mirror of
https://github.com/lwfinger/rtl8188eu.git
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1ada4e9170
This one will always be selected. Signed-off-by: Larry Finger <Larry.Finger@lwfinger.net>
615 lines
22 KiB
C
615 lines
22 KiB
C
/******************************************************************************
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*
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* Copyright(c) 2007 - 2011 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
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* under the terms of version 2 of the GNU General Public License as
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* published by the Free Software Foundation.
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*
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* This program is distributed in the hope that it will be useful, but WITHOUT
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* ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
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* FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
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* more details.
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*
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* You should have received a copy of the GNU General Public License along with
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* this program; if not, write to the Free Software Foundation, Inc.,
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* 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
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*
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*
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******************************************************************************/
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#ifndef __RTW_MLME_H_
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#define __RTW_MLME_H_
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#include <osdep_service.h>
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#include <mlme_osdep.h>
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#include <drv_types.h>
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#include <wlan_bssdef.h>
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#define MAX_BSS_CNT 128
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//#define MAX_JOIN_TIME 2000
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//#define MAX_JOIN_TIME 2500
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#define MAX_JOIN_TIMEOUT 6500
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// Increase the scanning timeout because of increasing the SURVEY_TO value.
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#define SCANNING_TIMEOUT 8000
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#define SCAN_INTERVAL (30) // unit:2sec, 30*2=60sec
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#define SCANQUEUE_LIFETIME 20 // unit:sec
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#define WIFI_NULL_STATE 0x00000000
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#define WIFI_ASOC_STATE 0x00000001 // Under Linked state...
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#define WIFI_REASOC_STATE 0x00000002
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#define WIFI_SLEEP_STATE 0x00000004
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#define WIFI_STATION_STATE 0x00000008
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#define WIFI_AP_STATE 0x00000010
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#define WIFI_ADHOC_STATE 0x00000020
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#define WIFI_ADHOC_MASTER_STATE 0x00000040
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#define WIFI_UNDER_LINKING 0x00000080
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#define WIFI_UNDER_WPS 0x00000100
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#define WIFI_STA_ALIVE_CHK_STATE 0x00000400
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#define WIFI_SITE_MONITOR 0x00000800 //to indicate the station is under site surveying
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#define WIFI_MP_STATE 0x00010000
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#define WIFI_MP_CTX_BACKGROUND 0x00020000 // in continous tx background
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#define WIFI_MP_CTX_ST 0x00040000 // in continous tx with single-tone
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#define WIFI_MP_CTX_BACKGROUND_PENDING 0x00080000 // pending in continous tx background due to out of skb
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#define WIFI_MP_CTX_CCK_HW 0x00100000 // in continous tx
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#define WIFI_MP_CTX_CCK_CS 0x00200000 // in continous tx with carrier suppression
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#define WIFI_MP_LPBK_STATE 0x00400000
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#define _FW_UNDER_LINKING WIFI_UNDER_LINKING
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#define _FW_LINKED WIFI_ASOC_STATE
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#define _FW_UNDER_SURVEY WIFI_SITE_MONITOR
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enum dot11AuthAlgrthmNum {
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dot11AuthAlgrthm_Open = 0,
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dot11AuthAlgrthm_Shared,
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dot11AuthAlgrthm_8021X,
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dot11AuthAlgrthm_Auto,
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dot11AuthAlgrthm_WAPI,
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dot11AuthAlgrthm_MaxNum
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};
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// Scan type including active and passive scan.
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enum rt_scan_type {
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SCAN_PASSIVE,
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SCAN_ACTIVE,
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SCAN_MIX,
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};
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enum SCAN_RESULT_TYPE
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{
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SCAN_RESULT_P2P_ONLY = 0, // Will return all the P2P devices.
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SCAN_RESULT_ALL = 1, // Will return all the scanned device, include AP.
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SCAN_RESULT_WFD_TYPE = 2 // Will just return the correct WFD device.
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// If this device is Miracast sink device, it will just return all the Miracast source devices.
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};
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/*
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there are several "locks" in mlme_priv,
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since mlme_priv is a shared resource between many threads,
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like ISR/Call-Back functions, the OID handlers, and even timer functions.
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Each _queue has its own locks, already.
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Other items are protected by mlme_priv.lock.
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To avoid possible dead lock, any thread trying to modifiying mlme_priv
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SHALL not lock up more than one locks at a time!
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*/
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#define traffic_threshold 10
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#define traffic_scan_period 500
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struct sitesurvey_ctrl {
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u64 last_tx_pkts;
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uint last_rx_pkts;
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int traffic_busy;
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struct timer_list sitesurvey_ctrl_timer;
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};
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struct rt_link_detect {
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u32 NumTxOkInPeriod;
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u32 NumRxOkInPeriod;
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u32 NumRxUnicastOkInPeriod;
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bool bBusyTraffic;
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bool bTxBusyTraffic;
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bool bRxBusyTraffic;
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bool bHigherBusyTraffic; // For interrupt migration purpose.
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bool bHigherBusyRxTraffic; // We may disable Tx interrupt according as Rx traffic.
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bool bHigherBusyTxTraffic; // We may disable Tx interrupt according as Tx traffic.
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};
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struct profile_info {
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u8 ssidlen;
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u8 ssid[ WLAN_SSID_MAXLEN ];
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u8 peermac[ ETH_ALEN ];
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};
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struct tx_invite_req_info{
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u8 token;
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u8 benable;
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u8 go_ssid[ WLAN_SSID_MAXLEN ];
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u8 ssidlen;
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u8 go_bssid[ ETH_ALEN ];
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u8 peer_macaddr[ ETH_ALEN ];
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u8 operating_ch; // This information will be set by using the p2p_set op_ch=x
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u8 peer_ch; // The listen channel for peer P2P device
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};
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struct tx_invite_resp_info{
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u8 token; // Used to record the dialog token of p2p invitation request frame.
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};
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struct tx_provdisc_req_info{
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u16 wps_config_method_request; // Used when sending the provisioning request frame
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u16 peer_channel_num[2]; // The channel number which the receiver stands.
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struct ndis_802_11_ssid ssid;
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u8 peerDevAddr[ ETH_ALEN ]; // Peer device address
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u8 peerIFAddr[ ETH_ALEN ]; // Peer interface address
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u8 benable; // This provision discovery request frame is trigger to send or not
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};
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struct rx_provdisc_req_info{ //When peer device issue prov_disc_req first, we should store the following informations
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u8 peerDevAddr[ ETH_ALEN ]; // Peer device address
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u8 strconfig_method_desc_of_prov_disc_req[4]; // description for the config method located in the provisioning discovery request frame.
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// The UI must know this information to know which config method the remote p2p device is requiring.
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};
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struct tx_nego_req_info{
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u16 peer_channel_num[2]; // The channel number which the receiver stands.
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u8 peerDevAddr[ ETH_ALEN ]; // Peer device address
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u8 benable; // This negoitation request frame is trigger to send or not
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};
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struct group_id_info{
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u8 go_device_addr[ ETH_ALEN ]; // The GO's device address of this P2P group
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u8 ssid[ WLAN_SSID_MAXLEN ]; // The SSID of this P2P group
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};
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struct scan_limit_info{
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u8 scan_op_ch_only; // When this flag is set, the driver should just scan the operation channel
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u8 operation_ch[2]; // Store the operation channel of invitation request frame
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};
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struct wifidirect_info{
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struct adapter* padapter;
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struct timer_list find_phase_timer;
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struct timer_list restore_p2p_state_timer;
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// Used to do the scanning. After confirming the peer is availalble, the driver transmits the P2P frame to peer.
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struct timer_list pre_tx_scan_timer;
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struct timer_list reset_ch_sitesurvey;
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struct timer_list reset_ch_sitesurvey2; // Just for resetting the scan limit function by using p2p nego
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struct tx_provdisc_req_info tx_prov_disc_info;
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struct rx_provdisc_req_info rx_prov_disc_info;
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struct tx_invite_req_info invitereq_info;
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struct profile_info profileinfo[ P2P_MAX_PERSISTENT_GROUP_NUM ]; // Store the profile information of persistent group
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struct tx_invite_resp_info inviteresp_info;
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struct tx_nego_req_info nego_req_info;
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struct group_id_info groupid_info; // Store the group id information when doing the group negotiation handshake.
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struct scan_limit_info rx_invitereq_info; // Used for get the limit scan channel from the Invitation procedure
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struct scan_limit_info p2p_info; // Used for get the limit scan channel from the P2P negotiation handshake
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enum P2P_ROLE role;
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enum P2P_STATE pre_p2p_state;
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enum P2P_STATE p2p_state;
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u8 device_addr[ETH_ALEN]; // The device address should be the mac address of this device.
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u8 interface_addr[ETH_ALEN];
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u8 social_chan[4];
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u8 listen_channel;
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u8 operating_channel;
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u8 listen_dwell; // This value should be between 1 and 3
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u8 support_rate[8];
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u8 p2p_wildcard_ssid[P2P_WILDCARD_SSID_LEN];
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u8 intent; // should only include the intent value.
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u8 p2p_peer_interface_addr[ ETH_ALEN ];
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u8 p2p_peer_device_addr[ ETH_ALEN ];
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u8 peer_intent; // Included the intent value and tie breaker value.
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u8 device_name[ WPS_MAX_DEVICE_NAME_LEN ]; // Device name for displaying on searching device screen
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u8 device_name_len;
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u8 profileindex; // Used to point to the index of profileinfo array
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u8 peer_operating_ch;
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u8 find_phase_state_exchange_cnt;
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u16 device_password_id_for_nego; // The device password ID for group negotation
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u8 negotiation_dialog_token;
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u8 nego_ssid[ WLAN_SSID_MAXLEN ]; // SSID information for group negotitation
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u8 nego_ssidlen;
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u8 p2p_group_ssid[WLAN_SSID_MAXLEN];
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u8 p2p_group_ssid_len;
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u8 persistent_supported; // Flag to know the persistent function should be supported or not.
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// In the Sigma test, the Sigma will provide this enable from the sta_set_p2p CAPI.
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// 0: disable
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// 1: enable
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u8 session_available; // Flag to set the WFD session available to enable or disable "by Sigma"
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// In the Sigma test, the Sigma will disable the session available by using the sta_preset CAPI.
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// 0: disable
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// 1: enable
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u8 wfd_tdls_enable; // Flag to enable or disable the TDLS by WFD Sigma
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// 0: disable
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// 1: enable
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u8 wfd_tdls_weaksec; // Flag to enable or disable the weak security function for TDLS by WFD Sigma
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// 0: disable
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// In this case, the driver can't issue the tdsl setup request frame.
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// 1: enable
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// In this case, the driver can issue the tdls setup request frame
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// even the current security is weak security.
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enum P2P_WPSINFO ui_got_wps_info; // This field will store the WPS value (PIN value or PBC) that UI had got from the user.
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u16 supported_wps_cm; // This field describes the WPS config method which this driver supported.
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// The value should be the combination of config method defined in page104 of WPS v2.0 spec.
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uint channel_list_attr_len; // This field will contain the length of body of P2P Channel List attribute of group negotitation response frame.
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u8 channel_list_attr[100]; // This field will contain the body of P2P Channel List attribute of group negotitation response frame.
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// We will use the channel_cnt and channel_list fields when constructing the group negotitation confirm frame.
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enum P2P_PS_MODE p2p_ps_mode; // indicate p2p ps mode
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enum P2P_PS_STATE p2p_ps_state; // indicate p2p ps state
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u8 noa_index; // Identifies and instance of Notice of Absence timing.
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u8 ctwindow; // Client traffic window. A period of time in TU after TBTT.
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u8 opp_ps; // opportunistic power save.
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u8 noa_num; // number of NoA descriptor in P2P IE.
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u8 noa_count[P2P_MAX_NOA_NUM]; // Count for owner, Type of client.
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u32 noa_duration[P2P_MAX_NOA_NUM]; // Max duration for owner, preferred or min acceptable duration for client.
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u32 noa_interval[P2P_MAX_NOA_NUM]; // Length of interval for owner, preferred or max acceptable interval of client.
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u32 noa_start_time[P2P_MAX_NOA_NUM]; // schedule expressed in terms of the lower 4 bytes of the TSF timer.
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};
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struct tdls_ss_record{ //signal strength record
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u8 macaddr[ETH_ALEN];
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u8 RxPWDBAll;
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u8 is_tdls_sta; // true: direct link sta, false: else
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};
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struct tdls_info{
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u8 ap_prohibited;
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uint setup_state;
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u8 sta_cnt;
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u8 sta_maximum; // 1:tdls sta is equal (NUM_STA-1), reach max direct link number; 0: else;
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struct tdls_ss_record ss_record;
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u8 macid_index; //macid entry that is ready to write
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u8 clear_cam; //cam entry that is trying to clear, using it in direct link teardown
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u8 ch_sensing;
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u8 cur_channel;
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u8 candidate_ch;
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u8 collect_pkt_num[MAX_CHANNEL_NUM];
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spinlock_t cmd_lock;
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spinlock_t hdl_lock;
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u8 watchdog_count;
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u8 dev_discovered; //WFD_TDLS: for sigma test
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u8 enable;
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};
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struct mlme_priv {
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spinlock_t lock;
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int fw_state; //shall we protect this variable? maybe not necessarily...
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u8 bScanInProcess;
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u8 to_join; //flag
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u8 to_roaming; // roaming trying times
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u8 *nic_hdl;
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u8 not_indic_disco;
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struct list_head *pscanned;
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struct __queue free_bss_pool;
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struct __queue scanned_queue;
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u8 *free_bss_buf;
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u32 num_of_scanned;
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struct ndis_802_11_ssid assoc_ssid;
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u8 assoc_bssid[6];
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struct wlan_network cur_network;
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//uint wireless_mode; no used, remove it
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u32 scan_interval;
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struct timer_list assoc_timer;
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uint assoc_by_bssid;
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uint assoc_by_rssi;
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struct timer_list scan_to_timer; // driver itself handles scan_timeout status.
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u32 scan_start_time; // used to evaluate the time spent in scanning
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struct qos_priv qospriv;
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/* Number of non-HT AP/stations */
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int num_sta_no_ht;
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/* Number of HT AP/stations 20 MHz */
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//int num_sta_ht_20mhz;
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int num_FortyMHzIntolerant;
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struct ht_priv htpriv;
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struct rt_link_detect LinkDetectInfo;
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struct timer_list dynamic_chk_timer; //dynamic/periodic check timer
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u8 key_mask; //use for ips to set wep key after ips_leave
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u8 acm_mask; // for wmm acm mask
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u8 ChannelPlan;
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enum rt_scan_type scan_mode; // active: 1, passive: 0
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//u8 probereq_wpsie[MAX_WPS_IE_LEN];//added in probe req
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//int probereq_wpsie_len;
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u8 *wps_probe_req_ie;
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u32 wps_probe_req_ie_len;
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#if defined (CONFIG_AP_MODE)
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/* Number of associated Non-ERP stations (i.e., stations using 802.11b
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* in 802.11g BSS) */
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int num_sta_non_erp;
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/* Number of associated stations that do not support Short Slot Time */
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int num_sta_no_short_slot_time;
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/* Number of associated stations that do not support Short Preamble */
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int num_sta_no_short_preamble;
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int olbc; /* Overlapping Legacy BSS Condition */
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/* Number of HT associated stations that do not support greenfield */
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int num_sta_ht_no_gf;
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/* Number of associated non-HT stations */
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//int num_sta_no_ht;
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/* Number of HT associated stations 20 MHz */
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int num_sta_ht_20mhz;
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/* Overlapping BSS information */
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int olbc_ht;
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u16 ht_op_mode;
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u8 *assoc_req;
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u32 assoc_req_len;
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u8 *assoc_rsp;
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u32 assoc_rsp_len;
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u8 *wps_beacon_ie;
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//u8 *wps_probe_req_ie;
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u8 *wps_probe_resp_ie;
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u8 *wps_assoc_resp_ie;
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u32 wps_beacon_ie_len;
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u32 wps_probe_resp_ie_len;
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u32 wps_assoc_resp_ie_len;
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u8 *p2p_beacon_ie;
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u8 *p2p_probe_req_ie;
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u8 *p2p_probe_resp_ie;
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u8 *p2p_go_probe_resp_ie; //for GO
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u8 *p2p_assoc_req_ie;
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u32 p2p_beacon_ie_len;
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u32 p2p_probe_req_ie_len;
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u32 p2p_probe_resp_ie_len;
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u32 p2p_go_probe_resp_ie_len; //for GO
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u32 p2p_assoc_req_ie_len;
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spinlock_t bcn_update_lock;
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u8 update_bcn;
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#endif //#if defined (CONFIG_AP_MODE)
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};
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#ifdef CONFIG_AP_MODE
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struct hostapd_priv
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{
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struct adapter *padapter;
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};
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extern int hostapd_mode_init(struct adapter *padapter);
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extern void hostapd_mode_unload(struct adapter *padapter);
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#endif
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extern unsigned char WPA_TKIP_CIPHER[4];
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extern unsigned char RSN_TKIP_CIPHER[4];
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extern unsigned char REALTEK_96B_IE[];
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extern unsigned char MCS_rate_2R[16];
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extern unsigned char MCS_rate_1R[16];
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extern void rtw_joinbss_event_prehandle(struct adapter *adapter, u8 *pbuf);
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extern void rtw_survey_event_callback(struct adapter *adapter, u8 *pbuf);
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extern void rtw_surveydone_event_callback(struct adapter *adapter, u8 *pbuf);
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extern void rtw_joinbss_event_callback(struct adapter *adapter, u8 *pbuf);
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extern void rtw_stassoc_event_callback(struct adapter *adapter, u8 *pbuf);
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extern void rtw_stadel_event_callback(struct adapter *adapter, u8 *pbuf);
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extern void rtw_atimdone_event_callback(struct adapter *adapter, u8 *pbuf);
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extern void rtw_cpwm_event_callback(struct adapter *adapter, u8 *pbuf);
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void indicate_wx_scan_complete_event(struct adapter *padapter);
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void rtw_indicate_wx_assoc_event(struct adapter *padapter);
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void rtw_indicate_wx_disassoc_event(struct adapter *padapter);
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extern int event_thread(void *context);
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extern void rtw_join_timeout_handler(void* FunctionContext);
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extern void _rtw_scan_timeout_handler(void* FunctionContext);
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extern void rtw_free_network_queue(struct adapter *adapter,u8 isfreeall);
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extern int rtw_init_mlme_priv(struct adapter *adapter);// (struct mlme_priv *pmlmepriv);
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extern void rtw_free_mlme_priv (struct mlme_priv *pmlmepriv);
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extern int rtw_select_and_join_from_scanned_queue(struct mlme_priv *pmlmepriv);
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extern int rtw_set_key(struct adapter *adapter, struct security_priv *psecuritypriv, int keyid, u8 set_tx);
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extern int rtw_set_auth(struct adapter *adapter, struct security_priv *psecuritypriv);
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__inline static u8 *get_bssid(struct mlme_priv *pmlmepriv)
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{ //if sta_mode:pmlmepriv->cur_network.network.MacAddress=> bssid
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// if adhoc_mode:pmlmepriv->cur_network.network.MacAddress=> ibss mac address
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return pmlmepriv->cur_network.network.MacAddress;
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}
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__inline static int check_fwstate(struct mlme_priv *pmlmepriv, int state)
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{
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if (pmlmepriv->fw_state & state)
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return true;
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return false;
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}
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__inline static int get_fwstate(struct mlme_priv *pmlmepriv)
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{
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return pmlmepriv->fw_state;
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}
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/*
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* No Limit on the calling context,
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* therefore set it to be the critical section...
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*
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* ### NOTE:#### (!!!!)
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* MUST TAKE CARE THAT BEFORE CALLING THIS FUNC, YOU SHOULD HAVE LOCKED pmlmepriv->lock
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*/
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__inline static void set_fwstate(struct mlme_priv *pmlmepriv, int state)
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{
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pmlmepriv->fw_state |= state;
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//FOR HW integration
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if (_FW_UNDER_SURVEY==state){
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pmlmepriv->bScanInProcess = true;
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}
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}
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__inline static void _clr_fwstate_(struct mlme_priv *pmlmepriv, int state)
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{
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pmlmepriv->fw_state &= ~state;
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//FOR HW integration
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if (_FW_UNDER_SURVEY==state){
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pmlmepriv->bScanInProcess = false;
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}
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}
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/*
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* No Limit on the calling context,
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* therefore set it to be the critical section...
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*/
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__inline static void clr_fwstate(struct mlme_priv *pmlmepriv, int state)
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{
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unsigned long irqL;
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_enter_critical_bh(&pmlmepriv->lock, &irqL);
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if (check_fwstate(pmlmepriv, state) == true)
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pmlmepriv->fw_state ^= state;
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_exit_critical_bh(&pmlmepriv->lock, &irqL);
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}
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__inline static void clr_fwstate_ex(struct mlme_priv *pmlmepriv, int state)
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{
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unsigned long irqL;
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_enter_critical_bh(&pmlmepriv->lock, &irqL);
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_clr_fwstate_(pmlmepriv, state);
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_exit_critical_bh(&pmlmepriv->lock, &irqL);
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}
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__inline static void up_scanned_network(struct mlme_priv *pmlmepriv)
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{
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unsigned long irqL;
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_enter_critical_bh(&pmlmepriv->lock, &irqL);
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pmlmepriv->num_of_scanned++;
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_exit_critical_bh(&pmlmepriv->lock, &irqL);
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}
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__inline static void down_scanned_network(struct mlme_priv *pmlmepriv)
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{
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unsigned long irqL;
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_enter_critical_bh(&pmlmepriv->lock, &irqL);
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pmlmepriv->num_of_scanned--;
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_exit_critical_bh(&pmlmepriv->lock, &irqL);
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}
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__inline static void set_scanned_network_val(struct mlme_priv *pmlmepriv, int val)
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{
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unsigned long irqL;
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_enter_critical_bh(&pmlmepriv->lock, &irqL);
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pmlmepriv->num_of_scanned = val;
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_exit_critical_bh(&pmlmepriv->lock, &irqL);
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}
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extern u16 rtw_get_capability(struct wlan_bssid_ex *bss);
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extern void rtw_update_scanned_network(struct adapter *adapter, struct wlan_bssid_ex *target);
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extern void rtw_disconnect_hdl_under_linked(struct adapter* adapter, struct sta_info *psta, u8 free_assoc);
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extern void rtw_generate_random_ibss(u8 *pibss);
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extern struct wlan_network* rtw_find_network(struct __queue *scanned_queue, u8 *addr);
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extern struct wlan_network* rtw_get_oldest_wlan_network(struct __queue *scanned_queue);
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extern void rtw_free_assoc_resources(struct adapter* adapter, int lock_scanned_queue);
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extern void rtw_indicate_disconnect(struct adapter* adapter);
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extern void rtw_indicate_connect(struct adapter* adapter);
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void rtw_indicate_scan_done( struct adapter *padapter, bool aborted);
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void rtw_scan_abort(struct adapter *adapter);
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extern int rtw_restruct_sec_ie(struct adapter *adapter,u8 *in_ie,u8 *out_ie,uint in_len);
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extern int rtw_restruct_wmm_ie(struct adapter *adapter, u8 *in_ie, u8 *out_ie, uint in_len, uint initial_out_len);
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extern void rtw_init_registrypriv_dev_network(struct adapter *adapter);
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extern void rtw_update_registrypriv_dev_network(struct adapter *adapter);
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extern void rtw_get_encrypt_decrypt_from_registrypriv(struct adapter *adapter);
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extern void _rtw_join_timeout_handler(struct adapter *adapter);
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extern void rtw_scan_timeout_handler(struct adapter *adapter);
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extern void rtw_dynamic_check_timer_handlder(struct adapter *adapter);
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#define rtw_is_scan_deny(adapter) false
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#define rtw_clear_scan_deny(adapter) do {} while (0)
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#define rtw_set_scan_deny_timer_hdl(adapter) do {} while (0)
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#define rtw_set_scan_deny(adapter, ms) do {} while (0)
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extern int _rtw_init_mlme_priv(struct adapter *padapter);
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void rtw_free_mlme_priv_ie_data(struct mlme_priv *pmlmepriv);
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extern void _rtw_free_mlme_priv(struct mlme_priv *pmlmepriv);
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extern int _rtw_enqueue_network(struct __queue *queue, struct wlan_network *pnetwork);
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extern struct wlan_network* _rtw_dequeue_network(struct __queue *queue);
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extern struct wlan_network* _rtw_alloc_network(struct mlme_priv *pmlmepriv);
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extern void _rtw_free_network(struct mlme_priv *pmlmepriv, struct wlan_network *pnetwork, u8 isfreeall);
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extern void _rtw_free_network_nolock(struct mlme_priv *pmlmepriv, struct wlan_network *pnetwork);
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extern struct wlan_network* _rtw_find_network(struct __queue *scanned_queue, u8 *addr);
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extern void _rtw_free_network_queue(struct adapter* padapter, u8 isfreeall);
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extern int rtw_if_up(struct adapter *padapter);
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u8 *rtw_get_capability_from_ie(u8 *ie);
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u8 *rtw_get_timestampe_from_ie(u8 *ie);
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u8 *rtw_get_beacon_interval_from_ie(u8 *ie);
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void rtw_joinbss_reset(struct adapter *padapter);
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unsigned int rtw_restructure_ht_ie(struct adapter *padapter, u8 *in_ie, u8 *out_ie, uint in_len, uint *pout_len);
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void rtw_update_ht_cap(struct adapter *padapter, u8 *pie, uint ie_len);
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void rtw_issue_addbareq_cmd(struct adapter *padapter, struct xmit_frame *pxmitframe);
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int rtw_is_same_ibss(struct adapter *adapter, struct wlan_network *pnetwork);
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int is_same_network(struct wlan_bssid_ex *src, struct wlan_bssid_ex *dst);
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void rtw_roaming(struct adapter *padapter, struct wlan_network *tgt_network);
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void _rtw_roaming(struct adapter *padapter, struct wlan_network *tgt_network);
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void rtw_stassoc_hw_rpt(struct adapter *adapter,struct sta_info *psta);
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#endif //__RTL871X_MLME_H_
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