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|
/* $OpenBSD: qv.c,v 1.5 2002/06/12 03:50:10 miod Exp $ */
/* $NetBSD: qv.c,v 1.2 1996/09/02 06:44:28 mycroft Exp $ */
/*-
* Copyright (c) 1988
* The Regents of the University of California. All rights reserved.
* (c) UNIX System Laboratories, Inc.
* All or some portions of this file are derived from material licensed
* to the University of California by American Telephone and Telegraph
* Co. or Unix System Laboratories, Inc. and are reproduced herein with
* the permission of UNIX System Laboratories, Inc.
*
* Redistribution and use in source and binary forms, with or without
* modification, are permitted provided that the following conditions
* are met:
* 1. Redistributions of source code must retain the above copyright
* notice, this list of conditions and the following disclaimer.
* 2. 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.
* 3. All advertising materials mentioning features or use of this software
* must display the following acknowledgement:
* This product includes software developed by the University of
* California, Berkeley and its contributors.
* 4. Neither the name of the University nor the names of its contributors
* may be used to endorse or promote products derived from this software
* without specific prior written permission.
*
* THIS SOFTWARE IS PROVIDED BY THE REGENTS AND CONTRIBUTORS ``AS IS'' AND
* ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
* IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
* ARE DISCLAIMED. IN NO EVENT SHALL THE REGENTS 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, WHETHER IN 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.
*
* @(#)qv.c 7.2 (Berkeley) 1/21/94
*/
/*
* derived from: @(#)qv.c 1.8 (ULTRIX) 8/21/85
*/
/************************************************************************
* *
* Copyright (c) 1985 by *
* Digital Equipment Corporation, Maynard, MA *
* All rights reserved. *
* *
* This software is furnished under a license and may be used and *
* copied only in accordance with the terms of such license and *
* with the inclusion of the above copyright notice. This *
* software or any other copies thereof may not be provided or *
* otherwise made available to any other person. No title to and *
* ownership of the software is hereby transferred. *
* *
* This software is derived from software received from the *
* University of California, Berkeley, and from Bell *
* Laboratories. Use, duplication, or disclosure is subject to *
* restrictions under license agreements with University of *
* California and with AT&T. *
* *
* The information in this software is subject to change without *
* notice and should not be construed as a commitment by Digital *
* Equipment Corporation. *
* *
* Digital assumes no responsibility for the use or reliability *
* of its software on equipment which is not supplied by Digital. *
* *
************************************************************************
*
* This driver provides glass tty functionality to the qvss. It is a strange
* device in that it supports three subchannels. The first being the asr,
* the second being a channel that intercepts the chars headed for the screen
* ( like a pseudo tty ) and the third being a source of mouse state changes.
* NOTE: the second is conditional on #ifdef CONS_HACK in this version
* of the driver, as it's a total crock.
*
* There may be one and only one qvss in the system. This restriction is based
* on the inability to map more than one at a time. This restriction will
* exist until the kernel has shared memory services. This driver therefore
* support a single unit. No attempt was made to have it service more.
*
* (this belongs in sccs - not here)
*
* 02 Aug 85 -- rjl
* Changed the names of the special setup routines so that the system
* can have a qvss or a qdss system console.
*
* 03 Jul 85 -- rjl
* Added a check for virtual mode in qvputc so that the driver
* doesn't crash while in a dump which is done in physical mode.
*
* 10 Apr 85 -- jg
* Well, our theory about keyboard handling was wrong; most of the
* keyboard is in autorepeat, down mode. These changes are to make
* the qvss work the same as the Vs100, which is not necessarily
* completely correct, as some chord usage may fail. But since we
* can't easily change the Vs100, we might as well propagate the
* problem to another device. There are also changes for screen and
* mouse accellaration.
*
* 27 Mar 85 -- rjl
* MicroVAX-II systems have interval timers that interrupt at ipl4.
* Everything else is higher and thus causes us to miss clock ticks. The
* problem isn't severe except in the case of a device like this one that
* generates lots of interrupts. We aren't willing to make this change to
* all device drivers but it seems acceptable in this case.
*
* 3 Dec 84 -- jg
* To continue the tradition of building a better mouse trap, this
* driver has been extended to form Vs100 style event queues. If the
* mouse device is open, the keyboard events are intercepted and put
* into the shared memory queue. Unfortunately, we are ending up with
* one of the longest Unix device drivers. Sigh....
*
* 20 Nov 84 -- rjl
* As a further complication this driver is required to function as the
* virtual system console. This code runs before and during auto-
* configuration and therefore is require to have a second path for setup.
* It is futher constrained to have a character output routine that
* is not dependant on the interrupt system.
*
*/
#include "qv.h"
#if NQV > 0
#include "../include/pte.h"
#include "sys/param.h"
#include "sys/conf.h"
#include "sys/user.h"
#include "qvioctl.h"
#include "sys/tty.h"
#include "sys/map.h"
#include "sys/buf.h"
#include "sys/vm.h"
#include "sys/clist.h"
#include "sys/file.h"
#include "sys/uio.h"
#include "sys/kernel.h"
#include "sys/syslog.h"
#include "../include/cpu.h"
#include "../include/mtpr.h"
#include "ubareg.h"
#include "ubavar.h"
#define CONS_HACK
struct uba_device *qvinfo[NQV];
struct tty qv_tty[NQV*4];
#define nNQV NQV
int nqv = NQV*4;
/*
* Definition of the driver for the auto-configuration program.
*/
int qvprobe(), qvattach(), qvkint(), qvvint();
u_short qvstd[] = { 0 };
struct uba_driver qvdriver =
{ qvprobe, 0, qvattach, 0, qvstd, "qv", qvinfo };
extern char qvmem[][512*NBPG];
extern struct pte QVmap[][512];
/*
* Local variables for the driver. Initialized for 15' screen
* so that it can be used during the boot process.
*/
#define QVWAITPRI (PZERO+1)
#define QVSSMAJOR 40
#define QVKEYBOARD 0 /* minor 0, keyboard/glass tty */
#define QVPCONS 1 /* minor 1, console interceptor XXX */
#define QVMOUSECHAN 2 /* minor 2, mouse */
#define QVSPARE 3 /* unused */
#define QVCHAN(unit) ((unit) & 03)
/*
* v_putc is the switch that is used to redirect the console cnputc to the
* virtual console vputc. consops is used to redirect the console
* device to the qvss console.
*/
extern (*v_putc)();
extern struct cdevsw *consops;
/*
* qv_def_scrn is used to select the appropriate tables. 0=15 inch 1=19 inch,
* 2 = uVAXII.
*/
int qv_def_scrn = 2;
#define QVMAXEVQ 64 /* must be power of 2 */
#define EVROUND(x) ((x) & (QVMAXEVQ - 1))
/*
* Screen parameters 15 & 19 inch monitors. These determine the max size in
* pixel and character units for the display and cursor positions.
* Notice that the mouse defaults to original square algorithm, but X
* will change to its defaults once implemented.
*/
struct qv_info *qv_scn;
struct qv_info qv_scn_defaults[] = {
{0, {0, 0}, 0, {0, 0}, 0, 0, 30, 80, 768, 480, 768-16, 480-16,
0, 0, 0, 0, 0, QVMAXEVQ, 0, 0, {0, 0}, {0, 0, 0, 0}, 2, 4},
{0, {0, 0}, 0, {0, 0}, 0, 0, 55, 120, 960, 864, 960-16, 864-16,
0, 0, 0, 0, 0, QVMAXEVQ, 0, 0, {0, 0}, {0, 0, 0, 0}, 2, 4},
{0, {0, 0}, 0, {0, 0}, 0, 0, 56, 120,1024, 864,1024-16, 864-16,
0, 0, 0, 0, 0, QVMAXEVQ, 0, 0, {0, 0}, {0, 0, 0, 0}, 2, 4}
};
/*
* Screen controller initialization parameters. The definations and use
* of these parameters can be found in the Motorola 68045 crtc specs. In
* essence they set the display parameters for the chip. The first set is
* for the 15" screen and the second is for the 19" separate sync. There
* is also a third set for a 19" composite sync monitor which we have not
* tested and which is not supported.
*/
static short qv_crt_parms[][16] = {
{ 31, 25, 27, 0142, 31, 13, 30, 31, 4, 15, 040, 0, 0, 0, 0, 0 },
/* VR100*/ { 39, 30, 32, 0262, 55, 5, 54, 54, 4, 15, 040, 0, 0, 0, 0, 0 },
/* VR260*/ { 39, 32, 33, 0264, 56, 5, 54, 54, 4, 15, 040, 0, 0, 0, 0, 0},
};
/*
* Screen parameters
*/
struct qv_info *qv_scn;
int maxqvmem = 254*1024 - sizeof(struct qv_info) - QVMAXEVQ*sizeof(vsEvent);
/*
* Keyboard state
*/
struct qv_keyboard {
int shift; /* state variables */
int cntrl;
int lock;
char last; /* last character */
} qv_keyboard;
short divdefaults[15] = { LK_DOWN, /* 0 doesn't exist */
LK_AUTODOWN, LK_AUTODOWN, LK_AUTODOWN, LK_DOWN,
LK_UPDOWN, LK_UPDOWN, LK_AUTODOWN, LK_AUTODOWN,
LK_AUTODOWN, LK_AUTODOWN, LK_AUTODOWN, LK_AUTODOWN,
LK_DOWN, LK_AUTODOWN };
short kbdinitstring[] = { /* reset any random keyboard stuff */
LK_AR_ENABLE, /* we want autorepeat by default */
LK_CL_ENABLE, /* keyclick */
0x84, /* keyclick volume */
LK_KBD_ENABLE, /* the keyboard itself */
LK_BELL_ENABLE, /* keyboard bell */
0x84, /* bell volume */
LK_LED_DISABLE, /* keyboard leds */
LED_ALL };
#define KBD_INIT_LENGTH sizeof(kbdinitstring)/sizeof(short)
#define TOY ((time.tv_sec * 100) + (time.tv_usec / 10000))
int qv_ipl_lo = 1; /* IPL low flag */
int mouseon = 0; /* mouse channel is enabled when 1*/
struct proc *qvrsel; /* process waiting for select */
int qvstart(), qvputc();
/*
* Keyboard translation and font tables
*/
extern u_short q_key[], q_shift_key[], q_cursor[];
extern char *q_special[], q_font[];
/*
* See if the qvss will interrupt.
*/
/*ARGSUSED*/
qvprobe(reg, ctlr)
caddr_t reg;
int ctlr;
{
register int br, cvec; /* these are ``value-result'' */
register struct qvdevice *qvaddr = (struct qvdevice *)reg;
static int tvec, ovec;
#ifdef lint
br = 0; cvec = br; br = cvec;
qvkint(0); qvvint(0);
#endif
/*
* Allocate the next two vectors
*/
tvec = 0360;
ovec = cvec;
/*
* Turn on the keyboard and vertical interrupt vectors.
*/
qvaddr->qv_intcsr = 0; /* init the interrupt controler */
qvaddr->qv_intcsr = 0x40; /* reset irr */
qvaddr->qv_intcsr = 0x80; /* specify individual vectors */
qvaddr->qv_intcsr = 0xc0; /* preset autoclear data */
qvaddr->qv_intdata = 0xff; /* all setup as autoclear */
qvaddr->qv_intcsr = 0xe0; /* preset vector address 1 */
qvaddr->qv_intdata = tvec; /* give it the keyboard vector */
qvaddr->qv_intcsr = 0x28; /* enable tx/rx interrupt */
qvaddr->qv_intcsr = 0xe1; /* preset vector address 2 */
qvaddr->qv_intdata = tvec+4; /* give it the vertical sysnc */
qvaddr->qv_intcsr = 0x29; /* enable */
qvaddr->qv_intcsr = 0xa1; /* arm the interrupt ctrl */
qvaddr->qv_uartcmd = 0x15; /* set mode pntr/enable rx/tx */
qvaddr->qv_uartmode = 0x17; /* noparity, 8-bit */
qvaddr->qv_uartmode = 0x07; /* 1 stop bit */
qvaddr->qv_uartstatus = 0x99; /* 4800 baud xmit/recv */
qvaddr->qv_uartintstatus = 2; /* enable recv interrupts */
qvaddr->qv_csr |= QV_INT_ENABLE | QV_CUR_MODE;
DELAY(10000);
qvaddr->qv_csr &= ~QV_INT_ENABLE;
/*
* If the qvss did interrupt it was the second vector not
* the first so we have to return the first so that they
* will be setup properly
*/
if( ovec == cvec ) {
return 0;
} else
cvec -= 4;
return (sizeof (struct qvdevice));
}
/*
* Routine called to attach a qv.
*/
qvattach(ui)
struct uba_device *ui;
{
/*
* If not the console then we have to setup the screen
*/
if (v_putc != qvputc || ui->ui_unit != 0)
(void)qv_setup((struct qvdevice *)ui->ui_addr, ui->ui_unit, 1);
else
qv_scn->qvaddr = (struct qvdevice *)ui->ui_addr;
}
/*ARGSUSED*/
qvopen(dev, flag)
dev_t dev;
{
register struct tty *tp;
register int unit, qv;
register struct qvdevice *qvaddr;
register struct uba_device *ui;
register struct qv_info *qp = qv_scn;
unit = minor(dev);
qv = unit >> 2;
if (unit >= nqv || (ui = qvinfo[qv])== 0 || ui->ui_alive == 0)
return (ENXIO);
if (QVCHAN(unit) == QVSPARE
#ifndef CONS_HACK
|| QVCHAN(unit) == QVPCONS
#endif
)
return (ENODEV);
tp = &qv_tty[unit];
if (tp->t_state&TS_XCLUDE && u.u_uid!=0)
return (EBUSY);
qvaddr = (struct qvdevice *)ui->ui_addr;
qv_scn->qvaddr = qvaddr;
tp->t_addr = (caddr_t)qvaddr;
tp->t_oproc = qvstart;
if ((tp->t_state&TS_ISOPEN) == 0) {
ttychars(tp);
tp->t_state = TS_ISOPEN|TS_CARR_ON;
tp->t_ispeed = B9600;
tp->t_ospeed = B9600;
if( QVCHAN(unit) == QVKEYBOARD ) {
/* make sure keyboard is always back to default */
qvkbdreset();
qvaddr->qv_csr |= QV_INT_ENABLE;
tp->t_iflag = TTYDEF_IFLAG;
tp->t_oflag = TTYDEF_OFLAG;
tp->t_lflag = TTYDEF_LFLAG;
tp->t_cflag = TTYDEF_CFLAG;
}
/* XXX ?why? else
tp->t_flags = RAW;
*/
}
/*
* Process line discipline specific open if its not the
* mouse channel. For the mouse we init the ring ptr's.
*/
if( QVCHAN(unit) != QVMOUSECHAN )
return ((*linesw[tp->t_line].l_open)(dev, tp));
else {
mouseon = 1;
/* set up event queue for later */
qp->ibuff = (vsEvent *)qp - QVMAXEVQ;
qp->iqsize = QVMAXEVQ;
qp->ihead = qp->itail = 0;
return 0;
}
}
/*
* Close a QVSS line.
*/
/*ARGSUSED*/
qvclose(dev, flag, mode, p)
dev_t dev;
int flag, mode;
struct proc *p;
{
register struct tty *tp;
register unit;
register struct qvdevice *qvaddr;
int error;
unit = minor(dev);
tp = &qv_tty[unit];
/*
* If this is the keyboard unit (0) shutdown the
* interface.
*/
qvaddr = (struct qvdevice *)tp->t_addr;
if (QVCHAN(unit) == QVKEYBOARD )
qvaddr->qv_csr &= ~QV_INT_ENABLE;
/*
* If unit is not the mouse channel call the line disc.
* otherwise clear the state flag, and put the keyboard into down/up.
*/
if (QVCHAN(unit) != QVMOUSECHAN) {
(*linesw[tp->t_line].l_close)(tp, flag);
error = ttyclose(tp);
} else {
mouseon = 0;
qv_init( qvaddr );
error = 0;
}
tp->t_state = 0;
return (error);
}
qvread(dev, uio)
dev_t dev;
struct uio *uio;
{
register struct tty *tp;
int unit = minor( dev );
if (QVCHAN(unit) != QVMOUSECHAN) {
tp = &qv_tty[unit];
return ((*linesw[tp->t_line].l_read)(tp, uio));
}
return (ENXIO);
}
qvwrite(dev, uio)
dev_t dev;
struct uio *uio;
{
register struct tty *tp;
int unit = minor( dev );
/*
* If this is the mouse we simply fake the i/o, otherwise
* we let the line disp. handle it.
*/
if (QVCHAN(unit) == QVMOUSECHAN) {
uio->uio_offset = uio->uio_resid;
uio->uio_resid = 0;
return 0;
}
tp = &qv_tty[unit];
return ((*linesw[tp->t_line].l_write)(tp, uio));
}
/*
* Mouse activity select routine
*/
qvselect(dev, rw)
dev_t dev;
{
register int s = spl5();
register struct qv_info *qp = qv_scn;
if( QVCHAN(minor(dev)) == QVMOUSECHAN )
switch(rw) {
case FREAD: /* if events okay */
if(qp->ihead != qp->itail) {
splx(s);
return(1);
}
qvrsel = u.u_procp;
splx(s);
return(0);
default: /* can never write */
splx(s);
return(0);
}
else {
splx(s);
return( ttselect(dev, rw) );
}
/*NOTREACHED*/
}
/*
* QVSS keyboard interrupt.
*/
qvkint(qv)
int qv;
{
struct tty *tp;
register c;
struct uba_device *ui;
register int key;
register int i;
ui = qvinfo[qv];
if (ui == 0 || ui->ui_alive == 0)
return;
tp = &qv_tty[qv<<2];
/*
* Get a character from the keyboard.
*/
key = ((struct qvdevice *)ui->ui_addr)->qv_uartdata & 0xff;
if( mouseon == 0) {
/*
* Check for various keyboard errors
*/
if( key == LK_POWER_ERROR || key == LK_KDOWN_ERROR ||
key == LK_INPUT_ERROR || key == LK_OUTPUT_ERROR) {
log(LOG_ERR,
"qv%d: Keyboard error, code = %x\n",qv,key);
return;
}
if( key < LK_LOWEST ) return;
/*
* See if its a state change key
*/
switch ( key ) {
case LOCK:
qv_keyboard.lock ^= 0xffff; /* toggle */
if( qv_keyboard.lock )
qv_key_out( LK_LED_ENABLE );
else
qv_key_out( LK_LED_DISABLE );
qv_key_out( LED_3 );
return;
case SHIFT:
qv_keyboard.shift ^= 0xffff;
return;
case CNTRL:
qv_keyboard.cntrl ^= 0xffff;
return;
case ALLUP:
qv_keyboard.cntrl = qv_keyboard.shift = 0;
return;
case REPEAT:
c = qv_keyboard.last;
break;
default:
/*
* Test for control characters. If set, see if the character
* is elligible to become a control character.
*/
if( qv_keyboard.cntrl ) {
c = q_key[ key ];
if( c >= ' ' && c <= '~' )
c &= 0x1f;
} else if( qv_keyboard.lock || qv_keyboard.shift )
c = q_shift_key[ key ];
else
c = q_key[ key ];
break;
}
qv_keyboard.last = c;
/*
* Check for special function keys
*/
if( c & 0x80 ) {
register char *string;
string = q_special[ c & 0x7f ];
while( *string )
(*linesw[tp->t_line].l_rint)(*string++, tp);
} else
(*linesw[tp->t_line].l_rint)(c, tp);
} else {
/*
* Mouse channel is open put it into the event queue
* instead.
*/
register struct qv_info *qp = qv_scn;
register vsEvent *vep;
if ((i = EVROUND(qp->itail+1)) == qp->ihead)
return;
vep = &qp->ibuff[qp->itail];
vep->vse_direction = VSE_KBTRAW;
vep->vse_type = VSE_BUTTON;
vep->vse_device = VSE_DKB;
vep->vse_x = qp->mouse.x;
vep->vse_y = qp->mouse.y;
vep->vse_time = TOY;
vep->vse_key = key;
qp->itail = i;
if(qvrsel) {
selwakeup(qvrsel,0);
qvrsel = 0;
}
}
}
/*
* Ioctl for QVSS.
*/
/*ARGSUSED*/
qvioctl(dev, cmd, data, flag)
dev_t dev;
register caddr_t data;
{
register struct tty *tp;
register int unit = minor(dev);
register struct qv_info *qp = qv_scn;
register struct qv_kpcmd *qk;
register unsigned char *cp;
int error;
/*
* Check for and process qvss specific ioctl's
*/
switch( cmd ) {
case QIOCGINFO: /* return screen info */
bcopy((caddr_t)qp, data, sizeof (struct qv_info));
break;
case QIOCSMSTATE: /* set mouse state */
qp->mouse = *((vsCursor *)data);
qv_pos_cur( qp->mouse.x, qp->mouse.y );
break;
case QIOCINIT: /* init screen */
qv_init( qp->qvaddr );
break;
case QIOCKPCMD:
qk = (struct qv_kpcmd *)data;
if(qk->nbytes == 0) qk->cmd |= 0200;
if(mouseon == 0) qk->cmd |= 1; /* no mode changes */
qv_key_out(qk->cmd);
cp = &qk->par[0];
while(qk->nbytes-- > 0) { /* terminate parameters */
if(qk->nbytes <= 0) *cp |= 0200;
qv_key_out(*cp++);
}
break;
case QIOCADDR: /* get struct addr */
*(struct qv_info **) data = qp;
break;
default: /* not ours ?? */
tp = &qv_tty[unit];
error = (*linesw[tp->t_line].l_ioctl)(tp, cmd, data, flag);
if (error >= 0)
return (error);
error = ttioctl(tp, cmd, data, flag);
if (error >= 0) {
return (error);
}
break;
}
return (0);
}
/*
* Initialize the screen and the scanmap
*/
qv_init(qvaddr)
struct qvdevice *qvaddr;
{
register short *scanline;
register int i;
register short scan;
register char *ptr;
register struct qv_info *qp = qv_scn;
/*
* Clear the bit map
*/
for( i=0 , ptr = qp->bitmap ; i<240 ; i += 2 , ptr += 2048)
bzero( ptr, 2048 );
/*
* Reinitialize the scanmap
*/
scan = qvaddr->qv_csr & QV_MEM_BANK;
scanline = qp->scanmap;
for(i = 0 ; i < qp->max_y ; i++ )
*scanline++ = scan++;
/*
* Home the cursor
*/
qp->row = qp->col = 0;
/*
* Reset the cursor to the default type.
*/
for( i=0 ; i<16 ; i++ )
qp->cursorbits[i] = q_cursor[i];
qvaddr->qv_csr |= QV_CUR_MODE;
/*
* Reset keyboard to default state.
*/
qvkbdreset();
}
qvreset()
{
}
qvkbdreset()
{
register int i;
qv_key_out(LK_DEFAULTS);
for( i=1 ; i < 15 ; i++ )
qv_key_out( divdefaults[i] | (i<<3));
for (i = 0; i < KBD_INIT_LENGTH; i++)
qv_key_out(kbdinitstring[i]);
}
#define abs(x) (((x) > 0) ? (x) : (-(x)))
/*
* QVSS vertical sync interrupt
*/
qvvint(qv)
int qv;
{
extern int selwait;
register struct qvdevice *qvaddr;
struct uba_device *ui;
register struct qv_info *qp = qv_scn;
int unit;
struct tty *tp0;
int i;
register int j;
/*
* Mouse state info
*/
static ushort omouse = 0, nmouse = 0;
static char omx=0, omy=0, mx=0, my=0, om_switch=0, m_switch=0;
register int dx, dy;
/*
* Test and set the qv_ipl_lo flag. If the result is not zero then
* someone else must have already gotten here.
*/
if( --qv_ipl_lo )
return;
(void)spl4();
ui = qvinfo[qv];
unit = qv<<2;
qvaddr = (struct qvdevice *)ui->ui_addr;
tp0 = &qv_tty[QVCHAN(unit) + QVMOUSECHAN];
/*
* See if the mouse has moved.
*/
if( omouse != (nmouse = qvaddr->qv_mouse) ) {
omouse = nmouse;
mx = nmouse & 0xff;
my = nmouse >> 8;
dy = my - omy; omy = my;
dx = mx - omx; omx = mx;
if( dy < 50 && dy > -50 && dx < 50 && dx > -50 ) {
register vsEvent *vep;
if( qp->mscale < 0 ) { /* Ray Lanza's original */
if( dy < 0 )
dy = -( dy * dy );
else
dy *= dy;
if( dx < 0 )
dx = -( dx * dx );
else
dx *= dx;
}
else { /* Vs100 style, see WGA spec */
int thresh = qp->mthreshold;
int scale = qp->mscale;
if( abs(dx) > thresh ) {
if ( dx < 0 )
dx = (dx + thresh)*scale - thresh;
else
dx = (dx - thresh)*scale + thresh;
}
if( abs(dy) > thresh ) {
if ( dy < 0 )
dy = (dy + thresh)*scale - thresh;
else
dy = (dy - thresh)*scale + thresh;
}
}
qp->mouse.x += dx;
qp->mouse.y -= dy;
if( qp->mouse.x < 0 )
qp->mouse.x = 0;
if( qp->mouse.y < 0 )
qp->mouse.y = 0;
if( qp->mouse.x > qp->max_cur_x )
qp->mouse.x = qp->max_cur_x;
if( qp->mouse.y > qp->max_cur_y )
qp->mouse.y = qp->max_cur_y;
if( tp0->t_state & TS_ISOPEN )
qv_pos_cur( qp->mouse.x, qp->mouse.y );
if (qp->mouse.y < qp->mbox.bottom &&
qp->mouse.y >= qp->mbox.top &&
qp->mouse.x < qp->mbox.right &&
qp->mouse.x >= qp->mbox.left) goto switches;
qp->mbox.bottom = 0; /* trash box */
if (EVROUND(qp->itail+1) == qp->ihead)
goto switches;
i = EVROUND(qp->itail - 1);
if ((qp->itail != qp->ihead) && (i != qp->ihead)) {
vep = & qp->ibuff[i];
if(vep->vse_type == VSE_MMOTION) {
vep->vse_x = qp->mouse.x;
vep->vse_y = qp->mouse.y;
goto switches;
}
}
/* put event into queue and do select */
vep = & qp->ibuff[qp->itail];
vep->vse_type = VSE_MMOTION;
vep->vse_time = TOY;
vep->vse_x = qp->mouse.x;
vep->vse_y = qp->mouse.y;
qp->itail = EVROUND(qp->itail+1);
}
}
/*
* See if mouse switches have changed.
*/
switches:if( om_switch != ( m_switch = (qvaddr->qv_csr & QV_MOUSE_ANY) >> 8 ) ) {
qp->mswitches = ~m_switch & 0x7;
for (j = 0; j < 3; j++) { /* check each switch */
register vsEvent *vep;
if ( ((om_switch>>j) & 1) == ((m_switch>>j) & 1) )
continue;
/* check for room in the queue */
if ((i = EVROUND(qp->itail+1)) == qp->ihead) return;
/* put event into queue and do select */
vep = &qp->ibuff[qp->itail];
vep->vse_type = VSE_BUTTON;
vep->vse_key = 2 - j;
vep->vse_direction = VSE_KBTDOWN;
if ( (m_switch >> j) & 1)
vep->vse_direction = VSE_KBTUP;
vep->vse_device = VSE_MOUSE;
vep->vse_time = TOY;
vep->vse_x = qp->mouse.x;
vep->vse_y = qp->mouse.y;
}
qp->itail = i;
om_switch = m_switch;
qp->mswitches = m_switch;
}
/* if we have proc waiting, and event has happened, wake him up */
if(qvrsel && (qp->ihead != qp->itail)) {
selwakeup(qvrsel,0);
qvrsel = 0;
}
/*
* Okay we can take another hit now
*/
qv_ipl_lo = 1;
}
/*
* Start transmission
*/
qvstart(tp)
register struct tty *tp;
{
register int unit, c;
register struct tty *tp0;
int s;
unit = minor(tp->t_dev);
#ifdef CONS_HACK
tp0 = &qv_tty[(unit&0xfc)+QVPCONS];
#endif
unit = QVCHAN(unit);
s = spl5();
/*
* If it's currently active, or delaying, no need to do anything.
*/
if (tp->t_state&(TS_TIMEOUT|TS_BUSY|TS_TTSTOP))
goto out;
/*
* Display chars until the queue is empty, if the second subchannel
* is open direct them there. Drop characters from subchannels other
* than 0 on the floor.
*/
while( tp->t_outq.c_cc ) {
c = getc(&tp->t_outq);
if (unit == QVKEYBOARD)
#ifdef CONS_HACK
if( tp0->t_state & TS_ISOPEN ){
(*linesw[tp0->t_line].l_rint)(c, tp0);
} else
#endif
qvputchar( c & 0xff );
}
/*
* Position the cursor to the next character location.
*/
qv_pos_cur( qv_scn->col*8, qv_scn->row*15 );
/*
* If there are sleepers, and output has drained below low
* water mark, wake up the sleepers.
*/
if ( tp->t_outq.c_cc<= tp->t_lowat ) {
if (tp->t_state&TS_ASLEEP){
tp->t_state &= ~TS_ASLEEP;
wakeup((caddr_t)&tp->t_outq);
}
}
tp->t_state &= ~TS_BUSY;
out:
splx(s);
}
/*
* Stop output on a line, e.g. for ^S/^Q or output flush.
*/
/*ARGSUSED*/
void
qvstop(tp, flag)
register struct tty *tp;
int flag;
{
register int s;
/*
* Block input/output interrupts while messing with state.
*/
s = spl5();
if (tp->t_state & TS_BUSY) {
if ((tp->t_state&TS_TTSTOP)==0) {
tp->t_state |= TS_FLUSH;
} else
tp->t_state &= ~TS_BUSY;
}
splx(s);
}
qvputc(c)
char c;
{
qvputchar(c);
}
/*
* Routine to display a character on the screen. The model used is a
* glass tty. It is assummed that the user will only use this emulation
* during system boot and that the screen will be eventually controlled
* by a window manager.
*
*/
qvputchar( c )
register char c;
{
register char *b_row, *f_row;
register int i;
register short *scanline;
register int ote = 128;
register struct qv_info *qp = qv_scn;
/*
* This routine may be called in physical mode by the dump code
* so we check and punt if that's the case.
*/
if( (mfpr(MAPEN) & 1) == 0 )
return;
c &= 0x7f;
switch ( c ) {
case '\t': /* tab */
for( i = 8 - (qp->col & 0x7) ; i > 0 ; i-- )
qvputchar( ' ' );
break;
case '\r': /* return */
qp->col = 0;
break;
case '\010': /* backspace */
if( --qp->col < 0 )
qp->col = 0;
break;
case '\n': /* linefeed */
if( qp->row+1 >= qp->max_row )
qvscroll();
else
qp->row++;
/*
* Position the cursor to the next character location.
*/
qv_pos_cur( qp->col*8, qp->row*15 );
break;
case '\007': /* bell */
/*
* We don't do anything to the keyboard until after
* autoconfigure.
*/
if( qp->qvaddr )
qv_key_out( LK_RING_BELL );
return;
default:
if( c >= ' ' && c <= '~' ) {
scanline = qp->scanmap;
b_row = qp->bitmap+(scanline[qp->row*15]&0x3ff)*128+qp->col;
i = c - ' ';
if( i < 0 || i > 95 )
i = 0;
else
i *= 15;
f_row = (char *)((int)q_font + i);
/* for( i=0 ; i<15 ; i++ , b_row += 128, f_row++ )
*b_row = *f_row;*/
/* inline expansion for speed */
*b_row = *f_row++; b_row += ote;
*b_row = *f_row++; b_row += ote;
*b_row = *f_row++; b_row += ote;
*b_row = *f_row++; b_row += ote;
*b_row = *f_row++; b_row += ote;
*b_row = *f_row++; b_row += ote;
*b_row = *f_row++; b_row += ote;
*b_row = *f_row++; b_row += ote;
*b_row = *f_row++; b_row += ote;
*b_row = *f_row++; b_row += ote;
*b_row = *f_row++; b_row += ote;
*b_row = *f_row++; b_row += ote;
*b_row = *f_row++; b_row += ote;
*b_row = *f_row++; b_row += ote;
*b_row = *f_row++; b_row += ote;
if( ++qp->col >= qp->max_col ) {
qp->col = 0 ;
if( qp->row+1 >= qp->max_row )
qvscroll();
else
qp->row++;
}
}
break;
}
}
/*
* Position the cursor to a particular spot.
*/
qv_pos_cur( x, y)
register int x,y;
{
register struct qvdevice *qvaddr;
register struct qv_info *qp = qv_scn;
register index;
if( qvaddr = qp->qvaddr ) {
if( y < 0 || y > qp->max_cur_y )
y = qp->max_cur_y;
if( x < 0 || x > qp->max_cur_x )
x = qp->max_cur_x;
qp->cursor.x = x; /* keep track of real cursor*/
qp->cursor.y = y; /* position, indep. of mouse*/
qvaddr->qv_crtaddr = 10; /* select cursor start reg */
qvaddr->qv_crtdata = y & 0xf;
qvaddr->qv_crtaddr = 11; /* select cursor end reg */
qvaddr->qv_crtdata = y & 0xf;
qvaddr->qv_crtaddr = 14; /* select cursor y pos. */
qvaddr->qv_crtdata = y >> 4;
qvaddr->qv_xcur = x; /* pos x axis */
/*
* If the mouse is being used then we change the mode of
* cursor display based on the pixels under the cursor
*/
if( mouseon ) {
index = y*128 + x/8;
if( qp->bitmap[ index ] && qp->bitmap[ index+128 ] )
qvaddr->qv_csr &= ~QV_CUR_MODE;
else
qvaddr->qv_csr |= QV_CUR_MODE;
}
}
}
/*
* Scroll the bitmap by moving the scanline map words. This could
* be done by moving the bitmap but it's much too slow for a full screen.
* The only drawback is that the scanline map must be reset when the user
* wants to do graphics.
*/
qvscroll()
{
short tmpscanlines[15];
register char *b_row;
register short *scanline;
register struct qv_info *qp = qv_scn;
/*
* If the mouse is on we don't scroll so that the bit map
* remains sane.
*/
if( mouseon ) {
qp->row = 0;
return;
}
/*
* Save the first 15 scanlines so that we can put them at
* the bottom when done.
*/
bcopy((caddr_t)qp->scanmap, (caddr_t)tmpscanlines, sizeof tmpscanlines);
/*
* Clear the wrapping line so that it won't flash on the bottom
* of the screen.
*/
scanline = qp->scanmap;
b_row = qp->bitmap+(*scanline&0x3ff)*128;
bzero( b_row, 1920 );
/*
* Now move the scanlines down
*/
bcopy((caddr_t)(qp->scanmap+15), (caddr_t)qp->scanmap,
(qp->row * 15) * sizeof (short) );
/*
* Now put the other lines back
*/
bcopy((caddr_t)tmpscanlines, (caddr_t)(qp->scanmap+(qp->row * 15)),
sizeof (tmpscanlines) );
}
/*
* Output to the keyboard. This routine status polls the transmitter on the
* keyboard to output a code. The timer is to avoid hanging on a bad device.
*/
qv_key_out(c)
u_short c;
{
int timer = 30000;
register struct qv_info *qp = qv_scn;
if (qp->qvaddr) {
while ((qp->qvaddr->qv_uartstatus & 0x4) == 0 && timer--)
;
qp->qvaddr->qv_uartdata = c;
}
}
/*
* Virtual console initialization. This routine sets up the qvss so that it can
* be used as the system console. It is invoked before autoconfig and has to do
* everything necessary to allow the device to serve as the system console.
* In this case it must map the q-bus and device areas and initialize the qvss
* screen.
*/
qvcons_init()
{
struct percpu *pcpu; /* pointer to percpu structure */
register struct qbus *qb;
struct qvdevice *qvaddr; /* device pointer */
short *devptr; /* virtual device space */
extern cnputc(); /* standard serial console putc */
#define QVSSCSR 017200
/*
* If secondary console already configured,
* don't override the previous one.
*/
if (v_putc != cnputc)
return 0;
/*
* find the percpu entry that matches this machine.
*/
for( pcpu = percpu ; pcpu && pcpu->pc_cputype != cpu ; pcpu++ )
;
if( pcpu == NULL )
return 0;
if (pcpu->pc_io->io_type != IO_QBUS)
return 0;
/*
* Found an entry for this cpu. Because this device is Microvax specific
* we assume that there is a single q-bus and don't have to worry about
* multiple adapters.
*
* Map the device registers.
*/
qb = (struct qbus *)pcpu->pc_io->io_details;
ioaccess(qb->qb_iopage, UMEMmap[0] + qb->qb_memsize, UBAIOPAGES * NBPG);
/*
* See if the qvss is there.
*/
devptr = (short *)((char *)umem[0] + (qb->qb_memsize * NBPG));
qvaddr = (struct qvdevice *)((u_int)devptr + ubdevreg(QVSSCSR));
if (badaddr((caddr_t)qvaddr, sizeof(short)))
return 0;
/*
* Okay the device is there lets set it up
*/
if (!qv_setup(qvaddr, 0, 0))
return 0;
v_putc = qvputc;
consops = &cdevsw[QVSSMAJOR];
return 1;
}
/*
* Do the board specific setup
*/
qv_setup(qvaddr, unit, probed)
struct qvdevice *qvaddr;
int unit;
int probed;
{
caddr_t qvssmem; /* pointer to the display mem */
register i; /* simple index */
register struct qv_info *qp;
register int *pte;
struct percpu *pcpu; /* pointer to percpu structure */
register struct qbus *qb;
/*
* find the percpu entry that matches this machine.
*/
for( pcpu = percpu ; pcpu && pcpu->pc_cputype != cpu ; pcpu++ )
;
if( pcpu == NULL )
return(0);
/*
* Found an entry for this cpu. Because this device is Microvax specific
* we assume that there is a single q-bus and don't have to worry about
* multiple adapters.
*
* Map the device memory.
*/
qb = (struct qbus *)pcpu->pc_io->io_details;
i = (u_int)(qvaddr->qv_csr & QV_MEM_BANK) << 7;
ioaccess(qb->qb_maddr + i, QVmap[unit], 512 * NBPG);
qvssmem = qvmem[unit];
pte = (int *)(QVmap[unit]);
for (i=0; i < 512; i++, pte++)
*pte = (*pte & ~PG_PROT) | PG_UW | PG_V;
qv_scn = (struct qv_info *)((u_int)qvssmem + 251*1024);
qp = qv_scn;
if( (qvaddr->qv_csr & QV_19INCH) && qv_def_scrn == 0)
qv_def_scrn = 1;
*qv_scn = qv_scn_defaults[ qv_def_scrn ];
if (probed)
qp->qvaddr = qvaddr;
qp->bitmap = qvssmem;
qp->scanmap = (short *)((u_int)qvssmem + 254*1024);
qp->cursorbits = (short *)((u_int)qvssmem + 256*1024-32);
/* set up event queue for later */
qp->ibuff = (vsEvent *)qp - QVMAXEVQ;
qp->iqsize = QVMAXEVQ;
qp->ihead = qp->itail = 0;
/*
* Setup the crt controller chip.
*/
for( i=0 ; i<16 ; i++ ) {
qvaddr->qv_crtaddr = i;
qvaddr->qv_crtdata = qv_crt_parms[ qv_def_scrn ][ i ];
}
/*
* Setup the display.
*/
qv_init( qvaddr );
/*
* Turn on the video
*/
qvaddr->qv_csr |= QV_VIDEO_ENA ;
return 1;
}
#endif
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