compat/sunos32/sunos32_ioctl.c

1.20       dsl /*	$NetBSD: sunos32_ioctl.c,v 1.20 2007/03/16 22:21:42 dsl Exp $	*/
 1.2       mrg /* from: NetBSD: sunos_ioctl.c,v 1.35 2001/02/03 22:20:02 mrg Exp 	*/
 1.1       mrg
 1.1       mrg /*
 1.1       mrg  * Copyright (c) 2001 Matthew R. Green
 1.1       mrg  * All rights reserved.
 1.1       mrg  *
 1.1       mrg  * Redistribution and use in source and binary forms, with or without
 1.1       mrg  * modification, are permitted provided that the following conditions
 1.1       mrg  * are met:
 1.1       mrg  * 1. Redistributions of source code must retain the above copyright
 1.1       mrg  *    notice, this list of conditions and the following disclaimer.
 1.1       mrg  * 2. Redistributions in binary form must reproduce the above copyright
 1.1       mrg  *    notice, this list of conditions and the following disclaimer in the
 1.1       mrg  *    documentation and/or other materials provided with the distribution.
 1.1       mrg  * 3. The name of the author may not be used to endorse or promote products
 1.1       mrg  *    derived from this software without specific prior written permission.
 1.1       mrg  *
 1.1       mrg  * THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS OR
 1.1       mrg  * IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES
 1.1       mrg  * OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED.
 1.1       mrg  * IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY DIRECT, INDIRECT,
 1.1       mrg  * INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING,
 1.1       mrg  * BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES;
 1.1       mrg  * LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED
 1.1       mrg  * AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY,
 1.1       mrg  * OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY
 1.1       mrg  * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF
 1.1       mrg  * SUCH DAMAGE.
 1.1       mrg  */
 1.1       mrg
 1.2       mrg /*
 1.2       mrg  * Copyright (c) 1993 Markus Wild.
 1.2       mrg  * All rights reserved.
 1.2       mrg  *
 1.2       mrg  * Redistribution and use in source and binary forms, with or without
 1.2       mrg  * modification, are permitted provided that the following conditions
 1.2       mrg  * are met:
 1.2       mrg  * 1. Redistributions of source code must retain the above copyright
 1.2       mrg  *    notice, this list of conditions and the following disclaimer.
 1.2       mrg  * 2. The name of the author may not be used to endorse or promote products
 1.2       mrg  *    derived from this software without specific prior written permission
 1.2       mrg  *
 1.2       mrg  * THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS OR
 1.2       mrg  * IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES
 1.2       mrg  * OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED.
 1.2       mrg  * IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY DIRECT, INDIRECT,
 1.2       mrg  * INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT
 1.2       mrg  * NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
 1.2       mrg  * DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
 1.2       mrg  * THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
 1.2       mrg  * (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF
 1.2       mrg  * THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
 1.2       mrg  *
 1.2       mrg  * loosely from: Header: sunos_ioctl.c,v 1.7 93/05/28 04:40:43 torek Exp
 1.2       mrg  */
 1.7     lukem
 1.7     lukem #include <sys/cdefs.h>
1.20       dsl __KERNEL_RCSID(0, "$NetBSD: sunos32_ioctl.c,v 1.20 2007/03/16 22:21:42 dsl Exp $");
 1.2       mrg
 1.4       mrg #if defined(_KERNEL_OPT)
 1.2       mrg #include "opt_compat_netbsd32.h"
 1.2       mrg #include "opt_execfmt.h"
 1.2       mrg #endif
 1.2       mrg
 1.2       mrg #include <sys/param.h>
 1.2       mrg #include <sys/proc.h>
 1.2       mrg #include <sys/systm.h>
 1.2       mrg #include <sys/file.h>
 1.2       mrg #include <sys/filedesc.h>
 1.2       mrg #include <sys/ioctl.h>
 1.2       mrg #include <sys/termios.h>
 1.2       mrg #include <sys/tty.h>
 1.2       mrg #include <sys/socket.h>
 1.2       mrg #include <sys/audioio.h>
 1.2       mrg #include <sys/vnode.h>
 1.2       mrg #include <sys/mount.h>
 1.2       mrg #include <sys/disklabel.h>
 1.2       mrg #include <sys/syscallargs.h>
 1.2       mrg
 1.2       mrg #include <miscfs/specfs/specdev.h>
 1.2       mrg
 1.2       mrg #include <net/if.h>
 1.2       mrg
 1.2       mrg #include <dev/sun/disklabel.h>
 1.2       mrg
 1.2       mrg #include <compat/sunos/sunos.h>
 1.2       mrg #include <compat/sunos/sunos_syscallargs.h>
 1.2       mrg #include <compat/netbsd32/netbsd32.h>
 1.2       mrg #include <compat/netbsd32/netbsd32_syscallargs.h>
 1.2       mrg #include <compat/sunos32/sunos32.h>
 1.2       mrg #include <compat/sunos32/sunos32_syscallargs.h>
 1.2       mrg #include <compat/common/compat_util.h>
 1.2       mrg
 1.2       mrg /*
 1.2       mrg  * SunOS ioctl calls.
 1.2       mrg  * This file is something of a hodge-podge.
 1.2       mrg  * Support gets added as things turn up....
 1.2       mrg  */
 1.2       mrg
1.14      matt static const struct speedtab sptab[] = {
 1.2       mrg 	{ 0, 0 },
 1.2       mrg 	{ 50, 1 },
 1.2       mrg 	{ 75, 2 },
 1.2       mrg 	{ 110, 3 },
 1.2       mrg 	{ 134, 4 },
 1.2       mrg 	{ 135, 4 },
 1.2       mrg 	{ 150, 5 },
 1.2       mrg 	{ 200, 6 },
 1.2       mrg 	{ 300, 7 },
 1.2       mrg 	{ 600, 8 },
 1.2       mrg 	{ 1200, 9 },
 1.2       mrg 	{ 1800, 10 },
 1.2       mrg 	{ 2400, 11 },
 1.2       mrg 	{ 4800, 12 },
 1.2       mrg 	{ 9600, 13 },
 1.2       mrg 	{ 19200, 14 },
 1.2       mrg 	{ 38400, 15 },
 1.2       mrg 	{ -1, -1 }
 1.2       mrg };
 1.2       mrg
1.14      matt static const netbsd32_u_long s2btab[] = {
 1.2       mrg 	0,
 1.2       mrg 	50,
 1.2       mrg 	75,
 1.2       mrg 	110,
 1.2       mrg 	134,
 1.2       mrg 	150,
 1.2       mrg 	200,
 1.2       mrg 	300,
 1.2       mrg 	600,
 1.2       mrg 	1200,
 1.2       mrg 	1800,
 1.2       mrg 	2400,
 1.2       mrg 	4800,
 1.2       mrg 	9600,
 1.2       mrg 	19200,
 1.2       mrg 	38400,
 1.2       mrg };
 1.2       mrg
 1.2       mrg static void stios2btios __P((struct sunos_termios *, struct termios *));
 1.2       mrg static void btios2stios __P((struct termios *, struct sunos_termios *));
 1.2       mrg static void stios2stio __P((struct sunos_termios *, struct sunos_termio *));
 1.2       mrg static void stio2stios __P((struct sunos_termio *, struct sunos_termios *));
 1.2       mrg
 1.2       mrg /*
 1.2       mrg  * These two conversion functions have mostly been done
 1.2       mrg  * with some perl cut&paste, then hand-edited to comment
 1.2       mrg  * out what doesn't exist under NetBSD.
 1.2       mrg  * A note from Markus's code:
 1.2       mrg  *	(l & BITMASK1) / BITMASK1 * BITMASK2  is translated
 1.2       mrg  *	optimally by gcc m68k, much better than any ?: stuff.
 1.2       mrg  *	Code may vary with different architectures of course.
 1.2       mrg  *
 1.2       mrg  * I don't know what optimizer you used, but seeing divu's and
 1.2       mrg  * bfextu's in the m68k assembly output did not encourage me...
 1.2       mrg  * as well, gcc on the sparc definitely generates much better
 1.2       mrg  * code with `?:'.
 1.2       mrg  */
 1.2       mrg
 1.2       mrg static void
 1.2       mrg stios2btios(st, bt)
 1.2       mrg 	struct sunos_termios *st;
 1.2       mrg 	struct termios *bt;
 1.2       mrg {
 1.3       mrg 	netbsd32_u_long l, r;
 1.2       mrg
 1.2       mrg 	l = st->c_iflag;
 1.2       mrg 	r = 	((l & 0x00000001) ? IGNBRK	: 0);
 1.2       mrg 	r |=	((l & 0x00000002) ? BRKINT	: 0);
 1.2       mrg 	r |=	((l & 0x00000004) ? IGNPAR	: 0);
 1.2       mrg 	r |=	((l & 0x00000008) ? PARMRK	: 0);
 1.2       mrg 	r |=	((l & 0x00000010) ? INPCK	: 0);
 1.2       mrg 	r |=	((l & 0x00000020) ? ISTRIP	: 0);
 1.2       mrg 	r |= 	((l & 0x00000040) ? INLCR	: 0);
 1.2       mrg 	r |=	((l & 0x00000080) ? IGNCR	: 0);
 1.2       mrg 	r |=	((l & 0x00000100) ? ICRNL	: 0);
 1.2       mrg 	/*	((l & 0x00000200) ? IUCLC	: 0) */
 1.2       mrg 	r |=	((l & 0x00000400) ? IXON	: 0);
 1.2       mrg 	r |=	((l & 0x00000800) ? IXANY	: 0);
 1.2       mrg 	r |=	((l & 0x00001000) ? IXOFF	: 0);
 1.2       mrg 	r |=	((l & 0x00002000) ? IMAXBEL	: 0);
 1.2       mrg 	bt->c_iflag = r;
 1.2       mrg
 1.2       mrg 	l = st->c_oflag;
 1.2       mrg 	r = 	((l & 0x00000001) ? OPOST	: 0);
 1.2       mrg 	/*	((l & 0x00000002) ? OLCUC	: 0) */
 1.2       mrg 	r |=	((l & 0x00000004) ? ONLCR	: 0);
 1.2       mrg 	/*	((l & 0x00000008) ? OCRNL	: 0) */
 1.2       mrg 	/*	((l & 0x00000010) ? ONOCR	: 0) */
 1.2       mrg 	/*	((l & 0x00000020) ? ONLRET	: 0) */
 1.2       mrg 	/*	((l & 0x00000040) ? OFILL	: 0) */
 1.2       mrg 	/*	((l & 0x00000080) ? OFDEL	: 0) */
 1.2       mrg 	/*	((l & 0x00000100) ? NLDLY	: 0) */
 1.2       mrg 	/*	((l & 0x00000100) ? NL1		: 0) */
 1.2       mrg 	/*	((l & 0x00000600) ? CRDLY	: 0) */
 1.2       mrg 	/*	((l & 0x00000200) ? CR1		: 0) */
 1.2       mrg 	/*	((l & 0x00000400) ? CR2		: 0) */
 1.2       mrg 	/*	((l & 0x00000600) ? CR3		: 0) */
 1.2       mrg 	/*	((l & 0x00001800) ? TABDLY	: 0) */
 1.2       mrg 	/*	((l & 0x00000800) ? TAB1	: 0) */
 1.2       mrg 	/*	((l & 0x00001000) ? TAB2	: 0) */
 1.2       mrg 	r |=	((l & 0x00001800) ? OXTABS	: 0);
 1.2       mrg 	/*	((l & 0x00002000) ? BSDLY	: 0) */
 1.2       mrg 	/*	((l & 0x00002000) ? BS1		: 0) */
 1.2       mrg 	/*	((l & 0x00004000) ? VTDLY	: 0) */
 1.2       mrg 	/*	((l & 0x00004000) ? VT1		: 0) */
 1.2       mrg 	/*	((l & 0x00008000) ? FFDLY	: 0) */
 1.2       mrg 	/*	((l & 0x00008000) ? FF1		: 0) */
 1.2       mrg 	/*	((l & 0x00010000) ? PAGEOUT	: 0) */
 1.2       mrg 	/*	((l & 0x00020000) ? WRAP	: 0) */
 1.2       mrg 	bt->c_oflag = r;
 1.2       mrg
 1.2       mrg 	l = st->c_cflag;
 1.2       mrg 	switch (l & 0x00000030) {
 1.2       mrg 	case 0:
 1.2       mrg 		r = CS5;
 1.2       mrg 		break;
 1.2       mrg 	case 0x00000010:
 1.2       mrg 		r = CS6;
 1.2       mrg 		break;
 1.2       mrg 	case 0x00000020:
 1.2       mrg 		r = CS7;
 1.2       mrg 		break;
 1.2       mrg 	case 0x00000030:
 1.2       mrg 		r = CS8;
 1.2       mrg 		break;
 1.2       mrg 	}
 1.2       mrg 	r |=	((l & 0x00000040) ? CSTOPB	: 0);
 1.2       mrg 	r |=	((l & 0x00000080) ? CREAD	: 0);
 1.2       mrg 	r |= 	((l & 0x00000100) ? PARENB	: 0);
 1.2       mrg 	r |=	((l & 0x00000200) ? PARODD	: 0);
 1.2       mrg 	r |=	((l & 0x00000400) ? HUPCL	: 0);
 1.2       mrg 	r |=	((l & 0x00000800) ? CLOCAL	: 0);
 1.2       mrg 	/*	((l & 0x00001000) ? LOBLK	: 0) */
 1.2       mrg 	r |=	((l & 0x80000000) ? (CRTS_IFLOW|CCTS_OFLOW) : 0);
 1.2       mrg 	bt->c_cflag = r;
 1.2       mrg
 1.2       mrg 	bt->c_ispeed = bt->c_ospeed = s2btab[l & 0x0000000f];
 1.2       mrg
 1.2       mrg 	l = st->c_lflag;
 1.2       mrg 	r = 	((l & 0x00000001) ? ISIG	: 0);
 1.2       mrg 	r |=	((l & 0x00000002) ? ICANON	: 0);
 1.2       mrg 	/*	((l & 0x00000004) ? XCASE	: 0) */
 1.2       mrg 	r |=	((l & 0x00000008) ? ECHO	: 0);
 1.2       mrg 	r |=	((l & 0x00000010) ? ECHOE	: 0);
 1.2       mrg 	r |=	((l & 0x00000020) ? ECHOK	: 0);
 1.2       mrg 	r |=	((l & 0x00000040) ? ECHONL	: 0);
 1.2       mrg 	r |= 	((l & 0x00000080) ? NOFLSH	: 0);
 1.2       mrg 	r |=	((l & 0x00000100) ? TOSTOP	: 0);
 1.2       mrg 	r |=	((l & 0x00000200) ? ECHOCTL	: 0);
 1.2       mrg 	r |=	((l & 0x00000400) ? ECHOPRT	: 0);
 1.2       mrg 	r |=	((l & 0x00000800) ? ECHOKE	: 0);
 1.2       mrg 	/*	((l & 0x00001000) ? DEFECHO	: 0) */
 1.2       mrg 	r |=	((l & 0x00002000) ? FLUSHO	: 0);
 1.2       mrg 	r |=	((l & 0x00004000) ? PENDIN	: 0);
 1.2       mrg 	bt->c_lflag = r;
 1.2       mrg
 1.2       mrg 	bt->c_cc[VINTR]    = st->c_cc[0]  ? st->c_cc[0]  : _POSIX_VDISABLE;
 1.2       mrg 	bt->c_cc[VQUIT]    = st->c_cc[1]  ? st->c_cc[1]  : _POSIX_VDISABLE;
 1.2       mrg 	bt->c_cc[VERASE]   = st->c_cc[2]  ? st->c_cc[2]  : _POSIX_VDISABLE;
 1.2       mrg 	bt->c_cc[VKILL]    = st->c_cc[3]  ? st->c_cc[3]  : _POSIX_VDISABLE;
 1.2       mrg 	bt->c_cc[VEOF]     = st->c_cc[4]  ? st->c_cc[4]  : _POSIX_VDISABLE;
 1.2       mrg 	bt->c_cc[VEOL]     = st->c_cc[5]  ? st->c_cc[5]  : _POSIX_VDISABLE;
 1.2       mrg 	bt->c_cc[VEOL2]    = st->c_cc[6]  ? st->c_cc[6]  : _POSIX_VDISABLE;
 1.2       mrg     /*	bt->c_cc[VSWTCH]   = st->c_cc[7]  ? st->c_cc[7]  : _POSIX_VDISABLE; */
 1.2       mrg 	bt->c_cc[VSTART]   = st->c_cc[8]  ? st->c_cc[8]  : _POSIX_VDISABLE;
 1.2       mrg 	bt->c_cc[VSTOP]    = st->c_cc[9]  ? st->c_cc[9]  : _POSIX_VDISABLE;
 1.2       mrg 	bt->c_cc[VSUSP]    = st->c_cc[10] ? st->c_cc[10] : _POSIX_VDISABLE;
 1.2       mrg 	bt->c_cc[VDSUSP]   = st->c_cc[11] ? st->c_cc[11] : _POSIX_VDISABLE;
 1.2       mrg 	bt->c_cc[VREPRINT] = st->c_cc[12] ? st->c_cc[12] : _POSIX_VDISABLE;
 1.2       mrg 	bt->c_cc[VDISCARD] = st->c_cc[13] ? st->c_cc[13] : _POSIX_VDISABLE;
 1.2       mrg 	bt->c_cc[VWERASE]  = st->c_cc[14] ? st->c_cc[14] : _POSIX_VDISABLE;
 1.2       mrg 	bt->c_cc[VLNEXT]   = st->c_cc[15] ? st->c_cc[15] : _POSIX_VDISABLE;
 1.2       mrg 	bt->c_cc[VSTATUS]  = st->c_cc[16] ? st->c_cc[16] : _POSIX_VDISABLE;
 1.2       mrg
 1.2       mrg 	/* if `raw mode', create native VMIN/VTIME from SunOS VEOF/VEOL */
 1.2       mrg 	bt->c_cc[VMIN]	   = (bt->c_lflag & ICANON) ? 1 : bt->c_cc[VEOF];
 1.2       mrg 	bt->c_cc[VTIME]	   = (bt->c_lflag & ICANON) ? 1 : bt->c_cc[VEOL];
 1.2       mrg }
 1.2       mrg
 1.2       mrg
 1.2       mrg static void
 1.2       mrg btios2stios(bt, st)
 1.2       mrg 	struct termios *bt;
 1.2       mrg 	struct sunos_termios *st;
 1.2       mrg {
 1.3       mrg 	netbsd32_u_long l, r;
 1.2       mrg 	int s;
 1.2       mrg
 1.2       mrg 	l = bt->c_iflag;
 1.2       mrg 	r = 	((l &  IGNBRK) ? 0x00000001	: 0);
 1.2       mrg 	r |=	((l &  BRKINT) ? 0x00000002	: 0);
 1.2       mrg 	r |=	((l &  IGNPAR) ? 0x00000004	: 0);
 1.2       mrg 	r |=	((l &  PARMRK) ? 0x00000008	: 0);
 1.2       mrg 	r |=	((l &   INPCK) ? 0x00000010	: 0);
 1.2       mrg 	r |=	((l &  ISTRIP) ? 0x00000020	: 0);
 1.2       mrg 	r |=	((l &   INLCR) ? 0x00000040	: 0);
 1.2       mrg 	r |=	((l &   IGNCR) ? 0x00000080	: 0);
 1.2       mrg 	r |=	((l &   ICRNL) ? 0x00000100	: 0);
 1.2       mrg 	/*	((l &   IUCLC) ? 0x00000200	: 0) */
 1.2       mrg 	r |=	((l &    IXON) ? 0x00000400	: 0);
 1.2       mrg 	r |=	((l &   IXANY) ? 0x00000800	: 0);
 1.2       mrg 	r |=	((l &   IXOFF) ? 0x00001000	: 0);
 1.2       mrg 	r |=	((l & IMAXBEL) ? 0x00002000	: 0);
 1.2       mrg 	st->c_iflag = r;
 1.2       mrg
 1.2       mrg 	l = bt->c_oflag;
 1.2       mrg 	r =	((l &   OPOST) ? 0x00000001	: 0);
 1.2       mrg 	/*	((l &   OLCUC) ? 0x00000002	: 0) */
 1.2       mrg 	r |=	((l &   ONLCR) ? 0x00000004	: 0);
 1.2       mrg 	/*	((l &   OCRNL) ? 0x00000008	: 0) */
 1.2       mrg 	/*	((l &   ONOCR) ? 0x00000010	: 0) */
 1.2       mrg 	/*	((l &  ONLRET) ? 0x00000020	: 0) */
 1.2       mrg 	/*	((l &   OFILL) ? 0x00000040	: 0) */
 1.2       mrg 	/*	((l &   OFDEL) ? 0x00000080	: 0) */
 1.2       mrg 	/*	((l &   NLDLY) ? 0x00000100	: 0) */
 1.2       mrg 	/*	((l &     NL1) ? 0x00000100	: 0) */
 1.2       mrg 	/*	((l &   CRDLY) ? 0x00000600	: 0) */
 1.2       mrg 	/*	((l &     CR1) ? 0x00000200	: 0) */
 1.2       mrg 	/*	((l &     CR2) ? 0x00000400	: 0) */
 1.2       mrg 	/*	((l &     CR3) ? 0x00000600	: 0) */
 1.2       mrg 	/*	((l &  TABDLY) ? 0x00001800	: 0) */
 1.2       mrg 	/*	((l &    TAB1) ? 0x00000800	: 0) */
 1.2       mrg 	/*	((l &    TAB2) ? 0x00001000	: 0) */
 1.2       mrg 	r |=	((l &  OXTABS) ? 0x00001800	: 0);
 1.2       mrg 	/*	((l &   BSDLY) ? 0x00002000	: 0) */
 1.2       mrg 	/*	((l &     BS1) ? 0x00002000	: 0) */
 1.2       mrg 	/*	((l &   VTDLY) ? 0x00004000	: 0) */
 1.2       mrg 	/*	((l &     VT1) ? 0x00004000	: 0) */
 1.2       mrg 	/*	((l &   FFDLY) ? 0x00008000	: 0) */
 1.2       mrg 	/*	((l &     FF1) ? 0x00008000	: 0) */
 1.2       mrg 	/*	((l & PAGEOUT) ? 0x00010000	: 0) */
 1.2       mrg 	/*	((l &    WRAP) ? 0x00020000	: 0) */
 1.2       mrg 	st->c_oflag = r;
 1.2       mrg
 1.2       mrg 	l = bt->c_cflag;
 1.2       mrg 	switch (l & CSIZE) {
 1.2       mrg 	case CS5:
 1.2       mrg 		r = 0;
 1.2       mrg 		break;
 1.2       mrg 	case CS6:
 1.2       mrg 		r = 0x00000010;
 1.2       mrg 		break;
 1.2       mrg 	case CS7:
 1.2       mrg 		r = 0x00000020;
 1.2       mrg 		break;
 1.2       mrg 	case CS8:
 1.2       mrg 		r = 0x00000030;
 1.2       mrg 		break;
 1.2       mrg 	}
 1.2       mrg 	r |=	((l &  CSTOPB) ? 0x00000040	: 0);
 1.2       mrg 	r |=	((l &   CREAD) ? 0x00000080	: 0);
 1.2       mrg 	r |=	((l &  PARENB) ? 0x00000100	: 0);
 1.2       mrg 	r |=	((l &  PARODD) ? 0x00000200	: 0);
 1.2       mrg 	r |=	((l &   HUPCL) ? 0x00000400	: 0);
 1.2       mrg 	r |=	((l &  CLOCAL) ? 0x00000800	: 0);
 1.2       mrg 	/*	((l &   LOBLK) ? 0x00001000	: 0) */
 1.2       mrg 	r |=	((l & (CRTS_IFLOW|CCTS_OFLOW)) ? 0x80000000 : 0);
 1.2       mrg 	st->c_cflag = r;
 1.2       mrg
 1.2       mrg 	l = bt->c_lflag;
 1.2       mrg 	r =	((l &    ISIG) ? 0x00000001	: 0);
 1.2       mrg 	r |=	((l &  ICANON) ? 0x00000002	: 0);
 1.2       mrg 	/*	((l &   XCASE) ? 0x00000004	: 0) */
 1.2       mrg 	r |=	((l &    ECHO) ? 0x00000008	: 0);
 1.2       mrg 	r |=	((l &   ECHOE) ? 0x00000010	: 0);
 1.2       mrg 	r |=	((l &   ECHOK) ? 0x00000020	: 0);
 1.2       mrg 	r |=	((l &  ECHONL) ? 0x00000040	: 0);
 1.2       mrg 	r |=	((l &  NOFLSH) ? 0x00000080	: 0);
 1.2       mrg 	r |=	((l &  TOSTOP) ? 0x00000100	: 0);
 1.2       mrg 	r |=	((l & ECHOCTL) ? 0x00000200	: 0);
 1.2       mrg 	r |=	((l & ECHOPRT) ? 0x00000400	: 0);
 1.2       mrg 	r |=	((l &  ECHOKE) ? 0x00000800	: 0);
 1.2       mrg 	/*	((l & DEFECHO) ? 0x00001000	: 0) */
 1.2       mrg 	r |=	((l &  FLUSHO) ? 0x00002000	: 0);
 1.2       mrg 	r |=	((l &  PENDIN) ? 0x00004000	: 0);
 1.2       mrg 	st->c_lflag = r;
 1.2       mrg
 1.2       mrg 	s = ttspeedtab(bt->c_ospeed, sptab);
 1.2       mrg 	if (s >= 0)
 1.2       mrg 		st->c_cflag |= s;
 1.2       mrg
 1.2       mrg 	st->c_cc[0] = bt->c_cc[VINTR]   != _POSIX_VDISABLE? bt->c_cc[VINTR]:0;
 1.2       mrg 	st->c_cc[1] = bt->c_cc[VQUIT]   != _POSIX_VDISABLE? bt->c_cc[VQUIT]:0;
 1.2       mrg 	st->c_cc[2] = bt->c_cc[VERASE]  != _POSIX_VDISABLE? bt->c_cc[VERASE]:0;
 1.2       mrg 	st->c_cc[3] = bt->c_cc[VKILL]   != _POSIX_VDISABLE? bt->c_cc[VKILL]:0;
 1.2       mrg 	st->c_cc[4] = bt->c_cc[VEOF]    != _POSIX_VDISABLE? bt->c_cc[VEOF]:0;
 1.2       mrg 	st->c_cc[5] = bt->c_cc[VEOL]    != _POSIX_VDISABLE? bt->c_cc[VEOL]:0;
 1.2       mrg 	st->c_cc[6] = bt->c_cc[VEOL2]   != _POSIX_VDISABLE? bt->c_cc[VEOL2]:0;
 1.2       mrg 	st->c_cc[7] = 0;
 1.2       mrg 		/*    bt->c_cc[VSWTCH]  != _POSIX_VDISABLE? bt->c_cc[VSWTCH]: */
 1.2       mrg 	st->c_cc[8] = bt->c_cc[VSTART]  != _POSIX_VDISABLE? bt->c_cc[VSTART]:0;
 1.2       mrg 	st->c_cc[9] = bt->c_cc[VSTOP]   != _POSIX_VDISABLE? bt->c_cc[VSTOP]:0;
 1.2       mrg 	st->c_cc[10]= bt->c_cc[VSUSP]   != _POSIX_VDISABLE? bt->c_cc[VSUSP]:0;
 1.2       mrg 	st->c_cc[11]= bt->c_cc[VDSUSP]  != _POSIX_VDISABLE? bt->c_cc[VDSUSP]:0;
 1.2       mrg 	st->c_cc[12]= bt->c_cc[VREPRINT]!= _POSIX_VDISABLE? bt->c_cc[VREPRINT]:0;
 1.2       mrg 	st->c_cc[13]= bt->c_cc[VDISCARD]!= _POSIX_VDISABLE? bt->c_cc[VDISCARD]:0;
 1.2       mrg 	st->c_cc[14]= bt->c_cc[VWERASE] != _POSIX_VDISABLE? bt->c_cc[VWERASE]:0;
 1.2       mrg 	st->c_cc[15]= bt->c_cc[VLNEXT]  != _POSIX_VDISABLE? bt->c_cc[VLNEXT]:0;
 1.2       mrg 	st->c_cc[16]= bt->c_cc[VSTATUS] != _POSIX_VDISABLE? bt->c_cc[VSTATUS]:0;
 1.2       mrg
 1.2       mrg 	if (!(bt->c_lflag & ICANON)) {
 1.2       mrg 		/* SunOS stores VMIN/VTIME in VEOF/VEOL (if ICANON is off) */
 1.2       mrg 		st->c_cc[4] = bt->c_cc[VMIN];
 1.2       mrg 		st->c_cc[5] = bt->c_cc[VTIME];
 1.2       mrg 	}
 1.2       mrg
 1.2       mrg 	st->c_line = 0;
 1.2       mrg }
 1.2       mrg
 1.2       mrg static void
 1.2       mrg stios2stio(ts, t)
 1.2       mrg 	struct sunos_termios *ts;
 1.2       mrg 	struct sunos_termio *t;
 1.2       mrg {
 1.2       mrg 	t->c_iflag = ts->c_iflag;
 1.2       mrg 	t->c_oflag = ts->c_oflag;
 1.2       mrg 	t->c_cflag = ts->c_cflag;
 1.2       mrg 	t->c_lflag = ts->c_lflag;
 1.2       mrg 	t->c_line  = ts->c_line;
 1.2       mrg 	memcpy(t->c_cc, ts->c_cc, 8);
 1.2       mrg }
 1.2       mrg
 1.2       mrg static void
 1.2       mrg stio2stios(t, ts)
 1.2       mrg 	struct sunos_termio *t;
 1.2       mrg 	struct sunos_termios *ts;
 1.2       mrg {
 1.2       mrg 	ts->c_iflag = t->c_iflag;
 1.2       mrg 	ts->c_oflag = t->c_oflag;
 1.2       mrg 	ts->c_cflag = t->c_cflag;
 1.2       mrg 	ts->c_lflag = t->c_lflag;
 1.2       mrg 	ts->c_line  = t->c_line;
 1.2       mrg 	memcpy(ts->c_cc, t->c_cc, 8); /* don't touch the upper fields! */
 1.2       mrg }
 1.2       mrg
 1.2       mrg int
1.10   thorpej sunos32_sys_ioctl(l, v, retval)
1.10   thorpej 	struct lwp *l;
 1.2       mrg 	void *v;
 1.2       mrg 	register_t *retval;
 1.2       mrg {
 1.2       mrg 	struct sunos32_sys_ioctl_args /* {
 1.2       mrg 		int	fd;
 1.2       mrg 		netbsd32_u_long	com;
1.19  christos 		netbsd32_caddr_t	data;
 1.2       mrg 	} */ *uap = v;
1.10   thorpej 	struct proc *p = l->l_proc;
 1.2       mrg 	struct filedesc *fdp = p->p_fd;
 1.2       mrg 	struct file *fp;
1.16  christos 	int (*ctl)(struct file *, u_long, void *, struct lwp *);
 1.2       mrg 	int error;
 1.2       mrg
 1.6   thorpej 	if ((fp = fd_getfile(fdp, SCARG(uap, fd))) == NULL)
 1.2       mrg 		return EBADF;
 1.2       mrg
 1.2       mrg 	if ((fp->f_flag & (FREAD|FWRITE)) == 0)
 1.2       mrg 		return EBADF;
 1.2       mrg
 1.2       mrg 	ctl = fp->f_ops->fo_ioctl;
 1.2       mrg
 1.2       mrg 	switch (SCARG(uap, com)) {
 1.2       mrg 	case _IOR('t', 0, int):
 1.2       mrg 		SCARG(uap, com) = TIOCGETD;
 1.2       mrg 		break;
 1.2       mrg 	case _IOW('t', 1, int):
 1.2       mrg 	    {
 1.2       mrg 		int disc;
 1.2       mrg
1.20       dsl 		if ((error = copyin(SCARG_P32(uap, data), &disc,
 1.2       mrg 		    sizeof disc)) != 0)
 1.2       mrg 			return error;
 1.2       mrg
 1.2       mrg 		/* map SunOS NTTYDISC into our termios discipline */
 1.2       mrg 		if (disc == 2)
 1.2       mrg 			disc = 0;
 1.2       mrg 		/* all other disciplines are not supported by NetBSD */
 1.2       mrg 		if (disc)
 1.2       mrg 			return ENXIO;
 1.2       mrg
1.16  christos 		return (*ctl)(fp, TIOCSETD, &disc, l);
 1.2       mrg 	    }
 1.2       mrg 	case _IOW('t', 101, int):	/* sun SUNOS_TIOCSSOFTCAR */
 1.2       mrg 	    {
 1.2       mrg 		int x;	/* unused */
 1.2       mrg
1.20       dsl 		return copyin(SCARG_P32(uap, data), &x, sizeof x);
 1.2       mrg 	    }
 1.2       mrg 	case _IOR('t', 100, int):	/* sun SUNOS_TIOCSSOFTCAR */
 1.2       mrg 	    {
 1.2       mrg 		int x = 0;
 1.2       mrg
1.20       dsl 		return copyout(&x, SCARG_P32(uap, data), sizeof x);
 1.2       mrg 	    }
 1.2       mrg 	case _IO('t', 36): 		/* sun TIOCCONS, no parameters */
 1.2       mrg 	    {
 1.2       mrg 		int on = 1;
1.16  christos 		return (*ctl)(fp, TIOCCONS, &on, l);
 1.2       mrg 	    }
 1.2       mrg 	case _IOW('t', 37, struct sunos_ttysize):
 1.2       mrg 	    {
 1.2       mrg 		struct winsize ws;
 1.2       mrg 		struct sunos_ttysize ss;
 1.2       mrg
1.16  christos 		if ((error = (*ctl)(fp, TIOCGWINSZ, &ws, l)) != 0)
 1.2       mrg 			return (error);
 1.2       mrg
1.20       dsl 		if ((error = copyin(SCARG_P32(uap, data), &ss, sizeof (ss))) != 0)
 1.2       mrg 			return error;
 1.2       mrg
 1.2       mrg 		ws.ws_row = ss.ts_row;
 1.2       mrg 		ws.ws_col = ss.ts_col;
 1.2       mrg
1.16  christos 		return ((*ctl)(fp, TIOCSWINSZ, &ws, l));
 1.2       mrg 	    }
 1.2       mrg 	case _IOW('t', 38, struct sunos_ttysize):
 1.2       mrg 	    {
 1.2       mrg 		struct winsize ws;
 1.2       mrg 		struct sunos_ttysize ss;
 1.2       mrg
1.16  christos 		if ((error = (*ctl)(fp, TIOCGWINSZ, &ws, l)) != 0)
 1.2       mrg 			return (error);
 1.2       mrg
 1.2       mrg 		ss.ts_row = ws.ws_row;
 1.2       mrg 		ss.ts_col = ws.ws_col;
 1.2       mrg
1.20       dsl 		return copyout(&ss, SCARG_P32(uap, data), sizeof (ss));
 1.2       mrg 	    }
 1.2       mrg 	case _IOW('t', 130, int):	/* TIOCSETPGRP: posix variant */
 1.2       mrg 		SCARG(uap, com) = TIOCSPGRP;
 1.2       mrg 		break;
 1.2       mrg 	case _IOR('t', 131, int):	/* TIOCGETPGRP: posix variant */
 1.2       mrg 	    {
 1.2       mrg 		/*
 1.2       mrg 		 * sigh, must do error translation on pty devices
 1.2       mrg 		 * (see also kern/tty_pty.c)
 1.2       mrg 		 */
 1.2       mrg 		int pgrp;
 1.2       mrg 		struct vnode *vp;
1.16  christos 		error = (*ctl)(fp, TIOCGPGRP, &pgrp, l);
 1.2       mrg 		if (error) {
 1.2       mrg 			vp = (struct vnode *)fp->f_data;
 1.2       mrg 			if (error == EIO && vp != NULL &&
 1.2       mrg 			    vp->v_type == VCHR && major(vp->v_rdev) == 21)
 1.2       mrg 				error = ENOTTY;
 1.2       mrg 			return (error);
 1.2       mrg 		}
1.20       dsl 		return copyout(&pgrp, SCARG_P32(uap, data), sizeof(pgrp));
 1.2       mrg 	    }
 1.2       mrg 	case _IO('t', 132):
 1.2       mrg 		SCARG(uap, com) = TIOCSCTTY;
 1.2       mrg 		break;
 1.2       mrg 	case SUNOS_TCGETA:
 1.2       mrg 	case SUNOS_TCGETS:
 1.2       mrg 	    {
 1.2       mrg 		struct termios bts;
 1.2       mrg 		struct sunos_termios sts;
 1.2       mrg 		struct sunos_termio st;
 1.2       mrg
1.16  christos 		if ((error = (*ctl)(fp, TIOCGETA, &bts, l)) != 0)
 1.2       mrg 			return error;
 1.2       mrg
 1.2       mrg 		btios2stios (&bts, &sts);
 1.2       mrg 		if (SCARG(uap, com) == SUNOS_TCGETA) {
 1.2       mrg 			stios2stio (&sts, &st);
1.20       dsl 			return copyout(&st, SCARG_P32(uap, data),
 1.2       mrg 			    sizeof (st));
 1.2       mrg 		} else
1.20       dsl 			return copyout(&sts, SCARG_P32(uap, data),
 1.2       mrg 			    sizeof (sts));
 1.2       mrg 		/*NOTREACHED*/
 1.2       mrg 	    }
 1.2       mrg 	case SUNOS_TCSETA:
 1.2       mrg 	case SUNOS_TCSETAW:
 1.2       mrg 	case SUNOS_TCSETAF:
 1.2       mrg 	    {
 1.2       mrg 		struct termios bts;
 1.2       mrg 		struct sunos_termios sts;
 1.2       mrg 		struct sunos_termio st;
 1.2       mrg
1.20       dsl 		if ((error = copyin(SCARG_P32(uap, data), &st,
 1.2       mrg 		    sizeof (st))) != 0)
 1.2       mrg 			return error;
 1.2       mrg
 1.2       mrg 		/* get full BSD termios so we don't lose information */
1.16  christos 		if ((error = (*ctl)(fp, TIOCGETA, &bts, l)) != 0)
 1.2       mrg 			return error;
 1.2       mrg
 1.2       mrg 		/*
 1.2       mrg 		 * convert to sun termios, copy in information from
 1.2       mrg 		 * termio, and convert back, then set new values.
 1.2       mrg 		 */
 1.2       mrg 		btios2stios(&bts, &sts);
 1.2       mrg 		stio2stios(&st, &sts);
 1.2       mrg 		stios2btios(&sts, &bts);
 1.2       mrg
 1.2       mrg 		return (*ctl)(fp, SCARG(uap, com) - SUNOS_TCSETA + TIOCSETA,
1.16  christos 		    &bts, l);
 1.2       mrg 	    }
 1.2       mrg 	case SUNOS_TCSETS:
 1.2       mrg 	case SUNOS_TCSETSW:
 1.2       mrg 	case SUNOS_TCSETSF:
 1.2       mrg 	    {
 1.2       mrg 		struct termios bts;
 1.2       mrg 		struct sunos_termios sts;
 1.2       mrg
1.20       dsl 		if ((error = copyin(SCARG_P32(uap, data), &sts,
 1.2       mrg 		    sizeof (sts))) != 0)
 1.2       mrg 			return error;
 1.2       mrg 		stios2btios (&sts, &bts);
 1.2       mrg 		return (*ctl)(fp, SCARG(uap, com) - SUNOS_TCSETS + TIOCSETA,
1.16  christos 		    &bts, l);
 1.2       mrg 	    }
 1.2       mrg /*
 1.2       mrg  * Pseudo-tty ioctl translations.
 1.2       mrg  */
 1.2       mrg 	case _IOW('t', 32, int): {	/* TIOCTCNTL */
1.15  christos 		int error1, on;
 1.2       mrg
1.20       dsl 		error1 = copyin(SCARG_P32(uap, data), &on, sizeof (on));
1.15  christos 		if (error1)
1.15  christos 			return error1;
1.16  christos 		return (*ctl)(fp, TIOCUCNTL, &on, l);
 1.2       mrg 	}
 1.2       mrg 	case _IOW('t', 33, int): {	/* TIOCSIGNAL */
1.15  christos 		int error1, sig;
 1.2       mrg
1.20       dsl 		error1 = copyin(SCARG_P32(uap, data), &sig, sizeof (sig));
1.15  christos 		if (error1)
1.15  christos 			return error1;
1.16  christos 		return (*ctl)(fp, TIOCSIG, &sig, l);
 1.2       mrg 	}
 1.2       mrg
 1.2       mrg /*
 1.2       mrg  * Socket ioctl translations.
 1.2       mrg  */
 1.2       mrg #define IFREQ_IN(a) { \
 1.2       mrg 	struct ifreq ifreq; \
1.20       dsl 	error = copyin(SCARG_P32(uap, data), &ifreq, sizeof (ifreq)); \
 1.2       mrg 	if (error) \
 1.2       mrg 		return error; \
1.16  christos 	return (*ctl)(fp, a, &ifreq, l); \
 1.2       mrg }
 1.2       mrg #define IFREQ_INOUT(a) { \
 1.2       mrg 	struct ifreq ifreq; \
1.20       dsl 	error = copyin(SCARG_P32(uap, data), &ifreq, sizeof (ifreq)); \
 1.2       mrg 	if (error) \
 1.2       mrg 		return error; \
1.16  christos 	if ((error = (*ctl)(fp, a, &ifreq, l)) != 0) \
 1.2       mrg 		return error; \
1.20       dsl 	return copyout(&ifreq, SCARG_P32(uap, data), sizeof (ifreq)); \
 1.2       mrg }
 1.2       mrg
 1.2       mrg 	case _IOW('i', 12, struct ifreq):
 1.2       mrg 		/* SIOCSIFADDR */
 1.2       mrg 		break;
 1.2       mrg
 1.2       mrg 	case _IOWR('i', 13, struct ifreq):
 1.2       mrg 		IFREQ_INOUT(OSIOCGIFADDR);
 1.2       mrg
 1.2       mrg 	case _IOW('i', 14, struct ifreq):
 1.2       mrg 		/* SIOCSIFDSTADDR */
 1.2       mrg 		break;
 1.2       mrg
 1.2       mrg 	case _IOWR('i', 15, struct ifreq):
 1.2       mrg 		IFREQ_INOUT(OSIOCGIFDSTADDR);
 1.2       mrg
 1.2       mrg 	case _IOW('i', 16, struct ifreq):
 1.2       mrg 		/* SIOCSIFFLAGS */
 1.2       mrg 		break;
 1.2       mrg
 1.2       mrg 	case _IOWR('i', 17, struct ifreq):
 1.2       mrg 		/* SIOCGIFFLAGS */
 1.2       mrg 		break;
 1.2       mrg
 1.2       mrg 	case _IOW('i', 21, struct ifreq):
 1.2       mrg 		IFREQ_IN(SIOCSIFMTU);
 1.2       mrg
 1.2       mrg 	case _IOWR('i', 22, struct ifreq):
 1.2       mrg 		IFREQ_INOUT(SIOCGIFMTU);
 1.2       mrg
 1.2       mrg 	case _IOWR('i', 23, struct ifreq):
 1.2       mrg 		IFREQ_INOUT(SIOCGIFBRDADDR);
 1.2       mrg
 1.2       mrg 	case _IOW('i', 24, struct ifreq):
 1.2       mrg 		IFREQ_IN(SIOCSIFBRDADDR);
 1.2       mrg
 1.2       mrg 	case _IOWR('i', 25, struct ifreq):
 1.2       mrg 		IFREQ_INOUT(OSIOCGIFNETMASK);
 1.2       mrg
 1.2       mrg 	case _IOW('i', 26, struct ifreq):
 1.2       mrg 		IFREQ_IN(SIOCSIFNETMASK);
 1.2       mrg
 1.2       mrg 	case _IOWR('i', 27, struct ifreq):
 1.2       mrg 		IFREQ_INOUT(SIOCGIFMETRIC);
 1.2       mrg
 1.2       mrg 	case _IOWR('i', 28, struct ifreq):
 1.2       mrg 		IFREQ_IN(SIOCSIFMETRIC);
 1.2       mrg
 1.2       mrg 	case _IOW('i', 30, struct arpreq):
 1.2       mrg 		/* SIOCSARP */
 1.2       mrg 		break;
 1.2       mrg
 1.2       mrg 	case _IOWR('i', 31, struct arpreq):
 1.2       mrg 		/* SIOCGARP */
 1.2       mrg 		break;
 1.2       mrg
 1.2       mrg 	case _IOW('i', 32, struct arpreq):
 1.2       mrg 		/* SIOCDARP */
 1.2       mrg 		break;
 1.2       mrg
 1.2       mrg 	case _IOW('i', 18, struct ifreq):	/* SIOCSIFMEM */
 1.2       mrg 	case _IOWR('i', 19, struct ifreq):	/* SIOCGIFMEM */
 1.2       mrg 	case _IOW('i', 40, struct ifreq):	/* SIOCUPPER */
 1.2       mrg 	case _IOW('i', 41, struct ifreq):	/* SIOCLOWER */
 1.2       mrg 	case _IOW('i', 44, struct ifreq):	/* SIOCSETSYNC */
 1.2       mrg 	case _IOWR('i', 45, struct ifreq):	/* SIOCGETSYNC */
 1.2       mrg 	case _IOWR('i', 46, struct ifreq):	/* SIOCSDSTATS */
 1.2       mrg 	case _IOWR('i', 47, struct ifreq):	/* SIOCSESTATS */
 1.2       mrg 	case _IOW('i', 48, int):		/* SIOCSPROMISC */
 1.2       mrg 	case _IOW('i', 49, struct ifreq):	/* SIOCADDMULTI */
 1.2       mrg 	case _IOW('i', 50, struct ifreq):	/* SIOCDELMULTI */
 1.2       mrg 		return EOPNOTSUPP;
 1.2       mrg
 1.2       mrg 	case _IOWR('i', 20, struct ifconf):	/* SIOCGIFCONF */
 1.2       mrg 	    {
1.15  christos 		struct ifconf ifcf;
 1.2       mrg
 1.2       mrg 		/*
 1.2       mrg 		 * XXX: two more problems
 1.2       mrg 		 * 1. our sockaddr's are variable length, not always sizeof(sockaddr)
 1.2       mrg 		 * 2. this returns a name per protocol, ie. it returns two "lo0"'s
 1.2       mrg 		 */
1.20       dsl 		error = copyin(SCARG_P32(uap, data), &ifcf,
1.15  christos 		    sizeof (ifcf));
 1.2       mrg 		if (error)
 1.2       mrg 			return error;
1.16  christos 		error = (*ctl)(fp, OSIOCGIFCONF, &ifcf, l);
 1.2       mrg 		if (error)
 1.2       mrg 			return error;
1.20       dsl 		return copyout(&ifcf, SCARG_P32(uap, data),
1.15  christos 		    sizeof (ifcf));
 1.2       mrg 	    }
 1.2       mrg
 1.2       mrg /*
 1.2       mrg  * Audio ioctl translations.
 1.2       mrg  */
 1.2       mrg 	case _IOR('A', 1, struct sunos_audio_info):	/* AUDIO_GETINFO */
 1.2       mrg 	sunos_au_getinfo:
 1.2       mrg 	    {
 1.2       mrg 		struct audio_info aui;
 1.2       mrg 		struct sunos_audio_info sunos_aui;
 1.2       mrg
1.16  christos 		error = (*ctl)(fp, AUDIO_GETINFO, &aui, l);
 1.2       mrg 		if (error)
 1.2       mrg 			return error;
 1.2       mrg
 1.2       mrg 		sunos_aui.play = *(struct sunos_audio_prinfo *)&aui.play;
 1.2       mrg 		sunos_aui.record = *(struct sunos_audio_prinfo *)&aui.record;
 1.2       mrg
 1.2       mrg 		/* `avail_ports' is `seek' in BSD */
 1.2       mrg 		sunos_aui.play.avail_ports = AUDIO_SPEAKER | AUDIO_HEADPHONE;
 1.2       mrg 		sunos_aui.record.avail_ports = AUDIO_SPEAKER | AUDIO_HEADPHONE;
 1.2       mrg
 1.2       mrg 		sunos_aui.play.waiting = 0;
 1.2       mrg 		sunos_aui.record.waiting = 0;
 1.2       mrg 		sunos_aui.play.eof = 0;
 1.2       mrg 		sunos_aui.record.eof = 0;
 1.2       mrg 		sunos_aui.monitor_gain = 0; /* aui.__spare; XXX */
 1.2       mrg 		/*XXXsunos_aui.output_muted = 0;*/
 1.2       mrg 		/*XXX*/sunos_aui.reserved[0] = 0;
 1.2       mrg 		/*XXX*/sunos_aui.reserved[1] = 0;
 1.2       mrg 		/*XXX*/sunos_aui.reserved[2] = 0;
 1.2       mrg 		/*XXX*/sunos_aui.reserved[3] = 0;
 1.2       mrg
1.20       dsl 		return copyout(&sunos_aui, SCARG_P32(uap, data),
 1.2       mrg 				sizeof (sunos_aui));
 1.2       mrg 	    }
 1.2       mrg
 1.2       mrg 	case _IOWR('A', 2, struct sunos_audio_info):	/* AUDIO_SETINFO */
 1.2       mrg 	    {
 1.2       mrg 		struct audio_info aui;
 1.2       mrg 		struct sunos_audio_info sunos_aui;
 1.2       mrg
1.20       dsl 		error = copyin(SCARG_P32(uap, data), &sunos_aui,
 1.2       mrg 		    sizeof (sunos_aui));
 1.2       mrg 		if (error)
 1.2       mrg 			return error;
 1.2       mrg
 1.2       mrg 		aui.play = *(struct audio_prinfo *)&sunos_aui.play;
 1.2       mrg 		aui.record = *(struct audio_prinfo *)&sunos_aui.record;
 1.2       mrg 		/* aui.__spare = sunos_aui.monitor_gain; */
 1.2       mrg 		aui.blocksize = ~0;
 1.2       mrg 		aui.hiwat = ~0;
 1.2       mrg 		aui.lowat = ~0;
 1.2       mrg 		/* XXX somebody check this please. - is: aui.backlog = ~0; */
 1.2       mrg 		aui.mode = ~0;
 1.2       mrg 		/*
 1.2       mrg 		 * The bsd driver does not distinguish between paused and
 1.2       mrg 		 * active. (In the sun driver, not active means samples are
 1.9       wiz 		 * not output at all, but paused means the last streams buffer
 1.2       mrg 		 * is drained and then output stops.)  If either are 0, then
 1.2       mrg 		 * when stop output. Otherwise, if either are non-zero,
 1.2       mrg 		 * we resume.
 1.2       mrg 		 */
 1.2       mrg 		if (sunos_aui.play.pause == 0 || sunos_aui.play.active == 0)
 1.2       mrg 			aui.play.pause = 0;
 1.2       mrg 		else if (sunos_aui.play.pause != (u_char)~0 ||
 1.2       mrg 			 sunos_aui.play.active != (u_char)~0)
 1.2       mrg 			aui.play.pause = 1;
 1.2       mrg 		if (sunos_aui.record.pause == 0 || sunos_aui.record.active == 0)
 1.2       mrg 			aui.record.pause = 0;
 1.2       mrg 		else if (sunos_aui.record.pause != (u_char)~0 ||
 1.2       mrg 			 sunos_aui.record.active != (u_char)~0)
 1.2       mrg 			aui.record.pause = 1;
 1.2       mrg
1.16  christos 		error = (*ctl)(fp, AUDIO_SETINFO, &aui, l);
 1.2       mrg 		if (error)
 1.2       mrg 			return error;
 1.2       mrg 		/* Return new state */
 1.2       mrg 		goto sunos_au_getinfo;
 1.2       mrg 	    }
 1.2       mrg 	case _IO('A', 3):	/* AUDIO_DRAIN */
1.16  christos 		return (*ctl)(fp, AUDIO_DRAIN, NULL, l);
 1.2       mrg 	case _IOR('A', 4, int):	/* AUDIO_GETDEV */
 1.2       mrg 	    {
 1.2       mrg 		int devtype = SUNOS_AUDIO_DEV_AMD;
1.20       dsl 		return copyout(&devtype, SCARG_P32(uap, data),
 1.2       mrg 				sizeof (devtype));
 1.2       mrg 	    }
 1.2       mrg
 1.2       mrg /*
 1.2       mrg  * Selected streams ioctls.
 1.2       mrg  */
 1.2       mrg #define SUNOS_S_FLUSHR		1
 1.2       mrg #define SUNOS_S_FLUSHW		2
 1.2       mrg #define SUNOS_S_FLUSHRW		3
 1.2       mrg
 1.2       mrg #define SUNOS_S_INPUT		1
 1.2       mrg #define SUNOS_S_HIPRI		2
 1.2       mrg #define SUNOS_S_OUTPUT		4
 1.2       mrg #define SUNOS_S_MSG		8
 1.2       mrg
 1.2       mrg 	case _IO('S', 5):	/* I_FLUSH */
 1.2       mrg 	    {
 1.2       mrg 		int tmp = 0;
1.20       dsl 		switch ((intptr_t)SCARG_P32(uap, data)) {
 1.2       mrg 		case SUNOS_S_FLUSHR:	tmp = FREAD;
 1.2       mrg 		case SUNOS_S_FLUSHW:	tmp = FWRITE;
 1.2       mrg 		case SUNOS_S_FLUSHRW:	tmp = FREAD|FWRITE;
 1.2       mrg 		}
1.16  christos                 return (*ctl)(fp, TIOCFLUSH, &tmp, l);
 1.2       mrg 	    }
 1.2       mrg 	case _IO('S', 9):	/* I_SETSIG */
 1.2       mrg 	    {
 1.2       mrg 		int on = 1;
1.20       dsl 		if (((intptr_t)SCARG_P32(uap, data) &
 1.2       mrg 			(SUNOS_S_HIPRI|SUNOS_S_INPUT)) ==
 1.2       mrg 		    SUNOS_S_HIPRI)
 1.2       mrg 			return EOPNOTSUPP;
1.16  christos                 return (*ctl)(fp, FIOASYNC, &on, l);
 1.2       mrg 	    }
 1.2       mrg 	/*
 1.2       mrg 	 * SunOS disk ioctls, taken from arch/sparc/sparc/disksubr.c
 1.2       mrg 	 * (which was from the old sparc/scsi/sun_disklabel.c), and
 1.2       mrg 	 * modified to suite.
 1.2       mrg 	 */
 1.2       mrg 	case DKIOCGGEOM:
 1.2       mrg             {
 1.2       mrg 		struct disklabel dl;
 1.2       mrg
1.16  christos 		error = (*ctl)(fp, DIOCGDINFO, &dl, l);
 1.2       mrg 		if (error)
 1.2       mrg 			return (error);
 1.2       mrg
1.20       dsl #define datageom	((struct sun_dkgeom *)SCARG_P32(uap, data))
1.11       dsl 		/* XXX can't do memset() on a user address (dsl) */
1.20       dsl 		memset(SCARG_P32(uap, data), 0, sizeof(*datageom));
 1.2       mrg
 1.2       mrg 		datageom->sdkc_ncylinders = dl.d_ncylinders;
 1.2       mrg 		datageom->sdkc_acylinders = dl.d_acylinders;
 1.2       mrg 		datageom->sdkc_ntracks = dl.d_ntracks;
 1.2       mrg 		datageom->sdkc_nsectors = dl.d_nsectors;
 1.2       mrg 		datageom->sdkc_interleave = dl.d_interleave;
 1.2       mrg 		datageom->sdkc_sparespercyl = dl.d_sparespercyl;
 1.2       mrg 		datageom->sdkc_rpm = dl.d_rpm;
 1.2       mrg 		datageom->sdkc_pcylinders = dl.d_ncylinders + dl.d_acylinders;
 1.2       mrg #undef datageom
 1.2       mrg 		break;
 1.2       mrg 	    }
 1.2       mrg
 1.2       mrg 	case DKIOCINFO:
 1.2       mrg 		/* Homey don't do DKIOCINFO */
1.11       dsl 		/* XXX can't do memset() on a user address (dsl) */
1.20       dsl 		memset(SCARG_P32(uap, data), 0, sizeof(struct sun_dkctlr));
 1.2       mrg 		break;
 1.2       mrg
 1.2       mrg 	case DKIOCGPART:
 1.2       mrg             {
 1.2       mrg 		struct partinfo pi;
 1.2       mrg
1.16  christos 		error = (*ctl)(fp, DIOCGPART, &pi, l);
 1.2       mrg 		if (error)
 1.2       mrg 			return (error);
 1.2       mrg
 1.2       mrg 		if (pi.disklab->d_secpercyl == 0)
 1.2       mrg 			return (ERANGE);	/* XXX */
 1.2       mrg 		if (pi.part->p_offset % pi.disklab->d_secpercyl != 0)
 1.2       mrg 			return (ERANGE);	/* XXX */
1.20       dsl 		/* XXX can't do direct writes to a user address (dsl) */
1.20       dsl #define datapart	((struct sun_dkpart *)SCARG_P32(uap, data))
 1.2       mrg 		datapart->sdkp_cyloffset = pi.part->p_offset / pi.disklab->d_secpercyl;
 1.2       mrg 		datapart->sdkp_nsectors = pi.part->p_size;
 1.2       mrg #undef datapart
 1.2       mrg 	    }
 1.2       mrg
 1.2       mrg 	}
1.10   thorpej 	return (netbsd32_ioctl(l, uap, retval));
 1.2       mrg }
 1.2       mrg
 1.2       mrg /* SunOS fcntl(2) cmds not implemented */
 1.2       mrg #define SUN_F_RGETLK	10
 1.2       mrg #define SUN_F_RSETLK	11
 1.2       mrg #define SUN_F_CNVT	12
 1.2       mrg #define SUN_F_RSETLKW	13
 1.2       mrg
 1.2       mrg /* SunOS flock translation */
 1.2       mrg struct sunos_flock {
 1.2       mrg 	short	l_type;
 1.2       mrg 	short	l_whence;
 1.3       mrg 	netbsd32_long	l_start;
 1.3       mrg 	netbsd32_long	l_len;
 1.2       mrg 	short	l_pid;
 1.2       mrg 	short	l_xxx;
 1.2       mrg };
 1.2       mrg
 1.2       mrg static void bsd_to_sunos_flock __P((struct flock *, struct sunos_flock *));
 1.2       mrg static void sunos_to_bsd_flock __P((struct sunos_flock *, struct flock *));
 1.2       mrg
 1.2       mrg #define SUNOS_F_RDLCK	1
 1.2       mrg #define	SUNOS_F_WRLCK	2
 1.2       mrg #define SUNOS_F_UNLCK	3
 1.2       mrg
 1.2       mrg static void
 1.2       mrg bsd_to_sunos_flock(iflp, oflp)
 1.2       mrg 	struct flock		*iflp;
 1.2       mrg 	struct sunos_flock	*oflp;
 1.2       mrg {
 1.2       mrg 	switch (iflp->l_type) {
 1.2       mrg 	case F_RDLCK:
 1.2       mrg 		oflp->l_type = SUNOS_F_RDLCK;
 1.2       mrg 		break;
 1.2       mrg 	case F_WRLCK:
 1.2       mrg 		oflp->l_type = SUNOS_F_WRLCK;
 1.2       mrg 		break;
 1.2       mrg 	case F_UNLCK:
 1.2       mrg 		oflp->l_type = SUNOS_F_UNLCK;
 1.2       mrg 		break;
 1.2       mrg 	default:
 1.2       mrg 		oflp->l_type = -1;
 1.2       mrg 		break;
 1.2       mrg 	}
 1.2       mrg
 1.2       mrg 	oflp->l_whence = (short) iflp->l_whence;
 1.3       mrg 	oflp->l_start = (netbsd32_long) iflp->l_start;
 1.3       mrg 	oflp->l_len = (netbsd32_long) iflp->l_len;
 1.2       mrg 	oflp->l_pid = (short) iflp->l_pid;
 1.2       mrg 	oflp->l_xxx = 0;
 1.2       mrg }
 1.2       mrg
 1.2       mrg
 1.2       mrg static void
 1.2       mrg sunos_to_bsd_flock(iflp, oflp)
 1.2       mrg 	struct sunos_flock	*iflp;
 1.2       mrg 	struct flock		*oflp;
 1.2       mrg {
 1.2       mrg 	switch (iflp->l_type) {
 1.2       mrg 	case SUNOS_F_RDLCK:
 1.2       mrg 		oflp->l_type = F_RDLCK;
 1.2       mrg 		break;
 1.2       mrg 	case SUNOS_F_WRLCK:
 1.2       mrg 		oflp->l_type = F_WRLCK;
 1.2       mrg 		break;
 1.2       mrg 	case SUNOS_F_UNLCK:
 1.2       mrg 		oflp->l_type = F_UNLCK;
 1.2       mrg 		break;
 1.2       mrg 	default:
 1.2       mrg 		oflp->l_type = -1;
 1.2       mrg 		break;
 1.2       mrg 	}
 1.2       mrg
 1.2       mrg 	oflp->l_whence = iflp->l_whence;
 1.2       mrg 	oflp->l_start = (off_t) iflp->l_start;
 1.2       mrg 	oflp->l_len = (off_t) iflp->l_len;
 1.2       mrg 	oflp->l_pid = (pid_t) iflp->l_pid;
 1.2       mrg
 1.2       mrg }
 1.2       mrg static struct {
 1.3       mrg 	netbsd32_long	sun_flg;
 1.3       mrg 	netbsd32_long	bsd_flg;
 1.2       mrg } sunfcntl_flgtab[] = {
 1.2       mrg 	/* F_[GS]ETFLags that differ: */
 1.2       mrg #define SUN_FSETBLK	0x0010
 1.2       mrg #define SUN_SHLOCK	0x0080
 1.2       mrg #define SUN_EXLOCK	0x0100
 1.2       mrg #define SUN_FNBIO	0x1000
 1.2       mrg #define SUN_FSYNC	0x2000
 1.2       mrg #define SUN_NONBLOCK	0x4000
 1.2       mrg #define SUN_FNOCTTY	0x8000
 1.2       mrg 	{ SUN_NONBLOCK, O_NONBLOCK },
 1.2       mrg 	{ SUN_FNBIO, O_NONBLOCK },
 1.2       mrg 	{ SUN_SHLOCK, O_SHLOCK },
 1.2       mrg 	{ SUN_EXLOCK, O_EXLOCK },
 1.2       mrg 	{ SUN_FSYNC, O_FSYNC },
 1.2       mrg 	{ SUN_FSETBLK, 0 },
 1.2       mrg 	{ SUN_FNOCTTY, 0 }
 1.2       mrg };
 1.2       mrg
 1.2       mrg int
1.10   thorpej sunos32_sys_fcntl(l, v, retval)
1.10   thorpej 	struct lwp *l;
 1.2       mrg 	void *v;
 1.2       mrg 	register_t *retval;
 1.2       mrg {
 1.3       mrg 	struct sunos32_sys_fcntl_args /* {
 1.3       mrg 		syscallarg(int) fd;
 1.3       mrg 		syscallarg(int) cmd;
 1.3       mrg 		syscallarg(netbsd32_voidp) arg;
 1.3       mrg 	} */ *uap = v;
1.10   thorpej 	struct proc *p = l->l_proc;
1.20       dsl 	uintptr_t flg;
 1.2       mrg 	int n, ret;
 1.2       mrg
 1.2       mrg 	switch (SCARG(uap, cmd)) {
 1.2       mrg 	case F_SETFL:
1.20       dsl 		flg = (intptr_t)SCARG_P32(uap, arg);
 1.2       mrg 		n = sizeof(sunfcntl_flgtab) / sizeof(sunfcntl_flgtab[0]);
 1.2       mrg 		while (--n >= 0) {
 1.2       mrg 			if (flg & sunfcntl_flgtab[n].sun_flg) {
 1.2       mrg 				flg &= ~sunfcntl_flgtab[n].sun_flg;
 1.2       mrg 				flg |= sunfcntl_flgtab[n].bsd_flg;
 1.2       mrg 			}
 1.2       mrg 		}
1.20       dsl 		NETBSD32PTR32(SCARG(uap, arg), (void *)flg);
 1.2       mrg 		break;
 1.2       mrg
 1.2       mrg 	case F_GETLK:
 1.2       mrg 	case F_SETLK:
 1.2       mrg 	case F_SETLKW:
 1.2       mrg 		{
 1.2       mrg 			int error;
 1.2       mrg 			struct sunos_flock	 ifl;
 1.2       mrg 			struct flock		*flp, fl;
1.18  christos 			void *sg = stackgap_init(p, 0);
 1.2       mrg 			struct sys_fcntl_args		fa;
 1.2       mrg
 1.2       mrg 			SCARG(&fa, fd) = SCARG(uap, fd);
 1.2       mrg 			SCARG(&fa, cmd) = SCARG(uap, cmd);
 1.2       mrg
 1.8  christos 			flp = stackgap_alloc(p, &sg, sizeof(struct flock));
 1.2       mrg 			SCARG(&fa, arg) = (void *) flp;
 1.2       mrg
1.20       dsl 			error = copyin(SCARG_P32(uap, arg), &ifl, sizeof ifl);
 1.2       mrg 			if (error)
 1.2       mrg 				return error;
 1.2       mrg
 1.2       mrg 			sunos_to_bsd_flock(&ifl, &fl);
 1.2       mrg
 1.2       mrg 			error = copyout(&fl, flp, sizeof fl);
 1.2       mrg 			if (error)
 1.2       mrg 				return error;
 1.2       mrg
1.10   thorpej 			error = sys_fcntl(l, &fa, retval);
 1.2       mrg 			if (error || SCARG(&fa, cmd) != F_GETLK)
 1.2       mrg 				return error;
 1.2       mrg
 1.2       mrg 			error = copyin(flp, &fl, sizeof fl);
 1.2       mrg 			if (error)
 1.2       mrg 				return error;
 1.2       mrg
 1.2       mrg 			bsd_to_sunos_flock(&fl, &ifl);
 1.2       mrg
1.20       dsl 			return copyout(&ifl, SCARG_P32(uap, arg), sizeof ifl);
 1.2       mrg 		}
 1.2       mrg 		break;
 1.2       mrg 	case SUN_F_RGETLK:
 1.2       mrg 	case SUN_F_RSETLK:
 1.2       mrg 	case SUN_F_CNVT:
 1.2       mrg 	case SUN_F_RSETLKW:
 1.2       mrg 		return (EOPNOTSUPP);
 1.2       mrg 	}
 1.2       mrg
1.10   thorpej 	ret = netbsd32_fcntl(l, uap, retval);
 1.2       mrg
 1.2       mrg 	switch (SCARG(uap, cmd)) {
 1.2       mrg 	case F_GETFL:
 1.2       mrg 		n = sizeof(sunfcntl_flgtab) / sizeof(sunfcntl_flgtab[0]);
 1.2       mrg 		while (--n >= 0) {
 1.2       mrg 			if (ret & sunfcntl_flgtab[n].bsd_flg) {
 1.2       mrg 				ret &= ~sunfcntl_flgtab[n].bsd_flg;
 1.2       mrg 				ret |= sunfcntl_flgtab[n].sun_flg;
 1.2       mrg 			}
 1.2       mrg 		}
 1.2       mrg 		break;
 1.2       mrg 	}
 1.1       mrg
 1.2       mrg 	return (ret);
 1.2       mrg }