host/include/wmi_thin.h - nest-cam/v350/atheros_tools - Git at Google

 //------------------------------------------------------------------------------
 // <copyright file="wmi_thin.h" company="Atheros">
 //    Copyright (c) 2004-2010 Atheros Corporation.  All rights reserved.
 //
 // The software source and binaries included in this development package are
 // licensed, not sold. You, or your company, received the package under one
 // or more license agreements. The rights granted to you are specifically
 // listed in these license agreement(s). All other rights remain with Atheros
 // Communications, Inc., its subsidiaries, or the respective owner including
 // those listed on the included copyright notices.  Distribution of any
 // portion of this package must be in strict compliance with the license
 // agreement(s) terms.
 // </copyright>
 //
 // <summary>
 // 	Wifi driver for AR6003
 // </summary>
 //
 //------------------------------------------------------------------------------
 //==============================================================================
 // Author(s): ="Atheros"
 //==============================================================================

 /*
  * This file contains the definitions of the WMI protocol specified in the
  * Wireless Module Interface (WMI).  It includes definitions of all the
  * commands and events. Commands are messages from the host to the WM.
  * Events and Replies are messages from the WM to the host.
  *
  * Ownership of correctness in regards to WMI commands
  * belongs to the host driver and the WM is not required to validate
  * parameters for value, proper range, or any other checking.
  *
  */

 #ifndef _WMI_THIN_H_
 #define _WMI_THIN_H_

 #ifdef __cplusplus
 extern "C" {
 #endif


 typedef enum {
     WMI_THIN_CONFIG_CMDID =  0x8000, // WMI_THIN_RESERVED_START
     WMI_THIN_SET_MIB_CMDID,
     WMI_THIN_GET_MIB_CMDID,
     WMI_THIN_JOIN_CMDID,
     WMI_THIN_CONNECT_CMDID,
     WMI_THIN_RESET_CMDID,
     /* add new CMDID's here */
     WMI_THIN_RESERVED_END_CMDID = 0x8fff // WMI_THIN_RESERVED_END
 } WMI_THIN_COMMAND_ID;

 typedef enum{
     TEMPLATE_FRM_FIRST = 0,
     TEMPLATE_FRM_PROBE_REQ =TEMPLATE_FRM_FIRST,
     TEMPLATE_FRM_BEACON,
     TEMPLATE_FRM_PROBE_RESP,
     TEMPLATE_FRM_NULL,
     TEMPLATE_FRM_QOS_NULL,
     TEMPLATE_FRM_PSPOLL,
     TEMPLATE_FRM_MAX
 }WMI_TEMPLATE_FRM_TYPE;

 /* TEMPLATE_FRM_LEN... represent the maximum allowable
  * data lengths (bytes) for each frame type */
 #define TEMPLATE_FRM_LEN_PROBE_REQ  (256) /* Symbian dictates a minimum of 256 for these 3 frame types */
 #define TEMPLATE_FRM_LEN_BEACON     (256)
 #define TEMPLATE_FRM_LEN_PROBE_RESP (256)
 #define TEMPLATE_FRM_LEN_NULL       (32)
 #define TEMPLATE_FRM_LEN_QOS_NULL   (32)
 #define TEMPLATE_FRM_LEN_PSPOLL     (32)
 #define TEMPLATE_FRM_LEN_SUM (TEMPLATE_FRM_LEN_PROBE_REQ + TEMPLATE_FRM_LEN_BEACON + TEMPLATE_FRM_LEN_PROBE_RESP + \
             TEMPLATE_FRM_LEN_NULL + TEMPLATE_FRM_LEN_QOS_NULL + TEMPLATE_FRM_LEN_PSPOLL)


 /* MAC Header Build Rules */
 /*  These values allow the host to configure the
  *  target code that is responsible for constructing
  *  the MAC header.  In cases where the MAC header
  *  is provided by the host framework, the target
  *  has a diminished responsibility over what fields
  *  it must write. This will vary from framework to framework.
  *  Symbian requires different behavior from MAC80211 which
  *  requires different behavior from MS Native Wifi. */
 #define WMI_WRT_VER_TYPE    0x00000001
 #define WMI_WRT_DURATION    0x00000002
 #define WMI_WRT_DIRECTION   0x00000004
 #define WMI_WRT_POWER       0x00000008
 #define WMI_WRT_WEP         0x00000010
 #define WMI_WRT_MORE        0x00000020
 #define WMI_WRT_BSSID       0x00000040
 #define WMI_WRT_QOS         0x00000080
 #define WMI_WRT_SEQNO       0x00000100
 #define WMI_GUARD_TX        0x00000200 /* prevents TX ops that are not allowed for a current state */
 #define WMI_WRT_DEFAULT_CONFIG  (WMI_WRT_VER_TYPE | WMI_WRT_DURATION | WMI_WRT_DIRECTION | \
                                  WMI_WRT_POWER | WMI_WRT_MORE | WMI_WRT_WEP | WMI_WRT_BSSID | \
                                  WMI_WRT_QOS | WMI_WRT_SEQNO | WMI_GUARD_TX)

 /* WMI_THIN_CONFIG_TXCOMPLETE -- Used to configure the params and content for
  *  TX Complete messages the will come from the Target.  these messages are
  *  disabled by default but can be enabled using this structure and the
  *  WMI_THIN_CONFIG_CMDID. */
 typedef PREPACK struct {
     A_UINT8     version; /* the versioned type of messages to use or 0 to disable */
     A_UINT8     countThreshold; /* msg count threshold triggering a tx complete message */
     A_UINT16    timeThreshold; /* timeout interval in MSEC triggering a tx complete message */
 } POSTPACK WMI_THIN_CONFIG_TXCOMPLETE;

 /* WMI_THIN_CONFIG_DECRYPT_ERR -- Used to configure behavior for received frames
  *  that have decryption errors.  The default behavior is to discard the frame
  *  without notification. Alternately, the MAC Header is forwarded to the host
  *  with the failed status. */
 typedef PREPACK struct {
     A_UINT8     enable; /* 1 == send decrypt errors to the host, 0 == don't */
     A_UINT8     reserved[3]; /* align padding */
 } POSTPACK WMI_THIN_CONFIG_DECRYPT_ERR;

 /* WMI_THIN_CONFIG_TX_MAC_RULES -- Used to configure behavior for transmitted
  *  frames that require partial MAC header construction. These rules
  *  are used by the target to indicate which fields need to be written. */
 typedef PREPACK struct {
     A_UINT32    rules; /* combination of WMI_WRT_... values */
 } POSTPACK WMI_THIN_CONFIG_TX_MAC_RULES;

 /* WMI_THIN_CONFIG_RX_FILTER_RULES -- Used to configure behavior for received
  *  frames as to which frames should get forwarded to the host and which
  *  should get processed internally. */
 typedef PREPACK struct {
     A_UINT32    rules; /* combination of WMI_FILT_... values */
 } POSTPACK WMI_THIN_CONFIG_RX_FILTER_RULES;


 /* WMI_THIN_CONFIG_CIPHER_ENCAP -- Used to configure behavior for both
  * TX and RX frames regarding security cipher encapsulation. The host may specify
  * whether or not the firmware is responsible for cipher
  * encapsulation.  If the firmware is responsible it will add the security header
  * and trailer for TX frames and remove the header and trailer for Rx frames. Also,
  * the firmware will examine the resource counter if any and behave appropriately when
  * a bad value is detected.  If the host indicates responsibility for encapsulation
  * then it is responsible for all aspects of encapsulation, however the device will
  * still perform the encryption and decryption of the frame payload if a key has
  * been provided. */
 typedef PREPACK struct {
     A_UINT8     enable; /* enables/disables firmware cipher encapsulation */
     A_UINT8     reserved[3]; /* align padding */
 } POSTPACK WMI_THIN_CONFIG_CIPHER_ENCAP;

 /* WMI_THIN_CONFIG_CMD -- Used to contain some combination of the above
  *  WMI_THIN_CONFIG_... structures. The actual combination is indicated
  *  by the value of cfgField. Each bit in this field corresponds to
  *  one of the above structures. */
 typedef PREPACK struct {
 #define WMI_THIN_CFG_TXCOMP         0x00000001
 #define WMI_THIN_CFG_DECRYPT        0x00000002
 #define WMI_THIN_UNUSED1            0x00000004  /* used to be WMI_THIN_CFG_MAC_RULES */
 #define WMI_THIN_CFG_FILTER_RULES   0x00000008
 #define WMI_THIN_CFG_CIPHER_ENCAP   0x00000010
     A_UINT32    cfgField;   /* combination of WMI_THIN_CFG_... describes contents of config command */
     A_UINT16    length;     /* length in bytes of appended sub-commands */
     A_UINT8     reserved[2];   /* align padding */
 } POSTPACK WMI_THIN_CONFIG_CMD;

 /* MIB Access Identifiers tailored for Symbian. */
 enum {
     MIB_ID_STA_MAC = 1,             // [READONLY]
     MIB_ID_RX_LIFE_TIME,            // [NOT IMPLEMENTED]
     MIB_ID_SLOT_TIME,               // [READ/WRITE]
     MIB_ID_RTS_THRESHOLD,           // [READ/WRITE]
     MIB_ID_CTS_TO_SELF,             // [READ/WRITE]
     MIB_ID_TEMPLATE_FRAME,          // [WRITE ONLY]
     MIB_ID_RXFRAME_FILTER,          // [READ/WRITE]
     MIB_ID_BEACON_FILTER_TABLE,     // [WRITE ONLY]
     MIB_ID_BEACON_FILTER,           // [READ/WRITE]
     MIB_ID_BEACON_LOST_COUNT,       // [WRITE ONLY]
     MIB_ID_RSSI_THRESHOLD,          // [WRITE ONLY]
     MIB_ID_HT_CAP,                  // [NOT IMPLEMENTED]
     MIB_ID_HT_OP,                   // [NOT IMPLEMENTED]
     MIB_ID_HT_2ND_BEACON,           // [NOT IMPLEMENTED]
     MIB_ID_HT_BLOCK_ACK,            // [NOT IMPLEMENTED]
     MIB_ID_PREAMBLE,                // [READ/WRITE]
     /*MIB_ID_GROUP_ADDR_TABLE,*/
     /*MIB_ID_WEP_DEFAULT_KEY_ID */  // satisfied by wmi_addKey_cmd()
     /*MIB_ID_TX_POWER */
     /*MIB_ID_ARP_IP_TABLE */
     /*MIB_ID_SLEEP_MODE */
     /*MIB_ID_WAKE_INTERVAL*/
     /*MIB_ID_STAT_TABLE*/
     /*MIB_ID_IBSS_PWR_SAVE*/
     /*MIB_ID_COUNTERS_TABLE*/
     /*MIB_ID_ETHERTYPE_FILTER*/
     /*MIB_ID_BC_UDP_FILTER*/

 };

 typedef PREPACK struct {
     A_UINT8 addr[ATH_MAC_LEN];
 } POSTPACK WMI_THIN_MIB_STA_MAC;

 typedef PREPACK struct {
     A_UINT32 time; // units == msec
 } POSTPACK WMI_THIN_MIB_RX_LIFE_TIME;

 typedef PREPACK struct {
     A_UINT8 enable; //1 = on, 0 = off
 } POSTPACK WMI_THIN_MIB_CTS_TO_SELF;

 typedef PREPACK struct {
     A_UINT32 time; // units == usec
 } POSTPACK WMI_THIN_MIB_SLOT_TIME;

 typedef PREPACK struct {
     A_UINT16 length; //units == bytes
 } POSTPACK WMI_THIN_MIB_RTS_THRESHOLD;

 typedef PREPACK struct {
     A_UINT8 type; // type of frame
     A_UINT8 rate; // tx rate to be used (one of WMI_BIT_RATE)
     A_UINT16 length; // num bytes following this structure as the template data
 } POSTPACK WMI_THIN_MIB_TEMPLATE_FRAME;

 typedef PREPACK struct {
 #define FRAME_FILTER_PROMISCUOUS 0x00000001
 #define FRAME_FILTER_BSSID       0x00000002
     A_UINT32 filterMask;
 } POSTPACK WMI_THIN_MIB_RXFRAME_FILTER;


 #define IE_FILTER_TREATMENT_CHANGE 1
 #define IE_FILTER_TREATMENT_APPEAR 2

 typedef PREPACK struct {
     A_UINT8 ie;
     A_UINT8 treatment;
 } POSTPACK WMI_THIN_MIB_BEACON_FILTER_TABLE;

 typedef PREPACK struct {
     A_UINT8 ie;
     A_UINT8 treatment;
     A_UINT8 oui[3];
     A_UINT8 type;
     A_UINT16 version;
 } POSTPACK WMI_THIN_MIB_BEACON_FILTER_TABLE_OUI;

 typedef PREPACK struct {
     A_UINT16 numElements;
     A_UINT8 entrySize; // sizeof(WMI_THIN_MIB_BEACON_FILTER_TABLE) on host cpu may be 2 may be 4
     A_UINT8 reserved;
 } POSTPACK WMI_THIN_MIB_BEACON_FILTER_TABLE_HEADER;

 typedef PREPACK struct {
     A_UINT32 count; /* num beacons between deliveries */
     A_UINT8 enable;
     A_UINT8 reserved[3];
 } POSTPACK WMI_THIN_MIB_BEACON_FILTER;

 typedef PREPACK struct {
     A_UINT32 count; /* num consec lost beacons after which send event */
 } POSTPACK WMI_THIN_MIB_BEACON_LOST_COUNT;

 typedef PREPACK struct {
     A_UINT8 rssi; /* the low threshold which can trigger an event warning */
     A_UINT8 tolerance; /* the range above and below the threshold to prevent event flooding to the host. */
     A_UINT8 count; /* the sample count of consecutive frames necessary to trigger an event. */
     A_UINT8 reserved[1]; /* padding */
 } POSTPACK WMI_THIN_MIB_RSSI_THRESHOLD;


 typedef PREPACK struct {
     A_UINT32 cap;
     A_UINT32 rxRateField;
     A_UINT32 beamForming;
     A_UINT8 addr[ATH_MAC_LEN];
     A_UINT8 enable;
     A_UINT8 stbc;
     A_UINT8 maxAMPDU;
     A_UINT8 msduSpacing;
     A_UINT8 mcsFeedback;
     A_UINT8 antennaSelCap;
 } POSTPACK WMI_THIN_MIB_HT_CAP;

 typedef PREPACK struct {
     A_UINT32 infoField;
     A_UINT32 basicRateField;
     A_UINT8 protection;
     A_UINT8 secondChanneloffset;
     A_UINT8 channelWidth;
     A_UINT8 reserved;
 } POSTPACK WMI_THIN_MIB_HT_OP;

 typedef PREPACK struct {
 #define SECOND_BEACON_PRIMARY   1
 #define SECOND_BEACON_EITHER    2
 #define SECOND_BEACON_SECONDARY 3
     A_UINT8 cfg;
     A_UINT8 reserved[3]; /* padding */
 } POSTPACK WMI_THIN_MIB_HT_2ND_BEACON;

 typedef PREPACK struct {
     A_UINT8 txTIDField;
     A_UINT8 rxTIDField;
     A_UINT8 reserved[2]; /* padding */
 } POSTPACK WMI_THIN_MIB_HT_BLOCK_ACK;

 typedef PREPACK struct {
     A_UINT8 enableLong; // 1 == long preamble, 0 == short preamble
     A_UINT8 reserved[3];
 } POSTPACK WMI_THIN_MIB_PREAMBLE;

 typedef PREPACK struct {
     A_UINT16    length;     /* the length in bytes of the appended MIB data */
     A_UINT8     mibID;      /* the ID of the MIB element being set */
     A_UINT8     reserved; /* align padding */
 } POSTPACK WMI_THIN_SET_MIB_CMD;

 typedef PREPACK struct {
     A_UINT8     mibID;      /* the ID of the MIB element being set */
     A_UINT8     reserved[3]; /* align padding */
 } POSTPACK WMI_THIN_GET_MIB_CMD;

 typedef PREPACK struct {
     A_UINT32    basicRateMask; /* bit mask of basic rates */
     A_UINT32    beaconIntval; /* TUs */
     A_UINT16    atimWindow; /* TUs */
     A_UINT16    channel; /* frequency in Mhz */
     A_UINT8     networkType; /* INFRA_NETWORK | ADHOC_NETWORK */
     A_UINT8     ssidLength; /* 0 - 32 */
     A_UINT8     probe;      /* != 0 : issue probe req at start */
     A_UINT8     reserved;   /* alignment */
     A_UCHAR     ssid[WMI_MAX_SSID_LEN];
     A_UINT8     bssid[ATH_MAC_LEN];
 } POSTPACK WMI_THIN_JOIN_CMD;

 typedef PREPACK struct {
     A_UINT16 dtim; /* dtim interval in num beacons */
     A_UINT16 aid; /* 80211 association ID from Assoc resp */
 } POSTPACK WMI_THIN_CONNECT_CMD;

 typedef PREPACK struct {
     A_UINT8 reserved[4];
 } POSTPACK WMI_THIN_RESET_CMD;

 typedef enum {
     WMI_THIN_EVENTID_RESERVED_START           = 0x8000,
     WMI_THIN_GET_MIB_EVENTID,
     WMI_THIN_JOIN_EVENTID,

     /* Add new THIN EVENTID's here */
     WMI_THIN_EVENTID_RESERVED_END           = 0x8fff
 } WMI_THIN_EVENT_ID;

 /* Possible values for WMI_THIN_JOIN_EVENT.result */
 typedef enum {
     WMI_THIN_JOIN_RES_SUCCESS = 0, // device has joined the network
     WMI_THIN_JOIN_RES_FAIL, // device failed for unspecified reason
     WMI_THIN_JOIN_RES_TIMEOUT, // device failed due to no beacon rx in time limit
     WMI_THIN_JOIN_RES_BAD_PARAM, // device failed due to bad cmd param.
     WMI_THIN_JOIN_RES_IBSS_START, // device started new IBSS network.
 }WMI_THIN_JOIN_RESULT;

 typedef PREPACK struct {
     A_UINT8 result; /* the result of the join cmd. one of WMI_THIN_JOIN_RESULT */
     A_UINT8 reserved[3]; /* alignment */
 } POSTPACK WMI_THIN_JOIN_EVENT;

 #ifdef __cplusplus
 }
 #endif

 #endif /* _WMI_THIN_H_ */
	//------------------------------------------------------------------------------
	// <copyright file="wmi_thin.h" company="Atheros">
	// Copyright (c) 2004-2010 Atheros Corporation. All rights reserved.
	//
	// The software source and binaries included in this development package are
	// licensed, not sold. You, or your company, received the package under one
	// or more license agreements. The rights granted to you are specifically
	// listed in these license agreement(s). All other rights remain with Atheros
	// Communications, Inc., its subsidiaries, or the respective owner including
	// those listed on the included copyright notices. Distribution of any
	// portion of this package must be in strict compliance with the license
	// agreement(s) terms.
	// </copyright>
	//
	// <summary>
	// Wifi driver for AR6003
	// </summary>
	//
	//------------------------------------------------------------------------------
	//==============================================================================
	// Author(s): ="Atheros"
	//==============================================================================

	/*
	* This file contains the definitions of the WMI protocol specified in the
	* Wireless Module Interface (WMI). It includes definitions of all the
	* commands and events. Commands are messages from the host to the WM.
	* Events and Replies are messages from the WM to the host.
	*
	* Ownership of correctness in regards to WMI commands
	* belongs to the host driver and the WM is not required to validate
	* parameters for value, proper range, or any other checking.
	*
	*/

	#ifndef _WMI_THIN_H_
	#define _WMI_THIN_H_

	#ifdef __cplusplus
	extern "C" {
	#endif


	typedef enum {
	WMI_THIN_CONFIG_CMDID = 0x8000, // WMI_THIN_RESERVED_START
	WMI_THIN_SET_MIB_CMDID,
	WMI_THIN_GET_MIB_CMDID,
	WMI_THIN_JOIN_CMDID,
	WMI_THIN_CONNECT_CMDID,
	WMI_THIN_RESET_CMDID,
	/* add new CMDID's here */
	WMI_THIN_RESERVED_END_CMDID = 0x8fff // WMI_THIN_RESERVED_END
	} WMI_THIN_COMMAND_ID;

	typedef enum{
	TEMPLATE_FRM_FIRST = 0,
	TEMPLATE_FRM_PROBE_REQ =TEMPLATE_FRM_FIRST,
	TEMPLATE_FRM_BEACON,
	TEMPLATE_FRM_PROBE_RESP,
	TEMPLATE_FRM_NULL,
	TEMPLATE_FRM_QOS_NULL,
	TEMPLATE_FRM_PSPOLL,
	TEMPLATE_FRM_MAX
	}WMI_TEMPLATE_FRM_TYPE;

	/* TEMPLATE_FRM_LEN... represent the maximum allowable
	* data lengths (bytes) for each frame type */
	#define TEMPLATE_FRM_LEN_PROBE_REQ (256) /* Symbian dictates a minimum of 256 for these 3 frame types */
	#define TEMPLATE_FRM_LEN_BEACON (256)
	#define TEMPLATE_FRM_LEN_PROBE_RESP (256)
	#define TEMPLATE_FRM_LEN_NULL (32)
	#define TEMPLATE_FRM_LEN_QOS_NULL (32)
	#define TEMPLATE_FRM_LEN_PSPOLL (32)
	#define TEMPLATE_FRM_LEN_SUM (TEMPLATE_FRM_LEN_PROBE_REQ + TEMPLATE_FRM_LEN_BEACON + TEMPLATE_FRM_LEN_PROBE_RESP + \
	TEMPLATE_FRM_LEN_NULL + TEMPLATE_FRM_LEN_QOS_NULL + TEMPLATE_FRM_LEN_PSPOLL)


	/* MAC Header Build Rules */
	/* These values allow the host to configure the
	* target code that is responsible for constructing
	* the MAC header. In cases where the MAC header
	* is provided by the host framework, the target
	* has a diminished responsibility over what fields
	* it must write. This will vary from framework to framework.
	* Symbian requires different behavior from MAC80211 which
	* requires different behavior from MS Native Wifi. */
	#define WMI_WRT_VER_TYPE 0x00000001
	#define WMI_WRT_DURATION 0x00000002
	#define WMI_WRT_DIRECTION 0x00000004
	#define WMI_WRT_POWER 0x00000008
	#define WMI_WRT_WEP 0x00000010
	#define WMI_WRT_MORE 0x00000020
	#define WMI_WRT_BSSID 0x00000040
	#define WMI_WRT_QOS 0x00000080
	#define WMI_WRT_SEQNO 0x00000100
	#define WMI_GUARD_TX 0x00000200 /* prevents TX ops that are not allowed for a current state */
	#define WMI_WRT_DEFAULT_CONFIG (WMI_WRT_VER_TYPE \| WMI_WRT_DURATION \| WMI_WRT_DIRECTION \| \
	WMI_WRT_POWER \| WMI_WRT_MORE \| WMI_WRT_WEP \| WMI_WRT_BSSID \| \
	WMI_WRT_QOS \| WMI_WRT_SEQNO \| WMI_GUARD_TX)

	/* WMI_THIN_CONFIG_TXCOMPLETE -- Used to configure the params and content for
	* TX Complete messages the will come from the Target. these messages are
	* disabled by default but can be enabled using this structure and the
	* WMI_THIN_CONFIG_CMDID. */
	typedef PREPACK struct {
	A_UINT8 version; /* the versioned type of messages to use or 0 to disable */
	A_UINT8 countThreshold; /* msg count threshold triggering a tx complete message */
	A_UINT16 timeThreshold; /* timeout interval in MSEC triggering a tx complete message */
	} POSTPACK WMI_THIN_CONFIG_TXCOMPLETE;

	/* WMI_THIN_CONFIG_DECRYPT_ERR -- Used to configure behavior for received frames
	* that have decryption errors. The default behavior is to discard the frame
	* without notification. Alternately, the MAC Header is forwarded to the host
	* with the failed status. */
	typedef PREPACK struct {
	A_UINT8 enable; /* 1 == send decrypt errors to the host, 0 == don't */
	A_UINT8 reserved[3]; /* align padding */
	} POSTPACK WMI_THIN_CONFIG_DECRYPT_ERR;

	/* WMI_THIN_CONFIG_TX_MAC_RULES -- Used to configure behavior for transmitted
	* frames that require partial MAC header construction. These rules
	* are used by the target to indicate which fields need to be written. */
	typedef PREPACK struct {
	A_UINT32 rules; /* combination of WMI_WRT_... values */
	} POSTPACK WMI_THIN_CONFIG_TX_MAC_RULES;

	/* WMI_THIN_CONFIG_RX_FILTER_RULES -- Used to configure behavior for received
	* frames as to which frames should get forwarded to the host and which
	* should get processed internally. */
	typedef PREPACK struct {
	A_UINT32 rules; /* combination of WMI_FILT_... values */
	} POSTPACK WMI_THIN_CONFIG_RX_FILTER_RULES;


	/* WMI_THIN_CONFIG_CIPHER_ENCAP -- Used to configure behavior for both
	* TX and RX frames regarding security cipher encapsulation. The host may specify
	* whether or not the firmware is responsible for cipher
	* encapsulation. If the firmware is responsible it will add the security header
	* and trailer for TX frames and remove the header and trailer for Rx frames. Also,
	* the firmware will examine the resource counter if any and behave appropriately when
	* a bad value is detected. If the host indicates responsibility for encapsulation
	* then it is responsible for all aspects of encapsulation, however the device will
	* still perform the encryption and decryption of the frame payload if a key has
	* been provided. */
	typedef PREPACK struct {
	A_UINT8 enable; /* enables/disables firmware cipher encapsulation */
	A_UINT8 reserved[3]; /* align padding */
	} POSTPACK WMI_THIN_CONFIG_CIPHER_ENCAP;

	/* WMI_THIN_CONFIG_CMD -- Used to contain some combination of the above
	* WMI_THIN_CONFIG_... structures. The actual combination is indicated
	* by the value of cfgField. Each bit in this field corresponds to
	* one of the above structures. */
	typedef PREPACK struct {
	#define WMI_THIN_CFG_TXCOMP 0x00000001
	#define WMI_THIN_CFG_DECRYPT 0x00000002
	#define WMI_THIN_UNUSED1 0x00000004 /* used to be WMI_THIN_CFG_MAC_RULES */
	#define WMI_THIN_CFG_FILTER_RULES 0x00000008
	#define WMI_THIN_CFG_CIPHER_ENCAP 0x00000010
	A_UINT32 cfgField; /* combination of WMI_THIN_CFG_... describes contents of config command */
	A_UINT16 length; /* length in bytes of appended sub-commands */
	A_UINT8 reserved[2]; /* align padding */
	} POSTPACK WMI_THIN_CONFIG_CMD;

	/* MIB Access Identifiers tailored for Symbian. */
	enum {
	MIB_ID_STA_MAC = 1, // [READONLY]
	MIB_ID_RX_LIFE_TIME, // [NOT IMPLEMENTED]
	MIB_ID_SLOT_TIME, // [READ/WRITE]
	MIB_ID_RTS_THRESHOLD, // [READ/WRITE]
	MIB_ID_CTS_TO_SELF, // [READ/WRITE]
	MIB_ID_TEMPLATE_FRAME, // [WRITE ONLY]
	MIB_ID_RXFRAME_FILTER, // [READ/WRITE]
	MIB_ID_BEACON_FILTER_TABLE, // [WRITE ONLY]
	MIB_ID_BEACON_FILTER, // [READ/WRITE]
	MIB_ID_BEACON_LOST_COUNT, // [WRITE ONLY]
	MIB_ID_RSSI_THRESHOLD, // [WRITE ONLY]
	MIB_ID_HT_CAP, // [NOT IMPLEMENTED]
	MIB_ID_HT_OP, // [NOT IMPLEMENTED]
	MIB_ID_HT_2ND_BEACON, // [NOT IMPLEMENTED]
	MIB_ID_HT_BLOCK_ACK, // [NOT IMPLEMENTED]
	MIB_ID_PREAMBLE, // [READ/WRITE]
	/MIB_ID_GROUP_ADDR_TABLE,/
	/MIB_ID_WEP_DEFAULT_KEY_ID / // satisfied by wmi_addKey_cmd()
	/MIB_ID_TX_POWER /
	/MIB_ID_ARP_IP_TABLE /
	/MIB_ID_SLEEP_MODE /
	/MIB_ID_WAKE_INTERVAL/
	/MIB_ID_STAT_TABLE/
	/MIB_ID_IBSS_PWR_SAVE/
	/MIB_ID_COUNTERS_TABLE/
	/MIB_ID_ETHERTYPE_FILTER/
	/MIB_ID_BC_UDP_FILTER/

	};

	typedef PREPACK struct {
	A_UINT8 addr[ATH_MAC_LEN];
	} POSTPACK WMI_THIN_MIB_STA_MAC;

	typedef PREPACK struct {
	A_UINT32 time; // units == msec
	} POSTPACK WMI_THIN_MIB_RX_LIFE_TIME;

	typedef PREPACK struct {
	A_UINT8 enable; //1 = on, 0 = off
	} POSTPACK WMI_THIN_MIB_CTS_TO_SELF;

	typedef PREPACK struct {
	A_UINT32 time; // units == usec
	} POSTPACK WMI_THIN_MIB_SLOT_TIME;

	typedef PREPACK struct {
	A_UINT16 length; //units == bytes
	} POSTPACK WMI_THIN_MIB_RTS_THRESHOLD;

	typedef PREPACK struct {
	A_UINT8 type; // type of frame
	A_UINT8 rate; // tx rate to be used (one of WMI_BIT_RATE)
	A_UINT16 length; // num bytes following this structure as the template data
	} POSTPACK WMI_THIN_MIB_TEMPLATE_FRAME;

	typedef PREPACK struct {
	#define FRAME_FILTER_PROMISCUOUS 0x00000001
	#define FRAME_FILTER_BSSID 0x00000002
	A_UINT32 filterMask;
	} POSTPACK WMI_THIN_MIB_RXFRAME_FILTER;


	#define IE_FILTER_TREATMENT_CHANGE 1
	#define IE_FILTER_TREATMENT_APPEAR 2

	typedef PREPACK struct {
	A_UINT8 ie;
	A_UINT8 treatment;
	} POSTPACK WMI_THIN_MIB_BEACON_FILTER_TABLE;

	typedef PREPACK struct {
	A_UINT8 ie;
	A_UINT8 treatment;
	A_UINT8 oui[3];
	A_UINT8 type;
	A_UINT16 version;
	} POSTPACK WMI_THIN_MIB_BEACON_FILTER_TABLE_OUI;

	typedef PREPACK struct {
	A_UINT16 numElements;
	A_UINT8 entrySize; // sizeof(WMI_THIN_MIB_BEACON_FILTER_TABLE) on host cpu may be 2 may be 4
	A_UINT8 reserved;
	} POSTPACK WMI_THIN_MIB_BEACON_FILTER_TABLE_HEADER;

	typedef PREPACK struct {
	A_UINT32 count; /* num beacons between deliveries */
	A_UINT8 enable;
	A_UINT8 reserved[3];
	} POSTPACK WMI_THIN_MIB_BEACON_FILTER;

	typedef PREPACK struct {
	A_UINT32 count; /* num consec lost beacons after which send event */
	} POSTPACK WMI_THIN_MIB_BEACON_LOST_COUNT;

	typedef PREPACK struct {
	A_UINT8 rssi; /* the low threshold which can trigger an event warning */
	A_UINT8 tolerance; /* the range above and below the threshold to prevent event flooding to the host. */
	A_UINT8 count; /* the sample count of consecutive frames necessary to trigger an event. */
	A_UINT8 reserved[1]; /* padding */
	} POSTPACK WMI_THIN_MIB_RSSI_THRESHOLD;


	typedef PREPACK struct {
	A_UINT32 cap;
	A_UINT32 rxRateField;
	A_UINT32 beamForming;
	A_UINT8 addr[ATH_MAC_LEN];
	A_UINT8 enable;
	A_UINT8 stbc;
	A_UINT8 maxAMPDU;
	A_UINT8 msduSpacing;
	A_UINT8 mcsFeedback;
	A_UINT8 antennaSelCap;
	} POSTPACK WMI_THIN_MIB_HT_CAP;

	typedef PREPACK struct {
	A_UINT32 infoField;
	A_UINT32 basicRateField;
	A_UINT8 protection;
	A_UINT8 secondChanneloffset;
	A_UINT8 channelWidth;
	A_UINT8 reserved;
	} POSTPACK WMI_THIN_MIB_HT_OP;

	typedef PREPACK struct {
	#define SECOND_BEACON_PRIMARY 1
	#define SECOND_BEACON_EITHER 2
	#define SECOND_BEACON_SECONDARY 3
	A_UINT8 cfg;
	A_UINT8 reserved[3]; /* padding */
	} POSTPACK WMI_THIN_MIB_HT_2ND_BEACON;

	typedef PREPACK struct {
	A_UINT8 txTIDField;
	A_UINT8 rxTIDField;
	A_UINT8 reserved[2]; /* padding */
	} POSTPACK WMI_THIN_MIB_HT_BLOCK_ACK;

	typedef PREPACK struct {
	A_UINT8 enableLong; // 1 == long preamble, 0 == short preamble
	A_UINT8 reserved[3];
	} POSTPACK WMI_THIN_MIB_PREAMBLE;

	typedef PREPACK struct {
	A_UINT16 length; /* the length in bytes of the appended MIB data */
	A_UINT8 mibID; /* the ID of the MIB element being set */
	A_UINT8 reserved; /* align padding */
	} POSTPACK WMI_THIN_SET_MIB_CMD;

	typedef PREPACK struct {
	A_UINT8 mibID; /* the ID of the MIB element being set */
	A_UINT8 reserved[3]; /* align padding */
	} POSTPACK WMI_THIN_GET_MIB_CMD;

	typedef PREPACK struct {
	A_UINT32 basicRateMask; /* bit mask of basic rates */
	A_UINT32 beaconIntval; /* TUs */
	A_UINT16 atimWindow; /* TUs */
	A_UINT16 channel; /* frequency in Mhz */
	A_UINT8 networkType; /* INFRA_NETWORK \| ADHOC_NETWORK */
	A_UINT8 ssidLength; /* 0 - 32 */
	A_UINT8 probe; /* != 0 : issue probe req at start */
	A_UINT8 reserved; /* alignment */
	A_UCHAR ssid[WMI_MAX_SSID_LEN];
	A_UINT8 bssid[ATH_MAC_LEN];
	} POSTPACK WMI_THIN_JOIN_CMD;

	typedef PREPACK struct {
	A_UINT16 dtim; /* dtim interval in num beacons */
	A_UINT16 aid; /* 80211 association ID from Assoc resp */
	} POSTPACK WMI_THIN_CONNECT_CMD;

	typedef PREPACK struct {
	A_UINT8 reserved[4];
	} POSTPACK WMI_THIN_RESET_CMD;

	typedef enum {
	WMI_THIN_EVENTID_RESERVED_START = 0x8000,
	WMI_THIN_GET_MIB_EVENTID,
	WMI_THIN_JOIN_EVENTID,

	/* Add new THIN EVENTID's here */
	WMI_THIN_EVENTID_RESERVED_END = 0x8fff
	} WMI_THIN_EVENT_ID;

	/* Possible values for WMI_THIN_JOIN_EVENT.result */
	typedef enum {
	WMI_THIN_JOIN_RES_SUCCESS = 0, // device has joined the network
	WMI_THIN_JOIN_RES_FAIL, // device failed for unspecified reason
	WMI_THIN_JOIN_RES_TIMEOUT, // device failed due to no beacon rx in time limit
	WMI_THIN_JOIN_RES_BAD_PARAM, // device failed due to bad cmd param.
	WMI_THIN_JOIN_RES_IBSS_START, // device started new IBSS network.
	}WMI_THIN_JOIN_RESULT;

	typedef PREPACK struct {
	A_UINT8 result; /* the result of the join cmd. one of WMI_THIN_JOIN_RESULT */
	A_UINT8 reserved[3]; /* alignment */
	} POSTPACK WMI_THIN_JOIN_EVENT;

	#ifdef __cplusplus
	}
	#endif

	#endif /* _WMI_THIN_H_ */