
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if ( rtw_macid_is_bmc ( macid_ctl , id ) ) {
for ( i = 0 ; i < CONFIG_IFACE_NUMBER ; i + + )
if ( macid_ctl - > iface_bmc [ i ] = = id )
return i ;
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return - 1 ;
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}
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# endif
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for ( i = 0 ; i < CONFIG_IFACE_NUMBER ; i + + ) {
2016-03-27 17:56:02 +00:00
if ( rtw_macid_is_set ( & macid_ctl - > if_g [ i ] , id ) )
return i ;
}
return - 1 ;
}
inline s8 rtw_macid_get_ch_g ( struct macid_ctl_t * macid_ctl , u8 id )
{
int i ;
2017-04-07 11:39:45 +00:00
for ( i = 0 ; i < 2 ; i + + ) {
2016-03-27 17:56:02 +00:00
if ( rtw_macid_is_set ( & macid_ctl - > ch_g [ i ] , id ) )
return i ;
}
return - 1 ;
}
void rtw_alloc_macid ( _adapter * padapter , struct sta_info * psta )
{
int i ;
_irqL irqL ;
2017-04-07 11:39:45 +00:00
u8 bc_addr [ ETH_ALEN ] = { 0xff , 0xff , 0xff , 0xff , 0xff , 0xff } ;
2016-03-27 17:56:02 +00:00
struct dvobj_priv * dvobj = adapter_to_dvobj ( padapter ) ;
struct macid_ctl_t * macid_ctl = dvobj_to_macidctl ( dvobj ) ;
struct macid_bmp * used_map = & macid_ctl - > used ;
2017-04-07 11:39:45 +00:00
/* static u8 last_id = 0; for testing */
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u8 last_id = 0 ;
2017-04-07 11:39:45 +00:00
u8 is_bc_sta = _FALSE ;
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if ( _rtw_memcmp ( psta - > hwaddr , adapter_mac_addr ( padapter ) , ETH_ALEN ) ) {
psta - > mac_id = macid_ctl - > num ;
return ;
}
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if ( _rtw_memcmp ( psta - > hwaddr , bc_addr , ETH_ALEN ) ) {
is_bc_sta = _TRUE ;
rtw_iface_bcmc_id_set ( padapter , INVALID_SEC_MAC_CAM_ID ) ; /*init default value*/
}
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# ifdef CONFIG_SHARED_BMC_MACID
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if ( is_bc_sta
# ifdef CONFIG_CONCURRENT_MODE
& & ( check_fwstate ( & padapter - > mlmepriv , WIFI_STATION_STATE ) | | check_fwstate ( & padapter - > mlmepriv , WIFI_NULL_STATE ) )
# endif
) {
/* use shared broadcast & multicast macid 1 for all ifaces which configure to station mode*/
2016-03-27 17:56:02 +00:00
_enter_critical_bh ( & macid_ctl - > lock , & irqL ) ;
rtw_macid_map_set ( used_map , 1 ) ;
rtw_macid_map_set ( & macid_ctl - > bmc , 1 ) ;
2017-04-07 11:39:45 +00:00
rtw_macid_map_set ( & macid_ctl - > if_g [ padapter - > iface_id ] , 1 ) ;
macid_ctl - > sta [ 1 ] = psta ;
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/* TODO ch_g? */
_exit_critical_bh ( & macid_ctl - > lock , & irqL ) ;
i = 1 ;
goto assigned ;
}
# endif
2017-04-07 11:39:45 +00:00
# ifdef CONFIG_MCC_MODE
if ( MCC_EN ( padapter ) ) {
if ( MLME_IS_AP ( padapter ) | | MLME_IS_GO ( padapter ) )
/* GO/AP assign client macid from 8 */
last_id = 8 ;
}
# endif /* CONFIG_MCC_MODE */
2016-03-27 17:56:02 +00:00
_enter_critical_bh ( & macid_ctl - > lock , & irqL ) ;
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for ( i = last_id ; i < macid_ctl - > num ; i + + ) {
# ifdef CONFIG_SHARED_BMC_MACID
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if ( i = = 1 )
continue ;
2017-04-07 11:39:45 +00:00
# endif
# ifdef CONFIG_MCC_MODE
/* macid 0/1 reserve for mcc for mgnt queue macid */
if ( MCC_EN ( padapter ) ) {
if ( i = = MCC_ROLE_STA_GC_MGMT_QUEUE_MACID )
continue ;
if ( i = = MCC_ROLE_SOFTAP_GO_MGMT_QUEUE_MACID )
continue ;
}
# endif /* CONFIG_MCC_MODE */
if ( is_bc_sta ) { /*for SoftAP's Broadcast sta-info*/
/*TODO:non-security AP may allociated macid = 1*/
struct cam_ctl_t * cam_ctl = dvobj_to_sec_camctl ( dvobj ) ;
if ( ( ! rtw_macid_is_used ( macid_ctl , i ) ) & & ( ! rtw_sec_camid_is_used ( cam_ctl , i ) ) )
break ;
} else {
if ( ! rtw_macid_is_used ( macid_ctl , i ) )
break ;
}
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}
if ( i < macid_ctl - > num ) {
rtw_macid_map_set ( used_map , i ) ;
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if ( is_bc_sta ) {
struct cam_ctl_t * cam_ctl = dvobj_to_sec_camctl ( dvobj ) ;
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rtw_macid_map_set ( & macid_ctl - > bmc , i ) ;
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rtw_iface_bcmc_id_set ( padapter , i ) ;
rtw_sec_cam_map_set ( & cam_ctl - > used , i ) ;
}
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rtw_macid_map_set ( & macid_ctl - > if_g [ padapter - > iface_id ] , i ) ;
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macid_ctl - > sta [ i ] = psta ;
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/* TODO ch_g? */
last_id + + ;
last_id % = macid_ctl - > num ;
}
_exit_critical_bh ( & macid_ctl - > lock , & irqL ) ;
if ( i > = macid_ctl - > num ) {
psta - > mac_id = macid_ctl - > num ;
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RTW_ERR ( FUNC_ADPT_FMT " if%u, hwaddr: " MAC_FMT " no available macid \n "
, FUNC_ADPT_ARG ( padapter ) , padapter - > iface_id + 1 , MAC_ARG ( psta - > hwaddr ) ) ;
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rtw_warn_on ( 1 ) ;
goto exit ;
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} else
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goto assigned ;
assigned :
psta - > mac_id = i ;
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RTW_INFO ( FUNC_ADPT_FMT " if%u, hwaddr: " MAC_FMT " macid:%u \n "
, FUNC_ADPT_ARG ( padapter ) , padapter - > iface_id + 1 , MAC_ARG ( psta - > hwaddr ) , psta - > mac_id ) ;
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exit :
return ;
}
void rtw_release_macid ( _adapter * padapter , struct sta_info * psta )
{
_irqL irqL ;
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u8 bc_addr [ ETH_ALEN ] = { 0xff , 0xff , 0xff , 0xff , 0xff , 0xff } ;
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struct dvobj_priv * dvobj = adapter_to_dvobj ( padapter ) ;
struct macid_ctl_t * macid_ctl = dvobj_to_macidctl ( dvobj ) ;
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u8 is_bc_sta = _FALSE ;
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if ( _rtw_memcmp ( psta - > hwaddr , adapter_mac_addr ( padapter ) , ETH_ALEN ) )
return ;
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if ( _rtw_memcmp ( psta - > hwaddr , bc_addr , ETH_ALEN ) )
is_bc_sta = _TRUE ;
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# ifdef CONFIG_SHARED_BMC_MACID
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if ( is_bc_sta
# ifdef CONFIG_CONCURRENT_MODE
& & ( check_fwstate ( & padapter - > mlmepriv , WIFI_STATION_STATE ) | | check_fwstate ( & padapter - > mlmepriv , WIFI_NULL_STATE ) )
# endif
)
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return ;
if ( psta - > mac_id = = 1 ) {
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RTW_ERR ( FUNC_ADPT_FMT " if%u, hwaddr: " MAC_FMT " with macid:%u \n "
, FUNC_ADPT_ARG ( padapter ) , padapter - > iface_id + 1 , MAC_ARG ( psta - > hwaddr ) , psta - > mac_id ) ;
if ( check_fwstate ( & padapter - > mlmepriv , WIFI_STATION_STATE ) | | check_fwstate ( & padapter - > mlmepriv , WIFI_NULL_STATE ) )
rtw_warn_on ( 1 ) ;
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return ;
}
# endif
_enter_critical_bh ( & macid_ctl - > lock , & irqL ) ;
if ( psta - > mac_id < macid_ctl - > num ) {
int i ;
if ( ! rtw_macid_is_used ( macid_ctl , psta - > mac_id ) ) {
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RTW_ERR ( FUNC_ADPT_FMT " if%u, hwaddr: " MAC_FMT " macid:%u not used \n "
, FUNC_ADPT_ARG ( padapter ) , padapter - > iface_id + 1 , MAC_ARG ( psta - > hwaddr ) , psta - > mac_id ) ;
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rtw_warn_on ( 1 ) ;
}
rtw_macid_map_clr ( & macid_ctl - > used , psta - > mac_id ) ;
rtw_macid_map_clr ( & macid_ctl - > bmc , psta - > mac_id ) ;
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if ( is_bc_sta ) {
struct cam_ctl_t * cam_ctl = dvobj_to_sec_camctl ( dvobj ) ;
u8 id = rtw_iface_bcmc_id_get ( padapter ) ;
if ( ( id ! = INVALID_SEC_MAC_CAM_ID ) & & ( id < cam_ctl - > num ) )
rtw_sec_cam_map_clr ( & cam_ctl - > used , id ) ;
rtw_iface_bcmc_id_set ( padapter , INVALID_SEC_MAC_CAM_ID ) ;
}
for ( i = 0 ; i < CONFIG_IFACE_NUMBER ; i + + )
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rtw_macid_map_clr ( & macid_ctl - > if_g [ i ] , psta - > mac_id ) ;
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for ( i = 0 ; i < 2 ; i + + )
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rtw_macid_map_clr ( & macid_ctl - > ch_g [ i ] , psta - > mac_id ) ;
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macid_ctl - > sta [ psta - > mac_id ] = NULL ;
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}
_exit_critical_bh ( & macid_ctl - > lock , & irqL ) ;
psta - > mac_id = macid_ctl - > num ;
}
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/* For 8188E RA */
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u8 rtw_search_max_mac_id ( _adapter * padapter )
{
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u8 max_mac_id = 0 ;
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struct dvobj_priv * dvobj = adapter_to_dvobj ( padapter ) ;
struct macid_ctl_t * macid_ctl = dvobj_to_macidctl ( dvobj ) ;
int i ;
_irqL irqL ;
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/* TODO: Only search for connected macid? */
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_enter_critical_bh ( & macid_ctl - > lock , & irqL ) ;
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for ( i = ( macid_ctl - > num - 1 ) ; i > 0 ; i - - ) {
if ( rtw_macid_is_used ( macid_ctl , i ) )
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break ;
}
_exit_critical_bh ( & macid_ctl - > lock , & irqL ) ;
max_mac_id = i ;
return max_mac_id ;
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}
inline void rtw_macid_ctl_set_h2c_msr ( struct macid_ctl_t * macid_ctl , u8 id , u8 h2c_msr )
{
if ( id > = macid_ctl - > num ) {
rtw_warn_on ( 1 ) ;
return ;
}
macid_ctl - > h2c_msr [ id ] = h2c_msr ;
if ( 0 )
RTW_INFO ( " macid:%u, h2c_msr: " H2C_MSR_FMT " \n " , id , H2C_MSR_ARG ( & macid_ctl - > h2c_msr [ id ] ) ) ;
}
inline void rtw_macid_ctl_set_bw ( struct macid_ctl_t * macid_ctl , u8 id , u8 bw )
{
if ( id > = macid_ctl - > num ) {
rtw_warn_on ( 1 ) ;
return ;
}
macid_ctl - > bw [ id ] = bw ;
if ( 0 )
RTW_INFO ( " macid:%u, bw:%s \n " , id , ch_width_str ( macid_ctl - > bw [ id ] ) ) ;
}
inline void rtw_macid_ctl_set_vht_en ( struct macid_ctl_t * macid_ctl , u8 id , u8 en )
{
if ( id > = macid_ctl - > num ) {
rtw_warn_on ( 1 ) ;
return ;
}
macid_ctl - > vht_en [ id ] = en ;
if ( 0 )
RTW_INFO ( " macid:%u, vht_en:%u \n " , id , macid_ctl - > vht_en [ id ] ) ;
}
inline void rtw_macid_ctl_set_rate_bmp0 ( struct macid_ctl_t * macid_ctl , u8 id , u32 bmp )
{
if ( id > = macid_ctl - > num ) {
rtw_warn_on ( 1 ) ;
return ;
}
macid_ctl - > rate_bmp0 [ id ] = bmp ;
if ( 0 )
RTW_INFO ( " macid:%u, rate_bmp0:0x%08X \n " , id , macid_ctl - > rate_bmp0 [ id ] ) ;
}
inline void rtw_macid_ctl_set_rate_bmp1 ( struct macid_ctl_t * macid_ctl , u8 id , u32 bmp )
{
if ( id > = macid_ctl - > num ) {
rtw_warn_on ( 1 ) ;
return ;
}
macid_ctl - > rate_bmp1 [ id ] = bmp ;
if ( 0 )
RTW_INFO ( " macid:%u, rate_bmp1:0x%08X \n " , id , macid_ctl - > rate_bmp1 [ id ] ) ;
}
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inline void rtw_macid_ctl_init ( struct macid_ctl_t * macid_ctl )
{
_rtw_spinlock_init ( & macid_ctl - > lock ) ;
}
inline void rtw_macid_ctl_deinit ( struct macid_ctl_t * macid_ctl )
{
_rtw_spinlock_free ( & macid_ctl - > lock ) ;
}
#if 0
unsigned int setup_beacon_frame ( _adapter * padapter , unsigned char * beacon_frame )
{
unsigned short ATIMWindow ;
unsigned char * pframe ;
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struct tx_desc * ptxdesc ;
struct rtw_ieee80211_hdr * pwlanhdr ;
2016-03-27 17:56:02 +00:00
unsigned short * fctrl ;
unsigned int rate_len , len = 0 ;
struct xmit_priv * pxmitpriv = & ( padapter - > xmitpriv ) ;
struct mlme_ext_priv * pmlmeext = & ( padapter - > mlmeextpriv ) ;
struct mlme_ext_info * pmlmeinfo = & ( pmlmeext - > mlmext_info ) ;
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WLAN_BSSID_EX * cur_network = & ( pmlmeinfo - > network ) ;
2016-03-27 17:56:02 +00:00
u8 bc_addr [ ] = { 0xff , 0xff , 0xff , 0xff , 0xff , 0xff } ;
2017-04-07 11:39:45 +00:00
2016-03-27 17:56:02 +00:00
_rtw_memset ( beacon_frame , 0 , 256 ) ;
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2016-03-27 17:56:02 +00:00
pframe = beacon_frame + TXDESC_SIZE ;
2017-04-07 11:39:45 +00:00
pwlanhdr = ( struct rtw_ieee80211_hdr * ) pframe ;
2016-03-27 17:56:02 +00:00
fctrl = & ( pwlanhdr - > frame_ctl ) ;
* ( fctrl ) = 0 ;
2017-04-07 11:39:45 +00:00
2016-03-27 17:56:02 +00:00
_rtw_memcpy ( pwlanhdr - > addr1 , bc_addr , ETH_ALEN ) ;
_rtw_memcpy ( pwlanhdr - > addr2 , adapter_mac_addr ( padapter ) , ETH_ALEN ) ;
_rtw_memcpy ( pwlanhdr - > addr3 , get_my_bssid ( cur_network ) , ETH_ALEN ) ;
2017-04-07 11:39:45 +00:00
2016-03-27 17:56:02 +00:00
SetFrameSubType ( pframe , WIFI_BEACON ) ;
2017-04-07 11:39:45 +00:00
pframe + = sizeof ( struct rtw_ieee80211_hdr_3addr ) ;
2016-03-27 17:56:02 +00:00
len = sizeof ( struct rtw_ieee80211_hdr_3addr ) ;
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/* timestamp will be inserted by hardware */
2016-03-27 17:56:02 +00:00
pframe + = 8 ;
len + = 8 ;
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/* beacon interval: 2 bytes */
_rtw_memcpy ( pframe , ( unsigned char * ) ( rtw_get_beacon_interval_from_ie ( cur_network - > IEs ) ) , 2 ) ;
2016-03-27 17:56:02 +00:00
pframe + = 2 ;
len + = 2 ;
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/* capability info: 2 bytes */
2016-03-27 17:56:02 +00:00
_rtw_memcpy ( pframe , ( unsigned char * ) ( rtw_get_capability_from_ie ( cur_network - > IEs ) ) , 2 ) ;
pframe + = 2 ;
len + = 2 ;
2017-04-07 11:39:45 +00:00
/* SSID */
2016-03-27 17:56:02 +00:00
pframe = rtw_set_ie ( pframe , _SSID_IE_ , cur_network - > Ssid . SsidLength , cur_network - > Ssid . Ssid , & len ) ;
2017-04-07 11:39:45 +00:00
/* supported rates... */
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rate_len = rtw_get_rateset_len ( cur_network - > SupportedRates ) ;
2017-04-07 11:39:45 +00:00
pframe = rtw_set_ie ( pframe , _SUPPORTEDRATES_IE_ , ( ( rate_len > 8 ) ? 8 : rate_len ) , cur_network - > SupportedRates , & len ) ;
2016-03-27 17:56:02 +00:00
2017-04-07 11:39:45 +00:00
/* DS parameter set */
2016-03-27 17:56:02 +00:00
pframe = rtw_set_ie ( pframe , _DSSET_IE_ , 1 , ( unsigned char * ) & ( cur_network - > Configuration . DSConfig ) , & len ) ;
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/* IBSS Parameter Set... */
/* ATIMWindow = cur->Configuration.ATIMWindow; */
2016-03-27 17:56:02 +00:00
ATIMWindow = 0 ;
pframe = rtw_set_ie ( pframe , _IBSS_PARA_IE_ , 2 , ( unsigned char * ) ( & ATIMWindow ) , & len ) ;
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/* todo: ERP IE */
/* EXTERNDED SUPPORTED RATE */
2016-03-27 17:56:02 +00:00
if ( rate_len > 8 )
pframe = rtw_set_ie ( pframe , _EXT_SUPPORTEDRATES_IE_ , ( rate_len - 8 ) , ( cur_network - > SupportedRates + 8 ) , & len ) ;
2017-04-07 11:39:45 +00:00
if ( ( len + TXDESC_SIZE ) > 256 ) {
/* RTW_INFO("marc: beacon frame too large\n"); */
2016-03-27 17:56:02 +00:00
return 0 ;
}
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/* fill the tx descriptor */
2016-03-27 17:56:02 +00:00
ptxdesc = ( struct tx_desc * ) beacon_frame ;
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/* offset 0 */
ptxdesc - > txdw0 | = cpu_to_le32 ( len & 0x0000ffff ) ;
ptxdesc - > txdw0 | = cpu_to_le32 ( ( ( TXDESC_SIZE + OFFSET_SZ ) < < OFFSET_SHT ) & 0x00ff0000 ) ; /* default = 32 bytes for TX Desc */
/* offset 4 */
2016-03-27 17:56:02 +00:00
ptxdesc - > txdw1 | = cpu_to_le32 ( ( 0x10 < < QSEL_SHT ) & 0x00001f00 ) ;
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/* offset 8 */
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ptxdesc - > txdw2 | = cpu_to_le32 ( BMC ) ;
ptxdesc - > txdw2 | = cpu_to_le32 ( BK ) ;
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/* offset 16 */
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ptxdesc - > txdw4 = 0x80000000 ;
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/* offset 20 */
ptxdesc - > txdw5 = 0x00000000 ; /* 1M */
return len + TXDESC_SIZE ;
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}
# endif
_adapter * dvobj_get_port0_adapter ( struct dvobj_priv * dvobj )
{
_adapter * port0_iface = NULL ;
int i ;
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for ( i = 0 ; i < dvobj - > iface_nums ; i + + ) {
if ( get_hw_port ( dvobj - > padapters [ i ] ) = = HW_PORT0 )
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break ;
}
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if ( i < 0 | | i > = dvobj - > iface_nums )
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rtw_warn_on ( 1 ) ;
else
port0_iface = dvobj - > padapters [ i ] ;
return port0_iface ;
}
# if defined(CONFIG_WOWLAN) || defined(CONFIG_AP_WOWLAN)
void rtw_get_current_ip_address ( PADAPTER padapter , u8 * pcurrentip )
{
struct mlme_ext_priv * pmlmeext = & padapter - > mlmeextpriv ;
struct mlme_ext_info * pmlmeinfo = & ( pmlmeext - > mlmext_info ) ;
struct in_device * my_ip_ptr = padapter - > pnetdev - > ip_ptr ;
u8 ipaddress [ 4 ] ;
2017-04-07 11:39:45 +00:00
if ( ( pmlmeinfo - > state & WIFI_FW_LINKING_STATE ) | |
pmlmeinfo - > state & WIFI_FW_AP_STATE ) {
if ( my_ip_ptr ! = NULL ) {
2016-03-27 17:56:02 +00:00
struct in_ifaddr * my_ifa_list = my_ip_ptr - > ifa_list ;
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if ( my_ifa_list ! = NULL ) {
2016-03-27 17:56:02 +00:00
ipaddress [ 0 ] = my_ifa_list - > ifa_address & 0xFF ;
ipaddress [ 1 ] = ( my_ifa_list - > ifa_address > > 8 ) & 0xFF ;
ipaddress [ 2 ] = ( my_ifa_list - > ifa_address > > 16 ) & 0xFF ;
ipaddress [ 3 ] = my_ifa_list - > ifa_address > > 24 ;
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RTW_INFO ( " %s: %d.%d.%d.%d ========== \n " , __func__ ,
ipaddress [ 0 ] , ipaddress [ 1 ] , ipaddress [ 2 ] , ipaddress [ 3 ] ) ;
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_rtw_memcpy ( pcurrentip , ipaddress , 4 ) ;
}
}
}
}
# endif
# ifdef CONFIG_WOWLAN
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bool rtw_wowlan_parser_pattern_cmd ( u8 * input , char * pattern ,
int * pattern_len , char * bit_mask )
{
char * cp = NULL , * end = NULL ;
size_t len = 0 ;
int pos = 0 , mask_pos = 0 , res = 0 ;
u8 member [ 2 ] = { 0 } ;
cp = strchr ( input , ' = ' ) ;
if ( cp ) {
* cp = 0 ;
cp + + ;
input = cp ;
}
while ( 1 ) {
cp = strchr ( input , ' : ' ) ;
if ( cp ) {
len = strlen ( input ) - strlen ( cp ) ;
* cp = 0 ;
cp + + ;
} else
len = 2 ;
if ( bit_mask & & ( strcmp ( input , " - " ) = = 0 | |
strcmp ( input , " xx " ) = = 0 | |
strcmp ( input , " -- " ) = = 0 ) ) {
/* skip this byte and leave mask bit unset */
} else {
u8 hex ;
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2017-04-07 11:39:45 +00:00
strncpy ( member , input , len ) ;
if ( ! rtw_check_pattern_valid ( member , sizeof ( member ) ) ) {
RTW_INFO ( " %s:[ERROR] pattern is invalid!! \n " ,
__func__ ) ;
goto error ;
}
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2017-04-07 11:39:45 +00:00
res = sscanf ( member , " %02hhx " , & hex ) ;
pattern [ pos ] = hex ;
mask_pos = pos / 8 ;
if ( bit_mask )
bit_mask [ mask_pos ] | = 1 < < ( pos % 8 ) ;
}
2016-03-27 17:56:02 +00:00
2017-04-07 11:39:45 +00:00
pos + + ;
if ( ! cp )
break ;
input = cp ;
2016-03-27 17:56:02 +00:00
}
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( * pattern_len ) = pos ;
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2017-04-07 11:39:45 +00:00
return _TRUE ;
error :
return _FALSE ;
}
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2017-04-07 11:39:45 +00:00
bool rtw_check_pattern_valid ( u8 * input , u8 len )
{
int i = 0 ;
bool res = _FALSE ;
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2017-04-07 11:39:45 +00:00
if ( len ! = 2 )
goto exit ;
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for ( i = 0 ; i < len ; i + + )
if ( IsHexDigit ( input [ i ] ) = = _FALSE )
goto exit ;
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2017-04-07 11:39:45 +00:00
res = _SUCCESS ;
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2017-04-07 11:39:45 +00:00
exit :
return res ;
}
void rtw_wow_pattern_sw_reset ( _adapter * adapter )
{
int i ;
struct pwrctrl_priv * pwrctrlpriv = adapter_to_pwrctl ( adapter ) ;
2016-03-27 17:56:02 +00:00
2017-04-07 11:39:45 +00:00
pwrctrlpriv - > wowlan_pattern_idx = DEFAULT_PATTERN_NUM ;
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2017-04-07 11:39:45 +00:00
for ( i = 0 ; i < MAX_WKFM_CAM_NUM ; i + + ) {
_rtw_memset ( pwrctrlpriv - > patterns [ i ] . content , ' \0 ' , sizeof ( pwrctrlpriv - > patterns [ i ] . content ) ) ;
_rtw_memset ( pwrctrlpriv - > patterns [ i ] . mask , ' \0 ' , sizeof ( pwrctrlpriv - > patterns [ i ] . mask ) ) ;
pwrctrlpriv - > patterns [ i ] . len = 0 ;
2016-03-27 17:56:02 +00:00
}
}
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u8 rtw_set_default_pattern ( _adapter * adapter )
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{
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struct pwrctrl_priv * pwrpriv = adapter_to_pwrctl ( adapter ) ;
struct registry_priv * pregistrypriv = & adapter - > registrypriv ;
u8 index = 0 ;
u8 currentip [ 4 ] ;
u8 multicast_addr [ 3 ] = { 0x01 , 0x00 , 0x5e } ;
u8 multicast_ip [ 4 ] = { 0xe0 , 0x28 , 0x28 , 0x2a } ;
u8 unicast_mask [ 5 ] = { 0x3f , 0x70 , 0x80 , 0xc0 , 0x03 } ;
u8 multicast_mask [ 5 ] = { 0x07 , 0x70 , 0x80 , 0xc0 , 0x03 } ;
u8 ip_protocol [ 3 ] = { 0x08 , 0x00 , 0x45 } ;
u8 icmp_protocol [ 1 ] = { 0x01 } ;
u8 tcp_protocol [ 1 ] = { 0x06 } ;
u8 udp_protocol [ 1 ] = { 0x11 } ;
2016-03-27 17:56:02 +00:00
2017-04-07 11:39:45 +00:00
if ( pregistrypriv - > default_patterns_en = = _FALSE )
return 0 ;
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2017-04-07 11:39:45 +00:00
for ( index = 0 ; index < DEFAULT_PATTERN_NUM ; index + + ) {
_rtw_memset ( pwrpriv - > patterns [ index ] . content , 0 ,
sizeof ( pwrpriv - > patterns [ index ] . content ) ) ;
_rtw_memset ( pwrpriv - > patterns [ index ] . mask , 0 ,
sizeof ( pwrpriv - > patterns [ index ] . mask ) ) ;
pwrpriv - > patterns [ index ] . len = 0 ;
2016-03-27 17:56:02 +00:00
}
2017-04-07 11:39:45 +00:00
rtw_get_current_ip_address ( adapter , currentip ) ;
2016-03-27 17:56:02 +00:00
2017-04-07 11:39:45 +00:00
/*TCP/ICMP unicast*/
for ( index = 0 ; index < DEFAULT_PATTERN_NUM ; index + + ) {
switch ( index ) {
case 0 :
_rtw_memcpy ( pwrpriv - > patterns [ index ] . content ,
adapter_mac_addr ( adapter ) ,
ETH_ALEN ) ;
_rtw_memcpy ( pwrpriv - > patterns [ index ] . content + ETH_TYPE_OFFSET ,
& ip_protocol , sizeof ( ip_protocol ) ) ;
_rtw_memcpy ( pwrpriv - > patterns [ index ] . content + PROTOCOL_OFFSET ,
& tcp_protocol , sizeof ( tcp_protocol ) ) ;
_rtw_memcpy ( pwrpriv - > patterns [ index ] . content + IP_OFFSET ,
& currentip , sizeof ( currentip ) ) ;
_rtw_memcpy ( pwrpriv - > patterns [ index ] . mask ,
& unicast_mask , sizeof ( unicast_mask ) ) ;
pwrpriv - > patterns [ index ] . len = IP_OFFSET + sizeof ( currentip ) ;
break ;
case 1 :
_rtw_memcpy ( pwrpriv - > patterns [ index ] . content ,
adapter_mac_addr ( adapter ) ,
ETH_ALEN ) ;
_rtw_memcpy ( pwrpriv - > patterns [ index ] . content + ETH_TYPE_OFFSET ,
& ip_protocol , sizeof ( ip_protocol ) ) ;
_rtw_memcpy ( pwrpriv - > patterns [ index ] . content + PROTOCOL_OFFSET ,
& icmp_protocol , sizeof ( icmp_protocol ) ) ;
_rtw_memcpy ( pwrpriv - > patterns [ index ] . content + IP_OFFSET ,
& currentip , sizeof ( currentip ) ) ;
_rtw_memcpy ( pwrpriv - > patterns [ index ] . mask ,
& unicast_mask , sizeof ( unicast_mask ) ) ;
pwrpriv - > patterns [ index ] . len = IP_OFFSET + sizeof ( currentip ) ;
break ;
case 2 :
_rtw_memcpy ( pwrpriv - > patterns [ index ] . content , & multicast_addr ,
sizeof ( multicast_addr ) ) ;
_rtw_memcpy ( pwrpriv - > patterns [ index ] . content + ETH_TYPE_OFFSET ,
& ip_protocol , sizeof ( ip_protocol ) ) ;
_rtw_memcpy ( pwrpriv - > patterns [ index ] . content + PROTOCOL_OFFSET ,
& udp_protocol , sizeof ( udp_protocol ) ) ;
_rtw_memcpy ( pwrpriv - > patterns [ index ] . content + IP_OFFSET ,
& multicast_ip , sizeof ( multicast_ip ) ) ;
_rtw_memcpy ( pwrpriv - > patterns [ index ] . mask ,
& multicast_mask , sizeof ( multicast_mask ) ) ;
pwrpriv - > patterns [ index ] . len =
IP_OFFSET + sizeof ( multicast_ip ) ;
break ;
2016-03-27 17:56:02 +00:00
}
}
2017-04-07 11:39:45 +00:00
return index ;
2016-03-27 17:56:02 +00:00
}
2017-04-07 11:39:45 +00:00
2016-03-27 17:56:02 +00:00
void rtw_dump_priv_pattern ( _adapter * adapter , u8 idx )
{
struct pwrctrl_priv * pwrctl = adapter_to_pwrctl ( adapter ) ;
char str_1 [ 128 ] ;
char * p_str ;
u8 val8 = 0 ;
int i = 0 , j = 0 , len = 0 , max_len = 0 ;
2017-04-07 11:39:45 +00:00
RTW_INFO ( " =========[%d]======== \n " , idx ) ;
2016-03-27 17:56:02 +00:00
2017-04-07 11:39:45 +00:00
RTW_INFO ( " >>>priv_pattern_content: \n " ) ;
2016-03-27 17:56:02 +00:00
p_str = str_1 ;
max_len = sizeof ( str_1 ) ;
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for ( i = 0 ; i < MAX_WKFM_PATTERN_SIZE / 8 ; i + + ) {
2016-03-27 17:56:02 +00:00
_rtw_memset ( p_str , 0 , max_len ) ;
len = 0 ;
for ( j = 0 ; j < 8 ; j + + ) {
2017-04-07 11:39:45 +00:00
val8 = pwrctl - > patterns [ idx ] . content [ i * 8 + j ] ;
2016-03-27 17:56:02 +00:00
len + = snprintf ( p_str + len , max_len - len ,
" %02x " , val8 ) ;
}
2017-04-07 11:39:45 +00:00
RTW_INFO ( " %s \n " , p_str ) ;
2016-03-27 17:56:02 +00:00
}
2017-04-07 11:39:45 +00:00
RTW_INFO ( " >>>priv_pattern_mask: \n " ) ;
for ( i = 0 ; i < MAX_WKFM_SIZE / 8 ; i + + ) {
2016-03-27 17:56:02 +00:00
_rtw_memset ( p_str , 0 , max_len ) ;
len = 0 ;
for ( j = 0 ; j < 8 ; j + + ) {
2017-04-07 11:39:45 +00:00
val8 = pwrctl - > patterns [ idx ] . mask [ i * 8 + j ] ;
2016-03-27 17:56:02 +00:00
len + = snprintf ( p_str + len , max_len - len ,
" %02x " , val8 ) ;
}
2017-04-07 11:39:45 +00:00
RTW_INFO ( " %s \n " , p_str ) ;
2016-03-27 17:56:02 +00:00
}
2017-04-07 11:39:45 +00:00
RTW_INFO ( " >>>priv_pattern_len: \n " ) ;
RTW_INFO ( " %s: len: %d \n " , __func__ , pwrctl - > patterns [ idx ] . len ) ;
2016-03-27 17:56:02 +00:00
}
2017-04-07 11:39:45 +00:00
void rtw_wow_pattern_sw_dump ( _adapter * adapter )
2016-03-27 17:56:02 +00:00
{
2017-04-07 11:39:45 +00:00
int i ;
2016-03-27 17:56:02 +00:00
2017-04-07 11:39:45 +00:00
RTW_INFO ( " ********[RTK priv-patterns]********* \n " ) ;
for ( i = 0 ; i < MAX_WKFM_CAM_NUM ; i + + )
rtw_dump_priv_pattern ( adapter , i ) ;
2016-03-27 17:56:02 +00:00
}
2017-04-07 11:39:45 +00:00
void rtw_get_sec_iv ( PADAPTER padapter , u8 * pcur_dot11txpn , u8 * StaAddr )
2016-03-27 17:56:02 +00:00
{
struct sta_info * psta ;
struct security_priv * psecpriv = & padapter - > securitypriv ;
_rtw_memset ( pcur_dot11txpn , 0 , 8 ) ;
2017-04-07 11:39:45 +00:00
if ( NULL = = StaAddr )
return ;
2016-03-27 17:56:02 +00:00
psta = rtw_get_stainfo ( & padapter - > stapriv , StaAddr ) ;
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RTW_INFO ( " %s(): StaAddr: %02x %02x %02x %02x %02x %02x \n " ,
__func__ , StaAddr [ 0 ] , StaAddr [ 1 ] , StaAddr [ 2 ] ,
StaAddr [ 3 ] , StaAddr [ 4 ] , StaAddr [ 5 ] ) ;
2016-03-27 17:56:02 +00:00
2017-04-07 11:39:45 +00:00
if ( psta ) {
2016-03-27 17:56:02 +00:00
if ( psecpriv - > dot11PrivacyAlgrthm ! = _NO_PRIVACY_ & & psta - > dot11txpn . val > 0 )
psta - > dot11txpn . val - - ;
AES_IV ( pcur_dot11txpn , psta - > dot11txpn , 0 ) ;
2017-04-07 11:39:45 +00:00
RTW_INFO ( " %s(): CurrentIV: %02x %02x %02x %02x %02x %02x %02x %02x \n "
, __func__ , pcur_dot11txpn [ 0 ] , pcur_dot11txpn [ 1 ] ,
pcur_dot11txpn [ 2 ] , pcur_dot11txpn [ 3 ] , pcur_dot11txpn [ 4 ] ,
pcur_dot11txpn [ 5 ] , pcur_dot11txpn [ 6 ] , pcur_dot11txpn [ 7 ] ) ;
2016-03-27 17:56:02 +00:00
}
}
void rtw_set_sec_pn ( PADAPTER padapter )
{
2017-04-07 11:39:45 +00:00
struct sta_info * psta ;
struct mlme_ext_priv * pmlmeext = & ( padapter - > mlmeextpriv ) ;
struct mlme_ext_info * pmlmeinfo = & ( pmlmeext - > mlmext_info ) ;
struct pwrctrl_priv * pwrpriv = adapter_to_pwrctl ( padapter ) ;
struct security_priv * psecpriv = & padapter - > securitypriv ;
2016-03-27 17:56:02 +00:00
2017-04-07 11:39:45 +00:00
psta = rtw_get_stainfo ( & padapter - > stapriv ,
get_my_bssid ( & pmlmeinfo - > network ) ) ;
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if ( psta ) {
if ( pwrpriv - > wowlan_fw_iv > psta - > dot11txpn . val ) {
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if ( psecpriv - > dot11PrivacyAlgrthm ! = _NO_PRIVACY_ )
psta - > dot11txpn . val = pwrpriv - > wowlan_fw_iv + 2 ;
} else {
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RTW_INFO ( " %s(): FW IV is smaller than driver \n " , __func__ ) ;
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psta - > dot11txpn . val + = 2 ;
}
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RTW_INFO ( " %s: dot11txpn: 0x%016llx \n " , __func__ , psta - > dot11txpn . val ) ;
}
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}
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# endif /* CONFIG_WOWLAN */
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# ifdef CONFIG_PNO_SUPPORT
# define CSCAN_TLV_TYPE_SSID_IE 'S'
# define CIPHER_IE "key_mgmt="
# define CIPHER_NONE "NONE"
# define CIPHER_WPA_PSK "WPA-PSK"
# define CIPHER_WPA_EAP "WPA-EAP IEEE8021X"
/*
* SSIDs list parsing from cscan tlv list
*/
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int rtw_parse_ssid_list_tlv ( char * * list_str , pno_ssid_t * ssid ,
int max , int * bytes_left )
{
char * str ;
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int idx = 0 ;
if ( ( list_str = = NULL ) | | ( * list_str = = NULL ) | | ( * bytes_left < 0 ) ) {
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RTW_INFO ( " %s error paramters \n " , __func__ ) ;
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return - 1 ;
}
str = * list_str ;
while ( * bytes_left > 0 ) {
if ( str [ 0 ] ! = CSCAN_TLV_TYPE_SSID_IE ) {
* list_str = str ;
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RTW_INFO ( " nssid=%d left_parse=%d %d \n " , idx , * bytes_left , str [ 0 ] ) ;
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return idx ;
}
/* Get proper CSCAN_TLV_TYPE_SSID_IE */
* bytes_left - = 1 ;
str + = 1 ;
if ( str [ 0 ] = = 0 ) {
/* Broadcast SSID */
ssid [ idx ] . SSID_len = 0 ;
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memset ( ( char * ) ssid [ idx ] . SSID , 0x0 , WLAN_SSID_MAXLEN ) ;
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* bytes_left - = 1 ;
str + = 1 ;
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RTW_INFO ( " BROADCAST SCAN left=%d \n " , * bytes_left ) ;
} else if ( str [ 0 ] < = WLAN_SSID_MAXLEN ) {
/* Get proper SSID size */
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ssid [ idx ] . SSID_len = str [ 0 ] ;
* bytes_left - = 1 ;
str + = 1 ;
/* Get SSID */
if ( ssid [ idx ] . SSID_len > * bytes_left ) {
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RTW_INFO ( " %s out of memory range len=%d but left=%d \n " ,
__func__ , ssid [ idx ] . SSID_len , * bytes_left ) ;
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return - 1 ;
}
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memcpy ( ( char * ) ssid [ idx ] . SSID , str , ssid [ idx ] . SSID_len ) ;
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* bytes_left - = ssid [ idx ] . SSID_len ;
str + = ssid [ idx ] . SSID_len ;
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RTW_INFO ( " %s :size=%d left=%d \n " ,
( char * ) ssid [ idx ] . SSID , ssid [ idx ] . SSID_len , * bytes_left ) ;
} else {
RTW_INFO ( " ### SSID size more that %d \n " , str [ 0 ] ) ;
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return - 1 ;
}
if ( idx + + > max ) {
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RTW_INFO ( " %s number of SSIDs more that %d \n " , __func__ , idx ) ;
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return - 1 ;
}
}
* list_str = str ;
return idx ;
}
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int rtw_parse_cipher_list ( struct pno_nlo_info * nlo_info , char * list_str )
{
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char * pch , * pnext , * pend ;
u8 key_len = 0 , index = 0 ;
pch = list_str ;
if ( nlo_info = = NULL | | list_str = = NULL ) {
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RTW_INFO ( " %s error paramters \n " , __func__ ) ;
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return - 1 ;
}
while ( strlen ( pch ) ! = 0 ) {
pnext = strstr ( pch , " key_mgmt= " ) ;
if ( pnext ! = NULL ) {
pch = pnext + strlen ( CIPHER_IE ) ;
pend = strstr ( pch , " } " ) ;
if ( strncmp ( pch , CIPHER_NONE ,
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strlen ( CIPHER_NONE ) ) = = 0 )
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nlo_info - > ssid_cipher_info [ index ] = 0x00 ;
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else if ( strncmp ( pch , CIPHER_WPA_PSK ,
strlen ( CIPHER_WPA_PSK ) ) = = 0 )
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nlo_info - > ssid_cipher_info [ index ] = 0x66 ;
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else if ( strncmp ( pch , CIPHER_WPA_EAP ,
strlen ( CIPHER_WPA_EAP ) ) = = 0 )
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nlo_info - > ssid_cipher_info [ index ] = 0x01 ;
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index + + ;
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pch = pend + 1 ;
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} else
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break ;
}
return 0 ;
}
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int rtw_dev_nlo_info_set ( struct pno_nlo_info * nlo_info , pno_ssid_t * ssid ,
int num , int pno_time , int pno_repeat , int pno_freq_expo_max )
{
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int i = 0 ;
struct file * fp ;
mm_segment_t fs ;
loff_t pos = 0 ;
u8 * source = NULL ;
long len = 0 ;
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RTW_INFO ( " +%s+ \n " , __func__ ) ;
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nlo_info - > fast_scan_period = pno_time ;
nlo_info - > ssid_num = num & BIT_LEN_MASK_32 ( 8 ) ;
nlo_info - > hidden_ssid_num = num & BIT_LEN_MASK_32 ( 8 ) ;
nlo_info - > slow_scan_period = ( pno_time * 2 ) ;
nlo_info - > fast_scan_iterations = 5 ;
if ( nlo_info - > hidden_ssid_num > 8 )
nlo_info - > hidden_ssid_num = 8 ;
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/* TODO: channel list and probe index is all empty. */
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for ( i = 0 ; i < num ; i + + ) {
nlo_info - > ssid_length [ i ]
= ssid [ i ] . SSID_len ;
}
/* cipher array */
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fp = filp_open ( " /home/timlee/wpa_kk/wpa.conf " , O_RDONLY , 0644 ) ;
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if ( IS_ERR ( fp ) ) {
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RTW_INFO ( " Error, wpa_supplicant.conf doesn't exist. \n " ) ;
RTW_INFO ( " Error, cipher array using default value. \n " ) ;
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return 0 ;
}
len = i_size_read ( fp - > f_path . dentry - > d_inode ) ;
if ( len < 0 | | len > 2048 ) {
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RTW_INFO ( " Error, file size is bigger than 2048. \n " ) ;
RTW_INFO ( " Error, cipher array using default value. \n " ) ;
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return 0 ;
}
fs = get_fs ( ) ;
set_fs ( KERNEL_DS ) ;
source = rtw_zmalloc ( 2048 ) ;
if ( source ! = NULL ) {
2017-10-22 23:05:31 +00:00
# if (LINUX_VERSION_CODE >= KERNEL_VERSION(4, 14, 0))
len = kernel_read ( fp , source , len , & pos ) ;
# else
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len = vfs_read ( fp , source , len , & pos ) ;
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# endif
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rtw_parse_cipher_list ( nlo_info , source ) ;
rtw_mfree ( source , 2048 ) ;
}
set_fs ( fs ) ;
filp_close ( fp , NULL ) ;
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RTW_INFO ( " -%s- \n " , __func__ ) ;
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return 0 ;
}
int rtw_dev_ssid_list_set ( struct pno_ssid_list * pno_ssid_list ,
2017-04-07 11:39:45 +00:00
pno_ssid_t * ssid , u8 num )
{
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int i = 0 ;
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if ( num > MAX_PNO_LIST_COUNT )
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num = MAX_PNO_LIST_COUNT ;
for ( i = 0 ; i < num ; i + + ) {
_rtw_memcpy ( & pno_ssid_list - > node [ i ] . SSID ,
2017-04-07 11:39:45 +00:00
ssid [ i ] . SSID , ssid [ i ] . SSID_len ) ;
2016-03-27 17:56:02 +00:00
pno_ssid_list - > node [ i ] . SSID_len = ssid [ i ] . SSID_len ;
}
return 0 ;
}
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int rtw_dev_scan_info_set ( _adapter * padapter , pno_ssid_t * ssid ,
unsigned char ch , unsigned char ch_offset , unsigned short bw_mode )
{
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struct pwrctrl_priv * pwrctl = adapter_to_pwrctl ( padapter ) ;
struct pno_scan_info * scan_info = pwrctl - > pscan_info ;
int i ;
scan_info - > channel_num = MAX_SCAN_LIST_COUNT ;
scan_info - > orig_ch = ch ;
scan_info - > orig_bw = bw_mode ;
scan_info - > orig_40_offset = ch_offset ;
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for ( i = 0 ; i < scan_info - > channel_num ; i + + ) {
2016-03-27 17:56:02 +00:00
if ( i < 11 )
scan_info - > ssid_channel_info [ i ] . active = 1 ;
else
scan_info - > ssid_channel_info [ i ] . active = 0 ;
scan_info - > ssid_channel_info [ i ] . timeout = 100 ;
scan_info - > ssid_channel_info [ i ] . tx_power =
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PHY_GetTxPowerIndex ( padapter , 0 , 0x02 , bw_mode , i + 1 ) ;
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2017-04-07 11:39:45 +00:00
scan_info - > ssid_channel_info [ i ] . channel = i + 1 ;
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}
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RTW_INFO ( " %s, channel_num: %d, orig_ch: %d, orig_bw: %d orig_40_offset: %d \n " ,
__func__ , scan_info - > channel_num , scan_info - > orig_ch ,
scan_info - > orig_bw , scan_info - > orig_40_offset ) ;
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return 0 ;
}
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int rtw_dev_pno_set ( struct net_device * net , pno_ssid_t * ssid , int num ,
int pno_time , int pno_repeat , int pno_freq_expo_max )
{
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_adapter * padapter = ( _adapter * ) rtw_netdev_priv ( net ) ;
struct pwrctrl_priv * pwrctl = adapter_to_pwrctl ( padapter ) ;
struct mlme_ext_priv * pmlmeext = & padapter - > mlmeextpriv ;
int ret = - 1 ;
if ( num = = 0 ) {
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RTW_INFO ( " %s, nssid is zero, no need to setup pno ssid list \n " , __func__ ) ;
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return 0 ;
}
if ( pwrctl = = NULL ) {
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RTW_INFO ( " %s, ERROR: pwrctl is NULL \n " , __func__ ) ;
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return - 1 ;
} else {
pwrctl - > pnlo_info =
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( pno_nlo_info_t * ) rtw_zmalloc ( sizeof ( pno_nlo_info_t ) ) ;
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pwrctl - > pno_ssid_list =
2017-04-07 11:39:45 +00:00
( pno_ssid_list_t * ) rtw_zmalloc ( sizeof ( pno_ssid_list_t ) ) ;
2016-03-27 17:56:02 +00:00
pwrctl - > pscan_info =
2017-04-07 11:39:45 +00:00
( pno_scan_info_t * ) rtw_zmalloc ( sizeof ( pno_scan_info_t ) ) ;
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}
if ( pwrctl - > pnlo_info = = NULL | |
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pwrctl - > pscan_info = = NULL | |
pwrctl - > pno_ssid_list = = NULL ) {
RTW_INFO ( " %s, ERROR: alloc nlo_info, ssid_list, scan_info fail \n " , __func__ ) ;
2016-03-27 17:56:02 +00:00
goto failing ;
}
pwrctl - > pno_in_resume = _FALSE ;
pwrctl - > pno_inited = _TRUE ;
/* NLO Info */
ret = rtw_dev_nlo_info_set ( pwrctl - > pnlo_info , ssid , num ,
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pno_time , pno_repeat , pno_freq_expo_max ) ;
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/* SSID Info */
ret = rtw_dev_ssid_list_set ( pwrctl - > pno_ssid_list , ssid , num ) ;
/* SCAN Info */
ret = rtw_dev_scan_info_set ( padapter , ssid , pmlmeext - > cur_channel ,
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pmlmeext - > cur_ch_offset , pmlmeext - > cur_bwmode ) ;
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2017-04-07 11:39:45 +00:00
RTW_INFO ( " +%s num: %d, pno_time: %d, pno_repeat:%d, pno_freq_expo_max:%d+ \n " ,
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__func__ , num , pno_time , pno_repeat , pno_freq_expo_max ) ;
return 0 ;
failing :
if ( pwrctl - > pnlo_info ) {
rtw_mfree ( ( u8 * ) pwrctl - > pnlo_info , sizeof ( pno_nlo_info_t ) ) ;
pwrctl - > pnlo_info = NULL ;
}
if ( pwrctl - > pno_ssid_list ) {
rtw_mfree ( ( u8 * ) pwrctl - > pno_ssid_list , sizeof ( pno_ssid_list_t ) ) ;
pwrctl - > pno_ssid_list = NULL ;
}
if ( pwrctl - > pscan_info ) {
rtw_mfree ( ( u8 * ) pwrctl - > pscan_info , sizeof ( pno_scan_info_t ) ) ;
pwrctl - > pscan_info = NULL ;
}
return - 1 ;
}
# ifdef CONFIG_PNO_SET_DEBUG
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void rtw_dev_pno_debug ( struct net_device * net )
{
2016-03-27 17:56:02 +00:00
_adapter * padapter = ( _adapter * ) rtw_netdev_priv ( net ) ;
struct pwrctrl_priv * pwrctl = adapter_to_pwrctl ( padapter ) ;
int i = 0 , j = 0 ;
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RTW_INFO ( " *******NLO_INFO******** \n " ) ;
RTW_INFO ( " ssid_num: %d \n " , pwrctl - > pnlo_info - > ssid_num ) ;
RTW_INFO ( " fast_scan_iterations: %d \n " ,
pwrctl - > pnlo_info - > fast_scan_iterations ) ;
RTW_INFO ( " fast_scan_period: %d \n " , pwrctl - > pnlo_info - > fast_scan_period ) ;
RTW_INFO ( " slow_scan_period: %d \n " , pwrctl - > pnlo_info - > slow_scan_period ) ;
2016-03-27 17:56:02 +00:00
for ( i = 0 ; i < MAX_PNO_LIST_COUNT ; i + + ) {
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RTW_INFO ( " %d SSID (%s) length (%d) cipher(%x) channel(%d) \n " ,
i , pwrctl - > pno_ssid_list - > node [ i ] . SSID , pwrctl - > pnlo_info - > ssid_length [ i ] ,
pwrctl - > pnlo_info - > ssid_cipher_info [ i ] , pwrctl - > pnlo_info - > ssid_channel_info [ i ] ) ;
}
RTW_INFO ( " ******SCAN_INFO****** \n " ) ;
RTW_INFO ( " ch_num: %d \n " , pwrctl - > pscan_info - > channel_num ) ;
RTW_INFO ( " orig_ch: %d \n " , pwrctl - > pscan_info - > orig_ch ) ;
RTW_INFO ( " orig bw: %d \n " , pwrctl - > pscan_info - > orig_bw ) ;
RTW_INFO ( " orig 40 offset: %d \n " , pwrctl - > pscan_info - > orig_40_offset ) ;
for ( i = 0 ; i < MAX_SCAN_LIST_COUNT ; i + + ) {
RTW_INFO ( " [%02d] avtive:%d, timeout:%d, tx_power:%d, ch:%02d \n " ,
i , pwrctl - > pscan_info - > ssid_channel_info [ i ] . active ,
pwrctl - > pscan_info - > ssid_channel_info [ i ] . timeout ,
pwrctl - > pscan_info - > ssid_channel_info [ i ] . tx_power ,
pwrctl - > pscan_info - > ssid_channel_info [ i ] . channel ) ;
}
RTW_INFO ( " ***************** \n " ) ;
}
# endif /* CONFIG_PNO_SET_DEBUG */
# endif /* CONFIG_PNO_SUPPORT */