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Kirill Smelkov
linux
Commits
9491d77e
Commit
9491d77e
authored
Apr 13, 2003
by
Martin Schwidefsky
Committed by
Linus Torvalds
Apr 13, 2003
Browse files
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Browse Files
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[PATCH] s390/s390x unification (2/7)
Merge s390x and s390 to one architecture.
parent
a922abe4
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arch/s390/kernel/compat_linux.c
arch/s390/kernel/compat_linux.c
+2863
-0
arch/s390/kernel/compat_linux.h
arch/s390/kernel/compat_linux.h
+193
-0
arch/s390/kernel/compat_ptrace.h
arch/s390/kernel/compat_ptrace.h
+86
-0
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arch/s390/kernel/compat_linux.c
0 → 100644
View file @
9491d77e
/*
* arch/s390x/kernel/linux32.c
*
* S390 version
* Copyright (C) 2000 IBM Deutschland Entwicklung GmbH, IBM Corporation
* Author(s): Martin Schwidefsky (schwidefsky@de.ibm.com),
* Gerhard Tonn (ton@de.ibm.com)
*
* Conversion between 31bit and 64bit native syscalls.
*
* Heavily inspired by the 32-bit Sparc compat code which is
* Copyright (C) 1997,1998 Jakub Jelinek (jj@sunsite.mff.cuni.cz)
* Copyright (C) 1997 David S. Miller (davem@caip.rutgers.edu)
*
*/
#include <linux/config.h>
#include <linux/kernel.h>
#include <linux/sched.h>
#include <linux/fs.h>
#include <linux/mm.h>
#include <linux/file.h>
#include <linux/signal.h>
#include <linux/resource.h>
#include <linux/times.h>
#include <linux/utsname.h>
#include <linux/timex.h>
#include <linux/smp.h>
#include <linux/smp_lock.h>
#include <linux/sem.h>
#include <linux/msg.h>
#include <linux/shm.h>
#include <linux/slab.h>
#include <linux/uio.h>
#include <linux/nfs_fs.h>
#include <linux/smb_fs.h>
#include <linux/smb_mount.h>
#include <linux/ncp_fs.h>
#include <linux/quota.h>
#include <linux/module.h>
#include <linux/sunrpc/svc.h>
#include <linux/nfsd/nfsd.h>
#include <linux/nfsd/cache.h>
#include <linux/nfsd/xdr.h>
#include <linux/nfsd/syscall.h>
#include <linux/poll.h>
#include <linux/personality.h>
#include <linux/stat.h>
#include <linux/filter.h>
#include <linux/highmem.h>
#include <linux/highuid.h>
#include <linux/mman.h>
#include <linux/ipv6.h>
#include <linux/in.h>
#include <linux/icmpv6.h>
#include <linux/sysctl.h>
#include <linux/binfmts.h>
#include <linux/compat.h>
#include <linux/vfs.h>
#include <linux/ptrace.h>
#include <asm/types.h>
#include <asm/ipc.h>
#include <asm/uaccess.h>
#include <asm/semaphore.h>
#include <net/scm.h>
#include <net/sock.h>
#include "compat_linux.h"
extern
asmlinkage
long
sys_chown
(
const
char
*
,
uid_t
,
gid_t
);
extern
asmlinkage
long
sys_lchown
(
const
char
*
,
uid_t
,
gid_t
);
extern
asmlinkage
long
sys_fchown
(
unsigned
int
,
uid_t
,
gid_t
);
extern
asmlinkage
long
sys_setregid
(
gid_t
,
gid_t
);
extern
asmlinkage
long
sys_setgid
(
gid_t
);
extern
asmlinkage
long
sys_setreuid
(
uid_t
,
uid_t
);
extern
asmlinkage
long
sys_setuid
(
uid_t
);
extern
asmlinkage
long
sys_setresuid
(
uid_t
,
uid_t
,
uid_t
);
extern
asmlinkage
long
sys_setresgid
(
gid_t
,
gid_t
,
gid_t
);
extern
asmlinkage
long
sys_setfsuid
(
uid_t
);
extern
asmlinkage
long
sys_setfsgid
(
gid_t
);
/* For this source file, we want overflow handling. */
#undef high2lowuid
#undef high2lowgid
#undef low2highuid
#undef low2highgid
#undef SET_UID16
#undef SET_GID16
#undef NEW_TO_OLD_UID
#undef NEW_TO_OLD_GID
#undef SET_OLDSTAT_UID
#undef SET_OLDSTAT_GID
#undef SET_STAT_UID
#undef SET_STAT_GID
#define high2lowuid(uid) ((uid) > 65535) ? (u16)overflowuid : (u16)(uid)
#define high2lowgid(gid) ((gid) > 65535) ? (u16)overflowgid : (u16)(gid)
#define low2highuid(uid) ((uid) == (u16)-1) ? (uid_t)-1 : (uid_t)(uid)
#define low2highgid(gid) ((gid) == (u16)-1) ? (gid_t)-1 : (gid_t)(gid)
#define SET_UID16(var, uid) var = high2lowuid(uid)
#define SET_GID16(var, gid) var = high2lowgid(gid)
#define NEW_TO_OLD_UID(uid) high2lowuid(uid)
#define NEW_TO_OLD_GID(gid) high2lowgid(gid)
#define SET_OLDSTAT_UID(stat, uid) (stat).st_uid = high2lowuid(uid)
#define SET_OLDSTAT_GID(stat, gid) (stat).st_gid = high2lowgid(gid)
#define SET_STAT_UID(stat, uid) (stat).st_uid = high2lowuid(uid)
#define SET_STAT_GID(stat, gid) (stat).st_gid = high2lowgid(gid)
asmlinkage
long
sys32_chown16
(
const
char
*
filename
,
u16
user
,
u16
group
)
{
return
sys_chown
(
filename
,
low2highuid
(
user
),
low2highgid
(
group
));
}
asmlinkage
long
sys32_lchown16
(
const
char
*
filename
,
u16
user
,
u16
group
)
{
return
sys_lchown
(
filename
,
low2highuid
(
user
),
low2highgid
(
group
));
}
asmlinkage
long
sys32_fchown16
(
unsigned
int
fd
,
u16
user
,
u16
group
)
{
return
sys_fchown
(
fd
,
low2highuid
(
user
),
low2highgid
(
group
));
}
asmlinkage
long
sys32_setregid16
(
u16
rgid
,
u16
egid
)
{
return
sys_setregid
(
low2highgid
(
rgid
),
low2highgid
(
egid
));
}
asmlinkage
long
sys32_setgid16
(
u16
gid
)
{
return
sys_setgid
((
gid_t
)
gid
);
}
asmlinkage
long
sys32_setreuid16
(
u16
ruid
,
u16
euid
)
{
return
sys_setreuid
(
low2highuid
(
ruid
),
low2highuid
(
euid
));
}
asmlinkage
long
sys32_setuid16
(
u16
uid
)
{
return
sys_setuid
((
uid_t
)
uid
);
}
asmlinkage
long
sys32_setresuid16
(
u16
ruid
,
u16
euid
,
u16
suid
)
{
return
sys_setresuid
(
low2highuid
(
ruid
),
low2highuid
(
euid
),
low2highuid
(
suid
));
}
asmlinkage
long
sys32_getresuid16
(
u16
*
ruid
,
u16
*
euid
,
u16
*
suid
)
{
int
retval
;
if
(
!
(
retval
=
put_user
(
high2lowuid
(
current
->
uid
),
ruid
))
&&
!
(
retval
=
put_user
(
high2lowuid
(
current
->
euid
),
euid
)))
retval
=
put_user
(
high2lowuid
(
current
->
suid
),
suid
);
return
retval
;
}
asmlinkage
long
sys32_setresgid16
(
u16
rgid
,
u16
egid
,
u16
sgid
)
{
return
sys_setresgid
(
low2highgid
(
rgid
),
low2highgid
(
egid
),
low2highgid
(
sgid
));
}
asmlinkage
long
sys32_getresgid16
(
u16
*
rgid
,
u16
*
egid
,
u16
*
sgid
)
{
int
retval
;
if
(
!
(
retval
=
put_user
(
high2lowgid
(
current
->
gid
),
rgid
))
&&
!
(
retval
=
put_user
(
high2lowgid
(
current
->
egid
),
egid
)))
retval
=
put_user
(
high2lowgid
(
current
->
sgid
),
sgid
);
return
retval
;
}
asmlinkage
long
sys32_setfsuid16
(
u16
uid
)
{
return
sys_setfsuid
((
uid_t
)
uid
);
}
asmlinkage
long
sys32_setfsgid16
(
u16
gid
)
{
return
sys_setfsgid
((
gid_t
)
gid
);
}
asmlinkage
long
sys32_getgroups16
(
int
gidsetsize
,
u16
*
grouplist
)
{
u16
groups
[
NGROUPS
];
int
i
,
j
;
if
(
gidsetsize
<
0
)
return
-
EINVAL
;
i
=
current
->
ngroups
;
if
(
gidsetsize
)
{
if
(
i
>
gidsetsize
)
return
-
EINVAL
;
for
(
j
=
0
;
j
<
i
;
j
++
)
groups
[
j
]
=
current
->
groups
[
j
];
if
(
copy_to_user
(
grouplist
,
groups
,
sizeof
(
u16
)
*
i
))
return
-
EFAULT
;
}
return
i
;
}
asmlinkage
long
sys32_setgroups16
(
int
gidsetsize
,
u16
*
grouplist
)
{
u16
groups
[
NGROUPS
];
int
i
;
if
(
!
capable
(
CAP_SETGID
))
return
-
EPERM
;
if
((
unsigned
)
gidsetsize
>
NGROUPS
)
return
-
EINVAL
;
if
(
copy_from_user
(
groups
,
grouplist
,
gidsetsize
*
sizeof
(
u16
)))
return
-
EFAULT
;
for
(
i
=
0
;
i
<
gidsetsize
;
i
++
)
current
->
groups
[
i
]
=
(
gid_t
)
groups
[
i
];
current
->
ngroups
=
gidsetsize
;
return
0
;
}
asmlinkage
long
sys32_getuid16
(
void
)
{
return
high2lowuid
(
current
->
uid
);
}
asmlinkage
long
sys32_geteuid16
(
void
)
{
return
high2lowuid
(
current
->
euid
);
}
asmlinkage
long
sys32_getgid16
(
void
)
{
return
high2lowgid
(
current
->
gid
);
}
asmlinkage
long
sys32_getegid16
(
void
)
{
return
high2lowgid
(
current
->
egid
);
}
/* 32-bit timeval and related flotsam. */
static
inline
long
get_tv32
(
struct
timeval
*
o
,
struct
compat_timeval
*
i
)
{
return
(
!
access_ok
(
VERIFY_READ
,
tv32
,
sizeof
(
*
tv32
))
||
(
__get_user
(
o
->
tv_sec
,
&
i
->
tv_sec
)
|
__get_user
(
o
->
tv_usec
,
&
i
->
tv_usec
)));
}
static
inline
long
put_tv32
(
struct
compat_timeval
*
o
,
struct
timeval
*
i
)
{
return
(
!
access_ok
(
VERIFY_WRITE
,
o
,
sizeof
(
*
o
))
||
(
__put_user
(
i
->
tv_sec
,
&
o
->
tv_sec
)
|
__put_user
(
i
->
tv_usec
,
&
o
->
tv_usec
)));
}
struct
msgbuf32
{
s32
mtype
;
char
mtext
[
1
];
};
struct
ipc64_perm_ds32
{
__kernel_key_t
key
;
__kernel_uid32_t
uid
;
__kernel_gid32_t
gid
;
__kernel_uid32_t
cuid
;
__kernel_gid32_t
cgid
;
compat_mode_t
mode
;
unsigned
short
__pad1
;
unsigned
short
seq
;
unsigned
short
__pad2
;
unsigned
int
__unused1
;
unsigned
int
__unused2
;
};
struct
ipc_perm32
{
key_t
key
;
compat_uid_t
uid
;
compat_gid_t
gid
;
compat_uid_t
cuid
;
compat_gid_t
cgid
;
compat_mode_t
mode
;
unsigned
short
seq
;
};
struct
semid_ds32
{
struct
ipc_perm32
sem_perm
;
/* permissions .. see ipc.h */
compat_time_t
sem_otime
;
/* last semop time */
compat_time_t
sem_ctime
;
/* last change time */
u32
sem_base
;
/* ptr to first semaphore in array */
u32
sem_pending
;
/* pending operations to be processed */
u32
sem_pending_last
;
/* last pending operation */
u32
undo
;
/* undo requests on this array */
unsigned
short
sem_nsems
;
/* no. of semaphores in array */
};
struct
semid64_ds32
{
struct
ipc64_perm_ds32
sem_perm
;
unsigned
int
__pad1
;
compat_time_t
sem_otime
;
unsigned
int
__pad2
;
compat_time_t
sem_ctime
;
u32
sem_nsems
;
u32
__unused1
;
u32
__unused2
;
};
struct
msqid_ds32
{
struct
ipc_perm32
msg_perm
;
u32
msg_first
;
u32
msg_last
;
compat_time_t
msg_stime
;
compat_time_t
msg_rtime
;
compat_time_t
msg_ctime
;
u32
wwait
;
u32
rwait
;
unsigned
short
msg_cbytes
;
unsigned
short
msg_qnum
;
unsigned
short
msg_qbytes
;
compat_ipc_pid_t
msg_lspid
;
compat_ipc_pid_t
msg_lrpid
;
};
struct
msqid64_ds32
{
struct
ipc64_perm_ds32
msg_perm
;
unsigned
int
__pad1
;
compat_time_t
msg_stime
;
unsigned
int
__pad2
;
compat_time_t
msg_rtime
;
unsigned
int
__pad3
;
compat_time_t
msg_ctime
;
unsigned
int
msg_cbytes
;
unsigned
int
msg_qnum
;
unsigned
int
msg_qbytes
;
compat_pid_t
msg_lspid
;
compat_pid_t
msg_lrpid
;
unsigned
int
__unused1
;
unsigned
int
__unused2
;
};
struct
shmid_ds32
{
struct
ipc_perm32
shm_perm
;
int
shm_segsz
;
compat_time_t
shm_atime
;
compat_time_t
shm_dtime
;
compat_time_t
shm_ctime
;
compat_ipc_pid_t
shm_cpid
;
compat_ipc_pid_t
shm_lpid
;
unsigned
short
shm_nattch
;
};
struct
shmid64_ds32
{
struct
ipc64_perm_ds32
shm_perm
;
compat_size_t
shm_segsz
;
compat_time_t
shm_atime
;
unsigned
int
__unused1
;
compat_time_t
shm_dtime
;
unsigned
int
__unused2
;
compat_time_t
shm_ctime
;
unsigned
int
__unused3
;
compat_pid_t
shm_cpid
;
compat_pid_t
shm_lpid
;
unsigned
int
shm_nattch
;
unsigned
int
__unused4
;
unsigned
int
__unused5
;
};
/*
* sys32_ipc() is the de-multiplexer for the SysV IPC calls in 32bit emulation..
*
* This is really horribly ugly.
*/
#define IPCOP_MASK(__x) (1UL << (__x))
static
int
do_sys32_semctl
(
int
first
,
int
second
,
int
third
,
void
*
uptr
)
{
union
semun
fourth
;
u32
pad
;
int
err
=
-
EINVAL
;
if
(
!
uptr
)
goto
out
;
err
=
-
EFAULT
;
if
(
get_user
(
pad
,
(
u32
*
)
uptr
))
goto
out
;
if
(
third
==
SETVAL
)
fourth
.
val
=
(
int
)
pad
;
else
fourth
.
__pad
=
(
void
*
)
A
(
pad
);
if
(
IPCOP_MASK
(
third
)
&
(
IPCOP_MASK
(
IPC_INFO
)
|
IPCOP_MASK
(
SEM_INFO
)
|
IPCOP_MASK
(
GETVAL
)
|
IPCOP_MASK
(
GETPID
)
|
IPCOP_MASK
(
GETNCNT
)
|
IPCOP_MASK
(
GETZCNT
)
|
IPCOP_MASK
(
GETALL
)
|
IPCOP_MASK
(
SETALL
)
|
IPCOP_MASK
(
IPC_RMID
)))
{
err
=
sys_semctl
(
first
,
second
,
third
,
fourth
);
}
else
if
(
third
&
IPC_64
)
{
struct
semid64_ds
s
;
struct
semid64_ds32
*
usp
=
(
struct
semid64_ds32
*
)
A
(
pad
);
mm_segment_t
old_fs
;
int
need_back_translation
;
if
(
third
==
(
IPC_SET
|
IPC_64
))
{
err
=
get_user
(
s
.
sem_perm
.
uid
,
&
usp
->
sem_perm
.
uid
);
err
|=
__get_user
(
s
.
sem_perm
.
gid
,
&
usp
->
sem_perm
.
gid
);
err
|=
__get_user
(
s
.
sem_perm
.
mode
,
&
usp
->
sem_perm
.
mode
);
if
(
err
)
goto
out
;
fourth
.
__pad
=
&
s
;
}
need_back_translation
=
(
IPCOP_MASK
(
third
)
&
(
IPCOP_MASK
(
SEM_STAT
)
|
IPCOP_MASK
(
IPC_STAT
)))
!=
0
;
if
(
need_back_translation
)
fourth
.
__pad
=
&
s
;
old_fs
=
get_fs
();
set_fs
(
KERNEL_DS
);
err
=
sys_semctl
(
first
,
second
,
third
,
fourth
);
set_fs
(
old_fs
);
if
(
need_back_translation
)
{
int
err2
=
put_user
(
s
.
sem_perm
.
key
,
&
usp
->
sem_perm
.
key
);
err2
|=
__put_user
(
high2lowuid
(
s
.
sem_perm
.
uid
),
&
usp
->
sem_perm
.
uid
);
err2
|=
__put_user
(
high2lowgid
(
s
.
sem_perm
.
gid
),
&
usp
->
sem_perm
.
gid
);
err2
|=
__put_user
(
high2lowuid
(
s
.
sem_perm
.
cuid
),
&
usp
->
sem_perm
.
cuid
);
err2
|=
__put_user
(
high2lowgid
(
s
.
sem_perm
.
cgid
),
&
usp
->
sem_perm
.
cgid
);
err2
|=
__put_user
(
s
.
sem_perm
.
mode
,
&
usp
->
sem_perm
.
mode
);
err2
|=
__put_user
(
s
.
sem_perm
.
seq
,
&
usp
->
sem_perm
.
seq
);
err2
|=
__put_user
(
s
.
sem_otime
,
&
usp
->
sem_otime
);
err2
|=
__put_user
(
s
.
sem_ctime
,
&
usp
->
sem_ctime
);
err2
|=
__put_user
(
s
.
sem_nsems
,
&
usp
->
sem_nsems
);
if
(
err2
)
err
=
-
EFAULT
;
}
}
else
{
struct
semid_ds
s
;
struct
semid_ds32
*
usp
=
(
struct
semid_ds32
*
)
A
(
pad
);
mm_segment_t
old_fs
;
int
need_back_translation
;
if
(
third
==
IPC_SET
)
{
err
=
get_user
(
s
.
sem_perm
.
uid
,
&
usp
->
sem_perm
.
uid
);
err
|=
__get_user
(
s
.
sem_perm
.
gid
,
&
usp
->
sem_perm
.
gid
);
err
|=
__get_user
(
s
.
sem_perm
.
mode
,
&
usp
->
sem_perm
.
mode
);
if
(
err
)
goto
out
;
fourth
.
__pad
=
&
s
;
}
need_back_translation
=
(
IPCOP_MASK
(
third
)
&
(
IPCOP_MASK
(
SEM_STAT
)
|
IPCOP_MASK
(
IPC_STAT
)))
!=
0
;
if
(
need_back_translation
)
fourth
.
__pad
=
&
s
;
old_fs
=
get_fs
();
set_fs
(
KERNEL_DS
);
err
=
sys_semctl
(
first
,
second
,
third
,
fourth
);
set_fs
(
old_fs
);
if
(
need_back_translation
)
{
int
err2
=
put_user
(
s
.
sem_perm
.
key
,
&
usp
->
sem_perm
.
key
);
err2
|=
__put_user
(
high2lowuid
(
s
.
sem_perm
.
uid
),
&
usp
->
sem_perm
.
uid
);
err2
|=
__put_user
(
high2lowgid
(
s
.
sem_perm
.
gid
),
&
usp
->
sem_perm
.
gid
);
err2
|=
__put_user
(
high2lowuid
(
s
.
sem_perm
.
cuid
),
&
usp
->
sem_perm
.
cuid
);
err2
|=
__put_user
(
high2lowgid
(
s
.
sem_perm
.
cgid
),
&
usp
->
sem_perm
.
cgid
);
err2
|=
__put_user
(
s
.
sem_perm
.
mode
,
&
usp
->
sem_perm
.
mode
);
err2
|=
__put_user
(
s
.
sem_perm
.
seq
,
&
usp
->
sem_perm
.
seq
);
err2
|=
__put_user
(
s
.
sem_otime
,
&
usp
->
sem_otime
);
err2
|=
__put_user
(
s
.
sem_ctime
,
&
usp
->
sem_ctime
);
err2
|=
__put_user
(
s
.
sem_nsems
,
&
usp
->
sem_nsems
);
if
(
err2
)
err
=
-
EFAULT
;
}
}
out:
return
err
;
}
static
int
do_sys32_msgsnd
(
int
first
,
int
second
,
int
third
,
void
*
uptr
)
{
struct
msgbuf
*
p
=
kmalloc
(
second
+
sizeof
(
struct
msgbuf
),
GFP_USER
);
struct
msgbuf32
*
up
=
(
struct
msgbuf32
*
)
uptr
;
mm_segment_t
old_fs
;
int
err
;
if
(
!
p
)
return
-
ENOMEM
;
err
=
-
EINVAL
;
if
(
second
>
MSGMAX
||
first
<
0
||
second
<
0
)
goto
out
;
err
=
-
EFAULT
;
if
(
!
uptr
)
goto
out
;
if
(
get_user
(
p
->
mtype
,
&
up
->
mtype
)
||
__copy_from_user
(
p
->
mtext
,
&
up
->
mtext
,
second
))
goto
out
;
old_fs
=
get_fs
();
set_fs
(
KERNEL_DS
);
err
=
sys_msgsnd
(
first
,
p
,
second
,
third
);
set_fs
(
old_fs
);
out:
kfree
(
p
);
return
err
;
}
static
int
do_sys32_msgrcv
(
int
first
,
int
second
,
int
msgtyp
,
int
third
,
int
version
,
void
*
uptr
)
{
struct
msgbuf32
*
up
;
struct
msgbuf
*
p
;
mm_segment_t
old_fs
;
int
err
;
if
(
first
<
0
||
second
<
0
)
return
-
EINVAL
;
if
(
!
version
)
{
struct
ipc_kludge_32
*
uipck
=
(
struct
ipc_kludge_32
*
)
uptr
;
struct
ipc_kludge_32
ipck
;
err
=
-
EINVAL
;
if
(
!
uptr
)
goto
out
;
err
=
-
EFAULT
;
if
(
copy_from_user
(
&
ipck
,
uipck
,
sizeof
(
struct
ipc_kludge_32
)))
goto
out
;
uptr
=
(
void
*
)
A
(
ipck
.
msgp
);
msgtyp
=
ipck
.
msgtyp
;
}
err
=
-
ENOMEM
;
p
=
kmalloc
(
second
+
sizeof
(
struct
msgbuf
),
GFP_USER
);
if
(
!
p
)
goto
out
;
old_fs
=
get_fs
();
set_fs
(
KERNEL_DS
);
err
=
sys_msgrcv
(
first
,
p
,
second
,
msgtyp
,
third
);
set_fs
(
old_fs
);
if
(
err
<
0
)
goto
free_then_out
;
up
=
(
struct
msgbuf32
*
)
uptr
;
if
(
put_user
(
p
->
mtype
,
&
up
->
mtype
)
||
__copy_to_user
(
&
up
->
mtext
,
p
->
mtext
,
err
))
err
=
-
EFAULT
;
free_then_out:
kfree
(
p
);
out:
return
err
;
}
static
int
do_sys32_msgctl
(
int
first
,
int
second
,
void
*
uptr
)
{
int
err
;
if
(
IPCOP_MASK
(
second
)
&
(
IPCOP_MASK
(
IPC_INFO
)
|
IPCOP_MASK
(
MSG_INFO
)
|
IPCOP_MASK
(
IPC_RMID
)))
{
err
=
sys_msgctl
(
first
,
second
,
(
struct
msqid_ds
*
)
uptr
);
}
else
if
(
second
&
IPC_64
)
{
struct
msqid64_ds
m
;
struct
msqid64_ds32
*
up
=
(
struct
msqid64_ds32
*
)
uptr
;
mm_segment_t
old_fs
;
if
(
second
==
(
IPC_SET
|
IPC_64
))
{
err
=
get_user
(
m
.
msg_perm
.
uid
,
&
up
->
msg_perm
.
uid
);
err
|=
__get_user
(
m
.
msg_perm
.
gid
,
&
up
->
msg_perm
.
gid
);
err
|=
__get_user
(
m
.
msg_perm
.
mode
,
&
up
->
msg_perm
.
mode
);
err
|=
__get_user
(
m
.
msg_qbytes
,
&
up
->
msg_qbytes
);
if
(
err
)
goto
out
;
}
old_fs
=
get_fs
();
set_fs
(
KERNEL_DS
);
err
=
sys_msgctl
(
first
,
second
,
(
struct
msqid_ds
*
)
&
m
);
set_fs
(
old_fs
);
if
(
IPCOP_MASK
(
second
)
&
(
IPCOP_MASK
(
MSG_STAT
)
|
IPCOP_MASK
(
IPC_STAT
)))
{
int
err2
=
put_user
(
m
.
msg_perm
.
key
,
&
up
->
msg_perm
.
key
);
err2
|=
__put_user
(
high2lowuid
(
m
.
msg_perm
.
uid
),
&
up
->
msg_perm
.
uid
);
err2
|=
__put_user
(
high2lowgid
(
m
.
msg_perm
.
gid
),
&
up
->
msg_perm
.
gid
);
err2
|=
__put_user
(
high2lowuid
(
m
.
msg_perm
.
cuid
),
&
up
->
msg_perm
.
cuid
);
err2
|=
__put_user
(
high2lowgid
(
m
.
msg_perm
.
cgid
),
&
up
->
msg_perm
.
cgid
);
err2
|=
__put_user
(
m
.
msg_perm
.
mode
,
&
up
->
msg_perm
.
mode
);
err2
|=
__put_user
(
m
.
msg_perm
.
seq
,
&
up
->
msg_perm
.
seq
);
err2
|=
__put_user
(
m
.
msg_stime
,
&
up
->
msg_stime
);
err2
|=
__put_user
(
m
.
msg_rtime
,
&
up
->
msg_rtime
);
err2
|=
__put_user
(
m
.
msg_ctime
,
&
up
->
msg_ctime
);
err2
|=
__put_user
(
m
.
msg_cbytes
,
&
up
->
msg_cbytes
);
err2
|=
__put_user
(
m
.
msg_qnum
,
&
up
->
msg_qnum
);
err2
|=
__put_user
(
m
.
msg_qbytes
,
&
up
->
msg_qbytes
);
err2
|=
__put_user
(
m
.
msg_lspid
,
&
up
->
msg_lspid
);
err2
|=
__put_user
(
m
.
msg_lrpid
,
&
up
->
msg_lrpid
);
if
(
err2
)
err
=
-
EFAULT
;
}
}
else
{
struct
msqid_ds
m
;
struct
msqid_ds32
*
up
=
(
struct
msqid_ds32
*
)
uptr
;
mm_segment_t
old_fs
;
if
(
second
==
IPC_SET
)
{
err
=
get_user
(
m
.
msg_perm
.
uid
,
&
up
->
msg_perm
.
uid
);
err
|=
__get_user
(
m
.
msg_perm
.
gid
,
&
up
->
msg_perm
.
gid
);
err
|=
__get_user
(
m
.
msg_perm
.
mode
,
&
up
->
msg_perm
.
mode
);
err
|=
__get_user
(
m
.
msg_qbytes
,
&
up
->
msg_qbytes
);
if
(
err
)
goto
out
;
}
old_fs
=
get_fs
();
set_fs
(
KERNEL_DS
);
err
=
sys_msgctl
(
first
,
second
,
&
m
);
set_fs
(
old_fs
);
if
(
IPCOP_MASK
(
second
)
&
(
IPCOP_MASK
(
MSG_STAT
)
|
IPCOP_MASK
(
IPC_STAT
)))
{
int
err2
=
put_user
(
m
.
msg_perm
.
key
,
&
up
->
msg_perm
.
key
);
err2
|=
__put_user
(
high2lowuid
(
m
.
msg_perm
.
uid
),
&
up
->
msg_perm
.
uid
);
err2
|=
__put_user
(
high2lowgid
(
m
.
msg_perm
.
gid
),
&
up
->
msg_perm
.
gid
);
err2
|=
__put_user
(
high2lowuid
(
m
.
msg_perm
.
cuid
),
&
up
->
msg_perm
.
cuid
);
err2
|=
__put_user
(
high2lowgid
(
m
.
msg_perm
.
cgid
),
&
up
->
msg_perm
.
cgid
);
err2
|=
__put_user
(
m
.
msg_perm
.
mode
,
&
up
->
msg_perm
.
mode
);
err2
|=
__put_user
(
m
.
msg_perm
.
seq
,
&
up
->
msg_perm
.
seq
);
err2
|=
__put_user
(
m
.
msg_stime
,
&
up
->
msg_stime
);
err2
|=
__put_user
(
m
.
msg_rtime
,
&
up
->
msg_rtime
);
err2
|=
__put_user
(
m
.
msg_ctime
,
&
up
->
msg_ctime
);
err2
|=
__put_user
(
m
.
msg_cbytes
,
&
up
->
msg_cbytes
);
err2
|=
__put_user
(
m
.
msg_qnum
,
&
up
->
msg_qnum
);
err2
|=
__put_user
(
m
.
msg_qbytes
,
&
up
->
msg_qbytes
);
err2
|=
__put_user
(
m
.
msg_lspid
,
&
up
->
msg_lspid
);
err2
|=
__put_user
(
m
.
msg_lrpid
,
&
up
->
msg_lrpid
);
if
(
err2
)
err
=
-
EFAULT
;
}
}
out:
return
err
;
}
static
int
do_sys32_shmat
(
int
first
,
int
second
,
int
third
,
int
version
,
void
*
uptr
)
{
unsigned
long
raddr
;
u32
*
uaddr
=
(
u32
*
)
A
((
u32
)
third
);
int
err
=
-
EINVAL
;
if
(
version
==
1
)
goto
out
;
err
=
sys_shmat
(
first
,
uptr
,
second
,
&
raddr
);
if
(
err
)
goto
out
;
err
=
put_user
(
raddr
,
uaddr
);
out:
return
err
;
}
static
int
do_sys32_shmctl
(
int
first
,
int
second
,
void
*
uptr
)
{
int
err
;
if
(
IPCOP_MASK
(
second
)
&
(
IPCOP_MASK
(
IPC_INFO
)
|
IPCOP_MASK
(
SHM_LOCK
)
|
IPCOP_MASK
(
SHM_UNLOCK
)
|
IPCOP_MASK
(
IPC_RMID
)))
{
if
(
second
==
(
IPC_INFO
|
IPC_64
))
second
=
IPC_INFO
;
/* So that we don't have to translate it */
err
=
sys_shmctl
(
first
,
second
,
(
struct
shmid_ds
*
)
uptr
);
}
else
if
((
second
&
IPC_64
)
&&
second
!=
(
SHM_INFO
|
IPC_64
))
{
struct
shmid64_ds
s
;
struct
shmid64_ds32
*
up
=
(
struct
shmid64_ds32
*
)
uptr
;
mm_segment_t
old_fs
;
if
(
second
==
(
IPC_SET
|
IPC_64
))
{
err
=
get_user
(
s
.
shm_perm
.
uid
,
&
up
->
shm_perm
.
uid
);
err
|=
__get_user
(
s
.
shm_perm
.
gid
,
&
up
->
shm_perm
.
gid
);
err
|=
__get_user
(
s
.
shm_perm
.
mode
,
&
up
->
shm_perm
.
mode
);
if
(
err
)
goto
out
;
}
old_fs
=
get_fs
();
set_fs
(
KERNEL_DS
);
err
=
sys_shmctl
(
first
,
second
,
(
struct
shmid_ds
*
)
&
s
);
set_fs
(
old_fs
);
if
(
err
<
0
)
goto
out
;
/* Mask it even in this case so it becomes a CSE. */
if
(
IPCOP_MASK
(
second
)
&
(
IPCOP_MASK
(
SHM_STAT
)
|
IPCOP_MASK
(
IPC_STAT
)))
{
int
err2
=
put_user
(
s
.
shm_perm
.
key
,
&
up
->
shm_perm
.
key
);
err2
|=
__put_user
(
high2lowuid
(
s
.
shm_perm
.
uid
),
&
up
->
shm_perm
.
uid
);
err2
|=
__put_user
(
high2lowgid
(
s
.
shm_perm
.
gid
),
&
up
->
shm_perm
.
gid
);
err2
|=
__put_user
(
high2lowuid
(
s
.
shm_perm
.
cuid
),
&
up
->
shm_perm
.
cuid
);
err2
|=
__put_user
(
high2lowgid
(
s
.
shm_perm
.
cgid
),
&
up
->
shm_perm
.
cgid
);
err2
|=
__put_user
(
s
.
shm_perm
.
mode
,
&
up
->
shm_perm
.
mode
);
err2
|=
__put_user
(
s
.
shm_perm
.
seq
,
&
up
->
shm_perm
.
seq
);
err2
|=
__put_user
(
s
.
shm_atime
,
&
up
->
shm_atime
);
err2
|=
__put_user
(
s
.
shm_dtime
,
&
up
->
shm_dtime
);
err2
|=
__put_user
(
s
.
shm_ctime
,
&
up
->
shm_ctime
);
err2
|=
__put_user
(
s
.
shm_segsz
,
&
up
->
shm_segsz
);
err2
|=
__put_user
(
s
.
shm_nattch
,
&
up
->
shm_nattch
);
err2
|=
__put_user
(
s
.
shm_cpid
,
&
up
->
shm_cpid
);
err2
|=
__put_user
(
s
.
shm_lpid
,
&
up
->
shm_lpid
);
if
(
err2
)
err
=
-
EFAULT
;
}
}
else
{
struct
shmid_ds
s
;
struct
shmid_ds32
*
up
=
(
struct
shmid_ds32
*
)
uptr
;
mm_segment_t
old_fs
;
second
&=
~
IPC_64
;
if
(
second
==
IPC_SET
)
{
err
=
get_user
(
s
.
shm_perm
.
uid
,
&
up
->
shm_perm
.
uid
);
err
|=
__get_user
(
s
.
shm_perm
.
gid
,
&
up
->
shm_perm
.
gid
);
err
|=
__get_user
(
s
.
shm_perm
.
mode
,
&
up
->
shm_perm
.
mode
);
if
(
err
)
goto
out
;
}
old_fs
=
get_fs
();
set_fs
(
KERNEL_DS
);
err
=
sys_shmctl
(
first
,
second
,
&
s
);
set_fs
(
old_fs
);
if
(
err
<
0
)
goto
out
;
/* Mask it even in this case so it becomes a CSE. */
if
(
second
==
SHM_INFO
)
{
struct
shm_info32
{
int
used_ids
;
u32
shm_tot
,
shm_rss
,
shm_swp
;
u32
swap_attempts
,
swap_successes
;
}
*
uip
=
(
struct
shm_info32
*
)
uptr
;
struct
shm_info
*
kp
=
(
struct
shm_info
*
)
&
s
;
int
err2
=
put_user
(
kp
->
used_ids
,
&
uip
->
used_ids
);
err2
|=
__put_user
(
kp
->
shm_tot
,
&
uip
->
shm_tot
);
err2
|=
__put_user
(
kp
->
shm_rss
,
&
uip
->
shm_rss
);
err2
|=
__put_user
(
kp
->
shm_swp
,
&
uip
->
shm_swp
);
err2
|=
__put_user
(
kp
->
swap_attempts
,
&
uip
->
swap_attempts
);
err2
|=
__put_user
(
kp
->
swap_successes
,
&
uip
->
swap_successes
);
if
(
err2
)
err
=
-
EFAULT
;
}
else
if
(
IPCOP_MASK
(
second
)
&
(
IPCOP_MASK
(
SHM_STAT
)
|
IPCOP_MASK
(
IPC_STAT
)))
{
int
err2
=
put_user
(
s
.
shm_perm
.
key
,
&
up
->
shm_perm
.
key
);
err2
|=
__put_user
(
high2lowuid
(
s
.
shm_perm
.
uid
),
&
up
->
shm_perm
.
uid
);
err2
|=
__put_user
(
high2lowgid
(
s
.
shm_perm
.
gid
),
&
up
->
shm_perm
.
gid
);
err2
|=
__put_user
(
high2lowuid
(
s
.
shm_perm
.
cuid
),
&
up
->
shm_perm
.
cuid
);
err2
|=
__put_user
(
high2lowgid
(
s
.
shm_perm
.
cgid
),
&
up
->
shm_perm
.
cgid
);
err2
|=
__put_user
(
s
.
shm_perm
.
mode
,
&
up
->
shm_perm
.
mode
);
err2
|=
__put_user
(
s
.
shm_perm
.
seq
,
&
up
->
shm_perm
.
seq
);
err2
|=
__put_user
(
s
.
shm_atime
,
&
up
->
shm_atime
);
err2
|=
__put_user
(
s
.
shm_dtime
,
&
up
->
shm_dtime
);
err2
|=
__put_user
(
s
.
shm_ctime
,
&
up
->
shm_ctime
);
err2
|=
__put_user
(
s
.
shm_segsz
,
&
up
->
shm_segsz
);
err2
|=
__put_user
(
s
.
shm_nattch
,
&
up
->
shm_nattch
);
err2
|=
__put_user
(
s
.
shm_cpid
,
&
up
->
shm_cpid
);
err2
|=
__put_user
(
s
.
shm_lpid
,
&
up
->
shm_lpid
);
if
(
err2
)
err
=
-
EFAULT
;
}
}
out:
return
err
;
}
asmlinkage
int
sys32_ipc
(
u32
call
,
int
first
,
int
second
,
int
third
,
u32
ptr
,
u32
fifth
)
{
int
version
,
err
;
version
=
call
>>
16
;
/* hack for backward compatibility */
call
&=
0xffff
;
if
(
version
)
return
-
EINVAL
;
if
(
call
<=
SEMCTL
)
switch
(
call
)
{
case
SEMOP
:
/* struct sembuf is the same on 32 and 64bit :)) */
err
=
sys_semop
(
first
,
(
struct
sembuf
*
)
AA
(
ptr
),
second
);
goto
out
;
case
SEMGET
:
err
=
sys_semget
(
first
,
second
,
third
);
goto
out
;
case
SEMCTL
:
err
=
do_sys32_semctl
(
first
,
second
,
third
,
(
void
*
)
AA
(
ptr
));
goto
out
;
default:
err
=
-
EINVAL
;
goto
out
;
};
if
(
call
<=
MSGCTL
)
switch
(
call
)
{
case
MSGSND
:
err
=
do_sys32_msgsnd
(
first
,
second
,
third
,
(
void
*
)
AA
(
ptr
));
goto
out
;
case
MSGRCV
:
err
=
do_sys32_msgrcv
(
first
,
second
,
0
,
third
,
version
,
(
void
*
)
AA
(
ptr
));
goto
out
;
case
MSGGET
:
err
=
sys_msgget
((
key_t
)
first
,
second
);
goto
out
;
case
MSGCTL
:
err
=
do_sys32_msgctl
(
first
,
second
,
(
void
*
)
AA
(
ptr
));
goto
out
;
default:
err
=
-
EINVAL
;
goto
out
;
}
if
(
call
<=
SHMCTL
)
switch
(
call
)
{
case
SHMAT
:
err
=
do_sys32_shmat
(
first
,
second
,
third
,
version
,
(
void
*
)
AA
(
ptr
));
goto
out
;
case
SHMDT
:
err
=
sys_shmdt
((
char
*
)
AA
(
ptr
));
goto
out
;
case
SHMGET
:
err
=
sys_shmget
(
first
,
second
,
third
);
goto
out
;
case
SHMCTL
:
err
=
do_sys32_shmctl
(
first
,
second
,
(
void
*
)
AA
(
ptr
));
goto
out
;
default:
err
=
-
EINVAL
;
goto
out
;
}
err
=
-
EINVAL
;
out:
return
err
;
}
extern
asmlinkage
long
sys_truncate
(
const
char
*
path
,
unsigned
long
length
);
extern
asmlinkage
long
sys_ftruncate
(
unsigned
int
fd
,
unsigned
long
length
);
asmlinkage
int
sys32_truncate64
(
const
char
*
path
,
unsigned
long
high
,
unsigned
long
low
)
{
if
((
int
)
high
<
0
)
return
-
EINVAL
;
else
return
sys_truncate
(
path
,
(
high
<<
32
)
|
low
);
}
asmlinkage
int
sys32_ftruncate64
(
unsigned
int
fd
,
unsigned
long
high
,
unsigned
long
low
)
{
if
((
int
)
high
<
0
)
return
-
EINVAL
;
else
return
sys_ftruncate
(
fd
,
(
high
<<
32
)
|
low
);
}
typedef
ssize_t
(
*
io_fn_t
)(
struct
file
*
,
char
*
,
size_t
,
loff_t
*
);
typedef
ssize_t
(
*
iov_fn_t
)(
struct
file
*
,
const
struct
iovec
*
,
unsigned
long
,
loff_t
*
);
static
long
do_readv_writev32
(
int
type
,
struct
file
*
file
,
const
struct
compat_iovec
*
vector
,
u32
count
)
{
unsigned
long
tot_len
;
struct
iovec
iovstack
[
UIO_FASTIOV
];
struct
iovec
*
iov
=
iovstack
,
*
ivp
;
struct
inode
*
inode
;
long
retval
,
i
;
io_fn_t
fn
;
iov_fn_t
fnv
;
/* First get the "struct iovec" from user memory and
* verify all the pointers
*/
if
(
!
count
)
return
0
;
if
(
verify_area
(
VERIFY_READ
,
vector
,
sizeof
(
struct
compat_iovec
)
*
count
))
return
-
EFAULT
;
if
(
count
>
UIO_MAXIOV
)
return
-
EINVAL
;
if
(
count
>
UIO_FASTIOV
)
{
iov
=
kmalloc
(
count
*
sizeof
(
struct
iovec
),
GFP_KERNEL
);
if
(
!
iov
)
return
-
ENOMEM
;
}
tot_len
=
0
;
i
=
count
;
ivp
=
iov
;
while
(
i
>
0
)
{
u32
len
;
u32
buf
;
__get_user
(
len
,
&
vector
->
iov_len
);
__get_user
(
buf
,
&
vector
->
iov_base
);
tot_len
+=
len
;
ivp
->
iov_base
=
(
void
*
)
A
(
buf
);
ivp
->
iov_len
=
(
__kernel_size_t
)
len
;
vector
++
;
ivp
++
;
i
--
;
}
inode
=
file
->
f_dentry
->
d_inode
;
/* VERIFY_WRITE actually means a read, as we write to user space */
retval
=
locks_verify_area
((
type
==
VERIFY_WRITE
?
FLOCK_VERIFY_READ
:
FLOCK_VERIFY_WRITE
),
inode
,
file
,
file
->
f_pos
,
tot_len
);
if
(
retval
)
goto
out
;
/* VERIFY_WRITE actually means a read, as we write to user space */
fnv
=
(
type
==
VERIFY_WRITE
?
file
->
f_op
->
readv
:
file
->
f_op
->
writev
);
if
(
fnv
)
{
retval
=
fnv
(
file
,
iov
,
count
,
&
file
->
f_pos
);
goto
out
;
}
fn
=
(
type
==
VERIFY_WRITE
?
file
->
f_op
->
read
:
(
io_fn_t
)
file
->
f_op
->
write
);
ivp
=
iov
;
while
(
count
>
0
)
{
void
*
base
;
int
len
,
nr
;
base
=
ivp
->
iov_base
;
len
=
ivp
->
iov_len
;
ivp
++
;
count
--
;
nr
=
fn
(
file
,
base
,
len
,
&
file
->
f_pos
);
if
(
nr
<
0
)
{
if
(
!
retval
)
retval
=
nr
;
break
;
}
retval
+=
nr
;
if
(
nr
!=
len
)
break
;
}
out:
if
(
iov
!=
iovstack
)
kfree
(
iov
);
return
retval
;
}
asmlinkage
long
sys32_readv
(
int
fd
,
struct
compat_iovec
*
vector
,
u32
count
)
{
struct
file
*
file
;
long
ret
=
-
EBADF
;
file
=
fget
(
fd
);
if
(
!
file
)
goto
bad_file
;
if
(
file
->
f_op
&&
(
file
->
f_mode
&
FMODE_READ
)
&&
(
file
->
f_op
->
readv
||
file
->
f_op
->
read
))
ret
=
do_readv_writev32
(
VERIFY_WRITE
,
file
,
vector
,
count
);
fput
(
file
);
bad_file:
return
ret
;
}
asmlinkage
long
sys32_writev
(
int
fd
,
struct
compat_iovec
*
vector
,
u32
count
)
{
struct
file
*
file
;
int
ret
=
-
EBADF
;
file
=
fget
(
fd
);
if
(
!
file
)
goto
bad_file
;
if
(
file
->
f_op
&&
(
file
->
f_mode
&
FMODE_WRITE
)
&&
(
file
->
f_op
->
writev
||
file
->
f_op
->
write
))
ret
=
do_readv_writev32
(
VERIFY_READ
,
file
,
vector
,
count
);
fput
(
file
);
bad_file:
return
ret
;
}
/* readdir & getdents */
#define NAME_OFFSET(de) ((int) ((de)->d_name - (char *) (de)))
#define ROUND_UP(x) (((x)+sizeof(u32)-1) & ~(sizeof(u32)-1))
struct
old_linux_dirent32
{
u32
d_ino
;
u32
d_offset
;
unsigned
short
d_namlen
;
char
d_name
[
1
];
};
struct
readdir_callback32
{
struct
old_linux_dirent32
*
dirent
;
int
count
;
};
static
int
fillonedir
(
void
*
__buf
,
const
char
*
name
,
int
namlen
,
loff_t
offset
,
ino_t
ino
,
unsigned
int
d_type
)
{
struct
readdir_callback32
*
buf
=
(
struct
readdir_callback32
*
)
__buf
;
struct
old_linux_dirent32
*
dirent
;
if
(
buf
->
count
)
return
-
EINVAL
;
buf
->
count
++
;
dirent
=
buf
->
dirent
;
put_user
(
ino
,
&
dirent
->
d_ino
);
put_user
(
offset
,
&
dirent
->
d_offset
);
put_user
(
namlen
,
&
dirent
->
d_namlen
);
copy_to_user
(
dirent
->
d_name
,
name
,
namlen
);
put_user
(
0
,
dirent
->
d_name
+
namlen
);
return
0
;
}
asmlinkage
int
old32_readdir
(
unsigned
int
fd
,
struct
old_linux_dirent32
*
dirent
,
unsigned
int
count
)
{
int
error
=
-
EBADF
;
struct
file
*
file
;
struct
readdir_callback32
buf
;
file
=
fget
(
fd
);
if
(
!
file
)
goto
out
;
buf
.
count
=
0
;
buf
.
dirent
=
dirent
;
error
=
vfs_readdir
(
file
,
fillonedir
,
&
buf
);
if
(
error
<
0
)
goto
out_putf
;
error
=
buf
.
count
;
out_putf:
fput
(
file
);
out:
return
error
;
}
struct
linux_dirent32
{
u32
d_ino
;
u32
d_off
;
unsigned
short
d_reclen
;
char
d_name
[
1
];
};
struct
getdents_callback32
{
struct
linux_dirent32
*
current_dir
;
struct
linux_dirent32
*
previous
;
int
count
;
int
error
;
};
static
int
filldir
(
void
*
__buf
,
const
char
*
name
,
int
namlen
,
loff_t
offset
,
ino_t
ino
,
unsigned
int
d_type
)
{
struct
linux_dirent32
*
dirent
;
struct
getdents_callback32
*
buf
=
(
struct
getdents_callback32
*
)
__buf
;
int
reclen
=
ROUND_UP
(
NAME_OFFSET
(
dirent
)
+
namlen
+
1
);
buf
->
error
=
-
EINVAL
;
/* only used if we fail.. */
if
(
reclen
>
buf
->
count
)
return
-
EINVAL
;
dirent
=
buf
->
previous
;
if
(
dirent
)
put_user
(
offset
,
&
dirent
->
d_off
);
dirent
=
buf
->
current_dir
;
buf
->
previous
=
dirent
;
put_user
(
ino
,
&
dirent
->
d_ino
);
put_user
(
reclen
,
&
dirent
->
d_reclen
);
copy_to_user
(
dirent
->
d_name
,
name
,
namlen
);
put_user
(
0
,
dirent
->
d_name
+
namlen
);
((
char
*
)
dirent
)
+=
reclen
;
buf
->
current_dir
=
dirent
;
buf
->
count
-=
reclen
;
return
0
;
}
asmlinkage
int
sys32_getdents
(
unsigned
int
fd
,
struct
linux_dirent32
*
dirent
,
unsigned
int
count
)
{
struct
file
*
file
;
struct
linux_dirent32
*
lastdirent
;
struct
getdents_callback32
buf
;
int
error
=
-
EBADF
;
file
=
fget
(
fd
);
if
(
!
file
)
goto
out
;
buf
.
current_dir
=
dirent
;
buf
.
previous
=
NULL
;
buf
.
count
=
count
;
buf
.
error
=
0
;
error
=
vfs_readdir
(
file
,
filldir
,
&
buf
);
if
(
error
<
0
)
goto
out_putf
;
lastdirent
=
buf
.
previous
;
error
=
buf
.
error
;
if
(
lastdirent
)
{
put_user
(
file
->
f_pos
,
&
lastdirent
->
d_off
);
error
=
count
-
buf
.
count
;
}
out_putf:
fput
(
file
);
out:
return
error
;
}
/* end of readdir & getdents */
/*
* Ooo, nasty. We need here to frob 32-bit unsigned longs to
* 64-bit unsigned longs.
*/
static
inline
int
get_fd_set32
(
unsigned
long
n
,
unsigned
long
*
fdset
,
u32
*
ufdset
)
{
if
(
ufdset
)
{
unsigned
long
odd
;
if
(
verify_area
(
VERIFY_WRITE
,
ufdset
,
n
*
sizeof
(
u32
)))
return
-
EFAULT
;
odd
=
n
&
1UL
;
n
&=
~
1UL
;
while
(
n
)
{
unsigned
long
h
,
l
;
__get_user
(
l
,
ufdset
);
__get_user
(
h
,
ufdset
+
1
);
ufdset
+=
2
;
*
fdset
++
=
h
<<
32
|
l
;
n
-=
2
;
}
if
(
odd
)
__get_user
(
*
fdset
,
ufdset
);
}
else
{
/* Tricky, must clear full unsigned long in the
* kernel fdset at the end, this makes sure that
* actually happens.
*/
memset
(
fdset
,
0
,
((
n
+
1
)
&
~
1
)
*
sizeof
(
u32
));
}
return
0
;
}
static
inline
void
set_fd_set32
(
unsigned
long
n
,
u32
*
ufdset
,
unsigned
long
*
fdset
)
{
unsigned
long
odd
;
if
(
!
ufdset
)
return
;
odd
=
n
&
1UL
;
n
&=
~
1UL
;
while
(
n
)
{
unsigned
long
h
,
l
;
l
=
*
fdset
++
;
h
=
l
>>
32
;
__put_user
(
l
,
ufdset
);
__put_user
(
h
,
ufdset
+
1
);
ufdset
+=
2
;
n
-=
2
;
}
if
(
odd
)
__put_user
(
*
fdset
,
ufdset
);
}
#define MAX_SELECT_SECONDS \
((unsigned long) (MAX_SCHEDULE_TIMEOUT / HZ)-1)
asmlinkage
int
sys32_select
(
int
n
,
u32
*
inp
,
u32
*
outp
,
u32
*
exp
,
u32
tvp_x
)
{
fd_set_bits
fds
;
struct
compat_timeval
*
tvp
=
(
struct
compat_timeval
*
)
AA
(
tvp_x
);
char
*
bits
;
unsigned
long
nn
;
long
timeout
;
int
ret
,
size
;
timeout
=
MAX_SCHEDULE_TIMEOUT
;
if
(
tvp
)
{
int
sec
,
usec
;
if
((
ret
=
verify_area
(
VERIFY_READ
,
tvp
,
sizeof
(
*
tvp
)))
||
(
ret
=
__get_user
(
sec
,
&
tvp
->
tv_sec
))
||
(
ret
=
__get_user
(
usec
,
&
tvp
->
tv_usec
)))
goto
out_nofds
;
ret
=
-
EINVAL
;
if
(
sec
<
0
||
usec
<
0
)
goto
out_nofds
;
if
((
unsigned
long
)
sec
<
MAX_SELECT_SECONDS
)
{
timeout
=
(
usec
+
1000000
/
HZ
-
1
)
/
(
1000000
/
HZ
);
timeout
+=
sec
*
(
unsigned
long
)
HZ
;
}
}
ret
=
-
EINVAL
;
if
(
n
<
0
)
goto
out_nofds
;
if
(
n
>
current
->
files
->
max_fdset
)
n
=
current
->
files
->
max_fdset
;
/*
* We need 6 bitmaps (in/out/ex for both incoming and outgoing),
* since we used fdset we need to allocate memory in units of
* long-words.
*/
ret
=
-
ENOMEM
;
size
=
FDS_BYTES
(
n
);
bits
=
kmalloc
(
6
*
size
,
GFP_KERNEL
);
if
(
!
bits
)
goto
out_nofds
;
fds
.
in
=
(
unsigned
long
*
)
bits
;
fds
.
out
=
(
unsigned
long
*
)
(
bits
+
size
);
fds
.
ex
=
(
unsigned
long
*
)
(
bits
+
2
*
size
);
fds
.
res_in
=
(
unsigned
long
*
)
(
bits
+
3
*
size
);
fds
.
res_out
=
(
unsigned
long
*
)
(
bits
+
4
*
size
);
fds
.
res_ex
=
(
unsigned
long
*
)
(
bits
+
5
*
size
);
nn
=
(
n
+
8
*
sizeof
(
u32
)
-
1
)
/
(
8
*
sizeof
(
u32
));
if
((
ret
=
get_fd_set32
(
nn
,
fds
.
in
,
inp
))
||
(
ret
=
get_fd_set32
(
nn
,
fds
.
out
,
outp
))
||
(
ret
=
get_fd_set32
(
nn
,
fds
.
ex
,
exp
)))
goto
out
;
zero_fd_set
(
n
,
fds
.
res_in
);
zero_fd_set
(
n
,
fds
.
res_out
);
zero_fd_set
(
n
,
fds
.
res_ex
);
ret
=
do_select
(
n
,
&
fds
,
&
timeout
);
if
(
tvp
&&
!
(
current
->
personality
&
STICKY_TIMEOUTS
))
{
int
sec
=
0
,
usec
=
0
;
if
(
timeout
)
{
sec
=
timeout
/
HZ
;
usec
=
timeout
%
HZ
;
usec
*=
(
1000000
/
HZ
);
}
put_user
(
sec
,
&
tvp
->
tv_sec
);
put_user
(
usec
,
&
tvp
->
tv_usec
);
}
if
(
ret
<
0
)
goto
out
;
if
(
!
ret
)
{
ret
=
-
ERESTARTNOHAND
;
if
(
signal_pending
(
current
))
goto
out
;
ret
=
0
;
}
set_fd_set32
(
nn
,
inp
,
fds
.
res_in
);
set_fd_set32
(
nn
,
outp
,
fds
.
res_out
);
set_fd_set32
(
nn
,
exp
,
fds
.
res_ex
);
out:
kfree
(
bits
);
out_nofds:
return
ret
;
}
int
cp_compat_stat
(
struct
kstat
*
stat
,
struct
compat_stat
*
statbuf
)
{
int
err
;
err
=
put_user
(
stat
->
dev
,
&
statbuf
->
st_dev
);
err
|=
put_user
(
stat
->
ino
,
&
statbuf
->
st_ino
);
err
|=
put_user
(
stat
->
mode
,
&
statbuf
->
st_mode
);
err
|=
put_user
(
stat
->
nlink
,
&
statbuf
->
st_nlink
);
err
|=
put_user
(
high2lowuid
(
stat
->
uid
),
&
statbuf
->
st_uid
);
err
|=
put_user
(
high2lowgid
(
stat
->
gid
),
&
statbuf
->
st_gid
);
err
|=
put_user
(
stat
->
rdev
,
&
statbuf
->
st_rdev
);
err
|=
put_user
(
stat
->
size
,
&
statbuf
->
st_size
);
err
|=
put_user
(
stat
->
atime
.
tv_sec
,
&
statbuf
->
st_atime
);
err
|=
put_user
(
stat
->
atime
.
tv_nsec
,
&
statbuf
->
st_atime_nsec
);
err
|=
put_user
(
stat
->
mtime
.
tv_sec
,
&
statbuf
->
st_mtime
);
err
|=
put_user
(
stat
->
mtime
.
tv_nsec
,
&
statbuf
->
st_mtime_nsec
);
err
|=
put_user
(
stat
->
ctime
.
tv_sec
,
&
statbuf
->
st_ctime
);
err
|=
put_user
(
stat
->
ctime
.
tv_nsec
,
&
statbuf
->
st_ctime_nsec
);
err
|=
put_user
(
stat
->
blksize
,
&
statbuf
->
st_blksize
);
err
|=
put_user
(
stat
->
blocks
,
&
statbuf
->
st_blocks
);
/* fixme
err |= put_user(0, &statbuf->__unused4[0]);
err |= put_user(0, &statbuf->__unused4[1]);
*/
return
err
;
}
extern
asmlinkage
int
sys_sysfs
(
int
option
,
unsigned
long
arg1
,
unsigned
long
arg2
);
asmlinkage
int
sys32_sysfs
(
int
option
,
u32
arg1
,
u32
arg2
)
{
return
sys_sysfs
(
option
,
arg1
,
arg2
);
}
struct
ncp_mount_data32
{
int
version
;
unsigned
int
ncp_fd
;
compat_uid_t
mounted_uid
;
compat_pid_t
wdog_pid
;
unsigned
char
mounted_vol
[
NCP_VOLNAME_LEN
+
1
];
unsigned
int
time_out
;
unsigned
int
retry_count
;
unsigned
int
flags
;
compat_uid_t
uid
;
compat_gid_t
gid
;
compat_mode_t
file_mode
;
compat_mode_t
dir_mode
;
};
static
void
*
do_ncp_super_data_conv
(
void
*
raw_data
)
{
struct
ncp_mount_data
*
n
=
(
struct
ncp_mount_data
*
)
raw_data
;
struct
ncp_mount_data32
*
n32
=
(
struct
ncp_mount_data32
*
)
raw_data
;
n
->
dir_mode
=
n32
->
dir_mode
;
n
->
file_mode
=
n32
->
file_mode
;
n
->
gid
=
low2highgid
(
n32
->
gid
);
n
->
uid
=
low2highuid
(
n32
->
uid
);
memmove
(
n
->
mounted_vol
,
n32
->
mounted_vol
,
(
sizeof
(
n32
->
mounted_vol
)
+
3
*
sizeof
(
unsigned
int
)));
n
->
wdog_pid
=
n32
->
wdog_pid
;
n
->
mounted_uid
=
low2highuid
(
n32
->
mounted_uid
);
return
raw_data
;
}
struct
smb_mount_data32
{
int
version
;
compat_uid_t
mounted_uid
;
compat_uid_t
uid
;
compat_gid_t
gid
;
compat_mode_t
file_mode
;
compat_mode_t
dir_mode
;
};
static
void
*
do_smb_super_data_conv
(
void
*
raw_data
)
{
struct
smb_mount_data
*
s
=
(
struct
smb_mount_data
*
)
raw_data
;
struct
smb_mount_data32
*
s32
=
(
struct
smb_mount_data32
*
)
raw_data
;
if
(
s32
->
version
!=
SMB_MOUNT_OLDVERSION
)
goto
out
;
s
->
version
=
s32
->
version
;
s
->
mounted_uid
=
low2highuid
(
s32
->
mounted_uid
);
s
->
uid
=
low2highuid
(
s32
->
uid
);
s
->
gid
=
low2highgid
(
s32
->
gid
);
s
->
file_mode
=
s32
->
file_mode
;
s
->
dir_mode
=
s32
->
dir_mode
;
out:
return
raw_data
;
}
static
int
copy_mount_stuff_to_kernel
(
const
void
*
user
,
unsigned
long
*
kernel
)
{
int
i
;
unsigned
long
page
;
struct
vm_area_struct
*
vma
;
*
kernel
=
0
;
if
(
!
user
)
return
0
;
vma
=
find_vma
(
current
->
mm
,
(
unsigned
long
)
user
);
if
(
!
vma
||
(
unsigned
long
)
user
<
vma
->
vm_start
)
return
-
EFAULT
;
if
(
!
(
vma
->
vm_flags
&
VM_READ
))
return
-
EFAULT
;
i
=
vma
->
vm_end
-
(
unsigned
long
)
user
;
if
(
PAGE_SIZE
<=
(
unsigned
long
)
i
)
i
=
PAGE_SIZE
-
1
;
if
(
!
(
page
=
__get_free_page
(
GFP_KERNEL
)))
return
-
ENOMEM
;
if
(
copy_from_user
((
void
*
)
page
,
user
,
i
))
{
free_page
(
page
);
return
-
EFAULT
;
}
*
kernel
=
page
;
return
0
;
}
#define SMBFS_NAME "smbfs"
#define NCPFS_NAME "ncpfs"
asmlinkage
int
sys32_mount
(
char
*
dev_name
,
char
*
dir_name
,
char
*
type
,
unsigned
long
new_flags
,
u32
data
)
{
unsigned
long
type_page
=
0
;
unsigned
long
data_page
=
0
;
unsigned
long
dev_page
=
0
;
unsigned
long
dir_page
=
0
;
int
err
,
is_smb
,
is_ncp
;
is_smb
=
is_ncp
=
0
;
err
=
copy_mount_stuff_to_kernel
((
const
void
*
)
type
,
&
type_page
);
if
(
err
)
goto
out
;
if
(
!
type_page
)
{
err
=
-
EINVAL
;
goto
out
;
}
is_smb
=
!
strcmp
((
char
*
)
type_page
,
SMBFS_NAME
);
is_ncp
=
!
strcmp
((
char
*
)
type_page
,
NCPFS_NAME
);
err
=
copy_mount_stuff_to_kernel
((
const
void
*
)
AA
(
data
),
&
data_page
);
if
(
err
)
goto
type_out
;
err
=
copy_mount_stuff_to_kernel
(
dev_name
,
&
dev_page
);
if
(
err
)
goto
data_out
;
err
=
copy_mount_stuff_to_kernel
(
dir_name
,
&
dir_page
);
if
(
err
)
goto
dev_out
;
if
(
!
is_smb
&&
!
is_ncp
)
{
lock_kernel
();
err
=
do_mount
((
char
*
)
dev_page
,
(
char
*
)
dir_page
,
(
char
*
)
type_page
,
new_flags
,
(
char
*
)
data_page
);
unlock_kernel
();
}
else
{
if
(
is_ncp
)
do_ncp_super_data_conv
((
void
*
)
data_page
);
else
do_smb_super_data_conv
((
void
*
)
data_page
);
lock_kernel
();
err
=
do_mount
((
char
*
)
dev_page
,
(
char
*
)
dir_page
,
(
char
*
)
type_page
,
new_flags
,
(
char
*
)
data_page
);
unlock_kernel
();
}
free_page
(
dir_page
);
dev_out:
free_page
(
dev_page
);
data_out:
free_page
(
data_page
);
type_out:
free_page
(
type_page
);
out:
return
err
;
}
struct
rusage32
{
struct
compat_timeval
ru_utime
;
struct
compat_timeval
ru_stime
;
s32
ru_maxrss
;
s32
ru_ixrss
;
s32
ru_idrss
;
s32
ru_isrss
;
s32
ru_minflt
;
s32
ru_majflt
;
s32
ru_nswap
;
s32
ru_inblock
;
s32
ru_oublock
;
s32
ru_msgsnd
;
s32
ru_msgrcv
;
s32
ru_nsignals
;
s32
ru_nvcsw
;
s32
ru_nivcsw
;
};
static
int
put_rusage
(
struct
rusage32
*
ru
,
struct
rusage
*
r
)
{
int
err
;
err
=
put_user
(
r
->
ru_utime
.
tv_sec
,
&
ru
->
ru_utime
.
tv_sec
);
err
|=
__put_user
(
r
->
ru_utime
.
tv_usec
,
&
ru
->
ru_utime
.
tv_usec
);
err
|=
__put_user
(
r
->
ru_stime
.
tv_sec
,
&
ru
->
ru_stime
.
tv_sec
);
err
|=
__put_user
(
r
->
ru_stime
.
tv_usec
,
&
ru
->
ru_stime
.
tv_usec
);
err
|=
__put_user
(
r
->
ru_maxrss
,
&
ru
->
ru_maxrss
);
err
|=
__put_user
(
r
->
ru_ixrss
,
&
ru
->
ru_ixrss
);
err
|=
__put_user
(
r
->
ru_idrss
,
&
ru
->
ru_idrss
);
err
|=
__put_user
(
r
->
ru_isrss
,
&
ru
->
ru_isrss
);
err
|=
__put_user
(
r
->
ru_minflt
,
&
ru
->
ru_minflt
);
err
|=
__put_user
(
r
->
ru_majflt
,
&
ru
->
ru_majflt
);
err
|=
__put_user
(
r
->
ru_nswap
,
&
ru
->
ru_nswap
);
err
|=
__put_user
(
r
->
ru_inblock
,
&
ru
->
ru_inblock
);
err
|=
__put_user
(
r
->
ru_oublock
,
&
ru
->
ru_oublock
);
err
|=
__put_user
(
r
->
ru_msgsnd
,
&
ru
->
ru_msgsnd
);
err
|=
__put_user
(
r
->
ru_msgrcv
,
&
ru
->
ru_msgrcv
);
err
|=
__put_user
(
r
->
ru_nsignals
,
&
ru
->
ru_nsignals
);
err
|=
__put_user
(
r
->
ru_nvcsw
,
&
ru
->
ru_nvcsw
);
err
|=
__put_user
(
r
->
ru_nivcsw
,
&
ru
->
ru_nivcsw
);
return
err
;
}
asmlinkage
int
sys32_wait4
(
compat_pid_t
pid
,
unsigned
int
*
stat_addr
,
int
options
,
struct
rusage32
*
ru
)
{
if
(
!
ru
)
return
sys_wait4
(
pid
,
stat_addr
,
options
,
NULL
);
else
{
struct
rusage
r
;
int
ret
;
unsigned
int
status
;
mm_segment_t
old_fs
=
get_fs
();
set_fs
(
KERNEL_DS
);
ret
=
sys_wait4
(
pid
,
stat_addr
?
&
status
:
NULL
,
options
,
&
r
);
set_fs
(
old_fs
);
if
(
put_rusage
(
ru
,
&
r
))
return
-
EFAULT
;
if
(
stat_addr
&&
put_user
(
status
,
stat_addr
))
return
-
EFAULT
;
return
ret
;
}
}
struct
sysinfo32
{
s32
uptime
;
u32
loads
[
3
];
u32
totalram
;
u32
freeram
;
u32
sharedram
;
u32
bufferram
;
u32
totalswap
;
u32
freeswap
;
unsigned
short
procs
;
char
_f
[
22
];
};
extern
asmlinkage
int
sys_sysinfo
(
struct
sysinfo
*
info
);
asmlinkage
int
sys32_sysinfo
(
struct
sysinfo32
*
info
)
{
struct
sysinfo
s
;
int
ret
,
err
;
mm_segment_t
old_fs
=
get_fs
();
set_fs
(
KERNEL_DS
);
ret
=
sys_sysinfo
(
&
s
);
set_fs
(
old_fs
);
err
=
put_user
(
s
.
uptime
,
&
info
->
uptime
);
err
|=
__put_user
(
s
.
loads
[
0
],
&
info
->
loads
[
0
]);
err
|=
__put_user
(
s
.
loads
[
1
],
&
info
->
loads
[
1
]);
err
|=
__put_user
(
s
.
loads
[
2
],
&
info
->
loads
[
2
]);
err
|=
__put_user
(
s
.
totalram
,
&
info
->
totalram
);
err
|=
__put_user
(
s
.
freeram
,
&
info
->
freeram
);
err
|=
__put_user
(
s
.
sharedram
,
&
info
->
sharedram
);
err
|=
__put_user
(
s
.
bufferram
,
&
info
->
bufferram
);
err
|=
__put_user
(
s
.
totalswap
,
&
info
->
totalswap
);
err
|=
__put_user
(
s
.
freeswap
,
&
info
->
freeswap
);
err
|=
__put_user
(
s
.
procs
,
&
info
->
procs
);
if
(
err
)
return
-
EFAULT
;
return
ret
;
}
extern
asmlinkage
int
sys_sched_rr_get_interval
(
pid_t
pid
,
struct
timespec
*
interval
);
asmlinkage
int
sys32_sched_rr_get_interval
(
compat_pid_t
pid
,
struct
compat_timespec
*
interval
)
{
struct
timespec
t
;
int
ret
;
mm_segment_t
old_fs
=
get_fs
();
set_fs
(
KERNEL_DS
);
ret
=
sys_sched_rr_get_interval
(
pid
,
&
t
);
set_fs
(
old_fs
);
if
(
put_compat_timespec
(
&
t
,
interval
))
return
-
EFAULT
;
return
ret
;
}
extern
asmlinkage
int
sys_rt_sigprocmask
(
int
how
,
sigset_t
*
set
,
sigset_t
*
oset
,
size_t
sigsetsize
);
asmlinkage
int
sys32_rt_sigprocmask
(
int
how
,
compat_sigset_t
*
set
,
compat_sigset_t
*
oset
,
compat_size_t
sigsetsize
)
{
sigset_t
s
;
compat_sigset_t
s32
;
int
ret
;
mm_segment_t
old_fs
=
get_fs
();
if
(
set
)
{
if
(
copy_from_user
(
&
s32
,
set
,
sizeof
(
compat_sigset_t
)))
return
-
EFAULT
;
switch
(
_NSIG_WORDS
)
{
case
4
:
s
.
sig
[
3
]
=
s32
.
sig
[
6
]
|
(((
long
)
s32
.
sig
[
7
])
<<
32
);
case
3
:
s
.
sig
[
2
]
=
s32
.
sig
[
4
]
|
(((
long
)
s32
.
sig
[
5
])
<<
32
);
case
2
:
s
.
sig
[
1
]
=
s32
.
sig
[
2
]
|
(((
long
)
s32
.
sig
[
3
])
<<
32
);
case
1
:
s
.
sig
[
0
]
=
s32
.
sig
[
0
]
|
(((
long
)
s32
.
sig
[
1
])
<<
32
);
}
}
set_fs
(
KERNEL_DS
);
ret
=
sys_rt_sigprocmask
(
how
,
set
?
&
s
:
NULL
,
oset
?
&
s
:
NULL
,
sigsetsize
);
set_fs
(
old_fs
);
if
(
ret
)
return
ret
;
if
(
oset
)
{
switch
(
_NSIG_WORDS
)
{
case
4
:
s32
.
sig
[
7
]
=
(
s
.
sig
[
3
]
>>
32
);
s32
.
sig
[
6
]
=
s
.
sig
[
3
];
case
3
:
s32
.
sig
[
5
]
=
(
s
.
sig
[
2
]
>>
32
);
s32
.
sig
[
4
]
=
s
.
sig
[
2
];
case
2
:
s32
.
sig
[
3
]
=
(
s
.
sig
[
1
]
>>
32
);
s32
.
sig
[
2
]
=
s
.
sig
[
1
];
case
1
:
s32
.
sig
[
1
]
=
(
s
.
sig
[
0
]
>>
32
);
s32
.
sig
[
0
]
=
s
.
sig
[
0
];
}
if
(
copy_to_user
(
oset
,
&
s32
,
sizeof
(
compat_sigset_t
)))
return
-
EFAULT
;
}
return
0
;
}
extern
asmlinkage
int
sys_rt_sigpending
(
sigset_t
*
set
,
size_t
sigsetsize
);
asmlinkage
int
sys32_rt_sigpending
(
compat_sigset_t
*
set
,
compat_size_t
sigsetsize
)
{
sigset_t
s
;
compat_sigset_t
s32
;
int
ret
;
mm_segment_t
old_fs
=
get_fs
();
set_fs
(
KERNEL_DS
);
ret
=
sys_rt_sigpending
(
&
s
,
sigsetsize
);
set_fs
(
old_fs
);
if
(
!
ret
)
{
switch
(
_NSIG_WORDS
)
{
case
4
:
s32
.
sig
[
7
]
=
(
s
.
sig
[
3
]
>>
32
);
s32
.
sig
[
6
]
=
s
.
sig
[
3
];
case
3
:
s32
.
sig
[
5
]
=
(
s
.
sig
[
2
]
>>
32
);
s32
.
sig
[
4
]
=
s
.
sig
[
2
];
case
2
:
s32
.
sig
[
3
]
=
(
s
.
sig
[
1
]
>>
32
);
s32
.
sig
[
2
]
=
s
.
sig
[
1
];
case
1
:
s32
.
sig
[
1
]
=
(
s
.
sig
[
0
]
>>
32
);
s32
.
sig
[
0
]
=
s
.
sig
[
0
];
}
if
(
copy_to_user
(
set
,
&
s32
,
sizeof
(
compat_sigset_t
)))
return
-
EFAULT
;
}
return
ret
;
}
extern
int
copy_siginfo_to_user32
(
siginfo_t32
*
to
,
siginfo_t
*
from
);
asmlinkage
int
sys32_rt_sigtimedwait
(
compat_sigset_t
*
uthese
,
siginfo_t32
*
uinfo
,
struct
compat_timespec
*
uts
,
compat_size_t
sigsetsize
)
{
int
ret
,
sig
;
sigset_t
these
;
compat_sigset_t
these32
;
struct
timespec
ts
;
siginfo_t
info
;
long
timeout
=
0
;
/* XXX: Don't preclude handling different sized sigset_t's. */
if
(
sigsetsize
!=
sizeof
(
sigset_t
))
return
-
EINVAL
;
if
(
copy_from_user
(
&
these32
,
uthese
,
sizeof
(
compat_sigset_t
)))
return
-
EFAULT
;
switch
(
_NSIG_WORDS
)
{
case
4
:
these
.
sig
[
3
]
=
these32
.
sig
[
6
]
|
(((
long
)
these32
.
sig
[
7
])
<<
32
);
case
3
:
these
.
sig
[
2
]
=
these32
.
sig
[
4
]
|
(((
long
)
these32
.
sig
[
5
])
<<
32
);
case
2
:
these
.
sig
[
1
]
=
these32
.
sig
[
2
]
|
(((
long
)
these32
.
sig
[
3
])
<<
32
);
case
1
:
these
.
sig
[
0
]
=
these32
.
sig
[
0
]
|
(((
long
)
these32
.
sig
[
1
])
<<
32
);
}
/*
* Invert the set of allowed signals to get those we
* want to block.
*/
sigdelsetmask
(
&
these
,
sigmask
(
SIGKILL
)
|
sigmask
(
SIGSTOP
));
signotset
(
&
these
);
if
(
uts
)
{
if
(
get_compat_timespec
(
&
ts
,
uts
))
return
-
EINVAL
;
if
(
ts
.
tv_nsec
>=
1000000000L
||
ts
.
tv_nsec
<
0
||
ts
.
tv_sec
<
0
)
return
-
EINVAL
;
}
spin_lock_irq
(
&
current
->
sighand
->
siglock
);
sig
=
dequeue_signal
(
current
,
&
these
,
&
info
);
if
(
!
sig
)
{
/* None ready -- temporarily unblock those we're interested
in so that we'll be awakened when they arrive. */
current
->
real_blocked
=
current
->
blocked
;
sigandsets
(
&
current
->
blocked
,
&
current
->
blocked
,
&
these
);
recalc_sigpending
();
spin_unlock_irq
(
&
current
->
sighand
->
siglock
);
timeout
=
MAX_SCHEDULE_TIMEOUT
;
if
(
uts
)
timeout
=
(
timespec_to_jiffies
(
&
ts
)
+
(
ts
.
tv_sec
||
ts
.
tv_nsec
));
current
->
state
=
TASK_INTERRUPTIBLE
;
timeout
=
schedule_timeout
(
timeout
);
spin_lock_irq
(
&
current
->
sighand
->
siglock
);
sig
=
dequeue_signal
(
current
,
&
these
,
&
info
);
current
->
blocked
=
current
->
real_blocked
;
siginitset
(
&
current
->
real_blocked
,
0
);
recalc_sigpending
();
}
spin_unlock_irq
(
&
current
->
sighand
->
siglock
);
if
(
sig
)
{
ret
=
sig
;
if
(
uinfo
)
{
if
(
copy_siginfo_to_user32
(
uinfo
,
&
info
))
ret
=
-
EFAULT
;
}
}
else
{
ret
=
-
EAGAIN
;
if
(
timeout
)
ret
=
-
EINTR
;
}
return
ret
;
}
extern
asmlinkage
int
sys_rt_sigqueueinfo
(
int
pid
,
int
sig
,
siginfo_t
*
uinfo
);
asmlinkage
int
sys32_rt_sigqueueinfo
(
int
pid
,
int
sig
,
siginfo_t32
*
uinfo
)
{
siginfo_t
info
;
int
ret
;
mm_segment_t
old_fs
=
get_fs
();
if
(
copy_from_user
(
&
info
,
uinfo
,
3
*
sizeof
(
int
))
||
copy_from_user
(
info
.
_sifields
.
_pad
,
uinfo
->
_sifields
.
_pad
,
SI_PAD_SIZE
))
return
-
EFAULT
;
set_fs
(
KERNEL_DS
);
ret
=
sys_rt_sigqueueinfo
(
pid
,
sig
,
&
info
);
set_fs
(
old_fs
);
return
ret
;
}
#define RLIM_OLD_INFINITY32 0x7fffffff
#define RLIM_INFINITY32 0xffffffff
#define RESOURCE32_OLD(x) ((x > RLIM_OLD_INFINITY32) ? RLIM_OLD_INFINITY32 : x)
#define RESOURCE32(x) ((x > RLIM_INFINITY32) ? RLIM_INFINITY32 : x)
struct
rlimit32
{
u32
rlim_cur
;
u32
rlim_max
;
};
extern
asmlinkage
long
sys_getrlimit
(
unsigned
int
resource
,
struct
rlimit
*
rlim
);
asmlinkage
int
sys32_old_getrlimit
(
unsigned
int
resource
,
struct
rlimit32
*
rlim
)
{
struct
rlimit
r
;
int
ret
;
mm_segment_t
old_fs
=
get_fs
();
set_fs
(
KERNEL_DS
);
ret
=
sys_getrlimit
(
resource
,
&
r
);
set_fs
(
old_fs
);
if
(
!
ret
)
{
ret
=
put_user
(
RESOURCE32_OLD
(
r
.
rlim_cur
),
&
rlim
->
rlim_cur
);
ret
|=
__put_user
(
RESOURCE32_OLD
(
r
.
rlim_max
),
&
rlim
->
rlim_max
);
}
return
ret
;
}
asmlinkage
int
sys32_getrlimit
(
unsigned
int
resource
,
struct
rlimit32
*
rlim
)
{
struct
rlimit
r
;
int
ret
;
mm_segment_t
old_fs
=
get_fs
();
set_fs
(
KERNEL_DS
);
ret
=
sys_getrlimit
(
resource
,
&
r
);
set_fs
(
old_fs
);
if
(
!
ret
)
{
ret
=
put_user
(
RESOURCE32
(
r
.
rlim_cur
),
&
rlim
->
rlim_cur
);
ret
|=
__put_user
(
RESOURCE32
(
r
.
rlim_max
),
&
rlim
->
rlim_max
);
}
return
ret
;
}
extern
asmlinkage
int
sys_setrlimit
(
unsigned
int
resource
,
struct
rlimit
*
rlim
);
asmlinkage
int
sys32_setrlimit
(
unsigned
int
resource
,
struct
rlimit32
*
rlim
)
{
struct
rlimit
r
;
int
ret
;
mm_segment_t
old_fs
=
get_fs
();
if
(
resource
>=
RLIM_NLIMITS
)
return
-
EINVAL
;
if
(
get_user
(
r
.
rlim_cur
,
&
rlim
->
rlim_cur
)
||
__get_user
(
r
.
rlim_max
,
&
rlim
->
rlim_max
))
return
-
EFAULT
;
if
(
r
.
rlim_cur
==
RLIM_INFINITY32
)
r
.
rlim_cur
=
RLIM_INFINITY
;
if
(
r
.
rlim_max
==
RLIM_INFINITY32
)
r
.
rlim_max
=
RLIM_INFINITY
;
set_fs
(
KERNEL_DS
);
ret
=
sys_setrlimit
(
resource
,
&
r
);
set_fs
(
old_fs
);
return
ret
;
}
extern
asmlinkage
int
sys_getrusage
(
int
who
,
struct
rusage
*
ru
);
asmlinkage
int
sys32_getrusage
(
int
who
,
struct
rusage32
*
ru
)
{
struct
rusage
r
;
int
ret
;
mm_segment_t
old_fs
=
get_fs
();
set_fs
(
KERNEL_DS
);
ret
=
sys_getrusage
(
who
,
&
r
);
set_fs
(
old_fs
);
if
(
put_rusage
(
ru
,
&
r
))
return
-
EFAULT
;
return
ret
;
}
extern
void
check_pending
(
int
signum
);
/*
* count32() counts the number of arguments/envelopes
*/
static
int
count32
(
u32
*
argv
)
{
int
i
=
0
;
if
(
argv
!=
NULL
)
{
for
(;;)
{
u32
p
;
int
error
;
error
=
get_user
(
p
,
argv
);
if
(
error
)
return
error
;
if
(
!
p
)
break
;
argv
++
;
i
++
;
}
}
return
i
;
}
/*
* 'copy_string32()' copies argument/envelope strings from user
* memory to free pages in kernel mem. These are in a format ready
* to be put directly into the top of new user memory.
*/
static
int
copy_strings32
(
int
argc
,
u32
*
argv
,
struct
linux_binprm
*
bprm
)
{
while
(
argc
--
>
0
)
{
u32
str
;
int
len
;
unsigned
long
pos
;
if
(
get_user
(
str
,
argv
+
argc
)
||
!
str
||
!
(
len
=
strnlen_user
((
char
*
)
A
(
str
),
bprm
->
p
)))
return
-
EFAULT
;
if
(
bprm
->
p
<
len
)
return
-
E2BIG
;
bprm
->
p
-=
len
;
pos
=
bprm
->
p
;
while
(
len
)
{
char
*
kaddr
;
struct
page
*
page
;
int
offset
,
bytes_to_copy
,
new
,
err
;
offset
=
pos
%
PAGE_SIZE
;
page
=
bprm
->
page
[
pos
/
PAGE_SIZE
];
new
=
0
;
if
(
!
page
)
{
page
=
alloc_page
(
GFP_USER
);
bprm
->
page
[
pos
/
PAGE_SIZE
]
=
page
;
if
(
!
page
)
return
-
ENOMEM
;
new
=
1
;
}
kaddr
=
(
char
*
)
kmap
(
page
);
if
(
new
&&
offset
)
memset
(
kaddr
,
0
,
offset
);
bytes_to_copy
=
PAGE_SIZE
-
offset
;
if
(
bytes_to_copy
>
len
)
{
bytes_to_copy
=
len
;
if
(
new
)
memset
(
kaddr
+
offset
+
len
,
0
,
PAGE_SIZE
-
offset
-
len
);
}
err
=
copy_from_user
(
kaddr
+
offset
,
(
char
*
)
A
(
str
),
bytes_to_copy
);
kunmap
(
page
);
if
(
err
)
return
-
EFAULT
;
pos
+=
bytes_to_copy
;
str
+=
bytes_to_copy
;
len
-=
bytes_to_copy
;
}
}
return
0
;
}
/*
* sys32_execve() executes a new program.
*/
static
inline
int
do_execve32
(
char
*
filename
,
u32
*
argv
,
u32
*
envp
,
struct
pt_regs
*
regs
)
{
struct
linux_binprm
bprm
;
struct
file
*
file
;
int
retval
;
int
i
;
sched_balance_exec
();
file
=
open_exec
(
filename
);
retval
=
PTR_ERR
(
file
);
if
(
IS_ERR
(
file
))
return
retval
;
bprm
.
p
=
PAGE_SIZE
*
MAX_ARG_PAGES
-
sizeof
(
void
*
);
memset
(
bprm
.
page
,
0
,
MAX_ARG_PAGES
*
sizeof
(
bprm
.
page
[
0
]));
bprm
.
file
=
file
;
bprm
.
filename
=
filename
;
bprm
.
sh_bang
=
0
;
bprm
.
loader
=
0
;
bprm
.
exec
=
0
;
bprm
.
mm
=
mm_alloc
();
retval
=
-
ENOMEM
;
if
(
!
bprm
.
mm
)
goto
out_file
;
/* init_new_context is empty for s390x. */
bprm
.
argc
=
count32
(
argv
);
if
((
retval
=
bprm
.
argc
)
<
0
)
goto
out_mm
;
bprm
.
envc
=
count32
(
envp
);
if
((
retval
=
bprm
.
envc
)
<
0
)
goto
out_mm
;
retval
=
security_bprm_alloc
(
&
bprm
);
if
(
retval
)
goto
out
;
retval
=
prepare_binprm
(
&
bprm
);
if
(
retval
<
0
)
goto
out
;
retval
=
copy_strings_kernel
(
1
,
&
bprm
.
filename
,
&
bprm
);
if
(
retval
<
0
)
goto
out
;
bprm
.
exec
=
bprm
.
p
;
retval
=
copy_strings32
(
bprm
.
envc
,
envp
,
&
bprm
);
if
(
retval
<
0
)
goto
out
;
retval
=
copy_strings32
(
bprm
.
argc
,
argv
,
&
bprm
);
if
(
retval
<
0
)
goto
out
;
retval
=
search_binary_handler
(
&
bprm
,
regs
);
if
(
retval
>=
0
)
{
/* execve success */
security_bprm_free
(
&
bprm
);
return
retval
;
}
out:
/* Something went wrong, return the inode and free the argument pages*/
for
(
i
=
0
;
i
<
MAX_ARG_PAGES
;
i
++
)
{
struct
page
*
page
=
bprm
.
page
[
i
];
if
(
page
)
__free_page
(
page
);
}
if
(
bprm
.
security
)
security_bprm_free
(
&
bprm
);
out_mm:
mmdrop
(
bprm
.
mm
);
out_file:
if
(
bprm
.
file
)
{
allow_write_access
(
bprm
.
file
);
fput
(
bprm
.
file
);
}
return
retval
;
}
/*
* sys32_execve() executes a new program after the asm stub has set
* things up for us. This should basically do what I want it to.
*/
asmlinkage
int
sys32_execve
(
struct
pt_regs
regs
)
{
int
error
;
char
*
filename
;
filename
=
getname
((
char
*
)
A
(
regs
.
orig_gpr2
));
error
=
PTR_ERR
(
filename
);
if
(
IS_ERR
(
filename
))
goto
out
;
error
=
do_execve32
(
filename
,
(
u32
*
)
A
(
regs
.
gprs
[
3
]),
(
u32
*
)
A
(
regs
.
gprs
[
4
]),
&
regs
);
if
(
error
==
0
)
{
current
->
ptrace
&=
~
PT_DTRACE
;
current
->
thread
.
fp_regs
.
fpc
=
0
;
__asm__
__volatile__
(
"sr 0,0
\n\t
"
"sfpc 0,0
\n\t
"
:
:
:
"0"
);
}
putname
(
filename
);
out:
return
error
;
}
#ifdef CONFIG_MODULES
extern
asmlinkage
int
sys_init_module
(
const
char
*
name_user
,
struct
module
*
mod_user
);
/* Hey, when you're trying to init module, take time and prepare us a nice 64bit
* module structure, even if from 32bit modutils... Why to pollute kernel... :))
*/
asmlinkage
int
sys32_init_module
(
const
char
*
name_user
,
struct
module
*
mod_user
)
{
return
sys_init_module
(
name_user
,
mod_user
);
}
extern
asmlinkage
int
sys_delete_module
(
const
char
*
name_user
);
asmlinkage
int
sys32_delete_module
(
const
char
*
name_user
)
{
return
sys_delete_module
(
name_user
);
}
struct
module_info32
{
u32
addr
;
u32
size
;
u32
flags
;
s32
usecount
;
};
#else
/* CONFIG_MODULES */
asmlinkage
int
sys32_init_module
(
const
char
*
name_user
,
struct
module
*
mod_user
)
{
return
-
ENOSYS
;
}
asmlinkage
int
sys32_delete_module
(
const
char
*
name_user
)
{
return
-
ENOSYS
;
}
#endif
/* CONFIG_MODULES */
/* Stuff for NFS server syscalls... */
struct
nfsctl_svc32
{
u16
svc32_port
;
s32
svc32_nthreads
;
};
struct
nfsctl_client32
{
s8
cl32_ident
[
NFSCLNT_IDMAX
+
1
];
s32
cl32_naddr
;
struct
in_addr
cl32_addrlist
[
NFSCLNT_ADDRMAX
];
s32
cl32_fhkeytype
;
s32
cl32_fhkeylen
;
u8
cl32_fhkey
[
NFSCLNT_KEYMAX
];
};
struct
nfsctl_export32
{
s8
ex32_client
[
NFSCLNT_IDMAX
+
1
];
s8
ex32_path
[
NFS_MAXPATHLEN
+
1
];
compat_dev_t
ex32_dev
;
compat_ino_t
ex32_ino
;
s32
ex32_flags
;
compat_uid_t
ex32_anon_uid
;
compat_gid_t
ex32_anon_gid
;
};
struct
nfsctl_fdparm32
{
struct
sockaddr
gd32_addr
;
s8
gd32_path
[
NFS_MAXPATHLEN
+
1
];
s32
gd32_version
;
};
struct
nfsctl_fsparm32
{
struct
sockaddr
gd32_addr
;
s8
gd32_path
[
NFS_MAXPATHLEN
+
1
];
s32
gd32_maxlen
;
};
struct
nfsctl_arg32
{
s32
ca32_version
;
/* safeguard */
union
{
struct
nfsctl_svc32
u32_svc
;
struct
nfsctl_client32
u32_client
;
struct
nfsctl_export32
u32_export
;
struct
nfsctl_fdparm32
u32_getfd
;
struct
nfsctl_fsparm32
u32_getfs
;
}
u
;
#define ca32_svc u.u32_svc
#define ca32_client u.u32_client
#define ca32_export u.u32_export
#define ca32_getfd u.u32_getfd
#define ca32_getfs u.u32_getfs
#define ca32_authd u.u32_authd
};
union
nfsctl_res32
{
__u8
cr32_getfh
[
NFS_FHSIZE
];
struct
knfsd_fh
cr32_getfs
;
};
static
int
nfs_svc32_trans
(
struct
nfsctl_arg
*
karg
,
struct
nfsctl_arg32
*
arg32
)
{
int
err
;
err
=
__get_user
(
karg
->
ca_version
,
&
arg32
->
ca32_version
);
err
|=
__get_user
(
karg
->
ca_svc
.
svc_port
,
&
arg32
->
ca32_svc
.
svc32_port
);
err
|=
__get_user
(
karg
->
ca_svc
.
svc_nthreads
,
&
arg32
->
ca32_svc
.
svc32_nthreads
);
return
err
;
}
static
int
nfs_clnt32_trans
(
struct
nfsctl_arg
*
karg
,
struct
nfsctl_arg32
*
arg32
)
{
int
err
;
err
=
__get_user
(
karg
->
ca_version
,
&
arg32
->
ca32_version
);
err
|=
copy_from_user
(
&
karg
->
ca_client
.
cl_ident
[
0
],
&
arg32
->
ca32_client
.
cl32_ident
[
0
],
NFSCLNT_IDMAX
);
err
|=
__get_user
(
karg
->
ca_client
.
cl_naddr
,
&
arg32
->
ca32_client
.
cl32_naddr
);
err
|=
copy_from_user
(
&
karg
->
ca_client
.
cl_addrlist
[
0
],
&
arg32
->
ca32_client
.
cl32_addrlist
[
0
],
(
sizeof
(
struct
in_addr
)
*
NFSCLNT_ADDRMAX
));
err
|=
__get_user
(
karg
->
ca_client
.
cl_fhkeytype
,
&
arg32
->
ca32_client
.
cl32_fhkeytype
);
err
|=
__get_user
(
karg
->
ca_client
.
cl_fhkeylen
,
&
arg32
->
ca32_client
.
cl32_fhkeylen
);
err
|=
copy_from_user
(
&
karg
->
ca_client
.
cl_fhkey
[
0
],
&
arg32
->
ca32_client
.
cl32_fhkey
[
0
],
NFSCLNT_KEYMAX
);
return
err
;
}
static
int
nfs_exp32_trans
(
struct
nfsctl_arg
*
karg
,
struct
nfsctl_arg32
*
arg32
)
{
int
err
;
err
=
__get_user
(
karg
->
ca_version
,
&
arg32
->
ca32_version
);
err
|=
copy_from_user
(
&
karg
->
ca_export
.
ex_client
[
0
],
&
arg32
->
ca32_export
.
ex32_client
[
0
],
NFSCLNT_IDMAX
);
err
|=
copy_from_user
(
&
karg
->
ca_export
.
ex_path
[
0
],
&
arg32
->
ca32_export
.
ex32_path
[
0
],
NFS_MAXPATHLEN
);
err
|=
__get_user
(
karg
->
ca_export
.
ex_dev
,
&
arg32
->
ca32_export
.
ex32_dev
);
err
|=
__get_user
(
karg
->
ca_export
.
ex_ino
,
&
arg32
->
ca32_export
.
ex32_ino
);
err
|=
__get_user
(
karg
->
ca_export
.
ex_flags
,
&
arg32
->
ca32_export
.
ex32_flags
);
err
|=
__get_user
(
karg
->
ca_export
.
ex_anon_uid
,
&
arg32
->
ca32_export
.
ex32_anon_uid
);
err
|=
__get_user
(
karg
->
ca_export
.
ex_anon_gid
,
&
arg32
->
ca32_export
.
ex32_anon_gid
);
karg
->
ca_export
.
ex_anon_uid
=
high2lowuid
(
karg
->
ca_export
.
ex_anon_uid
);
karg
->
ca_export
.
ex_anon_gid
=
high2lowgid
(
karg
->
ca_export
.
ex_anon_gid
);
return
err
;
}
static
int
nfs_getfd32_trans
(
struct
nfsctl_arg
*
karg
,
struct
nfsctl_arg32
*
arg32
)
{
int
err
;
err
=
__get_user
(
karg
->
ca_version
,
&
arg32
->
ca32_version
);
err
|=
copy_from_user
(
&
karg
->
ca_getfd
.
gd_addr
,
&
arg32
->
ca32_getfd
.
gd32_addr
,
(
sizeof
(
struct
sockaddr
)));
err
|=
copy_from_user
(
&
karg
->
ca_getfd
.
gd_path
,
&
arg32
->
ca32_getfd
.
gd32_path
,
(
NFS_MAXPATHLEN
+
1
));
err
|=
__get_user
(
karg
->
ca_getfd
.
gd_version
,
&
arg32
->
ca32_getfd
.
gd32_version
);
return
err
;
}
static
int
nfs_getfs32_trans
(
struct
nfsctl_arg
*
karg
,
struct
nfsctl_arg32
*
arg32
)
{
int
err
;
err
=
__get_user
(
karg
->
ca_version
,
&
arg32
->
ca32_version
);
err
|=
copy_from_user
(
&
karg
->
ca_getfs
.
gd_addr
,
&
arg32
->
ca32_getfs
.
gd32_addr
,
(
sizeof
(
struct
sockaddr
)));
err
|=
copy_from_user
(
&
karg
->
ca_getfs
.
gd_path
,
&
arg32
->
ca32_getfs
.
gd32_path
,
(
NFS_MAXPATHLEN
+
1
));
err
|=
__get_user
(
karg
->
ca_getfs
.
gd_maxlen
,
&
arg32
->
ca32_getfs
.
gd32_maxlen
);
return
err
;
}
/* This really doesn't need translations, we are only passing
* back a union which contains opaque nfs file handle data.
*/
static
int
nfs_getfh32_res_trans
(
union
nfsctl_res
*
kres
,
union
nfsctl_res32
*
res32
)
{
return
copy_to_user
(
res32
,
kres
,
sizeof
(
*
res32
))
?
-
EFAULT
:
0
;
}
/*
asmlinkage long sys_ni_syscall(void);
*/
int
asmlinkage
sys32_nfsservctl
(
int
cmd
,
struct
nfsctl_arg32
*
arg32
,
union
nfsctl_res32
*
res32
)
{
struct
nfsctl_arg
*
karg
=
NULL
;
union
nfsctl_res
*
kres
=
NULL
;
mm_segment_t
oldfs
;
int
err
;
karg
=
kmalloc
(
sizeof
(
*
karg
),
GFP_USER
);
if
(
!
karg
)
return
-
ENOMEM
;
if
(
res32
)
{
kres
=
kmalloc
(
sizeof
(
*
kres
),
GFP_USER
);
if
(
!
kres
)
{
kfree
(
karg
);
return
-
ENOMEM
;
}
}
switch
(
cmd
)
{
case
NFSCTL_SVC
:
err
=
nfs_svc32_trans
(
karg
,
arg32
);
break
;
case
NFSCTL_ADDCLIENT
:
err
=
nfs_clnt32_trans
(
karg
,
arg32
);
break
;
case
NFSCTL_DELCLIENT
:
err
=
nfs_clnt32_trans
(
karg
,
arg32
);
break
;
case
NFSCTL_EXPORT
:
case
NFSCTL_UNEXPORT
:
err
=
nfs_exp32_trans
(
karg
,
arg32
);
break
;
case
NFSCTL_GETFD
:
err
=
nfs_getfd32_trans
(
karg
,
arg32
);
break
;
case
NFSCTL_GETFS
:
err
=
nfs_getfs32_trans
(
karg
,
arg32
);
break
;
default:
err
=
-
EINVAL
;
break
;
}
if
(
err
)
goto
done
;
oldfs
=
get_fs
();
set_fs
(
KERNEL_DS
);
err
=
sys_nfsservctl
(
cmd
,
karg
,
kres
);
set_fs
(
oldfs
);
if
(
err
)
goto
done
;
if
((
cmd
==
NFSCTL_GETFD
)
||
(
cmd
==
NFSCTL_GETFS
))
err
=
nfs_getfh32_res_trans
(
kres
,
res32
);
done:
if
(
karg
)
kfree
(
karg
);
if
(
kres
)
kfree
(
kres
);
return
err
;
}
/* Translations due to time_t size differences. Which affects all
sorts of things, like timeval and itimerval. */
extern
struct
timezone
sys_tz
;
extern
int
do_sys_settimeofday
(
struct
timeval
*
tv
,
struct
timezone
*
tz
);
asmlinkage
int
sys32_gettimeofday
(
struct
compat_timeval
*
tv
,
struct
timezone
*
tz
)
{
if
(
tv
)
{
struct
timeval
ktv
;
do_gettimeofday
(
&
ktv
);
if
(
put_tv32
(
tv
,
&
ktv
))
return
-
EFAULT
;
}
if
(
tz
)
{
if
(
copy_to_user
(
tz
,
&
sys_tz
,
sizeof
(
sys_tz
)))
return
-
EFAULT
;
}
return
0
;
}
asmlinkage
int
sys32_settimeofday
(
struct
compat_timeval
*
tv
,
struct
timezone
*
tz
)
{
struct
timeval
ktv
;
struct
timezone
ktz
;
if
(
tv
)
{
if
(
get_tv32
(
&
ktv
,
tv
))
return
-
EFAULT
;
}
if
(
tz
)
{
if
(
copy_from_user
(
&
ktz
,
tz
,
sizeof
(
ktz
)))
return
-
EFAULT
;
}
return
do_sys_settimeofday
(
tv
?
&
ktv
:
NULL
,
tz
?
&
ktz
:
NULL
);
}
asmlinkage
int
sys_utimes
(
char
*
,
struct
timeval
*
);
asmlinkage
int
sys32_utimes
(
char
*
filename
,
struct
compat_timeval
*
tvs
)
{
char
*
kfilename
;
struct
timeval
ktvs
[
2
];
mm_segment_t
old_fs
;
int
ret
;
kfilename
=
getname
(
filename
);
ret
=
PTR_ERR
(
kfilename
);
if
(
!
IS_ERR
(
kfilename
))
{
if
(
tvs
)
{
if
(
get_tv32
(
&
ktvs
[
0
],
tvs
)
||
get_tv32
(
&
ktvs
[
1
],
1
+
tvs
))
return
-
EFAULT
;
}
old_fs
=
get_fs
();
set_fs
(
KERNEL_DS
);
ret
=
sys_utimes
(
kfilename
,
&
ktvs
[
0
]);
set_fs
(
old_fs
);
putname
(
kfilename
);
}
return
ret
;
}
/* These are here just in case some old sparc32 binary calls it. */
asmlinkage
int
sys32_pause
(
void
)
{
current
->
state
=
TASK_INTERRUPTIBLE
;
schedule
();
return
-
ERESTARTNOHAND
;
}
extern
asmlinkage
int
sys_prctl
(
int
option
,
unsigned
long
arg2
,
unsigned
long
arg3
,
unsigned
long
arg4
,
unsigned
long
arg5
);
asmlinkage
int
sys32_prctl
(
int
option
,
u32
arg2
,
u32
arg3
,
u32
arg4
,
u32
arg5
)
{
return
sys_prctl
(
option
,
(
unsigned
long
)
arg2
,
(
unsigned
long
)
arg3
,
(
unsigned
long
)
arg4
,
(
unsigned
long
)
arg5
);
}
extern
asmlinkage
ssize_t
sys_pread64
(
unsigned
int
fd
,
char
*
buf
,
size_t
count
,
loff_t
pos
);
extern
asmlinkage
ssize_t
sys_pwrite64
(
unsigned
int
fd
,
const
char
*
buf
,
size_t
count
,
loff_t
pos
);
asmlinkage
compat_ssize_t
sys32_pread64
(
unsigned
int
fd
,
char
*
ubuf
,
compat_size_t
count
,
u32
poshi
,
u32
poslo
)
{
if
((
compat_ssize_t
)
count
<
0
)
return
-
EINVAL
;
return
sys_pread64
(
fd
,
ubuf
,
count
,
((
loff_t
)
AA
(
poshi
)
<<
32
)
|
AA
(
poslo
));
}
asmlinkage
compat_ssize_t
sys32_pwrite64
(
unsigned
int
fd
,
char
*
ubuf
,
compat_size_t
count
,
u32
poshi
,
u32
poslo
)
{
if
((
compat_ssize_t
)
count
<
0
)
return
-
EINVAL
;
return
sys_pwrite64
(
fd
,
ubuf
,
count
,
((
loff_t
)
AA
(
poshi
)
<<
32
)
|
AA
(
poslo
));
}
extern
asmlinkage
ssize_t
sys_readahead
(
int
fd
,
loff_t
offset
,
size_t
count
);
asmlinkage
compat_ssize_t
sys32_readahead
(
int
fd
,
u32
offhi
,
u32
offlo
,
s32
count
)
{
return
sys_readahead
(
fd
,
((
loff_t
)
AA
(
offhi
)
<<
32
)
|
AA
(
offlo
),
count
);
}
extern
asmlinkage
ssize_t
sys_sendfile
(
int
out_fd
,
int
in_fd
,
off_t
*
offset
,
size_t
count
);
asmlinkage
int
sys32_sendfile
(
int
out_fd
,
int
in_fd
,
compat_off_t
*
offset
,
s32
count
)
{
mm_segment_t
old_fs
=
get_fs
();
int
ret
;
off_t
of
;
if
(
offset
&&
get_user
(
of
,
offset
))
return
-
EFAULT
;
set_fs
(
KERNEL_DS
);
ret
=
sys_sendfile
(
out_fd
,
in_fd
,
offset
?
&
of
:
NULL
,
count
);
set_fs
(
old_fs
);
if
(
!
ret
&&
offset
&&
put_user
(
of
,
offset
))
return
-
EFAULT
;
return
ret
;
}
extern
asmlinkage
ssize_t
sys_sendfile64
(
int
out_fd
,
int
in_fd
,
loff_t
*
offset
,
size_t
count
);
asmlinkage
int
sys32_sendfile64
(
int
out_fd
,
int
in_fd
,
compat_loff_t
*
offset
,
s32
count
)
{
mm_segment_t
old_fs
=
get_fs
();
int
ret
;
loff_t
lof
;
if
(
offset
&&
get_user
(
lof
,
offset
))
return
-
EFAULT
;
set_fs
(
KERNEL_DS
);
ret
=
sys_sendfile64
(
out_fd
,
in_fd
,
offset
?
&
lof
:
NULL
,
count
);
set_fs
(
old_fs
);
if
(
offset
&&
put_user
(
lof
,
offset
))
return
-
EFAULT
;
return
ret
;
}
/* Handle adjtimex compatibility. */
struct
timex32
{
u32
modes
;
s32
offset
,
freq
,
maxerror
,
esterror
;
s32
status
,
constant
,
precision
,
tolerance
;
struct
compat_timeval
time
;
s32
tick
;
s32
ppsfreq
,
jitter
,
shift
,
stabil
;
s32
jitcnt
,
calcnt
,
errcnt
,
stbcnt
;
s32
:
32
;
s32
:
32
;
s32
:
32
;
s32
:
32
;
s32
:
32
;
s32
:
32
;
s32
:
32
;
s32
:
32
;
s32
:
32
;
s32
:
32
;
s32
:
32
;
s32
:
32
;
};
extern
int
do_adjtimex
(
struct
timex
*
);
asmlinkage
int
sys32_adjtimex
(
struct
timex32
*
utp
)
{
struct
timex
txc
;
int
ret
;
memset
(
&
txc
,
0
,
sizeof
(
struct
timex
));
if
(
get_user
(
txc
.
modes
,
&
utp
->
modes
)
||
__get_user
(
txc
.
offset
,
&
utp
->
offset
)
||
__get_user
(
txc
.
freq
,
&
utp
->
freq
)
||
__get_user
(
txc
.
maxerror
,
&
utp
->
maxerror
)
||
__get_user
(
txc
.
esterror
,
&
utp
->
esterror
)
||
__get_user
(
txc
.
status
,
&
utp
->
status
)
||
__get_user
(
txc
.
constant
,
&
utp
->
constant
)
||
__get_user
(
txc
.
precision
,
&
utp
->
precision
)
||
__get_user
(
txc
.
tolerance
,
&
utp
->
tolerance
)
||
__get_user
(
txc
.
time
.
tv_sec
,
&
utp
->
time
.
tv_sec
)
||
__get_user
(
txc
.
time
.
tv_usec
,
&
utp
->
time
.
tv_usec
)
||
__get_user
(
txc
.
tick
,
&
utp
->
tick
)
||
__get_user
(
txc
.
ppsfreq
,
&
utp
->
ppsfreq
)
||
__get_user
(
txc
.
jitter
,
&
utp
->
jitter
)
||
__get_user
(
txc
.
shift
,
&
utp
->
shift
)
||
__get_user
(
txc
.
stabil
,
&
utp
->
stabil
)
||
__get_user
(
txc
.
jitcnt
,
&
utp
->
jitcnt
)
||
__get_user
(
txc
.
calcnt
,
&
utp
->
calcnt
)
||
__get_user
(
txc
.
errcnt
,
&
utp
->
errcnt
)
||
__get_user
(
txc
.
stbcnt
,
&
utp
->
stbcnt
))
return
-
EFAULT
;
ret
=
do_adjtimex
(
&
txc
);
if
(
put_user
(
txc
.
modes
,
&
utp
->
modes
)
||
__put_user
(
txc
.
offset
,
&
utp
->
offset
)
||
__put_user
(
txc
.
freq
,
&
utp
->
freq
)
||
__put_user
(
txc
.
maxerror
,
&
utp
->
maxerror
)
||
__put_user
(
txc
.
esterror
,
&
utp
->
esterror
)
||
__put_user
(
txc
.
status
,
&
utp
->
status
)
||
__put_user
(
txc
.
constant
,
&
utp
->
constant
)
||
__put_user
(
txc
.
precision
,
&
utp
->
precision
)
||
__put_user
(
txc
.
tolerance
,
&
utp
->
tolerance
)
||
__put_user
(
txc
.
time
.
tv_sec
,
&
utp
->
time
.
tv_sec
)
||
__put_user
(
txc
.
time
.
tv_usec
,
&
utp
->
time
.
tv_usec
)
||
__put_user
(
txc
.
tick
,
&
utp
->
tick
)
||
__put_user
(
txc
.
ppsfreq
,
&
utp
->
ppsfreq
)
||
__put_user
(
txc
.
jitter
,
&
utp
->
jitter
)
||
__put_user
(
txc
.
shift
,
&
utp
->
shift
)
||
__put_user
(
txc
.
stabil
,
&
utp
->
stabil
)
||
__put_user
(
txc
.
jitcnt
,
&
utp
->
jitcnt
)
||
__put_user
(
txc
.
calcnt
,
&
utp
->
calcnt
)
||
__put_user
(
txc
.
errcnt
,
&
utp
->
errcnt
)
||
__put_user
(
txc
.
stbcnt
,
&
utp
->
stbcnt
))
ret
=
-
EFAULT
;
return
ret
;
}
extern
asmlinkage
long
sys_setpriority
(
int
which
,
int
who
,
int
niceval
);
asmlinkage
int
sys_setpriority32
(
u32
which
,
u32
who
,
u32
niceval
)
{
return
sys_setpriority
((
int
)
which
,
(
int
)
who
,
(
int
)
niceval
);
}
struct
__sysctl_args32
{
u32
name
;
int
nlen
;
u32
oldval
;
u32
oldlenp
;
u32
newval
;
u32
newlen
;
u32
__unused
[
4
];
};
extern
asmlinkage
long
sys32_sysctl
(
struct
__sysctl_args32
*
args
)
{
struct
__sysctl_args32
tmp
;
int
error
;
size_t
oldlen
,
*
oldlenp
=
NULL
;
unsigned
long
addr
=
(((
long
)
&
args
->
__unused
[
0
])
+
7
)
&
~
7
;
if
(
copy_from_user
(
&
tmp
,
args
,
sizeof
(
tmp
)))
return
-
EFAULT
;
if
(
tmp
.
oldval
&&
tmp
.
oldlenp
)
{
/* Duh, this is ugly and might not work if sysctl_args
is in read-only memory, but do_sysctl does indirectly
a lot of uaccess in both directions and we'd have to
basically copy the whole sysctl.c here, and
glibc's __sysctl uses rw memory for the structure
anyway. */
if
(
get_user
(
oldlen
,
(
u32
*
)
A
(
tmp
.
oldlenp
))
||
put_user
(
oldlen
,
(
size_t
*
)
addr
))
return
-
EFAULT
;
oldlenp
=
(
size_t
*
)
addr
;
}
lock_kernel
();
error
=
do_sysctl
((
int
*
)
A
(
tmp
.
name
),
tmp
.
nlen
,
(
void
*
)
A
(
tmp
.
oldval
),
oldlenp
,
(
void
*
)
A
(
tmp
.
newval
),
tmp
.
newlen
);
unlock_kernel
();
if
(
oldlenp
)
{
if
(
!
error
)
{
if
(
get_user
(
oldlen
,
(
size_t
*
)
addr
)
||
put_user
(
oldlen
,
(
u32
*
)
A
(
tmp
.
oldlenp
)))
error
=
-
EFAULT
;
}
copy_to_user
(
args
->
__unused
,
tmp
.
__unused
,
sizeof
(
tmp
.
__unused
));
}
return
error
;
}
struct
stat64_emu31
{
unsigned
char
__pad0
[
6
];
unsigned
short
st_dev
;
unsigned
int
__pad1
;
#define STAT64_HAS_BROKEN_ST_INO 1
u32
__st_ino
;
unsigned
int
st_mode
;
unsigned
int
st_nlink
;
u32
st_uid
;
u32
st_gid
;
unsigned
char
__pad2
[
6
];
unsigned
short
st_rdev
;
unsigned
int
__pad3
;
long
st_size
;
u32
st_blksize
;
unsigned
char
__pad4
[
4
];
u32
__pad5
;
/* future possible st_blocks high bits */
u32
st_blocks
;
/* Number 512-byte blocks allocated. */
u32
st_atime
;
u32
__pad6
;
u32
st_mtime
;
u32
__pad7
;
u32
st_ctime
;
u32
__pad8
;
/* will be high 32 bits of ctime someday */
unsigned
long
st_ino
;
};
static
inline
int
putstat64
(
struct
stat64_emu31
*
ubuf
,
struct
stat
*
kbuf
)
{
struct
stat64_emu31
tmp
;
memset
(
&
tmp
,
0
,
sizeof
(
tmp
));
tmp
.
st_dev
=
(
unsigned
short
)
kbuf
->
st_dev
;
tmp
.
st_ino
=
kbuf
->
st_ino
;
tmp
.
__st_ino
=
(
u32
)
kbuf
->
st_ino
;
tmp
.
st_mode
=
kbuf
->
st_mode
;
tmp
.
st_nlink
=
(
unsigned
int
)
kbuf
->
st_nlink
;
tmp
.
st_uid
=
kbuf
->
st_uid
;
tmp
.
st_gid
=
kbuf
->
st_gid
;
tmp
.
st_rdev
=
(
unsigned
short
)
kbuf
->
st_rdev
;
tmp
.
st_size
=
kbuf
->
st_size
;
tmp
.
st_blksize
=
(
u32
)
kbuf
->
st_blksize
;
tmp
.
st_blocks
=
(
u32
)
kbuf
->
st_blocks
;
tmp
.
st_atime
=
(
u32
)
kbuf
->
st_atime
;
tmp
.
st_mtime
=
(
u32
)
kbuf
->
st_mtime
;
tmp
.
st_ctime
=
(
u32
)
kbuf
->
st_ctime
;
return
copy_to_user
(
ubuf
,
&
tmp
,
sizeof
(
tmp
))
?
-
EFAULT
:
0
;
}
extern
asmlinkage
long
sys_newstat
(
char
*
filename
,
struct
stat
*
statbuf
);
asmlinkage
long
sys32_stat64
(
char
*
filename
,
struct
stat64_emu31
*
statbuf
,
long
flags
)
{
int
ret
;
struct
stat
s
;
char
*
tmp
;
int
err
;
mm_segment_t
old_fs
=
get_fs
();
tmp
=
getname
(
filename
);
err
=
PTR_ERR
(
tmp
);
if
(
IS_ERR
(
tmp
))
return
err
;
set_fs
(
KERNEL_DS
);
ret
=
sys_newstat
(
tmp
,
&
s
);
set_fs
(
old_fs
);
putname
(
tmp
);
if
(
putstat64
(
statbuf
,
&
s
))
return
-
EFAULT
;
return
ret
;
}
extern
asmlinkage
long
sys_newlstat
(
char
*
filename
,
struct
stat
*
statbuf
);
asmlinkage
long
sys32_lstat64
(
char
*
filename
,
struct
stat64_emu31
*
statbuf
,
long
flags
)
{
int
ret
;
struct
stat
s
;
char
*
tmp
;
int
err
;
mm_segment_t
old_fs
=
get_fs
();
tmp
=
getname
(
filename
);
err
=
PTR_ERR
(
tmp
);
if
(
IS_ERR
(
tmp
))
return
err
;
set_fs
(
KERNEL_DS
);
ret
=
sys_newlstat
(
tmp
,
&
s
);
set_fs
(
old_fs
);
putname
(
tmp
);
if
(
putstat64
(
statbuf
,
&
s
))
return
-
EFAULT
;
return
ret
;
}
extern
asmlinkage
long
sys_newfstat
(
unsigned
int
fd
,
struct
stat
*
statbuf
);
asmlinkage
long
sys32_fstat64
(
unsigned
long
fd
,
struct
stat64_emu31
*
statbuf
,
long
flags
)
{
int
ret
;
struct
stat
s
;
mm_segment_t
old_fs
=
get_fs
();
set_fs
(
KERNEL_DS
);
ret
=
sys_newfstat
(
fd
,
&
s
);
set_fs
(
old_fs
);
if
(
putstat64
(
statbuf
,
&
s
))
return
-
EFAULT
;
return
ret
;
}
/*
* Linux/i386 didn't use to be able to handle more than
* 4 system call parameters, so these system calls used a memory
* block for parameter passing..
*/
struct
mmap_arg_struct_emu31
{
u32
addr
;
u32
len
;
u32
prot
;
u32
flags
;
u32
fd
;
u32
offset
;
};
/* common code for old and new mmaps */
static
inline
long
do_mmap2
(
unsigned
long
addr
,
unsigned
long
len
,
unsigned
long
prot
,
unsigned
long
flags
,
unsigned
long
fd
,
unsigned
long
pgoff
)
{
struct
file
*
file
=
NULL
;
unsigned
long
error
=
-
EBADF
;
flags
&=
~
(
MAP_EXECUTABLE
|
MAP_DENYWRITE
);
if
(
!
(
flags
&
MAP_ANONYMOUS
))
{
file
=
fget
(
fd
);
if
(
!
file
)
goto
out
;
}
down_write
(
&
current
->
mm
->
mmap_sem
);
error
=
do_mmap_pgoff
(
file
,
addr
,
len
,
prot
,
flags
,
pgoff
);
if
(
!
IS_ERR
((
void
*
)
error
)
&&
error
+
len
>=
0x80000000ULL
)
{
/* Result is out of bounds. */
do_munmap
(
current
->
mm
,
addr
,
len
);
error
=
-
ENOMEM
;
}
up_write
(
&
current
->
mm
->
mmap_sem
);
if
(
file
)
fput
(
file
);
out:
return
error
;
}
asmlinkage
unsigned
long
old32_mmap
(
struct
mmap_arg_struct_emu31
*
arg
)
{
struct
mmap_arg_struct_emu31
a
;
int
error
=
-
EFAULT
;
if
(
copy_from_user
(
&
a
,
arg
,
sizeof
(
a
)))
goto
out
;
error
=
-
EINVAL
;
if
(
a
.
offset
&
~
PAGE_MASK
)
goto
out
;
error
=
do_mmap2
(
a
.
addr
,
a
.
len
,
a
.
prot
,
a
.
flags
,
a
.
fd
,
a
.
offset
>>
PAGE_SHIFT
);
out:
return
error
;
}
asmlinkage
long
sys32_mmap2
(
struct
mmap_arg_struct_emu31
*
arg
)
{
struct
mmap_arg_struct_emu31
a
;
int
error
=
-
EFAULT
;
if
(
copy_from_user
(
&
a
,
arg
,
sizeof
(
a
)))
goto
out
;
error
=
do_mmap2
(
a
.
addr
,
a
.
len
,
a
.
prot
,
a
.
flags
,
a
.
fd
,
a
.
offset
);
out:
return
error
;
}
extern
asmlinkage
int
sys_sched_setaffinity
(
pid_t
pid
,
unsigned
int
len
,
unsigned
long
*
user_mask_ptr
);
asmlinkage
int
sys32_sched_setaffinity
(
compat_pid_t
pid
,
unsigned
int
len
,
u32
*
user_mask_ptr
)
{
unsigned
long
kernel_mask
;
mm_segment_t
old_fs
;
int
ret
;
if
(
get_user
(
kernel_mask
,
user_mask_ptr
))
return
-
EFAULT
;
old_fs
=
get_fs
();
set_fs
(
KERNEL_DS
);
ret
=
sys_sched_setaffinity
(
pid
,
/* XXX Nice api... */
sizeof
(
kernel_mask
),
&
kernel_mask
);
set_fs
(
old_fs
);
return
ret
;
}
extern
asmlinkage
int
sys_sched_getaffinity
(
pid_t
pid
,
unsigned
int
len
,
unsigned
long
*
user_mask_ptr
);
asmlinkage
int
sys32_sched_getaffinity
(
compat_pid_t
pid
,
unsigned
int
len
,
u32
*
user_mask_ptr
)
{
unsigned
long
kernel_mask
;
mm_segment_t
old_fs
;
int
ret
;
old_fs
=
get_fs
();
set_fs
(
KERNEL_DS
);
ret
=
sys_sched_getaffinity
(
pid
,
/* XXX Nice api... */
sizeof
(
kernel_mask
),
&
kernel_mask
);
set_fs
(
old_fs
);
if
(
ret
==
0
)
{
if
(
put_user
(
kernel_mask
,
user_mask_ptr
))
ret
=
-
EFAULT
;
}
return
ret
;
}
asmlinkage
ssize_t
sys_read
(
unsigned
int
fd
,
char
*
buf
,
size_t
count
);
asmlinkage
compat_ssize_t
sys32_read
(
unsigned
int
fd
,
char
*
buf
,
size_t
count
)
{
if
((
compat_ssize_t
)
count
<
0
)
return
-
EINVAL
;
return
sys_read
(
fd
,
buf
,
count
);
}
asmlinkage
ssize_t
sys_write
(
unsigned
int
fd
,
const
char
*
buf
,
size_t
count
);
asmlinkage
compat_ssize_t
sys32_write
(
unsigned
int
fd
,
char
*
buf
,
size_t
count
)
{
if
((
compat_ssize_t
)
count
<
0
)
return
-
EINVAL
;
return
sys_write
(
fd
,
buf
,
count
);
}
asmlinkage
int
sys32_clone
(
struct
pt_regs
regs
)
{
unsigned
long
clone_flags
;
unsigned
long
newsp
;
struct
task_struct
*
p
;
int
*
parent_tidptr
,
*
child_tidptr
;
clone_flags
=
regs
.
gprs
[
3
]
&
0xffffffffUL
;
newsp
=
regs
.
orig_gpr2
&
0x7fffffffUL
;
parent_tidptr
=
(
int
*
)
(
regs
.
gprs
[
4
]
&
0x7fffffffUL
);
child_tidptr
=
(
int
*
)
(
regs
.
gprs
[
5
]
&
0x7fffffffUL
);
if
(
!
newsp
)
newsp
=
regs
.
gprs
[
15
];
p
=
do_fork
(
clone_flags
&
~
CLONE_IDLETASK
,
newsp
,
&
regs
,
0
,
parent_tidptr
,
child_tidptr
);
return
IS_ERR
(
p
)
?
PTR_ERR
(
p
)
:
p
->
pid
;
}
arch/s390/kernel/compat_linux.h
0 → 100644
View file @
9491d77e
#ifndef _ASM_S390X_S390_H
#define _ASM_S390X_S390_H
#include <linux/config.h>
#include <linux/compat.h>
#include <linux/socket.h>
#include <linux/nfs_fs.h>
#include <linux/sunrpc/svc.h>
#include <linux/nfsd/nfsd.h>
#include <linux/nfsd/export.h>
/* Macro that masks the high order bit of an 32 bit pointer and converts it*/
/* to a 64 bit pointer */
#define A(__x) ((unsigned long)((__x) & 0x7FFFFFFFUL))
#define AA(__x) \
((unsigned long)(__x))
/* Now 32bit compatibility types */
struct
ipc_kludge_32
{
__u32
msgp
;
/* pointer */
__s32
msgtyp
;
};
struct
old_sigaction32
{
__u32
sa_handler
;
/* Really a pointer, but need to deal with 32 bits */
compat_old_sigset_t
sa_mask
;
/* A 32 bit mask */
__u32
sa_flags
;
__u32
sa_restorer
;
/* Another 32 bit pointer */
};
typedef
union
sigval32
{
int
sival_int
;
__u32
sival_ptr
;
}
sigval_t32
;
typedef
struct
siginfo32
{
int
si_signo
;
int
si_errno
;
int
si_code
;
union
{
int
_pad
[((
128
/
sizeof
(
int
))
-
3
)];
/* kill() */
struct
{
pid_t
_pid
;
/* sender's pid */
uid_t
_uid
;
/* sender's uid */
}
_kill
;
/* POSIX.1b timers */
struct
{
unsigned
int
_timer1
;
unsigned
int
_timer2
;
}
_timer
;
/* POSIX.1b signals */
struct
{
pid_t
_pid
;
/* sender's pid */
uid_t
_uid
;
/* sender's uid */
sigval_t32
_sigval
;
}
_rt
;
/* SIGCHLD */
struct
{
pid_t
_pid
;
/* which child */
uid_t
_uid
;
/* sender's uid */
int
_status
;
/* exit code */
compat_clock_t
_utime
;
compat_clock_t
_stime
;
}
_sigchld
;
/* SIGILL, SIGFPE, SIGSEGV, SIGBUS */
struct
{
__u32
_addr
;
/* faulting insn/memory ref. - pointer */
}
_sigfault
;
/* SIGPOLL */
struct
{
int
_band
;
/* POLL_IN, POLL_OUT, POLL_MSG */
int
_fd
;
}
_sigpoll
;
}
_sifields
;
}
siginfo_t32
;
/*
* How these fields are to be accessed.
*/
#define si_pid _sifields._kill._pid
#define si_uid _sifields._kill._uid
#define si_status _sifields._sigchld._status
#define si_utime _sifields._sigchld._utime
#define si_stime _sifields._sigchld._stime
#define si_value _sifields._rt._sigval
#define si_int _sifields._rt._sigval.sival_int
#define si_ptr _sifields._rt._sigval.sival_ptr
#define si_addr _sifields._sigfault._addr
#define si_band _sifields._sigpoll._band
#define si_fd _sifields._sigpoll._fd
/* asm/sigcontext.h */
typedef
union
{
__u64
d
;
__u32
f
;
}
freg_t32
;
typedef
struct
{
unsigned
int
fpc
;
freg_t32
fprs
[
__NUM_FPRS
];
}
_s390_fp_regs32
;
typedef
struct
{
__u32
mask
;
__u32
addr
;
}
_psw_t32
__attribute__
((
aligned
(
8
)));
#define PSW32_MASK_PER 0x40000000UL
#define PSW32_MASK_DAT 0x04000000UL
#define PSW32_MASK_IO 0x02000000UL
#define PSW32_MASK_EXT 0x01000000UL
#define PSW32_MASK_KEY 0x00F00000UL
#define PSW32_MASK_MCHECK 0x00040000UL
#define PSW32_MASK_WAIT 0x00020000UL
#define PSW32_MASK_PSTATE 0x00010000UL
#define PSW32_MASK_ASC 0x0000C000UL
#define PSW32_MASK_CC 0x00003000UL
#define PSW32_MASK_PM 0x00000f00UL
#define PSW32_ADDR_AMODE31 0x80000000UL
#define PSW32_ADDR_INSN 0x7FFFFFFFUL
#define PSW32_BASE_BITS 0x00080000UL
#define PSW32_ASC_PRIMARY 0x00000000UL
#define PSW32_ASC_ACCREG 0x00004000UL
#define PSW32_ASC_SECONDARY 0x00008000UL
#define PSW32_ASC_HOME 0x0000C000UL
#define PSW32_USER_BITS (PSW32_BASE_BITS | PSW32_MASK_DAT | PSW32_ASC_HOME | \
PSW32_MASK_IO | PSW32_MASK_EXT | PSW32_MASK_MCHECK | \
PSW32_MASK_PSTATE)
typedef
struct
{
_psw_t32
psw
;
__u32
gprs
[
__NUM_GPRS
];
__u32
acrs
[
__NUM_ACRS
];
}
_s390_regs_common32
;
typedef
struct
{
_s390_regs_common32
regs
;
_s390_fp_regs32
fpregs
;
}
_sigregs32
;
#define _SIGCONTEXT_NSIG32 64
#define _SIGCONTEXT_NSIG_BPW32 32
#define __SIGNAL_FRAMESIZE32 96
#define _SIGMASK_COPY_SIZE32 (sizeof(u32)*2)
struct
sigcontext32
{
__u32
oldmask
[
_COMPAT_NSIG_WORDS
];
__u32
sregs
;
/* pointer */
};
/* asm/signal.h */
struct
sigaction32
{
__u32
sa_handler
;
/* pointer */
__u32
sa_flags
;
__u32
sa_restorer
;
/* pointer */
compat_sigset_t
sa_mask
;
/* mask last for extensibility */
};
typedef
struct
{
__u32
ss_sp
;
/* pointer */
int
ss_flags
;
compat_size_t
ss_size
;
}
stack_t32
;
/* asm/ucontext.h */
struct
ucontext32
{
__u32
uc_flags
;
__u32
uc_link
;
/* pointer */
stack_t32
uc_stack
;
_sigregs32
uc_mcontext
;
compat_sigset_t
uc_sigmask
;
/* mask last for extensibility */
};
#endif
/* _ASM_S390X_S390_H */
arch/s390/kernel/compat_ptrace.h
0 → 100644
View file @
9491d77e
#ifndef _PTRACE32_H
#define _PTRACE32_H
#include "compat_linux.h"
/* needed for _psw_t32 */
typedef
struct
{
__u32
cr
[
3
];
}
per_cr_words32
__attribute__
((
packed
));
typedef
struct
{
__u16
perc_atmid
;
/* 0x096 */
__u32
address
;
/* 0x098 */
__u8
access_id
;
/* 0x0a1 */
}
per_lowcore_words32
__attribute__
((
packed
));
typedef
struct
{
union
{
per_cr_words32
words
;
}
control_regs
__attribute__
((
packed
));
/*
* Use these flags instead of setting em_instruction_fetch
* directly they are used so that single stepping can be
* switched on & off while not affecting other tracing
*/
unsigned
single_step
:
1
;
unsigned
instruction_fetch
:
1
;
unsigned
:
30
;
/*
* These addresses are copied into cr10 & cr11 if single
* stepping is switched off
*/
__u32
starting_addr
;
__u32
ending_addr
;
union
{
per_lowcore_words32
words
;
}
lowcore
;
}
per_struct32
__attribute__
((
packed
));
struct
user_regs_struct32
{
_psw_t32
psw
;
u32
gprs
[
NUM_GPRS
];
u32
acrs
[
NUM_ACRS
];
u32
orig_gpr2
;
s390_fp_regs
fp_regs
;
/*
* These per registers are in here so that gdb can modify them
* itself as there is no "official" ptrace interface for hardware
* watchpoints. This is the way intel does it.
*/
per_struct32
per_info
;
u32
ieee_instruction_pointer
;
/* Used to give failing instruction back to user for ieee exceptions */
};
struct
user32
{
/* We start with the registers, to mimic the way that "memory"
is returned from the ptrace(3,...) function. */
struct
user_regs_struct32
regs
;
/* Where the registers are actually stored */
/* The rest of this junk is to help gdb figure out what goes where */
u32
u_tsize
;
/* Text segment size (pages). */
u32
u_dsize
;
/* Data segment size (pages). */
u32
u_ssize
;
/* Stack segment size (pages). */
u32
start_code
;
/* Starting virtual address of text. */
u32
start_stack
;
/* Starting virtual address of stack area.
This is actually the bottom of the stack,
the top of the stack is always found in the
esp register. */
s32
signal
;
/* Signal that caused the core dump. */
u32
u_ar0
;
/* Used by gdb to help find the values for */
/* the registers. */
u32
magic
;
/* To uniquely identify a core file */
char
u_comm
[
32
];
/* User command that was responsible */
};
typedef
struct
{
__u32
len
;
__u32
kernel_addr
;
__u32
process_addr
;
}
ptrace_area_emu31
;
#endif
/* _PTRACE32_H */
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