drm: i810/i830: fix locked ioctl variant

[linux-2.6/linux-acpi-2.6/ibm-acpi-2.6.git] / include / linux / cdk.h

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

/*
 *      cdk.h  -- CDK interface definitions.
 *
 *      Copyright (C) 1996-1998  Stallion Technologies
 *      Copyright (C) 1994-1996  Greg Ungerer.
 *
 *      This program is free software; you can redistribute it and/or modify
 *      it under the terms of the GNU General Public License as published by
 *      the Free Software Foundation; either version 2 of the License, or
 *      (at your option) any later version.
 *
 *      This program is distributed in the hope that it will be useful,
 *      but WITHOUT ANY WARRANTY; without even the implied warranty of
 *      MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
 *      GNU General Public License for more details.
 *
 *      You should have received a copy of the GNU General Public License
 *      along with this program; if not, write to the Free Software
 *      Foundation, Inc., 675 Mass Ave, Cambridge, MA 02139, USA.
 */

/*****************************************************************************/
#ifndef _CDK_H
#define _CDK_H
/*****************************************************************************/

#pragma pack(2)

/*
 *      The following set of definitions is used to communicate with the
 *      shared memory interface of the Stallion intelligent multiport serial
 *      boards. The definitions in this file are taken directly from the
 *      document titled "Generic Stackable Interface, Downloader and
 *      Communications Development Kit".
 */

/*
 *      Define the set of important shared memory addresses. These are
 *      required to initialize the board and get things started. All of these
 *      addresses are relative to the start of the shared memory.
 */
#define CDK_SIGADDR     0x200
#define CDK_FEATADDR    0x280
#define CDK_CDKADDR     0x300
#define CDK_RDYADDR     0x262

#define CDK_ALIVEMARKER 13

/*
 *      On hardware power up the ROMs located on the EasyConnection 8/64 will
 *      fill out the following signature information into shared memory. This
 *      way the host system can quickly determine that the board is present
 *      and is operational.
 */
typedef struct cdkecpsig {
        unsigned long   magic;
        unsigned short  romver;
        unsigned short  cputype;
        unsigned char   panelid[8];
} cdkecpsig_t;

#define ECP_MAGIC       0x21504345

/*
 *      On hardware power up the ROMs located on the ONboard, Stallion and
 *      Brumbys will fill out the following signature information into shared
 *      memory. This way the host system can quickly determine that the board
 *      is present and is operational.
 */
typedef struct cdkonbsig {
        unsigned short  magic0;
        unsigned short  magic1;
        unsigned short  magic2;
        unsigned short  magic3;
        unsigned short  romver;
        unsigned short  memoff;
        unsigned short  memseg;
        unsigned short  amask0;
        unsigned short  pic;
        unsigned short  status;
        unsigned short  btype;
        unsigned short  clkticks;
        unsigned short  clkspeed;
        unsigned short  amask1;
        unsigned short  amask2;
} cdkonbsig_t;

#define ONB_MAGIC0      0xf2a7
#define ONB_MAGIC1      0xa149
#define ONB_MAGIC2      0x6352
#define ONB_MAGIC3      0xf121

/*
 *      Define the feature area structure. The feature area is the set of
 *      startup parameters used by the slave image when it starts executing.
 *      They allow for the specification of buffer sizes, debug trace, etc.
 */
typedef struct cdkfeature {
        unsigned long   debug;
        unsigned long   banner;
        unsigned long   etype;
        unsigned long   nrdevs;
        unsigned long   brdspec;
        unsigned long   txrqsize;
        unsigned long   rxrqsize;
        unsigned long   flags;
} cdkfeature_t;

#define ETYP_DDK        0
#define ETYP_CDK        1

/*
 *      Define the CDK header structure. This is the info that the slave
 *      environment sets up after it has been downloaded and started. It
 *      essentially provides a memory map for the shared memory interface.
 */
typedef struct cdkhdr {
        unsigned short  command;
        unsigned short  status;
        unsigned short  port;
        unsigned short  mode;
        unsigned long   cmd_buf[14];
        unsigned short  alive_cnt;
        unsigned short  intrpt_mode;
        unsigned char   intrpt_id[8];
        unsigned char   ver_release;
        unsigned char   ver_modification;
        unsigned char   ver_fix;
        unsigned char   deadman_restart;
        unsigned short  deadman;
        unsigned short  nrdevs;
        unsigned long   memp;
        unsigned long   hostp;
        unsigned long   slavep;
        unsigned char   hostreq;
        unsigned char   slavereq;
        unsigned char   cmd_reserved[30];
} cdkhdr_t;

#define MODE_DDK        0
#define MODE_CDK        1

#define IMD_INTR        0x0
#define IMD_PPINTR      0x1
#define IMD_POLL        0xff

/*
 *      Define the memory mapping structure. This structure is pointed to by
 *      the memp field in the stlcdkhdr struct. As many as these structures
 *      as required are layed out in shared memory to define how the rest of
 *      shared memory is divided up. There will be one for each port.
 */
typedef struct cdkmem {
        unsigned short  dtype;
        unsigned long   offset;
} cdkmem_t;

#define TYP_UNDEFINED   0x0
#define TYP_ASYNCTRL    0x1
#define TYP_ASYNC       0x20
#define TYP_PARALLEL    0x40
#define TYP_SYNCX21     0x60

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

/*
 *      Following is a set of defines and structures used to actually deal
 *      with the serial ports on the board. Firstly is the set of commands
 *      that can be applied to ports.
 */
#define ASYCMD          (((unsigned long) 'a') << 8)

#define A_NULL          (ASYCMD | 0)
#define A_FLUSH         (ASYCMD | 1)
#define A_BREAK         (ASYCMD | 2)
#define A_GETPORT       (ASYCMD | 3)
#define A_SETPORT       (ASYCMD | 4)
#define A_SETPORTF      (ASYCMD | 5)
#define A_SETPORTFTX    (ASYCMD | 6)
#define A_SETPORTFRX    (ASYCMD | 7)
#define A_GETSIGNALS    (ASYCMD | 8)
#define A_SETSIGNALS    (ASYCMD | 9)
#define A_SETSIGNALSF   (ASYCMD | 10)
#define A_SETSIGNALSFTX (ASYCMD | 11)
#define A_SETSIGNALSFRX (ASYCMD | 12)
#define A_GETNOTIFY     (ASYCMD | 13)
#define A_SETNOTIFY     (ASYCMD | 14)
#define A_NOTIFY        (ASYCMD | 15)
#define A_PORTCTRL      (ASYCMD | 16)
#define A_GETSTATS      (ASYCMD | 17)
#define A_RQSTATE       (ASYCMD | 18)
#define A_FLOWSTATE     (ASYCMD | 19)
#define A_CLEARSTATS    (ASYCMD | 20)

/*
 *      Define those arguments used for simple commands.
 */
#define FLUSHRX         0x1
#define FLUSHTX         0x2

#define BREAKON         -1
#define BREAKOFF        -2

/*
 *      Define the port setting structure, and all those defines that go along
 *      with it. Basically this structure defines the characteristics of this
 *      port: baud rate, chars, parity, input/output char cooking etc.
 */
typedef struct asyport {
        unsigned long   baudout;
        unsigned long   baudin;
        unsigned long   iflag;
        unsigned long   oflag;
        unsigned long   lflag;
        unsigned long   pflag;
        unsigned long   flow;
        unsigned long   spare1;
        unsigned short  vtime;
        unsigned short  vmin;
        unsigned short  txlo;
        unsigned short  txhi;
        unsigned short  rxlo;
        unsigned short  rxhi;
        unsigned short  rxhog;
        unsigned short  spare2;
        unsigned char   csize;
        unsigned char   stopbs;
        unsigned char   parity;
        unsigned char   stopin;
        unsigned char   startin;
        unsigned char   stopout;
        unsigned char   startout;
        unsigned char   parmark;
        unsigned char   brkmark;
        unsigned char   cc[11];
} asyport_t;

#define PT_STOP1        0x0
#define PT_STOP15       0x1
#define PT_STOP2        0x2

#define PT_NOPARITY     0x0
#define PT_ODDPARITY    0x1
#define PT_EVENPARITY   0x2
#define PT_MARKPARITY   0x3
#define PT_SPACEPARITY  0x4

#define F_NONE          0x0
#define F_IXON          0x1
#define F_IXOFF         0x2
#define F_IXANY         0x4
#define F_IOXANY        0x8
#define F_RTSFLOW       0x10
#define F_CTSFLOW       0x20
#define F_DTRFLOW       0x40
#define F_DCDFLOW       0x80
#define F_DSROFLOW      0x100
#define F_DSRIFLOW      0x200

#define FI_NORX         0x1
#define FI_RAW          0x2
#define FI_ISTRIP       0x4
#define FI_UCLC         0x8
#define FI_INLCR        0x10
#define FI_ICRNL        0x20
#define FI_IGNCR        0x40
#define FI_IGNBREAK     0x80
#define FI_DSCRDBREAK   0x100
#define FI_1MARKBREAK   0x200
#define FI_2MARKBREAK   0x400
#define FI_XCHNGBREAK   0x800
#define FI_IGNRXERRS    0x1000
#define FI_DSCDRXERRS   0x2000
#define FI_1MARKRXERRS  0x4000
#define FI_2MARKRXERRS  0x8000
#define FI_XCHNGRXERRS  0x10000
#define FI_DSCRDNULL    0x20000

#define FO_OLCUC        0x1
#define FO_ONLCR        0x2
#define FO_OOCRNL       0x4
#define FO_ONOCR        0x8
#define FO_ONLRET       0x10
#define FO_ONL          0x20
#define FO_OBS          0x40
#define FO_OVT          0x80
#define FO_OFF          0x100
#define FO_OTAB1        0x200
#define FO_OTAB2        0x400
#define FO_OTAB3        0x800
#define FO_OCR1         0x1000
#define FO_OCR2         0x2000
#define FO_OCR3         0x4000
#define FO_OFILL        0x8000
#define FO_ODELL        0x10000

#define P_RTSLOCK       0x1
#define P_CTSLOCK       0x2
#define P_MAPRTS        0x4
#define P_MAPCTS        0x8
#define P_LOOPBACK      0x10
#define P_DTRFOLLOW     0x20
#define P_FAKEDCD       0x40

#define P_RXIMIN        0x10000
#define P_RXITIME       0x20000
#define P_RXTHOLD       0x40000

/*
 *      Define a structure to communicate serial port signal and data state
 *      information.
 */
typedef struct asysigs {
        unsigned long   data;
        unsigned long   signal;
        unsigned long   sigvalue;
} asysigs_t;

#define DT_TXBUSY       0x1
#define DT_TXEMPTY      0x2
#define DT_TXLOW        0x4
#define DT_TXHIGH       0x8
#define DT_TXFULL       0x10
#define DT_TXHOG        0x20
#define DT_TXFLOWED     0x40
#define DT_TXBREAK      0x80

#define DT_RXBUSY       0x100
#define DT_RXEMPTY      0x200
#define DT_RXLOW        0x400
#define DT_RXHIGH       0x800
#define DT_RXFULL       0x1000
#define DT_RXHOG        0x2000
#define DT_RXFLOWED     0x4000
#define DT_RXBREAK      0x8000

#define SG_DTR          0x1
#define SG_DCD          0x2
#define SG_RTS          0x4
#define SG_CTS          0x8
#define SG_DSR          0x10
#define SG_RI           0x20

/*
 *      Define the notification setting structure. This is used to tell the
 *      port what events we want to be informed about. Fields here use the
 *      same defines as for the asysigs structure above.
 */
typedef struct asynotify {
        unsigned long   ctrl;
        unsigned long   data;
        unsigned long   signal;
        unsigned long   sigvalue;
} asynotify_t;

/*
 *      Define the port control structure. It is used to do fine grain
 *      control operations on the port.
 */
typedef struct {
        unsigned long   rxctrl;
        unsigned long   txctrl;
        char            rximdch;
        char            tximdch;
        char            spare1;
        char            spare2;
} asyctrl_t;

#define CT_ENABLE       0x1
#define CT_DISABLE      0x2
#define CT_STOP         0x4
#define CT_START        0x8
#define CT_STARTFLOW    0x10
#define CT_STOPFLOW     0x20
#define CT_SENDCHR      0x40

/*
 *      Define the stats structure kept for each port. This is a useful set
 *      of data collected for each port on the slave. The A_GETSTATS command
 *      is used to retrieve this data from the slave.
 */
typedef struct asystats {
        unsigned long   opens;
        unsigned long   txchars;
        unsigned long   rxchars;
        unsigned long   txringq;
        unsigned long   rxringq;
        unsigned long   txmsgs;
        unsigned long   rxmsgs;
        unsigned long   txflushes;
        unsigned long   rxflushes;
        unsigned long   overruns;
        unsigned long   framing;
        unsigned long   parity;
        unsigned long   ringover;
        unsigned long   lost;
        unsigned long   rxstart;
        unsigned long   rxstop;
        unsigned long   txstart;
        unsigned long   txstop;
        unsigned long   dcdcnt;
        unsigned long   dtrcnt;
        unsigned long   ctscnt;
        unsigned long   rtscnt;
        unsigned long   dsrcnt;
        unsigned long   ricnt;
        unsigned long   txbreaks;
        unsigned long   rxbreaks;
        unsigned long   signals;
        unsigned long   state;
        unsigned long   hwid;
} asystats_t;

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

/*
 *      All command and control communication with a device on the slave is
 *      via a control block in shared memory. Each device has its own control
 *      block, defined by the following structure. The control block allows
 *      the host to open, close and control the device on the slave.
 */
typedef struct cdkctrl {
        unsigned char   open;
        unsigned char   close;
        unsigned long   openarg;
        unsigned long   closearg;
        unsigned long   cmd;
        unsigned long   status;
        unsigned long   args[32];
} cdkctrl_t;

/*
 *      Each device on the slave passes data to and from the host via a ring
 *      queue in shared memory. Define a ring queue structure to hold the
 *      vital information about each ring queue. Two ring queues will be
 *      allocated for each port, one for receive data and one for transmit
 *      data.
 */
typedef struct cdkasyrq {
        unsigned long   offset;
        unsigned short  size;
        unsigned short  head;
        unsigned short  tail;
} cdkasyrq_t;

/*
 *      Each asynchronous port is defined in shared memory by the following
 *      structure. It contains a control block to command a device, and also
 *      the necessary data channel information as well.
 */
typedef struct cdkasy {
        cdkctrl_t       ctrl;
        unsigned short  notify;
        asynotify_t     changed;
        unsigned short  receive;
        cdkasyrq_t      rxq;
        unsigned short  transmit;
        cdkasyrq_t      txq;
} cdkasy_t;

#pragma pack()

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

/*
 *      Define the set of ioctls used by the driver to do special things
 *      to the board. These include interrupting it, and initializing
 *      the driver after board startup and shutdown.
 */
#include <linux/ioctl.h>

#define STL_BINTR       _IO('s',20)
#define STL_BSTART      _IO('s',21)
#define STL_BSTOP       _IO('s',22)
#define STL_BRESET      _IO('s',23)

/*
 *      Define a set of ioctl extensions, used to get at special stuff.
 */
#define STL_GETPFLAG    _IO('s',80)
#define STL_SETPFLAG    _IO('s',81)

/*****************************************************************************/
#endif