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/******************************************************************************
*
* Copyright ( c ) 2007 - 2011 Realtek Corporation . All rights reserved .
*
* 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 _OS_INTFS_C_
# include <drv_types.h>
# if defined (PLATFORM_LINUX) && defined (PLATFORM_WINDOWS)
# error "Shall be Linux or Windows, but not both!\n"
# endif
MODULE_LICENSE ( " GPL " ) ;
MODULE_DESCRIPTION ( " Realtek Wireless Lan Driver " ) ;
MODULE_AUTHOR ( " Realtek Semiconductor Corp. " ) ;
MODULE_VERSION ( DRIVERVERSION ) ;
/* module param defaults */
int rtw_chip_version = 0x00 ;
int rtw_rfintfs = HWPI ;
int rtw_lbkmode = 0 ; //RTL8712_AIR_TRX;
int rtw_network_mode = Ndis802_11IBSS ; //Ndis802_11Infrastructure;//infra, ad-hoc, auto
//NDIS_802_11_SSID ssid;
int rtw_channel = 1 ; //ad-hoc support requirement
int rtw_wireless_mode = WIRELESS_MODE_MAX ;
int rtw_vrtl_carrier_sense = AUTO_VCS ;
int rtw_vcs_type = RTS_CTS ; //*
int rtw_rts_thresh = 2347 ; //*
int rtw_frag_thresh = 2346 ; //*
int rtw_preamble = PREAMBLE_LONG ; //long, short, auto
int rtw_scan_mode = 1 ; //active, passive
int rtw_adhoc_tx_pwr = 1 ;
int rtw_soft_ap = 0 ;
//int smart_ps = 1;
# ifdef CONFIG_POWER_SAVING
int rtw_power_mgnt = 1 ;
# ifdef CONFIG_IPS_LEVEL_2
int rtw_ips_mode = IPS_LEVEL_2 ;
# else
int rtw_ips_mode = IPS_NORMAL ;
# endif
# else
int rtw_power_mgnt = PS_MODE_ACTIVE ;
int rtw_ips_mode = IPS_NONE ;
# endif
int rtw_smart_ps = 2 ;
# ifdef CONFIG_TX_EARLY_MODE
int rtw_early_mode = 1 ;
# endif
module_param ( rtw_ips_mode , int , 0644 ) ;
MODULE_PARM_DESC ( rtw_ips_mode , " The default IPS mode " ) ;
int rtw_radio_enable = 1 ;
int rtw_long_retry_lmt = 7 ;
int rtw_short_retry_lmt = 7 ;
int rtw_busy_thresh = 40 ;
//int qos_enable = 0; //*
int rtw_ack_policy = NORMAL_ACK ;
int rtw_mp_mode = 0 ;
int rtw_software_encrypt = 0 ;
int rtw_software_decrypt = 0 ;
int rtw_acm_method = 0 ; // 0:By SW 1:By HW.
int rtw_wmm_enable = 1 ; // default is set to enable the wmm.
int rtw_uapsd_enable = 0 ;
int rtw_uapsd_max_sp = NO_LIMIT ;
int rtw_uapsd_acbk_en = 0 ;
int rtw_uapsd_acbe_en = 0 ;
int rtw_uapsd_acvi_en = 0 ;
int rtw_uapsd_acvo_en = 0 ;
# ifdef CONFIG_80211N_HT
int rtw_ht_enable = 1 ;
// 0: 20 MHz, 1: 40 MHz, 2: 80 MHz, 3: 160MHz, 4: 80+80MHz
// 2.4G use bit 0 ~ 3, 5G use bit 4 ~ 7
// 0x21 means enable 2.4G 40MHz & 5G 80MHz
int rtw_bw_mode = 0x21 ;
int rtw_cbw40_enable = 3 ; // 0 :diable, bit(0): enable 2.4g, bit(1): enable 5g
int rtw_ampdu_enable = 1 ; //for enable tx_ampdu
int rtw_rx_stbc = 1 ; // 0: disable, bit(0):enable 2.4g, bit(1):enable 5g, default is set to enable 2.4GHZ for IOT issue with bufflao's AP at 5GHZ
int rtw_ampdu_amsdu = 0 ; // 0: disabled, 1:enabled, 2:auto
// Short GI support Bit Map
// BIT0 - 20MHz, 0: support, 1: non-support
// BIT1 - 40MHz, 0: support, 1: non-support
// BIT2 - 80MHz, 0: support, 1: non-support
// BIT3 - 160MHz, 0: support, 1: non-support
int rtw_short_gi = 0xf ;
# endif //CONFIG_80211N_HT
# ifdef CONFIG_80211AC_VHT
int rtw_vht_enable = 1 ;
int rtw_ampdu_factor = 7 ;
int rtw_vht_rate_sel = 0 ;
// BIT0: Enable VHT LDPC Rx, BIT1: Enable VHT LDPC Tx, BIT4: Enable HT LDPC Rx, BIT5: Enable HT LDPC Tx
int rtw_ldpc_cap = 0x33 ;
// BIT0: Enable VHT STBC Rx, BIT1: Enable VHT STBC Tx, BIT4: Enable HT STBC Rx, BIT5: Enable HT STBC Tx
int rtw_stbc_cap = 0x3 ;
// BIT0: Enable VHT Beamformer, BIT1: Enable VHT Beamformee, BIT4: Enable HT Beamformer, BIT5: Enable HT Beamformee
int rtw_beamform_cap = 0 ;
# endif //CONFIG_80211AC_VHT
int rtw_lowrate_two_xmit = 1 ; //Use 2 path Tx to transmit MCS0~7 and legacy mode
//int rf_config = RF_1T2R; // 1T2R
int rtw_rf_config = RF_MAX_TYPE ; //auto
int rtw_low_power = 0 ;
# ifdef CONFIG_WIFI_TEST
int rtw_wifi_spec = 1 ; //for wifi test
# else
int rtw_wifi_spec = 0 ;
# endif
int rtw_channel_plan = RT_CHANNEL_DOMAIN_MAX ;
# ifdef CONFIG_BT_COEXIST
int rtw_btcoex_enable = 1 ;
int rtw_bt_iso = 2 ; // 0:Low, 1:High, 2:From Efuse
int rtw_bt_sco = 3 ; // 0:Idle, 1:None-SCO, 2:SCO, 3:From Counter, 4.Busy, 5.OtherBusy
int rtw_bt_ampdu = 1 ; // 0:Disable BT control A-MPDU, 1:Enable BT control A-MPDU.
# endif
int rtw_AcceptAddbaReq = _TRUE ; // 0:Reject AP's Add BA req, 1:Accept AP's Add BA req.
int rtw_antdiv_cfg = 2 ; // 0:OFF , 1:ON, 2:decide by Efuse config
int rtw_antdiv_type = 0 ; //0:decide by efuse 1: for 88EE, 1Tx and 1RxCG are diversity.(2 Ant with SPDT), 2: for 88EE, 1Tx and 2Rx are diversity.( 2 Ant, Tx and RxCG are both on aux port, RxCS is on main port ), 3: for 88EE, 1Tx and 1RxCG are fixed.(1Ant, Tx and RxCG are both on aux port)
# ifdef CONFIG_USB_AUTOSUSPEND
int rtw_enusbss = 1 ; //0:disable,1:enable
# else
int rtw_enusbss = 0 ; //0:disable,1:enable
# endif
int rtw_hwpdn_mode = 2 ; //0:disable,1:enable,2: by EFUSE config
# ifdef CONFIG_HW_PWRP_DETECTION
int rtw_hwpwrp_detect = 1 ;
# else
int rtw_hwpwrp_detect = 0 ; //HW power ping detect 0:disable , 1:enable
# endif
# ifdef CONFIG_USB_HCI
int rtw_hw_wps_pbc = 1 ;
# else
int rtw_hw_wps_pbc = 0 ;
# endif
# ifdef CONFIG_TX_MCAST2UNI
int rtw_mc2u_disable = 0 ;
# endif // CONFIG_TX_MCAST2UNI
# ifdef CONFIG_DUALMAC_CONCURRENT
int rtw_dmsp = 0 ;
# endif // CONFIG_DUALMAC_CONCURRENT
# ifdef CONFIG_80211D
int rtw_80211d = 0 ;
# endif
# ifdef CONFIG_REGULATORY_CTRL
int rtw_regulatory_id = 2 ;
# else
int rtw_regulatory_id = 0xff ; // Regulatory tab id, 0xff = follow efuse's setting
# endif
module_param ( rtw_regulatory_id , int , 0644 ) ;
# ifdef CONFIG_SPECIAL_SETTING_FOR_FUNAI_TV
int rtw_force_ant = 2 ; //0 :normal, 1:Main ant, 2:Aux ant
int rtw_force_igi = 0 ; //0 :normal
module_param ( rtw_force_ant , int , 0644 ) ;
module_param ( rtw_force_igi , int , 0644 ) ;
# endif
char * ifname = " wlan%d " ;
module_param ( ifname , charp , 0644 ) ;
MODULE_PARM_DESC ( ifname , " The default name to allocate for first interface " ) ;
char * if2name = " wlan%d " ;
module_param ( if2name , charp , 0644 ) ;
MODULE_PARM_DESC ( if2name , " The default name to allocate for second interface " ) ;
char * rtw_initmac = 0 ; // temp mac address if users want to use instead of the mac address in Efuse
# ifdef CONFIG_MULTI_VIR_IFACES
int rtw_ext_iface_num = 1 ; //primary/secondary iface is excluded
module_param ( rtw_ext_iface_num , int , 0644 ) ;
# endif //CONFIG_MULTI_VIR_IFACES
module_param ( rtw_initmac , charp , 0644 ) ;
module_param ( rtw_channel_plan , int , 0644 ) ;
module_param ( rtw_chip_version , int , 0644 ) ;
module_param ( rtw_rfintfs , int , 0644 ) ;
module_param ( rtw_lbkmode , int , 0644 ) ;
module_param ( rtw_network_mode , int , 0644 ) ;
module_param ( rtw_channel , int , 0644 ) ;
module_param ( rtw_mp_mode , int , 0644 ) ;
module_param ( rtw_wmm_enable , int , 0644 ) ;
module_param ( rtw_vrtl_carrier_sense , int , 0644 ) ;
module_param ( rtw_vcs_type , int , 0644 ) ;
module_param ( rtw_busy_thresh , int , 0644 ) ;
# ifdef CONFIG_80211N_HT
module_param ( rtw_ht_enable , int , 0644 ) ;
module_param ( rtw_bw_mode , int , 0644 ) ;
module_param ( rtw_ampdu_enable , int , 0644 ) ;
module_param ( rtw_rx_stbc , int , 0644 ) ;
module_param ( rtw_ampdu_amsdu , int , 0644 ) ;
# endif //CONFIG_80211N_HT
# ifdef CONFIG_80211AC_VHT
module_param ( rtw_vht_enable , int , 0644 ) ;
# endif //CONFIG_80211AC_VHT
module_param ( rtw_lowrate_two_xmit , int , 0644 ) ;
module_param ( rtw_rf_config , int , 0644 ) ;
module_param ( rtw_power_mgnt , int , 0644 ) ;
module_param ( rtw_smart_ps , int , 0644 ) ;
module_param ( rtw_low_power , int , 0644 ) ;
module_param ( rtw_wifi_spec , int , 0644 ) ;
module_param ( rtw_antdiv_cfg , int , 0644 ) ;
module_param ( rtw_antdiv_type , int , 0644 ) ;
module_param ( rtw_enusbss , int , 0644 ) ;
module_param ( rtw_hwpdn_mode , int , 0644 ) ;
module_param ( rtw_hwpwrp_detect , int , 0644 ) ;
module_param ( rtw_hw_wps_pbc , int , 0644 ) ;
# ifdef CONFIG_TX_EARLY_MODE
module_param ( rtw_early_mode , int , 0644 ) ;
# endif
# ifdef CONFIG_ADAPTOR_INFO_CACHING_FILE
char * rtw_adaptor_info_caching_file_path = " /data/misc/wifi/rtw_cache " ;
module_param ( rtw_adaptor_info_caching_file_path , charp , 0644 ) ;
MODULE_PARM_DESC ( rtw_adaptor_info_caching_file_path , " The path of adapter info cache file " ) ;
# endif //CONFIG_ADAPTOR_INFO_CACHING_FILE
# ifdef CONFIG_LAYER2_ROAMING
uint rtw_max_roaming_times = 2 ;
module_param ( rtw_max_roaming_times , uint , 0644 ) ;
MODULE_PARM_DESC ( rtw_max_roaming_times , " The max roaming times to try " ) ;
# endif //CONFIG_LAYER2_ROAMING
# ifdef CONFIG_IOL
int rtw_fw_iol = 1 ; // 0:Disable, 1:enable, 2:by usb speed
module_param ( rtw_fw_iol , int , 0644 ) ;
MODULE_PARM_DESC ( rtw_fw_iol , " FW IOL " ) ;
# endif //CONFIG_IOL
# ifdef CONFIG_FILE_FWIMG
char * rtw_fw_file_path = " " ;
module_param ( rtw_fw_file_path , charp , 0644 ) ;
MODULE_PARM_DESC ( rtw_fw_file_path , " The path of fw image " ) ;
# endif //CONFIG_FILE_FWIMG
# ifdef CONFIG_TX_MCAST2UNI
module_param ( rtw_mc2u_disable , int , 0644 ) ;
# endif // CONFIG_TX_MCAST2UNI
# ifdef CONFIG_DUALMAC_CONCURRENT
module_param ( rtw_dmsp , int , 0644 ) ;
# endif // CONFIG_DUALMAC_CONCURRENT
# ifdef CONFIG_80211D
module_param ( rtw_80211d , int , 0644 ) ;
MODULE_PARM_DESC ( rtw_80211d , " Enable 802.11d mechanism " ) ;
# endif
# ifdef CONFIG_BT_COEXIST
module_param ( rtw_btcoex_enable , int , 0644 ) ;
MODULE_PARM_DESC ( rtw_btcoex_enable , " Enable BT co-existence mechanism " ) ;
# endif
uint rtw_notch_filter = RTW_NOTCH_FILTER ;
module_param ( rtw_notch_filter , uint , 0644 ) ;
MODULE_PARM_DESC ( rtw_notch_filter , " 0:Disable, 1:Enable, 2:Enable only for P2P " ) ;
static uint loadparam ( PADAPTER padapter , _nic_hdl pnetdev ) ;
int _netdev_open ( struct net_device * pnetdev ) ;
int netdev_open ( struct net_device * pnetdev ) ;
static int netdev_close ( struct net_device * pnetdev ) ;
//#ifdef RTK_DMP_PLATFORM
# ifdef CONFIG_PROC_DEBUG
# define RTL8192C_PROC_NAME "rtl819xC"
# define RTL8192D_PROC_NAME "rtl819xD"
static char rtw_proc_name [ IFNAMSIZ ] ;
static struct proc_dir_entry * rtw_proc = NULL ;
static int rtw_proc_cnt = 0 ;
# define RTW_PROC_NAME DRV_NAME
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# if(LINUX_VERSION_CODE >= KERNEL_VERSION(3,10,0))
typedef ssize_t ( * read_proc_t ) ( struct file * , char __user * , ssize_t , loff_t * ) ;
static inline struct proc_dir_entry * create_proc_read_entry ( const char * name ,
mode_t mode , struct proc_dir_entry * base ,
read_proc_t * read_proc , void * data )
{
struct file_operations fops = {
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owner : THIS_MODULE ,
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read : read_proc
} ;
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struct proc_dir_entry * res = proc_create_data ( name , mode , base , & fops , data ) ;
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return res ;
}
typedef ssize_t ( * write_proc_t ) ( struct file * , const char __user * , ssize_t , loff_t * ) ;
static inline struct proc_dir_entry * create_proc_read_write_entry ( const char * name ,
mode_t mode , struct proc_dir_entry * base ,
read_proc_t * read_proc , void * data , write_proc_t * write_proc )
{
struct file_operations fops = {
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owner : THIS_MODULE ,
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read : read_proc ,
write : write_proc
} ;
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struct proc_dir_entry * res = proc_create_data ( name , mode , base , & fops , data ) ;
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return res ;
}
# endif
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void rtw_proc_init_one ( struct net_device * dev )
{
struct proc_dir_entry * dir_dev = NULL ;
struct proc_dir_entry * entry = NULL ;
_adapter * padapter = rtw_netdev_priv ( dev ) ;
u8 rf_type ;
if ( rtw_proc = = NULL )
{
if ( padapter - > chip_type = = RTL8188C_8192C )
{
_rtw_memcpy ( rtw_proc_name , RTL8192C_PROC_NAME , sizeof ( RTL8192C_PROC_NAME ) ) ;
}
else if ( padapter - > chip_type = = RTL8192D )
{
_rtw_memcpy ( rtw_proc_name , RTL8192D_PROC_NAME , sizeof ( RTL8192D_PROC_NAME ) ) ;
}
else if ( padapter - > chip_type = = RTL8723A )
{
_rtw_memcpy ( rtw_proc_name , RTW_PROC_NAME , sizeof ( RTW_PROC_NAME ) ) ;
}
else if ( padapter - > chip_type = = RTL8188E )
{
_rtw_memcpy ( rtw_proc_name , RTW_PROC_NAME , sizeof ( RTW_PROC_NAME ) ) ;
}
else
{
_rtw_memcpy ( rtw_proc_name , RTW_PROC_NAME , sizeof ( RTW_PROC_NAME ) ) ;
}
# if(LINUX_VERSION_CODE < KERNEL_VERSION(2,6,24))
rtw_proc = create_proc_entry ( rtw_proc_name , S_IFDIR , proc_net ) ;
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# elif(LINUX_VERSION_CODE < KERNEL_VERSION(3,10,0))
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rtw_proc = create_proc_entry ( rtw_proc_name , S_IFDIR , init_net . proc_net ) ;
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# else
rtw_proc = proc_create ( rtw_proc_name , S_IFDIR , init_net . proc_net , NULL ) ;
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# endif
if ( rtw_proc = = NULL ) {
DBG_871X ( KERN_ERR " Unable to create rtw_proc directory \n " ) ;
return ;
}
entry = create_proc_read_entry ( " ver_info " , S_IFREG | S_IRUGO , rtw_proc , proc_get_drv_version , dev ) ;
if ( ! entry ) {
DBG_871X ( " Unable to create_proc_read_entry! \n " ) ;
return ;
}
}
if ( padapter - > dir_dev = = NULL )
{
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# if(LINUX_VERSION_CODE < KERNEL_VERSION(3,10,0))
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padapter - > dir_dev = create_proc_entry ( dev - > name ,
S_IFDIR | S_IRUGO | S_IXUGO ,
rtw_proc ) ;
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# else
padapter - > dir_dev = proc_create ( dev - > name ,
S_IFDIR | S_IRUGO | S_IXUGO ,
rtw_proc , NULL ) ;
# endif
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dir_dev = padapter - > dir_dev ;
if ( dir_dev = = NULL )
{
if ( rtw_proc_cnt = = 0 )
{
if ( rtw_proc ) {
# if(LINUX_VERSION_CODE < KERNEL_VERSION(2,6,24))
remove_proc_entry ( rtw_proc_name , proc_net ) ;
# else
remove_proc_entry ( rtw_proc_name , init_net . proc_net ) ;
# endif
rtw_proc = NULL ;
}
}
DBG_871X ( " Unable to create dir_dev directory \n " ) ;
return ;
}
}
else
{
return ;
}
rtw_proc_cnt + + ;
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entry = create_proc_read_write_entry ( " write_reg " , S_IFREG | S_IRUGO ,
dir_dev , proc_get_write_reg , dev , proc_set_write_reg ) ;
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if ( ! entry ) {
DBG_871X ( " Unable to create_proc_read_entry! \n " ) ;
return ;
}
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entry = create_proc_read_write_entry ( " read_reg " , S_IFREG | S_IRUGO ,
dir_dev , proc_get_read_reg , dev , proc_set_read_reg ) ;
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if ( ! entry ) {
DBG_871X ( " Unable to create_proc_read_entry! \n " ) ;
return ;
}
entry = create_proc_read_entry ( " fwstate " , S_IFREG | S_IRUGO ,
dir_dev , proc_get_fwstate , dev ) ;
if ( ! entry ) {
DBG_871X ( " Unable to create_proc_read_entry! \n " ) ;
return ;
}
entry = create_proc_read_entry ( " sec_info " , S_IFREG | S_IRUGO ,
dir_dev , proc_get_sec_info , dev ) ;
if ( ! entry ) {
DBG_871X ( " Unable to create_proc_read_entry! \n " ) ;
return ;
}
entry = create_proc_read_entry ( " mlmext_state " , S_IFREG | S_IRUGO ,
dir_dev , proc_get_mlmext_state , dev ) ;
if ( ! entry ) {
DBG_871X ( " Unable to create_proc_read_entry! \n " ) ;
return ;
}
entry = create_proc_read_entry ( " qos_option " , S_IFREG | S_IRUGO ,
dir_dev , proc_get_qos_option , dev ) ;
if ( ! entry ) {
DBG_871X ( " Unable to create_proc_read_entry! \n " ) ;
return ;
}
entry = create_proc_read_entry ( " ht_option " , S_IFREG | S_IRUGO ,
dir_dev , proc_get_ht_option , dev ) ;
if ( ! entry ) {
DBG_871X ( " Unable to create_proc_read_entry! \n " ) ;
return ;
}
entry = create_proc_read_entry ( " rf_info " , S_IFREG | S_IRUGO ,
dir_dev , proc_get_rf_info , dev ) ;
if ( ! entry ) {
DBG_871X ( " Unable to create_proc_read_entry! \n " ) ;
return ;
}
entry = create_proc_read_entry ( " ap_info " , S_IFREG | S_IRUGO ,
dir_dev , proc_get_ap_info , dev ) ;
if ( ! entry ) {
DBG_871X ( " Unable to create_proc_read_entry! \n " ) ;
return ;
}
entry = create_proc_read_entry ( " adapter_state " , S_IFREG | S_IRUGO ,
dir_dev , proc_get_adapter_state , dev ) ;
if ( ! entry ) {
DBG_871X ( " Unable to create_proc_read_entry! \n " ) ;
return ;
}
entry = create_proc_read_entry ( " trx_info " , S_IFREG | S_IRUGO ,
dir_dev , proc_get_trx_info , dev ) ;
if ( ! entry ) {
DBG_871X ( " Unable to create_proc_read_entry! \n " ) ;
return ;
}
entry = create_proc_read_entry ( " mac_reg_dump1 " , S_IFREG | S_IRUGO ,
dir_dev , proc_get_mac_reg_dump1 , dev ) ;
if ( ! entry ) {
DBG_871X ( " Unable to create_proc_read_entry! \n " ) ;
return ;
}
entry = create_proc_read_entry ( " mac_reg_dump2 " , S_IFREG | S_IRUGO ,
dir_dev , proc_get_mac_reg_dump2 , dev ) ;
if ( ! entry ) {
DBG_871X ( " Unable to create_proc_read_entry! \n " ) ;
return ;
}
entry = create_proc_read_entry ( " mac_reg_dump3 " , S_IFREG | S_IRUGO ,
dir_dev , proc_get_mac_reg_dump3 , dev ) ;
if ( ! entry ) {
DBG_871X ( " Unable to create_proc_read_entry! \n " ) ;
return ;
}
entry = create_proc_read_entry ( " bb_reg_dump1 " , S_IFREG | S_IRUGO ,
dir_dev , proc_get_bb_reg_dump1 , dev ) ;
if ( ! entry ) {
DBG_871X ( " Unable to create_proc_read_entry! \n " ) ;
return ;
}
entry = create_proc_read_entry ( " bb_reg_dump2 " , S_IFREG | S_IRUGO ,
dir_dev , proc_get_bb_reg_dump2 , dev ) ;
if ( ! entry ) {
DBG_871X ( " Unable to create_proc_read_entry! \n " ) ;
return ;
}
entry = create_proc_read_entry ( " bb_reg_dump3 " , S_IFREG | S_IRUGO ,
dir_dev , proc_get_bb_reg_dump3 , dev ) ;
if ( ! entry ) {
DBG_871X ( " Unable to create_proc_read_entry! \n " ) ;
return ;
}
entry = create_proc_read_entry ( " rf_reg_dump1 " , S_IFREG | S_IRUGO ,
dir_dev , proc_get_rf_reg_dump1 , dev ) ;
if ( ! entry ) {
DBG_871X ( " Unable to create_proc_read_entry! \n " ) ;
return ;
}
entry = create_proc_read_entry ( " rf_reg_dump2 " , S_IFREG | S_IRUGO ,
dir_dev , proc_get_rf_reg_dump2 , dev ) ;
if ( ! entry ) {
DBG_871X ( " Unable to create_proc_read_entry! \n " ) ;
return ;
}
rtw_hal_get_hwreg ( padapter , HW_VAR_RF_TYPE , ( u8 * ) ( & rf_type ) ) ;
if ( ( RF_1T2R = = rf_type ) | | ( RF_1T1R = = rf_type ) ) {
entry = create_proc_read_entry ( " rf_reg_dump3 " , S_IFREG | S_IRUGO ,
dir_dev , proc_get_rf_reg_dump3 , dev ) ;
if ( ! entry ) {
DBG_871X ( " Unable to create_proc_read_entry! \n " ) ;
return ;
}
entry = create_proc_read_entry ( " rf_reg_dump4 " , S_IFREG | S_IRUGO ,
dir_dev , proc_get_rf_reg_dump4 , dev ) ;
if ( ! entry ) {
DBG_871X ( " Unable to create_proc_read_entry! \n " ) ;
return ;
}
}
# ifdef CONFIG_AP_MODE
entry = create_proc_read_entry ( " all_sta_info " , S_IFREG | S_IRUGO ,
dir_dev , proc_get_all_sta_info , dev ) ;
if ( ! entry ) {
DBG_871X ( " Unable to create_proc_read_entry! \n " ) ;
return ;
}
# endif
# ifdef DBG_MEMORY_LEAK
entry = create_proc_read_entry ( " _malloc_cnt " , S_IFREG | S_IRUGO ,
dir_dev , proc_get_malloc_cnt , dev ) ;
if ( ! entry ) {
DBG_871X ( " Unable to create_proc_read_entry! \n " ) ;
return ;
}
# endif
# ifdef CONFIG_FIND_BEST_CHANNEL
entry = create_proc_read_entry ( " best_channel " , S_IFREG | S_IRUGO ,
dir_dev , proc_get_best_channel , dev ) ;
if ( ! entry ) {
DBG_871X ( " Unable to create_proc_read_entry! \n " ) ;
return ;
}
# endif
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entry = create_proc_read_write_entry ( " rx_signal " , S_IFREG | S_IRUGO ,
dir_dev , proc_get_rx_signal , dev , proc_set_rx_signal ) ;
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if ( ! entry ) {
DBG_871X ( " Unable to create_proc_read_entry! \n " ) ;
return ;
}
# ifdef CONFIG_80211N_HT
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entry = create_proc_read_write_entry ( " ht_enable " , S_IFREG | S_IRUGO ,
dir_dev , proc_get_ht_enable , dev , proc_set_ht_enable ) ;
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if ( ! entry ) {
DBG_871X ( " Unable to create_proc_read_entry! \n " ) ;
return ;
}
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entry = create_proc_read_write_entry ( " bw_mode " , S_IFREG | S_IRUGO ,
dir_dev , proc_get_bw_mode , dev , proc_set_bw_mode ) ;
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if ( ! entry ) {
DBG_871X ( " Unable to create_proc_read_entry! \n " ) ;
return ;
}
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entry = create_proc_read_write_entry ( " ampdu_enable " , S_IFREG | S_IRUGO ,
dir_dev , proc_get_ampdu_enable , dev , proc_set_ampdu_enable ) ;
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if ( ! entry ) {
DBG_871X ( " Unable to create_proc_read_entry! \n " ) ;
return ;
}
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entry = create_proc_read_write_entry ( " rx_stbc " , S_IFREG | S_IRUGO ,
dir_dev , proc_get_rx_stbc , dev , proc_set_rx_stbc ) ;
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if ( ! entry ) {
DBG_871X ( " Unable to create_proc_read_entry! \n " ) ;
return ;
}
# endif //CONFIG_80211N_HT
entry = create_proc_read_entry ( " path_rssi " , S_IFREG | S_IRUGO ,
dir_dev , proc_get_two_path_rssi , dev ) ;
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entry = create_proc_read_write_entry ( " rssi_disp " , S_IFREG | S_IRUGO ,
dir_dev , proc_get_rssi_disp , dev , proc_set_rssi_disp ) ;
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if ( ! entry ) {
DBG_871X ( " Unable to create_proc_read_entry! \n " ) ;
return ;
}
# ifdef CONFIG_BT_COEXIST
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entry = create_proc_read_write_entry ( " btcoex_dbg " , S_IFREG | S_IRUGO ,
dir_dev , proc_get_btcoex_dbg , dev , proc_set_btcoex_dbg ) ;
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if ( ! entry ) {
DBG_871X ( " Unable to create_proc_read_entry! \n " ) ;
return ;
}
# endif /*CONFIG_BT_COEXIST*/
# if defined(DBG_CONFIG_ERROR_DETECT)
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entry = create_proc_read_write_entry ( " sreset " , S_IFREG | S_IRUGO ,
dir_dev , proc_get_sreset , dev , proc_set_sreset ) ;
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if ( ! entry ) {
DBG_871X ( " Unable to create_proc_read_entry! \n " ) ;
return ;
}
# endif /* DBG_CONFIG_ERROR_DETECT */
}
void rtw_proc_remove_one ( struct net_device * dev )
{
struct proc_dir_entry * dir_dev = NULL ;
_adapter * padapter = rtw_netdev_priv ( dev ) ;
u8 rf_type ;
dir_dev = padapter - > dir_dev ;
padapter - > dir_dev = NULL ;
if ( dir_dev ) {
remove_proc_entry ( " write_reg " , dir_dev ) ;
remove_proc_entry ( " read_reg " , dir_dev ) ;
remove_proc_entry ( " fwstate " , dir_dev ) ;
remove_proc_entry ( " sec_info " , dir_dev ) ;
remove_proc_entry ( " mlmext_state " , dir_dev ) ;
remove_proc_entry ( " qos_option " , dir_dev ) ;
remove_proc_entry ( " ht_option " , dir_dev ) ;
remove_proc_entry ( " rf_info " , dir_dev ) ;
remove_proc_entry ( " ap_info " , dir_dev ) ;
remove_proc_entry ( " adapter_state " , dir_dev ) ;
remove_proc_entry ( " trx_info " , dir_dev ) ;
remove_proc_entry ( " mac_reg_dump1 " , dir_dev ) ;
remove_proc_entry ( " mac_reg_dump2 " , dir_dev ) ;
remove_proc_entry ( " mac_reg_dump3 " , dir_dev ) ;
remove_proc_entry ( " bb_reg_dump1 " , dir_dev ) ;
remove_proc_entry ( " bb_reg_dump2 " , dir_dev ) ;
remove_proc_entry ( " bb_reg_dump3 " , dir_dev ) ;
remove_proc_entry ( " rf_reg_dump1 " , dir_dev ) ;
remove_proc_entry ( " rf_reg_dump2 " , dir_dev ) ;
rtw_hal_get_hwreg ( padapter , HW_VAR_RF_TYPE , ( u8 * ) ( & rf_type ) ) ;
if ( ( RF_1T2R = = rf_type ) | | ( RF_1T1R = = rf_type ) ) {
remove_proc_entry ( " rf_reg_dump3 " , dir_dev ) ;
remove_proc_entry ( " rf_reg_dump4 " , dir_dev ) ;
}
# ifdef CONFIG_AP_MODE
remove_proc_entry ( " all_sta_info " , dir_dev ) ;
# endif
# ifdef DBG_MEMORY_LEAK
remove_proc_entry ( " _malloc_cnt " , dir_dev ) ;
# endif
# ifdef CONFIG_FIND_BEST_CHANNEL
remove_proc_entry ( " best_channel " , dir_dev ) ;
# endif
remove_proc_entry ( " rx_signal " , dir_dev ) ;
# ifdef CONFIG_80211N_HT
remove_proc_entry ( " bw_mode " , dir_dev ) ;
remove_proc_entry ( " ht_enable " , dir_dev ) ;
remove_proc_entry ( " ampdu_enable " , dir_dev ) ;
remove_proc_entry ( " rx_stbc " , dir_dev ) ;
# endif //CONFIG_80211N_HT
remove_proc_entry ( " path_rssi " , dir_dev ) ;
remove_proc_entry ( " rssi_disp " , dir_dev ) ;
# ifdef CONFIG_BT_COEXIST
remove_proc_entry ( " btcoex_dbg " , dir_dev ) ;
# endif //CONFIG_BT_COEXIST
# if defined(DBG_CONFIG_ERROR_DETECT)
remove_proc_entry ( " sreset " , dir_dev ) ;
# endif /* DBG_CONFIG_ERROR_DETECT */
remove_proc_entry ( dev - > name , rtw_proc ) ;
dir_dev = NULL ;
}
else
{
return ;
}
rtw_proc_cnt - - ;
if ( rtw_proc_cnt = = 0 )
{
if ( rtw_proc ) {
remove_proc_entry ( " ver_info " , rtw_proc ) ;
# if(LINUX_VERSION_CODE < KERNEL_VERSION(2,6,24))
remove_proc_entry ( rtw_proc_name , proc_net ) ;
# else
remove_proc_entry ( rtw_proc_name , init_net . proc_net ) ;
# endif
rtw_proc = NULL ;
}
}
}
# endif
uint loadparam ( _adapter * padapter , _nic_hdl pnetdev )
{
uint status = _SUCCESS ;
struct registry_priv * registry_par = & padapter - > registrypriv ;
_func_enter_ ;
registry_par - > chip_version = ( u8 ) rtw_chip_version ;
registry_par - > rfintfs = ( u8 ) rtw_rfintfs ;
registry_par - > lbkmode = ( u8 ) rtw_lbkmode ;
//registry_par->hci = (u8)hci;
registry_par - > network_mode = ( u8 ) rtw_network_mode ;
_rtw_memcpy ( registry_par - > ssid . Ssid , " ANY " , 3 ) ;
registry_par - > ssid . SsidLength = 3 ;
registry_par - > channel = ( u8 ) rtw_channel ;
registry_par - > wireless_mode = ( u8 ) rtw_wireless_mode ;
if ( IsSupported24G ( registry_par - > wireless_mode ) & & ( ! IsSupported5G ( registry_par - > wireless_mode ) )
& & ( registry_par - > channel > 14 ) ) {
registry_par - > channel = 1 ;
}
else if ( IsSupported5G ( registry_par - > wireless_mode ) & & ( ! IsSupported24G ( registry_par - > wireless_mode ) )
& & ( registry_par - > channel < = 14 ) ) {
registry_par - > channel = 36 ;
}
2013-12-02 21:03:25 +00:00
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registry_par - > vrtl_carrier_sense = ( u8 ) rtw_vrtl_carrier_sense ;
registry_par - > vcs_type = ( u8 ) rtw_vcs_type ;
registry_par - > rts_thresh = ( u16 ) rtw_rts_thresh ;
registry_par - > frag_thresh = ( u16 ) rtw_frag_thresh ;
registry_par - > preamble = ( u8 ) rtw_preamble ;
registry_par - > scan_mode = ( u8 ) rtw_scan_mode ;
registry_par - > adhoc_tx_pwr = ( u8 ) rtw_adhoc_tx_pwr ;
registry_par - > soft_ap = ( u8 ) rtw_soft_ap ;
registry_par - > smart_ps = ( u8 ) rtw_smart_ps ;
registry_par - > power_mgnt = ( u8 ) rtw_power_mgnt ;
registry_par - > ips_mode = ( u8 ) rtw_ips_mode ;
registry_par - > radio_enable = ( u8 ) rtw_radio_enable ;
registry_par - > long_retry_lmt = ( u8 ) rtw_long_retry_lmt ;
registry_par - > short_retry_lmt = ( u8 ) rtw_short_retry_lmt ;
registry_par - > busy_thresh = ( u16 ) rtw_busy_thresh ;
//registry_par->qos_enable = (u8)rtw_qos_enable;
registry_par - > ack_policy = ( u8 ) rtw_ack_policy ;
registry_par - > mp_mode = ( u8 ) rtw_mp_mode ;
registry_par - > software_encrypt = ( u8 ) rtw_software_encrypt ;
registry_par - > software_decrypt = ( u8 ) rtw_software_decrypt ;
registry_par - > acm_method = ( u8 ) rtw_acm_method ;
//UAPSD
registry_par - > wmm_enable = ( u8 ) rtw_wmm_enable ;
registry_par - > uapsd_enable = ( u8 ) rtw_uapsd_enable ;
registry_par - > uapsd_max_sp = ( u8 ) rtw_uapsd_max_sp ;
registry_par - > uapsd_acbk_en = ( u8 ) rtw_uapsd_acbk_en ;
registry_par - > uapsd_acbe_en = ( u8 ) rtw_uapsd_acbe_en ;
registry_par - > uapsd_acvi_en = ( u8 ) rtw_uapsd_acvi_en ;
registry_par - > uapsd_acvo_en = ( u8 ) rtw_uapsd_acvo_en ;
# ifdef CONFIG_80211N_HT
registry_par - > ht_enable = ( u8 ) rtw_ht_enable ;
registry_par - > bw_mode = ( u8 ) rtw_bw_mode ;
registry_par - > ampdu_enable = ( u8 ) rtw_ampdu_enable ;
registry_par - > rx_stbc = ( u8 ) rtw_rx_stbc ;
registry_par - > ampdu_amsdu = ( u8 ) rtw_ampdu_amsdu ;
registry_par - > short_gi = ( u8 ) rtw_short_gi ;
# endif
# ifdef CONFIG_80211AC_VHT
registry_par - > vht_enable = ( u8 ) rtw_vht_enable ;
registry_par - > ampdu_factor = ( u8 ) rtw_ampdu_factor ;
registry_par - > vht_rate_sel = ( u8 ) rtw_vht_rate_sel ;
registry_par - > ldpc_cap = ( u8 ) rtw_ldpc_cap ;
registry_par - > stbc_cap = ( u8 ) rtw_stbc_cap ;
registry_par - > beamform_cap = ( u8 ) rtw_beamform_cap ;
# endif
# ifdef CONFIG_TX_EARLY_MODE
registry_par - > early_mode = ( u8 ) rtw_early_mode ;
# endif
registry_par - > lowrate_two_xmit = ( u8 ) rtw_lowrate_two_xmit ;
registry_par - > rf_config = ( u8 ) rtw_rf_config ;
registry_par - > low_power = ( u8 ) rtw_low_power ;
registry_par - > wifi_spec = ( u8 ) rtw_wifi_spec ;
registry_par - > channel_plan = ( u8 ) rtw_channel_plan ;
# ifdef CONFIG_BT_COEXIST
registry_par - > btcoex = ( u8 ) rtw_btcoex_enable ;
registry_par - > bt_iso = ( u8 ) rtw_bt_iso ;
registry_par - > bt_sco = ( u8 ) rtw_bt_sco ;
registry_par - > bt_ampdu = ( u8 ) rtw_bt_ampdu ;
# endif
registry_par - > bAcceptAddbaReq = ( u8 ) rtw_AcceptAddbaReq ;
registry_par - > antdiv_cfg = ( u8 ) rtw_antdiv_cfg ;
registry_par - > antdiv_type = ( u8 ) rtw_antdiv_type ;
# ifdef CONFIG_AUTOSUSPEND
registry_par - > usbss_enable = ( u8 ) rtw_enusbss ; //0:disable,1:enable
# endif
# ifdef SUPPORT_HW_RFOFF_DETECTED
registry_par - > hwpdn_mode = ( u8 ) rtw_hwpdn_mode ; //0:disable,1:enable,2:by EFUSE config
registry_par - > hwpwrp_detect = ( u8 ) rtw_hwpwrp_detect ; //0:disable,1:enable
# endif
registry_par - > hw_wps_pbc = ( u8 ) rtw_hw_wps_pbc ;
# ifdef CONFIG_ADAPTOR_INFO_CACHING_FILE
snprintf ( registry_par - > adaptor_info_caching_file_path , PATH_LENGTH_MAX , " %s " , rtw_adaptor_info_caching_file_path ) ;
registry_par - > adaptor_info_caching_file_path [ PATH_LENGTH_MAX - 1 ] = 0 ;
# endif
# ifdef CONFIG_LAYER2_ROAMING
registry_par - > max_roaming_times = ( u8 ) rtw_max_roaming_times ;
# ifdef CONFIG_INTEL_WIDI
registry_par - > max_roaming_times = ( u8 ) rtw_max_roaming_times + 2 ;
# endif // CONFIG_INTEL_WIDI
# endif
# ifdef CONFIG_IOL
registry_par - > fw_iol = rtw_fw_iol ;
# endif
# ifdef CONFIG_DUALMAC_CONCURRENT
registry_par - > dmsp = ( u8 ) rtw_dmsp ;
# endif
# ifdef CONFIG_80211D
registry_par - > enable80211d = ( u8 ) rtw_80211d ;
# endif
snprintf ( registry_par - > ifname , 16 , " %s " , ifname ) ;
snprintf ( registry_par - > if2name , 16 , " %s " , if2name ) ;
registry_par - > notch_filter = ( u8 ) rtw_notch_filter ;
# ifdef CONFIG_SPECIAL_SETTING_FOR_FUNAI_TV
registry_par - > force_ant = ( u8 ) rtw_force_ant ;
registry_par - > force_igi = ( u8 ) rtw_force_igi ;
# endif
registry_par - > regulatory_tid = ( u8 ) rtw_regulatory_id ;
# ifdef CONFIG_MULTI_VIR_IFACES
registry_par - > ext_iface_num = ( u8 ) rtw_ext_iface_num ;
# endif //CONFIG_MULTI_VIR_IFACES
_func_exit_ ;
return status ;
}
static int rtw_net_set_mac_address ( struct net_device * pnetdev , void * p )
{
_adapter * padapter = ( _adapter * ) rtw_netdev_priv ( pnetdev ) ;
struct sockaddr * addr = p ;
if ( padapter - > bup = = _FALSE )
{
//DBG_871X("r8711_net_set_mac_address(), MAC=%x:%x:%x:%x:%x:%x\n", addr->sa_data[0], addr->sa_data[1], addr->sa_data[2], addr->sa_data[3],
//addr->sa_data[4], addr->sa_data[5]);
_rtw_memcpy ( padapter - > eeprompriv . mac_addr , addr - > sa_data , ETH_ALEN ) ;
//_rtw_memcpy(pnetdev->dev_addr, addr->sa_data, ETH_ALEN);
//padapter->bset_hwaddr = _TRUE;
}
return 0 ;
}
static struct net_device_stats * rtw_net_get_stats ( struct net_device * pnetdev )
{
_adapter * padapter = ( _adapter * ) rtw_netdev_priv ( pnetdev ) ;
struct xmit_priv * pxmitpriv = & ( padapter - > xmitpriv ) ;
struct recv_priv * precvpriv = & ( padapter - > recvpriv ) ;
padapter - > stats . tx_packets = pxmitpriv - > tx_pkts ; //pxmitpriv->tx_pkts++;
padapter - > stats . rx_packets = precvpriv - > rx_pkts ; //precvpriv->rx_pkts++;
padapter - > stats . tx_dropped = pxmitpriv - > tx_drop ;
padapter - > stats . rx_dropped = precvpriv - > rx_drop ;
padapter - > stats . tx_bytes = pxmitpriv - > tx_bytes ;
padapter - > stats . rx_bytes = precvpriv - > rx_bytes ;
return & padapter - > stats ;
}
# if (LINUX_VERSION_CODE>=KERNEL_VERSION(2,6,35))
/*
* AC to queue mapping
*
* AC_VO - > queue 0
* AC_VI - > queue 1
* AC_BE - > queue 2
* AC_BK - > queue 3
*/
static const u16 rtw_1d_to_queue [ 8 ] = { 2 , 3 , 3 , 2 , 1 , 1 , 0 , 0 } ;
/* Given a data frame determine the 802.1p/1d tag to use. */
unsigned int rtw_classify8021d ( struct sk_buff * skb )
{
unsigned int dscp ;
/* skb->priority values from 256->263 are magic values to
* directly indicate a specific 802.1 d priority . This is used
* to allow 802.1 d priority to be passed directly in from VLAN
* tags , etc .
*/
if ( skb - > priority > = 256 & & skb - > priority < = 263 )
return skb - > priority - 256 ;
switch ( skb - > protocol ) {
case htons ( ETH_P_IP ) :
dscp = ip_hdr ( skb ) - > tos & 0xfc ;
break ;
default :
return 0 ;
}
return dscp > > 5 ;
}
static u16 rtw_select_queue ( struct net_device * dev , struct sk_buff * skb )
{
_adapter * padapter = rtw_netdev_priv ( dev ) ;
struct mlme_priv * pmlmepriv = & padapter - > mlmepriv ;
skb - > priority = rtw_classify8021d ( skb ) ;
if ( pmlmepriv - > acm_mask ! = 0 )
{
skb - > priority = qos_acm ( pmlmepriv - > acm_mask , skb - > priority ) ;
}
return rtw_1d_to_queue [ skb - > priority ] ;
}
u16 rtw_recv_select_queue ( struct sk_buff * skb )
{
struct iphdr * piphdr ;
unsigned int dscp ;
u16 eth_type ;
u32 priority ;
u8 * pdata = skb - > data ;
_rtw_memcpy ( & eth_type , pdata + ( ETH_ALEN < < 1 ) , 2 ) ;
switch ( eth_type ) {
case htons ( ETH_P_IP ) :
piphdr = ( struct iphdr * ) ( pdata + ETH_HLEN ) ;
dscp = piphdr - > tos & 0xfc ;
priority = dscp > > 5 ;
break ;
default :
priority = 0 ;
}
return rtw_1d_to_queue [ priority ] ;
}
# endif
# if (LINUX_VERSION_CODE>=KERNEL_VERSION(2,6,29))
static const struct net_device_ops rtw_netdev_ops = {
. ndo_open = netdev_open ,
. ndo_stop = netdev_close ,
. ndo_start_xmit = rtw_xmit_entry ,
# if (LINUX_VERSION_CODE>=KERNEL_VERSION(2,6,35))
. ndo_select_queue = rtw_select_queue ,
# endif
. ndo_set_mac_address = rtw_net_set_mac_address ,
. ndo_get_stats = rtw_net_get_stats ,
. ndo_do_ioctl = rtw_ioctl ,
} ;
# endif
int rtw_init_netdev_name ( struct net_device * pnetdev , const char * ifname )
{
_adapter * padapter = rtw_netdev_priv ( pnetdev ) ;
# ifdef CONFIG_EASY_REPLACEMENT
struct net_device * TargetNetdev = NULL ;
_adapter * TargetAdapter = NULL ;
struct net * devnet = NULL ;
if ( padapter - > bDongle = = 1 )
{
# if (LINUX_VERSION_CODE < KERNEL_VERSION(2,6,24))
TargetNetdev = dev_get_by_name ( " wlan0 " ) ;
# else
# if (LINUX_VERSION_CODE < KERNEL_VERSION(2,6,26))
devnet = pnetdev - > nd_net ;
# else
devnet = dev_net ( pnetdev ) ;
# endif
TargetNetdev = dev_get_by_name ( devnet , " wlan0 " ) ;
# endif
if ( TargetNetdev ) {
DBG_871X ( " Force onboard module driver disappear !!! \n " ) ;
TargetAdapter = rtw_netdev_priv ( TargetNetdev ) ;
TargetAdapter - > DriverState = DRIVER_DISAPPEAR ;
padapter - > pid [ 0 ] = TargetAdapter - > pid [ 0 ] ;
padapter - > pid [ 1 ] = TargetAdapter - > pid [ 1 ] ;
padapter - > pid [ 2 ] = TargetAdapter - > pid [ 2 ] ;
dev_put ( TargetNetdev ) ;
unregister_netdev ( TargetNetdev ) ;
if ( TargetAdapter - > chip_type = = padapter - > chip_type )
rtw_proc_remove_one ( TargetNetdev ) ;
padapter - > DriverState = DRIVER_REPLACE_DONGLE ;
}
}
# endif //CONFIG_EASY_REPLACEMENT
if ( dev_alloc_name ( pnetdev , ifname ) < 0 )
{
RT_TRACE ( _module_os_intfs_c_ , _drv_err_ , ( " dev_alloc_name, fail! \n " ) ) ;
}
netif_carrier_off ( pnetdev ) ;
//rtw_netif_stop_queue(pnetdev);
return 0 ;
}
struct net_device * rtw_init_netdev ( _adapter * old_padapter )
{
_adapter * padapter ;
struct net_device * pnetdev ;
RT_TRACE ( _module_os_intfs_c_ , _drv_info_ , ( " +init_net_dev \n " ) ) ;
if ( old_padapter ! = NULL )
pnetdev = rtw_alloc_etherdev_with_old_priv ( sizeof ( _adapter ) , ( void * ) old_padapter ) ;
else
pnetdev = rtw_alloc_etherdev ( sizeof ( _adapter ) ) ;
if ( ! pnetdev )
return NULL ;
padapter = rtw_netdev_priv ( pnetdev ) ;
padapter - > pnetdev = pnetdev ;
# if LINUX_VERSION_CODE < KERNEL_VERSION(2,6,24)
SET_MODULE_OWNER ( pnetdev ) ;
# endif
//pnetdev->init = NULL;
# if (LINUX_VERSION_CODE>=KERNEL_VERSION(2,6,29))
DBG_871X ( " register rtw_netdev_ops to netdev_ops \n " ) ;
pnetdev - > netdev_ops = & rtw_netdev_ops ;
# else
pnetdev - > open = netdev_open ;
pnetdev - > stop = netdev_close ;
pnetdev - > hard_start_xmit = rtw_xmit_entry ;
pnetdev - > set_mac_address = rtw_net_set_mac_address ;
pnetdev - > get_stats = rtw_net_get_stats ;
pnetdev - > do_ioctl = rtw_ioctl ;
# endif
# ifdef CONFIG_TCP_CSUM_OFFLOAD_TX
pnetdev - > features | = NETIF_F_IP_CSUM ;
# endif
//pnetdev->tx_timeout = NULL;
pnetdev - > watchdog_timeo = HZ * 3 ; /* 3 second timeout */
# ifdef CONFIG_WIRELESS_EXT
pnetdev - > wireless_handlers = ( struct iw_handler_def * ) & rtw_handlers_def ;
# endif
# ifdef WIRELESS_SPY
//priv->wireless_data.spy_data = &priv->spy_data;
//pnetdev->wireless_data = &priv->wireless_data;
# endif
//step 2.
loadparam ( padapter , pnetdev ) ;
return pnetdev ;
}
u32 rtw_start_drv_threads ( _adapter * padapter )
{
u32 _status = _SUCCESS ;
RT_TRACE ( _module_os_intfs_c_ , _drv_info_ , ( " +rtw_start_drv_threads \n " ) ) ;
# ifdef CONFIG_XMIT_THREAD_MODE
# if defined(CONFIG_SDIO_HCI) && defined(CONFIG_CONCURRENT_MODE)
if ( padapter - > adapter_type = = PRIMARY_ADAPTER ) {
# endif
padapter - > xmitThread = kthread_run ( rtw_xmit_thread , padapter , " RTW_XMIT_THREAD " ) ;
if ( IS_ERR ( padapter - > xmitThread ) )
_status = _FAIL ;
# if defined(CONFIG_SDIO_HCI) && defined(CONFIG_CONCURRENT_MODE)
}
# endif // CONFIG_SDIO_HCI+CONFIG_CONCURRENT_MODE
# endif
# ifdef CONFIG_RECV_THREAD_MODE
padapter - > recvThread = kthread_run ( rtw_recv_thread , padapter , " RTW_RECV_THREAD " ) ;
if ( IS_ERR ( padapter - > recvThread ) )
_status = _FAIL ;
# endif
# ifdef CONFIG_CONCURRENT_MODE
if ( padapter - > isprimary = = _TRUE )
# endif //CONFIG_CONCURRENT_MODE
{
padapter - > cmdThread = kthread_run ( rtw_cmd_thread , padapter , " RTW_CMD_THREAD " ) ;
if ( IS_ERR ( padapter - > cmdThread ) )
_status = _FAIL ;
else
_rtw_down_sema ( & padapter - > cmdpriv . terminate_cmdthread_sema ) ; //wait for cmd_thread to run
}
# ifdef CONFIG_EVENT_THREAD_MODE
padapter - > evtThread = kthread_run ( event_thread , padapter , " RTW_EVENT_THREAD " ) ;
if ( IS_ERR ( padapter - > evtThread ) )
_status = _FAIL ;
# endif
rtw_hal_start_thread ( padapter ) ;
return _status ;
}
void rtw_stop_drv_threads ( _adapter * padapter )
{
RT_TRACE ( _module_os_intfs_c_ , _drv_info_ , ( " +rtw_stop_drv_threads \n " ) ) ;
# ifdef CONFIG_CONCURRENT_MODE
if ( padapter - > isprimary = = _TRUE )
# endif //CONFIG_CONCURRENT_MODE
{
//Below is to termindate rtw_cmd_thread & event_thread...
_rtw_up_sema ( & padapter - > cmdpriv . cmd_queue_sema ) ;
//_rtw_up_sema(&padapter->cmdpriv.cmd_done_sema);
if ( padapter - > cmdThread ) {
_rtw_down_sema ( & padapter - > cmdpriv . terminate_cmdthread_sema ) ;
}
}
# ifdef CONFIG_EVENT_THREAD_MODE
_rtw_up_sema ( & padapter - > evtpriv . evt_notify ) ;
if ( padapter - > evtThread ) {
_rtw_down_sema ( & padapter - > evtpriv . terminate_evtthread_sema ) ;
}
# endif
# ifdef CONFIG_XMIT_THREAD_MODE
// Below is to termindate tx_thread...
# if defined(CONFIG_SDIO_HCI) && defined(CONFIG_CONCURRENT_MODE)
// Only wake-up primary adapter
if ( padapter - > adapter_type = = PRIMARY_ADAPTER )
# endif //SDIO_HCI + CONCURRENT
{
_rtw_up_sema ( & padapter - > xmitpriv . xmit_sema ) ;
_rtw_down_sema ( & padapter - > xmitpriv . terminate_xmitthread_sema ) ;
}
RT_TRACE ( _module_os_intfs_c_ , _drv_info_ , ( " \n drv_halt: rtw_xmit_thread can be terminated ! \n " ) ) ;
# endif
# ifdef CONFIG_RECV_THREAD_MODE
// Below is to termindate rx_thread...
_rtw_up_sema ( & padapter - > recvpriv . recv_sema ) ;
_rtw_down_sema ( & padapter - > recvpriv . terminate_recvthread_sema ) ;
RT_TRACE ( _module_os_intfs_c_ , _drv_info_ , ( " \n drv_halt:recv_thread can be terminated! \n " ) ) ;
# endif
rtw_hal_stop_thread ( padapter ) ;
}
u8 rtw_init_default_value ( _adapter * padapter ) ;
u8 rtw_init_default_value ( _adapter * padapter )
{
u8 ret = _SUCCESS ;
struct registry_priv * pregistrypriv = & padapter - > registrypriv ;
struct xmit_priv * pxmitpriv = & padapter - > xmitpriv ;
struct mlme_priv * pmlmepriv = & padapter - > mlmepriv ;
struct security_priv * psecuritypriv = & padapter - > securitypriv ;
//xmit_priv
pxmitpriv - > vcs_setting = pregistrypriv - > vrtl_carrier_sense ;
pxmitpriv - > vcs = pregistrypriv - > vcs_type ;
pxmitpriv - > vcs_type = pregistrypriv - > vcs_type ;
//pxmitpriv->rts_thresh = pregistrypriv->rts_thresh;
pxmitpriv - > frag_len = pregistrypriv - > frag_thresh ;
//recv_priv
//mlme_priv
pmlmepriv - > scan_interval = SCAN_INTERVAL ; // 30*2 sec = 60sec
pmlmepriv - > scan_mode = SCAN_ACTIVE ;
//qos_priv
//pmlmepriv->qospriv.qos_option = pregistrypriv->wmm_enable;
//ht_priv
# ifdef CONFIG_80211N_HT
pmlmepriv - > htpriv . ampdu_enable = _FALSE ; //set to disabled
# endif
//security_priv
//rtw_get_encrypt_decrypt_from_registrypriv(padapter);
psecuritypriv - > binstallGrpkey = _FAIL ;
psecuritypriv - > sw_encrypt = pregistrypriv - > software_encrypt ;
psecuritypriv - > sw_decrypt = pregistrypriv - > software_decrypt ;
psecuritypriv - > dot11AuthAlgrthm = dot11AuthAlgrthm_Open ; //open system
psecuritypriv - > dot11PrivacyAlgrthm = _NO_PRIVACY_ ;
psecuritypriv - > dot11PrivacyKeyIndex = 0 ;
psecuritypriv - > dot118021XGrpPrivacy = _NO_PRIVACY_ ;
psecuritypriv - > dot118021XGrpKeyid = 1 ;
psecuritypriv - > ndisauthtype = Ndis802_11AuthModeOpen ;
psecuritypriv - > ndisencryptstatus = Ndis802_11WEPDisabled ;
//pwrctrl_priv
//registry_priv
rtw_init_registrypriv_dev_network ( padapter ) ;
rtw_update_registrypriv_dev_network ( padapter ) ;
//hal_priv
rtw_hal_def_value_init ( padapter ) ;
//misc.
padapter - > bReadPortCancel = _FALSE ;
padapter - > bWritePortCancel = _FALSE ;
padapter - > bLinkInfoDump = 0 ;
padapter - > bNotifyChannelChange = 0 ;
# ifdef CONFIG_P2P
padapter - > bShowGetP2PState = 1 ;
# endif
return ret ;
}
u8 rtw_reset_drv_sw ( _adapter * padapter )
{
u8 ret8 = _SUCCESS ;
struct mlme_priv * pmlmepriv = & padapter - > mlmepriv ;
struct pwrctrl_priv * pwrctrlpriv = & padapter - > pwrctrlpriv ;
//hal_priv
rtw_hal_def_value_init ( padapter ) ;
padapter - > bReadPortCancel = _FALSE ;
padapter - > bWritePortCancel = _FALSE ;
padapter - > bLinkInfoDump = 0 ;
pmlmepriv - > scan_interval = SCAN_INTERVAL ; // 30*2 sec = 60sec
padapter - > xmitpriv . tx_pkts = 0 ;
padapter - > recvpriv . rx_pkts = 0 ;
pmlmepriv - > LinkDetectInfo . bBusyTraffic = _FALSE ;
_clr_fwstate_ ( pmlmepriv , _FW_UNDER_SURVEY | _FW_UNDER_LINKING ) ;
# ifdef CONFIG_AUTOSUSPEND
# if (LINUX_VERSION_CODE>=KERNEL_VERSION(2,6,22) && LINUX_VERSION_CODE<=KERNEL_VERSION(2,6,34))
adapter_to_dvobj ( padapter ) - > pusbdev - > autosuspend_disabled = 1 ; //autosuspend disabled by the user
# endif
# endif
# ifdef DBG_CONFIG_ERROR_DETECT
rtw_hal_sreset_reset_value ( padapter ) ;
# endif
pwrctrlpriv - > pwr_state_check_cnts = 0 ;
//mlmeextpriv
padapter - > mlmeextpriv . sitesurvey_res . state = SCAN_DISABLE ;
# ifdef CONFIG_NEW_SIGNAL_STAT_PROCESS
rtw_set_signal_stat_timer ( & padapter - > recvpriv ) ;
# endif
return ret8 ;
}
u8 rtw_init_drv_sw ( _adapter * padapter )
{
u8 ret8 = _SUCCESS ;
_func_enter_ ;
RT_TRACE ( _module_os_intfs_c_ , _drv_info_ , ( " +rtw_init_drv_sw \n " ) ) ;
ret8 = rtw_init_default_value ( padapter ) ;
if ( ( rtw_init_cmd_priv ( & padapter - > cmdpriv ) ) = = _FAIL )
{
RT_TRACE ( _module_os_intfs_c_ , _drv_err_ , ( " \n Can't init cmd_priv \n " ) ) ;
ret8 = _FAIL ;
goto exit ;
}
padapter - > cmdpriv . padapter = padapter ;
if ( ( rtw_init_evt_priv ( & padapter - > evtpriv ) ) = = _FAIL )
{
RT_TRACE ( _module_os_intfs_c_ , _drv_err_ , ( " \n Can't init evt_priv \n " ) ) ;
ret8 = _FAIL ;
goto exit ;
}
if ( rtw_init_mlme_priv ( padapter ) = = _FAIL )
{
RT_TRACE ( _module_os_intfs_c_ , _drv_err_ , ( " \n Can't init mlme_priv \n " ) ) ;
ret8 = _FAIL ;
goto exit ;
}
# ifdef CONFIG_P2P
rtw_init_wifidirect_timers ( padapter ) ;
init_wifidirect_info ( padapter , P2P_ROLE_DISABLE ) ;
reset_global_wifidirect_info ( padapter ) ;
# ifdef CONFIG_IOCTL_CFG80211
rtw_init_cfg80211_wifidirect_info ( padapter ) ;
# endif
# ifdef CONFIG_WFD
if ( rtw_init_wifi_display_info ( padapter ) = = _FAIL )
RT_TRACE ( _module_os_intfs_c_ , _drv_err_ , ( " \n Can't init init_wifi_display_info \n " ) ) ;
# endif
# endif /* CONFIG_P2P */
if ( init_mlme_ext_priv ( padapter ) = = _FAIL )
{
RT_TRACE ( _module_os_intfs_c_ , _drv_err_ , ( " \n Can't init mlme_ext_priv \n " ) ) ;
ret8 = _FAIL ;
goto exit ;
}
# ifdef CONFIG_TDLS
if ( rtw_init_tdls_info ( padapter ) = = _FAIL )
{
DBG_871X ( " Can't rtw_init_tdls_info \n " ) ;
ret8 = _FAIL ;
goto exit ;
}
# endif //CONFIG_TDLS
if ( _rtw_init_xmit_priv ( & padapter - > xmitpriv , padapter ) = = _FAIL )
{
DBG_871X ( " Can't _rtw_init_xmit_priv \n " ) ;
ret8 = _FAIL ;
goto exit ;
}
if ( _rtw_init_recv_priv ( & padapter - > recvpriv , padapter ) = = _FAIL )
{
DBG_871X ( " Can't _rtw_init_recv_priv \n " ) ;
ret8 = _FAIL ;
goto exit ;
}
// We don't need to memset padapter->XXX to zero, because adapter is allocated by rtw_zvmalloc().
//_rtw_memset((unsigned char *)&padapter->securitypriv, 0, sizeof (struct security_priv));
//_init_timer(&(padapter->securitypriv.tkip_timer), padapter->pifp, rtw_use_tkipkey_handler, padapter);
if ( _rtw_init_sta_priv ( & padapter - > stapriv ) = = _FAIL )
{
DBG_871X ( " Can't _rtw_init_sta_priv \n " ) ;
ret8 = _FAIL ;
goto exit ;
}
padapter - > stapriv . padapter = padapter ;
padapter - > setband = GHZ24_50 ;
rtw_init_bcmc_stainfo ( padapter ) ;
rtw_init_pwrctrl_priv ( padapter ) ;
//_rtw_memset((u8 *)&padapter->qospriv, 0, sizeof (struct qos_priv));//move to mlme_priv
# ifdef CONFIG_MP_INCLUDED
if ( init_mp_priv ( padapter ) = = _FAIL ) {
DBG_871X ( " %s: initialize MP private data Fail! \n " , __func__ ) ;
}
# endif
rtw_hal_dm_init ( padapter ) ;
rtw_hal_sw_led_init ( padapter ) ;
# ifdef DBG_CONFIG_ERROR_DETECT
rtw_hal_sreset_init ( padapter ) ;
# endif
# ifdef CONFIG_INTEL_WIDI
if ( rtw_init_intel_widi ( padapter ) = = _FAIL )
{
DBG_871X ( " Can't rtw_init_intel_widi \n " ) ;
ret8 = _FAIL ;
goto exit ;
}
# endif //CONFIG_INTEL_WIDI
# ifdef CONFIG_WAPI_SUPPORT
padapter - > WapiSupport = true ; //set true temp, will revise according to Efuse or Registry value later.
rtw_wapi_init ( padapter ) ;
# endif
# ifdef CONFIG_BR_EXT
_rtw_spinlock_init ( & padapter - > br_ext_lock ) ;
# endif // CONFIG_BR_EXT
exit :
RT_TRACE ( _module_os_intfs_c_ , _drv_info_ , ( " -rtw_init_drv_sw \n " ) ) ;
_func_exit_ ;
return ret8 ;
}
# ifdef CONFIG_WOWLAN
void rtw_cancel_dynamic_chk_timer ( _adapter * padapter )
{
_cancel_timer_ex ( & padapter - > mlmepriv . dynamic_chk_timer ) ;
RT_TRACE ( _module_os_intfs_c_ , _drv_info_ , ( " rtw_cancel_all_timer:cancel dynamic_chk_timer! \n " ) ) ;
}
# endif
void rtw_cancel_all_timer ( _adapter * padapter )
{
RT_TRACE ( _module_os_intfs_c_ , _drv_info_ , ( " +rtw_cancel_all_timer \n " ) ) ;
_cancel_timer_ex ( & padapter - > mlmepriv . assoc_timer ) ;
RT_TRACE ( _module_os_intfs_c_ , _drv_info_ , ( " rtw_cancel_all_timer:cancel association timer complete! \n " ) ) ;
//_cancel_timer_ex(&padapter->securitypriv.tkip_timer);
//RT_TRACE(_module_os_intfs_c_,_drv_info_,("rtw_cancel_all_timer:cancel tkip_timer! \n"));
_cancel_timer_ex ( & padapter - > mlmepriv . scan_to_timer ) ;
RT_TRACE ( _module_os_intfs_c_ , _drv_info_ , ( " rtw_cancel_all_timer:cancel scan_to_timer! \n " ) ) ;
_cancel_timer_ex ( & padapter - > mlmepriv . dynamic_chk_timer ) ;
RT_TRACE ( _module_os_intfs_c_ , _drv_info_ , ( " rtw_cancel_all_timer:cancel dynamic_chk_timer! \n " ) ) ;
// cancel sw led timer
rtw_hal_sw_led_deinit ( padapter ) ;
RT_TRACE ( _module_os_intfs_c_ , _drv_info_ , ( " rtw_cancel_all_timer:cancel DeInitSwLeds! \n " ) ) ;
_cancel_timer_ex ( & padapter - > pwrctrlpriv . pwr_state_check_timer ) ;
# ifdef CONFIG_IOCTL_CFG80211
# ifdef CONFIG_P2P
_cancel_timer_ex ( & padapter - > cfg80211_wdinfo . remain_on_ch_timer ) ;
# endif //CONFIG_P2P
# endif //CONFIG_IOCTL_CFG80211
# ifdef CONFIG_SET_SCAN_DENY_TIMER
_cancel_timer_ex ( & padapter - > mlmepriv . set_scan_deny_timer ) ;
rtw_clear_scan_deny ( padapter ) ;
RT_TRACE ( _module_os_intfs_c_ , _drv_info_ , ( " rtw_cancel_all_timer:cancel set_scan_deny_timer! \n " ) ) ;
# endif
# ifdef CONFIG_NEW_SIGNAL_STAT_PROCESS
_cancel_timer_ex ( & padapter - > recvpriv . signal_stat_timer ) ;
# endif
//cancel dm timer
rtw_hal_dm_deinit ( padapter ) ;
# ifdef CONFIG_PLATFORM_FS_MX61
msleep ( 50 ) ;
# endif
}
u8 rtw_free_drv_sw ( _adapter * padapter )
{
struct net_device * pnetdev = ( struct net_device * ) padapter - > pnetdev ;
RT_TRACE ( _module_os_intfs_c_ , _drv_info_ , ( " ==>rtw_free_drv_sw " ) ) ;
# ifdef CONFIG_WAPI_SUPPORT
rtw_wapi_free ( padapter ) ;
# endif
//we can call rtw_p2p_enable here, but:
// 1. rtw_p2p_enable may have IO operation
// 2. rtw_p2p_enable is bundled with wext interface
# ifdef CONFIG_P2P
{
struct wifidirect_info * pwdinfo = & padapter - > wdinfo ;
if ( ! rtw_p2p_chk_state ( pwdinfo , P2P_STATE_NONE ) )
{
_cancel_timer_ex ( & pwdinfo - > find_phase_timer ) ;
_cancel_timer_ex ( & pwdinfo - > restore_p2p_state_timer ) ;
_cancel_timer_ex ( & pwdinfo - > pre_tx_scan_timer ) ;
# ifdef CONFIG_CONCURRENT_MODE
_cancel_timer_ex ( & pwdinfo - > ap_p2p_switch_timer ) ;
# endif // CONFIG_CONCURRENT_MODE
rtw_p2p_set_state ( pwdinfo , P2P_STATE_NONE ) ;
}
}
# endif
# ifdef CONFIG_BR_EXT
_rtw_spinlock_free ( & padapter - > br_ext_lock ) ;
# endif // CONFIG_BR_EXT
# ifdef CONFIG_INTEL_WIDI
rtw_free_intel_widi ( padapter ) ;
# endif //CONFIG_INTEL_WIDI
free_mlme_ext_priv ( & padapter - > mlmeextpriv ) ;
# ifdef CONFIG_TDLS
//rtw_free_tdls_info(&padapter->tdlsinfo);
# endif //CONFIG_TDLS
rtw_free_cmd_priv ( & padapter - > cmdpriv ) ;
rtw_free_evt_priv ( & padapter - > evtpriv ) ;
rtw_free_mlme_priv ( & padapter - > mlmepriv ) ;
//free_io_queue(padapter);
_rtw_free_xmit_priv ( & padapter - > xmitpriv ) ;
_rtw_free_sta_priv ( & padapter - > stapriv ) ; //will free bcmc_stainfo here
_rtw_free_recv_priv ( & padapter - > recvpriv ) ;
rtw_free_pwrctrl_priv ( padapter ) ;
//rtw_mfree((void *)padapter, sizeof (padapter));
# ifdef CONFIG_DRVEXT_MODULE
free_drvext ( & padapter - > drvextpriv ) ;
# endif
rtw_hal_free_data ( padapter ) ;
RT_TRACE ( _module_os_intfs_c_ , _drv_info_ , ( " <==rtw_free_drv_sw \n " ) ) ;
//free the old_pnetdev
if ( padapter - > rereg_nd_name_priv . old_pnetdev ) {
free_netdev ( padapter - > rereg_nd_name_priv . old_pnetdev ) ;
padapter - > rereg_nd_name_priv . old_pnetdev = NULL ;
}
// clear pbuddy_adapter to avoid access wrong pointer.
if ( padapter - > pbuddy_adapter ! = NULL ) {
padapter - > pbuddy_adapter - > pbuddy_adapter = NULL ;
}
RT_TRACE ( _module_os_intfs_c_ , _drv_info_ , ( " -rtw_free_drv_sw \n " ) ) ;
return _SUCCESS ;
}
# ifdef CONFIG_CONCURRENT_MODE
# ifdef CONFIG_MULTI_VIR_IFACES
int _netdev_vir_if_open ( struct net_device * pnetdev )
{
_adapter * padapter = ( _adapter * ) rtw_netdev_priv ( pnetdev ) ;
_adapter * primary_padapter = GET_PRIMARY_ADAPTER ( padapter ) ;
DBG_871X ( FUNC_NDEV_FMT " enter \n " , FUNC_NDEV_ARG ( pnetdev ) ) ;
if ( ! primary_padapter )
goto _netdev_virtual_iface_open_error ;
if ( primary_padapter - > bup = = _FALSE | | primary_padapter - > hw_init_completed = = _FALSE )
{
_netdev_open ( primary_padapter - > pnetdev ) ;
}
if ( padapter - > bup = = _FALSE & & primary_padapter - > bup = = _TRUE & &
primary_padapter - > hw_init_completed = = _TRUE )
{
int i ;
padapter - > bDriverStopped = _FALSE ;
padapter - > bSurpriseRemoved = _FALSE ;
padapter - > bCardDisableWOHSM = _FALSE ;
rtw_hal_clone_data ( padapter , primary_padapter ) ;
padapter - > bFWReady = primary_padapter - > bFWReady ;
if ( rtw_start_drv_threads ( padapter ) = = _FAIL )
{
goto _netdev_virtual_iface_open_error ;
}
padapter - > dir_dev = NULL ;
rtw_proc_init_one ( pnetdev ) ;
# ifdef CONFIG_IOCTL_CFG80211
rtw_cfg80211_init_wiphy ( padapter ) ;
# endif
padapter - > bup = _TRUE ;
padapter - > hw_init_completed = _TRUE ;
}
padapter - > net_closed = _FALSE ;
_set_timer ( & padapter - > mlmepriv . dynamic_chk_timer , 2000 ) ;
if ( ! rtw_netif_queue_stopped ( pnetdev ) )
rtw_netif_start_queue ( pnetdev ) ;
else
rtw_netif_wake_queue ( pnetdev ) ;
DBG_871X ( FUNC_NDEV_FMT " exit \n " , FUNC_NDEV_ARG ( pnetdev ) ) ;
return 0 ;
_netdev_virtual_iface_open_error :
padapter - > bup = _FALSE ;
netif_carrier_off ( pnetdev ) ;
rtw_netif_stop_queue ( pnetdev ) ;
return ( - 1 ) ;
}
int netdev_vir_if_open ( struct net_device * pnetdev )
{
int ret ;
_adapter * padapter = ( _adapter * ) rtw_netdev_priv ( pnetdev ) ;
_enter_critical_mutex ( & ( adapter_to_dvobj ( padapter ) - > hw_init_mutex ) , NULL ) ;
ret = _netdev_vir_if_open ( pnetdev ) ;
_exit_critical_mutex ( & ( adapter_to_dvobj ( padapter ) - > hw_init_mutex ) , NULL ) ;
# ifdef CONFIG_AUTO_AP_MODE
//if(padapter->iface_id == 2)
// rtw_start_auto_ap(padapter);
# endif
return ret ;
}
static int netdev_vir_if_close ( struct net_device * pnetdev )
{
_adapter * padapter = ( _adapter * ) rtw_netdev_priv ( pnetdev ) ;
padapter - > net_closed = _TRUE ;
if ( pnetdev )
{
if ( ! rtw_netif_queue_stopped ( pnetdev ) )
rtw_netif_stop_queue ( pnetdev ) ;
}
# ifdef CONFIG_IOCTL_CFG80211
rtw_scan_abort ( padapter ) ;
wdev_to_priv ( padapter - > rtw_wdev ) - > bandroid_scan = _FALSE ;
# endif
return 0 ;
}
# if (LINUX_VERSION_CODE>=KERNEL_VERSION(2,6,29))
static const struct net_device_ops rtw_netdev_vir_if_ops = {
. ndo_open = netdev_vir_if_open ,
. ndo_stop = netdev_vir_if_close ,
. ndo_start_xmit = rtw_xmit_entry ,
. ndo_set_mac_address = rtw_net_set_mac_address ,
. ndo_get_stats = rtw_net_get_stats ,
. ndo_do_ioctl = rtw_ioctl ,
# if (LINUX_VERSION_CODE>=KERNEL_VERSION(2,6,35))
. ndo_select_queue = rtw_select_queue ,
# endif
} ;
# endif
_adapter * rtw_drv_add_vir_if ( _adapter * primary_padapter ,
void ( * set_intf_ops ) ( _adapter * primary_padapter , struct _io_ops * pops ) )
{
int res = _FAIL ;
struct net_device * pnetdev = NULL ;
_adapter * padapter = NULL ;
struct dvobj_priv * pdvobjpriv ;
u8 mac [ ETH_ALEN ] ;
/*
if ( ( primary_padapter - > bup = = _FALSE ) | |
( rtw_buddy_adapter_up ( primary_padapter ) = = _FALSE ) )
{
goto error_rtw_drv_add_iface ;
}
*/
/****** init netdev ******/
pnetdev = rtw_init_netdev ( NULL ) ;
if ( ! pnetdev )
goto error_rtw_drv_add_iface ;
# if (LINUX_VERSION_CODE>=KERNEL_VERSION(2,6,29))
DBG_871X ( " register rtw_netdev_virtual_iface_ops to netdev_ops \n " ) ;
pnetdev - > netdev_ops = & rtw_netdev_vir_if_ops ;
# else
pnetdev - > open = netdev_vir_if_open ;
pnetdev - > stop = netdev_vir_if_close ;
# endif
# ifdef CONFIG_NO_WIRELESS_HANDLERS
pnetdev - > wireless_handlers = NULL ;
# endif
/****** init adapter ******/
padapter = rtw_netdev_priv ( pnetdev ) ;
_rtw_memcpy ( padapter , primary_padapter , sizeof ( _adapter ) ) ;
//
padapter - > bup = _FALSE ;
padapter - > net_closed = _TRUE ;
padapter - > hw_init_completed = _FALSE ;
//set adapter_type/iface type
padapter - > isprimary = _FALSE ;
padapter - > adapter_type = MAX_ADAPTER ;
padapter - > pbuddy_adapter = primary_padapter ;
#if 0
# ifndef CONFIG_HWPORT_SWAP //Port0 -> Pri , Port1 -> Sec
padapter - > iface_type = IFACE_PORT1 ;
# else
padapter - > iface_type = IFACE_PORT0 ;
# endif //CONFIG_HWPORT_SWAP
# else
//extended virtual interfaces always are set to port0
padapter - > iface_type = IFACE_PORT0 ;
# endif
//
padapter - > pnetdev = pnetdev ;
/****** setup dvobj ******/
pdvobjpriv = adapter_to_dvobj ( padapter ) ;
padapter - > iface_id = pdvobjpriv - > iface_nums ;
pdvobjpriv - > padapters [ pdvobjpriv - > iface_nums + + ] = padapter ;
SET_NETDEV_DEV ( pnetdev , dvobj_to_dev ( pdvobjpriv ) ) ;
# ifdef CONFIG_IOCTL_CFG80211
rtw_wdev_alloc ( padapter , dvobj_to_dev ( pdvobjpriv ) ) ;
# endif //CONFIG_IOCTL_CFG80211
//set interface_type/chip_type/HardwareType
padapter - > interface_type = primary_padapter - > interface_type ;
padapter - > chip_type = primary_padapter - > chip_type ;
padapter - > HardwareType = primary_padapter - > HardwareType ;
//step 2. hook HalFunc, allocate HalData
//hal_set_hal_ops(padapter);
rtw_set_hal_ops ( padapter ) ;
padapter - > HalFunc . inirp_init = NULL ;
padapter - > HalFunc . inirp_deinit = NULL ;
padapter - > intf_start = NULL ;
padapter - > intf_stop = NULL ;
//step init_io_priv
if ( ( rtw_init_io_priv ( padapter , set_intf_ops ) ) = = _FAIL ) {
RT_TRACE ( _module_hci_intfs_c_ , _drv_err_ , ( " \n Can't init io_reqs \n " ) ) ;
}
//step read_chip_version
rtw_hal_read_chip_version ( padapter ) ;
//step usb endpoint mapping
rtw_hal_chip_configure ( padapter ) ;
//init drv data
if ( rtw_init_drv_sw ( padapter ) ! = _SUCCESS )
goto error_rtw_drv_add_iface ;
//get mac address from primary_padapter
_rtw_memcpy ( mac , primary_padapter - > eeprompriv . mac_addr , ETH_ALEN ) ;
if ( ( ( mac [ 0 ] = = 0xff ) & & ( mac [ 1 ] = = 0xff ) & & ( mac [ 2 ] = = 0xff ) & &
( mac [ 3 ] = = 0xff ) & & ( mac [ 4 ] = = 0xff ) & & ( mac [ 5 ] = = 0xff ) ) | |
( ( mac [ 0 ] = = 0x0 ) & & ( mac [ 1 ] = = 0x0 ) & & ( mac [ 2 ] = = 0x0 ) & &
( mac [ 3 ] = = 0x0 ) & & ( mac [ 4 ] = = 0x0 ) & & ( mac [ 5 ] = = 0x0 ) ) )
{
mac [ 0 ] = 0x00 ;
mac [ 1 ] = 0xe0 ;
mac [ 2 ] = 0x4c ;
mac [ 3 ] = 0x87 ;
mac [ 4 ] = 0x11 ;
mac [ 5 ] = 0x22 ;
}
else
{
//If the BIT1 is 0, the address is universally administered.
//If it is 1, the address is locally administered
# if 1 //needs enable MBSSID CAM
mac [ 0 ] | = BIT ( 1 ) ; // locally administered
mac [ 0 ] | = ( padapter - > iface_id - 1 ) < < 4 ;
# endif
}
_rtw_memcpy ( padapter - > eeprompriv . mac_addr , mac , ETH_ALEN ) ;
padapter - > dir_dev = NULL ;
res = _SUCCESS ;
return padapter ;
error_rtw_drv_add_iface :
if ( padapter )
rtw_free_drv_sw ( padapter ) ;
if ( pnetdev )
rtw_free_netdev ( pnetdev ) ;
return NULL ;
}
void rtw_drv_stop_vir_if ( _adapter * padapter )
{
struct net_device * pnetdev = NULL ;
if ( padapter = = NULL )
return ;
pnetdev = padapter - > pnetdev ;
if ( pnetdev )
{
unregister_netdev ( pnetdev ) ; //will call netdev_close()
rtw_proc_remove_one ( pnetdev ) ;
}
rtw_cancel_all_timer ( padapter ) ;
if ( padapter - > bup = = _TRUE )
{
padapter - > bDriverStopped = _TRUE ;
# ifdef CONFIG_XMIT_ACK
if ( padapter - > xmitpriv . ack_tx )
rtw_ack_tx_done ( & padapter - > xmitpriv , RTW_SCTX_DONE_DRV_STOP ) ;
# endif
if ( padapter - > intf_stop )
{
padapter - > intf_stop ( padapter ) ;
}
rtw_stop_drv_threads ( padapter ) ;
padapter - > bup = _FALSE ;
}
# ifdef CONFIG_IOCTL_CFG80211
rtw_wdev_unregister ( padapter - > rtw_wdev ) ;
# endif //CONFIG_IOCTL_CFG80211
}
void rtw_drv_free_vir_if ( _adapter * padapter )
{
struct net_device * pnetdev = NULL ;
if ( padapter = = NULL )
return ;
padapter - > pbuddy_adapter = NULL ;
pnetdev = padapter - > pnetdev ;
# ifdef CONFIG_IOCTL_CFG80211
rtw_wdev_free ( padapter - > rtw_wdev ) ;
# endif //CONFIG_IOCTL_CFG80211
rtw_free_drv_sw ( padapter ) ;
rtw_free_netdev ( pnetdev ) ;
}
void rtw_drv_stop_vir_ifaces ( struct dvobj_priv * dvobj )
{
int i ;
//struct dvobj_priv *dvobj = primary_padapter->dvobj;
for ( i = 2 ; i < dvobj - > iface_nums ; i + + )
{
rtw_drv_stop_vir_if ( dvobj - > padapters [ i ] ) ;
}
}
void rtw_drv_free_vir_ifaces ( struct dvobj_priv * dvobj )
{
int i ;
//struct dvobj_priv *dvobj = primary_padapter->dvobj;
for ( i = 2 ; i < dvobj - > iface_nums ; i + + )
{
rtw_drv_free_vir_if ( dvobj - > padapters [ i ] ) ;
}
}
void rtw_drv_del_vir_if ( _adapter * padapter )
{
rtw_drv_stop_vir_if ( padapter ) ;
rtw_drv_free_vir_if ( padapter ) ;
}
void rtw_drv_del_vir_ifaces ( _adapter * primary_padapter )
{
int i ;
struct dvobj_priv * dvobj = primary_padapter - > dvobj ;
for ( i = 2 ; i < dvobj - > iface_nums ; i + + )
{
rtw_drv_del_vir_if ( dvobj - > padapters [ i ] ) ;
}
}
# endif //CONFIG_MULTI_VIR_IFACES
int _netdev_if2_open ( struct net_device * pnetdev )
{
_adapter * padapter = ( _adapter * ) rtw_netdev_priv ( pnetdev ) ;
_adapter * primary_padapter = padapter - > pbuddy_adapter ;
DBG_871X ( " +871x_drv - if2_open, bup=%d \n " , padapter - > bup ) ;
if ( primary_padapter - > bup = = _FALSE | | primary_padapter - > hw_init_completed = = _FALSE )
{
_netdev_open ( primary_padapter - > pnetdev ) ;
}
if ( padapter - > bup = = _FALSE & & primary_padapter - > bup = = _TRUE & &
primary_padapter - > hw_init_completed = = _TRUE )
{
int i ;
padapter - > bDriverStopped = _FALSE ;
padapter - > bSurpriseRemoved = _FALSE ;
padapter - > bCardDisableWOHSM = _FALSE ;
// _rtw_memcpy(padapter->HalData, primary_padapter->HalData, padapter->hal_data_sz);
rtw_hal_clone_data ( padapter , primary_padapter ) ;
padapter - > bFWReady = primary_padapter - > bFWReady ;
//if (init_mlme_ext_priv(padapter) == _FAIL)
// goto netdev_if2_open_error;
if ( rtw_start_drv_threads ( padapter ) = = _FAIL )
{
goto netdev_if2_open_error ;
}
if ( padapter - > intf_start )
{
padapter - > intf_start ( padapter ) ;
}
padapter - > hw_init_completed = _TRUE ;
padapter - > dir_dev = NULL ;
rtw_proc_init_one ( pnetdev ) ;
# ifdef CONFIG_IOCTL_CFG80211
rtw_cfg80211_init_wiphy ( padapter ) ;
# endif
padapter - > bup = _TRUE ;
}
padapter - > net_closed = _FALSE ;
_set_timer ( & padapter - > mlmepriv . dynamic_chk_timer , 2000 ) ;
if ( ! rtw_netif_queue_stopped ( pnetdev ) )
rtw_netif_start_queue ( pnetdev ) ;
else
rtw_netif_wake_queue ( pnetdev ) ;
DBG_871X ( " -871x_drv - if2_open, bup=%d \n " , padapter - > bup ) ;
return 0 ;
netdev_if2_open_error :
padapter - > bup = _FALSE ;
netif_carrier_off ( pnetdev ) ;
rtw_netif_stop_queue ( pnetdev ) ;
return ( - 1 ) ;
}
int netdev_if2_open ( struct net_device * pnetdev )
{
int ret ;
_adapter * padapter = ( _adapter * ) rtw_netdev_priv ( pnetdev ) ;
_enter_critical_mutex ( & ( adapter_to_dvobj ( padapter ) - > hw_init_mutex ) , NULL ) ;
ret = _netdev_if2_open ( pnetdev ) ;
_exit_critical_mutex ( & ( adapter_to_dvobj ( padapter ) - > hw_init_mutex ) , NULL ) ;
# ifdef CONFIG_AUTO_AP_MODE
//if(padapter->iface_id == 2)
rtw_start_auto_ap ( padapter ) ;
# endif
return ret ;
}
static int netdev_if2_close ( struct net_device * pnetdev )
{
_adapter * padapter = ( _adapter * ) rtw_netdev_priv ( pnetdev ) ;
padapter - > net_closed = _TRUE ;
if ( pnetdev )
{
if ( ! rtw_netif_queue_stopped ( pnetdev ) )
rtw_netif_stop_queue ( pnetdev ) ;
}
# ifdef CONFIG_IOCTL_CFG80211
rtw_scan_abort ( padapter ) ;
wdev_to_priv ( padapter - > rtw_wdev ) - > bandroid_scan = _FALSE ;
# endif
return 0 ;
}
# if (LINUX_VERSION_CODE>=KERNEL_VERSION(2,6,29))
static const struct net_device_ops rtw_netdev_if2_ops = {
. ndo_open = netdev_if2_open ,
. ndo_stop = netdev_if2_close ,
. ndo_start_xmit = rtw_xmit_entry ,
. ndo_set_mac_address = rtw_net_set_mac_address ,
. ndo_get_stats = rtw_net_get_stats ,
. ndo_do_ioctl = rtw_ioctl ,
# if (LINUX_VERSION_CODE>=KERNEL_VERSION(2,6,35))
. ndo_select_queue = rtw_select_queue ,
# endif
} ;
# endif
2013-12-02 21:03:25 +00:00
_adapter * rtw_drv_if2_init ( _adapter * primary_padapter ,
2013-11-19 20:24:49 +00:00
void ( * set_intf_ops ) ( _adapter * primary_padapter , struct _io_ops * pops ) )
{
int res = _FAIL ;
struct net_device * pnetdev = NULL ;
_adapter * padapter = NULL ;
struct dvobj_priv * pdvobjpriv ;
u8 mac [ ETH_ALEN ] ;
/****** init netdev ******/
pnetdev = rtw_init_netdev ( NULL ) ;
if ( ! pnetdev )
goto error_rtw_drv_if2_init ;
# if (LINUX_VERSION_CODE>=KERNEL_VERSION(2,6,29))
DBG_871X ( " register rtw_netdev_if2_ops to netdev_ops \n " ) ;
pnetdev - > netdev_ops = & rtw_netdev_if2_ops ;
# else
pnetdev - > open = netdev_if2_open ;
pnetdev - > stop = netdev_if2_close ;
# endif
# ifdef CONFIG_NO_WIRELESS_HANDLERS
pnetdev - > wireless_handlers = NULL ;
# endif
/****** init adapter ******/
padapter = rtw_netdev_priv ( pnetdev ) ;
_rtw_memcpy ( padapter , primary_padapter , sizeof ( _adapter ) ) ;
//
padapter - > bup = _FALSE ;
padapter - > net_closed = _TRUE ;
padapter - > hw_init_completed = _FALSE ;
//set adapter_type/iface type
padapter - > isprimary = _FALSE ;
padapter - > adapter_type = SECONDARY_ADAPTER ;
padapter - > pbuddy_adapter = primary_padapter ;
padapter - > iface_id = IFACE_ID1 ;
# ifndef CONFIG_HWPORT_SWAP //Port0 -> Pri , Port1 -> Sec
padapter - > iface_type = IFACE_PORT1 ;
# else
padapter - > iface_type = IFACE_PORT0 ;
# endif //CONFIG_HWPORT_SWAP
//
padapter - > pnetdev = pnetdev ;
/****** setup dvobj ******/
pdvobjpriv = adapter_to_dvobj ( padapter ) ;
pdvobjpriv - > if2 = padapter ;
pdvobjpriv - > padapters [ pdvobjpriv - > iface_nums + + ] = padapter ;
SET_NETDEV_DEV ( pnetdev , dvobj_to_dev ( pdvobjpriv ) ) ;
# ifdef CONFIG_IOCTL_CFG80211
rtw_wdev_alloc ( padapter , dvobj_to_dev ( pdvobjpriv ) ) ;
# endif //CONFIG_IOCTL_CFG80211
//set interface_type/chip_type/HardwareType
padapter - > interface_type = primary_padapter - > interface_type ;
padapter - > chip_type = primary_padapter - > chip_type ;
padapter - > HardwareType = primary_padapter - > HardwareType ;
//step 2. hook HalFunc, allocate HalData
//hal_set_hal_ops(padapter);
rtw_set_hal_ops ( padapter ) ;
padapter - > HalFunc . inirp_init = NULL ;
padapter - > HalFunc . inirp_deinit = NULL ;
//
padapter - > intf_start = primary_padapter - > intf_start ;
padapter - > intf_stop = primary_padapter - > intf_stop ;
//step init_io_priv
if ( ( rtw_init_io_priv ( padapter , set_intf_ops ) ) = = _FAIL ) {
RT_TRACE ( _module_hci_intfs_c_ , _drv_err_ , ( " \n Can't init io_reqs \n " ) ) ;
}
//step read_chip_version
rtw_hal_read_chip_version ( padapter ) ;
//step usb endpoint mapping
rtw_hal_chip_configure ( padapter ) ;
//init drv data
if ( rtw_init_drv_sw ( padapter ) ! = _SUCCESS )
goto error_rtw_drv_if2_init ;
//get mac address from primary_padapter
_rtw_memcpy ( mac , primary_padapter - > eeprompriv . mac_addr , ETH_ALEN ) ;
if ( ( ( mac [ 0 ] = = 0xff ) & & ( mac [ 1 ] = = 0xff ) & & ( mac [ 2 ] = = 0xff ) & &
( mac [ 3 ] = = 0xff ) & & ( mac [ 4 ] = = 0xff ) & & ( mac [ 5 ] = = 0xff ) ) | |
( ( mac [ 0 ] = = 0x0 ) & & ( mac [ 1 ] = = 0x0 ) & & ( mac [ 2 ] = = 0x0 ) & &
( mac [ 3 ] = = 0x0 ) & & ( mac [ 4 ] = = 0x0 ) & & ( mac [ 5 ] = = 0x0 ) ) )
{
mac [ 0 ] = 0x00 ;
mac [ 1 ] = 0xe0 ;
mac [ 2 ] = 0x4c ;
mac [ 3 ] = 0x87 ;
mac [ 4 ] = 0x11 ;
mac [ 5 ] = 0x22 ;
}
else
{
//If the BIT1 is 0, the address is universally administered.
//If it is 1, the address is locally administered
mac [ 0 ] | = BIT ( 1 ) ; // locally administered
}
_rtw_memcpy ( padapter - > eeprompriv . mac_addr , mac , ETH_ALEN ) ;
rtw_init_wifidirect_addrs ( padapter , padapter - > eeprompriv . mac_addr , padapter - > eeprompriv . mac_addr ) ;
primary_padapter - > pbuddy_adapter = padapter ;
padapter - > dir_dev = NULL ;
res = _SUCCESS ;
return padapter ;
error_rtw_drv_if2_init :
if ( padapter )
rtw_free_drv_sw ( padapter ) ;
if ( pnetdev )
rtw_free_netdev ( pnetdev ) ;
return NULL ;
}
void rtw_drv_if2_free ( _adapter * if2 )
{
_adapter * padapter = if2 ;
struct net_device * pnetdev = NULL ;
if ( padapter = = NULL )
return ;
pnetdev = padapter - > pnetdev ;
# ifdef CONFIG_IOCTL_CFG80211
rtw_wdev_free ( padapter - > rtw_wdev ) ;
# endif /* CONFIG_IOCTL_CFG80211 */
rtw_free_drv_sw ( padapter ) ;
rtw_free_netdev ( pnetdev ) ;
}
void rtw_drv_if2_stop ( _adapter * if2 )
{
_adapter * padapter = if2 ;
struct net_device * pnetdev = NULL ;
if ( padapter = = NULL )
return ;
pnetdev = padapter - > pnetdev ;
if ( pnetdev ) {
unregister_netdev ( pnetdev ) ; //will call netdev_close()
rtw_proc_remove_one ( pnetdev ) ;
}
rtw_cancel_all_timer ( padapter ) ;
if ( padapter - > bup = = _TRUE ) {
padapter - > bDriverStopped = _TRUE ;
# ifdef CONFIG_XMIT_ACK
if ( padapter - > xmitpriv . ack_tx )
rtw_ack_tx_done ( & padapter - > xmitpriv , RTW_SCTX_DONE_DRV_STOP ) ;
# endif
if ( padapter - > intf_stop )
{
padapter - > intf_stop ( padapter ) ;
}
rtw_stop_drv_threads ( padapter ) ;
padapter - > bup = _FALSE ;
}
# ifdef CONFIG_IOCTL_CFG80211
rtw_wdev_unregister ( padapter - > rtw_wdev ) ;
# endif
}
# endif //end of CONFIG_CONCURRENT_MODE
# ifdef CONFIG_BR_EXT
void netdev_br_init ( struct net_device * netdev )
{
_adapter * adapter = ( _adapter * ) rtw_netdev_priv ( netdev ) ;
# if (LINUX_VERSION_CODE > KERNEL_VERSION(2, 6, 35))
rcu_read_lock ( ) ;
# endif // (LINUX_VERSION_CODE > KERNEL_VERSION(2, 6, 35))
//if(check_fwstate(pmlmepriv, WIFI_STATION_STATE|WIFI_ADHOC_STATE) == _TRUE)
{
//struct net_bridge *br = netdev->br_port->br;//->dev->dev_addr;
# if (LINUX_VERSION_CODE <= KERNEL_VERSION(2, 6, 35))
if ( netdev - > br_port )
# else // (LINUX_VERSION_CODE <= KERNEL_VERSION(2, 6, 35))
if ( rcu_dereference ( adapter - > pnetdev - > rx_handler_data ) )
# endif // (LINUX_VERSION_CODE <= KERNEL_VERSION(2, 6, 35))
{
struct net_device * br_netdev ;
# if (LINUX_VERSION_CODE < KERNEL_VERSION(2,6,24))
br_netdev = dev_get_by_name ( CONFIG_BR_EXT_BRNAME ) ;
# else // (LINUX_VERSION_CODE < KERNEL_VERSION(2,6,24))
struct net * devnet = NULL ;
# if (LINUX_VERSION_CODE < KERNEL_VERSION(2,6,26))
devnet = netdev - > nd_net ;
# else // (LINUX_VERSION_CODE < KERNEL_VERSION(2,6,26))
devnet = dev_net ( netdev ) ;
# endif // (LINUX_VERSION_CODE < KERNEL_VERSION(2,6,26))
br_netdev = dev_get_by_name ( devnet , CONFIG_BR_EXT_BRNAME ) ;
# endif // (LINUX_VERSION_CODE < KERNEL_VERSION(2,6,24))
if ( br_netdev ) {
memcpy ( adapter - > br_mac , br_netdev - > dev_addr , ETH_ALEN ) ;
dev_put ( br_netdev ) ;
} else
printk ( " %s()-%d: dev_get_by_name(%s) failed! " , __FUNCTION__ , __LINE__ , CONFIG_BR_EXT_BRNAME ) ;
}
adapter - > ethBrExtInfo . addPPPoETag = 1 ;
}
# if (LINUX_VERSION_CODE > KERNEL_VERSION(2, 6, 35))
rcu_read_unlock ( ) ;
# endif // (LINUX_VERSION_CODE > KERNEL_VERSION(2, 6, 35))
}
# endif //CONFIG_BR_EXT
static int _rtw_drv_register_netdev ( _adapter * padapter , char * name )
{
int ret = _SUCCESS ;
struct net_device * pnetdev = padapter - > pnetdev ;
/* alloc netdev name */
rtw_init_netdev_name ( pnetdev , name ) ;
_rtw_memcpy ( pnetdev - > dev_addr , padapter - > eeprompriv . mac_addr , ETH_ALEN ) ;
/* Tell the network stack we exist */
if ( register_netdev ( pnetdev ) ! = 0 ) {
DBG_871X ( FUNC_NDEV_FMT " Failed! \n " , FUNC_NDEV_ARG ( pnetdev ) ) ;
ret = _FAIL ;
goto error_register_netdev ;
}
DBG_871X ( " %s, MAC Address (if%d) = " MAC_FMT " \n " , __FUNCTION__ , ( padapter - > iface_id + 1 ) , MAC_ARG ( pnetdev - > dev_addr ) ) ;
return ret ;
error_register_netdev :
if ( padapter - > iface_id > IFACE_ID0 )
{
rtw_free_drv_sw ( padapter ) ;
rtw_free_netdev ( pnetdev ) ;
}
return ret ;
}
int rtw_drv_register_netdev ( _adapter * if1 )
{
int i , status = _SUCCESS ;
struct dvobj_priv * dvobj = if1 - > dvobj ;
if ( dvobj - > iface_nums < IFACE_ID_MAX )
{
for ( i = 0 ; i < dvobj - > iface_nums ; i + + )
{
_adapter * padapter = dvobj - > padapters [ i ] ;
if ( padapter )
{
char * name ;
if ( padapter - > iface_id = = IFACE_ID0 )
name = if1 - > registrypriv . ifname ;
else if ( padapter - > iface_id = = IFACE_ID1 )
name = if1 - > registrypriv . if2name ;
else
name = " wlan%d " ;
if ( ( status = _rtw_drv_register_netdev ( padapter , name ) ) ! = _SUCCESS ) {
break ;
}
}
}
}
return status ;
}
int _netdev_open ( struct net_device * pnetdev )
{
uint status ;
_adapter * padapter = ( _adapter * ) rtw_netdev_priv ( pnetdev ) ;
struct pwrctrl_priv * pwrctrlpriv = & padapter - > pwrctrlpriv ;
RT_TRACE ( _module_os_intfs_c_ , _drv_info_ , ( " +871x_drv - dev_open \n " ) ) ;
DBG_871X ( " +871x_drv - drv_open, bup=%d \n " , padapter - > bup ) ;
if ( pwrctrlpriv - > ps_flag = = _TRUE ) {
padapter - > net_closed = _FALSE ;
goto netdev_open_normal_process ;
}
if ( padapter - > bup = = _FALSE )
{
padapter - > bDriverStopped = _FALSE ;
padapter - > bSurpriseRemoved = _FALSE ;
padapter - > bCardDisableWOHSM = _FALSE ;
status = rtw_hal_init ( padapter ) ;
if ( status = = _FAIL )
{
RT_TRACE ( _module_os_intfs_c_ , _drv_err_ , ( " rtl871x_hal_init(): Can't init h/w! \n " ) ) ;
goto netdev_open_error ;
}
DBG_871X ( " MAC Address = " MAC_FMT " \n " , MAC_ARG ( pnetdev - > dev_addr ) ) ;
status = rtw_start_drv_threads ( padapter ) ;
if ( status = = _FAIL )
{
DBG_871X ( " Initialize driver software resource Failed! \n " ) ;
goto netdev_open_error ;
}
if ( init_hw_mlme_ext ( padapter ) = = _FAIL )
{
DBG_871X ( " can't init mlme_ext_priv \n " ) ;
goto netdev_open_error ;
}
# ifdef CONFIG_DRVEXT_MODULE
init_drvext ( padapter ) ;
# endif
if ( padapter - > intf_start )
{
padapter - > intf_start ( padapter ) ;
}
# ifndef RTK_DMP_PLATFORM
rtw_proc_init_one ( pnetdev ) ;
# endif
# ifdef CONFIG_IOCTL_CFG80211
rtw_cfg80211_init_wiphy ( padapter ) ;
# endif
rtw_led_control ( padapter , LED_CTL_NO_LINK ) ;
padapter - > bup = _TRUE ;
}
padapter - > net_closed = _FALSE ;
_set_timer ( & padapter - > mlmepriv . dynamic_chk_timer , 2000 ) ;
padapter - > pwrctrlpriv . bips_processing = _FALSE ;
rtw_set_pwr_state_check_timer ( & padapter - > pwrctrlpriv ) ;
//netif_carrier_on(pnetdev);//call this func when rtw_joinbss_event_callback return success
if ( ! rtw_netif_queue_stopped ( pnetdev ) )
rtw_netif_start_queue ( pnetdev ) ;
else
rtw_netif_wake_queue ( pnetdev ) ;
# ifdef CONFIG_BR_EXT
netdev_br_init ( pnetdev ) ;
# endif // CONFIG_BR_EXT
netdev_open_normal_process :
# ifdef CONFIG_CONCURRENT_MODE
{
_adapter * sec_adapter = padapter - > pbuddy_adapter ;
if ( sec_adapter & & ( sec_adapter - > bup = = _FALSE | | sec_adapter - > hw_init_completed = = _FALSE ) )
_netdev_if2_open ( sec_adapter - > pnetdev ) ;
}
# endif
RT_TRACE ( _module_os_intfs_c_ , _drv_info_ , ( " -871x_drv - dev_open \n " ) ) ;
DBG_871X ( " -871x_drv - drv_open, bup=%d \n " , padapter - > bup ) ;
return 0 ;
netdev_open_error :
padapter - > bup = _FALSE ;
netif_carrier_off ( pnetdev ) ;
rtw_netif_stop_queue ( pnetdev ) ;
RT_TRACE ( _module_os_intfs_c_ , _drv_err_ , ( " -871x_drv - dev_open, fail! \n " ) ) ;
DBG_871X ( " -871x_drv - drv_open fail, bup=%d \n " , padapter - > bup ) ;
return ( - 1 ) ;
}
int netdev_open ( struct net_device * pnetdev )
{
int ret ;
_adapter * padapter = ( _adapter * ) rtw_netdev_priv ( pnetdev ) ;
_enter_critical_mutex ( & ( adapter_to_dvobj ( padapter ) - > hw_init_mutex ) , NULL ) ;
ret = _netdev_open ( pnetdev ) ;
_exit_critical_mutex ( & ( adapter_to_dvobj ( padapter ) - > hw_init_mutex ) , NULL ) ;
return ret ;
}
# ifdef CONFIG_IPS
int ips_netdrv_open ( _adapter * padapter )
{
int status = _SUCCESS ;
padapter - > net_closed = _FALSE ;
DBG_871X ( " ===> %s......... \n " , __FUNCTION__ ) ;
padapter - > bDriverStopped = _FALSE ;
padapter - > bSurpriseRemoved = _FALSE ;
padapter - > bCardDisableWOHSM = _FALSE ;
//padapter->bup = _TRUE;
status = rtw_hal_init ( padapter ) ;
if ( status = = _FAIL )
{
RT_TRACE ( _module_os_intfs_c_ , _drv_err_ , ( " ips_netdrv_open(): Can't init h/w! \n " ) ) ;
goto netdev_open_error ;
}
if ( padapter - > intf_start )
{
padapter - > intf_start ( padapter ) ;
}
rtw_set_pwr_state_check_timer ( & padapter - > pwrctrlpriv ) ;
_set_timer ( & padapter - > mlmepriv . dynamic_chk_timer , 5000 ) ;
return _SUCCESS ;
netdev_open_error :
//padapter->bup = _FALSE;
DBG_871X ( " -ips_netdrv_open - drv_open failure, bup=%d \n " , padapter - > bup ) ;
return _FAIL ;
}
int rtw_ips_pwr_up ( _adapter * padapter )
{
int result ;
u32 start_time = rtw_get_current_time ( ) ;
DBG_871X ( " ===> rtw_ips_pwr_up.............. \n " ) ;
rtw_reset_drv_sw ( padapter ) ;
result = ips_netdrv_open ( padapter ) ;
rtw_led_control ( padapter , LED_CTL_NO_LINK ) ;
DBG_871X ( " <=== rtw_ips_pwr_up.............. in %dms \n " , rtw_get_passing_time_ms ( start_time ) ) ;
return result ;
}
void rtw_ips_pwr_down ( _adapter * padapter )
{
u32 start_time = rtw_get_current_time ( ) ;
DBG_871X ( " ===> rtw_ips_pwr_down................... \n " ) ;
padapter - > bCardDisableWOHSM = _TRUE ;
padapter - > net_closed = _TRUE ;
rtw_ips_dev_unload ( padapter ) ;
padapter - > bCardDisableWOHSM = _FALSE ;
DBG_871X ( " <=== rtw_ips_pwr_down..................... in %dms \n " , rtw_get_passing_time_ms ( start_time ) ) ;
}
# endif
void rtw_ips_dev_unload ( _adapter * padapter )
{
struct net_device * pnetdev = ( struct net_device * ) padapter - > pnetdev ;
struct xmit_priv * pxmitpriv = & ( padapter - > xmitpriv ) ;
DBG_871X ( " ====> %s... \n " , __FUNCTION__ ) ;
rtw_hal_set_hwreg ( padapter , HW_VAR_FIFO_CLEARN_UP , 0 ) ;
if ( padapter - > intf_stop )
{
padapter - > intf_stop ( padapter ) ;
}
//s5.
if ( padapter - > bSurpriseRemoved = = _FALSE )
{
rtw_hal_deinit ( padapter ) ;
}
}
int pm_netdev_open ( struct net_device * pnetdev , u8 bnormal )
{
int status ;
if ( _TRUE = = bnormal )
status = netdev_open ( pnetdev ) ;
# ifdef CONFIG_IPS
else
status = ( _SUCCESS = = ips_netdrv_open ( ( _adapter * ) rtw_netdev_priv ( pnetdev ) ) ) ? ( 0 ) : ( - 1 ) ;
# endif
return status ;
}
static int netdev_close ( struct net_device * pnetdev )
{
_adapter * padapter = ( _adapter * ) rtw_netdev_priv ( pnetdev ) ;
RT_TRACE ( _module_os_intfs_c_ , _drv_info_ , ( " +871x_drv - drv_close \n " ) ) ;
if ( padapter - > pwrctrlpriv . bInternalAutoSuspend = = _TRUE )
{
//rtw_pwr_wakeup(padapter);
if ( padapter - > pwrctrlpriv . rf_pwrstate = = rf_off )
padapter - > pwrctrlpriv . ps_flag = _TRUE ;
}
padapter - > net_closed = _TRUE ;
/* if(!padapter->hw_init_completed)
{
DBG_871X ( " (1)871x_drv - drv_close, bup=%d, hw_init_completed=%d \n " , padapter - > bup , padapter - > hw_init_completed ) ;
padapter - > bDriverStopped = _TRUE ;
rtw_dev_unload ( padapter ) ;
}
else */
if ( padapter - > pwrctrlpriv . rf_pwrstate = = rf_on ) {
DBG_871X ( " (2)871x_drv - drv_close, bup=%d, hw_init_completed=%d \n " , padapter - > bup , padapter - > hw_init_completed ) ;
//s1.
if ( pnetdev )
{
if ( ! rtw_netif_queue_stopped ( pnetdev ) )
rtw_netif_stop_queue ( pnetdev ) ;
}
# ifndef CONFIG_ANDROID
//s2.
LeaveAllPowerSaveMode ( padapter ) ;
rtw_disassoc_cmd ( padapter , 500 , _FALSE ) ;
//s2-2. indicate disconnect to os
rtw_indicate_disconnect ( padapter ) ;
//s2-3.
rtw_free_assoc_resources ( padapter , 1 ) ;
//s2-4.
rtw_free_network_queue ( padapter , _TRUE ) ;
# endif
// Close LED
rtw_led_control ( padapter , LED_CTL_POWER_OFF ) ;
}
# ifdef CONFIG_BR_EXT
//if (OPMODE & (WIFI_STATION_STATE | WIFI_ADHOC_STATE))
{
//void nat25_db_cleanup(_adapter *priv);
nat25_db_cleanup ( padapter ) ;
}
# endif // CONFIG_BR_EXT
# ifdef CONFIG_P2P
# ifdef CONFIG_IOCTL_CFG80211
if ( padapter - > wdinfo . driver_interface = = DRIVER_CFG80211 )
{
if ( wdev_to_priv ( padapter - > rtw_wdev ) - > p2p_enabled = = _TRUE )
wdev_to_priv ( padapter - > rtw_wdev ) - > p2p_enabled = _FALSE ;
}
# endif //CONFIG_IOCTL_CFG80211
rtw_p2p_enable ( padapter , P2P_ROLE_DISABLE ) ;
# endif //CONFIG_P2P
# ifdef CONFIG_IOCTL_CFG80211
rtw_scan_abort ( padapter ) ;
wdev_to_priv ( padapter - > rtw_wdev ) - > bandroid_scan = _FALSE ;
padapter - > rtw_wdev - > iftype = NL80211_IFTYPE_MONITOR ; //set this at the end
# endif //CONFIG_IOCTL_CFG80211
# ifdef CONFIG_WAPI_SUPPORT
rtw_wapi_disable_tx ( padapter ) ;
# endif
RT_TRACE ( _module_os_intfs_c_ , _drv_info_ , ( " -871x_drv - drv_close \n " ) ) ;
DBG_871X ( " -871x_drv - drv_close, bup=%d \n " , padapter - > bup ) ;
return 0 ;
}
void rtw_ndev_destructor ( struct net_device * ndev )
{
DBG_871X ( FUNC_NDEV_FMT " \n " , FUNC_NDEV_ARG ( ndev ) ) ;
# ifdef CONFIG_IOCTL_CFG80211
if ( ndev - > ieee80211_ptr )
rtw_mfree ( ( u8 * ) ndev - > ieee80211_ptr , sizeof ( struct wireless_dev ) ) ;
# endif
free_netdev ( ndev ) ;
}