Merge ../linux-2.6-watchdog-mm

[pandora-kernel.git] / drivers / char / ip2 / i2ellis.h

/*******************************************************************************
*
*   (c) 1999 by Computone Corporation
*
********************************************************************************
*
*
*   PACKAGE:     Linux tty Device Driver for IntelliPort II family of multiport
*                serial I/O controllers.
*
*   DESCRIPTION: Mainline code for the device driver
*
*******************************************************************************/
//------------------------------------------------------------------------------
// i2ellis.h
//
// IntelliPort-II and IntelliPort-IIEX
//
// Extremely
// Low
// Level
// Interface
// Services
//
// Structure Definitions and declarations for "ELLIS" service routines found in
// i2ellis.c
//
// These routines are based on properties of the IntelliPort-II and -IIEX
// hardware and bootstrap firmware, and are not sensitive to particular
// conventions of any particular loadware.
//
// Unlike i2hw.h, which provides IRONCLAD hardware definitions, the material
// here and in i2ellis.c is intended to provice a useful, but not required,
// layer of insulation from the hardware specifics.
//------------------------------------------------------------------------------
#ifndef  I2ELLIS_H   /* To prevent multiple includes */
#define  I2ELLIS_H   1
//------------------------------------------------
// Revision History:
//
// 30 September 1991 MAG First Draft Started
// 12 October   1991 ...continued...
//
// 20 December  1996 AKM Linux version
//-------------------------------------------------

//----------------------
// Mandatory Includes:
//----------------------
#include "ip2types.h"
#include "i2hw.h"       // The hardware definitions

//------------------------------------------
// STAT_BOXIDS packets
//------------------------------------------
#define MAX_BOX         4

typedef struct _bidStat
{
        unsigned char bid_value[MAX_BOX];
} bidStat, *bidStatPtr;

// This packet is sent in response to a CMD_GET_BOXIDS bypass command. For -IIEX
// boards, reports the hardware-specific "asynchronous resource register" on
// each expansion box. Boxes not present report 0xff. For -II boards, the first
// element contains 0x80 for 8-port, 0x40 for 4-port boards.

// Box IDs aka ARR or Async Resource Register (more than you want to know)
//   7   6   5   4   3   2   1   0
//   F   F   N   N   L   S   S   S
//   =============================
//   F   F   -  Product Family Designator
//   =====+++++++++++++++++++++++++++++++
//   0   0   -  Intelliport II EX / ISA-8
//   1   0   -  IntelliServer
//   0   1   -  SAC - Port Device (Intelliport III ??? )
//           =====+++++++++++++++++++++++++++++++++++++++
//           N   N   -  Number of Ports
//           0   0   -  8  (eight)
//           0   1   -  4  (four)
//           1   0   -  12 (twelve)
//           1   1   -  16 (sixteen)
//                   =++++++++++++++++++++++++++++++++++
//                   L  -   LCD Display Module Present
//                   0  -   No
//                   1  -   LCD module present
//                   =========+++++++++++++++++++++++++++++++++++++
//                      S   S   S - Async Signals Supported Designator
//                      0   0   0 - 8dss, Mod DCE DB25 Female
//                      0   0   1 - 6dss, RJ-45
//                      0   1   0 - RS-232/422 dss, DB25 Female
//                      0   1   1 - RS-232/422 dss, separate 232/422 DB25 Female
//                      1   0   0 - 6dss, 921.6 I/F with ST654's
//                      1   0   1 - RS-423/232 8dss, RJ-45 10Pin
//                      1   1   0 - 6dss, Mod DCE DB25 Female
//                      1   1   1 - NO BOX PRESENT

#define FF(c)   ((c & 0xC0) >> 6)
#define NN(c)   ((c & 0x30) >> 4)
#define L(c)    ((c & 0x08) >> 3)
#define SSS(c)   (c & 0x07)

#define BID_HAS_654(x)  (SSS(x) == 0x04)
#define BID_NO_BOX      0xff /* no box */
#define BID_8PORT       0x80 /* IP2-8 port */
#define BID_4PORT       0x81 /* IP2-4 port */
#define BID_EXP_MASK    0x30 /* IP2-EX  */
#define BID_EXP_8PORT   0x00 /*     8, */
#define BID_EXP_4PORT   0x10 /*     4, */
#define BID_EXP_UNDEF   0x20 /*     UNDEF, */
#define BID_EXP_16PORT  0x30 /*    16, */
#define BID_LCD_CTRL    0x08 /* LCD Controller */
#define BID_LCD_NONE    0x00 /* - no controller present */
#define BID_LCD_PRES    0x08 /* - controller present */
#define BID_CON_MASK    0x07 /* - connector pinouts */
#define BID_CON_DB25    0x00 /* - DB-25 F */
#define BID_CON_RJ45    0x01 /* - rj45 */

//------------------------------------------------------------------------------
// i2eBordStr
//
// This structure contains all the information the ELLIS routines require in
// dealing with a particular board.
//------------------------------------------------------------------------------
// There are some queues here which are guaranteed to never contain the entry
// for a single channel twice. So they must be slightly larger to allow
// unambiguous full/empty management
//
#define CH_QUEUE_SIZE ABS_MOST_PORTS+2

typedef struct _i2eBordStr
{
        porStr         i2ePom;  // Structure containing the power-on message.

        unsigned short i2ePomSize;
                                                // The number of bytes actually read if
                                                // different from sizeof i2ePom, indicates
                                                // there is an error!

        unsigned short i2eStartMail;
                                                // Contains whatever inbound mailbox data
                                                // present at startup. NO_MAIL_HERE indicates
                                                // nothing was present. No special
                                                // significance as of this writing, but may be
                                                // useful for diagnostic reasons.

        unsigned short i2eValid;
                                                // Indicates validity of the structure; if
                                                // i2eValid == I2E_MAGIC, then we can trust
                                                // the other fields. Some (especially
                                                // initialization) functions are good about
                                                // checking for validity.  Many functions do
                                                // not, it being assumed that the larger
                                                // context assures we are using a valid
                                                // i2eBordStrPtr.

        unsigned short i2eError;
                                                // Used for returning an error condition from
                                                // several functions which use i2eBordStrPtr
                                                // as an argument.

        // Accelerators to characterize separate features of a board, derived from a
        // number of sources.

        unsigned short i2eFifoSize;
                                                // Always, the size of the FIFO. For
                                                // IntelliPort-II, always the same, for -IIEX
                                                // taken from the Power-On reset message.

        volatile 
        unsigned short i2eFifoRemains;
                                                // Used during normal operation to indicate a
                                                // lower bound on the amount of data which
                                                // might be in the outbound fifo.

        unsigned char  i2eFifoStyle;
                                                // Accelerator which tells which style (-II or
                                                // -IIEX) FIFO we are using.

        unsigned char  i2eDataWidth16;
                                                // Accelerator which tells whether we should
                                                // do 8 or 16-bit data transfers.

        unsigned char  i2eMaxIrq;
                                                // The highest allowable IRQ, based on the
                                                // slot size.

        unsigned char  i2eChangeIrq;
                                                // Whether tis valid to change IRQ's
                                                // ISA = ok, EISA, MicroChannel, no

        // Accelerators for various addresses on the board
        int            i2eBase;        // I/O Address of the Board
        int            i2eData;        // From here data transfers happen
        int            i2eStatus;      // From here status reads happen
        int            i2ePointer;     // (IntelliPort-II: pointer/commands)
        int            i2eXMail;       // (IntelliPOrt-IIEX: mailboxes
        int            i2eXMask;       // (IntelliPort-IIEX: mask write

        //-------------------------------------------------------
        // Information presented in a common format across boards
        // For each box, bit map of the channels present.  Box closest to 
        // the host is box 0. LSB is channel 0. IntelliPort-II (non-expandable)
        // is taken to be box 0. These are derived from product i.d. registers.

        unsigned short i2eChannelMap[ABS_MAX_BOXES];

        // Same as above, except each is derived from firmware attempting to detect
        // the uart presence (by reading a valid GFRCR register). If bits are set in
        // i2eChannelMap and not in i2eGoodMap, there is a potential problem.

        unsigned short i2eGoodMap[ABS_MAX_BOXES];

        // ---------------------------
        // For indirect function calls

        // Routine to cause an N-millisecond delay: Patched by the ii2Initialize
        // function.

        void  (*i2eDelay)(unsigned int);

        // Routine to write N bytes to the board through the FIFO. Returns true if
        // all copacetic, otherwise returns false and error is in i2eError field.
        // IF COUNT IS ODD, ROUNDS UP TO THE NEXT EVEN NUMBER.

        int   (*i2eWriteBuf)(struct _i2eBordStr *, unsigned char *, int);

        // Routine to read N bytes from the board through the FIFO. Returns true if
        // copacetic, otherwise returns false and error in i2eError.
        // IF COUNT IS ODD, ROUNDS UP TO THE NEXT EVEN NUMBER.

        int   (*i2eReadBuf)(struct _i2eBordStr *, unsigned char *, int);

        // Returns a word from FIFO. Will use 2 byte operations if needed.

        unsigned short (*i2eReadWord)(struct _i2eBordStr *);

        // Writes a word to FIFO. Will use 2 byte operations if needed.

        void  (*i2eWriteWord)(struct _i2eBordStr *, unsigned short);

        // Waits specified time for the Transmit FIFO to go empty. Returns true if
        //  ok, otherwise returns false and error in i2eError.

        int   (*i2eWaitForTxEmpty)(struct _i2eBordStr *, int);

        // Returns true or false according to whether the outgoing mailbox is empty.

        int   (*i2eTxMailEmpty)(struct _i2eBordStr *);

        // Checks whether outgoing mailbox is empty.  If so, sends mail and returns
        // true.  Otherwise returns false.

        int   (*i2eTrySendMail)(struct _i2eBordStr *, unsigned char);

        // If no mail available, returns NO_MAIL_HERE, else returns the value in the
        // mailbox (guaranteed can't be NO_MAIL_HERE).

        unsigned short (*i2eGetMail)(struct _i2eBordStr *);

        // Enables the board to interrupt the host when it writes to the mailbox.
        // Irqs will not occur, however, until the loadware separately enables
        // interrupt generation to the host.  The standard loadware does this in
        // response to a command packet sent by the host. (Also, disables
        // any other potential interrupt sources from the board -- other than the
        // inbound mailbox).

        void  (*i2eEnableMailIrq)(struct _i2eBordStr *);

        // Writes an arbitrary value to the mask register.

        void  (*i2eWriteMask)(struct _i2eBordStr *, unsigned char);


        // State information

        // During downloading, indicates the number of blocks remaining to download
        // to the board.

        short i2eToLoad;

        // State of board (see manifests below) (e.g., whether in reset condition,
        // whether standard loadware is installed, etc.

        unsigned char  i2eState;

        // These three fields are only valid when there is loadware running on the
        // board. (i2eState == II_STATE_LOADED or i2eState == II_STATE_STDLOADED )

        unsigned char  i2eLVersion;  // Loadware version
        unsigned char  i2eLRevision; // Loadware revision
        unsigned char  i2eLSub;      // Loadware subrevision

        // Flags which only have meaning in the context of the standard loadware.
        // Somewhat violates the layering concept, but there is so little additional
        // needed at the board level (while much additional at the channel level),
        // that this beats maintaining two different per-board structures.

        // Indicates which IRQ the board has been initialized (from software) to use
        // For MicroChannel boards, any value different from IRQ_UNDEFINED means
        // that the software command has been sent to enable interrupts (or specify
        // they are disabled). Special value: IRQ_UNDEFINED indicates that the
        // software command to select the interrupt has not yet been sent, therefore
        // (since the standard loadware insists that it be sent before any other
        // packets are sent) no other packets should be sent yet.

        unsigned short i2eUsingIrq;

        // This is set when we hit the MB_OUT_STUFFED mailbox, which prevents us
        // putting more in the mailbox until an appropriate mailbox message is
        // received.

        unsigned char  i2eWaitingForEmptyFifo;

        // Any mailbox bits waiting to be sent to the board are OR'ed in here.

        unsigned char  i2eOutMailWaiting;

        // The head of any incoming packet is read into here, is then examined and 
        // we dispatch accordingly.

        unsigned short i2eLeadoffWord[1];

        // Running counter of interrupts where the mailbox indicated incoming data.

        unsigned short i2eFifoInInts;

        // Running counter of interrupts where the mailbox indicated outgoing data
        // had been stripped.

        unsigned short i2eFifoOutInts;

        // If not void, gives the address of a routine to call if fatal board error
        // is found (only applies to standard l/w).

        void  (*i2eFatalTrap)(struct _i2eBordStr *);

        // Will point to an array of some sort of channel structures (whose format
        // is unknown at this level, being a function of what loadware is
        // installed and the code configuration (max sizes of buffers, etc.)).

        void  *i2eChannelPtr;

        // Set indicates that the board has gone fatal.

        unsigned short i2eFatal;

        // The number of elements pointed to by i2eChannelPtr.

        unsigned short i2eChannelCnt;

        // Ring-buffers of channel structures whose channels have particular needs.

        rwlock_t        Fbuf_spinlock;
        volatile
        unsigned short i2Fbuf_strip;    // Strip index
        volatile 
        unsigned short i2Fbuf_stuff;    // Stuff index
        void  *i2Fbuf[CH_QUEUE_SIZE];   // An array of channel pointers
                                                                        // of channels who need to send
                                                                        // flow control packets.
        rwlock_t        Dbuf_spinlock;
        volatile
        unsigned short i2Dbuf_strip;    // Strip index
        volatile
        unsigned short i2Dbuf_stuff;    // Stuff index
        void  *i2Dbuf[CH_QUEUE_SIZE];   // An array of channel pointers
                                                                        // of channels who need to send
                                                                        // data or in-line command packets.
        rwlock_t        Bbuf_spinlock;
        volatile
        unsigned short i2Bbuf_strip;    // Strip index
        volatile
        unsigned short i2Bbuf_stuff;    // Stuff index
        void  *i2Bbuf[CH_QUEUE_SIZE];   // An array of channel pointers
                                                                        // of channels who need to send
                                                                        // bypass command packets.

        /*
         * A set of flags to indicate that certain events have occurred on at least
         * one of the ports on this board. We use this to decide whether to spin
         * through the channels looking for breaks, etc.
         */
        int             got_input;
        int             status_change;
        bidStat channelBtypes;

        /*
         * Debugging counters, etc.
         */
        unsigned long debugFlowQueued;
        unsigned long debugInlineQueued;
        unsigned long debugDataQueued;
        unsigned long debugBypassQueued;
        unsigned long debugFlowCount;
        unsigned long debugInlineCount;
        unsigned long debugBypassCount;
        
        rwlock_t        read_fifo_spinlock;
        rwlock_t        write_fifo_spinlock;

//      For queuing interrupt bottom half handlers.     /\/\|=mhw=|\/\/
        struct work_struct      tqueue_interrupt;

        struct timer_list  SendPendingTimer;   // Used by iiSendPending
        unsigned int    SendPendingRetry;
} i2eBordStr, *i2eBordStrPtr;

//-------------------------------------------------------------------
// Macro Definitions for the indirect calls defined in the i2eBordStr
//-------------------------------------------------------------------
//
#define iiDelay(a,b)          (*(a)->i2eDelay)(b)
#define iiWriteBuf(a,b,c)     (*(a)->i2eWriteBuf)(a,b,c)
#define iiReadBuf(a,b,c)      (*(a)->i2eReadBuf)(a,b,c)

#define iiWriteWord(a,b)      (*(a)->i2eWriteWord)(a,b)
#define iiReadWord(a)         (*(a)->i2eReadWord)(a)

#define iiWaitForTxEmpty(a,b) (*(a)->i2eWaitForTxEmpty)(a,b)

#define iiTxMailEmpty(a)      (*(a)->i2eTxMailEmpty)(a)
#define iiTrySendMail(a,b)    (*(a)->i2eTrySendMail)(a,b)

#define iiGetMail(a)          (*(a)->i2eGetMail)(a)
#define iiEnableMailIrq(a)    (*(a)->i2eEnableMailIrq)(a)
#define iiDisableMailIrq(a)   (*(a)->i2eWriteMask)(a,0)
#define iiWriteMask(a,b)      (*(a)->i2eWriteMask)(a,b)

//-------------------------------------------
// Manifests for i2eBordStr:
//-------------------------------------------

#define YES 1
#define NO  0

#define NULLFUNC (void (*)(void))0
#define NULLPTR (void *)0

typedef void (*delayFunc_t)(unsigned int);

// i2eValid
//
#define I2E_MAGIC       0x4251   // Structure is valid.
#define I2E_INCOMPLETE  0x1122   // Structure failed during init.


// i2eError
//
#define I2EE_GOOD       0       // Operation successful
#define I2EE_BADADDR    1       // Address out of range
#define I2EE_BADSTATE   2       // Attempt to perform a function when the board
                                                        // structure was in the incorrect state
#define I2EE_BADMAGIC   3       // Bad magic number from Power On test (i2ePomSize
                                                        // reflects what was read
#define I2EE_PORM_SHORT 4       // Power On message too short
#define I2EE_PORM_LONG  5       // Power On message too long
#define I2EE_BAD_FAMILY 6       // Un-supported board family type
#define I2EE_INCONSIST  7       // Firmware reports something impossible,
                                                        // e.g. unexpected number of ports... Almost no
                                                        // excuse other than bad FIFO...
#define I2EE_POSTERR    8       // Power-On self test reported a bad error
#define I2EE_BADBUS     9       // Unknown Bus type declared in message
#define I2EE_TXE_TIME   10      // Timed out waiting for TX Fifo to empty
#define I2EE_INVALID    11      // i2eValid field does not indicate a valid and
                                                        // complete board structure (for functions which
                                                        // require this be so.)
#define I2EE_BAD_PORT   12      // Discrepancy between channels actually found and
                                                        // what the product is supposed to have. Check
                                                        // i2eGoodMap vs i2eChannelMap for details.
#define I2EE_BAD_IRQ    13      // Someone specified an unsupported IRQ
#define I2EE_NOCHANNELS 14      // No channel structures have been defined (for
                                                        // functions requiring this).

// i2eFifoStyle
//
#define FIFO_II   0  /* IntelliPort-II style: see also i2hw.h */
#define FIFO_IIEX 1  /* IntelliPort-IIEX style */

// i2eGetMail
//
#define NO_MAIL_HERE    0x1111  // Since mail is unsigned char, cannot possibly
                                                                // promote to 0x1111.
// i2eState
//
#define II_STATE_COLD      0  // Addresses have been defined, but board not even
                                                          // reset yet.
#define II_STATE_RESET     1  // Board,if it exists, has just been reset
#define II_STATE_READY     2  // Board ready for its first block
#define II_STATE_LOADING   3  // Board continuing load
#define II_STATE_LOADED    4  // Board has finished load: status ok
#define II_STATE_BADLOAD   5  // Board has finished load: failed!
#define II_STATE_STDLOADED 6  // Board has finished load: standard firmware

// i2eUsingIrq
//
#define IRQ_UNDEFINED   0x1352  // No valid irq (or polling = 0) can ever
                                                                // promote to this!
//------------------------------------------
// Handy Macros for i2ellis.c and others
// Note these are common to -II and -IIEX
//------------------------------------------

// Given a pointer to the board structure, does the input FIFO have any data or
// not?
//
#define HAS_INPUT(pB)      !(INB(pB->i2eStatus) & ST_IN_EMPTY)
#define HAS_NO_INPUT(pB)   (INB(pB->i2eStatus) & ST_IN_EMPTY)

// Given a pointer to board structure, read a byte or word from the fifo
//
#define BYTE_FROM(pB)      (unsigned char)INB(pB->i2eData)
#define WORD_FROM(pB)      (unsigned short)INW(pB->i2eData)

// Given a pointer to board structure, is there room for any data to be written
// to the data fifo?
//
#define HAS_OUTROOM(pB)    !(INB(pB->i2eStatus) & ST_OUT_FULL)
#define HAS_NO_OUTROOM(pB) (INB(pB->i2eStatus) & ST_OUT_FULL)

// Given a pointer to board structure, write a single byte to the fifo
// structure. Note that for 16-bit interfaces, the high order byte is undefined
// and unknown.
//
#define BYTE_TO(pB, c)     OUTB(pB->i2eData,(c))

// Write a word to the fifo structure. For 8-bit interfaces, this may have
// unknown results.
//
#define WORD_TO(pB, c)     OUTW(pB->i2eData,(c))

// Given a pointer to the board structure, is there anything in the incoming
// mailbox?
//
#define HAS_MAIL(pB)       (INB(pB->i2eStatus) & ST_IN_MAIL)

#define UPDATE_FIFO_ROOM(pB)  (pB)->i2eFifoRemains=(pB)->i2eFifoSize

// Handy macro to round up a number (like the buffer write and read routines do)
// 
#define ROUNDUP(number)    (((number)+1) & (~1))

//------------------------------------------
// Function Declarations for i2ellis.c
//------------------------------------------
//
// Functions called directly
//
// Initialization of a board & structure is in four (five!) parts:
//
// 0) iiEllisInit()  - Initialize iiEllis subsystem.
// 1) iiSetAddress() - Define the board address & delay function for a board.
// 2) iiReset()      - Reset the board   (provided it exists)
//       -- Note you may do this to several boards --
// 3) iiResetDelay() - Delay for 2 seconds (once for all boards)
// 4) iiInitialize() - Attempt to read Power-up message; further initialize
//                     accelerators
//
// Then you may use iiDownloadAll() or iiDownloadFile() (in i2file.c) to write
// loadware.  To change loadware, you must begin again with step 2, resetting
// the board again (step 1 not needed).

static void iiEllisInit(void);
static int iiSetAddress(i2eBordStrPtr, int, delayFunc_t );
static int iiReset(i2eBordStrPtr);
static int iiResetDelay(i2eBordStrPtr);
static int iiInitialize(i2eBordStrPtr);

// Routine to validate that all channels expected are there.
//
extern int iiValidateChannels(i2eBordStrPtr);

// Routine used to download a block of loadware.
//
static int iiDownloadBlock(i2eBordStrPtr, loadHdrStrPtr, int);

// Return values given by iiDownloadBlock, iiDownloadAll, iiDownloadFile:
//
#define II_DOWN_BADVALID   0    // board structure is invalid
#define II_DOWN_CONTINUING 1    // So far, so good, firmware expects more
#define II_DOWN_GOOD       2    // Download complete, CRC good
#define II_DOWN_BAD        3    // Download complete, but CRC bad
#define II_DOWN_BADFILE    4    // Bad magic number in loadware file
#define II_DOWN_BADSTATE   5    // Board is in an inappropriate state for
                                                                // downloading loadware. (see i2eState)
#define II_DOWN_TIMEOUT    6    // Timeout waiting for firmware
#define II_DOWN_OVER       7    // Too much data
#define II_DOWN_UNDER      8    // Not enough data
#define II_DOWN_NOFILE     9    // Loadware file not found

// Routine to download an entire loadware module: Return values are a subset of
// iiDownloadBlock's, excluding, of course, II_DOWN_CONTINUING
//
static int iiDownloadAll(i2eBordStrPtr, loadHdrStrPtr, int, int);

// Called indirectly always.  Needed externally so the routine might be
// SPECIFIED as an argument to iiReset()
//
//static void ii2DelayIO(unsigned int);         // N-millisecond delay using
                                                                                        //hardware spin
//static void ii2DelayTimer(unsigned int);      // N-millisecond delay using Linux
                                                                                        //timer

// Many functions defined here return True if good, False otherwise, with an
// error code in i2eError field. Here is a handy macro for setting the error
// code and returning.
//
#define COMPLETE(pB,code) \
        do { \
                 pB->i2eError = code; \
                 return (code == I2EE_GOOD);\
        } while (0)

#endif   // I2ELLIS_H