Merge tag 'for-v3.13/clock-fixes-a' of git://git.kernel.org/pub/scm/linux/kernel...

[cascardo/linux.git] / drivers / staging / wlags49_h2 / hcf.h

#ifndef HCF_H
#define HCF_H 1

/************************************************************************************************************
*
* FILE   : hcf.h
*
* DATE   : $Date: 2004/08/05 11:47:10 $   $Revision: 1.7 $
* Original: 2004/05/19 07:26:01    Revision: 1.56      Tag: hcf7_t20040602_01
* Original: 2004/05/12 08:47:23    Revision: 1.53      Tag: hcf7_t7_20040513_01
* Original: 2004/04/15 09:24:42    Revision: 1.46      Tag: hcf7_t7_20040415_01
* Original: 2004/04/08 15:18:16    Revision: 1.45      Tag: t7_20040413_01
* Original: 2004/04/01 15:32:55    Revision: 1.43      Tag: t7_20040401_01
* Original: 2004/03/10 15:39:28    Revision: 1.39      Tag: t20040310_01
* Original: 2004/03/04 11:03:38    Revision: 1.37      Tag: t20040304_01
* Original: 2004/03/02 14:51:21    Revision: 1.35      Tag: t20040302_03
* Original: 2004/02/24 13:00:28    Revision: 1.28      Tag: t20040224_01
* Original: 2004/02/09 14:50:14    Revision: 1.26      Tag: t20040219_01
*
* AUTHOR : Nico Valster
*
* SPECIFICATION: ..........
*
* DESC   : Definitions and Prototypes for MSF as well as HCF sources
*
*                  Customizable via HCFCFG.H
*
*
**************************************************************************************************************

**************************************************************************************************************
*
*
* SOFTWARE LICENSE
*
* This software is provided subject to the following terms and conditions,
* which you should read carefully before using the software.  Using this
* software indicates your acceptance of these terms and conditions.  If you do
* not agree with these terms and conditions, do not use the software.
*
* COPYRIGHT © 1994 - 1995      by AT&T.                                All Rights Reserved
* COPYRIGHT © 1996 - 2000 by Lucent Technologies.      All Rights Reserved
* COPYRIGHT © 2001 - 2004      by Agere Systems Inc.   All Rights Reserved
* All rights reserved.
*
* Redistribution and use in source or binary forms, with or without
* modifications, are permitted provided that the following conditions are met:
*
* . Redistributions of source code must retain the above copyright notice, this
*    list of conditions and the following Disclaimer as comments in the code as
*    well as in the documentation and/or other materials provided with the
*    distribution.
*
* . Redistributions in binary form must reproduce the above copyright notice,
*    this list of conditions and the following Disclaimer in the documentation
*    and/or other materials provided with the distribution.
*
* . Neither the name of Agere Systems Inc. nor the names of the contributors
*    may be used to endorse or promote products derived from this software
*    without specific prior written permission.
*
* Disclaimer
*
* THIS SOFTWARE IS PROVIDED "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES,
* INCLUDING, BUT NOT LIMITED TO, INFRINGEMENT AND THE IMPLIED WARRANTIES OF
* MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED.  ANY
* USE, MODIFICATION OR DISTRIBUTION OF THIS SOFTWARE IS SOLELY AT THE USERS OWN
* RISK. IN NO EVENT SHALL AGERE SYSTEMS INC. OR CONTRIBUTORS BE LIABLE FOR ANY
* DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES
* (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES;
* LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND
* ON ANY THEORY OF LIABILITY, INCLUDING, BUT NOT LIMITED TO, CONTRACT, STRICT
* LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT
* OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH
* DAMAGE.
*
*
*************************************************************************************************************/


#include "hcfcfg.h"     // System Constants to be defined by the MSF-programmer to tailor the HCF
#include "mdd.h"        // Include file common for HCF, MSF


/************************************************************************************************/
/**************************************  MACROS  ************************************************/
/************************************************************************************************/

#define LOF(x)                  (sizeof(x)/sizeof(hcf_16)-1)

/*      Endianness
 *      Little Endian (a.k.a. Intel), least significant byte first
 *      Big Endian (a.k.a. Motorola), most significant byte first
 *
 * The following macros are supplied
 *  o CNV_LITTLE_TO_SHORT(w)                    interprets the 16-bits input value as Little Endian, returns an hcf_16
 *      o CNV_BIG_TO_SHORT(w)                           interprets the 16-bits input value as Big Endian, returns an hcf_16
 *
 */

/* To increase portability, use unsigned char and unsigned char * when accessing parts of larger
 * types to convert their Endianness
 */

#define CNV_END_SHORT(w)  (hcf_16)( ((hcf_16)(w) & 0x00FF) << 8 | ((hcf_16)(w) & 0xFF00) >> 8 )
#define CNV_END_LONG(dw)  (hcf_32)( (dw >> 24) | ((dw >> 8) & 0xff00) | ((dw << 8) & 0xff0000) | (dw << 24) )

#if HCF_BIG_ENDIAN
//******************************************** B I G   E N D I A N *******************************************
#define CNV_LITTLE_TO_SHORT(w)  CNV_END_SHORT(w)        //    endianness conversion needed
#define CNV_BIG_TO_SHORT(w)             (w)                             // no endianness conversion needed
#define CNV_LITTLE_TO_LONG(dw)  CNV_END_LONG(dw)
#define CNV_LONG_TO_LITTLE(dw)  CNV_END_LONG(dw)
#else
//****************************************** L I T T L E   E N D I A N ****************************************
#define CNV_LITTLE_TO_SHORT(w)  (w)                             // no endianness conversion needed
#define CNV_BIG_TO_SHORT(w)             CNV_END_SHORT(w)        //    endianness conversion needed
#define CNV_LITTLE_TO_LONG(dw)  (dw)
#define CNV_LONG_TO_LITTLE(dw)  (dw)

#if defined HCF_ALIGN && HCF_ALIGN > 1
#define CNV_SHORTP_TO_LITTLE(pw)        ((hcf_16)(*(hcf_8 *)pw))                        | ((hcf_16)(*((hcf_8 *)pw+1)) << 8)
#define CNV_LONGP_TO_LITTLE(pdw)        ((hcf_32)(*(hcf_8 *)pdw))                       | ((hcf_32)(*((hcf_8 *)pdw+1)) << 8)    | \
                                                                        ((hcf_32)(*((hcf_8 *)pdw+2)) << 16) | ((hcf_32)(*((hcf_8 *)pdw+3)) << 24)
#else
#define CNV_LONGP_TO_LITTLE(pdw)        (*(hcf_32 *)pdw)
#define CNV_SHORTP_TO_LITTLE(pw)        (*(hcf_16 *)pw)
#endif

#endif // HCF_BIG_ENDIAN

// conversion macros which can be expressed in other macros
#define CNV_SHORT_TO_LITTLE(w)  CNV_LITTLE_TO_SHORT(w)
#define CNV_SHORT_TO_BIG(w)             CNV_BIG_TO_SHORT(w)

/************************************************************************************************/
/**************************************  END OF MACROS  *****************************************/
/************************************************************************************************/

/***********************************************************************************************************/
/*****************                                                  ****************************************/
/***********************************************************************************************************/

// offsets Transmit/Receive Frame Structure
#define HFS_STAT                                0x0000
#define HFS_SWSUP                               0x0006                                  //SW Support
#define HFS_Q_INFO                              0x0006                                  //Signal/Silence level
#define HFS_RATE                                0x0008                                  //RxFlow/Rate
#define         HFS_STAT_ERR            RX_STAT_ERR                             //link "natural" HCF name to "natural" MSF name
#define HFS_TX_CNTL                             0x0036
                                                                                                                // H-I     H-II
#define HFS_DAT_LEN                             (HFS_ADDR_DEST - 2)             // 0x002C  0x0038
#define HFS_ADDR_DEST                   0x003A                                  // 0x002E  0x003A
#define HFS_ADDR_SRC                    (HFS_ADDR_DEST + 6)             // 0x0034  0x0040
#define HFS_LEN                                 (HFS_ADDR_SRC  + 6)             // 0x003A  0x0046
#define HFS_DAT                                 (HFS_LEN       + 2)             // 0x003C  0x0048
#define HFS_TYPE                                (HFS_DAT       + 6)             // 0x0042  0x004E


//=============================  D E S C R I P T O R   S T R U C T U R E  ==============================
//;?MDD.H stuff ;?

#if HCF_BIG_ENDIAN
#define DESC_STRCT_CNT          0
#define DESC_STRCT_SIZE         1
#else
#define DESC_STRCT_CNT          1
#define DESC_STRCT_SIZE         0
#endif // HCF_BIG_ENDIAN

#define BUF_CNT                         buf_dim[DESC_STRCT_CNT]
#define BUF_SIZE                        buf_dim[DESC_STRCT_SIZE]

typedef struct DESC_STRCT {
        hcf_16                                  buf_dim[2];
        hcf_32                                  buf_phys_addr;
        hcf_32                                  next_desc_phys_addr;    // physical address of next descriptor
        hcf_32                                  desc_phys_addr;                 // physical address of this descriptor
        struct DESC_STRCT               *next_desc_addr;
        hcf_8   FAR                             *buf_addr;
#if (HCF_EXT) & HCF_EXT_DESC_STRCT
        void FAR                           *DESC_MSFSup;                        // pointer for arbitrary use by the MSF
#endif // HCF_DESC_STRCT_EXT
} DESC_STRCT;

#define HCF_DASA_SIZE                   12                                                      //size in bytes for DA/SA

#define DESC_CNT_MASK                   0x0FFF

#define GET_BUF_SIZE(descp)       ((descp)->BUF_SIZE)
#define GET_BUF_CNT(descp)        ((descp)->BUF_CNT)
#define SET_BUF_SIZE(descp, size) (descp)->BUF_SIZE = size;
#define SET_BUF_CNT(descp, count) (descp)->BUF_CNT = count;

//=========================================  T A L L I E S  ===================================================

typedef struct  {  //Hermes Tallies (IFB substructure)
  hcf_32        TxUnicastFrames;
  hcf_32        TxMulticastFrames;
  hcf_32        TxFragments;
  hcf_32        TxUnicastOctets;
  hcf_32        TxMulticastOctets;
  hcf_32        TxDeferredTransmissions;
  hcf_32        TxSingleRetryFrames;
  hcf_32        TxMultipleRetryFrames;
  hcf_32        TxRetryLimitExceeded;
  hcf_32        TxDiscards;
  hcf_32        RxUnicastFrames;
  hcf_32        RxMulticastFrames;
  hcf_32        RxFragments;
  hcf_32        RxUnicastOctets;
  hcf_32        RxMulticastOctets;
  hcf_32        RxFCSErrors;
  hcf_32        RxDiscardsNoBuffer;
  hcf_32        TxDiscardsWrongSA;
  hcf_32        RxWEPUndecryptable;
  hcf_32        RxMsgInMsgFragments;
  hcf_32        RxMsgInBadMsgFragments;
  hcf_32        RxDiscardsWEPICVError;
  hcf_32        RxDiscardsWEPExcluded;
#if (HCF_EXT) & HCF_EXT_TALLIES_FW
  hcf_32        TalliesExtra[32];
#endif // HCF_EXT_TALLIES_FW
} CFG_HERMES_TALLIES_STRCT;

typedef struct  {  //HCF Tallies (IFB substructure)
  hcf_32        NoBufInfo;                              //No buffer available for unsolicited Notify frame
  hcf_32        NoBufMB;                                        //No space available in MailBox
  hcf_32        MiscErr;                                        /* Command errors
                                                                                 *  - time out on completion synchronous part Hermes Command
                                                                                 *  - completed Hermes Command doesn't match original command
                                                                                 *  - status of completed Hermes Command contains error bits
                                                                                 */
#if (HCF_EXT) & HCF_EXT_TALLIES_FW
  hcf_32        EngCnt[8];
#endif // HCF_EXT_TALLIES_FW
} CFG_HCF_TALLIES_STRCT;

//Note this way to define ..._TAL_CNT implies that all tallies must keep the same (hcf_32) size
#if (HCF_TALLIES) & ( HCF_TALLIES_NIC | HCF_TALLIES_HCF )
#if (HCF_TALLIES) & HCF_TALLIES_NIC     //Hermes tally support
#define         HCF_NIC_TAL_CNT (sizeof(CFG_HERMES_TALLIES_STRCT)/ sizeof(hcf_32))
#else
#define         HCF_NIC_TAL_CNT 0
#endif // HCF_TALLIES
#if (HCF_TALLIES) & HCF_TALLIES_HCF     //HCF tally support
#define         HCF_HCF_TAL_CNT (sizeof(CFG_HCF_TALLIES_STRCT)   / sizeof(hcf_32))
#else
#define         HCF_HCF_TAL_CNT 0
#endif // HCF_TALLIES
#define HCF_TOT_TAL_CNT ( HCF_NIC_TAL_CNT + HCF_NIC_TAL_CNT )
#endif // HCF_TALLIES_NIC / HCF_TALLIES_HCF


/***********************************************************************************************************/
/********************************** I N T E R F A C E   B L O C K ******************************************/
/***********************************************************************************************************/

#define IFB_VERSION 0x0E                                // initially 0, to be incremented by every IFB layout change

typedef struct  {
  hcf_io                IFB_IOBase;                             // I/O address of Hermes chip as passed by MSF at hcf_connect call
  hcf_16                IFB_IORange;                    // I/O Range used by Hermes chip
  hcf_16                IFB_DLMode;                             // Download Mode state
  hcf_16                IFB_Cmd;                                // cmd in progress flag, to be ack-ed before next cmd can be issued
  hcf_16                IFB_RxFID;                              // FID of "current" RxFS (non-DMA mode)
//;?#if tx_delay option
  hcf_16                IFB_TxFID;                              // fid storage during "delayed" send
//;?#endif tx_delay option
  hcf_16                IFB_RxLen;                              //
  hcf_16                IFB_DefunctStat;                // BAP initialization or Cmd Completion failed
  hcf_16                IFB_ErrCmd;                             // contents Status reg when error bits and/or mismatch in cmd_wait
  hcf_16                IFB_ErrQualifier;               // contents Resp0  reg when error bits and/or mismatch in cmd_wait
  hcf_16                IFB_lal;                                // LookAhead Length
  wci_bufp              IFB_lap;                                // LookAhead Buffer pointer
  hcf_16                IFB_LinkStat;                   // Link Status
  hcf_16                IFB_DSLinkStat;                 // Link Status, new strategy introduced for DeepSleep
  hcf_16                IFB_CarryIn;                    // carry and carry-flag to move 1 byte from one get_frag to the next
  hcf_16                IFB_CarryOut;                   // carry and carry-flag to move 1 byte from one put_frag to the next
  hcf_16                IFB_Version;                    // IFB_VERSION, incremented by every SIGNIFICANT IFB layout change
  hcf_16                IFB_CardStat;                   // NIC error / F/W incompatibility status
  hcf_16                IFB_RscInd;                             // non-DMA: TxFID available, DMA: always 1
  hcf_16                IFB_CntlOpt;                    // flags: 32 bits I/O, DMA available, DMA enabled
  hcf_16                IFB_BusType;                    // BusType, derived via CFG_NIC_BUS_TYPE
  CFG_FW_IDENTITY_STRCT  IFB_FWIdentity; /* keep FWIdentity/Sup and PRIIdentity/Sup in sequence
                                                                                  * because of the (dumb) copy in init() */
#if defined MSF_COMPONENT_ID
  CFG_SUP_RANGE_STRCT    IFB_FWSup;
  CFG_PRI_IDENTITY_STRCT IFB_PRIIdentity;
  CFG_SUP_RANGE_STRCT    IFB_PRISup;
  CFG_SUP_RANGE_STRCT    IFB_HSISup;
#endif // MSF_COMPONENT_ID
#if (HCF_EXT) & HCF_EXT_INFO_LOG
  RID_LOGP              IFB_RIDLogp;                    // pointer to RID_LOG structure
#endif // HCF_EXT_INFO_LOG
#if HCF_PROT_TIME
  hcf_32                IFB_TickIni;                    // initialization of S/W counter based protection loop
#endif // HCF_PROT_TIME
#if (HCF_EXT) & HCF_EXT_INT_TICK
  int                   IFB_TickCnt;                    // Hermes Timer Tick Counter
#endif // HCF_EXT_INT_TICK
  hcf_16           *IFB_MBp;                            // pointer to the MailBox
  hcf_16                IFB_MBSize;                             // size of the MailBox
  hcf_16                IFB_MBWp;                               // zero-based write index into the MailBox
  hcf_16                IFB_MBRp;                               // zero-based read  index into the MailBox
  hcf_16                IFB_MBInfoLen;                  // contents of L-field of the oldest available MailBoxInfoBlock
#if (HCF_TYPE) & HCF_TYPE_WPA
  hcf_16                IFB_MICTxCntl;                  // MIC bit and Key index in TxControl field of TxFS
  hcf_32                IFB_MICTxKey[2];                // calculating key
  hcf_32                IFB_MICTx[2];                   // Tx MIC calculation Engine state
  hcf_16                IFB_MICTxCarry;                 // temp length, carries over from one Tx fragment to another
  hcf_16                IFB_MICRxCarry;                 // temp length, carries over from one Rx fragment to another
  hcf_32                IFB_MICRxKey[4*2];              // 4 checking keys
  hcf_32                IFB_MICRx[2];                   // Rx MIC calculation Engine state
#endif // HCF_TYPE_WPA
#if HCF_ASSERT
#if (HCF_ASSERT) & HCF_ASSERT_MB
  CFG_MB_INFO_RANGE1_STRCT      IFB_AssertStrct; // Add some complication to the HCF as prize for the new MSF I/F
#endif // HCF_ASSERT_MB
                                                                                // target of above IFB_AssertStrct
  hcf_16                IFB_AssertLine;                 //  - line number ( + encoded module name )
  hcf_16                IFB_AssertTrace;                //  - bit based trace of all hcf_.... invocations
  hcf_32                IFB_AssertQualifier;    //  - qualifier
  hcf_16                IFB_AssertLvl;                  // Assert Filtering, Not yet implemented
  hcf_16                IFB_AssertWhere;                // Where parameter of the Assert macro
#if (HCF_ASSERT) & ( HCF_ASSERT_LNK_MSF_RTN | HCF_ASSERT_RT_MSF_RTN )
  MSF_ASSERT_RTNP       IFB_AssertRtn;          // MSF Assert Call back routine (inspired by GEF, DrDobbs Nov 1998 )
#endif // HCF_ASSERT_LNK_MSF_RTN
#if (HCF_ASSERT) & HCF_ASSERT_PRINTF    // engineering facilty intended as F/W debugging aid
   hcf_16       IFB_DbgPrintF_Cnt;
   CFG_FW_PRINTF_BUFFER_LOCATION_STRCT IFB_FwPfBuff;
#endif // HCF_ASSERT_PRINTF
#endif // HCF_ASSERT
  hcf_16 volatile IFB_IntOffCnt;                // 0xFFFF based HCF_ACT_INT_OFF nesting counter, DeepSleep flag
#if (HCF_TALLIES) & ( HCF_TALLIES_NIC | HCF_TALLIES_HCF )       //Hermes and/or HCF tally support
  hcf_32                IFB_Silly_you_should_align;     //;?
  hcf_16                IFB_TallyLen;                   // Tally length (to build an LTV)
  hcf_16                IFB_TallyTyp;                   // Tally Type (to build an LTV)
#endif // HCF_TALLIES_NIC / HCF_TALLIES_HCF
#if (HCF_TALLIES) & HCF_TALLIES_NIC             //Hermes tally support
  CFG_HERMES_TALLIES_STRCT      IFB_NIC_Tallies;
#endif // HCF_TALLIES_NIC
#if (HCF_TALLIES) & HCF_TALLIES_HCF             //HCF tally support
  CFG_HCF_TALLIES_STRCT         IFB_HCF_Tallies;
#endif // HCF_TALLIES_HCF
#if HCF_DMA
  //used for a pool of destination_address descriptor/buffers, used during tx encapsulation points to the
  //first/last descriptor in the descriptor chain, so we can easily remove and append a packet.
  DESC_STRCT    *IFB_FirstDesc[2];
  DESC_STRCT    *IFB_LastDesc[2];
  DESC_STRCT    *IFB_ConfinedDesc[2];   // pointers to descriptor used for host reclaim purposes.
  hcf_16                IFB_DmaPackets;                 // HREG_EV_[TX/RX]DMA_DONE flags, reports DMA Frame availability to MSF
#endif // HCF_DMA
#if (HCF_EXT) & HCF_EXT_INT_TX_EX
  hcf_16                IFB_TxFsStat;                   // Tx message monitoring
  hcf_16                IFB_TxFsGap[2];                 //;?make this robust
  hcf_16                IFB_TxFsSwSup;
#endif // HCF_EXT_INT_TX_EX
  hcf_16                IFB_Magic;                              /* "Magic" signature, to help the debugger interpret a memory dump
                                                                                 * also the last field cleared at hcf_connect
                                                                                 */
#if (HCF_EXT) & HCF_EXT_IFB_STRCT               // for usage by the MSF
  void FAR         *IFB_MSFSup;                         // pointer for arbitrary use by the MSF
#endif // HCF_EXT_IFB_STRCT_EXT
} IFB_STRCT;

typedef IFB_STRCT*      IFBP;


/***********************************************************************************************************/
/**********************   W C I    F U N C T I O N S    P R O T O T Y P E S   ******************************/
/***********************************************************************************************************/

EXTERN_C int hcf_action(IFBP ifbp, hcf_16 cmd);
EXTERN_C int hcf_connect(IFBP ifbp, hcf_io io_base);
EXTERN_C int hcf_get_info(IFBP ifbp, LTVP ltvp);
EXTERN_C int hcf_service_nic(IFBP ifbp, wci_bufp bufp, unsigned int len);
EXTERN_C int hcf_cntl(IFBP ifbp, hcf_16 cmd);
EXTERN_C int hcf_put_info(IFBP ifbp, LTVP ltvp);
EXTERN_C int hcf_rcv_msg(IFBP ifbp, DESC_STRCT *descp, unsigned int offset);
EXTERN_C int hcf_send_msg(IFBP ifbp, DESC_STRCT *dp, hcf_16 tx_cntl);
#if HCF_DMA
EXTERN_C void hcf_dma_tx_put(IFBP ifbp, DESC_STRCT *d, hcf_16 tx_cntl);
EXTERN_C DESC_STRCT* hcf_dma_tx_get             (IFBP ifbp );
EXTERN_C DESC_STRCT* hcf_dma_rx_get             (IFBP ifbp );
EXTERN_C void hcf_dma_rx_put(IFBP ifbp, DESC_STRCT *d);
#endif // HCF_DMA
#if (HCF_ASSERT) & HCF_ASSERT_LNK_MSF_RTN
EXTERN_C void msf_assert(unsigned int line_number, hcf_16 trace, hcf_32 qual);
#endif // HCF_ASSERT_LNK_MSF_RTN

#endif  // HCF_H