rtl8723cs/include/rtw_cmd.h

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2017-01-30 21:28:09 +01:00
/******************************************************************************
*
* 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
*
*
******************************************************************************/
#ifndef __RTW_CMD_H_
#define __RTW_CMD_H_
#define C2H_MEM_SZ (16*1024)
#ifndef CONFIG_RTL8711FW
#define FREE_CMDOBJ_SZ 128
#define MAX_CMDSZ 1024
#define MAX_RSPSZ 512
#define MAX_EVTSZ 1024
#ifdef PLATFORM_OS_CE
#define CMDBUFF_ALIGN_SZ 4
#else
#define CMDBUFF_ALIGN_SZ 512
#endif
struct cmd_obj {
_adapter *padapter;
u16 cmdcode;
u8 res;
u8 *parmbuf;
u32 cmdsz;
u8 *rsp;
u32 rspsz;
struct submit_ctx *sctx;
u8 no_io;
//_sema cmd_sem;
_list list;
};
/* cmd flags */
enum {
RTW_CMDF_DIRECTLY = BIT0,
RTW_CMDF_WAIT_ACK = BIT1,
};
struct cmd_priv {
_sema cmd_queue_sema;
//_sema cmd_done_sema;
_sema terminate_cmdthread_sema;
_queue cmd_queue;
u8 cmd_seq;
u8 *cmd_buf; //shall be non-paged, and 4 bytes aligned
u8 *cmd_allocated_buf;
u8 *rsp_buf; //shall be non-paged, and 4 bytes aligned
u8 *rsp_allocated_buf;
u32 cmd_issued_cnt;
u32 cmd_done_cnt;
u32 rsp_cnt;
ATOMIC_T cmdthd_running;
//u8 cmdthd_running;
u8 stop_req;
_adapter *padapter;
_mutex sctx_mutex;
};
#ifdef CONFIG_EVENT_THREAD_MODE
struct evt_obj {
u16 evtcode;
u8 res;
u8 *parmbuf;
u32 evtsz;
_list list;
};
#endif
struct evt_priv {
#ifdef CONFIG_EVENT_THREAD_MODE
_sema evt_notify;
_sema terminate_evtthread_sema;
_queue evt_queue;
#endif
#define CONFIG_C2H_WK
#ifdef CONFIG_C2H_WK
_workitem c2h_wk;
bool c2h_wk_alive;
struct rtw_cbuf *c2h_queue;
#define C2H_QUEUE_MAX_LEN 10
#endif
#ifdef CONFIG_H2CLBK
_sema lbkevt_done;
u8 lbkevt_limit;
u8 lbkevt_num;
u8 *cmdevt_parm;
#endif
ATOMIC_T event_seq;
u8 *evt_buf; //shall be non-paged, and 4 bytes aligned
u8 *evt_allocated_buf;
u32 evt_done_cnt;
#if defined(CONFIG_SDIO_HCI) || defined(CONFIG_GSPI_HCI)
u8 *c2h_mem;
u8 *allocated_c2h_mem;
#ifdef PLATFORM_OS_XP
PMDL pc2h_mdl;
#endif
#endif
};
#define init_h2fwcmd_w_parm_no_rsp(pcmd, pparm, code) \
do {\
_rtw_init_listhead(&pcmd->list);\
pcmd->cmdcode = code;\
pcmd->parmbuf = (u8 *)(pparm);\
pcmd->cmdsz = sizeof (*pparm);\
pcmd->rsp = NULL;\
pcmd->rspsz = 0;\
} while(0)
#define init_h2fwcmd_w_parm_no_parm_rsp(pcmd, code) \
do {\
_rtw_init_listhead(&pcmd->list);\
pcmd->cmdcode = code;\
pcmd->parmbuf = NULL;\
pcmd->cmdsz = 0;\
pcmd->rsp = NULL;\
pcmd->rspsz = 0;\
} while(0)
struct c2h_evt_hdr {
u8 id:4;
u8 plen:4;
u8 seq;
u8 payload[0];
};
struct c2h_evt_hdr_88xx {
u8 id;
u8 seq;
u8 payload[12];
u8 plen;
u8 trigger;
};
#define c2h_evt_valid(c2h_evt) ((c2h_evt)->id || (c2h_evt)->plen)
struct P2P_PS_Offload_t {
u8 Offload_En:1;
u8 role:1; // 1: Owner, 0: Client
u8 CTWindow_En:1;
u8 NoA0_En:1;
u8 NoA1_En:1;
u8 AllStaSleep:1; // Only valid in Owner
u8 discovery:1;
u8 rsvd:1;
};
struct P2P_PS_CTWPeriod_t {
u8 CTWPeriod; //TU
};
#ifdef CONFIG_P2P_WOWLAN
struct P2P_WoWlan_Offload_t{
u8 Disconnect_Wkup_Drv:1;
u8 role:2;
u8 Wps_Config[2];
};
#endif //CONFIG_P2P_WOWLAN
extern u32 rtw_enqueue_cmd(struct cmd_priv *pcmdpriv, struct cmd_obj *obj);
extern struct cmd_obj *rtw_dequeue_cmd(struct cmd_priv *pcmdpriv);
extern void rtw_free_cmd_obj(struct cmd_obj *pcmd);
#ifdef CONFIG_EVENT_THREAD_MODE
extern u32 rtw_enqueue_evt(struct evt_priv *pevtpriv, struct evt_obj *obj);
extern struct evt_obj *rtw_dequeue_evt(_queue *queue);
extern void rtw_free_evt_obj(struct evt_obj *pcmd);
#endif
void rtw_stop_cmd_thread(_adapter *adapter);
thread_return rtw_cmd_thread(thread_context context);
extern u32 rtw_init_cmd_priv (struct cmd_priv *pcmdpriv);
extern void rtw_free_cmd_priv (struct cmd_priv *pcmdpriv);
extern u32 rtw_init_evt_priv (struct evt_priv *pevtpriv);
extern void rtw_free_evt_priv (struct evt_priv *pevtpriv);
extern void rtw_cmd_clr_isr(struct cmd_priv *pcmdpriv);
extern void rtw_evt_notify_isr(struct evt_priv *pevtpriv);
#ifdef CONFIG_P2P
u8 p2p_protocol_wk_cmd(_adapter*padapter, int intCmdType );
#endif //CONFIG_P2P
#else
//#include <ieee80211.h>
#endif /* CONFIG_RTL8711FW */
enum rtw_drvextra_cmd_id
{
NONE_WK_CID,
STA_MSTATUS_RPT_WK_CID,
DYNAMIC_CHK_WK_CID,
DM_CTRL_WK_CID,
PBC_POLLING_WK_CID,
POWER_SAVING_CTRL_WK_CID,//IPS,AUTOSuspend
LPS_CTRL_WK_CID,
ANT_SELECT_WK_CID,
P2P_PS_WK_CID,
P2P_PROTO_WK_CID,
CHECK_HIQ_WK_CID,//for softap mode, check hi queue if empty
INTEl_WIDI_WK_CID,
C2H_WK_CID,
RTP_TIMER_CFG_WK_CID,
RESET_SECURITYPRIV, // add for CONFIG_IEEE80211W, none 11w also can use
FREE_ASSOC_RESOURCES, // add for CONFIG_IEEE80211W, none 11w also can use
DM_IN_LPS_WK_CID,
DM_RA_MSK_WK_CID, //add for STA update RAMask when bandwith change.
BEAMFORMING_WK_CID,
LPS_CHANGE_DTIM_CID,
BTINFO_WK_CID,
DFS_MASTER_WK_CID,
SESSION_TRACKER_WK_CID,
EN_HW_UPDATE_TSF_WK_CID,
MAX_WK_CID
};
enum LPS_CTRL_TYPE
{
LPS_CTRL_SCAN=0,
LPS_CTRL_JOINBSS=1,
LPS_CTRL_CONNECT=2,
LPS_CTRL_DISCONNECT=3,
LPS_CTRL_SPECIAL_PACKET=4,
LPS_CTRL_LEAVE=5,
LPS_CTRL_TRAFFIC_BUSY = 6,
LPS_CTRL_TX_TRAFFIC_LEAVE = 7,
LPS_CTRL_RX_TRAFFIC_LEAVE = 8,
LPS_CTRL_ENTER = 9,
LPS_CTRL_LEAVE_CFG80211_PWRMGMT = 10,
};
enum STAKEY_TYPE
{
GROUP_KEY =0,
UNICAST_KEY =1,
TDLS_KEY =2,
};
enum RFINTFS {
SWSI,
HWSI,
HWPI,
};
/*
Caller Mode: Infra, Ad-HoC(C)
Notes: To enter USB suspend mode
Command Mode
*/
struct usb_suspend_parm {
u32 action;// 1: sleep, 0:resume
};
/*
Caller Mode: Infra, Ad-HoC
Notes: To join a known BSS.
Command-Event Mode
*/
/*
Caller Mode: Infra, Ad-Hoc
Notes: To join the specified bss
Command Event Mode
*/
struct joinbss_parm {
WLAN_BSSID_EX network;
};
/*
Caller Mode: Infra, Ad-HoC(C)
Notes: To disconnect the current associated BSS
Command Mode
*/
struct disconnect_parm {
u32 deauth_timeout_ms;
};
/*
Caller Mode: AP, Ad-HoC(M)
Notes: To create a BSS
Command Mode
*/
struct createbss_parm {
bool adhoc;
/* used by AP mode now */
s16 req_ch;
u8 req_bw;
u8 req_offset;
};
/*
Caller Mode: AP, Ad-HoC, Infra
Notes: To set the NIC mode of RTL8711
Command Mode
The definition of mode:
#define IW_MODE_AUTO 0 // Let the driver decides which AP to join
#define IW_MODE_ADHOC 1 // Single cell network (Ad-Hoc Clients)
#define IW_MODE_INFRA 2 // Multi cell network, roaming, ..
#define IW_MODE_MASTER 3 // Synchronisation master or Access Point
#define IW_MODE_REPEAT 4 // Wireless Repeater (forwarder)
#define IW_MODE_SECOND 5 // Secondary master/repeater (backup)
#define IW_MODE_MONITOR 6 // Passive monitor (listen only)
*/
struct setopmode_parm {
u8 mode;
u8 rsvd[3];
};
/*
Caller Mode: AP, Ad-HoC, Infra
Notes: To ask RTL8711 performing site-survey
Command-Event Mode
*/
#define RTW_SSID_SCAN_AMOUNT 9 // for WEXT_CSCAN_AMOUNT 9
#define RTW_CHANNEL_SCAN_AMOUNT (14+37)
struct sitesurvey_parm {
sint scan_mode; //active: 1, passive: 0
/* sint bsslimit; // 1 ~ 48 */
u8 ssid_num;
u8 ch_num;
NDIS_802_11_SSID ssid[RTW_SSID_SCAN_AMOUNT];
struct rtw_ieee80211_channel ch[RTW_CHANNEL_SCAN_AMOUNT];
};
/*
Caller Mode: Any
Notes: To set the auth type of RTL8711. open/shared/802.1x
Command Mode
*/
struct setauth_parm {
u8 mode; //0: legacy open, 1: legacy shared 2: 802.1x
u8 _1x; //0: PSK, 1: TLS
u8 rsvd[2];
};
/*
Caller Mode: Infra
a. algorithm: wep40, wep104, tkip & aes
b. keytype: grp key/unicast key
c. key contents
when shared key ==> keyid is the camid
when 802.1x ==> keyid [0:1] ==> grp key
when 802.1x ==> keyid > 2 ==> unicast key
*/
struct setkey_parm {
u8 algorithm; // encryption algorithm, could be none, wep40, TKIP, CCMP, wep104
u8 keyid;
u8 grpkey; // 1: this is the grpkey for 802.1x. 0: this is the unicast key for 802.1x
u8 set_tx; // 1: main tx key for wep. 0: other key.
u8 key[16]; // this could be 40 or 104
};
/*
When in AP or Ad-Hoc mode, this is used to
allocate an sw/hw entry for a newly associated sta.
Command
when shared key ==> algorithm/keyid
*/
struct set_stakey_parm {
u8 addr[ETH_ALEN];
u8 algorithm;
u8 keyid;
u8 key[16];
};
struct set_stakey_rsp {
u8 addr[ETH_ALEN];
u8 keyid;
u8 rsvd;
};
/*
Caller Ad-Hoc/AP
Command -Rsp(AID == CAMID) mode
This is to force fw to add an sta_data entry per driver's request.
FW will write an cam entry associated with it.
*/
struct set_assocsta_parm {
u8 addr[ETH_ALEN];
};
struct set_assocsta_rsp {
u8 cam_id;
u8 rsvd[3];
};
/*
Caller Ad-Hoc/AP
Command mode
This is to force fw to del an sta_data entry per driver's request
FW will invalidate the cam entry associated with it.
*/
struct del_assocsta_parm {
u8 addr[ETH_ALEN];
};
/*
Caller Mode: AP/Ad-HoC(M)
Notes: To notify fw that given staid has changed its power state
Command Mode
*/
struct setstapwrstate_parm {
u8 staid;
u8 status;
u8 hwaddr[6];
};
/*
Caller Mode: Any
Notes: To setup the basic rate of RTL8711
Command Mode
*/
struct setbasicrate_parm {
u8 basicrates[NumRates];
};
/*
Caller Mode: Any
Notes: To read the current basic rate
Command-Rsp Mode
*/
struct getbasicrate_parm {
u32 rsvd;
};
struct getbasicrate_rsp {
u8 basicrates[NumRates];
};
/*
Caller Mode: Any
Notes: To setup the data rate of RTL8711
Command Mode
*/
struct setdatarate_parm {
#ifdef MP_FIRMWARE_OFFLOAD
u32 curr_rateidx;
#else
u8 mac_id;
u8 datarates[NumRates];
#endif
};
/*
Caller Mode: Any
Notes: To read the current data rate
Command-Rsp Mode
*/
struct getdatarate_parm {
u32 rsvd;
};
struct getdatarate_rsp {
u8 datarates[NumRates];
};
/*
Caller Mode: Any
AP: AP can use the info for the contents of beacon frame
Infra: STA can use the info when sitesurveying
Ad-HoC(M): Like AP
Ad-HoC(C): Like STA
Notes: To set the phy capability of the NIC
Command Mode
*/
struct setphyinfo_parm {
struct regulatory_class class_sets[NUM_REGULATORYS];
u8 status;
};
struct getphyinfo_parm {
u32 rsvd;
};
struct getphyinfo_rsp {
struct regulatory_class class_sets[NUM_REGULATORYS];
u8 status;
};
/*
Caller Mode: Any
Notes: To set the channel/modem/band
This command will be used when channel/modem/band is changed.
Command Mode
*/
struct setphy_parm {
u8 rfchannel;
u8 modem;
};
/*
Caller Mode: Any
Notes: To get the current setting of channel/modem/band
Command-Rsp Mode
*/
struct getphy_parm {
u32 rsvd;
};
struct getphy_rsp {
u8 rfchannel;
u8 modem;
};
struct readBB_parm {
u8 offset;
};
struct readBB_rsp {
u8 value;
};
struct readTSSI_parm {
u8 offset;
};
struct readTSSI_rsp {
u8 value;
};
struct readMAC_parm {
u8 len;
u32 addr;
};
struct writeBB_parm {
u8 offset;
u8 value;
};
struct readRF_parm {
u8 offset;
};
struct readRF_rsp {
u32 value;
};
struct writeRF_parm {
u32 offset;
u32 value;
};
struct getrfintfs_parm {
u8 rfintfs;
};
struct Tx_Beacon_param
{
WLAN_BSSID_EX network;
};
/*
Notes: This command is used for H2C/C2H loopback testing
mac[0] == 0
==> CMD mode, return H2C_SUCCESS.
The following condition must be ture under CMD mode
mac[1] == mac[4], mac[2] == mac[3], mac[0]=mac[5]= 0;
s0 == 0x1234, s1 == 0xabcd, w0 == 0x78563412, w1 == 0x5aa5def7;
s2 == (b1 << 8 | b0);
mac[0] == 1
==> CMD_RSP mode, return H2C_SUCCESS_RSP
The rsp layout shall be:
rsp: parm:
mac[0] = mac[5];
mac[1] = mac[4];
mac[2] = mac[3];
mac[3] = mac[2];
mac[4] = mac[1];
mac[5] = mac[0];
s0 = s1;
s1 = swap16(s0);
w0 = swap32(w1);
b0 = b1
s2 = s0 + s1
b1 = b0
w1 = w0
mac[0] == 2
==> CMD_EVENT mode, return H2C_SUCCESS
The event layout shall be:
event: parm:
mac[0] = mac[5];
mac[1] = mac[4];
mac[2] = event's sequence number, starting from 1 to parm's marc[3]
mac[3] = mac[2];
mac[4] = mac[1];
mac[5] = mac[0];
s0 = swap16(s0) - event.mac[2];
s1 = s1 + event.mac[2];
w0 = swap32(w0);
b0 = b1
s2 = s0 + event.mac[2]
b1 = b0
w1 = swap32(w1) - event.mac[2];
parm->mac[3] is the total event counts that host requested.
event will be the same with the cmd's param.
*/
#ifdef CONFIG_H2CLBK
struct seth2clbk_parm {
u8 mac[6];
u16 s0;
u16 s1;
u32 w0;
u8 b0;
u16 s2;
u8 b1;
u32 w1;
};
struct geth2clbk_parm {
u32 rsv;
};
struct geth2clbk_rsp {
u8 mac[6];
u16 s0;
u16 s1;
u32 w0;
u8 b0;
u16 s2;
u8 b1;
u32 w1;
};
#endif /* CONFIG_H2CLBK */
// CMD param Formart for driver extra cmd handler
struct drvextra_cmd_parm {
int ec_id; //extra cmd id
int type; // Can use this field as the type id or command size
int size; //buffer size
unsigned char *pbuf;
};
/*------------------- Below are used for RF/BB tunning ---------------------*/
struct setantenna_parm {
u8 tx_antset;
u8 rx_antset;
u8 tx_antenna;
u8 rx_antenna;
};
struct enrateadaptive_parm {
u32 en;
};
struct settxagctbl_parm {
u32 txagc[MAX_RATES_LENGTH];
};
struct gettxagctbl_parm {
u32 rsvd;
};
struct gettxagctbl_rsp {
u32 txagc[MAX_RATES_LENGTH];
};
struct setagcctrl_parm {
u32 agcctrl; // 0: pure hw, 1: fw
};
struct setssup_parm {
u32 ss_ForceUp[MAX_RATES_LENGTH];
};
struct getssup_parm {
u32 rsvd;
};
struct getssup_rsp {
u8 ss_ForceUp[MAX_RATES_LENGTH];
};
struct setssdlevel_parm {
u8 ss_DLevel[MAX_RATES_LENGTH];
};
struct getssdlevel_parm {
u32 rsvd;
};
struct getssdlevel_rsp {
u8 ss_DLevel[MAX_RATES_LENGTH];
};
struct setssulevel_parm {
u8 ss_ULevel[MAX_RATES_LENGTH];
};
struct getssulevel_parm {
u32 rsvd;
};
struct getssulevel_rsp {
u8 ss_ULevel[MAX_RATES_LENGTH];
};
struct setcountjudge_parm {
u8 count_judge[MAX_RATES_LENGTH];
};
struct getcountjudge_parm {
u32 rsvd;
};
struct getcountjudge_rsp {
u8 count_judge[MAX_RATES_LENGTH];
};
struct setratable_parm {
u8 ss_ForceUp[NumRates];
u8 ss_ULevel[NumRates];
u8 ss_DLevel[NumRates];
u8 count_judge[NumRates];
};
struct getratable_parm {
uint rsvd;
};
struct getratable_rsp {
u8 ss_ForceUp[NumRates];
u8 ss_ULevel[NumRates];
u8 ss_DLevel[NumRates];
u8 count_judge[NumRates];
};
//to get TX,RX retry count
struct gettxretrycnt_parm{
unsigned int rsvd;
};
struct gettxretrycnt_rsp{
unsigned long tx_retrycnt;
};
struct getrxretrycnt_parm{
unsigned int rsvd;
};
struct getrxretrycnt_rsp{
unsigned long rx_retrycnt;
};
//to get BCNOK,BCNERR count
struct getbcnokcnt_parm{
unsigned int rsvd;
};
struct getbcnokcnt_rsp{
unsigned long bcnokcnt;
};
struct getbcnerrcnt_parm{
unsigned int rsvd;
};
struct getbcnerrcnt_rsp{
unsigned long bcnerrcnt;
};
// to get current TX power level
struct getcurtxpwrlevel_parm{
unsigned int rsvd;
};
struct getcurtxpwrlevel_rsp{
unsigned short tx_power;
};
struct setprobereqextraie_parm {
unsigned char e_id;
unsigned char ie_len;
unsigned char ie[0];
};
struct setassocreqextraie_parm {
unsigned char e_id;
unsigned char ie_len;
unsigned char ie[0];
};
struct setproberspextraie_parm {
unsigned char e_id;
unsigned char ie_len;
unsigned char ie[0];
};
struct setassocrspextraie_parm {
unsigned char e_id;
unsigned char ie_len;
unsigned char ie[0];
};
struct addBaReq_parm
{
unsigned int tid;
u8 addr[ETH_ALEN];
};
/*H2C Handler index: 46 */
struct set_ch_parm {
u8 ch;
u8 bw;
u8 ch_offset;
};
#ifdef MP_FIRMWARE_OFFLOAD
/*H2C Handler index: 47 */
struct SetTxPower_parm
{
u8 TxPower;
};
/*H2C Handler index: 48 */
struct SwitchAntenna_parm
{
u16 antenna_tx;
u16 antenna_rx;
// R_ANTENNA_SELECT_CCK cck_txrx;
u8 cck_txrx;
};
/*H2C Handler index: 49 */
struct SetCrystalCap_parm
{
u32 curr_crystalcap;
};
/*H2C Handler index: 50 */
struct SetSingleCarrierTx_parm
{
u8 bStart;
};
/*H2C Handler index: 51 */
struct SetSingleToneTx_parm
{
u8 bStart;
u8 curr_rfpath;
};
/*H2C Handler index: 52 */
struct SetCarrierSuppressionTx_parm
{
u8 bStart;
u32 curr_rateidx;
};
/*H2C Handler index: 53 */
struct SetContinuousTx_parm
{
u8 bStart;
u8 CCK_flag; /*1:CCK 2:OFDM*/
u32 curr_rateidx;
};
/*H2C Handler index: 54 */
struct SwitchBandwidth_parm
{
u8 curr_bandwidth;
};
#endif /* MP_FIRMWARE_OFFLOAD */
/*H2C Handler index: 59 */
struct SetChannelPlan_param
{
u8 channel_plan;
};
/*H2C Handler index: 60 */
struct LedBlink_param
{
PVOID pLed;
};
/*H2C Handler index: 61 */
struct SetChannelSwitch_param
{
u8 new_ch_no;
};
/*H2C Handler index: 62 */
struct TDLSoption_param
{
u8 addr[ETH_ALEN];
u8 option;
};
/*H2C Handler index: 64 */
struct RunInThread_param
{
void (*func)(void*);
void *context;
};
#define GEN_CMD_CODE(cmd) cmd ## _CMD_
/*
Result:
0x00: success
0x01: sucess, and check Response.
0x02: cmd ignored due to duplicated sequcne number
0x03: cmd dropped due to invalid cmd code
0x04: reserved.
*/
#define H2C_RSP_OFFSET 512
#define H2C_SUCCESS 0x00
#define H2C_SUCCESS_RSP 0x01
#define H2C_DUPLICATED 0x02
#define H2C_DROPPED 0x03
#define H2C_PARAMETERS_ERROR 0x04
#define H2C_REJECTED 0x05
#define H2C_CMD_OVERFLOW 0x06
#define H2C_RESERVED 0x07
#define H2C_ENQ_HEAD 0x08
#define H2C_ENQ_HEAD_FAIL 0x09
extern u8 rtw_setassocsta_cmd(_adapter *padapter, u8 *mac_addr);
extern u8 rtw_setstandby_cmd(_adapter *padapter, uint action);
u8 rtw_sitesurvey_cmd(_adapter *padapter, NDIS_802_11_SSID *ssid, int ssid_num, struct rtw_ieee80211_channel *ch, int ch_num);
u8 rtw_create_ibss_cmd(_adapter *adapter, int flags);
u8 rtw_startbss_cmd(_adapter *adapter, int flags);
u8 rtw_change_bss_chbw_cmd(_adapter *adapter, int flags, u8 req_ch, u8 req_bw, u8 req_offset);
extern u8 rtw_setphy_cmd(_adapter *padapter, u8 modem, u8 ch);
struct sta_info;
extern u8 rtw_setstakey_cmd(_adapter *padapter, struct sta_info *sta, u8 key_type, bool enqueue);
extern u8 rtw_clearstakey_cmd(_adapter *padapter, struct sta_info *sta, u8 enqueue);
extern u8 rtw_joinbss_cmd(_adapter *padapter, struct wlan_network* pnetwork);
u8 rtw_disassoc_cmd(_adapter *padapter, u32 deauth_timeout_ms, bool enqueue);
extern u8 rtw_setopmode_cmd(_adapter *padapter, NDIS_802_11_NETWORK_INFRASTRUCTURE networktype, bool enqueue);
extern u8 rtw_setdatarate_cmd(_adapter *padapter, u8 *rateset);
extern u8 rtw_setbasicrate_cmd(_adapter *padapter, u8 *rateset);
extern u8 rtw_getmacreg_cmd(_adapter *padapter, u8 len, u32 addr);
extern void rtw_usb_catc_trigger_cmd(_adapter *padapter, const char *caller);
extern u8 rtw_setbbreg_cmd(_adapter * padapter, u8 offset, u8 val);
extern u8 rtw_setrfreg_cmd(_adapter * padapter, u8 offset, u32 val);
extern u8 rtw_getbbreg_cmd(_adapter * padapter, u8 offset, u8 * pval);
extern u8 rtw_getrfreg_cmd(_adapter * padapter, u8 offset, u8 * pval);
extern u8 rtw_setrfintfs_cmd(_adapter *padapter, u8 mode);
extern u8 rtw_setrttbl_cmd(_adapter *padapter, struct setratable_parm *prate_table);
extern u8 rtw_getrttbl_cmd(_adapter *padapter, struct getratable_rsp *pval);
extern u8 rtw_gettssi_cmd(_adapter *padapter, u8 offset,u8 *pval);
extern u8 rtw_setfwdig_cmd(_adapter*padapter, u8 type);
extern u8 rtw_setfwra_cmd(_adapter*padapter, u8 type);
extern u8 rtw_addbareq_cmd(_adapter*padapter, u8 tid, u8 *addr);
// add for CONFIG_IEEE80211W, none 11w also can use
extern u8 rtw_reset_securitypriv_cmd(_adapter*padapter);
extern u8 rtw_free_assoc_resources_cmd(_adapter *padapter);
extern u8 rtw_dynamic_chk_wk_cmd(_adapter *adapter);
u8 rtw_lps_ctrl_wk_cmd(_adapter*padapter, u8 lps_ctrl_type, u8 enqueue);
u8 rtw_dm_in_lps_wk_cmd(_adapter*padapter);
u8 rtw_lps_change_dtim_cmd(_adapter*padapter, u8 dtim);
#if (RATE_ADAPTIVE_SUPPORT==1)
u8 rtw_rpt_timer_cfg_cmd(_adapter*padapter, u16 minRptTime);
#endif
#ifdef CONFIG_ANTENNA_DIVERSITY
extern u8 rtw_antenna_select_cmd(_adapter*padapter, u8 antenna,u8 enqueue);
#endif
u8 rtw_dm_ra_mask_wk_cmd(_adapter*padapter, u8 *psta);
extern u8 rtw_ps_cmd(_adapter*padapter);
#ifdef CONFIG_AP_MODE
u8 rtw_chk_hi_queue_cmd(_adapter*padapter);
#ifdef CONFIG_DFS_MASTER
u8 rtw_dfs_master_cmd(_adapter *adapter, bool enqueue);
void rtw_dfs_master_timer_hdl(RTW_TIMER_HDL_ARGS);
void rtw_dfs_master_enable(_adapter *adapter, u8 ch, u8 bw, u8 offset);
void rtw_dfs_master_disable(_adapter *adapter, bool ld_sta_in_dfs);
enum {
MLME_STA_CONNECTING,
MLME_STA_CONNECTED,
MLME_STA_DISCONNECTED,
MLME_AP_STARTED,
MLME_AP_STOPPED,
};
void rtw_dfs_master_status_apply(_adapter *adapter, u8 self_action);
#endif /* CONFIG_DFS_MASTER */
#endif /* CONFIG_AP_MODE */
#ifdef CONFIG_BT_COEXIST
u8 rtw_btinfo_cmd(PADAPTER padapter, u8 *pbuf, u16 length);
#endif
u8 rtw_set_ch_cmd(_adapter*padapter, u8 ch, u8 bw, u8 ch_offset, u8 enqueue);
u8 rtw_set_chplan_cmd(_adapter *adapter, int flags, u8 chplan, u8 swconfig);
extern u8 rtw_led_blink_cmd(_adapter*padapter, PVOID pLed);
extern u8 rtw_set_csa_cmd(_adapter*padapter, u8 new_ch_no);
extern u8 rtw_tdls_cmd(_adapter*padapter, u8 *addr, u8 option);
//#ifdef CONFIG_C2H_PACKET_EN
extern u8 rtw_c2h_packet_wk_cmd(PADAPTER padapter, u8 *pbuf, u16 length);
//#else
extern u8 rtw_c2h_wk_cmd(PADAPTER padapter, u8 *c2h_evt);
//#endif
u8 rtw_run_in_thread_cmd(PADAPTER padapter, void (*func)(void*), void* context);
u8 session_tracker_chk_cmd(_adapter *adapter, struct sta_info *sta);
u8 session_tracker_add_cmd(_adapter *adapter, struct sta_info *sta, u8 *local_naddr, u8 *local_port, u8 *remote_naddr, u8 *remote_port);
u8 session_tracker_del_cmd(_adapter *adapter, struct sta_info *sta, u8 *local_naddr, u8 *local_port, u8 *remote_naddr, u8 *remote_port);
u8 rtw_drvextra_cmd_hdl(_adapter *padapter, unsigned char *pbuf);
extern void rtw_survey_cmd_callback(_adapter *padapter, struct cmd_obj *pcmd);
extern void rtw_disassoc_cmd_callback(_adapter *padapter, struct cmd_obj *pcmd);
extern void rtw_joinbss_cmd_callback(_adapter *padapter, struct cmd_obj *pcmd);
void rtw_create_ibss_post_hdl(_adapter *padapter, int status);
extern void rtw_getbbrfreg_cmdrsp_callback(_adapter *padapter, struct cmd_obj *pcmd);
extern void rtw_readtssi_cmdrsp_callback(_adapter* padapter, struct cmd_obj *pcmd);
extern void rtw_setstaKey_cmdrsp_callback(_adapter *padapter, struct cmd_obj *pcmd);
extern void rtw_setassocsta_cmdrsp_callback(_adapter *padapter, struct cmd_obj *pcmd);
extern void rtw_getrttbl_cmdrsp_callback(_adapter *padapter, struct cmd_obj *pcmd);
extern void rtw_getmacreg_cmdrsp_callback(_adapter *padapter, struct cmd_obj *pcmd);
struct _cmd_callback {
u32 cmd_code;
void (*callback)(_adapter *padapter, struct cmd_obj *cmd);
};
enum rtw_h2c_cmd
{
GEN_CMD_CODE(_Read_MACREG) , /*0*/
GEN_CMD_CODE(_Write_MACREG) ,
GEN_CMD_CODE(_Read_BBREG) ,
GEN_CMD_CODE(_Write_BBREG) ,
GEN_CMD_CODE(_Read_RFREG) ,
GEN_CMD_CODE(_Write_RFREG) , /*5*/
GEN_CMD_CODE(_Read_EEPROM) ,
GEN_CMD_CODE(_Write_EEPROM) ,
GEN_CMD_CODE(_Read_EFUSE) ,
GEN_CMD_CODE(_Write_EFUSE) ,
GEN_CMD_CODE(_Read_CAM) , /*10*/
GEN_CMD_CODE(_Write_CAM) ,
GEN_CMD_CODE(_setBCNITV),
GEN_CMD_CODE(_setMBIDCFG),
GEN_CMD_CODE(_JoinBss), /*14*/
GEN_CMD_CODE(_DisConnect) , /*15*/
GEN_CMD_CODE(_CreateBss) ,
GEN_CMD_CODE(_SetOpMode) ,
GEN_CMD_CODE(_SiteSurvey), /*18*/
GEN_CMD_CODE(_SetAuth) ,
GEN_CMD_CODE(_SetKey) , /*20*/
GEN_CMD_CODE(_SetStaKey) ,
GEN_CMD_CODE(_SetAssocSta) ,
GEN_CMD_CODE(_DelAssocSta) ,
GEN_CMD_CODE(_SetStaPwrState) ,
GEN_CMD_CODE(_SetBasicRate) , /*25*/
GEN_CMD_CODE(_GetBasicRate) ,
GEN_CMD_CODE(_SetDataRate) ,
GEN_CMD_CODE(_GetDataRate) ,
GEN_CMD_CODE(_SetPhyInfo) ,
GEN_CMD_CODE(_GetPhyInfo) , /*30*/
GEN_CMD_CODE(_SetPhy) ,
GEN_CMD_CODE(_GetPhy) ,
GEN_CMD_CODE(_readRssi) ,
GEN_CMD_CODE(_readGain) ,
GEN_CMD_CODE(_SetAtim) , /*35*/
GEN_CMD_CODE(_SetPwrMode) ,
GEN_CMD_CODE(_JoinbssRpt),
GEN_CMD_CODE(_SetRaTable) ,
GEN_CMD_CODE(_GetRaTable) ,
GEN_CMD_CODE(_GetCCXReport), /*40*/
GEN_CMD_CODE(_GetDTMReport),
GEN_CMD_CODE(_GetTXRateStatistics),
GEN_CMD_CODE(_SetUsbSuspend),
GEN_CMD_CODE(_SetH2cLbk),
GEN_CMD_CODE(_AddBAReq) , /*45*/
GEN_CMD_CODE(_SetChannel), /*46*/
GEN_CMD_CODE(_SetTxPower),
GEN_CMD_CODE(_SwitchAntenna),
GEN_CMD_CODE(_SetCrystalCap),
GEN_CMD_CODE(_SetSingleCarrierTx), /*50*/
GEN_CMD_CODE(_SetSingleToneTx),/*51*/
GEN_CMD_CODE(_SetCarrierSuppressionTx),
GEN_CMD_CODE(_SetContinuousTx),
GEN_CMD_CODE(_SwitchBandwidth), /*54*/
GEN_CMD_CODE(_TX_Beacon), /*55*/
GEN_CMD_CODE(_Set_MLME_EVT), /*56*/
GEN_CMD_CODE(_Set_Drv_Extra), /*57*/
GEN_CMD_CODE(_Set_H2C_MSG), /*58*/
GEN_CMD_CODE(_SetChannelPlan), /*59*/
GEN_CMD_CODE(_LedBlink), /*60*/
GEN_CMD_CODE(_SetChannelSwitch), /*61*/
GEN_CMD_CODE(_TDLS), /*62*/
GEN_CMD_CODE(_ChkBMCSleepq), /*63*/
GEN_CMD_CODE(_RunInThreadCMD), /*64*/
MAX_H2CCMD
};
#define _GetMACReg_CMD_ _Read_MACREG_CMD_
#define _SetMACReg_CMD_ _Write_MACREG_CMD_
#define _GetBBReg_CMD_ _Read_BBREG_CMD_
#define _SetBBReg_CMD_ _Write_BBREG_CMD_
#define _GetRFReg_CMD_ _Read_RFREG_CMD_
#define _SetRFReg_CMD_ _Write_RFREG_CMD_
#ifdef _RTW_CMD_C_
struct _cmd_callback rtw_cmd_callback[] =
{
{GEN_CMD_CODE(_Read_MACREG), &rtw_getmacreg_cmdrsp_callback}, /*0*/
{GEN_CMD_CODE(_Write_MACREG), NULL},
{GEN_CMD_CODE(_Read_BBREG), &rtw_getbbrfreg_cmdrsp_callback},
{GEN_CMD_CODE(_Write_BBREG), NULL},
{GEN_CMD_CODE(_Read_RFREG), &rtw_getbbrfreg_cmdrsp_callback},
{GEN_CMD_CODE(_Write_RFREG), NULL}, /*5*/
{GEN_CMD_CODE(_Read_EEPROM), NULL},
{GEN_CMD_CODE(_Write_EEPROM), NULL},
{GEN_CMD_CODE(_Read_EFUSE), NULL},
{GEN_CMD_CODE(_Write_EFUSE), NULL},
{GEN_CMD_CODE(_Read_CAM), NULL}, /*10*/
{GEN_CMD_CODE(_Write_CAM), NULL},
{GEN_CMD_CODE(_setBCNITV), NULL},
{GEN_CMD_CODE(_setMBIDCFG), NULL},
{GEN_CMD_CODE(_JoinBss), &rtw_joinbss_cmd_callback}, /*14*/
{GEN_CMD_CODE(_DisConnect), &rtw_disassoc_cmd_callback}, /*15*/
{GEN_CMD_CODE(_CreateBss), NULL},
{GEN_CMD_CODE(_SetOpMode), NULL},
{GEN_CMD_CODE(_SiteSurvey), &rtw_survey_cmd_callback}, /*18*/
{GEN_CMD_CODE(_SetAuth), NULL},
{GEN_CMD_CODE(_SetKey), NULL}, /*20*/
{GEN_CMD_CODE(_SetStaKey), &rtw_setstaKey_cmdrsp_callback},
{GEN_CMD_CODE(_SetAssocSta), &rtw_setassocsta_cmdrsp_callback},
{GEN_CMD_CODE(_DelAssocSta), NULL},
{GEN_CMD_CODE(_SetStaPwrState), NULL},
{GEN_CMD_CODE(_SetBasicRate), NULL}, /*25*/
{GEN_CMD_CODE(_GetBasicRate), NULL},
{GEN_CMD_CODE(_SetDataRate), NULL},
{GEN_CMD_CODE(_GetDataRate), NULL},
{GEN_CMD_CODE(_SetPhyInfo), NULL},
{GEN_CMD_CODE(_GetPhyInfo), NULL}, /*30*/
{GEN_CMD_CODE(_SetPhy), NULL},
{GEN_CMD_CODE(_GetPhy), NULL},
{GEN_CMD_CODE(_readRssi), NULL},
{GEN_CMD_CODE(_readGain), NULL},
{GEN_CMD_CODE(_SetAtim), NULL}, /*35*/
{GEN_CMD_CODE(_SetPwrMode), NULL},
{GEN_CMD_CODE(_JoinbssRpt), NULL},
{GEN_CMD_CODE(_SetRaTable), NULL},
{GEN_CMD_CODE(_GetRaTable) , NULL},
{GEN_CMD_CODE(_GetCCXReport), NULL}, /*40*/
{GEN_CMD_CODE(_GetDTMReport), NULL},
{GEN_CMD_CODE(_GetTXRateStatistics), NULL},
{GEN_CMD_CODE(_SetUsbSuspend), NULL},
{GEN_CMD_CODE(_SetH2cLbk), NULL},
{GEN_CMD_CODE(_AddBAReq), NULL}, /*45*/
{GEN_CMD_CODE(_SetChannel), NULL}, /*46*/
{GEN_CMD_CODE(_SetTxPower), NULL},
{GEN_CMD_CODE(_SwitchAntenna), NULL},
{GEN_CMD_CODE(_SetCrystalCap), NULL},
{GEN_CMD_CODE(_SetSingleCarrierTx), NULL}, /*50*/
{GEN_CMD_CODE(_SetSingleToneTx), NULL}, /*51*/
{GEN_CMD_CODE(_SetCarrierSuppressionTx), NULL},
{GEN_CMD_CODE(_SetContinuousTx), NULL},
{GEN_CMD_CODE(_SwitchBandwidth), NULL}, /*54*/
{GEN_CMD_CODE(_TX_Beacon), NULL},/*55*/
{GEN_CMD_CODE(_Set_MLME_EVT), NULL},/*56*/
{GEN_CMD_CODE(_Set_Drv_Extra), NULL},/*57*/
{GEN_CMD_CODE(_Set_H2C_MSG), NULL},/*58*/
{GEN_CMD_CODE(_SetChannelPlan), NULL},/*59*/
{GEN_CMD_CODE(_LedBlink), NULL},/*60*/
{GEN_CMD_CODE(_SetChannelSwitch), NULL},/*61*/
{GEN_CMD_CODE(_TDLS), NULL},/*62*/
{GEN_CMD_CODE(_ChkBMCSleepq), NULL}, /*63*/
{GEN_CMD_CODE(_RunInThreadCMD), NULL},/*64*/
};
#endif
#define CMD_FMT "cmd=%d,%d,%d"
#define CMD_ARG(cmd) \
(cmd)->cmdcode, \
(cmd)->cmdcode == GEN_CMD_CODE(_Set_Drv_Extra) ? ((struct drvextra_cmd_parm *)(cmd)->parmbuf)->ec_id : ((cmd)->cmdcode == GEN_CMD_CODE(_Set_MLME_EVT) ? ((struct C2HEvent_Header *)(cmd)->parmbuf)->ID : 0), \
(cmd)->cmdcode == GEN_CMD_CODE(_Set_Drv_Extra) ? ((struct drvextra_cmd_parm *)(cmd)->parmbuf)->type : 0
#endif // _CMD_H_