xref: /src/sys/arch/amiga/dev/ite.c

/*
 * Copyright (c) 1988 University of Utah.
 * Copyright (c) 1990 The Regents of the University of California.
 * All rights reserved.
 *
 * This code is derived from software contributed to Berkeley by
 * the Systems Programming Group of the University of Utah Computer
 * Science Department.
 *
 * 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.
 *
 *      from: Utah Hdr: ite.c 1.1 90/07/09
 *      from: @(#)ite.c 7.6 (Berkeley) 5/16/91
 *      $Id: ite.c,v 1.12 1994/03/11 02:46:49 chopps Exp $
 */

/*
 * ite - bitmaped terminal.
 * Supports VT200, a few terminal features will be unavailable until
 * the system actually probes the device (i.e. not after consinit())
 */

#include "ite.h"
#if NITE > 0

#include <sys/param.h>
#include <sys/conf.h>
#include <sys/malloc.h>
#include <sys/ioctl.h>
#include <sys/tty.h>
#include <sys/termios.h>
#include <sys/systm.h>
#include <sys/proc.h>
#include <dev/cons.h>

#include <amiga/amiga/kdassert.h>
#include <amiga/dev/iteioctl.h>
#include <amiga/dev/itevar.h>
#include <amiga/dev/kbdmap.h>

struct itesw itesw[] =
{
	view_cnprobe,	view_init,	view_deinit,	0,
	0,	 	0,	 	0,
    retina_cnprobe, retina_init, retina_deinit, retina_clear,
    retina_putc, retina_cursor, retina_scroll,
    tiga_cnprobe, tiga_init, tiga_deinit, tiga_clear,
    tiga_putc, tiga_cursor, tiga_scroll,

};

#undef NITE
#define NITE 3				/* always corrisponds to itesw */

struct	ite_softc ite_softc[NITE];	/* device struct */
struct	tty *ite_tty[NITE];		/* ttys associated with ite's */
int	nunits = sizeof(itesw) / sizeof(struct itesw);

int	start_repeat_timeo = 20;	/* first repeat after. */
int	next_repeat_timeo = 5;		/* next repeat after. */

u_char	cons_tabs[MAX_TABS];

struct ite_softc *kbd_ite;
int kbd_init;

static char *index __P((const char *, char));
static int inline atoi __P((const char *));
void iteputchar __P((int c, struct ite_softc *ip));
void ite_putstr __P((const char * s, int len, dev_t dev));

#define SUBR_CNPROBE(min)	itesw[min].ite_cnprobe(min)
#define SUBR_INIT(ip)		ip->itesw->ite_init(ip)
#define SUBR_DEINIT(ip)		ip->itesw->ite_deinit(ip)
#define SUBR_PUTC(ip,c,dy,dx,m)	ip->itesw->ite_putc(ip,c,dy,dx,m)
#define SUBR_CURSOR(ip,flg)	ip->itesw->ite_cursor(ip,flg)
#define SUBR_CLEAR(ip,sy,sx,h,w)	ip->itesw->ite_clear(ip,sy,sx,h,w)
#define SUBR_SCROLL(ip,sy,sx,count,dir)	\
    ip->itesw->ite_scroll(ip,sy,sx,count,dir)

#if defined (__STDC__)
#define GET_CHRDEV_MAJOR(dev, maj) { \
	for(maj = 0; maj < nchrdev; maj++) \
		if (cdevsw[maj].d_open == dev ## open) \
			break; \
}
#else
#define GET_CHRDEV_MAJOR(dev, maj) { \
	for(maj = 0; maj < nchrdev; maj++) \
		if (cdevsw[maj].d_open == dev/**/open) \
			break; \
}
#endif

/*
 * cons.c entry points into ite device.
 */

/*
 * Return a priority in consdev->cn_pri field highest wins.  This function
 * is called before any devices have been probed.
 */
void
ite_cnprobe(cd)
	struct consdev *cd;
{
	int unit, last, use, maj, cur;

	use = -1;
	last = 0;

	/* XXX need to bring the graphics layer up. */
	grfconfig();

	GET_CHRDEV_MAJOR(ite, maj);

	cd->cn_pri = CN_DEAD;
	for (unit = 0; unit < nunits; unit++) {
		cur = SUBR_CNPROBE(unit);
		if (cur == CN_DEAD)
			continue;
		else if (last <= cur) {
			last = cur;
			use = unit;
		}
		ite_softc[unit].flags |= ITE_ALIVE;
	}
	if (use != -1) {
		cd->cn_pri = last;
		cd->cn_dev = makedev(maj, use);
	}
}

void
ite_cninit(cd)
	struct consdev *cd;
{
	struct ite_softc *ip = &ite_softc[minor(cd->cn_dev)];

	ip->tabs = cons_tabs;
	iteinit(cd->cn_dev);	       /* init console unit */
	ip->flags |= ITE_ACTIVE | ITE_ISCONS;
	kbd_ite = ip;
}

/*
 * ite_cnfinish() is called in ite_init() when the device is
 * being probed in the normal fasion, thus we can finish setting
 * up this ite now that the system is more functional.
 */
void
ite_cnfinish(ip)
	struct ite_softc *ip;
{
	static int done;

	if (done)
		return;
	done = 1;
}

int
ite_cngetc(dev)
	dev_t dev;
{
	int c;

	/* XXX this should be moved */
	if (!kbd_init) {
		kbd_init = 1;
		kbdenable();
	}
	do {
		c = kbdgetcn();
		c = ite_cnfilter(c, ITEFILT_CONSOLE);
	} while (c == -1);
	return (c);
}

void
ite_cnputc(dev, c)
	dev_t dev;
	int c;
{
	static int paniced = 0;
	struct ite_softc *ip = &ite_softc[minor(dev)];
	char ch = c;

	if (panicstr && !paniced &&
	    (ip->flags & (ITE_ACTIVE | ITE_INGRF)) != ITE_ACTIVE) {
		(void)ite_on(dev, 3);
		paniced = 1;
	}
	ite_putstr(&ch, 1, dev);
}

/*
 * standard entry points to the device.
 */

/*
 * iteinit() is the standard entry point for initialization of
 * an ite device, it is also called from ite_cninit().
 */
void
iteinit(dev)
	dev_t dev;
{
	struct ite_softc *ip;

	ip = &ite_softc[minor(dev)];
	if (ip->flags & ITE_INITED)
		return;
	bcopy(&ascii_kbdmap, &kbdmap, sizeof(struct kbdmap));

	ip->cursorx = 0;
	ip->cursory = 0;
	ip->itesw = &itesw[minor(dev)];
	SUBR_INIT(ip);
	SUBR_CURSOR(ip, DRAW_CURSOR);
	if (!ip->tabs)
		ip->tabs =
		    malloc(MAX_TABS * sizeof(u_char), M_DEVBUF, M_WAITOK);
	ite_reset(ip);
	/* draw cursor? */
	ip->flags |= ITE_INITED;
}

int
iteopen(dev, mode, devtype, p)
	dev_t dev;
	int mode, devtype;
	struct proc *p;
{
	int unit = minor(dev);
	struct ite_softc *ip = &ite_softc[unit];
	struct tty *tp;
	int error;
	int first = 0;

	if (unit >= NITE)
		return (ENXIO);

	if (!ite_tty[unit])
		tp = ite_tty[unit] = ttymalloc();
	else
		tp = ite_tty[unit];
	if ((tp->t_state & (TS_ISOPEN | TS_XCLUDE)) == (TS_ISOPEN | TS_XCLUDE)
	    && p->p_ucred->cr_uid != 0)
		return (EBUSY);
	if ((ip->flags & ITE_ACTIVE) == 0) {
		error = ite_on(dev, 0);
		if (error)
			return (error);
		first = 1;
	}
	tp->t_oproc = itestart;
	tp->t_param = ite_param;
	tp->t_dev = dev;
	if ((tp->t_state & TS_ISOPEN) == 0) {
		ttychars(tp);
		tp->t_iflag = TTYDEF_IFLAG;
		tp->t_oflag = TTYDEF_OFLAG;
		tp->t_cflag = TTYDEF_CFLAG;
		tp->t_lflag = TTYDEF_LFLAG;
		tp->t_ispeed = tp->t_ospeed = TTYDEF_SPEED;
		tp->t_state = TS_WOPEN | TS_CARR_ON;
		ttsetwater(tp);
	}
	error = (*linesw[tp->t_line].l_open) (dev, tp);
	if (error == 0) {
		tp->t_winsize.ws_row = ip->rows;
		tp->t_winsize.ws_col = ip->cols;
		if (!kbd_init) {
			kbd_init = 1;
			kbdenable();
		}
	} else if (first)
		ite_off(dev, 0);
	return (error);
}

int
iteclose(dev, flag, mode, p)
	dev_t dev;
	int flag, mode;
	struct proc *p;
{
	struct tty *tp = ite_tty[minor(dev)];

	KDASSERT(tp);
	(*linesw[tp->t_line].l_close) (tp, flag);
	ttyclose(tp);
	ite_off(dev, 0);
	return (0);
}

int
iteread(dev, uio, flag)
	dev_t dev;
	struct uio *uio;
	int flag;
{
	struct tty *tp = ite_tty[minor(dev)];

	KDASSERT(tp);
	return ((*linesw[tp->t_line].l_read) (tp, uio, flag));
}

int
itewrite(dev, uio, flag)
	dev_t dev;
	struct uio *uio;
	int flag;
{
	struct tty *tp = ite_tty[minor(dev)];

	KDASSERT(tp);
	return ((*linesw[tp->t_line].l_write) (tp, uio, flag));
}

int
iteioctl(dev, cmd, addr, flag, p)
	dev_t dev;
	int cmd, flag;
	caddr_t addr;
	struct proc *p;
{
	struct ite_softc *ip = &ite_softc[minor(dev)];
	struct tty *tp = ite_tty[minor(dev)];
	int error;

	KDASSERT(tp);

	error = (*linesw[tp->t_line].l_ioctl) (tp, cmd, addr, flag, p);
	if (error >= 0)
		return (error);
	error = ttioctl(tp, cmd, addr, flag, p);
	if (error >= 0)
		return (error);

	switch (cmd) {
	case ITELOADKMAP:
		if (addr) {
			bcopy(addr, &kbdmap, sizeof(struct kbdmap));

			return 0;
		} else
			return EFAULT;
	case ITEGETKMAP:
		if (addr) {
			bcopy(&kbdmap, addr, sizeof(struct kbdmap));

			return 0;
		} else
			return EFAULT;
	}
	/* XXX */
	if (minor(dev) == 0) {
		error = ite_grf_ioctl(ip, cmd, addr, flag, p);
		if (error >= 0)
			return (error);
	}
	return (ENOTTY);
}

void
itestart(tp)
	struct tty *tp;
{
	struct clist *rbp;
	struct ite_softc *ip = &ite_softc[minor(tp->t_dev)];
	u_char buf[ITEBURST];
	int s, len, n;

	KDASSERT(tp);

	s = spltty(); {
		if (tp->t_state & (TS_TIMEOUT | TS_BUSY | TS_TTSTOP))
			goto out;

		tp->t_state |= TS_BUSY;
		rbp = &tp->t_outq;

		len = q_to_b(rbp, buf, ITEBURST);
	} splx(s);

	/* Here is a really good place to implement pre/jumpscroll() */
	ite_putstr(buf, len, tp->t_dev);

	s = spltty(); {
		tp->t_state &= ~TS_BUSY;
		/* we have characters remaining. */
		if (rbp->c_cc) {
			tp->t_state |= TS_TIMEOUT;
			timeout((timeout_t) ttrstrt, (caddr_t) tp, 1);
		}
		/* wakeup we are below */
		if (rbp->c_cc <= tp->t_lowat) {
			if (tp->t_state & TS_ASLEEP) {
				tp->t_state &= ~TS_ASLEEP;
				wakeup((caddr_t) rbp);
			}
			selwakeup(&tp->t_wsel);
		}
	      out:
	} splx(s);
}

int
ite_on(dev, flag)
	dev_t dev;
	int flag;
{
	int unit = minor(dev);
	struct ite_softc *ip = &ite_softc[unit];

	if (unit < 0 || unit >= NITE || (ip->flags & ITE_ALIVE) == 0)
		return (ENXIO);
	/* force ite active, overriding graphics mode */
	if (flag & 1) {
		ip->flags |= ITE_ACTIVE;
		ip->flags &= ~(ITE_INGRF | ITE_INITED);
	}
	/* leave graphics mode */
	if (flag & 2) {
		ip->flags &= ~ITE_INGRF;
		if ((ip->flags & ITE_ACTIVE) == 0)
			return (0);
	}
	ip->flags |= ITE_ACTIVE;
	if (ip->flags & ITE_INGRF)
		return (0);
	iteinit(dev);
	return (0);
}

int
ite_off(dev, flag)
	dev_t dev;
	int flag;
{
	register struct ite_softc *ip = &ite_softc[minor(dev)];

	if (flag & 2)
		ip->flags |= ITE_INGRF;
	if ((ip->flags & ITE_ACTIVE) == 0)
		return;
	if ((flag & 1) ||
	    (ip->flags & (ITE_INGRF | ITE_ISCONS | ITE_INITED)) == ITE_INITED)
		SUBR_DEINIT(ip);
	if ((flag & 2) == 0)	/* XXX hmm grfon() I think wants this to  go inactive. */
		ip->flags &= ~ITE_ACTIVE;
}

/* XXX called after changes made in underlying grf layer. */
/* I want to nuke this */
void
ite_reinit(dev)
	dev_t dev;
{
	struct ite_softc *ip = &ite_softc[minor(dev)];

	ip->flags &= ~ITE_INITED;
	iteinit(dev);
}

int
ite_param(tp, t)
	struct tty *tp;
	struct termios *t;
{
	tp->t_ispeed = t->c_ispeed;
	tp->t_ospeed = t->c_ospeed;
	tp->t_cflag = t->c_cflag;
	return (0);
}

void
ite_reset(ip)
	struct ite_softc *ip;
{
	int i;

	ip->curx = 0;
	ip->cury = 0;
	ip->attribute = ATTR_NOR;
	ip->save_curx = 0;
	ip->save_cury = 0;
	ip->save_attribute = ATTR_NOR;
	ip->ap = ip->argbuf;
	ip->emul_level = 0;
	ip->eightbit_C1 = 0;
	ip->top_margin = 0;
	ip->bottom_margin = ip->rows - 1;
	ip->inside_margins = 0;
	ip->linefeed_newline = 0;
	ip->auto_wrap = 0;
	ip->cursor_appmode = 0;
	ip->keypad_appmode = 0;
	ip->imode = 0;
	ip->key_repeat = 1;
	bzero(ip->tabs, ip->cols);
	for (i = 0; i < ip->cols; i++)
		ip->tabs[i] = ((i & 7) == 0);
}

/* Used in console at startup only */
int
ite_cnfilter(c, caller)
	u_char c;
	enum caller caller;
{
	struct tty *kbd_tty;
	static u_char mod = 0;
	static u_char last_dead = 0;
	struct key key;
	u_char code, up, mask;
	int s, i;

	up = c & 0x80 ? 1 : 0;
	c &= 0x7f;
	code = 0;

	s = spltty();

	i = (int)c - KBD_LEFT_SHIFT;
	if (i >= 0 && i <= (KBD_RIGHT_META - KBD_LEFT_SHIFT)) {
		mask = 1 << i;
		if (up)
			mod &= ~mask;
		else
			mod |= mask;
		splx(s);
		return -1;
	}

	if (up) {
		splx(s);
		return -1;
	}

	/* translate modifiers */
	if (mod & KBD_MOD_SHIFT) {
		if (mod & KBD_MOD_ALT)
			key = kbdmap.alt_shift_keys[c];
		else
			key = kbdmap.shift_keys[c];
	} else if (mod & KBD_MOD_ALT)
		key = kbdmap.alt_keys[c];
	else {
		key = kbdmap.keys[c];
		/* if CAPS and key is CAPable (no pun intended) */
		if ((mod & KBD_MOD_CAPS) && (key.mode & KBD_MODE_CAPS))
			key = kbdmap.shift_keys[c];
	}
	code = key.code;

	/* if string return */
	if (key.mode & (KBD_MODE_STRING | KBD_MODE_KPAD)) {
		splx(s);
		return -1;
	}
	/* handle dead keys */
	if (key.mode & KBD_MODE_DEAD) {
		/* if entered twice, send accent itself */
		if (last_dead == key.mode & KBD_MODE_ACCMASK)
			last_dead = 0;
		else {
			last_dead = key.mode & KBD_MODE_ACCMASK;
			splx(s);
			return -1;
		}
	}
	if (last_dead) {
		/* can't apply dead flag to string-keys */
		if (code >= '@' && code < 0x7f)
			code =
			    acctable[KBD_MODE_ACCENT(last_dead)][code - '@'];
		last_dead = 0;
	}
	if (mod & KBD_MOD_CTRL)
		code &= 0x1f;
	if (mod & KBD_MOD_META)
		code |= 0x80;

	/* do console mapping. */
	code = code == '\r' ? '\n' : code;

	splx(s);
	return (code);
}

/* And now the old stuff. */

/* these are used to implement repeating keys.. */
static u_char last_char = 0;
static u_char tout_pending = 0;

static void
repeat_handler(a0, a1)
	int a0, a1;
{
	tout_pending = 0;
	if (last_char)
		add_sicallback(ite_filter, last_char, ITEFILT_REPEATER);
}

void
ite_filter(c, caller)
	u_char c;
	enum caller caller;
{
	struct tty *kbd_tty;
	static u_char mod = 0;
	static u_char last_dead = 0;
	u_char code, *str, up, mask;
	struct key key;
	int s, i;

	if (!kbd_ite)
		return;
	kbd_tty = ite_tty[kbd_ite - ite_softc];

	/* have to make sure we're at spltty in here */
	s = spltty();

	/*
	 * keyboard interrupts come at priority 2, while softint
	 * generated keyboard-repeat interrupts come at level 1.  So,
	 * to not allow a key-up event to get thru before a repeat for
	 * the key-down, we remove any outstanding callout requests..
	 */
	rem_sicallback(ite_filter);

	up = c & 0x80 ? 1 : 0;
	c &= 0x7f;
	code = 0;

	i = (int)c - KBD_LEFT_SHIFT;
	if (i >= 0 && i <= (KBD_RIGHT_META - KBD_LEFT_SHIFT)) {
		mask = 1 << i;
		if (up)
			mod &= ~mask;
		else
			mod |= mask;
		splx(s);
		return;
	}
	/* stop repeating on up event */
	if (up) {
		if (tout_pending) {
			untimeout((timeout_t) repeat_handler, 0);
			tout_pending = 0;
			last_char = 0;
		}
		splx(s);
		return;
	} else if (tout_pending && last_char != c) {
		/* different character, stop also */
		untimeout((timeout_t) repeat_handler, 0);
		tout_pending = 0;
		last_char = 0;
	}
	/* Safety button, switch back to ascii keymap. */
	if (mod == (KBD_MOD_LALT | KBD_MOD_LMETA) && c == 0x50) {
		bcopy(&ascii_kbdmap, &kbdmap, sizeof(struct kbdmap));

		splx(s);
		return;
	}
	/* translate modifiers */
	if (mod & KBD_MOD_SHIFT) {
		if (mod & KBD_MOD_ALT)
			key = kbdmap.alt_shift_keys[c];
		else
			key = kbdmap.shift_keys[c];
	} else if (mod & KBD_MOD_ALT)
		key = kbdmap.alt_keys[c];
	else {
		key = kbdmap.keys[c];
		/* if CAPS and key is CAPable (no pun intended) */
		if ((mod & KBD_MOD_CAPS) && (key.mode & KBD_MODE_CAPS))
			key = kbdmap.shift_keys[c];
	}
	code = key.code;

	/*
	 * arrange to repeat the keystroke. By doing this at the level
	 * of scan-codes, we can have function keys, and keys that
	 * send strings, repeat too. This also entitles an additional
	 * overhead, since we have to do the conversion each time, but
	 * I guess that's ok.
	 */
	if (!tout_pending && caller == ITEFILT_TTY && kbd_ite->key_repeat) {
		tout_pending = 1;
		last_char = c;
		timeout((timeout_t) repeat_handler, 0, start_repeat_timeo);
	} else if (!tout_pending && caller == ITEFILT_REPEATER &&
	    kbd_ite->key_repeat) {
		tout_pending = 1;
		last_char = c;
		timeout((timeout_t) repeat_handler, 0, next_repeat_timeo);
	}
	/* handle dead keys */
	if (key.mode & KBD_MODE_DEAD) {
		/* if entered twice, send accent itself */
		if (last_dead == key.mode & KBD_MODE_ACCMASK)
			last_dead = 0;
		else {
			last_dead = key.mode & KBD_MODE_ACCMASK;
			splx(s);
			return;
		}
	}
	if (last_dead) {
		/* can't apply dead flag to string-keys */
		if (!(key.mode & KBD_MODE_STRING) && code >= '@' &&
		    code < 0x7f)
			code = acctable[KBD_MODE_ACCENT(last_dead)][code - '@'];
		last_dead = 0;
	}
	/* if not string, apply META and CTRL modifiers */
	if (!(key.mode & KBD_MODE_STRING)
	    && (!(key.mode & KBD_MODE_KPAD) ||
		(kbd_ite && !kbd_ite->keypad_appmode))) {
		if (mod & KBD_MOD_CTRL)
			code &= 0x1f;
		if (mod & KBD_MOD_META)
			code |= 0x80;
	} else if ((key.mode & KBD_MODE_KPAD) &&
	    (kbd_ite && kbd_ite->keypad_appmode)) {
		static char *in = "0123456789-+.\r()/*";
		static char *out = "pqrstuvwxymlnMPQRS";
		char *cp;

		/*
		 * keypad-appmode sends SS3 followed by the above
		 * translated character
		 */
		(*linesw[kbd_tty->t_line].l_rint) (27, kbd_tty);
		(*linesw[kbd_tty->t_line].l_rint) ('0', kbd_tty);
		(*linesw[kbd_tty->t_line].l_rint) (out[cp - in], kbd_tty);
		splx(s);
		return;
	} else {
		/* *NO* I don't like this.... */
		static u_char app_cursor[] =
		{
		    3, 27, 'O', 'A',
		    3, 27, 'O', 'B',
		    3, 27, 'O', 'C',
		    3, 27, 'O', 'D'};

		str = kbdmap.strings + code;
		/*
		 * if this is a cursor key, AND it has the default
		 * keymap setting, AND we're in app-cursor mode, switch
		 * to the above table. This is *nasty* !
		 */
		if (c >= 0x4c && c <= 0x4f && kbd_ite->cursor_appmode
		    && !bcmp(str, "\x03\x1b[", 3) &&
		    index("ABCD", str[3]))
			str = app_cursor + 4 * (str[3] - 'A');

		/*
		 * using a length-byte instead of 0-termination allows
		 * to embed \0 into strings, although this is not used
		 * in the default keymap
		 */
		for (i = *str++; i; i--)
			(*linesw[kbd_tty->t_line].l_rint) (*str++, kbd_tty);
		splx(s);
		return;
	}
	(*linesw[kbd_tty->t_line].l_rint) (code, kbd_tty);

	splx(s);
	return;
}

/* helper functions, makes the code below more readable */
static void inline
ite_sendstr(str)
	char *str;
{
	struct tty *kbd_tty = ite_tty[kbd_ite - ite_softc];

	KDASSERT(kbd_tty);
	while (*str)
		(*linesw[kbd_tty->t_line].l_rint) (*str++, kbd_tty);
}

static void
alignment_display(ip)
	struct ite_softc *ip;
{
  int i, j;

  for (j = 0; j < ip->rows; j++)
    for (i = 0; i < ip->cols; i++)
      SUBR_PUTC(ip, 'E', j, i, ATTR_NOR);
  attrclr(ip, 0, 0, ip->rows, ip->cols);
  SUBR_CURSOR(ip, DRAW_CURSOR);
}

static void inline
snap_cury(ip)
	struct ite_softc *ip;
{
  if (ip->inside_margins)
    {
      if (ip->cury < ip->top_margin)
	ip->cury = ip->top_margin;
      if (ip->cury > ip->bottom_margin)
	ip->cury = ip->bottom_margin;
    }
}

static void inline
ite_dnchar(ip, n)
     struct ite_softc *ip;
     int n;
{
  n = MIN(n, ip->cols - ip->curx);
  if (n < ip->cols - ip->curx)
    {
      SUBR_SCROLL(ip, ip->cury, ip->curx + n, n, SCROLL_LEFT);
      attrmov(ip, ip->cury, ip->curx + n, ip->cury, ip->curx,
	      1, ip->cols - ip->curx - n);
      attrclr(ip, ip->cury, ip->cols - n, 1, n);
    }
  while (n-- > 0)
    SUBR_PUTC(ip, ' ', ip->cury, ip->cols - n - 1, ATTR_NOR);
  SUBR_CURSOR(ip, DRAW_CURSOR);
}

static void inline
ite_inchar(ip, n)
     struct ite_softc *ip;
     int n;
{
  n = MIN(n, ip->cols - ip->curx);
  if (n < ip->cols - ip->curx)
    {
      SUBR_SCROLL(ip, ip->cury, ip->curx, n, SCROLL_RIGHT);
      attrmov(ip, ip->cury, ip->curx, ip->cury, ip->curx + n,
	      1, ip->cols - ip->curx - n);
      attrclr(ip, ip->cury, ip->curx, 1, n);
    }
  while (n--)
    SUBR_PUTC(ip, ' ', ip->cury, ip->curx + n, ATTR_NOR);
  SUBR_CURSOR(ip, DRAW_CURSOR);
}

static void inline
ite_clrtoeol(ip)
     struct ite_softc *ip;
{
  int y = ip->cury, x = ip->curx;
  if (ip->cols - x > 0)
    {
      SUBR_CLEAR(ip, y, x, 1, ip->cols - x);
      attrclr(ip, y, x, 1, ip->cols - x);
      SUBR_CURSOR(ip, DRAW_CURSOR);
    }
}

static void inline
ite_clrtobol(ip)
     struct ite_softc *ip;
{
  int y = ip->cury, x = MIN(ip->curx + 1, ip->cols);
  SUBR_CLEAR(ip, y, 0, 1, x);
  attrclr(ip, y, 0, 1, x);
  SUBR_CURSOR(ip, DRAW_CURSOR);
}

static void inline
ite_clrline(ip)
     struct ite_softc *ip;
{
  int y = ip->cury;
  SUBR_CLEAR(ip, y, 0, 1, ip->cols);
  attrclr(ip, y, 0, 1, ip->cols);
  SUBR_CURSOR(ip, DRAW_CURSOR);
}



static void inline
ite_clrtoeos(ip)
     struct ite_softc *ip;
{
  ite_clrtoeol(ip);
  if (ip->cury < ip->rows - 1)
    {
      SUBR_CLEAR(ip, ip->cury + 1, 0, ip->rows - 1 - ip->cury, ip->cols);
      attrclr(ip, ip->cury, 0, ip->rows - ip->cury, ip->cols);
      SUBR_CURSOR(ip, DRAW_CURSOR);
    }
}

static void inline
ite_clrtobos(ip)
     struct ite_softc *ip;
{
  ite_clrtobol(ip);
  if (ip->cury > 0)
    {
      SUBR_CLEAR(ip, 0, 0, ip->cury, ip->cols);
      attrclr(ip, 0, 0, ip->cury, ip->cols);
      SUBR_CURSOR(ip, DRAW_CURSOR);
    }
}

static void inline
ite_clrscreen(ip)
     struct ite_softc *ip;
{
  SUBR_CLEAR(ip, 0, 0, ip->rows, ip->cols);
  attrclr(ip, 0, 0, ip->rows, ip->cols);
  SUBR_CURSOR(ip, DRAW_CURSOR);
}



static void inline
ite_dnline(ip, n)
     struct ite_softc *ip;
     int n;
{
  /* interesting.. if the cursor is outside the scrolling
     region, this command is simply ignored.. */
  if (ip->cury < ip->top_margin || ip->cury > ip->bottom_margin)
    return;

  n = MIN(n, ip->bottom_margin + 1 - ip->cury);
  if (n <= ip->bottom_margin - ip->cury)
    {
      SUBR_SCROLL(ip, ip->cury + n, 0, n, SCROLL_UP);
      attrmov(ip, ip->cury + n, 0, ip->cury, 0,
	      ip->bottom_margin + 1 - ip->cury - n, ip->cols);
    }
  SUBR_CLEAR(ip, ip->bottom_margin - n + 1, 0, n, ip->cols);
  attrclr(ip, ip->bottom_margin - n + 1, 0, n, ip->cols);
  SUBR_CURSOR(ip, DRAW_CURSOR);
}

static void inline
ite_inline(ip, n)
     struct ite_softc *ip;
     int n;
{
  /* interesting.. if the cursor is outside the scrolling
     region, this command is simply ignored.. */
  if (ip->cury < ip->top_margin || ip->cury > ip->bottom_margin)
    return;

  n = MIN(n, ip->bottom_margin + 1 - ip->cury);
  if (n <= ip->bottom_margin - ip->cury)
    {
      SUBR_SCROLL(ip, ip->cury, 0, n, SCROLL_DOWN);
      attrmov(ip, ip->cury, 0, ip->cury + n, 0,
	      ip->bottom_margin + 1 - ip->cury - n, ip->cols);
    }
  SUBR_CLEAR(ip, ip->cury, 0, n, ip->cols);
  attrclr(ip, ip->cury, 0, n, ip->cols);
  SUBR_CURSOR(ip, DRAW_CURSOR);
}

static void inline
ite_lf (ip)
     struct ite_softc *ip;
{
  ++ip->cury;
  if ((ip->cury == ip->bottom_margin+1) || (ip->cury == ip->rows))
    {
      ip->cury--;
      SUBR_SCROLL(ip, ip->top_margin + 1, 0, 1, SCROLL_UP);
      ite_clrline(ip);
    }
  SUBR_CURSOR(ip, MOVE_CURSOR);
  clr_attr(ip, ATTR_INV);
}

static void inline
ite_crlf (ip)
     struct ite_softc *ip;
{
  ip->curx = 0;
  ite_lf (ip);
}

static void inline
ite_cr (ip)
     struct ite_softc *ip;
{
  if (ip->curx)
    {
      ip->curx = 0;
      SUBR_CURSOR(ip, MOVE_CURSOR);
    }
}

static void inline
ite_rlf (ip)
     struct ite_softc *ip;
{
  ip->cury--;
  if ((ip->cury < 0) || (ip->cury == ip->top_margin - 1))
    {
      ip->cury++;
      SUBR_SCROLL(ip, ip->top_margin, 0, 1, SCROLL_DOWN);
      ite_clrline(ip);
    }
  SUBR_CURSOR(ip, MOVE_CURSOR);
  clr_attr(ip, ATTR_INV);
}

static int inline
atoi (cp)
    const char *cp;
{
  int n;

  for (n = 0; *cp && *cp >= '0' && *cp <= '9'; cp++)
    n = n * 10 + *cp - '0';

  return n;
}

static char *
index (cp, ch)
    const char *cp;
    char ch;
{
  while (*cp && *cp != ch) cp++;
  return *cp ? (char *) cp : 0;
}



static int inline
ite_argnum (ip)
    struct ite_softc *ip;
{
  char ch;
  int n;

  /* convert argument string into number */
  if (ip->ap == ip->argbuf)
    return 1;
  ch = *ip->ap;
  *ip->ap = 0;
  n = atoi (ip->argbuf);
  *ip->ap = ch;

  return n;
}

static int inline
ite_zargnum (ip)
    struct ite_softc *ip;
{
  char ch, *cp;
  int n;

  /* convert argument string into number */
  if (ip->ap == ip->argbuf)
    return 0;
  ch = *ip->ap;
  *ip->ap = 0;
  n = atoi (ip->argbuf);
  *ip->ap = ch;

  return n;	/* don't "n ? n : 1" here, <CSI>0m != <CSI>1m ! */
}

static int inline
strncmp (a, b, l)
    const char *a, *b;
    int l;
{
  for (;l--; a++, b++)
    if (*a != *b)
      return *a - *b;
  return 0;
}

void
ite_putstr(s, len, dev)
	const char *s;
	int len;
	dev_t dev;
{
	struct ite_softc *ip = &ite_softc[minor(dev)];
	int i;

	/* XXX avoid problems */
	if ((ip->flags & (ITE_ACTIVE|ITE_INGRF)) != ITE_ACTIVE)
	  	return;

	SUBR_CURSOR(ip, START_CURSOROPT);
	for (i = 0; i < len; i++)
		if (s[i])
			iteputchar(s[i], ip);
	SUBR_CURSOR(ip, END_CURSOROPT);
}


void
iteputchar(c, ip)
	register int c;
	struct ite_softc *ip;
{
	struct tty *kbd_tty;
	int n, x, y;
	char *cp;

	kbd_tty = ite_tty[kbd_ite - ite_softc];

	if (ip->escape)
	  {
doesc:
	    switch (ip->escape)
	      {
	      case ESC:
	        switch (c)
	          {
		  /* first 7bit equivalents for the 8bit control characters */

	          case 'D':
		    c = IND;
		    ip->escape = 0;
		    break; /* and fall into the next switch below (same for all `break') */

		  case 'E':
		    c = NEL;
		    ip->escape = 0;
		    break;

		  case 'H':
		    c = HTS;
		    ip->escape = 0;
		    break;

		  case 'M':
		    c = RI;
		    ip->escape = 0;
		    break;

		  case 'N':
		    c = SS2;
		    ip->escape = 0;
		    break;

		  case 'O':
		    c = SS3;
		    ip->escape = 0;
		    break;

		  case 'P':
		    c = DCS;
		    ip->escape = 0;
		    break;

		  case '[':
		    c = CSI;
		    ip->escape = 0;
		    break;

		  case '\\':
		    c = ST;
		    ip->escape = 0;
		    break;

		  case ']':
		    c = OSC;
		    ip->escape = 0;
		    break;

		  case '^':
		    c = PM;
		    ip->escape = 0;
		    break;

		  case '_':
		    c = APC;
		    ip->escape = 0;
		    break;


		  /* introduces 7/8bit control */
		  case ' ':
		     /* can be followed by either F or G */
		     ip->escape = ' ';
		     break;


		  /* a lot of character set selections, not yet used...
		     94-character sets: */
		  case '(':	/* G0 */
		  case ')':	/* G1 */
		    ip->escape = c;
		    return;

		  case '*':	/* G2 */
		  case '+':	/* G3 */
		  case 'B':	/* ASCII */
		  case 'A':	/* ISO latin 1 */
		  case '<':	/* user preferred suplemental */
		  case '0':	/* dec special graphics */

		  /* 96-character sets: */
		  case '-':	/* G1 */
		  case '.':	/* G2 */
		  case '/':	/* G3 */

		  /* national character sets: */
		  case '4':	/* dutch */
		  case '5':
		  case 'C':	/* finnish */
		  case 'R':	/* french */
		  case 'Q':	/* french canadian */
		  case 'K':	/* german */
		  case 'Y':	/* italian */
		  case '6':	/* norwegian/danish */
		  /* note: %5 and %6 are not supported (two chars..) */

		    ip->escape = 0;
		    /* just ignore for now */
		    return;


		  /* locking shift modes (as you might guess, not yet supported..) */
		  case '`':
		    ip->GR = ip->G1;
		    ip->escape = 0;
		    return;

		  case 'n':
		    ip->GL = ip->G2;
		    ip->escape = 0;
		    return;

		  case '}':
		    ip->GR = ip->G2;
		    ip->escape = 0;
		    return;

		  case 'o':
		    ip->GL = ip->G3;
		    ip->escape = 0;
		    return;

		  case '|':
		    ip->GR = ip->G3;
		    ip->escape = 0;
		    return;


		  /* font width/height control */
		  case '#':
		    ip->escape = '#';
		    return;


		  /* hard terminal reset .. */
		  case 'c':
		    ite_reset (ip);
		    SUBR_CURSOR(ip, MOVE_CURSOR);
		    ip->escape = 0;
		    return;


		  case '7':
		    ip->save_curx = ip->curx;
		    ip->save_cury = ip->cury;
		    ip->save_attribute = ip->attribute;
		    ip->escape = 0;
		    return;

		  case '8':
		    ip->curx = ip->save_curx;
		    ip->cury = ip->save_cury;
		    ip->attribute = ip->save_attribute;
		    SUBR_CURSOR(ip, MOVE_CURSOR);
		    ip->escape = 0;
		    return;

		  case '=':
		    ip->keypad_appmode = 1;
		    ip->escape = 0;
		    return;

		  case '>':
		    ip->keypad_appmode = 0;
		    ip->escape = 0;
		    return;

		  case 'Z':	/* request ID */
		    if (ip->emul_level == EMUL_VT100)
		      ite_sendstr (ip, "\033[61;0c"); /* XXX not clean */
		    else
		      ite_sendstr (ip, "\033[63;0c"); /* XXX not clean */
		    ip->escape = 0;
		    return;

		  /* default catch all for not recognized ESC sequences */
		  default:
		    ip->escape = 0;
		    return;
		  }
		break;


	      case '(':
	      case ')':
		ip->escape = 0;
		return;


	      case ' ':
	        switch (c)
	          {
	          case 'F':
		    ip->eightbit_C1 = 0;
		    ip->escape = 0;
		    return;

		  case 'G':
		    ip->eightbit_C1 = 1;
		    ip->escape = 0;
		    return;

		  default:
		    /* not supported */
		    ip->escape = 0;
		    return;
		  }
		break;


	      case '#':
		switch (c)
		  {
		  case '5':
		    /* single height, single width */
		    ip->escape = 0;
		    return;

		  case '6':
		    /* double width, single height */
		    ip->escape = 0;
		    return;

		  case '3':
		    /* top half */
		    ip->escape = 0;
		    return;

		  case '4':
		    /* bottom half */
		    ip->escape = 0;
		    return;

		  case '8':
		    /* screen alignment pattern... */
		    alignment_display (ip);
		    ip->escape = 0;
		    return;

		  default:
		    ip->escape = 0;
		    return;
		  }
		break;



	      case CSI:
	        /* the biggie... */
	        switch (c)
	          {
	          case '0': case '1': case '2': case '3': case '4':
	          case '5': case '6': case '7': case '8': case '9':
	          case ';': case '\"': case '$': case '>':
	            if (ip->ap < ip->argbuf + MAX_ARGSIZE)
	              *ip->ap++ = c;
	            return;

		  case BS:
		    /* you wouldn't believe such perversion is possible?
		       it is.. BS is allowed in between cursor sequences
		       (at least), according to vttest.. */
		    if (--ip->curx < 0)
		      ip->curx = 0;
		    else
		      SUBR_CURSOR(ip, MOVE_CURSOR);
		    break;

	          case 'p':
		    *ip->ap = 0;
	            if (! strncmp (ip->argbuf, "61\"", 3))
	              ip->emul_level = EMUL_VT100;
	            else if (! strncmp (ip->argbuf, "63;1\"", 5)
	            	     || ! strncmp (ip->argbuf, "62;1\"", 5))
	              ip->emul_level = EMUL_VT300_7;
	            else
	              ip->emul_level = EMUL_VT300_8;
	            ip->escape = 0;
	            return;


	          case '?':
		    *ip->ap = 0;
	            ip->escape = '?';
	            ip->ap = ip->argbuf;
	            return;


		  case 'c':
  		    *ip->ap = 0;
		    if (ip->argbuf[0] == '>')
		      {
		        ite_sendstr (ip, "\033[>24;0;0;0c");
		      }
		    else switch (ite_zargnum(ip))
		      {
		      case 0:
			/* primary DA request, send primary DA response */
			if (ip->emul_level == EMUL_VT100)
		          ite_sendstr (ip, "\033[?1;1c");
		        else
		          ite_sendstr (ip, "\033[63;0c");
			break;
		      }
		    ip->escape = 0;
		    return;

		  case 'n':
		    switch (ite_zargnum(ip))
		      {
		      case 5:
		        ite_sendstr (ip, "\033[0n");	/* no malfunction */
			break;
		      case 6:
			/* cursor position report */
		        sprintf (ip->argbuf, "\033[%d;%dR",
				 ip->cury + 1, ip->curx + 1);
			ite_sendstr (ip, ip->argbuf);
			break;
		      }
		    ip->escape = 0;
		    return;


		  case 'x':
		    switch (ite_zargnum(ip))
		      {
		      case 0:
			/* Fake some terminal parameters.  */
		        ite_sendstr (ip, "\033[2;1;1;112;112;1;0x");
			break;
		      case 1:
		        ite_sendstr (ip, "\033[3;1;1;112;112;1;0x");
			break;
		      }
		    ip->escape = 0;
		    return;


		  case 'g':
		    switch (ite_zargnum(ip))
		      {
		      case 0:
			if (ip->curx < ip->cols)
			  ip->tabs[ip->curx] = 0;
			break;
		      case 3:
		        for (n = 0; n < ip->cols; n++)
		          ip->tabs[n] = 0;
			break;
		      }
		    ip->escape = 0;
		    return;


  	          case 'h': case 'l':
		    n = ite_zargnum (ip);
		    switch (n)
		      {
		      case 4:
		        ip->imode = (c == 'h');	/* insert/replace mode */
			break;
		      case 20:
			ip->linefeed_newline = (c == 'h');
			break;
		      }
		    ip->escape = 0;
		    return;


		  case 'M':
		    ite_dnline (ip, ite_argnum (ip));
	            ip->escape = 0;
	            return;


		  case 'L':
		    ite_inline (ip, ite_argnum (ip));
	            ip->escape = 0;
	            return;


		  case 'P':
		    ite_dnchar (ip, ite_argnum (ip));
	            ip->escape = 0;
	            return;


		  case '@':
		    ite_inchar (ip, ite_argnum (ip));
	            ip->escape = 0;
	            return;


		  case 'G':
		    /* this one was *not* in my vt320 manual but in
		       a vt320 termcap entry.. who is right?
		       It's supposed to set the horizontal cursor position. */
		    *ip->ap = 0;
		    x = atoi (ip->argbuf);
		    if (x) x--;
		    ip->curx = MIN(x, ip->cols - 1);
		    ip->escape = 0;
		    SUBR_CURSOR(ip, MOVE_CURSOR);
		    clr_attr (ip, ATTR_INV);
		    return;


		  case 'd':
		    /* same thing here, this one's for setting the absolute
		       vertical cursor position. Not documented... */
		    *ip->ap = 0;
		    y = atoi (ip->argbuf);
		    if (y) y--;
		    if (ip->inside_margins)
		      y += ip->top_margin;
		    ip->cury = MIN(y, ip->rows - 1);
		    ip->escape = 0;
		    snap_cury(ip);
		    SUBR_CURSOR(ip, MOVE_CURSOR);
		    clr_attr (ip, ATTR_INV);
		    return;


		  case 'H':
		  case 'f':
		    *ip->ap = 0;
		    y = atoi (ip->argbuf);
		    x = 0;
		    cp = index (ip->argbuf, ';');
		    if (cp)
		      x = atoi (cp + 1);
		    if (x) x--;
		    if (y) y--;
		    if (ip->inside_margins)
		      y += ip->top_margin;
		    ip->cury = MIN(y, ip->rows - 1);
		    ip->curx = MIN(x, ip->cols - 1);
		    ip->escape = 0;
		    snap_cury(ip);
		    SUBR_CURSOR(ip, MOVE_CURSOR);
		    clr_attr (ip, ATTR_INV);
		    return;

		  case 'A':
		    n = ite_argnum (ip);
		    n = ip->cury - (n ? n : 1);
		    if (n < 0) n = 0;
		    if (ip->inside_margins)
		      n = MAX(ip->top_margin, n);
		    else if (n == ip->top_margin - 1)
		      /* allow scrolling outside region, but don't scroll out
			 of active region without explicit CUP */
		      n = ip->top_margin;
		    ip->cury = n;
		    ip->escape = 0;
		    SUBR_CURSOR(ip, MOVE_CURSOR);
		    clr_attr (ip, ATTR_INV);
		    return;

		  case 'B':
		    n = ite_argnum (ip);
		    n = ip->cury + (n ? n : 1);
		    n = MIN(ip->rows - 1, n);
		    if (ip->inside_margins)
		      n = MIN(ip->bottom_margin, n);
		    else if (n == ip->bottom_margin + 1)
		      /* allow scrolling outside region, but don't scroll out
			 of active region without explicit CUP */
		      n = ip->bottom_margin;
		    ip->cury = n;
		    ip->escape = 0;
		    SUBR_CURSOR(ip, MOVE_CURSOR);
		    clr_attr (ip, ATTR_INV);
		    return;

		  case 'C':
		    n = ite_argnum (ip);
		    n = n ? n : 1;
		    ip->curx = MIN(ip->curx + n, ip->cols - 1);
		    ip->escape = 0;
		    SUBR_CURSOR(ip, MOVE_CURSOR);
		    clr_attr (ip, ATTR_INV);
		    return;

		  case 'D':
		    n = ite_argnum (ip);
		    n = n ? n : 1;
		    n = ip->curx - n;
		    ip->curx = n >= 0 ? n : 0;
		    ip->escape = 0;
		    SUBR_CURSOR(ip, MOVE_CURSOR);
		    clr_attr (ip, ATTR_INV);
		    return;




		  case 'J':
		    *ip->ap = 0;
		    n = ite_zargnum (ip);
		    if (n == 0)
	              ite_clrtoeos(ip);
		    else if (n == 1)
		      ite_clrtobos(ip);
		    else if (n == 2)
		      ite_clrscreen(ip);
	            ip->escape = 0;
	            return;


		  case 'K':
		    n = ite_zargnum (ip);
		    if (n == 0)
		      ite_clrtoeol(ip);
		    else if (n == 1)
		      ite_clrtobol(ip);
		    else if (n == 2)
		      ite_clrline(ip);
		    ip->escape = 0;
		    return;


		  case 'X':
		    n = ite_argnum(ip) - 1;
		    n = MIN(n, ip->cols - 1 - ip->curx);
		    for (; n >= 0; n--)
		      {
			attrclr(ip, ip->cury, ip->curx + n, 1, 1);
			SUBR_PUTC(ip, ' ', ip->cury, ip->curx + n, ATTR_NOR);
		      }
		    ip->escape = 0;
		    return;


	          case '}': case '`':
	            /* status line control */
	            ip->escape = 0;
	            return;


		  case 'r':
		    *ip->ap = 0;
		    x = atoi (ip->argbuf);
		    x = x ? x : 1;
		    y = ip->rows;
		    cp = index (ip->argbuf, ';');
		    if (cp)
		      {
			y = atoi (cp + 1);
			y = y ? y : ip->rows;
		      }
		    if (y - x < 2)
		      {
			/* if illegal scrolling region, reset to defaults */
			x = 1;
			y = ip->rows;
		      }
		    x--;
		    y--;
		    ip->top_margin = MIN(x, ip->rows - 1);
		    ip->bottom_margin = MIN(y, ip->rows - 1);
		    if (ip->inside_margins)
		      {
			ip->cury = ip->top_margin;
			ip->curx = 0;
			SUBR_CURSOR(ip, MOVE_CURSOR);
		      }
		    ip->escape = 0;
		    return;


		  case 'm':
		    /* big attribute setter/resetter */
		    {
		      char *cp;
		      *ip->ap = 0;
		      /* kludge to make CSIm work (== CSI0m) */
		      if (ip->ap == ip->argbuf)
		        ip->ap++;
		      for (cp = ip->argbuf; cp < ip->ap; )
		        {
			  switch (*cp)
			    {
			    case 0:
			    case '0':
			      clr_attr (ip, ATTR_ALL);
			      cp++;
			      break;

			    case '1':
			      set_attr (ip, ATTR_BOLD);
			      cp++;
			      break;

			    case '2':
			      switch (cp[1])
			        {
			        case '2':
			          clr_attr (ip, ATTR_BOLD);
			          cp += 2;
			          break;

			        case '4':
			          clr_attr (ip, ATTR_UL);
			          cp += 2;
			          break;

			        case '5':
			          clr_attr (ip, ATTR_BLINK);
			          cp += 2;
			          break;

			        case '7':
			          clr_attr (ip, ATTR_INV);
			          cp += 2;
			          break;

		        	default:
		        	  cp++;
		        	  break;
		        	}
			      break;

			    case '4':
			      set_attr (ip, ATTR_UL);
			      cp++;
			      break;

			    case '5':
			      set_attr (ip, ATTR_BLINK);
			      cp++;
			      break;

			    case '7':
			      set_attr (ip, ATTR_INV);
			      cp++;
			      break;

			    default:
			      cp++;
			      break;
			    }
		        }

		    }
		    ip->escape = 0;
		    return;


		  case 'u':
		    /* DECRQTSR */
		    ite_sendstr (ip, "\033P\033\\");
		    ip->escape = 0;
		    return;



		  default:
		    ip->escape = 0;
		    return;
		  }
		break;



	      case '?':	/* CSI ? */
	      	switch (c)
	      	  {
	          case '0': case '1': case '2': case '3': case '4':
	          case '5': case '6': case '7': case '8': case '9':
	          case ';': case '\"': case '$':
		    /* Don't fill the last character; it's needed.  */
		    /* XXX yeah, where ?? */
	            if (ip->ap < ip->argbuf + MAX_ARGSIZE - 1)
	              *ip->ap++ = c;
	            return;


		  case 'n':
		    *ip->ap = 0;
		    if (ip->ap == &ip->argbuf[2])
		      {
		        if (! strncmp (ip->argbuf, "15", 2))
		          /* printer status: no printer */
		          ite_sendstr (ip, "\033[13n");

		        else if (! strncmp (ip->argbuf, "25", 2))
		          /* udk status */
		          ite_sendstr (ip, "\033[20n");

		        else if (! strncmp (ip->argbuf, "26", 2))
		          /* keyboard dialect: US */
		          ite_sendstr (ip, "\033[27;1n");
		      }
		    ip->escape = 0;
		    return;


  		  case 'h': case 'l':
		    n = ite_zargnum (ip);
		    switch (n)
		      {
		      case 1:
		        ip->cursor_appmode = (c == 'h');
		        break;

		      case 3:
		        /* 132/80 columns (132 == 'h') */
		        break;

		      case 4: /* smooth scroll */
			break;

		      case 5:
		        /* light background (=='h') /dark background(=='l') */
		        break;

		      case 6: /* origin mode */
			ip->inside_margins = (c == 'h');
			ip->curx = 0;
			ip->cury = ip->inside_margins ? ip->top_margin : 0;
			SUBR_CURSOR(ip, MOVE_CURSOR);
			break;

		      case 7: /* auto wraparound */
			ip->auto_wrap = (c == 'h');
			break;

		      case 8: /* keyboard repeat */
			ip->key_repeat = (c == 'h');
			break;

		      case 20: /* newline mode */
			ip->linefeed_newline = (c == 'h');
			break;

		      case 25: /* cursor on/off */
			SUBR_CURSOR(ip, (c == 'h') ? DRAW_CURSOR : ERASE_CURSOR);
			break;
		      }
		    ip->escape = 0;
		    return;

		  default:
		    ip->escape = 0;
		    return;
		  }
		break;


	      default:
	        ip->escape = 0;
	        return;
	      }
          }

	switch (c) {

	case VT:	/* VT is treated like LF */
	case FF:	/* so is FF */
	case LF:
		/* cr->crlf distinction is done here, on output,
		   not on input! */
		if (ip->linefeed_newline)
		  ite_crlf (ip);
		else
		  ite_lf (ip);
		break;

	case CR:
		ite_cr (ip);
		break;

	case BS:
		if (--ip->curx < 0)
			ip->curx = 0;
		else
			SUBR_CURSOR(ip, MOVE_CURSOR);
		break;

	case HT:
		for (n = ip->curx + 1; n < ip->cols; n++) {
			if (ip->tabs[n]) {
				ip->curx = n;
				SUBR_CURSOR(ip, MOVE_CURSOR);
				break;
			}
		}
		break;

	case BEL:
		if (kbd_tty && ite_tty[kbd_ite - ite_softc] == kbd_tty)
			kbdbell();
		break;

	case SO:
		ip->GL = ip->G1;
		break;

	case SI:
		ip->GL = ip->G0;
		break;

	case ENQ:
		/* send answer-back message !! */
		break;

	case CAN:
		ip->escape = 0;	/* cancel any escape sequence in progress */
		break;

	case SUB:
		ip->escape = 0;	/* dito, but see below */
		/* should also display a reverse question mark!! */
		break;

	case ESC:
		ip->escape = ESC;
		break;


	/* now it gets weird.. 8bit control sequences.. */
	case IND:	/* index: move cursor down, scroll */
		ite_lf (ip);
		break;

	case NEL:	/* next line. next line, first pos. */
		ite_crlf (ip);
		break;

	case HTS:	/* set horizontal tab */
		if (ip->curx < ip->cols)
		  ip->tabs[ip->curx] = 1;
		break;

	case RI:	/* reverse index */
		ite_rlf (ip);
		break;

	case SS2:	/* go into G2 for one character */
		/* not yet supported */
		break;

	case SS3:	/* go into G3 for one character */
		break;

	case DCS:	/* device control string introducer */
		ip->escape = DCS;
		ip->ap = ip->argbuf;
		break;

	case CSI:	/* control sequence introducer */
		ip->escape = CSI;
		ip->ap = ip->argbuf;
		break;

	case ST:	/* string terminator */
		/* ignore, if not used as terminator */
		break;

	case OSC:	/* introduces OS command. Ignore everything upto ST */
		ip->escape = OSC;
		break;

	case PM:	/* privacy message, ignore everything upto ST */
		ip->escape = PM;
		break;

	case APC:	/* application program command, ignore everything upto ST */
		ip->escape = APC;
		break;

	default:
		if (c < ' ' || c == DEL)
			break;
		if (ip->imode)
			ite_inchar(ip, 1);
		iteprecheckwrap(ip);
#ifdef DO_WEIRD_ATTRIBUTES
		if ((ip->attribute & ATTR_INV) || attrtest(ip, ATTR_INV)) {
			attrset(ip, ATTR_INV);
			SUBR_PUTC(ip, c, ip->cury, ip->curx, ATTR_INV);
		}
		else
			SUBR_PUTC(ip, c, ip->cury, ip->curx, ATTR_NOR);
#else
		SUBR_PUTC(ip, c, ip->cury, ip->curx, ip->attribute);
#endif
		SUBR_CURSOR(ip, DRAW_CURSOR);
		itecheckwrap(ip);
		break;
	}
}

iteprecheckwrap(ip)
	struct ite_softc *ip;
{
	if (ip->auto_wrap && ip->curx == ip->cols) {
		ip->curx = 0;
		clr_attr(ip, ATTR_INV);
		if (++ip->cury >= ip->bottom_margin + 1) {
			ip->cury = ip->bottom_margin;
			SUBR_CURSOR(ip, MOVE_CURSOR);
			SUBR_SCROLL(ip, ip->top_margin + 1, 0, 1, SCROLL_UP);
			ite_clrtoeol(ip);
		} else
			SUBR_CURSOR(ip, MOVE_CURSOR);
	}
}

itecheckwrap(ip)
	struct ite_softc *ip;
{
#if 0
	if (++ip->curx == ip->cols) {
		if (ip->auto_wrap) {
			ip->curx = 0;
			clr_attr(ip, ATTR_INV);
			if (++ip->cury >= ip->bottom_margin + 1) {
				ip->cury = ip->bottom_margin;
				SUBR_CURSOR(ip, MOVE_CURSOR);
				SUBR_SCROLL(ip, ip->top_margin + 1, 0, 1, SCROLL_UP);
				ite_clrtoeol(ip);
				return;
			}
		} else
			/* stay there if no autowrap.. */
			ip->curx--;
	}
#else
	if (ip->curx < ip->cols) {
		ip->curx++;
		SUBR_CURSOR(ip, MOVE_CURSOR);
	}
#endif
}

void
iteattach()
{
}

#endif