/* $NetBSD: netbsd32_ioctl.c,v 1.103.2.1 2020/02/13 19:28:15 martin Exp $ */
/*
* Copyright (c) 1998, 2001 Matthew R. Green
* All rights reserved.
*
* 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.
*
* THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``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 AUTHOR 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.
*/
/*
* handle ioctl conversions from netbsd32 -> 64-bit kernel
*/
#include <sys/cdefs.h>
__KERNEL_RCSID(0, "$NetBSD: netbsd32_ioctl.c,v 1.103.2.1 2020/02/13 19:28:15 martin Exp $");
#if defined(_KERNEL_OPT)
#include "opt_ntp.h"
#endif
#include <sys/param.h>
#include <sys/systm.h>
#include <sys/filedesc.h>
#include <sys/ioctl.h>
#include <sys/file.h>
#include <sys/proc.h>
#include <sys/socketvar.h>
#include <sys/audioio.h>
#include <sys/disklabel.h>
#include <sys/dkio.h>
#include <sys/ataio.h>
#include <sys/sockio.h>
#include <sys/socket.h>
#include <sys/ttycom.h>
#include <sys/mount.h>
#include <sys/syscallargs.h>
#include <sys/ktrace.h>
#include <sys/kmem.h>
#include <sys/envsys.h>
#include <sys/wdog.h>
#include <sys/clockctl.h>
#include <sys/exec_elf.h>
#include <sys/ksyms.h>
#include <sys/drvctlio.h>
#include <sys/compat_stub.h>
#ifdef __sparc__
#include <dev/sun/fbio.h>
#include <machine/openpromio.h>
#endif
#include <net/if.h>
#include <net/route.h>
#include <net/if_pppoe.h>
#include <net/if_sppp.h>
#include <net/bpf.h>
#include <netinet/in.h>
#include <netinet/in_var.h>
#include <netinet/igmp.h>
#include <netinet/igmp_var.h>
#include <netinet/ip_mroute.h>
#include <compat/sys/sockio.h>
#include <compat/netbsd32/netbsd32.h>
#include <compat/netbsd32/netbsd32_ioctl.h>
#include <compat/netbsd32/netbsd32_syscallargs.h>
#include <compat/netbsd32/netbsd32_conv.h>
#include <dev/vndvar.h>
/* convert to/from different structures */
#if 0
static inline void
netbsd32_to_format_op(struct netbsd32_format_op *s32p,
struct format_op *p, u_long cmd)
{
p->df_buf = (char *)NETBSD32PTR64(s32p->df_buf);
p->df_count = s32p->df_count;
p->df_startblk = s32p->df_startblk;
memcpy(p->df_reg, s32p->df_reg, sizeof(s32p->df_reg));
}
#endif
static inline void
netbsd32_to_ifreq(struct netbsd32_ifreq *s32p, struct ifreq *p, u_long cmd)
{
memcpy(p, s32p, sizeof *s32p);
/*
* XXX
* struct ifreq says the same, but sometimes the ifr_data
* union member needs to be converted to 64 bits... this
* is very driver specific and so we ignore it for now..
*/
switch (cmd) {
case SIOCGIFDATA:
case SIOCZIFDATA:
case SIOCGIFGENERIC:
case SIOCSIFGENERIC:
p->ifr_data = (void *)NETBSD32PTR64(s32p->ifr_data);
break;
}
}
static inline void
netbsd32_to_oifreq(struct netbsd32_oifreq *s32p, struct oifreq *p, u_long cmd)
{
memcpy(p, s32p, sizeof *s32p);
/*
* XXX
* struct ifreq says the same, but sometimes the ifr_data
* union member needs to be converted to 64 bits... this
* is very driver specific and so we ignore it for now..
*/
if (cmd == SIOCGIFDATA || cmd == SIOCZIFDATA)
p->ifr_data = (void *)NETBSD32PTR64(s32p->ifr_data);
}
static inline void
netbsd32_to_if_addrprefreq(const struct netbsd32_if_addrprefreq *ifap32,
struct if_addrprefreq *ifap, u_long cmd)
{
memcpy(ifap->ifap_name, ifap32->ifap_name, IFNAMSIZ);
ifap->ifap_preference = ifap32->ifap_preference;
memcpy(&ifap->ifap_addr, &ifap32->ifap_addr,
uimin(ifap32->ifap_addr.ss_len, _SS_MAXSIZE));
}
static inline void
netbsd32_to_ifconf(struct netbsd32_ifconf *s32p, struct ifconf *p, u_long cmd)
{
p->ifc_len = s32p->ifc_len;
/* ifc_buf & ifc_req are the same size so this works */
p->ifc_buf = (void *)NETBSD32PTR64(s32p->ifc_buf);
}
static inline void
netbsd32_to_ifmediareq(struct netbsd32_ifmediareq *s32p,
struct ifmediareq *p, u_long cmd)
{
memcpy(p, s32p, sizeof *s32p);
p->ifm_ulist = (int *)NETBSD32PTR64(s32p->ifm_ulist);
}
static inline void
netbsd32_to_pppoediscparms(struct netbsd32_pppoediscparms *s32p,
struct pppoediscparms *p, u_long cmd)
{
memcpy(p->ifname, s32p->ifname, sizeof p->ifname);
memcpy(p->eth_ifname, s32p->eth_ifname, sizeof p->eth_ifname);
p->ac_name = (char *)NETBSD32PTR64(s32p->ac_name);
p->ac_name_len = s32p->ac_name_len;
p->service_name = (char *)NETBSD32PTR64(s32p->service_name);
p->service_name_len = s32p->service_name_len;
}
static inline void
netbsd32_to_spppauthcfg(struct netbsd32_spppauthcfg *s32p,
struct spppauthcfg *p, u_long cmd)
{
memcpy(p->ifname, s32p->ifname, sizeof p->ifname);
p->hisauth = s32p->hisauth;
p->myauth = s32p->myauth;
p->myname_length = s32p->myname_length;
p->mysecret_length = s32p->mysecret_length;
p->hisname_length = s32p->hisname_length;
p->hissecret_length = s32p->hissecret_length;
p->myauthflags = s32p->myauthflags;
p->hisauthflags = s32p->hisauthflags;
p->myname = (char *)NETBSD32PTR64(s32p->myname);
p->mysecret = (char *)NETBSD32PTR64(s32p->mysecret);
p->hisname = (char *)NETBSD32PTR64(s32p->hisname);
p->hissecret = (char *)NETBSD32PTR64(s32p->hissecret);
}
static inline void
netbsd32_to_ifdrv(struct netbsd32_ifdrv *s32p, struct ifdrv *p, u_long cmd)
{
memcpy(p->ifd_name, s32p->ifd_name, sizeof p->ifd_name);
p->ifd_cmd = s32p->ifd_cmd;
p->ifd_len = s32p->ifd_len;
p->ifd_data = (void *)NETBSD32PTR64(s32p->ifd_data);
}
static inline void
netbsd32_to_sioc_vif_req(struct netbsd32_sioc_vif_req *s32p,
struct sioc_vif_req *p, u_long cmd)
{
p->vifi = s32p->vifi;
p->icount = (u_long)s32p->icount;
p->ocount = (u_long)s32p->ocount;
p->ibytes = (u_long)s32p->ibytes;
p->obytes = (u_long)s32p->obytes;
}
static inline void
netbsd32_to_sioc_sg_req(struct netbsd32_sioc_sg_req *s32p,
struct sioc_sg_req *p, u_long cmd)
{
p->src = s32p->src;
p->grp = s32p->grp;
p->pktcnt = (u_long)s32p->pktcnt;
p->bytecnt = (u_long)s32p->bytecnt;
p->wrong_if = (u_long)s32p->wrong_if;
}
static inline void
netbsd32_to_atareq(struct netbsd32_atareq *s32p, struct atareq *p, u_long cmd)
{
p->flags = (u_long)s32p->flags;
p->command = s32p->command;
p->features = s32p->features;
p->sec_count = s32p->sec_count;
p->sec_num = s32p->sec_num;
p->head = s32p->head;
p->cylinder = s32p->cylinder;
p->databuf = (char *)NETBSD32PTR64(s32p->databuf);
p->datalen = (u_long)s32p->datalen;
p->timeout = s32p->timeout;
p->retsts = s32p->retsts;
p->error = s32p->error;
}
static inline void
netbsd32_to_vnd_ioctl(struct netbsd32_vnd_ioctl *s32p,
struct vnd_ioctl *p, u_long cmd)
{
p->vnd_file = (char *)NETBSD32PTR64(s32p->vnd_file);
p->vnd_flags = s32p->vnd_flags;
p->vnd_geom = s32p->vnd_geom;
p->vnd_osize = s32p->vnd_osize;
p->vnd_size = s32p->vnd_size;
}
static inline void
netbsd32_to_vnd_user(struct netbsd32_vnd_user *s32p,
struct vnd_user *p, u_long cmd)
{
p->vnu_unit = s32p->vnu_unit;
p->vnu_dev = s32p->vnu_dev;
p->vnu_ino = s32p->vnu_ino;
}
static inline void
netbsd32_to_vnd_ioctl50(struct netbsd32_vnd_ioctl50 *s32p,
struct vnd_ioctl50 *p, u_long cmd)
{
p->vnd_file = (char *)NETBSD32PTR64(s32p->vnd_file);
p->vnd_flags = s32p->vnd_flags;
p->vnd_geom = s32p->vnd_geom;
p->vnd_size = s32p->vnd_size;
}
static inline void
netbsd32_to_plistref(struct netbsd32_plistref *s32p,
struct plistref *p, u_long cmd)
{
p->pref_plist = NETBSD32PTR64(s32p->pref_plist);
p->pref_len = s32p->pref_len;
}
static inline void
netbsd32_to_nvlist_ref_t(netbsd32_nvlist_ref_t *s32p,
nvlist_ref_t *p, u_long cmd)
{
p->buf = NETBSD32PTR64(s32p->buf);
p->len = s32p->len;
p->flags = s32p->flags;
}
static inline void
netbsd32_to_u_long(netbsd32_u_long *s32p, u_long *p, u_long cmd)
{
*p = (u_long)*s32p;
}
static inline void
netbsd32_to_voidp(netbsd32_voidp *s32p, voidp *p, u_long cmd)
{
*p = (void *)NETBSD32PTR64(*s32p);
}
static inline void
netbsd32_to_wdog_conf(struct netbsd32_wdog_conf *s32p,
struct wdog_conf *p, u_long cmd)
{
p->wc_names = (char *)NETBSD32PTR64(s32p->wc_names);
p->wc_count = s32p->wc_count;
}
static inline void
netbsd32_to_npf_ioctl_table(const struct netbsd32_npf_ioctl_table *s32p,
struct npf_ioctl_table *p, u_long cmd)
{
p->nct_cmd = s32p->nct_cmd;
p->nct_name = NETBSD32PTR64(s32p->nct_name);
switch (s32p->nct_cmd) {
case NPF_CMD_TABLE_LOOKUP:
case NPF_CMD_TABLE_ADD:
case NPF_CMD_TABLE_REMOVE:
p->nct_data.ent = s32p->nct_data.ent;
break;
case NPF_CMD_TABLE_LIST:
p->nct_data.buf.buf = NETBSD32PTR64(s32p->nct_data.buf.buf);
p->nct_data.buf.len = s32p->nct_data.buf.len;
break;
}
}
static inline void
netbsd32_to_bpf_program(struct netbsd32_bpf_program *s32p,
struct bpf_program *p, u_long cmd)
{
p->bf_insns = (void *)NETBSD32PTR64(s32p->bf_insns);
p->bf_len = s32p->bf_len;
}
static inline void
netbsd32_to_bpf_dltlist(struct netbsd32_bpf_dltlist *s32p,
struct bpf_dltlist *p, u_long cmd)
{
p->bfl_list = (void *)NETBSD32PTR64(s32p->bfl_list);
p->bfl_len = s32p->bfl_len;
}
/* wsdisplay stuff */
static inline void
netbsd32_to_wsdisplay_addscreendata(
struct netbsd32_wsdisplay_addscreendata *asd32,
struct wsdisplay_addscreendata *asd, u_long cmd)
{
asd->screentype = (char *)NETBSD32PTR64(asd32->screentype);
asd->emul = (char *)NETBSD32PTR64(asd32->emul);
asd->idx = asd32->idx;
}
static inline void
netbsd32_to_ieee80211req(struct netbsd32_ieee80211req *ireq32,
struct ieee80211req *ireq, u_long cmd)
{
memcpy(ireq->i_name, ireq32->i_name, IFNAMSIZ);
ireq->i_type = ireq32->i_type;
ireq->i_val = ireq32->i_val;
ireq->i_len = ireq32->i_len;
ireq->i_data = NETBSD32PTR64(ireq32->i_data);
}
static inline void
netbsd32_to_ieee80211_nwkey(struct netbsd32_ieee80211_nwkey *nwk32,
struct ieee80211_nwkey *nwk, u_long cmd)
{
int i;
memcpy(nwk->i_name, nwk32->i_name, IFNAMSIZ);
nwk->i_wepon = nwk32->i_wepon;
nwk->i_defkid = nwk32->i_defkid;
for (i = 0; i < IEEE80211_WEP_NKID; i++) {
nwk->i_key[i].i_keylen = nwk32->i_key[i].i_keylen;
nwk->i_key[i].i_keydat =
NETBSD32PTR64(nwk32->i_key[i].i_keydat);
}
}
static inline void
netbsd32_to_wsdisplay_cursor(struct netbsd32_wsdisplay_cursor *c32,
struct wsdisplay_cursor *c, u_long cmd)
{
c->which = c32->which;
c->enable = c32->enable;
c->pos.x = c32->pos.x;
c->pos.y = c32->pos.y;
c->hot.x = c32->hot.x;
c->hot.y = c32->hot.y;
c->size.x = c32->size.x;
c->size.y = c32->size.y;
c->cmap.index = c32->cmap.index;
c->cmap.count = c32->cmap.count;
c->cmap.red = NETBSD32PTR64(c32->cmap.red);
c->cmap.green = NETBSD32PTR64(c32->cmap.green);
c->cmap.blue = NETBSD32PTR64(c32->cmap.blue);
c->image = NETBSD32PTR64(c32->image);
c->mask = NETBSD32PTR64(c32->mask);
}
static inline void
netbsd32_to_wsdisplay_cmap(struct netbsd32_wsdisplay_cmap *c32,
struct wsdisplay_cmap *c, u_long cmd)
{
c->index = c32->index;
c->count = c32->count;
c->red = NETBSD32PTR64(c32->red);
c->green = NETBSD32PTR64(c32->green);
c->blue = NETBSD32PTR64(c32->blue);
}
static inline void
netbsd32_to_wsdisplay_font(struct netbsd32_wsdisplay_font *f32,
struct wsdisplay_font *f, u_long cmd)
{
f->name = NETBSD32PTR64(f32->name);
f->firstchar = f32->firstchar;
f->numchars = f32->numchars;
f->encoding = f32->encoding;
f->fontwidth = f32->fontwidth;
f->fontheight = f32->fontheight;
f->stride = f32->stride;
f->bitorder = f32->bitorder;
f->byteorder = f32->byteorder;
f->data = NETBSD32PTR64(f32->data);
}
static inline void
netbsd32_to_wsdisplay_usefontdata(struct netbsd32_wsdisplay_usefontdata *f32,
struct wsdisplay_usefontdata *f, u_long cmd)
{
f->name = NETBSD32PTR64(f32->name);
}
static inline void
netbsd32_to_clockctl_settimeofday(
const struct netbsd32_clockctl_settimeofday *s32p,
struct clockctl_settimeofday *p, u_long cmd)
{
p->tv = NETBSD32PTR64(s32p->tv);
p->tzp = NETBSD32PTR64(s32p->tzp);
}
static inline void
netbsd32_to_clockctl_adjtime(
const struct netbsd32_clockctl_adjtime *s32p,
struct clockctl_adjtime *p, u_long cmd)
{
p->delta = NETBSD32PTR64(s32p->delta);
p->olddelta = NETBSD32PTR64(s32p->olddelta);
}
static inline void
netbsd32_to_clockctl_clock_settime(
const struct netbsd32_clockctl_clock_settime *s32p,
struct clockctl_clock_settime *p, u_long cmd)
{
p->clock_id = s32p->clock_id;
p->tp = NETBSD32PTR64(s32p->tp);
}
#ifdef NTP
static inline void
netbsd32_to_clockctl_ntp_adjtime(
const struct netbsd32_clockctl_ntp_adjtime *s32p,
struct clockctl_ntp_adjtime *p, u_long cmd)
{
p->tp = NETBSD32PTR64(s32p->tp);
p->retval = s32p->retval;
}
#endif
static inline void
netbsd32_to_ksyms_gsymbol(const struct netbsd32_ksyms_gsymbol *s32p,
struct ksyms_gsymbol *p, u_long cmd)
{
p->kg_name = NETBSD32PTR64(s32p->kg_name);
}
static inline void
netbsd32_to_ksyms_gvalue(const struct netbsd32_ksyms_gvalue *s32p,
struct ksyms_gvalue *p, u_long cmd)
{
p->kv_name = NETBSD32PTR64(s32p->kv_name);
}
static inline void
netbsd32_to_devlistargs(const struct netbsd32_devlistargs *s32p,
struct devlistargs *p, u_long cmd)
{
memcpy(p->l_devname, s32p->l_devname, sizeof(p->l_devname));
p->l_children = s32p->l_children;
p->l_childname = NETBSD32PTR64(s32p->l_childname);
}
static inline void
netbsd32_to_devrescanargs(const struct netbsd32_devrescanargs *s32p,
struct devrescanargs *p, u_long cmd)
{
memcpy(p->busname, s32p->busname, sizeof(p->busname));
memcpy(p->ifattr, s32p->ifattr, sizeof(p->ifattr));
p->numlocators = s32p->numlocators;
p->locators = NETBSD32PTR64(s32p->locators);
}
static inline void
netbsd32_to_disk_strategy(const struct netbsd32_disk_strategy *s32p,
struct disk_strategy *p, u_long cmd)
{
memcpy(p->dks_name, s32p->dks_name, sizeof(p->dks_name));
p->dks_param = NETBSD32PTR64(s32p->dks_param);
p->dks_paramlen = s32p->dks_paramlen;
}
static inline void
netbsd32_to_dkwedge_list(const struct netbsd32_dkwedge_list *s32p,
struct dkwedge_list *p, u_long cmd)
{
p->dkwl_buf = NETBSD32PTR64(s32p->dkwl_buf);
p->dkwl_bufsize = s32p->dkwl_bufsize;
p->dkwl_nwedges = s32p->dkwl_nwedges;
p->dkwl_ncopied = s32p->dkwl_ncopied;
}
/*
* handle ioctl conversions from 64-bit kernel -> netbsd32
*/
#if 0
static inline void
netbsd32_from_format_op(struct format_op *p,
struct netbsd32_format_op *s32p, u_long cmd)
{
/* filled in */
#if 0
s32p->df_buf = (netbsd32_charp)p->df_buf;
#endif
s32p->df_count = p->df_count;
s32p->df_startblk = p->df_startblk;
memcpy(s32p->df_reg, p->df_reg, sizeof(p->df_reg));
}
#endif
static inline void
netbsd32_from_ifreq(struct ifreq *p, struct netbsd32_ifreq *s32p, u_long cmd)
{
/*
* XXX
* struct ifreq says the same, but sometimes the ifr_data
* union member needs to be converted to 64 bits... this
* is very driver specific and so we ignore it for now..
*/
memcpy(s32p, p, sizeof *s32p);
switch (cmd) {
case SIOCGIFDATA:
case SIOCZIFDATA:
case SIOCGIFGENERIC:
case SIOCSIFGENERIC:
NETBSD32PTR32(s32p->ifr_data, p->ifr_data);
break;
}
}
static inline void
netbsd32_from_oifreq(struct oifreq *p,
struct netbsd32_oifreq *s32p, u_long cmd)
{
/*
* XXX
* struct ifreq says the same, but sometimes the ifr_data
* union member needs to be converted to 64 bits... this
* is very driver specific and so we ignore it for now..
*/
memcpy(s32p, p, sizeof *s32p);
if (cmd == SIOCGIFDATA || cmd == SIOCZIFDATA)
NETBSD32PTR32(s32p->ifr_data, p->ifr_data);
}
static inline void
netbsd32_from_if_addrprefreq(const struct if_addrprefreq *ifap,
struct netbsd32_if_addrprefreq *ifap32, u_long cmd)
{
memcpy(ifap32->ifap_name, ifap->ifap_name, IFNAMSIZ);
ifap32->ifap_preference = ifap->ifap_preference;
memcpy(&ifap32->ifap_addr, &ifap->ifap_addr,
uimin(ifap->ifap_addr.ss_len, _SS_MAXSIZE));
}
static inline void
netbsd32_from_ifconf(struct ifconf *p,
struct netbsd32_ifconf *s32p, u_long cmd)
{
s32p->ifc_len = p->ifc_len;
/* ifc_buf & ifc_req are the same size so this works */
NETBSD32PTR32(s32p->ifc_buf, p->ifc_buf);
}
static inline void
netbsd32_from_ifmediareq(struct ifmediareq *p,
struct netbsd32_ifmediareq *s32p, u_long cmd)
{
memcpy(s32p, p, sizeof *p);
/* filled in? */
#if 0
s32p->ifm_ulist = (netbsd32_intp_t)p->ifm_ulist;
#endif
}
static inline void
netbsd32_from_pppoediscparms(struct pppoediscparms *p,
struct netbsd32_pppoediscparms *s32p, u_long cmd)
{
memcpy(s32p->ifname, p->ifname, sizeof s32p->ifname);
memcpy(s32p->eth_ifname, p->eth_ifname, sizeof s32p->eth_ifname);
NETBSD32PTR32(s32p->ac_name, p->ac_name);
s32p->ac_name_len = p->ac_name_len;
NETBSD32PTR32(s32p->service_name, p->service_name);
s32p->service_name_len = p->service_name_len;
}
static inline void
netbsd32_from_spppauthcfg(struct spppauthcfg *p,
struct netbsd32_spppauthcfg *s32p, u_long cmd)
{
memcpy(s32p->ifname, p->ifname, sizeof s32p->ifname);
s32p->hisauth = p->hisauth;
s32p->myauth = p->myauth;
s32p->myname_length = p->myname_length;
s32p->mysecret_length = p->mysecret_length;
s32p->hisname_length = p->hisname_length;
s32p->hissecret_length = p->hissecret_length;
s32p->myauthflags = p->myauthflags;
s32p->hisauthflags = p->hisauthflags;
NETBSD32PTR32(s32p->myname, p->myname);
NETBSD32PTR32(s32p->mysecret, p->mysecret);
NETBSD32PTR32(s32p->hisname, p->hisname);
NETBSD32PTR32(s32p->hissecret, p->hissecret);
}
static inline void
netbsd32_from_ifdrv(struct ifdrv *p, struct netbsd32_ifdrv *s32p, u_long cmd)
{
memcpy(s32p->ifd_name, p->ifd_name, sizeof s32p->ifd_name);
s32p->ifd_cmd = p->ifd_cmd;
s32p->ifd_len = p->ifd_len;
NETBSD32PTR32(s32p->ifd_data, p->ifd_data);
}
static inline void
netbsd32_from_sioc_vif_req(struct sioc_vif_req *p,
struct netbsd32_sioc_vif_req *s32p, u_long cmd)
{
s32p->vifi = p->vifi;
s32p->icount = (netbsd32_u_long)p->icount;
s32p->ocount = (netbsd32_u_long)p->ocount;
s32p->ibytes = (netbsd32_u_long)p->ibytes;
s32p->obytes = (netbsd32_u_long)p->obytes;
}
static inline void
netbsd32_from_sioc_sg_req(struct sioc_sg_req *p,
struct netbsd32_sioc_sg_req *s32p, u_long cmd)
{
s32p->src = p->src;
s32p->grp = p->grp;
s32p->pktcnt = (netbsd32_u_long)p->pktcnt;
s32p->bytecnt = (netbsd32_u_long)p->bytecnt;
s32p->wrong_if = (netbsd32_u_long)p->wrong_if;
}
static inline void
netbsd32_from_atareq(struct atareq *p,
struct netbsd32_atareq *s32p, u_long cmd)
{
s32p->flags = (netbsd32_u_long)p->flags;
s32p->command = p->command;
s32p->features = p->features;
s32p->sec_count = p->sec_count;
s32p->sec_num = p->sec_num;
s32p->head = p->head;
s32p->cylinder = p->cylinder;
NETBSD32PTR32(s32p->databuf, p->databuf);
s32p->datalen = (netbsd32_u_long)p->datalen;
s32p->timeout = p->timeout;
s32p->retsts = p->retsts;
s32p->error = p->error;
}
static inline void
netbsd32_from_vnd_ioctl(struct vnd_ioctl *p,
struct netbsd32_vnd_ioctl *s32p, u_long cmd)
{
s32p->vnd_flags = p->vnd_flags;
s32p->vnd_geom = p->vnd_geom;
s32p->vnd_osize = p->vnd_osize;
s32p->vnd_size = p->vnd_size;
}
static inline void
netbsd32_from_vnd_user(struct vnd_user *p,
struct netbsd32_vnd_user *s32p, u_long cmd)
{
s32p->vnu_unit = p->vnu_unit;
s32p->vnu_dev = p->vnu_dev;
s32p->vnu_ino = p->vnu_ino;
}
static inline void
netbsd32_from_vnd_ioctl50(struct vnd_ioctl50 *p,
struct netbsd32_vnd_ioctl50 *s32p, u_long cmd)
{
s32p->vnd_flags = p->vnd_flags;
s32p->vnd_geom = p->vnd_geom;
s32p->vnd_size = p->vnd_size;
}
static inline void
netbsd32_from_plistref(struct plistref *p,
struct netbsd32_plistref *s32p, u_long cmd)
{
NETBSD32PTR32(s32p->pref_plist, p->pref_plist);
s32p->pref_len = p->pref_len;
}
static inline void
netbsd32_from_nvlist_ref_t(nvlist_ref_t *p,
netbsd32_nvlist_ref_t *s32p, u_long cmd)
{
NETBSD32PTR32(s32p->buf, p->buf);
s32p->len = p->len;
s32p->flags = p->flags;
}
static inline void
netbsd32_from_wdog_conf(struct wdog_conf *p,
struct netbsd32_wdog_conf *s32p, u_long cmd)
{
NETBSD32PTR32(s32p->wc_names, p->wc_names);
s32p->wc_count = p->wc_count;
}
/* wsdisplay stuff */
static inline void
netbsd32_from_wsdisplay_addscreendata(struct wsdisplay_addscreendata *asd,
struct netbsd32_wsdisplay_addscreendata *asd32, u_long cmd)
{
NETBSD32PTR32(asd32->screentype, asd->screentype);
NETBSD32PTR32(asd32->emul, asd->emul);
asd32->idx = asd->idx;
}
static inline void
netbsd32_from_wsdisplay_cursor(struct wsdisplay_cursor *c,
struct netbsd32_wsdisplay_cursor *c32, u_long cmd)
{
c32->which = c->which;
c32->enable = c->enable;
c32->pos.x = c->pos.x;
c32->pos.y = c->pos.y;
c32->hot.x = c->hot.x;
c32->hot.y = c->hot.y;
c32->size.x = c->size.x;
c32->size.y = c->size.y;
c32->cmap.index = c->cmap.index;
c32->cmap.count = c->cmap.count;
NETBSD32PTR32(c32->cmap.red, c->cmap.red);
NETBSD32PTR32(c32->cmap.green, c->cmap.green);
NETBSD32PTR32(c32->cmap.blue, c->cmap.blue);
NETBSD32PTR32(c32->image, c->image);
NETBSD32PTR32(c32->mask, c->mask);
}
static inline void
netbsd32_from_wsdisplay_cmap(struct wsdisplay_cmap *c,
struct netbsd32_wsdisplay_cmap *c32, u_long cmd)
{
c32->index = c->index;
c32->count = c->count;
NETBSD32PTR32(c32->red, c->red);
NETBSD32PTR32(c32->green, c->green);
NETBSD32PTR32(c32->blue, c->blue);
}
static inline void
netbsd32_from_wsdisplay_font(struct wsdisplay_font *f,
struct netbsd32_wsdisplay_font *f32, u_long cmd)
{
}
static inline void
netbsd32_from_wsdisplay_usefontdata(struct wsdisplay_usefontdata *f,
struct netbsd32_wsdisplay_usefontdata *f32, u_long cmd)
{
}
static inline void
netbsd32_from_ieee80211req(struct ieee80211req *ireq,
struct netbsd32_ieee80211req *ireq32, u_long cmd)
{
memcpy(ireq32->i_name, ireq->i_name, IFNAMSIZ);
ireq32->i_type = ireq->i_type;
ireq32->i_val = ireq->i_val;
ireq32->i_len = ireq->i_len;
NETBSD32PTR32(ireq32->i_data, ireq->i_data);
}
static inline void
netbsd32_from_ieee80211_nwkey(struct ieee80211_nwkey *nwk,
struct netbsd32_ieee80211_nwkey *nwk32, u_long cmd)
{
int i;
memcpy(nwk32->i_name, nwk->i_name, IFNAMSIZ);
nwk32->i_wepon = nwk->i_wepon;
nwk32->i_defkid = nwk->i_defkid;
for (i = 0; i < IEEE80211_WEP_NKID; i++) {
nwk32->i_key[i].i_keylen = nwk->i_key[i].i_keylen;
NETBSD32PTR32(nwk32->i_key[i].i_keydat,
nwk->i_key[i].i_keydat);
}
}
static inline void
netbsd32_from_bpf_program(struct bpf_program *p,
struct netbsd32_bpf_program *s32p, u_long cmd)
{
NETBSD32PTR32(s32p->bf_insns, p->bf_insns);
s32p->bf_len = p->bf_len;
}
static inline void
netbsd32_from_bpf_dltlist(struct bpf_dltlist *p,
struct netbsd32_bpf_dltlist *s32p, u_long cmd)
{
NETBSD32PTR32(s32p->bfl_list, p->bfl_list);
s32p->bfl_len = p->bfl_len;
}
static inline void
netbsd32_from_u_long(u_long *p, netbsd32_u_long *s32p, u_long cmd)
{
*s32p = (netbsd32_u_long)*p;
}
static inline void
netbsd32_from_voidp(voidp *p, netbsd32_voidp *s32p, u_long cmd)
{
NETBSD32PTR32(*s32p, *p);
}
static inline void
netbsd32_from_clockctl_settimeofday(const struct clockctl_settimeofday *p,
struct netbsd32_clockctl_settimeofday *s32p, u_long cmd)
{
NETBSD32PTR32(s32p->tv, p->tv);
NETBSD32PTR32(s32p->tzp, p->tzp);
}
static inline void
netbsd32_from_clockctl_adjtime(const struct clockctl_adjtime *p,
struct netbsd32_clockctl_adjtime *s32p, u_long cmd)
{
NETBSD32PTR32(s32p->delta, p->delta);
NETBSD32PTR32(s32p->olddelta, p->olddelta);
}
static inline void
netbsd32_from_clockctl_clock_settime(const struct clockctl_clock_settime *p,
struct netbsd32_clockctl_clock_settime *s32p, u_long cmd)
{
s32p->clock_id = p->clock_id;
NETBSD32PTR32(s32p->tp, p->tp);
}
#ifdef NTP
static inline void
netbsd32_from_clockctl_ntp_adjtime(const struct clockctl_ntp_adjtime *p,
struct netbsd32_clockctl_ntp_adjtime *s32p, u_long cmd)
{
NETBSD32PTR32(s32p->tp, p->tp);
s32p->retval = p->retval;
}
#endif
static inline void
netbsd32_from_ksyms_gsymbol( const struct ksyms_gsymbol *p,
struct netbsd32_ksyms_gsymbol *s32p, u_long cmd)
{
NETBSD32PTR32(s32p->kg_name, p->kg_name);
s32p->kg_sym = p->kg_sym;
}
static inline void
netbsd32_from_ksyms_gvalue(
const struct ksyms_gvalue *p,
struct netbsd32_ksyms_gvalue *s32p, u_long cmd)
{
NETBSD32PTR32(s32p->kv_name, p->kv_name);
s32p->kv_value = p->kv_value;
}
static inline void
netbsd32_from_npf_ioctl_table(const struct npf_ioctl_table *p,
struct netbsd32_npf_ioctl_table *s32p, u_long cmd)
{
s32p->nct_cmd = p->nct_cmd;
NETBSD32PTR32(s32p->nct_name, p->nct_name);
switch (p->nct_cmd) {
case NPF_CMD_TABLE_LOOKUP:
case NPF_CMD_TABLE_ADD:
case NPF_CMD_TABLE_REMOVE:
s32p->nct_data.ent = p->nct_data.ent;
break;
case NPF_CMD_TABLE_LIST:
NETBSD32PTR32(s32p->nct_data.buf.buf, p->nct_data.buf.buf);
s32p->nct_data.buf.len = p->nct_data.buf.len;
break;
}
}
static inline void
netbsd32_from_devlistargs(const struct devlistargs *p,
struct netbsd32_devlistargs *s32p, u_long cmd)
{
memcpy(s32p->l_devname, p->l_devname, sizeof(s32p->l_devname));
s32p->l_children = p->l_children;
NETBSD32PTR32(s32p->l_childname, p->l_childname);
}
static inline void
netbsd32_from_devrescanargs(const struct devrescanargs *p,
struct netbsd32_devrescanargs *s32p, u_long cmd)
{
memcpy(s32p->busname, p->busname, sizeof(s32p->busname));
memcpy(s32p->ifattr, p->ifattr, sizeof(s32p->ifattr));
s32p->numlocators = p->numlocators;
NETBSD32PTR32(s32p->locators, p->locators);
}
static inline void
netbsd32_from_disk_strategy(const struct disk_strategy *p,
struct netbsd32_disk_strategy *s32p, u_long cmd)
{
memcpy(s32p->dks_name, p->dks_name, sizeof(p->dks_name));
NETBSD32PTR32(s32p->dks_param, p->dks_param);
s32p->dks_paramlen = p->dks_paramlen;
}
static inline void
netbsd32_from_dkwedge_list(const struct dkwedge_list *p,
struct netbsd32_dkwedge_list *s32p, u_long cmd)
{
NETBSD32PTR32(s32p->dkwl_buf, p->dkwl_buf);
s32p->dkwl_bufsize = p->dkwl_bufsize;
s32p->dkwl_nwedges = p->dkwl_nwedges;
s32p->dkwl_ncopied = p->dkwl_ncopied;
}
#ifdef NTP
static int
netbsd32_do_clockctl_ntp_adjtime(struct clockctl_ntp_adjtime *args)
{
struct netbsd32_timex ntv32;
struct timex ntv;
int error;
if (vec_ntp_adjtime1 == NULL)
return EINVAL;
error = copyin(args->tp, &ntv32, sizeof(ntv32));
if (error)
return error;
netbsd32_to_timex(&ntv32, &ntv);
(*vec_ntp_adjtime1)(&ntv);
netbsd32_from_timex(&ntv, &ntv32);
error = copyout(&ntv32, args->tp, sizeof(ntv));
if (error == 0)
args->retval = ntp_timestatus();
return error;
}
#endif
/*
* main ioctl syscall.
*
* ok, here we are in the biggy. we have to do fix ups depending
* on the ioctl command before and afterwards.
*/
int
netbsd32_ioctl(struct lwp *l,
const struct netbsd32_ioctl_args *uap, register_t *retval)
{
/* {
syscallarg(int) fd;
syscallarg(netbsd32_u_long) com;
syscallarg(netbsd32_voidp) data;
} */
struct proc *p = l->l_proc;
struct file *fp;
struct filedesc *fdp;
u_long com;
int error = 0;
size_t size;
size_t alloc_size32, size32;
void *data, *memp = NULL;
void *data32, *memp32 = NULL;
unsigned int fd;
fdfile_t *ff;
int tmp;
#define STK_PARAMS 128
uint64_t stkbuf[STK_PARAMS/sizeof(uint64_t)];
uint64_t stkbuf32[STK_PARAMS/sizeof(uint64_t)];
/*
* we need to translate some commands (_IOW) before calling sys_ioctl,
* some after (_IOR), and some both (_IOWR).
*/
#if 0
{
const char * const dirs[8] = {
"NONE!", "VOID", "OUT", "VOID|OUT!", "IN", "VOID|IN!",
"INOUT", "VOID|IN|OUT!"
};
printf("netbsd32_ioctl(%d, %x, %x): "
"%s group %c base %d len %d\n",
SCARG(uap, fd), SCARG(uap, com), SCARG(uap, data).i32,
dirs[((SCARG(uap, com) & IOC_DIRMASK)>>29)],
IOCGROUP(SCARG(uap, com)), IOCBASECMD(SCARG(uap, com)),
IOCPARM_LEN(SCARG(uap, com)));
}
#endif
memp = NULL;
memp32 = NULL;
alloc_size32 = 0;
size32 = 0;
size = 0;
fdp = p->p_fd;
fd = SCARG(uap, fd);
if ((fp = fd_getfile(fd)) == NULL)
return EBADF;
if ((fp->f_flag & (FREAD | FWRITE)) == 0) {
error = EBADF;
goto out;
}
ff = fdp->fd_dt->dt_ff[SCARG(uap, fd)];
switch (com = SCARG(uap, com)) {
case FIOCLEX:
ff->ff_exclose = true;
fdp->fd_exclose = true;
goto out;
case FIONCLEX:
ff->ff_exclose = false;
goto out;
}
/*
* Interpret high order word to find amount of data to be
* copied to/from the user's address space.
*/
size32 = IOCPARM_LEN(com);
alloc_size32 = size32;
/*
* The disklabel is now padded to a multiple of 8 bytes however the old
* disklabel on 32bit platforms wasn't. This leaves a difference in
* size of 4 bytes between the two but are otherwise identical.
* To deal with this, we allocate enough space for the new disklabel
* but only copyin/out the smaller amount.
*/
if (IOCGROUP(com) == 'd') {
u_long ncom = com ^ (DIOCGDINFO ^ DIOCGDINFO32);
switch (ncom) {
case DIOCGDINFO:
case DIOCWDINFO:
case DIOCSDINFO:
case DIOCGDEFLABEL:
com = ncom;
if (IOCPARM_LEN(DIOCGDINFO32) < IOCPARM_LEN(DIOCGDINFO))
alloc_size32 = IOCPARM_LEN(DIOCGDINFO);
break;
}
}
if (alloc_size32 > IOCPARM_MAX) {
error = ENOTTY;
goto out;
}
if (alloc_size32 > sizeof(stkbuf)) {
memp32 = kmem_alloc(alloc_size32, KM_SLEEP);
data32 = memp32;
} else
data32 = (void *)stkbuf32;
if ((com >> IOCPARM_SHIFT) == 0) {
/* UNIX-style ioctl. */
data32 = SCARG_P32(uap, data);
} else {
if (com&IOC_IN) {
if (size32) {
error = copyin(SCARG_P32(uap, data), data32,
size32);
if (error) {
goto out;
}
/*
* The data between size and alloc_size has
* not been overwritten. It shouldn't matter
* but let's clear that anyway.
*/
if (__predict_false(size32 < alloc_size32)) {
memset((char *)data32+size32, 0,
alloc_size32 - size32);
}
ktrgenio(fd, UIO_WRITE, SCARG_P32(uap, data),
size32, 0);
} else
*(void **)data32 = SCARG_P32(uap, data);
} else if ((com&IOC_OUT) && size32) {
/*
* Zero the buffer so the user always
* gets back something deterministic.
*/
memset(data32, 0, alloc_size32);
} else if (com&IOC_VOID) {
*(void **)data32 = SCARG_P32(uap, data);
}
}
/*
* convert various structures, pointers, and other objects that
* change size from 32 bit -> 64 bit, for all ioctl commands.
*/
switch (SCARG(uap, com)) {
case FIONBIO:
mutex_enter(&fp->f_lock);
if ((tmp = *(int *)data32) != 0)
fp->f_flag |= FNONBLOCK;
else
fp->f_flag &= ~FNONBLOCK;
mutex_exit(&fp->f_lock);
error = (*fp->f_ops->fo_ioctl)(fp, FIONBIO, (void *)&tmp);
break;
case FIOASYNC:
mutex_enter(&fp->f_lock);
if ((tmp = *(int *)data32) != 0)
fp->f_flag |= FASYNC;
else
fp->f_flag &= ~FASYNC;
mutex_exit(&fp->f_lock);
error = (*fp->f_ops->fo_ioctl)(fp, FIOASYNC, (void *)&tmp);
break;
case AUDIO_WSEEK32:
IOCTL_CONV_TO(AUDIO_WSEEK, u_long);
#if 0 /* not implemented by anything */
case DIOCRFORMAT32:
IOCTL_STRUCT_CONV_TO(DIOCRFORMAT, format_op);
case DIOCWFORMAT32:
IOCTL_STRUCT_CONV_TO(DIOCWFORMAT, format_op);
#endif
case ATAIOCCOMMAND32:
IOCTL_STRUCT_CONV_TO(ATAIOCCOMMAND, atareq);
case SIOCIFGCLONERS32:
{
struct netbsd32_if_clonereq *req =
(struct netbsd32_if_clonereq *)data32;
char *buf = NETBSD32PTR64(req->ifcr_buffer);
error = if_clone_list(req->ifcr_count,
buf, &req->ifcr_total);
break;
}
/*
* only a few ifreq syscalls need conversion and those are
* all driver specific... XXX
*/
#if 0
case SIOCGADDRROM3232:
IOCTL_STRUCT_CONV_TO(SIOCGADDRROM32, ifreq);
case SIOCGCHIPID32:
IOCTL_STRUCT_CONV_TO(SIOCGCHIPID, ifreq);
case SIOCSIFADDR32:
IOCTL_STRUCT_CONV_TO(SIOCSIFADDR, ifreq);
case OSIOCGIFADDR32:
IOCTL_STRUCT_CONV_TO(OSIOCGIFADDR, ifreq);
case SIOCGIFADDR32:
IOCTL_STRUCT_CONV_TO(SIOCGIFADDR, ifreq);
case SIOCSIFDSTADDR32:
IOCTL_STRUCT_CONV_TO(SIOCSIFDSTADDR, ifreq);
case OSIOCGIFDSTADDR32:
IOCTL_STRUCT_CONV_TO(OSIOCGIFDSTADDR, ifreq);
case SIOCGIFDSTADDR32:
IOCTL_STRUCT_CONV_TO(SIOCGIFDSTADDR, ifreq);
case OSIOCGIFBRDADDR32:
IOCTL_STRUCT_CONV_TO(OSIOCGIFBRDADDR, ifreq);
case SIOCGIFBRDADDR32:
IOCTL_STRUCT_CONV_TO(SIOCGIFBRDADDR, ifreq);
case SIOCSIFBRDADDR32:
IOCTL_STRUCT_CONV_TO(SIOCSIFBRDADDR, ifreq);
case OSIOCGIFNETMASK32:
IOCTL_STRUCT_CONV_TO(OSIOCGIFNETMASK, ifreq);
case SIOCGIFNETMASK32:
IOCTL_STRUCT_CONV_TO(SIOCGIFNETMASK, ifreq);
case SIOCSIFNETMASK32:
IOCTL_STRUCT_CONV_TO(SIOCSIFNETMASK, ifreq);
case SIOCGIFMETRIC32:
IOCTL_STRUCT_CONV_TO(SIOCGIFMETRIC, ifreq);
case SIOCSIFMETRIC32:
IOCTL_STRUCT_CONV_TO(SIOCSIFMETRIC, ifreq);
case SIOCDIFADDR32:
IOCTL_STRUCT_CONV_TO(SIOCDIFADDR, ifreq);
case SIOCADDMULTI32:
IOCTL_STRUCT_CONV_TO(SIOCADDMULTI, ifreq);
case SIOCDELMULTI32:
IOCTL_STRUCT_CONV_TO(SIOCDELMULTI, ifreq);
case SIOCSIFMEDIA32:
IOCTL_STRUCT_CONV_TO(SIOCSIFMEDIA, ifreq);
case SIOCSIFMTU32:
IOCTL_STRUCT_CONV_TO(SIOCSIFMTU, ifreq);
case SIOCGIFMTU32:
IOCTL_STRUCT_CONV_TO(SIOCGIFMTU, ifreq);
case BIOCGETIF32:
IOCTL_STRUCT_CONV_TO(BIOCGETIF, ifreq);
case BIOCSETIF32:
IOCTL_STRUCT_CONV_TO(BIOCSETIF, ifreq);
case SIOCPHASE132:
IOCTL_STRUCT_CONV_TO(SIOCPHASE1, ifreq);
case SIOCPHASE232:
IOCTL_STRUCT_CONV_TO(SIOCPHASE2, ifreq);
#endif
case OOSIOCGIFCONF32:
IOCTL_STRUCT_CONV_TO(OOSIOCGIFCONF, ifconf);
case OSIOCGIFCONF32:
IOCTL_STRUCT_CONV_TO(OSIOCGIFCONF, ifconf);
case SIOCGIFCONF32:
IOCTL_STRUCT_CONV_TO(SIOCGIFCONF, ifconf);
case SIOCGIFFLAGS32:
IOCTL_STRUCT_CONV_TO(SIOCGIFFLAGS, ifreq);
case SIOCSIFFLAGS32:
IOCTL_STRUCT_CONV_TO(SIOCSIFFLAGS, ifreq);
case SIOCGIFADDRPREF32:
IOCTL_STRUCT_CONV_TO(SIOCGIFADDRPREF, if_addrprefreq);
case SIOCSIFADDRPREF32:
IOCTL_STRUCT_CONV_TO(SIOCSIFADDRPREF, if_addrprefreq);
case OSIOCGIFFLAGS32:
IOCTL_STRUCT_CONV_TO(OSIOCGIFFLAGS, oifreq);
case OSIOCSIFFLAGS32:
IOCTL_STRUCT_CONV_TO(OSIOCSIFFLAGS, oifreq);
case SIOCGIFMEDIA32_80:
IOCTL_STRUCT_CONV_TO(SIOCGIFMEDIA_80, ifmediareq);
case SIOCGIFMEDIA32:
IOCTL_STRUCT_CONV_TO(SIOCGIFMEDIA, ifmediareq);
case SIOCGIFGENERIC32:
IOCTL_STRUCT_CONV_TO(SIOCGIFGENERIC, ifreq);
case SIOCSIFGENERIC32:
IOCTL_STRUCT_CONV_TO(SIOCSIFGENERIC, ifreq);
case PPPOESETPARMS32:
IOCTL_STRUCT_CONV_TO(PPPOESETPARMS, pppoediscparms);
case PPPOEGETPARMS32:
IOCTL_STRUCT_CONV_TO(PPPOEGETPARMS, pppoediscparms);
case SPPPGETAUTHCFG32:
IOCTL_STRUCT_CONV_TO(SPPPGETAUTHCFG, spppauthcfg);
case SPPPSETAUTHCFG32:
IOCTL_STRUCT_CONV_TO(SPPPSETAUTHCFG, spppauthcfg);
case SIOCSDRVSPEC32:
IOCTL_STRUCT_CONV_TO(SIOCSDRVSPEC, ifdrv);
case SIOCGDRVSPEC32:
IOCTL_STRUCT_CONV_TO(SIOCGDRVSPEC, ifdrv);
case SIOCGETVIFCNT32:
IOCTL_STRUCT_CONV_TO(SIOCGETVIFCNT, sioc_vif_req);
case SIOCGETSGCNT32:
IOCTL_STRUCT_CONV_TO(SIOCGETSGCNT, sioc_sg_req);
case VNDIOCSET32:
IOCTL_STRUCT_CONV_TO(VNDIOCSET, vnd_ioctl);
case VNDIOCCLR32:
IOCTL_STRUCT_CONV_TO(VNDIOCCLR, vnd_ioctl);
case VNDIOCGET32:
IOCTL_STRUCT_CONV_TO(VNDIOCGET, vnd_user);
case VNDIOCSET5032:
IOCTL_STRUCT_CONV_TO(VNDIOCSET50, vnd_ioctl50);
case VNDIOCCLR5032:
IOCTL_STRUCT_CONV_TO(VNDIOCCLR50, vnd_ioctl50);
case ENVSYS_GETDICTIONARY32:
IOCTL_STRUCT_CONV_TO(ENVSYS_GETDICTIONARY, plistref);
case ENVSYS_SETDICTIONARY32:
IOCTL_STRUCT_CONV_TO(ENVSYS_SETDICTIONARY, plistref);
case ENVSYS_REMOVEPROPS32:
IOCTL_STRUCT_CONV_TO(ENVSYS_REMOVEPROPS, plistref);
case WDOGIOC_GWDOGS32:
IOCTL_STRUCT_CONV_TO(WDOGIOC_GWDOGS, wdog_conf);
case BIOCSETF32:
IOCTL_STRUCT_CONV_TO(BIOCSETF, bpf_program);
case BIOCSTCPF32:
IOCTL_STRUCT_CONV_TO(BIOCSTCPF, bpf_program);
case BIOCSUDPF32:
IOCTL_STRUCT_CONV_TO(BIOCSUDPF, bpf_program);
case BIOCGDLTLIST32:
IOCTL_STRUCT_CONV_TO(BIOCGDLTLIST, bpf_dltlist);
case BIOCSRTIMEOUT32:
#define netbsd32_to_timeval(s32p, p, cmd) netbsd32_to_timeval(s32p, p)
#define netbsd32_from_timeval(p, s32p, cmd) netbsd32_from_timeval(p, s32p)
IOCTL_STRUCT_CONV_TO(BIOCSRTIMEOUT, timeval);
#undef netbsd32_to_timeval
#undef netbsd32_from_timeval
case WSDISPLAYIO_ADDSCREEN32:
IOCTL_STRUCT_CONV_TO(WSDISPLAYIO_ADDSCREEN,
wsdisplay_addscreendata);
case WSDISPLAYIO_GCURSOR32:
IOCTL_STRUCT_CONV_TO(WSDISPLAYIO_GCURSOR, wsdisplay_cursor);
case WSDISPLAYIO_SCURSOR32:
IOCTL_STRUCT_CONV_TO(WSDISPLAYIO_SCURSOR, wsdisplay_cursor);
case WSDISPLAYIO_GETCMAP32:
IOCTL_STRUCT_CONV_TO(WSDISPLAYIO_GETCMAP, wsdisplay_cmap);
case WSDISPLAYIO_PUTCMAP32:
IOCTL_STRUCT_CONV_TO(WSDISPLAYIO_PUTCMAP, wsdisplay_cmap);
case WSDISPLAYIO_LDFONT32:
IOCTL_STRUCT_CONV_TO(WSDISPLAYIO_LDFONT, wsdisplay_font);
case WSDISPLAYIO_SFONT32:
IOCTL_STRUCT_CONV_TO(WSDISPLAYIO_SFONT, wsdisplay_usefontdata);
case SIOCS8021132:
IOCTL_STRUCT_CONV_TO(SIOCS80211, ieee80211req);
case SIOCG8021132:
IOCTL_STRUCT_CONV_TO(SIOCG80211, ieee80211req);
case SIOCS80211NWKEY32:
IOCTL_STRUCT_CONV_TO(SIOCS80211NWKEY, ieee80211_nwkey);
case SIOCG80211NWKEY32:
IOCTL_STRUCT_CONV_TO(SIOCG80211NWKEY, ieee80211_nwkey);
case POWER_EVENT_RECVDICT32:
IOCTL_STRUCT_CONV_TO(POWER_EVENT_RECVDICT, plistref);
case CLOCKCTL_SETTIMEOFDAY32:
IOCTL_STRUCT_CONV_TO(CLOCKCTL_SETTIMEOFDAY,
clockctl_settimeofday);
case CLOCKCTL_ADJTIME32:
IOCTL_STRUCT_CONV_TO(CLOCKCTL_ADJTIME, clockctl_adjtime);
case CLOCKCTL_CLOCK_SETTIME32:
IOCTL_STRUCT_CONV_TO(CLOCKCTL_CLOCK_SETTIME,
clockctl_clock_settime);
case CLOCKCTL_NTP_ADJTIME32:
#ifdef NTP
{
size = IOCPARM_LEN(CLOCKCTL_NTP_ADJTIME);
if (size > sizeof(stkbuf))
data = memp = kmem_alloc(size, KM_SLEEP);
else
data = (void *)stkbuf;
netbsd32_to_clockctl_ntp_adjtime(
(const struct netbsd32_clockctl_ntp_adjtime *)data32,
(struct clockctl_ntp_adjtime *)data,
CLOCKCTL_NTP_ADJTIME);
error = netbsd32_do_clockctl_ntp_adjtime(
(struct clockctl_ntp_adjtime *)data);
netbsd32_from_clockctl_ntp_adjtime(
(const struct clockctl_ntp_adjtime *)data,
(struct netbsd32_clockctl_ntp_adjtime *)data32,
CLOCKCTL_NTP_ADJTIME);
break;
}
#else
error = ENOTTY;
break;
#endif /* NTP */
case KIOCGSYMBOL32:
IOCTL_STRUCT_CONV_TO(KIOCGSYMBOL, ksyms_gsymbol);
case KIOCGVALUE32:
IOCTL_STRUCT_CONV_TO(KIOCGVALUE, ksyms_gvalue);
case IOC_NPF_LOAD32:
IOCTL_CONV_TO(IOC_NPF_LOAD, nvlist_ref_t);
case IOC_NPF_TABLE32:
IOCTL_STRUCT_CONV_TO(IOC_NPF_TABLE, npf_ioctl_table);
case IOC_NPF_STATS32:
IOCTL_CONV_TO(IOC_NPF_STATS, voidp);
case IOC_NPF_SAVE32:
IOCTL_CONV_TO(IOC_NPF_SAVE, nvlist_ref_t);
case IOC_NPF_RULE32:
IOCTL_CONV_TO(IOC_NPF_RULE, nvlist_ref_t);
case IOC_NPF_CONN_LOOKUP32:
IOCTL_CONV_TO(IOC_NPF_CONN_LOOKUP, nvlist_ref_t);
case DRVRESCANBUS32:
IOCTL_STRUCT_CONV_TO(DRVRESCANBUS, devrescanargs);
case DRVLISTDEV32:
IOCTL_STRUCT_CONV_TO(DRVLISTDEV, devlistargs);
case DRVCTLCOMMAND32:
IOCTL_STRUCT_CONV_TO(DRVCTLCOMMAND, plistref);
case DRVGETEVENT32:
IOCTL_STRUCT_CONV_TO(DRVGETEVENT, plistref);
case DIOCGSTRATEGY32:
IOCTL_STRUCT_CONV_TO(DIOCGSTRATEGY, disk_strategy);
case DIOCSSTRATEGY32:
IOCTL_STRUCT_CONV_TO(DIOCSSTRATEGY, disk_strategy);
case DIOCLWEDGES32:
IOCTL_STRUCT_CONV_TO(DIOCLWEDGES, dkwedge_list);
default:
#ifdef NETBSD32_MD_IOCTL
error = netbsd32_md_ioctl(fp, com, data32, l);
#else
error = (*fp->f_ops->fo_ioctl)(fp, com, data32);
#endif
break;
}
if (error == EPASSTHROUGH)
error = ENOTTY;
/*
* Copy any data to user, size was
* already set and checked above.
*/
if (error == 0 && (com&IOC_OUT) && size32) {
error = copyout(data32, SCARG_P32(uap, data), size32);
ktrgenio(fd, UIO_READ, SCARG_P32(uap, data),
size32, error);
}
out:
/* If we allocated data, free it here. */
if (memp32)
kmem_free(memp32, alloc_size32);
if (memp)
kmem_free(memp, size);
fd_putfile(fd);
return error;
}