uts: make emu10k non-verbose

[unleashed.git] / include / sys / vuid_event.h

/*
 * CDDL HEADER START
 *
 * The contents of this file are subject to the terms of the
 * Common Development and Distribution License, Version 1.0 only
 * (the "License").  You may not use this file except in compliance
 * with the License.
 *
 * You can obtain a copy of the license at usr/src/OPENSOLARIS.LICENSE
 * or http://www.opensolaris.org/os/licensing.
 * See the License for the specific language governing permissions
 * and limitations under the License.
 *
 * When distributing Covered Code, include this CDDL HEADER in each
 * file and include the License file at usr/src/OPENSOLARIS.LICENSE.
 * If applicable, add the following below this CDDL HEADER, with the
 * fields enclosed by brackets "[]" replaced with your own identifying
 * information: Portions Copyright [yyyy] [name of copyright owner]
 *
 * CDDL HEADER END
 */
/*
 * Copyright 2006 Sun Microsystems, Inc.  All rights reserved.
 * Use is subject to license terms.
 */

#ifndef _SYS_VUID_EVENT_H
#define _SYS_VUID_EVENT_H

#pragma ident   "%Z%%M% %I%     %E% SMI"

#include <sys/types.h>
#include <sys/types32.h>

#ifdef  __cplusplus
extern "C" {
#endif

/*
 * This file describes a virtual user input device (vuid) interface.  This
 * is an interface between input devices and their clients.  The interface
 * defines an idealized user input device that may not correspond to any
 * existing physical collection of input devices.
 *
 * It is targeted to input devices that gather command data from humans,
 * e.g., mice, keyboards, tablets, joysticks, light pens, knobs, sliders,
 * buttons, ascii terminals, etc.  The vuid interface is specifically not
 * designed to support input devices that produce voluminous amounts of
 * data, e.g., input scanners, disk drives, voice packets.
 *
 * Here are some of the properties that are expected of a typical client
 * of vuid:
 *
 *      The client has a richer user interface than can be supported by
 *      a simple ascii terminal.
 *
 *      The client serializes multiple input devices being used
 *      by the user into a single stream of events.
 *
 *      The client preserves the entire state of its input so that
 *      it may query this state.
 *
 * Here are some features that vuid provides to its clients:
 *
 *      A client may extend the capabilities of the predefined vuid by
 *      adding input devices.  A client wants to be able to do this in
 *      a way that fits smoothly with its existing input paradigm.
 *
 *      A client can write its code to be input device independent.  A
 *      client can replace the underlaying physical devices and not
 *      have to be concerned.  In fact, the vuid interface doesn't
 *      really care about physical devices.  One physical device can
 *      masquerade a many logical devices and many physical devices can
 *      look like a single logical device.
 *
 * This file defines the protocol that makes up the virtual user input
 * device.  This includes:
 *
 *      The vuid station codes and there meanings.
 *
 *      The form by which changes to vuid stations, i.e., firm events,
 *      are communicated to clients (typically via the read system
 *      call).
 *
 *      The form by which clients send commands to input devices that
 *      support the vuid (typically via an ioctl system call to send
 *      vuid instead of a native byte stream).
 *
 * Explicitly, this file does not define:
 *
 *      How to store the state of the vuid
 *      (see ../sunwindowdev/vuid_state.h).
 *
 *      How to dynamically allocate additional vuid segments in order
 *      to extend the vuid (one could statically allocate additional
 *      vuid segments by treating this file as the central registry
 *      of vuid segments).
 */

/*
 * VUID_SEG_SIZE is the size of a virtual user input "device" address space
 * segment.
 */
#define VUID_SEG_SIZE   (256)

/*
 * This is the central registry of virtual user input devices.
 * To allocate a new vuid:
 *
 *      o Choose an unused portion of the address space.
 *        Vuids from 0x00 to 0x7F are reserved for Sun implementers.
 *        Vuids from 0x80 to 0xFF are reserved for Sun customers.
 *
 *      o Note the new device with a *_DEVID define.  Breifly describe
 *        the purpose/usage of the device.  Point to the place where
 *        more information can be found.
 *
 *      o Note the new device with a VUID_* entry in the Vuid_device
 *        enumeration.
 *
 *      o List the specific event codes in another header file that is
 *        specific to the new device (ASCII_DEVID, TOP_DEVID &
 *        WORKSTATION_DEVID events are listing here for historical
 *        reasons).
 */

#define ASCII_DEVID             0x00
        /* Ascii codes, which include META codes and 8-bit EUC codes */
        /* (see below) */
#define TOP_DEVID               0x01
        /* Top codes, which is ASCII with the 9th bit on (see below) */
#define ISO_DEVID               0x02
        /* ISO characters 0x80 - 0xFF (backwards compatibility) */
/* ... Sun implementers add new device ids here ... */
#define WHEEL_DEVID             0x78
#define LIGHTPEN_DEVID          0x79
        /* Lightpen events for  Lightpen */
#define BUTTON_DEVID            0x7A
        /* Button events from Sun button box */
#define DIAL_DEVID              0x7B
        /* Dial events from Sun dial box */
#define SUNVIEW_DEVID           0x7C
        /* Sunview Semantic events */
#define PANEL_DEVID             0x7D
        /* Panel subwindow package event codes passed around internal */
        /* to the panel package (see <suntool/panel.h>) */
#define SCROLL_DEVID            0x7E
        /* Scrollbar package event codes passed to scrollbar clients on */
        /* interesting scrollbar activity (see <suntool/scrollbar.h>) */
#define WORKSTATION_DEVID       0x7F
        /* Virtual keyboard and locator (mouse) related event codes */
        /* that describe a basic "workstation" device collection (see below). */
        /* This device is a bit of a hodge podge for historical reasons; */
        /* the middle of the address space has SunWindows related events */
        /* in it (see <sunwindow/win_input.h >), and the virtual keyboard */
        /* and virtual locator are thrown together. */
/* ... Sun customers add new device ids here ... */
#define LAST_DEVID              0xFF
        /* No more device ids beyond LAST_DEVID */

typedef enum vuid_device {
        VUID_ASCII = ASCII_DEVID,
        VUID_TOP = TOP_DEVID,
        VUID_ISO = ISO_DEVID,
        VUID_WHEEL = WHEEL_DEVID,
        VUID_LIGHTPEN = LIGHTPEN_DEVID,
        VUID_DIAL = DIAL_DEVID,
        VUID_SUNVIEW = SUNVIEW_DEVID,
        VUID_PANEL = PANEL_DEVID,
        VUID_SCROLL = SCROLL_DEVID,
        VUID_WORKSTATION = WORKSTATION_DEVID,
        VUID_LAST = LAST_DEVID
} Vuid_device;

#define vuid_first(devid)       ((devid) << 8)
#define vuid_last(devid)        (((devid) << 8)+VUID_SEG_SIZE-1)
#define vuid_in_range(devid, id) \
            ((id >= vuid_first(devid)) && (id <= vuid_last(devid)))

/*
 * EUC (Extended UNIX Code) device related definitions:
 */
#define EUC_FIRST       (0)
#define EUC_LAST        (255)

/*
 * Old ASCII definitions for backwards compatibility:
 */
#define ASCII_FIRST     (0)
#define ASCII_LAST      (127)
#define META_FIRST      (128)
#define META_LAST       (255)

/*
 * Top device related definitions:
 */
#define TOP_FIRST       (256)
#define TOP_LAST        (511)

/*
 * Old ISO definitions for backwards compatibility:
 */
#define ISO_FIRST       (512)
#define ISO_LAST        (767)

/*
 * Workstation device related definitions.  First are virtual keyboard
 * assignments.  All events for the virtual keyboard have 0 (went up) or
 * 1 (went down) values.
 */

#define VKEY_FIRST      vuid_first(WORKSTATION_DEVID)
#define VKEY_UP         0
#define VKEY_DOWN       1

#define VKEY_KBD_CODES  (128)   /* The number of event codes in a subset of */
                                /* the workstation device's address space */
                                /* that belong to the virtual keyboard */

#define VKEY_FIRSTPSEUDO        (VKEY_FIRST)                    /* 32512 */
/*
 * VKEY_FIRSTPSEUDO thru VKEY_LASTPSEUDO are taken (for historical
 * reasons) by SunWindows related codes (see <sunwindow/win_input.h >).
 */
#define VKEY_LASTPSEUDO         (VKEY_FIRSTPSEUDO+15)           /* 32527 */

#define VKEY_FIRSTSHIFT         (VKEY_LASTPSEUDO+1)             /* 32528 */
#define SHIFT_CAPSLOCK          (VKEY_FIRSTSHIFT+0)             /* 32528 */
#define SHIFT_LOCK              (VKEY_FIRSTSHIFT+1)             /* 32529 */
#define SHIFT_LEFT              (VKEY_FIRSTSHIFT+2)             /* 32530 */
#define SHIFT_RIGHT             (VKEY_FIRSTSHIFT+3)             /* 32531 */
#define SHIFT_LEFTCTRL          (VKEY_FIRSTSHIFT+4)             /* 32532 */
/* SHIFT_CTRL is for compatability with previous releases */    /* 32532 */
#define SHIFT_CTRL              SHIFT_LEFTCTRL                  /* 32532 */
#define SHIFT_RIGHTCTRL         (VKEY_FIRSTSHIFT+5)             /* 32533 */
#define SHIFT_META              (VKEY_FIRSTSHIFT+6)             /* 32534 */
#define SHIFT_TOP               (VKEY_FIRSTSHIFT+7)             /* 32535 */
#define SHIFT_CMD               (VKEY_FIRSTSHIFT+8)             /* 32536 */
#define SHIFT_ALTG              (VKEY_FIRSTSHIFT+9)             /* 32537 */
#define SHIFT_ALT               (VKEY_FIRSTSHIFT+10)            /* 32538 */
#define SHIFT_NUMLOCK           (VKEY_FIRSTSHIFT+11)            /* 32539 */
#define VKEY_LASTSHIFT          (VKEY_FIRSTSHIFT+15)            /* 32543 */

#define VKEY_FIRSTFUNC          (VKEY_LASTSHIFT+1)              /* 32544 */

#define BUT_FIRST               (VKEY_FIRSTFUNC)                /* 32544 */
#define BUT(i)                  ((BUT_FIRST)+(i)-1)             /* 32544+i-1 */
#define BUT_LAST                (BUT_FIRST+9)                   /* 32553 */

#define KEY_LEFTFIRST           ((BUT_LAST)+1)                  /* 32554 */
#define KEY_LEFT(i)             ((KEY_LEFTFIRST)+(i)-1)         /* 32554+i-1 */
#define KEY_LEFTLAST            ((KEY_LEFTFIRST)+15)            /* 32569 */

#define KEY_RIGHTFIRST          ((KEY_LEFTLAST)+1)              /* 32570 */
#define KEY_RIGHT(i)            ((KEY_RIGHTFIRST)+(i)-1)        /* 32570+i-1 */
#define KEY_RIGHTLAST           ((KEY_RIGHTFIRST)+15)           /* 32585 */

#define KEY_TOPFIRST            ((KEY_RIGHTLAST)+1)             /* 32586 */
#define KEY_TOP(i)              ((KEY_TOPFIRST)+(i)-1)          /* 32586+i-1 */
#define KEY_TOPLAST             ((KEY_TOPFIRST)+15)             /* 32601 */

#define KEY_BOTTOMLEFT          ((KEY_TOPLAST)+1)               /* 32602 */
#define KEY_BOTTOMRIGHT         ((KEY_BOTTOMLEFT)+1)            /* 32603 */
#define KEY_BOTTOMFIRST         ((KEY_TOPLAST)+1)               /* 32602 */
#define KEY_BOTTOM(i)           ((KEY_BOTTOMFIRST)+(i)-1)       /* 32602+i-1 */
#define KEY_BOTTOMLAST          ((KEY_BOTTOMFIRST)+15)          /* 32617 */

#define VKEY_LASTFUNC           (VKEY_FIRSTFUNC+73)             /* 32617 */

#define VKEY_FIRSTPAD           (VKEY_LASTFUNC+1)               /* 32618 */

#define VKEY_PADEQUAL           (VKEY_FIRSTPAD+0)               /* 32618 */
#define VKEY_PADSLASH           (VKEY_FIRSTPAD+1)               /* 32619 */
#define VKEY_PADSTAR            (VKEY_FIRSTPAD+2)               /* 32620 */
#define VKEY_PADMINUS           (VKEY_FIRSTPAD+3)               /* 32621 */
#define VKEY_PADSEP             (VKEY_FIRSTPAD+4)               /* 32622 */
#define VKEY_PAD7               (VKEY_FIRSTPAD+5)               /* 32623 */
#define VKEY_PAD8               (VKEY_FIRSTPAD+6)               /* 32624 */
#define VKEY_PAD9               (VKEY_FIRSTPAD+7)               /* 32625 */
#define VKEY_PADPLUS            (VKEY_FIRSTPAD+8)               /* 32626 */
#define VKEY_PAD4               (VKEY_FIRSTPAD+9)               /* 32627 */
#define VKEY_PAD5               (VKEY_FIRSTPAD+10)              /* 32628 */
#define VKEY_PAD6               (VKEY_FIRSTPAD+11)              /* 32629 */
#define VKEY_PAD1               (VKEY_FIRSTPAD+12)              /* 32630 */
#define VKEY_PAD2               (VKEY_FIRSTPAD+13)              /* 32631 */
#define VKEY_PAD3               (VKEY_FIRSTPAD+14)              /* 32632 */
#define VKEY_PAD0               (VKEY_FIRSTPAD+15)              /* 32633 */
#define VKEY_PADDOT             (VKEY_FIRSTPAD+16)              /* 32634 */
#define VKEY_PADENTER           (VKEY_FIRSTPAD+17)              /* 32635 */

#define VKEY_LASTPAD            (VKEY_FIRSTPAD+17)              /* 32635 */

#define VKEY_LAST               (VKEY_FIRST+VKEY_KBD_CODES-1)   /* 32639 */

/*
 * More workstation device definitions.  These are virtual locator
 * related event code assignments.  Values for these events are int.
 * VLOC_BATCH's value is a uint_t that describes the number of events
 * that follow that should be treated as a batch.
 */
#define MOUSE_DEVID     WORKSTATION_DEVID       /* Backward compatibility */

#define VLOC_FIRST              (VKEY_LAST+1)                   /* 32640 */
#define LOC_FIRST_DELTA         (VLOC_FIRST+0)                  /* 32640 */
#define LOC_X_DELTA             (VLOC_FIRST+0)                  /* 32640 */
#define LOC_Y_DELTA             (VLOC_FIRST+1)                  /* 32641 */
#define LOC_LAST_DELTA          (VLOC_FIRST+1)                  /* 32641 */

#define LOC_FIRST_ABSOLUTE      (VLOC_FIRST+2)                  /* 32642 */
#define LOC_X_ABSOLUTE          (VLOC_FIRST+2)                  /* 32642 */
#define LOC_Y_ABSOLUTE          (VLOC_FIRST+3)                  /* 32643 */
#define LOC_LAST_ABSOLUTE       (VLOC_FIRST+3)                  /* 32643 */

#define VLOC_BATCH              (VLOC_FIRST+4)                  /* 32644 */
#define VLOC_LAST               (VLOC_BATCH+1)                  /* 32645 */

#define MOUSE_CAP_CHANGE_FIRST          (VLOC_LAST+1)           /* 32646 */
#define MOUSE_CAP_CHANGE_NUM_BUT        (MOUSE_CAP_CHANGE_FIRST+0) /* 32646 */
#define MOUSE_CAP_CHANGE_NUM_WHEEL      (MOUSE_CAP_CHANGE_FIRST+1) /* 32647 */

#define MOUSE_TYPE_ABSOLUTE     (VLOC_LAST+3)                   /* 32648 */

#define MOUSE_LAST              (VLOC_LAST+3)                   /* 32648 */
#define KEYBOARD_LAYOUT_CHANGE  (MOUSE_LAST+1)                  /* 32649 */

/*
 * Common names for certain input codes.  The buttons on the physical
 * mouse are thought to actually belong to the virtual keyboard.
 */
#define MS_LEFT         BUT(1)                                  /* 32544 */
#define MS_MIDDLE       BUT(2)                                  /* 32545 */
#define MS_RIGHT        BUT(3)                                  /* 32546 */

/*
 * A firm_event structure is encoded in the byte stream of a device
 * when the device has been asked to format its byte stream so.
 * The time stamp is not defined to be meaningful except to compare
 * with other Firm_event time stamps.
 *
 * The pair field is critical for a state maintainence package
 * (such as vuid_state.h), one that is designed to not know anything
 * about the semantics of particular events, to maintain correct data
 * for corresponding absolute, delta and paired state variables.
 *
 * pair, when defined (as indicated by pair_type), is the associated
 * state variable that should be updated due to this events generation.
 * This is used to maintain a correspondence between an event that is a
 * delta and a state that is an absolute value (with a known delta event
 * defined) and visa versa, e.g., LOC_X_DELTA & LOC_X_ABSOLUTE.
 * pair is also used to indicate another state variable that
 * should be updated with the occurrence of this event, e.g., if id is
 * '^G' then pair could be 'g' or 'G' depending on the state of the shift
 * key.
 */
typedef struct firm_event {
        ushort_t        id;     /* Event's unique id */
        uchar_t         pair_type;      /* Event pair's type */
#define FE_PAIR_NONE            0       /* pair is not defined */
#define FE_PAIR_SET             1       /* pair is accompanying id to set */
                                        /* to this events value */
#define FE_PAIR_DELTA           2       /* pair is accompanying id that */
                                        /* should be set to the delta of */
                                        /* id's current value and the new */
                                        /* value indicated by this event */
#define FE_PAIR_ABSOLUTE        3       /* pair is accompanying id that */
                                        /* should be set to the sum of its */
                                        /* current value and the delta */
                                        /* indicated by this event's value */
        uchar_t         pair;   /* Event id's associated delta|absolute|pair */
                                /* offset within id's segment (minus id's */
                                /* address) */
        int             value;  /* Event's value */
#if defined(_LP64) || defined(_I32LPx)
        struct timeval32 time;  /* Event's time stamp */
#else
        struct timeval time;
#endif
} Firm_event;
#define FIRM_EVENT_NULL ((Firm_event *)0)
#define vuid_id_addr(id)                ((id) & 0xFF00)
#define vuid_id_offset(id)              ((id) & 0xFF)
#define vuid_boolean_value(value)       (((value) == 0) || ((value) == 1))
#define vuid_int_value(value)           (!(vuid_boolean_value((value))))

/*
 * Ioctls to input devices that support vuid.
 */

/*
 * VUID*FORMAT ioctls are used to control which byte stream format that
 * a input device should use.  An errno of ENOTTY or EINVAL indicates that
 * a device can't speak Firm_events.
 */
#define VUIOC           ('v'<<8)
#if defined(__i386) || defined(__i386_COMPAT)
#define VUIDSFORMAT   (VUIOC|11) /* avoid conflict with VT_?????? */
#define VUIDGFORMAT   (VUIOC|12) /* avoid conflict with VT_?????? */
#else
#define VUIDSFORMAT   (VUIOC|1) /* Set input device byte stream format */
#define VUIDGFORMAT   (VUIOC|2) /* Get input device byte stream format */
#endif
#define VUID_NATIVE     0       /* Native byte stream format */
#define VUID_FIRM_EVENT 1       /* struct firm_event byte stream format */

/*
 * VUID*ADDR ioctls are used to control which address a particular
 * virtual input device segment has.  This is used to have an instancing
 * capability, e.g., a second mouse.  An errno of ENOTTY indicates that
 * a device can't deal with these commands.  An errno of ENODEV indicates
 * that the requested virtual device has no events generated for it by
 * this physical device.
 *
 * VUIDSADDR sets the virtual input device segment address indicated by
 * default to next.
 *
 * VUIDGADDR gets the in force address of the virtual input device segment
 * indicated by default into current.
 */
typedef struct  vuid_addr_probe {
        short   base;           /* default vuid device addr directed too */
        union   {
                short   next;   /* next addr for default when VUIDSADDR */
                short   current; /* current addr of default when VUIDGADDR */
        } data;
} Vuid_addr_probe;

#if defined(__i386) || defined(__i386_COMPAT)
#define VUIDSADDR   (VUIOC|13)  /* avoid conflict with VT_?????? */
#define VUIDGADDR   (VUIOC|14)  /* avoid conflict with VT_?????? */
#else
#define VUIDSADDR   (VUIOC|3)   /* Set vuid address */
#define VUIDGADDR   (VUIOC|4)   /* Get vuid address */
#endif

#ifdef  __cplusplus
}
#endif

#endif  /* _SYS_VUID_EVENT_H */