compat/netbsd32/netbsd32_ioctl.c

1.3  mrg /*	$NetBSD: netbsd32_ioctl.c,v 1.3 1999/03/25 16:58:40 mrg Exp $	*/
1.1  mrg
1.1  mrg /*
1.1  mrg  * Copyright (c) 1998 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
1.1  mrg /*
1.2  mrg  * handle ioctl conversions from netbsd32 -> sparc64
1.1  mrg  */
1.1  mrg
1.1  mrg #include <sys/param.h>
1.1  mrg #include <sys/systm.h>
1.1  mrg #include <sys/audioio.h>
1.1  mrg #include <sys/disklabel.h>
1.1  mrg #include <sys/dkio.h>
1.1  mrg #include <sys/malloc.h>
1.1  mrg #include <sys/proc.h>
1.1  mrg #include <sys/sockio.h>
1.1  mrg #include <sys/socket.h>
1.1  mrg #include <sys/ttycom.h>
1.1  mrg #include <sys/mount.h>
1.1  mrg #include <sys/syscallargs.h>
1.1  mrg
1.1  mrg #include <machine/fbio.h>
1.1  mrg #include <machine/openpromio.h>
1.1  mrg
1.1  mrg #include <net/if.h>
1.1  mrg #include <net/route.h>
1.1  mrg
1.1  mrg #include <netinet/in.h>
1.1  mrg #include <netinet/in_var.h>
1.1  mrg #include <netinet/igmp.h>
1.1  mrg #include <netinet/igmp_var.h>
1.1  mrg #include <netinet/ip_mroute.h>
1.1  mrg
1.2  mrg #include <compat/netbsd32/netbsd32.h>
1.2  mrg #include <compat/netbsd32/netbsd32_ioctl.h>
1.2  mrg #include <compat/netbsd32/netbsd32_syscallargs.h>
1.1  mrg
1.1  mrg void
1.2  mrg netbsd32_to_fbcmap(s32p, p)
1.2  mrg 	struct netbsd32_fbcmap *s32p;
1.1  mrg 	struct fbcmap *p;
1.1  mrg {
1.1  mrg
1.1  mrg 	p->index = s32p->index;
1.1  mrg 	p->count = s32p->count;
1.1  mrg 	p->red = (u_char *)(u_long)s32p->red;
1.1  mrg 	p->green = (u_char *)(u_long)s32p->green;
1.1  mrg 	p->blue = (u_char *)(u_long)s32p->blue;
1.1  mrg }
1.1  mrg
1.1  mrg void
1.2  mrg netbsd32_to_fbcursor(s32p, p)
1.2  mrg 	struct netbsd32_fbcursor *s32p;
1.1  mrg 	struct fbcursor *p;
1.1  mrg {
1.1  mrg
1.1  mrg 	p->set = s32p->set;
1.1  mrg 	p->enable = s32p->enable;
1.1  mrg 	p->pos = s32p->pos;
1.1  mrg 	p->hot = s32p->hot;
1.2  mrg 	netbsd32_to_fbcmap(&s32p->cmap, &p->cmap);
1.1  mrg 	p->size = s32p->size;
1.1  mrg 	p->image = (char *)(u_long)s32p->image;
1.1  mrg 	p->mask = (char *)(u_long)s32p->mask;
1.1  mrg }
1.1  mrg
1.1  mrg void
1.2  mrg netbsd32_to_opiocdesc(s32p, p)
1.2  mrg 	struct netbsd32_opiocdesc *s32p;
1.1  mrg 	struct opiocdesc *p;
1.1  mrg {
1.1  mrg
1.1  mrg 	p->op_nodeid = s32p->op_nodeid;
1.1  mrg 	p->op_namelen = s32p->op_namelen;
1.1  mrg 	p->op_name = (char *)(u_long)s32p->op_name;
1.1  mrg 	p->op_buflen = s32p->op_buflen;
1.1  mrg 	p->op_buf = (char *)(u_long)s32p->op_buf;
1.1  mrg }
1.1  mrg
1.1  mrg void
1.2  mrg netbsd32_to_partinfo(s32p, p)
1.2  mrg 	struct netbsd32_partinfo *s32p;
1.1  mrg 	struct partinfo *p;
1.1  mrg {
1.1  mrg
1.1  mrg 	p->disklab = (struct disklabel *)(u_long)s32p->disklab;
1.1  mrg 	p->part = (struct partition *)(u_long)s32p->part;
1.1  mrg }
1.1  mrg
1.1  mrg void
1.2  mrg netbsd32_to_format_op(s32p, p)
1.2  mrg 	struct netbsd32_format_op *s32p;
1.1  mrg 	struct format_op *p;
1.1  mrg {
1.1  mrg
1.1  mrg 	p->df_buf = (char *)(u_long)s32p->df_buf;
1.1  mrg 	p->df_count = s32p->df_count;
1.1  mrg 	p->df_startblk = s32p->df_startblk;
1.1  mrg 	memcpy(p->df_reg, s32p->df_reg, sizeof(s32p->df_reg));
1.1  mrg }
1.1  mrg
1.1  mrg #if 0 /* XXX see below */
1.1  mrg void
1.2  mrg netbsd32_to_ifreq(s32p, p, cmd)
1.2  mrg 	struct netbsd32_ifreq *s32p;
1.1  mrg 	struct ifreq *p;
1.1  mrg 	u_long cmd;	/* XXX unused yet */
1.1  mrg {
1.1  mrg
1.1  mrg 	/*
1.1  mrg 	 * XXX
1.1  mrg 	 * struct ifreq says the same, but sometimes the ifr_data
1.1  mrg 	 * union member needs to be converted to 64 bits... this
1.1  mrg 	 * is very driver specific and so we ignore it for now..
1.1  mrg 	 */
1.1  mrg 	memcpy(p, s32p, sizeof *s32p);
1.1  mrg }
1.1  mrg #endif
1.1  mrg
1.1  mrg void
1.2  mrg netbsd32_to_ifconf(s32p, p)
1.2  mrg 	struct netbsd32_ifconf *s32p;
1.1  mrg 	struct ifconf *p;
1.1  mrg {
1.1  mrg
1.1  mrg 	p->ifc_len = s32p->ifc_len;
1.1  mrg 	/* ifc_buf & ifc_req are the same size so this works */
1.1  mrg 	p->ifc_buf = (caddr_t)(u_long)s32p->ifc_buf;
1.1  mrg }
1.1  mrg
1.1  mrg void
1.2  mrg netbsd32_to_ifmediareq(s32p, p)
1.2  mrg 	struct netbsd32_ifmediareq *s32p;
1.1  mrg 	struct ifmediareq *p;
1.1  mrg {
1.1  mrg
1.1  mrg 	memcpy(p, s32p, sizeof *s32p);
1.1  mrg 	p->ifm_ulist = (int *)(u_long)s32p->ifm_ulist;
1.1  mrg }
1.1  mrg
1.1  mrg void
1.2  mrg netbsd32_to_ifdrv(s32p, p)
1.2  mrg 	struct netbsd32_ifdrv *s32p;
1.1  mrg 	struct ifdrv *p;
1.1  mrg {
1.1  mrg
1.1  mrg 	memcpy(p, s32p, sizeof *s32p);
1.1  mrg 	p->ifd_data = (void *)(u_long)s32p->ifd_data;
1.1  mrg }
1.1  mrg
1.1  mrg void
1.2  mrg netbsd32_to_sioc_vif_req(s32p, p)
1.2  mrg 	struct netbsd32_sioc_vif_req *s32p;
1.1  mrg 	struct sioc_vif_req *p;
1.1  mrg {
1.1  mrg
1.1  mrg 	p->vifi = s32p->vifi;
1.1  mrg 	p->icount = (u_long)s32p->icount;
1.1  mrg 	p->ocount = (u_long)s32p->ocount;
1.1  mrg 	p->ibytes = (u_long)s32p->ibytes;
1.1  mrg 	p->obytes = (u_long)s32p->obytes;
1.1  mrg }
1.1  mrg
1.1  mrg void
1.2  mrg netbsd32_to_sioc_sg_req(s32p, p)
1.2  mrg 	struct netbsd32_sioc_sg_req *s32p;
1.1  mrg 	struct sioc_sg_req *p;
1.1  mrg {
1.1  mrg
1.1  mrg 	p->src = s32p->src;
1.1  mrg 	p->grp = s32p->grp;
1.1  mrg 	p->pktcnt = (u_long)s32p->pktcnt;
1.1  mrg 	p->bytecnt = (u_long)s32p->bytecnt;
1.1  mrg 	p->wrong_if = (u_long)s32p->wrong_if;
1.1  mrg }
1.1  mrg
1.1  mrg /*
1.2  mrg  * handle ioctl conversions from sparc64 -> netbsd32
1.1  mrg  */
1.1  mrg
1.1  mrg void
1.2  mrg netbsd32_from_fbcmap(p, s32p)
1.1  mrg 	struct fbcmap *p;
1.2  mrg 	struct netbsd32_fbcmap *s32p;
1.1  mrg {
1.1  mrg
1.1  mrg 	s32p->index = p->index;
1.1  mrg 	s32p->count = p->count;
1.1  mrg /* filled in */
1.1  mrg #if 0
1.2  mrg 	s32p->red = (netbsd32_u_charp)p->red;
1.2  mrg 	s32p->green = (netbsd32_u_charp)p->green;
1.2  mrg 	s32p->blue = (netbsd32_u_charp)p->blue;
1.1  mrg #endif
1.1  mrg }
1.1  mrg
1.1  mrg void
1.2  mrg netbsd32_from_fbcursor(p, s32p)
1.1  mrg 	struct fbcursor *p;
1.2  mrg 	struct netbsd32_fbcursor *s32p;
1.1  mrg {
1.1  mrg
1.1  mrg 	s32p->set = p->set;
1.1  mrg 	s32p->enable = p->enable;
1.1  mrg 	s32p->pos = p->pos;
1.1  mrg 	s32p->hot = p->hot;
1.2  mrg 	netbsd32_from_fbcmap(&p->cmap, &s32p->cmap);
1.1  mrg 	s32p->size = p->size;
1.1  mrg /* filled in */
1.1  mrg #if 0
1.2  mrg 	s32p->image = (netbsd32_charp)p->image;
1.2  mrg 	s32p->mask = (netbsd32_charp)p->mask;
1.1  mrg #endif
1.1  mrg }
1.1  mrg
1.1  mrg void
1.2  mrg netbsd32_from_opiocdesc(p, s32p)
1.1  mrg 	struct opiocdesc *p;
1.2  mrg 	struct netbsd32_opiocdesc *s32p;
1.1  mrg {
1.1  mrg
1.1  mrg 	s32p->op_nodeid = p->op_nodeid;
1.1  mrg 	s32p->op_namelen = p->op_namelen;
1.2  mrg 	s32p->op_name = (netbsd32_charp)(u_long)p->op_name;
1.1  mrg 	s32p->op_buflen = p->op_buflen;
1.2  mrg 	s32p->op_buf = (netbsd32_charp)(u_long)p->op_buf;
1.1  mrg }
1.1  mrg
1.1  mrg void
1.2  mrg netbsd32_from_format_op(p, s32p)
1.1  mrg 	struct format_op *p;
1.2  mrg 	struct netbsd32_format_op *s32p;
1.1  mrg {
1.1  mrg
1.1  mrg /* filled in */
1.1  mrg #if 0
1.2  mrg 	s32p->df_buf = (netbsd32_charp)p->df_buf;
1.1  mrg #endif
1.1  mrg 	s32p->df_count = p->df_count;
1.1  mrg 	s32p->df_startblk = p->df_startblk;
1.1  mrg 	memcpy(s32p->df_reg, p->df_reg, sizeof(p->df_reg));
1.1  mrg }
1.1  mrg
1.1  mrg #if 0 /* XXX see below */
1.1  mrg void
1.2  mrg netbsd32_from_ifreq(p, s32p, cmd)
1.1  mrg 	struct ifreq *p;
1.2  mrg 	struct netbsd32_ifreq *s32p;
1.1  mrg 	u_long cmd;	/* XXX unused yet */
1.1  mrg {
1.1  mrg
1.1  mrg 	/*
1.1  mrg 	 * XXX
1.1  mrg 	 * struct ifreq says the same, but sometimes the ifr_data
1.1  mrg 	 * union member needs to be converted to 64 bits... this
1.1  mrg 	 * is very driver specific and so we ignore it for now..
1.1  mrg 	 */
1.1  mrg 	*s32p = *p;
1.1  mrg }
1.1  mrg #endif
1.1  mrg
1.1  mrg void
1.2  mrg netbsd32_from_ifconf(p, s32p)
1.1  mrg 	struct ifconf *p;
1.2  mrg 	struct netbsd32_ifconf *s32p;
1.1  mrg {
1.1  mrg
1.1  mrg 	s32p->ifc_len = p->ifc_len;
1.1  mrg 	/* ifc_buf & ifc_req are the same size so this works */
1.2  mrg 	s32p->ifc_buf = (netbsd32_caddr_t)(u_long)p->ifc_buf;
1.1  mrg }
1.1  mrg
1.1  mrg void
1.2  mrg netbsd32_from_ifmediareq(p, s32p)
1.1  mrg 	struct ifmediareq *p;
1.2  mrg 	struct netbsd32_ifmediareq *s32p;
1.1  mrg {
1.1  mrg
1.1  mrg 	memcpy(s32p, p, sizeof *p);
1.1  mrg /* filled in? */
1.1  mrg #if 0
1.2  mrg 	s32p->ifm_ulist = (netbsd32_intp_t)p->ifm_ulist;
1.1  mrg #endif
1.1  mrg }
1.1  mrg
1.1  mrg void
1.2  mrg netbsd32_from_ifdrv(p, s32p)
1.1  mrg 	struct ifdrv *p;
1.2  mrg 	struct netbsd32_ifdrv *s32p;
1.1  mrg {
1.1  mrg
1.1  mrg 	memcpy(s32p, p, sizeof *p);
1.1  mrg /* filled in? */
1.1  mrg #if 0
1.2  mrg 	s32p->ifm_data = (netbsd32_u_longp_t)p->ifm_data;
1.1  mrg #endif
1.1  mrg }
1.1  mrg
1.1  mrg void
1.2  mrg netbsd32_from_sioc_vif_req(p, s32p)
1.1  mrg 	struct sioc_vif_req *p;
1.2  mrg 	struct netbsd32_sioc_vif_req *s32p;
1.1  mrg {
1.1  mrg
1.1  mrg 	s32p->vifi = p->vifi;
1.2  mrg 	s32p->icount = (netbsd32_u_long)p->icount;
1.2  mrg 	s32p->ocount = (netbsd32_u_long)p->ocount;
1.2  mrg 	s32p->ibytes = (netbsd32_u_long)p->ibytes;
1.2  mrg 	s32p->obytes = (netbsd32_u_long)p->obytes;
1.1  mrg }
1.1  mrg
1.1  mrg void
1.2  mrg netbsd32_from_sioc_sg_req(p, s32p)
1.1  mrg 	struct sioc_sg_req *p;
1.2  mrg 	struct netbsd32_sioc_sg_req *s32p;
1.1  mrg {
1.1  mrg
1.1  mrg 	s32p->src = p->src;
1.1  mrg 	s32p->grp = p->grp;
1.2  mrg 	s32p->pktcnt = (netbsd32_u_long)p->pktcnt;
1.2  mrg 	s32p->bytecnt = (netbsd32_u_long)p->bytecnt;
1.2  mrg 	s32p->wrong_if = (netbsd32_u_long)p->wrong_if;
1.1  mrg }
1.1  mrg
1.1  mrg
1.1  mrg /*
1.1  mrg  * main ioctl syscall.
1.1  mrg  *
1.1  mrg  * ok, here we are in the biggy.  we have to do fix ups depending
1.1  mrg  * on the ioctl command before and afterwards.
1.1  mrg  */
1.1  mrg int
1.2  mrg compat_netbsd32_ioctl(p, v, retval)
1.1  mrg 	struct proc *p;
1.1  mrg 	void *v;
1.1  mrg 	register_t *retval;
1.1  mrg {
1.2  mrg 	struct compat_netbsd32_ioctl_args /* {
1.1  mrg 		syscallarg(int) fd;
1.2  mrg 		syscallarg(netbsd32_u_long) com;
1.2  mrg 		syscallarg(netbsd32_voidp) data;
1.1  mrg 	} */ *uap = v;
1.1  mrg 	struct sys_ioctl_args ua;
1.1  mrg 	void *data = NULL;
1.1  mrg 	int rv;
1.1  mrg
1.1  mrg 	/*
1.1  mrg 	 * we need to translate some commands (_IOW) before calling sys_ioctl,
1.1  mrg 	 * some after (_IOR), and some both (_IOWR).
1.1  mrg 	 */
1.1  mrg
1.1  mrg /* we define some handy macros here... */
1.1  mrg #define IOCTL_STRUCT_CONV_TO(type)	\
1.1  mrg 	data = malloc(sizeof(struct type), M_TEMP, M_WAITOK); \
1.2  mrg 	__CONCAT(netbsd32_to_, type)((struct __CONCAT(netbsd32_, type) *) \
1.1  mrg 	    (u_long)SCARG(uap, data), data)
1.1  mrg
1.1  mrg #define IOCTL_STRUCT_CONV_CMD_TO(type, cmd)	\
1.1  mrg 	data = malloc(sizeof(struct type), M_TEMP, M_WAITOK); \
1.2  mrg 	__CONCAT(netbsd32_to_, type)((struct __CONCAT(netbsd32_, type) *) \
1.1  mrg 	    (u_long)SCARG(uap, data), data, cmd)
1.1  mrg
1.1  mrg #define IOCTL_STRUCT_CONV_FROM(type)	\
1.2  mrg 	__CONCAT(netbsd32_from_, type)(data, \
1.2  mrg 	    (struct __CONCAT(netbsd32_, type) *) (u_long)SCARG(uap, data))
1.1  mrg
1.1  mrg #define IOCTL_STRUCT_CONV_CMD_FROM(type, cmd)	\
1.2  mrg 	__CONCAT(netbsd32_from_, type)(data, \
1.2  mrg 	    (struct __CONCAT(netbsd32_, type) *) (u_long)SCARG(uap, data), cmd)
1.1  mrg
1.1  mrg 	/*
1.1  mrg 	 * convert various structures, pointers, and other objects that
1.1  mrg 	 * change size from 32 bit -> 64 bit, for all ioctl commands.
1.1  mrg 	 */
1.1  mrg 	switch (SCARG(uap, com)) {
1.1  mrg 	case FBIOPUTCMAP:
1.1  mrg 	case FBIOGETCMAP:
1.1  mrg 		IOCTL_STRUCT_CONV_TO(fbcmap);
1.1  mrg 		break;
1.1  mrg
1.1  mrg 	case FBIOSCURSOR:
1.1  mrg 	case FBIOGCURSOR:
1.1  mrg 		IOCTL_STRUCT_CONV_TO(fbcursor);
1.1  mrg 		break;
1.1  mrg
1.1  mrg 	case OPIOCGET:
1.1  mrg 	case OPIOCSET:
1.1  mrg 	case OPIOCNEXTPROP:
1.1  mrg 		IOCTL_STRUCT_CONV_TO(opiocdesc);
1.1  mrg 		break;
1.1  mrg
1.1  mrg 	case DIOCGPART:
1.1  mrg 		IOCTL_STRUCT_CONV_TO(partinfo);
1.1  mrg 		break;
1.1  mrg
1.1  mrg 	case DIOCRFORMAT:
1.1  mrg 	case DIOCWFORMAT:
1.1  mrg 		IOCTL_STRUCT_CONV_TO(format_op);
1.1  mrg 		break;
1.1  mrg
1.1  mrg /*
1.1  mrg  * only a few ifreq syscalls need conversion and those are
1.1  mrg  * all driver specific... XXX
1.1  mrg  */
1.1  mrg #if 0
1.1  mrg 	case SIOCGADDRROM:
1.1  mrg 	case SIOCGCHIPID:
1.1  mrg 	case SIOCSIFADDR:
1.1  mrg 	case OSIOCGIFADDR:
1.1  mrg 	case SIOCGIFADDR:
1.1  mrg 	case SIOCSIFDSTADDR:
1.1  mrg 	case OSIOCGIFDSTADDR:
1.1  mrg 	case SIOCGIFDSTADDR:
1.1  mrg 	case SIOCSIFFLAGS:
1.1  mrg 	case SIOCGIFFLAGS:
1.1  mrg 	case OSIOCGIFBRDADDR:
1.1  mrg 	case SIOCGIFBRDADDR:
1.1  mrg 	case SIOCSIFBRDADDR:
1.1  mrg 	case OSIOCGIFNETMASK:
1.1  mrg 	case SIOCGIFNETMASK:
1.1  mrg 	case SIOCSIFNETMASK:
1.1  mrg 	case SIOCGIFMETRIC:
1.1  mrg 	case SIOCSIFMETRIC:
1.1  mrg 	case SIOCDIFADDR:
1.1  mrg 	case SIOCADDMULTI:
1.1  mrg 	case SIOCDELMULTI:
1.1  mrg 	case SIOCSIFMEDIA:
1.1  mrg 	case SIOCSIFMTU:
1.1  mrg 	case SIOCGIFMTU:
1.1  mrg 	case SIOCSIFASYNCMAP:
1.1  mrg 	case SIOCGIFASYNCMAP:
1.1  mrg /*	case BIOCGETIF: READ ONLY */
1.1  mrg 	case BIOCSETIF:
1.1  mrg 	case SIOCPHASE1:
1.1  mrg 	case SIOCPHASE2:
1.1  mrg 		IOCTL_STRUCT_CONV_CMD_TO(ifreq, SCARG(uap, cmd));
1.1  mrg 		break;
1.1  mrg #endif
1.1  mrg
1.1  mrg 	case OSIOCGIFCONF:
1.1  mrg 	case SIOCGIFCONF:
1.1  mrg 		IOCTL_STRUCT_CONV_TO(ifconf);
1.1  mrg 		break;
1.1  mrg
1.1  mrg 	case SIOCGIFMEDIA:
1.1  mrg 		IOCTL_STRUCT_CONV_TO(ifmediareq);
1.1  mrg 		break;
1.1  mrg
1.1  mrg 	case SIOCSDRVSPEC:
1.1  mrg 		IOCTL_STRUCT_CONV_TO(ifdrv);
1.1  mrg 		break;
1.1  mrg
1.1  mrg 	case SIOCGETVIFCNT:
1.1  mrg 		IOCTL_STRUCT_CONV_TO(sioc_vif_req);
1.1  mrg 		break;
1.1  mrg
1.1  mrg 	case SIOCGETSGCNT:
1.1  mrg 		IOCTL_STRUCT_CONV_TO(sioc_sg_req);
1.1  mrg 		break;
1.1  mrg
1.1  mrg 	}
1.1  mrg
1.1  mrg 	/*
1.1  mrg 	 * if we malloced a new data segment, plug it into the
1.1  mrg 	 * syscall args, otherwise copy incoming one as a void
1.1  mrg 	 * pointer.  also copy the rest of the syscall args...
1.1  mrg 	 */
1.1  mrg 	if (data)
1.1  mrg 		SCARG(&ua, data) = data;
1.1  mrg 	else
1.3  mrg 		NETBSD32TOP_UAP(data, void);
1.3  mrg 	NETBSD32TO64_UAP(fd);
1.3  mrg 	NETBSD32TOX_UAP(com, u_long);
1.1  mrg
1.1  mrg 	/* call the real ioctl */
1.1  mrg 	rv = sys_ioctl(p, &ua, retval);
1.1  mrg
1.1  mrg 	/*
1.1  mrg 	 * convert _back_ to 32 bit the results of the command.
1.1  mrg 	 */
1.1  mrg 	switch (SCARG(uap, com)) {
1.1  mrg 	case FBIOGETCMAP:
1.1  mrg 		IOCTL_STRUCT_CONV_FROM(fbcmap);
1.1  mrg 		break;
1.1  mrg
1.1  mrg 	case FBIOGCURSOR:
1.1  mrg 		IOCTL_STRUCT_CONV_FROM(fbcursor);
1.1  mrg 		break;
1.1  mrg
1.1  mrg 	case OPIOCGET:
1.1  mrg 	case OPIOCNEXTPROP:
1.1  mrg 		IOCTL_STRUCT_CONV_FROM(opiocdesc);
1.1  mrg 		break;
1.1  mrg
1.1  mrg 	case DIOCRFORMAT:
1.1  mrg 	case DIOCWFORMAT:
1.1  mrg 		IOCTL_STRUCT_CONV_FROM(format_op);
1.1  mrg 		break;
1.1  mrg
1.1  mrg /*
1.1  mrg  * only a few ifreq syscalls need conversion and those are
1.1  mrg  * all driver specific... XXX
1.1  mrg  */
1.1  mrg #if 0
1.1  mrg 	case SIOCGADDRROM:
1.1  mrg 	case SIOCGCHIPID:
1.1  mrg 	case SIOCSIFADDR:
1.1  mrg 	case OSIOCGIFADDR:
1.1  mrg 	case SIOCGIFADDR:
1.1  mrg 	case SIOCSIFDSTADDR:
1.1  mrg 	case OSIOCGIFDSTADDR:
1.1  mrg 	case SIOCGIFDSTADDR:
1.1  mrg 	case SIOCSIFFLAGS:
1.1  mrg 	case SIOCGIFFLAGS:
1.1  mrg 	case OSIOCGIFBRDADDR:
1.1  mrg 	case SIOCGIFBRDADDR:
1.1  mrg 	case SIOCSIFBRDADDR:
1.1  mrg 	case OSIOCGIFNETMASK:
1.1  mrg 	case SIOCGIFNETMASK:
1.1  mrg 	case SIOCSIFNETMASK:
1.1  mrg 	case SIOCGIFMETRIC:
1.1  mrg 	case SIOCSIFMETRIC:
1.1  mrg 	case SIOCDIFADDR:
1.1  mrg 	case SIOCADDMULTI:
1.1  mrg 	case SIOCDELMULTI:
1.1  mrg 	case SIOCSIFMEDIA:
1.1  mrg 	case SIOCSIFMTU:
1.1  mrg 	case SIOCGIFMTU:
1.1  mrg 	case SIOCSIFASYNCMAP:
1.1  mrg 	case SIOCGIFASYNCMAP:
1.1  mrg /*	case BIOCGETIF: READ ONLY */
1.1  mrg 	case BIOCSETIF:
1.1  mrg 	case SIOCPHASE1:
1.1  mrg 	case SIOCPHASE2:
1.1  mrg 		IOCTL_STRUCT_CONV_CMD_FROM(ifreq, SCARG(uap, cmd));
1.1  mrg 		break;
1.1  mrg #endif
1.1  mrg
1.1  mrg 	case OSIOCGIFCONF:
1.1  mrg 	case SIOCGIFCONF:
1.1  mrg 		IOCTL_STRUCT_CONV_FROM(ifconf);
1.1  mrg 		break;
1.1  mrg
1.1  mrg 	case SIOCGIFMEDIA:
1.1  mrg 		IOCTL_STRUCT_CONV_FROM(ifmediareq);
1.1  mrg 		break;
1.1  mrg
1.1  mrg 	case SIOCSDRVSPEC:
1.1  mrg 		IOCTL_STRUCT_CONV_FROM(ifdrv);
1.1  mrg 		break;
1.1  mrg
1.1  mrg 	case SIOCGETVIFCNT:
1.1  mrg 		IOCTL_STRUCT_CONV_FROM(sioc_vif_req);
1.1  mrg 		break;
1.1  mrg
1.1  mrg 	case SIOCGETSGCNT:
1.1  mrg 		IOCTL_STRUCT_CONV_FROM(sioc_sg_req);
1.1  mrg 		break;
1.1  mrg 	}
1.1  mrg
1.1  mrg 	/* if we malloced data, free it here */
1.1  mrg 	if (data)
1.1  mrg 		free(data, M_TEMP);
1.1  mrg
1.1  mrg 	/* done! */
1.1  mrg 	return (rv);
1.1  mrg }