CORE/WDA/inc/legacy/wlan_qct_hal.h - platform/vendor/qcom-opensource/wlan/prima - Gitiles

 /*
  * Copyright (c) 2012-2014 The Linux Foundation. All rights reserved.
  *
  * Previously licensed under the ISC license by Qualcomm Atheros, Inc.
  *
  *
  * Permission to use, copy, modify, and/or distribute this software for
  * any purpose with or without fee is hereby granted, provided that the
  * above copyright notice and this permission notice appear in all
  * copies.
  *
  * THE SOFTWARE IS PROVIDED "AS IS" AND THE AUTHOR DISCLAIMS ALL
  * WARRANTIES WITH REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED
  * WARRANTIES OF MERCHANTABILITY AND FITNESS. IN NO EVENT SHALL THE
  * AUTHOR BE LIABLE FOR ANY SPECIAL, DIRECT, INDIRECT, OR CONSEQUENTIAL
  * DAMAGES OR ANY DAMAGES WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR
  * PROFITS, WHETHER IN AN ACTION OF CONTRACT, NEGLIGENCE OR OTHER
  * TORTIOUS ACTION, ARISING OUT OF OR IN CONNECTION WITH THE USE OR
  * PERFORMANCE OF THIS SOFTWARE.
  */

 /*
  * This file was originally distributed by Qualcomm Atheros, Inc.
  * under proprietary terms before Copyright ownership was assigned
  * to the Linux Foundation.
  */


 #ifndef WLAN_QCT_HAL_H
 #define WLAN_QCT_HAL_H
 #include "vos_status.h"
 #include "halTypes.h"
 #ifndef PALTYPES_H__


 /// unsigned 8-bit types
 #define tANI_U8        v_U8_t

 /// unsigned 16-bit types
 #define tANI_U16    v_U16_t

 /// unsigned 32-bit types
 #define tANI_U32    v_U32_t

 /// signed 8-bit types
 #define    tANI_S8        v_S7_t

 /// signed 16-bit types
 #define tANI_S16    v_S15_t

 /// signed 32-bit types
 #define tANI_S32    v_S31_t

 #define eHalStatus    VOS_STATUS

 #endif
 #define QWLAN_HAL_DXE0_MASTERID  5

 typedef struct sHalBdGeneric {
     /* 0x00 */
     // ENDIAN BEGIN
     tANI_U32 dpuRF : 8;
     tANI_U32 dpuSignature:3;     /* Signature on RA's DPU descriptor */
     tANI_U32 staSignature:3;
     tANI_U32 reserved : 14;
     tANI_U32 dpuNE : 1;
     tANI_U32 dpuNC : 1;
     tANI_U32 bdt : 2;                        /* BD type */
     // ENDIAN END

     /* 0x04 */
     // ENDIAN BEGIN
     tANI_U32 reserved1:32;
     // ENDIAN END


     /* 0x08 */
     // ENDIAN BEGIN
     tANI_U32 headPduIdx : 16;                /* Head PDU index */
     tANI_U32 tailPduIdx : 16;                /* Tail PDU index */
     // ENDIAN END

     /* 0x0c */
     // ENDIAN BEGIN
     tANI_U32 mpduHeaderLength : 8;           /* MPDU header length */
     tANI_U32 mpduHeaderOffset : 8;           /* MPDU header start offset */
     tANI_U32 mpduDataOffset : 9;             /* MPDU data start offset */
     tANI_U32 pduCount : 7;                   /* PDU count */
     // ENDIAN END

     /* 0x10 */
     // ENDIAN BEGIN
     tANI_U32 mpduLength : 16;                /* MPDU length */
     tANI_U32 reserved3:4;            /* DPU compression feedback */
     tANI_U32 tid : 4;                        /* Traffic identifier, tid */
     tANI_U32 rateIndex : 8;
     // ENDIAN END

     /* 0x14 */
     // ENDIAN BEGIN
     tANI_U32 dpuDescIdx : 8;
     tANI_U32 addr1Index : 8;  //A1 index after RxP binary search
     tANI_U32 addr2Index : 8;  //A2 index after RxP binary search
     tANI_U32 addr3Index : 8;  //A3 index after RxP binary search
     // ENDIAN END
 //}__ani_attr_packed __ani_attr_aligned_4 tHalBdGeneric, *tpHalBdGeneric;
 } tHalBdGeneric, *tpHalBdGeneric;


 /*
  * PDU without BD
  */

 typedef struct sHalPdu {
     tANI_U8 payload[124];
     tANI_U32 nextPduIdx;                     /* LSB 16 bits */
 //} __ani_attr_packed __ani_attr_aligned_4 tHalPdu, *tpHalPdu;
 } tHalPdu, *tpHalPdu;

 /* UAPSD parameters passed per AC to HAL from TL */
 typedef struct sUapsdInfo {
     tANI_U8  staidx;        // STA index
     tANI_U8  ac;            // Access Category
     tANI_U8  up;            // User Priority
     tANI_U32 srvInterval;   // Service Interval
     tANI_U32 susInterval;   // Suspend Interval
     tANI_U32 delayInterval; // Delay Interval
 } tUapsdInfo, tpUapsdInfo;

 #define HAL_TXBD_BDRATE_DEFAULT 0
 #define HAL_TXBD_BDRATE_FIRST   1
 #define HAL_TXBD_BDRATE_SECOND  2
 #define HAL_TXBD_BDRATE_THIRD   3

 #define HAL_FRAME_TYPE_MASK     0x30
 #define HAL_FRAME_TYPE_OFFSET   0x4
 #define HAL_FRAME_SUBTYPE_MASK  0x0F

 #define HAL_TXBD_BD_SSN_FILL_HOST             0
 #define HAL_TXBD_BD_SSN_FILL_DPU_NON_QOS    1
 #define HAL_TXBD_BD_SSN_FILL_DPU_QOS        2

 #define HAL_ACKPOLICY_ACK_REQUIRED        0
 #define HAL_ACKPOLICY_ACK_NOTREQUIRED    1

 #define HAL_BDRATE_BCDATA_FRAME            1
 #define HAL_BDRATE_BCMGMT_FRAME            2
 #define HAL_BDRATE_CTRL_FRAME            3

 /* Default values for FillTx BD */
 #define HAL_DEFAULT_UNICAST_ENABLED     1
 #define HAL_RMF_DISABLED                 0
 #define HAL_RMF_ENABLED                 1
 #define HAL_NO_ENCRYPTION_DISABLED        0
 #define HAL_NO_ENCRYPTION_ENABLED         1

 #define WLANHAL_RX_BD_ADDR3_SELF_IDX      0

 // Should not use tHalTxBd nor tHalRxBd. UMAC doesn't know these HAL structure.
 #define WLANHAL_TX_BD_HEADER_SIZE 40
 #define WLANHAL_RX_BD_HEADER_SIZE 76


 #define WLANHAL_RX_BD_HEADER_OFFSET       0

 #define WLANHAL_RX_BD_GET_MPDU_H_OFFSET( _pvBDHeader )   (((tpHalRxBd)_pvBDHeader)->mpduHeaderOffset)

 #define WLANHAL_RX_BD_GET_MPDU_D_OFFSET( _pvBDHeader )   (((tpHalRxBd)_pvBDHeader)->mpduDataOffset)

 #define WLANHAL_RX_BD_GET_MPDU_LEN( _pvBDHeader )        (((tpHalRxBd)_pvBDHeader)->mpduLength)

 #define WLANHAL_RX_BD_GET_MPDU_H_LEN( _pvBDHeader )      (((tpHalRxBd)_pvBDHeader)->mpduHeaderLength)

 #define WLANHAL_RX_BD_GET_FT( _pvBDHeader )        (((tpHalRxBd)_pvBDHeader)->ft)

 #define WLANHAL_RX_BD_GET_LLC( _pvBDHeader )        (((tpHalRxBd)_pvBDHeader)->llc)

 #define WLANHAL_RX_BD_GET_TID( _pvBDHeader )        (((tpHalRxBd)_pvBDHeader)->tid)

 #define WLANHAL_RX_BD_GET_ASF( _pvBDHeader )        (((tpHalRxBd)_pvBDHeader)->asf)

 #define WLANHAL_RX_BD_GET_AEF( _pvBDHeader )           (((tpHalRxBd)_pvBDHeader)->aef)

 #define WLANHAL_RX_BD_GET_LSF( _pvBDHeader )           (((tpHalRxBd)_pvBDHeader)->lsf)

 #define WLANHAL_RX_BD_GET_ESF( _pvBDHeader )           (((tpHalRxBd)_pvBDHeader)->esf)

 #define WLANHAL_RX_BD_GET_STA_ID( _pvBDHeader )     (((tpHalRxBd)_pvBDHeader)->addr2Index)
 #define WLANHAL_RX_BD_GET_ADDR3_IDX( _pvBDHeader )     (((tpHalRxBd)_pvBDHeader)->addr3Index)
 #define WLANHAL_RX_BD_GET_ADDR1_IDX( _pvBDHeader )     (((tpHalRxBd)_pvBDHeader)->addr1Index)

 #define WLANHAL_TX_BD_GET_TID( _pvBDHeader )           (((tpHalTxBd)_pvBDHeader)->tid)
 #define WLANHAL_TX_BD_GET_STA_ID( _pvBDHeader )    (((tpHalTxBd)_pvBDHeader)->staIndex)

 #define WLANHAL_RX_BD_GET_DPU_SIG( _pvBDHeader )   (((tpHalRxBd)_pvBDHeader)->dpuSignature)

 #define WLANHAL_FC_RX_BD_REPORT_CONTENT_SIZE        (2 * HAL_NUM_STA * sizeof(tANI_U8))   // size of fcSTATxQLen[HAL_NUM_STA]+fcSTACurTxRate[HAL_NUM_STA]
 #define WLANHAL_FC_TX_BD_HEADER_SIZE                sizeof(tHalFcTxBd)
 #define WLANHAL_RX_BD_GET_FC( _pvBDHeader )                      (((tpHalFcRxBd)_pvBDHeader)->fc)
 #define WLANHAL_RX_BD_GET_RX_TIME_STAMP( _pvBDHeader )           (((tpHalFcRxBd)_pvBDHeader)->mclkRxTimestamp)
 #define WLANHAL_RX_BD_GET_STA_VALID_MASK( _pvBDHeader )          (((tpHalFcRxBd)_pvBDHeader)->fcSTAValidMask)
 #define WLANHAL_RX_BD_GET_STA_PS_STATE( _pvBDHeader )            (((tpHalFcRxBd)_pvBDHeader)->fcSTAPwrSaveStateMask)
 #define WLANHAL_RX_BD_GET_STA_TH_IND( _pvBDHeader )              (((tpHalFcRxBd)_pvBDHeader)->fcSTAThreshIndMask)
 #define WLANHAL_RX_BD_GET_STA_TXQ_STATUS( _pvBDHeader )          (((tpHalFcRxBd)_pvBDHeader)->fcSTATxQStatus)
 #define WLANHAL_RX_BD_GET_STA_TXQ_LEN( _pvBDHeader, staIdx )     (((tpHalFcRxBd)_pvBDHeader)->fcSTATxQLen[staIdx])
 #define WLANHAL_RX_BD_GET_STA_CUR_TX_RATE( _pvBDHeader, staIdx ) (((tpHalFcRxBd)_pvBDHeader)->fcSTACurTxRate[staIdx])

 #define WLANHAL_TX_BD_GET_RMF(_pvBDHeader)          (((tpHalRxBd)_pvBDHeader)->rmf)

 #define WLANHAL_TX_BD_GET_UB(_pvBDHeader)           (((tpHalRxBd)_pvBDHeader)->ub)

 #define WLANHAL_RX_BD_GET_RMF(_pvBDHeader)          (((tpHalRxBd)_pvBDHeader)->rmf)

 #define WLANHAL_RX_BD_GET_UB(_pvBDHeader)           (((tpHalRxBd)_pvBDHeader)->ub)

 #define WLANHAL_RX_BD_GET_RATEINDEX(_pvBDHeader)    (((tpHalRxBd)_pvBDHeader)->rateIndex)

 #define WLANHAL_RX_BD_GET_TIMESTAMP(_pvBDHeader)    (((tpHalRxBd)_pvBDHeader)->mclkRxTimestamp)

 #define tHalFcRxBd       halFcRxBd_type
 #define tpHalFcRxBd      phalFcRxBd_type
 #define tHalFcTxBd       halFcTxBd_type
 #define tpHalFcTxBd      pHalFcTxBd_type
 #define tHalFcTxParams   tFcTxParams_type
 #define tHalFcRxParams   tFcRxParams_type
 #define tpHalFcTxParams  pFcTxParams_type
 #define tpHalFcRxParams  pFcRxParams_type

 /*------------ RSSI and SNR Information extraction -------------*/
 #define WLANHAL_RX_BD_GET_RSSI0( _pvBDHeader )  \
     (((((tpHalRxBd)_pvBDHeader)->phyStats0) >> 24) & 0xff)
 #define WLANHAL_RX_BD_GET_RSSI1( _pvBDHeader )  \
     (((((tpHalRxBd)_pvBDHeader)->phyStats0) >> 16) & 0xff)
 #define WLANHAL_RX_BD_GET_RSSI2( _pvBDHeader )  \
     (((((tpHalRxBd)_pvBDHeader)->phyStats0) >> 0) & 0xff)
 #define WLANHAL_RX_BD_GET_RSSI3( _pvBDHeader )  \
     ((((tpHalRxBd)_pvBDHeader)->phyStats0) & 0xff)

 // Get the average of the 4 values.
 #define WLANHAL_GET_RSSI_AVERAGE( _pvBDHeader ) \
     (((WLANHAL_RX_BD_GET_RSSI0(_pvBDHeader)) + \
     (WLANHAL_RX_BD_GET_RSSI1(_pvBDHeader)) + \
     (WLANHAL_RX_BD_GET_RSSI2(_pvBDHeader)) + \
     (WLANHAL_RX_BD_GET_RSSI3(_pvBDHeader))) / 4)

 // Get the SNR value from PHY Stats
 #define WLANHAL_RX_BD_GET_SNR( _pvBDHeader )    \
     (((((tpHalRxBd)_pvBDHeader)->phyStats1) >> 24) & 0xff)
 /*-----------------------------------------------------------------*/
 #define WLANHAL_RX_BD_GET_DPU_SIG( _pvBDHeader )   (((tpHalRxBd)_pvBDHeader)->dpuSignature)


 #define WLANHAL_TX_BD_SET_MPDU_DATA_OFFSET( _bd, _off )        (((tpHalTxBd)_bd)->mpduDataOffset = _off)

 #define WLANHAL_TX_BD_SET_MPDU_HEADER_OFFSET( _bd, _off )    (((tpHalTxBd)_bd)->mpduHeaderOffset = _off)

 #define WLANHAL_TX_BD_SET_MPDU_HEADER_LEN( _bd, _len )        (((tpHalTxBd)_bd)->mpduHeaderLength = _len)

 #define WLANHAL_TX_BD_SET_MPDU_LEN( _bd, _len )                (((tpHalTxBd)_bd)->mpduLength = _len)

 #define WLANHAL_RX_BD_GET_BA_OPCODE(_pvBDHeader)        (((tpHalRxBd)_pvBDHeader)->reorderOpcode)

 #define WLANHAL_RX_BD_GET_BA_FI(_pvBDHeader)            (((tpHalRxBd)_pvBDHeader)->reorderFwdIdx)

 #define WLANHAL_RX_BD_GET_BA_SI(_pvBDHeader)            (((tpHalRxBd)_pvBDHeader)->reorderSlotIdx)

 #define WLANHAL_RX_BD_GET_BA_CSN(_pvBDHeader)           (((tpHalRxBd)_pvBDHeader)->currentPktSeqNo)

 #define WLANHAL_RX_BD_GET_BA_ESN(_pvBDHeader)           (((tpHalRxBd)_pvBDHeader)->expectedPktSeqNo)

 #define WLANHAL_RX_BD_GET_RXP_FLAGS(_pvBDHeader)            (((tpHalRxBd)_pvBDHeader)->rxpFlags)

 #define WLANHAL_RX_BD_GET_TYPE_SUBTYPE(_pvBDHeader)            (((tpHalRxBd)_pvBDHeader)->frameTypeSubtype)
 #define WLANHAL_RX_BD_SET_TYPE_SUBTYPE( _bd, _typeSubtype )        (((tpHalRxBd)_bd)->frameTypeSubtype = _typeSubtype)


 #define WLANHAL_RX_BD_ASF_SET                1 /*The value of the field when set and pkt is AMSDU*/

 #define WLANHAL_RX_BD_FSF_SET               1

 #define WLANHAL_RX_BD_LSF_SET               1

 #define WLANHAL_RX_BD_AEF_SET               1


 #define WLANHAL_RX_BD_LLC_PRESENT            0 /*The value of the field when LLC is present*/

 #define WLANHAL_RX_BD_FT_DONE                  1 /* The value of the field when frame xtl was done*/

 /*DPU_FEEDBACK_WPI_UNPROTECTED macro defined in volansdefs.h which is not available
   for UMAC in prima so declared it here */
 #define DPU_FEEDBACK_WPI_UNPROTECTED 0x20
 #define WLANHAL_RX_IS_UNPROTECTED_WPI_FRAME(_pvBDHeader)  \
         (DPU_FEEDBACK_WPI_UNPROTECTED == ((WDI_RxBdType *)_pvBDHeader)->dpuFeedback)

 /*==========================================================================

   FUNCTION    WLANHAL_RxBD_GetFrameTypeSubType

   DESCRIPTION
     Called by TL to retrieve the type/subtype of the received frame.

   DEPENDENCIES
     TL should pass a valid RxBD buffer pointer.

   PARAMETERS

     IN
     pvBDHeader:    Void pointer to the RxBD buffer.
     usFrmCtrl:the frame ctrl of the 802.11 header

   RETURN VALUE
     A byte which contains both type and subtype info. LSB four bytes (b0 to b3)
     is subtype and b5-b6 is type info.

   SIDE EFFECTS

 ============================================================================*/

 tANI_U8 WLANHAL_RxBD_GetFrameTypeSubType(v_PVOID_t _pvBDHeader, tANI_U16 usFrmCtrl);


 #define HAL_TXCOMP_REQUESTED_MASK           0x1  //bit 0 for TxComp intr requested.
 #define HAL_USE_SELF_STA_REQUESTED_MASK     0x2  //bit 1 for STA overwrite with selfSta Requested.
 #define HAL_TX_NO_ENCRYPTION_MASK           0x4  //bit 2. If set, the frame is not to be encrypted
 #if defined(LIBRA_WAPI_SUPPORT)
 #define HAL_WAPI_STA_MASK            0x8  //bit 3. If set, this frame is for WAPI station
 #endif

 #define HAL_TRIGGER_ENABLED_AC_MASK         0x10 //bit 4 for data frames belonging to trigger enabled AC
 #define HAL_USE_NO_ACK_REQUESTED_MASK       0x20

 #define HAL_USE_BD_RATE2_FOR_MANAGEMENT_FRAME 0x40 // Bit 6 will be used to control BD rate for Management frames
 #define HAL_USE_PEER_STA_REQUESTED_MASK   0x80 //bit 7 will be used to control frames for p2p interface

 #ifdef FEATURE_WLAN_TDLS
 #define HAL_TDLS_PEER_STA_MASK              0x80 //bit 7 set for TDLS peer station
 #endif

 #define HAL_RELIABLE_MCAST_REQUESTED_MASK   0x100

 #define HAL_USE_BD_RATE_MASK                0x1000
 #define HAL_USE_FW_IN_TX_PATH               0x200 //bit 9 to send via WQ5
 /*==========================================================================

   FUNCTION    WLANHAL_FillTxBd

   DESCRIPTION
     Called by PE to register as a client for management frames delivery.

   DEPENDENCIES
     TL must be initialized before this API can be called.

   PARAMETERS

     IN
     pAdapter:       pointer to the global adapter context;a handle to TL's
                     control block can be extracted from its context
     vosFrmBuf:     pointer to a vOSS buffer containing the management
                     frame to be transmitted
     usFrmLen:       the length of the frame to be transmitted; information
                     is already included in the vOSS buffer
     wFrmType:       the type of the frame being transmitted
     tid:            tid used to transmit this frame
     pfnCompTxFunc:  function pointer to the transmit complete routine
     voosBDHeader:   pointer to the BD header
     txFlag:  can have appropriate bit setting as required

                 #define HAL_TXCOMP_REQUESTED_MASK           0x1  //bit 0 for TxComp intr requested.
                 #define HAL_USE_SELF_STA_REQUESTED_MASK    0x2  //bit 1 for STA overwrite with selfSta Requested.
                 #define HAL_TX_NO_ENCRYPTION_MASK           0x4  //bit 2. If set, the frame is not to be encrypted
 #if defined(FEATURE_WLAN_WAPI)
                 #define HAL_WAPI_STA_MASK            0x8  //bit 3. If set, this frame is for WAPI station
 #endif

     uTimestamp:     pkt timestamp


   RETURN VALUE
     The result code associated with performing the operation

   SIDE EFFECTS

 ============================================================================*/
 VOS_STATUS WLANHAL_FillTxBd(void *pAdapter, tANI_U8 typeSubtype, void *pDestMacAddr, void *pAddr2,
         tANI_U8* ptid, tANI_U8 disableFrmXtl, void *pTxBd, tANI_U32 txFlag, tANI_U32 timeStamp);

 VOS_STATUS WLANHAL_FillFcTxBd(void *pVosGCtx, void *pFcParams, void *pFcTxBd);
 /** To swap the report part of FC RxBD */
 void WLANHAL_SwapFcRxBd(tANI_U8 *pBd);

 /* To swap the data */
 void WLANHAL_Swap32Bytes(tANI_U8* pData, tANI_U32 size);

 /** To swap the RxBD */
 void WLANHAL_SwapRxBd(tANI_U8 *pBd);
 void WLANHAL_RxAmsduBdFix(void *pVosGCtx,v_PVOID_t _pvBDHeader);

 #ifdef WLAN_PERF
 tANI_U32 WLANHAL_TxBdFastFwd(void *pAdapter, tANI_U8 *pDestMac, tANI_U8 tid, tANI_U8 unicastDst,  void *pTxBd, tANI_U16);
 #endif

 VOS_STATUS WLANHAL_EnableUapsdAcParams(void* pVosGCtx, tANI_U8 staIdx, tUapsdInfo *pUapsdInfo);
 VOS_STATUS WLANHAL_DisableUapsdAcParams(void* pVosGCtx, tANI_U8 staIdx, tANI_U8 ac);

 VOS_STATUS WLANHAL_EnableIdleBdPduInterrupt(void* pVosGCtx, tANI_U8 idleBdPduThreshold);

 #ifdef FEATURE_ON_CHIP_REORDERING
 tANI_U8 WLANHAL_IsOnChipReorderingEnabledForTID(void* pVosGCtx, tANI_U8 staIdx, tANI_U8 tid);
 #endif

 #ifdef WLAN_SOFTAP_VSTA_FEATURE
 v_BOOL_t WLANHAL_IsHwFrameTxTranslationCapable(v_PVOID_t pVosGCtx, tANI_U8 staIdx);
 #endif

 #define tHalRxBd    halRxBd_type
 #define tpHalRxBd    phalRxBd_type

 #define tHalTxBd    halTxBd_type
 #define tpHalTxBd    pHalTxBd_type

 #ifdef BA_PARAM_STRUCTURE
 #else
 #define BA_PARAM_STRUCTURE
 //
 // HAL --> TL
 // Messages indicating the setup and/or teardown of
 // A-MPDU/BA sessions with a given peer HT MAC entity
 //

 //
 // A data structure identifying all of the variables
 // in a typical A-MPDU/BA setup
 //
 typedef struct sBAParams
 {

   // A unique BA Session ID that has been assigned by HAL
   // for the curent BA Session
   tANI_U16 baSessionID;

   // TID for which the BA session has been setup
   tANI_U8 baTID;

   // BA Buffer Size allocated for the current BA session   //Should be deleted. needs TL change. use winSize instead
   tANI_U8 baBufferSize;

   tANI_U16 SSN;
   tANI_U8 winSize;
   tANI_U8 STAID;

 } tBAParams, *tpBAParams;

 //
 // TL -> HAL
 // tSirMsgQ.type = SIR_HAL_HDD_ADDBA_RSP
 //
 typedef struct sAddBARsp
 {
   // Message Type
   tANI_U16 mesgType;

   // Message Length
   tANI_U16 mesgLen;

   //BA session ID
   tANI_U16 baSessionID;

   tANI_U16 replyWinSize;
 }tAddBARsp, *tpAddBARsp;

 //
 // HAL -> TL
 // tSirMsgQ.type = SIR_HAL_ADDBA_IND
 // tSirMsgQ.reserved = 0
 // tSirMsgQ.body = "allocated" instance of tpAddBAInd
 //
 typedef struct sAddBAInd
 {

   // Message Type
   tANI_U16 mesgType;

   // Message Length
   tANI_U16 mesgLen;

   tBAParams baSession;

 } tAddBAInd, *tpAddBAInd;

 //
 // HAL -> TL
 // tSirMsgQ.type = SIR_HAL_DELBA_IND
 // tSirMsgQ.reserved = 0
 // tSirMsgQ.body = "allocated" instance of tpDelBAInd
 //
 // TL -> HAL
 // tSirMsgQ.type = SIR_HAL_BA_FAIL_IND
 // tSirMsgQ.reserved = 0
 // tSirMsgQ.body = "allocated" instance of tpDelBAInd
 //
 typedef struct sDelBAInd
 {
   tANI_U8 staIdx;

   tANI_U8 baTID;
   // Message Type
   tANI_U16 mesgType;

   // Message Length
   tANI_U16 mesgLen;

 } tDelBAInd, *tpDelBAInd;
 #endif

 /*===============================================
  *
  *  TL <-> HAL structures
  *
  *===============================================
  */
 //
 // TL -> HAL
 // tSirMsgQ.type = SIR_HAL_TL_FLUSH_AC_REQ
 //
 typedef struct sFlushACReq
 {
     // Message Type
     tANI_U16 mesgType;

     // Message Length
     tANI_U16 mesgLen;

     // Station Index. originates from HAL
     tANI_U8  ucSTAId;

     // TID for which the transmit queue is being flushed
     tANI_U8   ucTid;

 } tFlushACReq, *tpFlushACReq;

 //
 //
 // HAL -> TL
 // tSirMsgQ.type = SIR_HAL_TL_FLUSH_AC_RSP
 //
 typedef struct sFlushACRsp
 {
     // Message Type
     tANI_U16 mesgType;

     // Message Length
     tANI_U16 mesgLen;

     // Station Index. originates from HAL
     tANI_U8  ucSTAId;

     // TID for which the transmit queue is being flushed
     tANI_U8   ucTid;

     // status of the Flush operation
     tANI_U8 status;
 } tFlushACRsp, *tpFlushACRsp;

 #endif
	/*
	* Copyright (c) 2012-2014 The Linux Foundation. All rights reserved.
	*
	* Previously licensed under the ISC license by Qualcomm Atheros, Inc.
	*
	*
	* Permission to use, copy, modify, and/or distribute this software for
	* any purpose with or without fee is hereby granted, provided that the
	* above copyright notice and this permission notice appear in all
	* copies.
	*
	* THE SOFTWARE IS PROVIDED "AS IS" AND THE AUTHOR DISCLAIMS ALL
	* WARRANTIES WITH REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED
	* WARRANTIES OF MERCHANTABILITY AND FITNESS. IN NO EVENT SHALL THE
	* AUTHOR BE LIABLE FOR ANY SPECIAL, DIRECT, INDIRECT, OR CONSEQUENTIAL
	* DAMAGES OR ANY DAMAGES WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR
	* PROFITS, WHETHER IN AN ACTION OF CONTRACT, NEGLIGENCE OR OTHER
	* TORTIOUS ACTION, ARISING OUT OF OR IN CONNECTION WITH THE USE OR
	* PERFORMANCE OF THIS SOFTWARE.
	*/

	/*
	* This file was originally distributed by Qualcomm Atheros, Inc.
	* under proprietary terms before Copyright ownership was assigned
	* to the Linux Foundation.
	*/




	#ifndef WLAN_QCT_HAL_H
	#define WLAN_QCT_HAL_H
	#include "vos_status.h"
	#include "halTypes.h"
	#ifndef PALTYPES_H__


	/// unsigned 8-bit types
	#define tANI_U8 v_U8_t

	/// unsigned 16-bit types
	#define tANI_U16 v_U16_t

	/// unsigned 32-bit types
	#define tANI_U32 v_U32_t

	/// signed 8-bit types
	#define tANI_S8 v_S7_t

	/// signed 16-bit types
	#define tANI_S16 v_S15_t

	/// signed 32-bit types
	#define tANI_S32 v_S31_t

	#define eHalStatus VOS_STATUS

	#endif
	#define QWLAN_HAL_DXE0_MASTERID 5

	typedef struct sHalBdGeneric {
	/* 0x00 */
	// ENDIAN BEGIN
	tANI_U32 dpuRF : 8;
	tANI_U32 dpuSignature:3; /* Signature on RA's DPU descriptor */
	tANI_U32 staSignature:3;
	tANI_U32 reserved : 14;
	tANI_U32 dpuNE : 1;
	tANI_U32 dpuNC : 1;
	tANI_U32 bdt : 2; /* BD type */
	// ENDIAN END

	/* 0x04 */
	// ENDIAN BEGIN
	tANI_U32 reserved1:32;
	// ENDIAN END


	/* 0x08 */
	// ENDIAN BEGIN
	tANI_U32 headPduIdx : 16; /* Head PDU index */
	tANI_U32 tailPduIdx : 16; /* Tail PDU index */
	// ENDIAN END

	/* 0x0c */
	// ENDIAN BEGIN
	tANI_U32 mpduHeaderLength : 8; /* MPDU header length */
	tANI_U32 mpduHeaderOffset : 8; /* MPDU header start offset */
	tANI_U32 mpduDataOffset : 9; /* MPDU data start offset */
	tANI_U32 pduCount : 7; /* PDU count */
	// ENDIAN END

	/* 0x10 */
	// ENDIAN BEGIN
	tANI_U32 mpduLength : 16; /* MPDU length */
	tANI_U32 reserved3:4; /* DPU compression feedback */
	tANI_U32 tid : 4; /* Traffic identifier, tid */
	tANI_U32 rateIndex : 8;
	// ENDIAN END

	/* 0x14 */
	// ENDIAN BEGIN
	tANI_U32 dpuDescIdx : 8;
	tANI_U32 addr1Index : 8; //A1 index after RxP binary search
	tANI_U32 addr2Index : 8; //A2 index after RxP binary search
	tANI_U32 addr3Index : 8; //A3 index after RxP binary search
	// ENDIAN END
	//}__ani_attr_packed __ani_attr_aligned_4 tHalBdGeneric, *tpHalBdGeneric;
	} tHalBdGeneric, *tpHalBdGeneric;


	/*
	* PDU without BD
	*/

	typedef struct sHalPdu {
	tANI_U8 payload[124];
	tANI_U32 nextPduIdx; /* LSB 16 bits */
	//} __ani_attr_packed __ani_attr_aligned_4 tHalPdu, *tpHalPdu;
	} tHalPdu, *tpHalPdu;

	/* UAPSD parameters passed per AC to HAL from TL */
	typedef struct sUapsdInfo {
	tANI_U8 staidx; // STA index
	tANI_U8 ac; // Access Category
	tANI_U8 up; // User Priority
	tANI_U32 srvInterval; // Service Interval
	tANI_U32 susInterval; // Suspend Interval
	tANI_U32 delayInterval; // Delay Interval
	} tUapsdInfo, tpUapsdInfo;

	#define HAL_TXBD_BDRATE_DEFAULT 0
	#define HAL_TXBD_BDRATE_FIRST 1
	#define HAL_TXBD_BDRATE_SECOND 2
	#define HAL_TXBD_BDRATE_THIRD 3

	#define HAL_FRAME_TYPE_MASK 0x30
	#define HAL_FRAME_TYPE_OFFSET 0x4
	#define HAL_FRAME_SUBTYPE_MASK 0x0F

	#define HAL_TXBD_BD_SSN_FILL_HOST 0
	#define HAL_TXBD_BD_SSN_FILL_DPU_NON_QOS 1
	#define HAL_TXBD_BD_SSN_FILL_DPU_QOS 2

	#define HAL_ACKPOLICY_ACK_REQUIRED 0
	#define HAL_ACKPOLICY_ACK_NOTREQUIRED 1

	#define HAL_BDRATE_BCDATA_FRAME 1
	#define HAL_BDRATE_BCMGMT_FRAME 2
	#define HAL_BDRATE_CTRL_FRAME 3

	/* Default values for FillTx BD */
	#define HAL_DEFAULT_UNICAST_ENABLED 1
	#define HAL_RMF_DISABLED 0
	#define HAL_RMF_ENABLED 1
	#define HAL_NO_ENCRYPTION_DISABLED 0
	#define HAL_NO_ENCRYPTION_ENABLED 1

	#define WLANHAL_RX_BD_ADDR3_SELF_IDX 0

	// Should not use tHalTxBd nor tHalRxBd. UMAC doesn't know these HAL structure.
	#define WLANHAL_TX_BD_HEADER_SIZE 40
	#define WLANHAL_RX_BD_HEADER_SIZE 76


	#define WLANHAL_RX_BD_HEADER_OFFSET 0

	#define WLANHAL_RX_BD_GET_MPDU_H_OFFSET( _pvBDHeader ) (((tpHalRxBd)_pvBDHeader)->mpduHeaderOffset)

	#define WLANHAL_RX_BD_GET_MPDU_D_OFFSET( _pvBDHeader ) (((tpHalRxBd)_pvBDHeader)->mpduDataOffset)

	#define WLANHAL_RX_BD_GET_MPDU_LEN( _pvBDHeader ) (((tpHalRxBd)_pvBDHeader)->mpduLength)

	#define WLANHAL_RX_BD_GET_MPDU_H_LEN( _pvBDHeader ) (((tpHalRxBd)_pvBDHeader)->mpduHeaderLength)

	#define WLANHAL_RX_BD_GET_FT( _pvBDHeader ) (((tpHalRxBd)_pvBDHeader)->ft)

	#define WLANHAL_RX_BD_GET_LLC( _pvBDHeader ) (((tpHalRxBd)_pvBDHeader)->llc)

	#define WLANHAL_RX_BD_GET_TID( _pvBDHeader ) (((tpHalRxBd)_pvBDHeader)->tid)

	#define WLANHAL_RX_BD_GET_ASF( _pvBDHeader ) (((tpHalRxBd)_pvBDHeader)->asf)

	#define WLANHAL_RX_BD_GET_AEF( _pvBDHeader ) (((tpHalRxBd)_pvBDHeader)->aef)

	#define WLANHAL_RX_BD_GET_LSF( _pvBDHeader ) (((tpHalRxBd)_pvBDHeader)->lsf)

	#define WLANHAL_RX_BD_GET_ESF( _pvBDHeader ) (((tpHalRxBd)_pvBDHeader)->esf)

	#define WLANHAL_RX_BD_GET_STA_ID( _pvBDHeader ) (((tpHalRxBd)_pvBDHeader)->addr2Index)
	#define WLANHAL_RX_BD_GET_ADDR3_IDX( _pvBDHeader ) (((tpHalRxBd)_pvBDHeader)->addr3Index)
	#define WLANHAL_RX_BD_GET_ADDR1_IDX( _pvBDHeader ) (((tpHalRxBd)_pvBDHeader)->addr1Index)

	#define WLANHAL_TX_BD_GET_TID( _pvBDHeader ) (((tpHalTxBd)_pvBDHeader)->tid)
	#define WLANHAL_TX_BD_GET_STA_ID( _pvBDHeader ) (((tpHalTxBd)_pvBDHeader)->staIndex)

	#define WLANHAL_RX_BD_GET_DPU_SIG( _pvBDHeader ) (((tpHalRxBd)_pvBDHeader)->dpuSignature)

	#define WLANHAL_FC_RX_BD_REPORT_CONTENT_SIZE (2 * HAL_NUM_STA * sizeof(tANI_U8)) // size of fcSTATxQLen[HAL_NUM_STA]+fcSTACurTxRate[HAL_NUM_STA]
	#define WLANHAL_FC_TX_BD_HEADER_SIZE sizeof(tHalFcTxBd)
	#define WLANHAL_RX_BD_GET_FC( _pvBDHeader ) (((tpHalFcRxBd)_pvBDHeader)->fc)
	#define WLANHAL_RX_BD_GET_RX_TIME_STAMP( _pvBDHeader ) (((tpHalFcRxBd)_pvBDHeader)->mclkRxTimestamp)
	#define WLANHAL_RX_BD_GET_STA_VALID_MASK( _pvBDHeader ) (((tpHalFcRxBd)_pvBDHeader)->fcSTAValidMask)
	#define WLANHAL_RX_BD_GET_STA_PS_STATE( _pvBDHeader ) (((tpHalFcRxBd)_pvBDHeader)->fcSTAPwrSaveStateMask)
	#define WLANHAL_RX_BD_GET_STA_TH_IND( _pvBDHeader ) (((tpHalFcRxBd)_pvBDHeader)->fcSTAThreshIndMask)
	#define WLANHAL_RX_BD_GET_STA_TXQ_STATUS( _pvBDHeader ) (((tpHalFcRxBd)_pvBDHeader)->fcSTATxQStatus)
	#define WLANHAL_RX_BD_GET_STA_TXQ_LEN( _pvBDHeader, staIdx ) (((tpHalFcRxBd)_pvBDHeader)->fcSTATxQLen[staIdx])
	#define WLANHAL_RX_BD_GET_STA_CUR_TX_RATE( _pvBDHeader, staIdx ) (((tpHalFcRxBd)_pvBDHeader)->fcSTACurTxRate[staIdx])

	#define WLANHAL_TX_BD_GET_RMF(_pvBDHeader) (((tpHalRxBd)_pvBDHeader)->rmf)

	#define WLANHAL_TX_BD_GET_UB(_pvBDHeader) (((tpHalRxBd)_pvBDHeader)->ub)

	#define WLANHAL_RX_BD_GET_RMF(_pvBDHeader) (((tpHalRxBd)_pvBDHeader)->rmf)

	#define WLANHAL_RX_BD_GET_UB(_pvBDHeader) (((tpHalRxBd)_pvBDHeader)->ub)

	#define WLANHAL_RX_BD_GET_RATEINDEX(_pvBDHeader) (((tpHalRxBd)_pvBDHeader)->rateIndex)

	#define WLANHAL_RX_BD_GET_TIMESTAMP(_pvBDHeader) (((tpHalRxBd)_pvBDHeader)->mclkRxTimestamp)

	#define tHalFcRxBd halFcRxBd_type
	#define tpHalFcRxBd phalFcRxBd_type
	#define tHalFcTxBd halFcTxBd_type
	#define tpHalFcTxBd pHalFcTxBd_type
	#define tHalFcTxParams tFcTxParams_type
	#define tHalFcRxParams tFcRxParams_type
	#define tpHalFcTxParams pFcTxParams_type
	#define tpHalFcRxParams pFcRxParams_type

	/------------ RSSI and SNR Information extraction -------------/
	#define WLANHAL_RX_BD_GET_RSSI0( _pvBDHeader ) \
	(((((tpHalRxBd)_pvBDHeader)->phyStats0) >> 24) & 0xff)
	#define WLANHAL_RX_BD_GET_RSSI1( _pvBDHeader ) \
	(((((tpHalRxBd)_pvBDHeader)->phyStats0) >> 16) & 0xff)
	#define WLANHAL_RX_BD_GET_RSSI2( _pvBDHeader ) \
	(((((tpHalRxBd)_pvBDHeader)->phyStats0) >> 0) & 0xff)
	#define WLANHAL_RX_BD_GET_RSSI3( _pvBDHeader ) \
	((((tpHalRxBd)_pvBDHeader)->phyStats0) & 0xff)

	// Get the average of the 4 values.
	#define WLANHAL_GET_RSSI_AVERAGE( _pvBDHeader ) \
	(((WLANHAL_RX_BD_GET_RSSI0(_pvBDHeader)) + \
	(WLANHAL_RX_BD_GET_RSSI1(_pvBDHeader)) + \
	(WLANHAL_RX_BD_GET_RSSI2(_pvBDHeader)) + \
	(WLANHAL_RX_BD_GET_RSSI3(_pvBDHeader))) / 4)

	// Get the SNR value from PHY Stats
	#define WLANHAL_RX_BD_GET_SNR( _pvBDHeader ) \
	(((((tpHalRxBd)_pvBDHeader)->phyStats1) >> 24) & 0xff)
	/-----------------------------------------------------------------/
	#define WLANHAL_RX_BD_GET_DPU_SIG( _pvBDHeader ) (((tpHalRxBd)_pvBDHeader)->dpuSignature)


	#define WLANHAL_TX_BD_SET_MPDU_DATA_OFFSET( _bd, _off ) (((tpHalTxBd)_bd)->mpduDataOffset = _off)

	#define WLANHAL_TX_BD_SET_MPDU_HEADER_OFFSET( _bd, _off ) (((tpHalTxBd)_bd)->mpduHeaderOffset = _off)

	#define WLANHAL_TX_BD_SET_MPDU_HEADER_LEN( _bd, _len ) (((tpHalTxBd)_bd)->mpduHeaderLength = _len)

	#define WLANHAL_TX_BD_SET_MPDU_LEN( _bd, _len ) (((tpHalTxBd)_bd)->mpduLength = _len)

	#define WLANHAL_RX_BD_GET_BA_OPCODE(_pvBDHeader) (((tpHalRxBd)_pvBDHeader)->reorderOpcode)

	#define WLANHAL_RX_BD_GET_BA_FI(_pvBDHeader) (((tpHalRxBd)_pvBDHeader)->reorderFwdIdx)

	#define WLANHAL_RX_BD_GET_BA_SI(_pvBDHeader) (((tpHalRxBd)_pvBDHeader)->reorderSlotIdx)

	#define WLANHAL_RX_BD_GET_BA_CSN(_pvBDHeader) (((tpHalRxBd)_pvBDHeader)->currentPktSeqNo)

	#define WLANHAL_RX_BD_GET_BA_ESN(_pvBDHeader) (((tpHalRxBd)_pvBDHeader)->expectedPktSeqNo)

	#define WLANHAL_RX_BD_GET_RXP_FLAGS(_pvBDHeader) (((tpHalRxBd)_pvBDHeader)->rxpFlags)

	#define WLANHAL_RX_BD_GET_TYPE_SUBTYPE(_pvBDHeader) (((tpHalRxBd)_pvBDHeader)->frameTypeSubtype)
	#define WLANHAL_RX_BD_SET_TYPE_SUBTYPE( _bd, _typeSubtype ) (((tpHalRxBd)_bd)->frameTypeSubtype = _typeSubtype)


	#define WLANHAL_RX_BD_ASF_SET 1 /The value of the field when set and pkt is AMSDU/

	#define WLANHAL_RX_BD_FSF_SET 1

	#define WLANHAL_RX_BD_LSF_SET 1

	#define WLANHAL_RX_BD_AEF_SET 1


	#define WLANHAL_RX_BD_LLC_PRESENT 0 /The value of the field when LLC is present/

	#define WLANHAL_RX_BD_FT_DONE 1 /* The value of the field when frame xtl was done*/

	/*DPU_FEEDBACK_WPI_UNPROTECTED macro defined in volansdefs.h which is not available
	for UMAC in prima so declared it here */
	#define DPU_FEEDBACK_WPI_UNPROTECTED 0x20
	#define WLANHAL_RX_IS_UNPROTECTED_WPI_FRAME(_pvBDHeader) \
	(DPU_FEEDBACK_WPI_UNPROTECTED == ((WDI_RxBdType *)_pvBDHeader)->dpuFeedback)

	/*==========================================================================

	FUNCTION WLANHAL_RxBD_GetFrameTypeSubType

	DESCRIPTION
	Called by TL to retrieve the type/subtype of the received frame.

	DEPENDENCIES
	TL should pass a valid RxBD buffer pointer.

	PARAMETERS

	IN
	pvBDHeader: Void pointer to the RxBD buffer.
	usFrmCtrl:the frame ctrl of the 802.11 header

	RETURN VALUE
	A byte which contains both type and subtype info. LSB four bytes (b0 to b3)
	is subtype and b5-b6 is type info.

	SIDE EFFECTS

	============================================================================*/

	tANI_U8 WLANHAL_RxBD_GetFrameTypeSubType(v_PVOID_t _pvBDHeader, tANI_U16 usFrmCtrl);


	#define HAL_TXCOMP_REQUESTED_MASK 0x1 //bit 0 for TxComp intr requested.
	#define HAL_USE_SELF_STA_REQUESTED_MASK 0x2 //bit 1 for STA overwrite with selfSta Requested.
	#define HAL_TX_NO_ENCRYPTION_MASK 0x4 //bit 2. If set, the frame is not to be encrypted
	#if defined(LIBRA_WAPI_SUPPORT)
	#define HAL_WAPI_STA_MASK 0x8 //bit 3. If set, this frame is for WAPI station
	#endif

	#define HAL_TRIGGER_ENABLED_AC_MASK 0x10 //bit 4 for data frames belonging to trigger enabled AC
	#define HAL_USE_NO_ACK_REQUESTED_MASK 0x20

	#define HAL_USE_BD_RATE2_FOR_MANAGEMENT_FRAME 0x40 // Bit 6 will be used to control BD rate for Management frames
	#define HAL_USE_PEER_STA_REQUESTED_MASK 0x80 //bit 7 will be used to control frames for p2p interface

	#ifdef FEATURE_WLAN_TDLS
	#define HAL_TDLS_PEER_STA_MASK 0x80 //bit 7 set for TDLS peer station
	#endif

	#define HAL_RELIABLE_MCAST_REQUESTED_MASK 0x100

	#define HAL_USE_BD_RATE_MASK 0x1000
	#define HAL_USE_FW_IN_TX_PATH 0x200 //bit 9 to send via WQ5
	/*==========================================================================

	FUNCTION WLANHAL_FillTxBd

	DESCRIPTION
	Called by PE to register as a client for management frames delivery.

	DEPENDENCIES
	TL must be initialized before this API can be called.

	PARAMETERS

	IN
	pAdapter: pointer to the global adapter context;a handle to TL's
	control block can be extracted from its context
	vosFrmBuf: pointer to a vOSS buffer containing the management
	frame to be transmitted
	usFrmLen: the length of the frame to be transmitted; information
	is already included in the vOSS buffer
	wFrmType: the type of the frame being transmitted
	tid: tid used to transmit this frame
	pfnCompTxFunc: function pointer to the transmit complete routine
	voosBDHeader: pointer to the BD header
	txFlag: can have appropriate bit setting as required

	#define HAL_TXCOMP_REQUESTED_MASK 0x1 //bit 0 for TxComp intr requested.
	#define HAL_USE_SELF_STA_REQUESTED_MASK 0x2 //bit 1 for STA overwrite with selfSta Requested.
	#define HAL_TX_NO_ENCRYPTION_MASK 0x4 //bit 2. If set, the frame is not to be encrypted
	#if defined(FEATURE_WLAN_WAPI)
	#define HAL_WAPI_STA_MASK 0x8 //bit 3. If set, this frame is for WAPI station
	#endif

	uTimestamp: pkt timestamp


	RETURN VALUE
	The result code associated with performing the operation

	SIDE EFFECTS

	============================================================================*/
	VOS_STATUS WLANHAL_FillTxBd(void pAdapter, tANI_U8 typeSubtype, void pDestMacAddr, void *pAddr2,
	tANI_U8* ptid, tANI_U8 disableFrmXtl, void *pTxBd, tANI_U32 txFlag, tANI_U32 timeStamp);

	VOS_STATUS WLANHAL_FillFcTxBd(void pVosGCtx, void pFcParams, void *pFcTxBd);
	/** To swap the report part of FC RxBD */
	void WLANHAL_SwapFcRxBd(tANI_U8 *pBd);

	/* To swap the data */
	void WLANHAL_Swap32Bytes(tANI_U8* pData, tANI_U32 size);

	/** To swap the RxBD */
	void WLANHAL_SwapRxBd(tANI_U8 *pBd);
	void WLANHAL_RxAmsduBdFix(void *pVosGCtx,v_PVOID_t _pvBDHeader);

	#ifdef WLAN_PERF
	tANI_U32 WLANHAL_TxBdFastFwd(void pAdapter, tANI_U8 pDestMac, tANI_U8 tid, tANI_U8 unicastDst, void *pTxBd, tANI_U16);
	#endif

	VOS_STATUS WLANHAL_EnableUapsdAcParams(void* pVosGCtx, tANI_U8 staIdx, tUapsdInfo *pUapsdInfo);
	VOS_STATUS WLANHAL_DisableUapsdAcParams(void* pVosGCtx, tANI_U8 staIdx, tANI_U8 ac);

	VOS_STATUS WLANHAL_EnableIdleBdPduInterrupt(void* pVosGCtx, tANI_U8 idleBdPduThreshold);

	#ifdef FEATURE_ON_CHIP_REORDERING
	tANI_U8 WLANHAL_IsOnChipReorderingEnabledForTID(void* pVosGCtx, tANI_U8 staIdx, tANI_U8 tid);
	#endif

	#ifdef WLAN_SOFTAP_VSTA_FEATURE
	v_BOOL_t WLANHAL_IsHwFrameTxTranslationCapable(v_PVOID_t pVosGCtx, tANI_U8 staIdx);
	#endif

	#define tHalRxBd halRxBd_type
	#define tpHalRxBd phalRxBd_type

	#define tHalTxBd halTxBd_type
	#define tpHalTxBd pHalTxBd_type

	#ifdef BA_PARAM_STRUCTURE
	#else
	#define BA_PARAM_STRUCTURE
	//
	// HAL --> TL
	// Messages indicating the setup and/or teardown of
	// A-MPDU/BA sessions with a given peer HT MAC entity
	//

	//
	// A data structure identifying all of the variables
	// in a typical A-MPDU/BA setup
	//
	typedef struct sBAParams
	{

	// A unique BA Session ID that has been assigned by HAL
	// for the curent BA Session
	tANI_U16 baSessionID;

	// TID for which the BA session has been setup
	tANI_U8 baTID;

	// BA Buffer Size allocated for the current BA session //Should be deleted. needs TL change. use winSize instead
	tANI_U8 baBufferSize;

	tANI_U16 SSN;
	tANI_U8 winSize;
	tANI_U8 STAID;

	} tBAParams, *tpBAParams;

	//
	// TL -> HAL
	// tSirMsgQ.type = SIR_HAL_HDD_ADDBA_RSP
	//
	typedef struct sAddBARsp
	{
	// Message Type
	tANI_U16 mesgType;

	// Message Length
	tANI_U16 mesgLen;

	//BA session ID
	tANI_U16 baSessionID;

	tANI_U16 replyWinSize;
	}tAddBARsp, *tpAddBARsp;

	//
	// HAL -> TL
	// tSirMsgQ.type = SIR_HAL_ADDBA_IND
	// tSirMsgQ.reserved = 0
	// tSirMsgQ.body = "allocated" instance of tpAddBAInd
	//
	typedef struct sAddBAInd
	{

	// Message Type
	tANI_U16 mesgType;

	// Message Length
	tANI_U16 mesgLen;

	tBAParams baSession;

	} tAddBAInd, *tpAddBAInd;

	//
	// HAL -> TL
	// tSirMsgQ.type = SIR_HAL_DELBA_IND
	// tSirMsgQ.reserved = 0
	// tSirMsgQ.body = "allocated" instance of tpDelBAInd
	//
	// TL -> HAL
	// tSirMsgQ.type = SIR_HAL_BA_FAIL_IND
	// tSirMsgQ.reserved = 0
	// tSirMsgQ.body = "allocated" instance of tpDelBAInd
	//
	typedef struct sDelBAInd
	{
	tANI_U8 staIdx;

	tANI_U8 baTID;
	// Message Type
	tANI_U16 mesgType;

	// Message Length
	tANI_U16 mesgLen;

	} tDelBAInd, *tpDelBAInd;
	#endif

	/*===============================================
	*
	* TL <-> HAL structures
	*
	*===============================================
	*/
	//
	// TL -> HAL
	// tSirMsgQ.type = SIR_HAL_TL_FLUSH_AC_REQ
	//
	typedef struct sFlushACReq
	{
	// Message Type
	tANI_U16 mesgType;

	// Message Length
	tANI_U16 mesgLen;

	// Station Index. originates from HAL
	tANI_U8 ucSTAId;

	// TID for which the transmit queue is being flushed
	tANI_U8 ucTid;

	} tFlushACReq, *tpFlushACReq;

	//
	//
	// HAL -> TL
	// tSirMsgQ.type = SIR_HAL_TL_FLUSH_AC_RSP
	//
	typedef struct sFlushACRsp
	{
	// Message Type
	tANI_U16 mesgType;

	// Message Length
	tANI_U16 mesgLen;

	// Station Index. originates from HAL
	tANI_U8 ucSTAId;

	// TID for which the transmit queue is being flushed
	tANI_U8 ucTid;

	// status of the Flush operation
	tANI_U8 status;
	} tFlushACRsp, *tpFlushACRsp;

	#endif