rtl871x_cmd.h
16.2 KB
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/******************************************************************************
*
* Copyright(c) 2007 - 2010 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
*
* Modifications for inclusion into the Linux staging tree are
* Copyright(c) 2010 Larry Finger. All rights reserved.
*
* Contact information:
* WLAN FAE <wlanfae@realtek.com>
* Larry Finger <Larry.Finger@lwfinger.net>
*
******************************************************************************/
#ifndef __RTL871X_CMD_H_
#define __RTL871X_CMD_H_
#include "wlan_bssdef.h"
#include "rtl871x_rf.h"
#define C2H_MEM_SZ (16*1024)
#include "osdep_service.h"
#include "ieee80211.h"
#define FREE_CMDOBJ_SZ 128
#define MAX_CMDSZ 512
#define MAX_RSPSZ 512
#define MAX_EVTSZ 1024
#define CMDBUFF_ALIGN_SZ 512
struct cmd_obj {
u16 cmdcode;
u8 res;
u8 *parmbuf;
u32 cmdsz;
u8 *rsp;
u32 rspsz;
struct list_head list;
};
struct cmd_priv {
struct semaphore cmd_queue_sema;
struct semaphore terminate_cmdthread_sema;
struct __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;
struct _adapter *padapter;
};
struct evt_obj {
u16 evtcode;
u8 res;
u8 *parmbuf;
u32 evtsz;
struct list_head list;
};
struct evt_priv {
struct __queue evt_queue;
u8 event_seq;
u8 *evt_buf; /*shall be non-paged, and 4 bytes aligned*/
u8 *evt_allocated_buf;
u32 evt_done_cnt;
struct tasklet_struct event_tasklet;
};
#define init_h2fwcmd_w_parm_no_rsp(pcmd, pparm, code) \
do {\
_init_listhead(&pcmd->list);\
pcmd->cmdcode = code;\
pcmd->parmbuf = (u8 *)(pparm);\
pcmd->cmdsz = sizeof(*pparm);\
pcmd->rsp = NULL;\
pcmd->rspsz = 0;\
} while (0)
u32 r8712_enqueue_cmd(struct cmd_priv *pcmdpriv, struct cmd_obj *obj);
u32 r8712_enqueue_cmd_ex(struct cmd_priv *pcmdpriv, struct cmd_obj *obj);
struct cmd_obj *r8712_dequeue_cmd(struct __queue *queue);
void r8712_free_cmd_obj(struct cmd_obj *pcmd);
int r8712_cmd_thread(void *context);
u32 r8712_init_cmd_priv(struct cmd_priv *pcmdpriv);
void r8712_free_cmd_priv(struct cmd_priv *pcmdpriv);
u32 r8712_init_evt_priv(struct evt_priv *pevtpriv);
void r8712_free_evt_priv(struct evt_priv *pevtpriv);
enum rtl871x_drvint_cid {
NONE_WK_CID,
WDG_WK_CID,
MAX_WK_CID
};
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 the specified bss
* Command Event Mode
*/
struct joinbss_parm {
struct ndis_wlan_bssid_ex network;
};
/*
* Caller Mode: Infra, Ad-HoC(C)
* Notes: To disconnect the current associated BSS
* Command Mode
*/
struct disconnect_parm {
u32 rsvd;
};
/*
* Caller Mode: AP, Ad-HoC(M)
* Notes: To create a BSS
* Command Mode
*/
struct createbss_parm {
struct ndis_wlan_bssid_ex network;
};
/*
* 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 AP
* #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
*/
struct sitesurvey_parm {
sint passive_mode; /*active: 1, passive: 0 */
sint bsslimit; /* 1 ~ 48 */
sint ss_ssidlen;
u8 ss_ssid[IW_ESSID_MAX_SIZE + 1];
};
/*
* 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 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 key[16];
};
struct set_stakey_rsp {
u8 addr[ETH_ALEN];
u8 keyid;
u8 rsvd;
};
struct SetMacAddr_param {
u8 MacAddr[ETH_ALEN];
};
/*
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 {
u8 mac_id;
u8 datarates[NumRates];
};
enum _RT_CHANNEL_DOMAIN {
RT_CHANNEL_DOMAIN_FCC = 0,
RT_CHANNEL_DOMAIN_IC = 1,
RT_CHANNEL_DOMAIN_ETSI = 2,
RT_CHANNEL_DOMAIN_SPAIN = 3,
RT_CHANNEL_DOMAIN_FRANCE = 4,
RT_CHANNEL_DOMAIN_MKK = 5,
RT_CHANNEL_DOMAIN_MKK1 = 6,
RT_CHANNEL_DOMAIN_ISRAEL = 7,
RT_CHANNEL_DOMAIN_TELEC = 8,
/* Be compatible with old channel plan. No good! */
RT_CHANNEL_DOMAIN_MIC = 9,
RT_CHANNEL_DOMAIN_GLOBAL_DOAMIN = 10,
RT_CHANNEL_DOMAIN_WORLD_WIDE_13 = 11,
RT_CHANNEL_DOMAIN_TELEC_NETGEAR = 12,
RT_CHANNEL_DOMAIN_NCC = 13,
RT_CHANNEL_DOMAIN_5G = 14,
RT_CHANNEL_DOMAIN_5G_40M = 15,
/*===== Add new channel plan above this line===============*/
RT_CHANNEL_DOMAIN_MAX,
};
struct SetChannelPlan_param {
enum _RT_CHANNEL_DOMAIN ChannelPlan;
};
/*
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
*/
/*
Caller Mode: Any
Notes: To set the channel/modem/band
This command will be used when channel/modem/band is changed.
Command Mode
*/
/*
Caller Mode: Any
Notes: To get the current setting of channel/modem/band
Command-Rsp Mode
*/
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 writeBB_parm {
u8 offset;
u8 value;
};
struct writePTM_parm {
u8 type;
};
struct readRF_parm {
u8 offset;
};
struct readRF_rsp {
u32 value;
};
struct writeRF_parm {
u32 offset;
u32 value;
};
struct setrfintfs_parm {
u8 rfintfs;
};
struct getrfintfs_parm {
u8 rfintfs;
};
/*
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.
*/
/* CMD param Formart for DRV INTERNAL CMD HDL*/
struct drvint_cmd_parm {
int i_cid; /*internal cmd id*/
int sz; /* buf sz*/
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 setpwrmode_parm {
u8 mode;
u8 flag_low_traffic_en;
u8 flag_lpnav_en;
u8 flag_rf_low_snr_en;
u8 flag_dps_en; /* 1: dps, 0: 32k */
u8 bcn_rx_en;
u8 bcn_pass_cnt; /* fw report one beacon information to
* driver when it receives bcn_pass_cnt
* beacons. */
u8 bcn_to; /* beacon TO (ms). ¡§=0¡¨ no limit.*/
u16 bcn_itv;
u8 app_itv; /* only for VOIP mode. */
u8 awake_bcn_itv;
u8 smart_ps;
u8 bcn_pass_time; /* unit: 100ms */
};
struct setatim_parm {
u8 op; /*0: add, 1:del*/
u8 txid; /* id of dest station.*/
};
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;
};
/*dynamic on/off DIG*/
struct setdig_parm {
unsigned char dig_on; /* 1:on , 0:off */
};
/*dynamic on/off RA*/
struct setra_parm {
unsigned char ra_on; /* 1:on , 0:off */
};
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;
};
/*H2C Handler index: 46 */
struct SetChannel_parm {
u32 curr_ch;
};
/*H2C Handler index: 61 */
struct DisconnectCtrlEx_param {
/* MAXTIME = (2 * FirstStageTO) + (TryPktCnt * TryPktInterval) */
unsigned char EnableDrvCtrl;
unsigned char TryPktCnt;
unsigned char TryPktInterval; /* Unit: ms */
unsigned char rsvd;
unsigned int FirstStageTO; /* Unit: ms */
};
#define GEN_CMD_CODE(cmd) cmd ## _CMD_
/*
* Result:
* 0x00: success
* 0x01: success, 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
u8 r8712_setMacAddr_cmd(struct _adapter *padapter, u8 *mac_addr);
u8 r8712_setassocsta_cmd(struct _adapter *padapter, u8 *mac_addr);
u8 r8712_sitesurvey_cmd(struct _adapter *padapter,
struct ndis_802_11_ssid *pssid);
u8 r8712_createbss_cmd(struct _adapter *padapter);
u8 r8712_setstakey_cmd(struct _adapter *padapter, u8 *psta, u8 unicast_key);
u8 r8712_joinbss_cmd(struct _adapter *padapter,
struct wlan_network *pnetwork);
u8 r8712_disassoc_cmd(struct _adapter *padapter);
u8 r8712_setopmode_cmd(struct _adapter *padapter,
enum NDIS_802_11_NETWORK_INFRASTRUCTURE networktype);
u8 r8712_setdatarate_cmd(struct _adapter *padapter, u8 *rateset);
u8 r8712_set_chplan_cmd(struct _adapter *padapter, int chplan);
u8 r8712_setbasicrate_cmd(struct _adapter *padapter, u8 *rateset);
u8 r8712_getrfreg_cmd(struct _adapter *padapter, u8 offset, u8 * pval);
u8 r8712_setrfintfs_cmd(struct _adapter *padapter, u8 mode);
u8 r8712_setrfreg_cmd(struct _adapter *padapter, u8 offset, u32 val);
u8 r8712_setrttbl_cmd(struct _adapter *padapter,
struct setratable_parm *prate_table);
u8 r8712_gettssi_cmd(struct _adapter *padapter, u8 offset, u8 *pval);
u8 r8712_setptm_cmd(struct _adapter *padapter, u8 type);
u8 r8712_setfwdig_cmd(struct _adapter *padapter, u8 type);
u8 r8712_setfwra_cmd(struct _adapter *padapter, u8 type);
u8 r8712_addbareq_cmd(struct _adapter *padapter, u8 tid);
u8 r8712_wdg_wk_cmd(struct _adapter *padapter);
void r8712_survey_cmd_callback(struct _adapter *padapter,
struct cmd_obj *pcmd);
void r8712_disassoc_cmd_callback(struct _adapter *padapter,
struct cmd_obj *pcmd);
void r8712_joinbss_cmd_callback(struct _adapter *padapter,
struct cmd_obj *pcmd);
void r8712_createbss_cmd_callback(struct _adapter *padapter,
struct cmd_obj *pcmd);
void r8712_getbbrfreg_cmdrsp_callback(struct _adapter *padapter,
struct cmd_obj *pcmd);
void r8712_readtssi_cmdrsp_callback(struct _adapter *padapter,
struct cmd_obj *pcmd);
void r8712_setstaKey_cmdrsp_callback(struct _adapter *padapter,
struct cmd_obj *pcmd);
void r8712_setassocsta_cmdrsp_callback(struct _adapter *padapter,
struct cmd_obj *pcmd);
u8 r8712_disconnectCtrlEx_cmd(struct _adapter *adapter, u32 enableDrvCtrl,
u32 tryPktCnt, u32 tryPktInterval, u32 firstStageTO);
struct _cmd_callback {
u32 cmd_code;
void (*callback)(struct _adapter *padapter, struct cmd_obj *cmd);
};
#include "rtl8712_cmd.h"
#endif /* _CMD_H_ */