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|
/* $NetBSD: linux_ipccall.c,v 1.2 1995/03/08 17:27:42 fvdl Exp $ */
/*
* Copyright (c) 1995 Frank van der Linden
* 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.
* 3. All advertising materials mentioning features or use of this software
* must display the following acknowledgement:
* This product includes software developed for the NetBSD Project
* by Frank van der Linden
* 4. The name of the author may not be used to endorse or promote products
* derived from this software without specific prior written permission
*
* 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.
*/
#include <sys/types.h>
#include <sys/param.h>
#include <sys/kernel.h>
#include <sys/shm.h>
#include <sys/msg.h>
#include <sys/proc.h>
#include <sys/uio.h>
#include <sys/time.h>
#include <sys/malloc.h>
#include <sys/mman.h>
#include <sys/systm.h>
#include <sys/stat.h>
#include <sys/mount.h>
#include <sys/syscallargs.h>
#include <compat/linux/linux_types.h>
#include <compat/linux/linux_syscallargs.h>
#include <compat/linux/linux_util.h>
#include <compat/linux/linux_ipc.h>
#include <compat/linux/linux_msg.h>
#include <compat/linux/linux_shm.h>
#include <compat/linux/linux_ipccall.h>
/*
* Stuff to deal with the SysV ipc/shm/semaphore interface in Linux.
* The main difference is, that Linux handles it all via one
* system call, which has the usual maximum amount of 5 arguments.
* This results in a kludge for calls that take 6 of them.
*
* The SYSVXXXX options have to be enabled to get the appropriate
* functions to work.
*/
#ifdef SYSVSEM
static int linux_semop __P((struct proc *, struct linux_ipc_args *,
register_t *));
static int linux_semget __P((struct proc *, struct linux_ipc_args *,
register_t *));
static int linux_semctl __P((struct proc *, struct linux_ipc_args *,
register_t *));
#endif
#ifdef SYSVMSG
static int linux_msgsnd __P((struct proc *, struct linux_ipc_args *,
register_t *));
static int linux_msgrcv __P((struct proc *, struct linux_ipc_args *,
register_t *));
static int linux_msgop __P((struct proc *, struct linux_ipc_args *,
register_t *));
static int linux_msgctl __P((struct proc *, struct linux_ipc_args *,
register_t *));
#endif
#ifdef SYSVSHM
static int linux_shmat __P((struct proc *, struct linux_ipc_args *,
register_t *));
static int linux_shmdt __P((struct proc *, struct linux_ipc_args *,
register_t *));
static int linux_shmget __P((struct proc *, struct linux_ipc_args *,
register_t *));
static int linux_shmctl __P((struct proc *, struct linux_ipc_args *,
register_t *));
#endif
int
linux_ipc(p, uap, retval)
struct proc *p;
struct linux_ipc_args /* {
syscallarg(int) what;
syscallarg(int) a1;
syscallarg(int) a2;
syscallarg(int) a3;
syscallarg(caddr_t) ptr;
} */ *uap;
register_t *retval;
{
int what, error;
switch (SCARG(uap, what)) {
#ifdef SYSVSEM
case LINUX_SYS_semop:
return linux_semop(p, uap, retval);
case LINUX_SYS_semget:
return linux_semget(p, uap, retval);
case LINUX_SYS_semctl:
return linux_semctl(p, uap, retval);
#endif
#ifdef SYSVMSG
case LINUX_SYS_msgsnd:
return linux_msgsnd(p, uap, retval);
case LINUX_SYS_msgrcv:
return linux_msgrcv(p, uap, retval);
case LINUX_SYS_msgget:
return linux_msgget(p, uap, retval);
case LINUX_SYS_msgctl:
return linux_msgctl(p, uap, retval);
#endif
#ifdef SYSVSHM
case LINUX_SYS_shmat:
return linux_shmat(p, uap, retval);
case LINUX_SYS_shmdt:
return linux_shmdt(p, uap, retval);
case LINUX_SYS_shmget:
return linux_shmget(p, uap, retval);
case LINUX_SYS_shmctl:
return linux_shmctl(p, uap, retval);
#endif
default:
return ENOSYS;
}
}
/*
* Convert between Linux and NetBSD ipc_perm structures. Only the
* order of the fields is different.
*/
static void
linux_to_bsd_ipc_perm(lpp, bpp)
struct linux_ipc_perm *lpp;
struct ipc_perm *bpp;
{
bpp->key = lpp->l_key;
bpp->uid = lpp->l_uid;
bpp->gid = lpp->l_gid;
bpp->cuid = lpp->l_cuid;
bpp->cgid = lpp->l_cgid;
bpp->mode = lpp->l_mode;
bpp->seq = lpp->l_seq;
}
static void
bsd_to_linux_ipc_perm(bpp, lpp)
struct ipc_perm *bpp;
struct linux_ipc_perm *lpp;
{
lpp->l_key = bpp->key;
lpp->l_uid = bpp->uid;
lpp->l_gid = bpp->gid;
lpp->l_cuid = bpp->cuid;
lpp->l_cgid = bpp->cgid;
lpp->l_mode = bpp->mode;
lpp->l_seq = bpp->seq;
}
#ifdef SYSVSEM
/*
* Semaphore operations: not implemented yet.
*/
int
linux_semop(p, uap, retval)
struct proc *p;
struct linux_ipc_args /* {
syscallarg(int) what;
syscallarg(int) a1;
syscallarg(int) a2;
syscallarg(int) a3;
syscallarg(caddr_t) ptr;
} */ *uap;
register_t *retval;
{
return ENOSYS;
}
int
linux_semget(p, uap, retval)
struct proc *p;
struct linux_ipc_args /* {
syscallarg(int) what;
syscallarg(int) a1;
syscallarg(int) a2;
syscallarg(int) a3;
syscallarg(caddr_t) ptr;
} */ *uap;
register_t *retval;
{
return ENOSYS;
}
int
linux_semctl(p, uap, retval)
struct proc *p;
struct linux_ipc_args /* {
syscallarg(int) what;
syscallarg(int) a1;
syscallarg(int) a2;
syscallarg(int) a3;
syscallarg(caddr_t) ptr;
} */ *uap;
register_t *retval;
{
return ENOSYS;
}
#endif /* SYSVSEM */
#ifdef SYSVMSG
/*
* Msg functions: not implemented yet.
*/
int
linux_msgsnd(p, uap, retval)
struct proc *p;
struct linux_ipc_args /* {
syscallarg(int) what;
syscallarg(int) a1;
syscallarg(int) a2;
syscallarg(int) a3;
syscallarg(caddr_t) ptr;
} */ *uap;
register_t *retval;
{
return ENOSYS;
}
int
linux_msgrcv(p, uap, retval)
struct proc *p;
struct linux_ipc_args /* {
syscallarg(int) what;
syscallarg(int) a1;
syscallarg(int) a2;
syscallarg(int) a3;
syscallarg(caddr_t) ptr;
} */ *uap;
register_t *retval;
{
return ENOSYS;
}
int
linux_msgget(p, uap, retval)
struct proc *p;
struct linux_ipc_args /* {
syscallarg(int) what;
syscallarg(int) a1;
syscallarg(int) a2;
syscallarg(int) a3;
syscallarg(caddr_t) ptr;
} */ *uap;
register_t *retval;
{
return ENOSYS;
}
int
linux_msgctl(p, uap, retval)
struct proc *p;
struct linux_ipc_args /* {
syscallarg(int) what;
syscallarg(int) a1;
syscallarg(int) a2;
syscallarg(int) a3;
syscallarg(caddr_t) ptr;
} */ *uap;
register_t *retval;
{
return ENOSYS;
}
#endif /* SYSVMSG */
#ifdef SYSVSHM
/*
* shmat(2). Very straightforward, except that Linux passes a pointer
* in which the return value is to be passed. This is subsequently
* handled by libc, apparently.
*/
int
linux_shmat(p, uap, retval)
struct proc *p;
struct linux_ipc_args /* {
syscallarg(int) what;
syscallarg(int) a1;
syscallarg(int) a2;
syscallarg(int) a3;
syscallarg(caddr_t) ptr;
} */ *uap;
register_t *retval;
{
struct shmat_args bsa;
int error;
SCARG(&bsa, shmid) = SCARG(uap, a1);
SCARG(&bsa, shmaddr) = SCARG(uap, ptr);
SCARG(&bsa, shmflg) = SCARG(uap, a2);
if ((error = shmat(p, &bsa, retval)))
return error;
if ((error = copyout(&retval[0], (caddr_t) SCARG(uap, a3),
sizeof retval[0])))
return error;
retval[0] = 0;
return 0;
}
/*
* shmdt(): this could have been mapped directly, if it wasn't for
* the extra indirection by the linux_ipc system call.
*/
int
linux_shmdt(p, uap, retval)
struct proc *p;
struct linux_ipc_args /* {
syscallarg(int) what;
syscallarg(int) a1;
syscallarg(int) a2;
syscallarg(int) a3;
syscallarg(caddr_t) ptr;
} */ *uap;
register_t *retval;
{
struct shmdt_args bsa;
SCARG(&bsa, shmaddr) = SCARG(uap, ptr);
return shmdt(p, &bsa, retval);
}
/*
* Same story as shmdt.
*/
int
linux_shmget(p, uap, retval)
struct proc *p;
struct linux_ipc_args /* {
syscallarg(int) what;
syscallarg(int) a1;
syscallarg(int) a2;
syscallarg(int) a3;
syscallarg(caddr_t) ptr;
} */ *uap;
register_t *retval;
{
struct shmget_args bsa;
SCARG(&bsa, key) = SCARG(uap, a1);
SCARG(&bsa, size) = SCARG(uap, a2);
SCARG(&bsa, shmflg) = SCARG(uap, a3);
return shmget(p, &bsa, retval);
}
/*
* Convert between Linux and NetBSD shmid_ds structures.
* The order of the fields is once again the difference, and
* we also need a place to store the internal data pointer
* in, which is unfortunately stored in this structure.
*
* We abuse a Linux internal field for that.
*/
static void
linux_to_bsd_shmid_ds(lsp, bsp)
struct linux_shmid_ds *lsp;
struct shmid_ds *bsp;
{
linux_to_bsd_ipc_perm(&lsp->l_shm_perm, &bsp->shm_perm);
bsp->shm_segsz = lsp->l_shm_segsz;
bsp->shm_lpid = lsp->l_shm_lpid;
bsp->shm_cpid = lsp->l_shm_cpid;
bsp->shm_nattch = lsp->l_shm_nattch;
bsp->shm_atime = lsp->l_shm_atime;
bsp->shm_dtime = lsp->l_shm_dtime;
bsp->shm_ctime = lsp->l_shm_ctime;
bsp->shm_internal = lsp->l_private2; /* XXX Oh well. */
}
static void
bsd_to_linux_shmid_ds(bsp, lsp)
struct shmid_ds *bsp;
struct linux_shmid_ds *lsp;
{
bsd_to_linux_ipc_perm(&bsp->shm_perm, &lsp->l_shm_perm);
lsp->l_shm_segsz = bsp->shm_segsz;
lsp->l_shm_lpid = bsp->shm_lpid;
lsp->l_shm_cpid = bsp->shm_cpid;
lsp->l_shm_nattch = bsp->shm_nattch;
lsp->l_shm_atime = bsp->shm_atime;
lsp->l_shm_dtime = bsp->shm_dtime;
lsp->l_shm_ctime = bsp->shm_ctime;
lsp->l_private2 = bsp->shm_internal; /* XXX */
}
/*
* shmctl. Not implemented (for now): IPC_INFO, SHM_INFO, SHM_STAT
* SHM_LOCK and SHM_UNLOCK are passed on, but currently not implemented
* by NetBSD itself.
*
* The usual structure conversion and massaging is done.
*/
int
linux_shmctl(p, uap, retval)
struct proc *p;
struct linux_ipc_args /* {
syscallarg(int) what;
syscallarg(int) a1;
syscallarg(int) a2;
syscallarg(int) a3;
syscallarg(caddr_t) ptr;
} */ *uap;
register_t *retval;
{
int error;
caddr_t sg;
struct shmctl_args bsa;
struct shmid_ds *bsp, bs;
struct linux_shmid_ds lseg;
switch (SCARG(uap, a2)) {
case LINUX_IPC_STAT:
sg = stackgap_init();
bsp = stackgap_alloc(&sg, sizeof (struct shmid_ds));
SCARG(&bsa, shmid) = SCARG(uap, a1);
SCARG(&bsa, cmd) = IPC_STAT;
SCARG(&bsa, buf) = bsp;
if ((error = shmctl(p, &bsa, retval)))
return error;
if ((error = copyin((caddr_t) &bs, (caddr_t) bsp, sizeof bs)))
return error;
bsd_to_linux_shmid_ds(&bs, &lseg);
return copyout((caddr_t) &lseg, SCARG(uap, ptr), sizeof lseg);
case LINUX_IPC_SET:
if ((error = copyin(SCARG(uap, ptr), (caddr_t) &lseg,
sizeof lseg)))
return error;
linux_to_bsd_shmid_ds(&lseg, &bs);
sg = stackgap_init();
bsp = stackgap_alloc(&sg, sizeof (struct shmid_ds));
if ((error = copyout((caddr_t) &bs, (caddr_t) bsp, sizeof bs)))
return error;
SCARG(&bsa, shmid) = SCARG(uap, a1);
SCARG(&bsa, cmd) = IPC_SET;
SCARG(&bsa, buf) = bsp;
return shmctl(p, &bsa, retval);
case LINUX_IPC_RMID:
case LINUX_SHM_LOCK:
case LINUX_SHM_UNLOCK:
SCARG(&bsa, shmid) = SCARG(uap, a1);
switch (SCARG(uap, a2)) {
case LINUX_IPC_RMID:
SCARG(&bsa, cmd) = IPC_RMID;
break;
case LINUX_SHM_LOCK:
SCARG(&bsa, cmd) = SHM_LOCK;
break;
case LINUX_SHM_UNLOCK:
SCARG(&bsa, cmd) = SHM_UNLOCK;
break;
}
if ((error = copyin(SCARG(uap, ptr), (caddr_t) &lseg,
sizeof lseg)))
return error;
linux_to_bsd_shmid_ds(&lseg, &bs);
sg = stackgap_init();
bsp = stackgap_alloc(&sg, sizeof (struct shmid_ds));
if ((error = copyout((caddr_t) &bs, (caddr_t) bsp, sizeof bs)))
return error;
SCARG(&bsa, buf) = bsp;
return shmctl(p, &bsa, retval);
case LINUX_IPC_INFO:
case LINUX_SHM_STAT:
case LINUX_SHM_INFO:
default:
return EINVAL;
}
}
#endif /* SYSVSHM */
|