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Kirill Smelkov
linux
Commits
8e46a83e
Commit
8e46a83e
authored
Apr 01, 2003
by
Greg Kroah-Hartman
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i2c: remove proc and sysctl code from i2c-proc as it is no longer used.
parent
d0ba67dd
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-586
drivers/i2c/i2c-proc.c
drivers/i2c/i2c-proc.c
+0
-546
include/linux/i2c-proc.h
include/linux/i2c-proc.h
+0
-40
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drivers/i2c/i2c-proc.c
View file @
8e46a83e
...
...
@@ -37,539 +37,6 @@
#include <linux/i2c-proc.h>
#include <asm/uaccess.h>
static
int
i2c_parse_reals
(
int
*
nrels
,
void
*
buffer
,
int
bufsize
,
long
*
results
,
int
magnitude
);
static
int
i2c_write_reals
(
int
nrels
,
void
*
buffer
,
size_t
*
bufsize
,
long
*
results
,
int
magnitude
);
static
int
i2c_proc_chips
(
ctl_table
*
ctl
,
int
write
,
struct
file
*
filp
,
void
*
buffer
,
size_t
*
lenp
);
static
int
i2c_sysctl_chips
(
ctl_table
*
table
,
int
*
name
,
int
nlen
,
void
*
oldval
,
size_t
*
oldlenp
,
void
*
newval
,
size_t
newlen
,
void
**
context
);
#define SENSORS_ENTRY_MAX 20
static
struct
ctl_table_header
*
i2c_entries
[
SENSORS_ENTRY_MAX
];
static
struct
i2c_client
*
i2c_clients
[
SENSORS_ENTRY_MAX
];
static
ctl_table
i2c_proc_dev_sensors
[]
=
{
{
SENSORS_CHIPS
,
"chips"
,
NULL
,
0
,
0644
,
NULL
,
&
i2c_proc_chips
,
&
i2c_sysctl_chips
},
{
0
}
};
static
ctl_table
i2c_proc_dev
[]
=
{
{
DEV_SENSORS
,
"sensors"
,
NULL
,
0
,
0555
,
i2c_proc_dev_sensors
},
{
0
},
};
static
ctl_table
i2c_proc
[]
=
{
{
CTL_DEV
,
"dev"
,
NULL
,
0
,
0555
,
i2c_proc_dev
},
{
0
}
};
static
struct
ctl_table_header
*
i2c_proc_header
;
/* This returns a nice name for a new directory; for example lm78-isa-0310
(for a LM78 chip on the ISA bus at port 0x310), or lm75-i2c-3-4e (for
a LM75 chip on the third i2c bus at address 0x4e).
name is allocated first. */
static
char
*
generate_name
(
struct
i2c_client
*
client
,
const
char
*
prefix
)
{
struct
i2c_adapter
*
adapter
=
client
->
adapter
;
int
addr
=
client
->
addr
;
char
name_buffer
[
50
],
*
name
;
if
(
i2c_is_isa_adapter
(
adapter
))
{
sprintf
(
name_buffer
,
"%s-isa-%04x"
,
prefix
,
addr
);
}
else
if
(
adapter
->
algo
->
smbus_xfer
||
adapter
->
algo
->
master_xfer
)
{
int
id
=
i2c_adapter_id
(
adapter
);
if
(
id
<
0
)
return
ERR_PTR
(
-
ENOENT
);
sprintf
(
name_buffer
,
"%s-i2c-%d-%02x"
,
prefix
,
id
,
addr
);
}
else
{
/* dummy adapter, generate prefix */
int
end
,
i
;
sprintf
(
name_buffer
,
"%s-"
,
prefix
);
end
=
strlen
(
name_buffer
);
for
(
i
=
0
;
i
<
32
;
i
++
)
{
if
(
adapter
->
algo
->
name
[
i
]
==
' '
)
break
;
name_buffer
[
end
++
]
=
tolower
(
adapter
->
algo
->
name
[
i
]);
}
name_buffer
[
end
]
=
0
;
sprintf
(
name_buffer
+
end
,
"-%04x"
,
addr
);
}
name
=
kmalloc
(
strlen
(
name_buffer
)
+
1
,
GFP_KERNEL
);
if
(
unlikely
(
!
name
))
return
ERR_PTR
(
-
ENOMEM
);
strcpy
(
name
,
name_buffer
);
return
name
;
}
/* This rather complex function must be called when you want to add an entry
to /proc/sys/dev/sensors/chips. It also creates a new directory within
/proc/sys/dev/sensors/.
ctl_template should be a template of the newly created directory. It is
copied in memory. The extra2 field of each file is set to point to client.
If any driver wants subdirectories within the newly created directory,
this function must be updated! */
int
i2c_register_entry
(
struct
i2c_client
*
client
,
const
char
*
prefix
,
struct
ctl_table
*
leaf
)
{
struct
{
struct
ctl_table
root
[
2
],
dev
[
2
],
sensors
[
2
];
}
*
tbl
;
struct
ctl_table_header
*
hdr
;
struct
ctl_table
*
tmp
;
const
char
*
name
;
int
id
;
name
=
generate_name
(
client
,
prefix
);
if
(
IS_ERR
(
name
))
return
PTR_ERR
(
name
);
for
(
id
=
0
;
id
<
SENSORS_ENTRY_MAX
;
id
++
)
{
if
(
!
i2c_entries
[
id
])
goto
free_slot
;
}
goto
out_free_name
;
free_slot:
tbl
=
kmalloc
(
sizeof
(
*
tbl
),
GFP_KERNEL
);
if
(
unlikely
(
!
tbl
))
goto
out_free_name
;
memset
(
tbl
,
0
,
sizeof
(
*
tbl
));
for
(
tmp
=
leaf
;
tmp
->
ctl_name
;
tmp
++
)
tmp
->
extra2
=
client
;
tbl
->
sensors
->
ctl_name
=
id
+
256
;
tbl
->
sensors
->
procname
=
name
;
tbl
->
sensors
->
mode
=
0555
;
tbl
->
sensors
->
child
=
leaf
;
tbl
->
dev
->
ctl_name
=
DEV_SENSORS
;
tbl
->
dev
->
procname
=
"sensors"
;
tbl
->
dev
->
mode
=
0555
;
tbl
->
dev
->
child
=
tbl
->
sensors
;
tbl
->
root
->
ctl_name
=
CTL_DEV
;
tbl
->
root
->
procname
=
"dev"
;
tbl
->
root
->
mode
=
0555
;
tbl
->
root
->
child
=
tbl
->
dev
;
hdr
=
register_sysctl_table
(
tbl
->
root
,
0
);
if
(
unlikely
(
!
hdr
))
goto
out_free_tbl
;
i2c_entries
[
id
]
=
hdr
;
i2c_clients
[
id
]
=
client
;
return
(
id
+
256
);
/* XXX(hch) why?? */
out_free_tbl:
kfree
(
tbl
);
out_free_name:
kfree
(
name
);
return
-
ENOMEM
;
}
void
i2c_deregister_entry
(
int
id
)
{
id
-=
256
;
if
(
i2c_entries
[
id
])
{
struct
ctl_table_header
*
hdr
=
i2c_entries
[
id
];
struct
ctl_table
*
tbl
=
hdr
->
ctl_table
;
unregister_sysctl_table
(
hdr
);
kfree
(
tbl
->
child
->
child
->
procname
);
kfree
(
tbl
);
/* actually the whole anonymous struct */
}
i2c_entries
[
id
]
=
NULL
;
i2c_clients
[
id
]
=
NULL
;
}
static
int
i2c_proc_chips
(
ctl_table
*
ctl
,
int
write
,
struct
file
*
filp
,
void
*
buffer
,
size_t
*
lenp
)
{
char
BUF
[
SENSORS_PREFIX_MAX
+
30
];
int
buflen
,
curbufsize
,
i
;
struct
ctl_table
*
client_tbl
;
if
(
write
)
return
0
;
/* If buffer is size 0, or we try to read when not at the start, we
return nothing. Note that I think writing when not at the start
does not work either, but anyway, this is straight from the kernel
sources. */
if
(
!*
lenp
||
(
filp
->
f_pos
&&
!
write
))
{
*
lenp
=
0
;
return
0
;
}
curbufsize
=
0
;
for
(
i
=
0
;
i
<
SENSORS_ENTRY_MAX
;
i
++
)
if
(
i2c_entries
[
i
])
{
client_tbl
=
i2c_entries
[
i
]
->
ctl_table
->
child
->
child
;
buflen
=
sprintf
(
BUF
,
"%d
\t
%s
\n
"
,
client_tbl
->
ctl_name
,
client_tbl
->
procname
);
if
(
buflen
+
curbufsize
>
*
lenp
)
buflen
=
*
lenp
-
curbufsize
;
if
(
copy_to_user
(
buffer
,
BUF
,
buflen
))
return
-
EFAULT
;
curbufsize
+=
buflen
;
(
char
*
)
buffer
+=
buflen
;
}
*
lenp
=
curbufsize
;
filp
->
f_pos
+=
curbufsize
;
return
0
;
}
static
int
i2c_sysctl_chips
(
ctl_table
*
table
,
int
*
name
,
int
nlen
,
void
*
oldval
,
size_t
*
oldlenp
,
void
*
newval
,
size_t
newlen
,
void
**
context
)
{
struct
i2c_chips_data
data
;
int
i
,
oldlen
,
nrels
,
maxels
,
ret
=
0
;
struct
ctl_table
*
client_tbl
;
if
(
oldval
&&
oldlenp
&&
!
((
ret
=
get_user
(
oldlen
,
oldlenp
)))
&&
oldlen
)
{
maxels
=
oldlen
/
sizeof
(
struct
i2c_chips_data
);
nrels
=
0
;
for
(
i
=
0
;
(
i
<
SENSORS_ENTRY_MAX
)
&&
(
nrels
<
maxels
);
i
++
)
if
(
i2c_entries
[
i
])
{
client_tbl
=
i2c_entries
[
i
]
->
ctl_table
->
child
->
child
;
data
.
sysctl_id
=
client_tbl
->
ctl_name
;
strcpy
(
data
.
name
,
client_tbl
->
procname
);
if
(
copy_to_user
(
oldval
,
&
data
,
sizeof
(
struct
i2c_chips_data
)))
return
-
EFAULT
;
(
char
*
)
oldval
+=
sizeof
(
struct
i2c_chips_data
);
nrels
++
;
}
oldlen
=
nrels
*
sizeof
(
struct
i2c_chips_data
);
if
(
put_user
(
oldlen
,
oldlenp
))
return
-
EFAULT
;
}
return
ret
;
}
/* This function reads or writes a 'real' value (encoded by the combination
of an integer and a magnitude, the last is the power of ten the value
should be divided with) to a /proc/sys directory. To use this function,
you must (before registering the ctl_table) set the extra2 field to the
client, and the extra1 field to a function of the form:
void func(struct i2c_client *client, int operation, int ctl_name,
int *nrels_mag, long *results)
This function can be called for three values of operation. If operation
equals SENSORS_PROC_REAL_INFO, the magnitude should be returned in
nrels_mag. If operation equals SENSORS_PROC_REAL_READ, values should
be read into results. nrels_mag should return the number of elements
read; the maximum number is put in it on entry. Finally, if operation
equals SENSORS_PROC_REAL_WRITE, the values in results should be
written to the chip. nrels_mag contains on entry the number of elements
found.
In all cases, client points to the client we wish to interact with,
and ctl_name is the SYSCTL id of the file we are accessing. */
int
i2c_proc_real
(
ctl_table
*
ctl
,
int
write
,
struct
file
*
filp
,
void
*
buffer
,
size_t
*
lenp
)
{
#define MAX_RESULTS 32
int
mag
,
nrels
=
MAX_RESULTS
;
long
results
[
MAX_RESULTS
];
i2c_real_callback
callback
=
ctl
->
extra1
;
struct
i2c_client
*
client
=
ctl
->
extra2
;
int
res
;
/* If buffer is size 0, or we try to read when not at the start, we
return nothing. Note that I think writing when not at the start
does not work either, but anyway, this is straight from the kernel
sources. */
if
(
!*
lenp
||
(
filp
->
f_pos
&&
!
write
))
{
*
lenp
=
0
;
return
0
;
}
/* Get the magnitude */
callback
(
client
,
SENSORS_PROC_REAL_INFO
,
ctl
->
ctl_name
,
&
mag
,
NULL
);
if
(
write
)
{
/* Read the complete input into results, converting to longs */
res
=
i2c_parse_reals
(
&
nrels
,
buffer
,
*
lenp
,
results
,
mag
);
if
(
res
)
return
res
;
if
(
!
nrels
)
return
0
;
/* Now feed this information back to the client */
callback
(
client
,
SENSORS_PROC_REAL_WRITE
,
ctl
->
ctl_name
,
&
nrels
,
results
);
filp
->
f_pos
+=
*
lenp
;
return
0
;
}
else
{
/* read */
/* Get the information from the client into results */
callback
(
client
,
SENSORS_PROC_REAL_READ
,
ctl
->
ctl_name
,
&
nrels
,
results
);
/* And write them to buffer, converting to reals */
res
=
i2c_write_reals
(
nrels
,
buffer
,
lenp
,
results
,
mag
);
if
(
res
)
return
res
;
filp
->
f_pos
+=
*
lenp
;
return
0
;
}
}
/* This function is equivalent to i2c_proc_real, only it interacts with
the sysctl(2) syscall, and returns no reals, but integers */
int
i2c_sysctl_real
(
ctl_table
*
table
,
int
*
name
,
int
nlen
,
void
*
oldval
,
size_t
*
oldlenp
,
void
*
newval
,
size_t
newlen
,
void
**
context
)
{
long
results
[
MAX_RESULTS
];
int
oldlen
,
nrels
=
MAX_RESULTS
,
ret
=
0
;
i2c_real_callback
callback
=
table
->
extra1
;
struct
i2c_client
*
client
=
table
->
extra2
;
/* Check if we need to output the old values */
if
(
oldval
&&
oldlenp
&&
!
((
ret
=
get_user
(
oldlen
,
oldlenp
)))
&&
oldlen
)
{
callback
(
client
,
SENSORS_PROC_REAL_READ
,
table
->
ctl_name
,
&
nrels
,
results
);
/* Note the rounding factor! */
if
(
nrels
*
sizeof
(
long
)
<
oldlen
)
oldlen
=
nrels
*
sizeof
(
long
);
oldlen
=
(
oldlen
/
sizeof
(
long
))
*
sizeof
(
long
);
if
(
copy_to_user
(
oldval
,
results
,
oldlen
))
return
-
EFAULT
;
if
(
put_user
(
oldlen
,
oldlenp
))
return
-
EFAULT
;
}
if
(
newval
&&
newlen
)
{
/* Note the rounding factor! */
newlen
-=
newlen
%
sizeof
(
long
);
nrels
=
newlen
/
sizeof
(
long
);
if
(
copy_from_user
(
results
,
newval
,
newlen
))
return
-
EFAULT
;
/* Get the new values back to the client */
callback
(
client
,
SENSORS_PROC_REAL_WRITE
,
table
->
ctl_name
,
&
nrels
,
results
);
}
return
ret
;
}
/* nrels contains initially the maximum number of elements which can be
put in results, and finally the number of elements actually put there.
A magnitude of 1 will multiply everything with 10; etc.
buffer, bufsize is the character buffer we read from and its length.
results will finally contain the parsed integers.
Buffer should contain several reals, separated by whitespace. A real
has the following syntax:
[ Minus ] Digit* [ Dot Digit* ]
(everything between [] is optional; * means zero or more).
When the next character is unparsable, everything is skipped until the
next whitespace.
WARNING! This is tricky code. I have tested it, but there may still be
hidden bugs in it, even leading to crashes and things!
*/
static
int
i2c_parse_reals
(
int
*
nrels
,
void
*
buffer
,
int
bufsize
,
long
*
results
,
int
magnitude
)
{
int
maxels
,
min
,
mag
;
long
res
,
ret
=
0
;
char
nextchar
=
0
;
maxels
=
*
nrels
;
*
nrels
=
0
;
while
(
bufsize
&&
(
*
nrels
<
maxels
))
{
/* Skip spaces at the start */
while
(
bufsize
&&
!
((
ret
=
get_user
(
nextchar
,
(
char
*
)
buffer
)))
&&
isspace
((
int
)
nextchar
))
{
bufsize
--
;
((
char
*
)
buffer
)
++
;
}
if
(
ret
)
return
-
EFAULT
;
/* Well, we may be done now */
if
(
!
bufsize
)
return
0
;
/* New defaults for our result */
min
=
0
;
res
=
0
;
mag
=
magnitude
;
/* Check for a minus */
if
(
!
((
ret
=
get_user
(
nextchar
,
(
char
*
)
buffer
)))
&&
(
nextchar
==
'-'
))
{
min
=
1
;
bufsize
--
;
((
char
*
)
buffer
)
++
;
}
if
(
ret
)
return
-
EFAULT
;
/* Digits before a decimal dot */
while
(
bufsize
&&
!
((
ret
=
get_user
(
nextchar
,
(
char
*
)
buffer
)))
&&
isdigit
((
int
)
nextchar
))
{
res
=
res
*
10
+
nextchar
-
'0'
;
bufsize
--
;
((
char
*
)
buffer
)
++
;
}
if
(
ret
)
return
-
EFAULT
;
/* If mag < 0, we must actually divide here! */
while
(
mag
<
0
)
{
res
=
res
/
10
;
mag
++
;
}
if
(
bufsize
&&
(
nextchar
==
'.'
))
{
/* Skip the dot */
bufsize
--
;
((
char
*
)
buffer
)
++
;
/* Read digits while they are significant */
while
(
bufsize
&&
(
mag
>
0
)
&&
!
((
ret
=
get_user
(
nextchar
,
(
char
*
)
buffer
)))
&&
isdigit
((
int
)
nextchar
))
{
res
=
res
*
10
+
nextchar
-
'0'
;
mag
--
;
bufsize
--
;
((
char
*
)
buffer
)
++
;
}
if
(
ret
)
return
-
EFAULT
;
}
/* If we are out of data, but mag > 0, we need to scale here */
while
(
mag
>
0
)
{
res
=
res
*
10
;
mag
--
;
}
/* Skip everything until we hit whitespace */
while
(
bufsize
&&
!
((
ret
=
get_user
(
nextchar
,
(
char
*
)
buffer
)))
&&
isspace
((
int
)
nextchar
))
{
bufsize
--
;
((
char
*
)
buffer
)
++
;
}
if
(
ret
)
return
-
EFAULT
;
/* Put res in results */
results
[
*
nrels
]
=
(
min
?
-
1
:
1
)
*
res
;
(
*
nrels
)
++
;
}
/* Well, there may be more in the buffer, but we need no more data.
Ignore anything that is left. */
return
0
;
}
static
int
i2c_write_reals
(
int
nrels
,
void
*
buffer
,
size_t
*
bufsize
,
long
*
results
,
int
magnitude
)
{
#define BUFLEN 20
char
BUF
[
BUFLEN
+
1
];
/* An individual representation should fit! */
char
printfstr
[
10
];
int
nr
=
0
;
int
buflen
,
mag
,
times
;
int
curbufsize
=
0
;
while
((
nr
<
nrels
)
&&
(
curbufsize
<
*
bufsize
))
{
mag
=
magnitude
;
if
(
nr
!=
0
)
{
if
(
put_user
(
' '
,
(
char
*
)
buffer
))
return
-
EFAULT
;
curbufsize
++
;
((
char
*
)
buffer
)
++
;
}
/* Fill BUF with the representation of the next string */
if
(
mag
<=
0
)
{
buflen
=
sprintf
(
BUF
,
"%ld"
,
results
[
nr
]);
if
(
buflen
<
0
)
{
/* Oops, a sprintf error! */
*
bufsize
=
0
;
return
-
EINVAL
;
}
while
((
mag
<
0
)
&&
(
buflen
<
BUFLEN
))
{
BUF
[
buflen
++
]
=
'0'
;
mag
++
;
}
BUF
[
buflen
]
=
0
;
}
else
{
times
=
1
;
for
(
times
=
1
;
mag
--
>
0
;
times
*=
10
);
if
(
results
[
nr
]
<
0
)
{
BUF
[
0
]
=
'-'
;
buflen
=
1
;
}
else
buflen
=
0
;
strcpy
(
printfstr
,
"%ld.%0Xld"
);
printfstr
[
6
]
=
magnitude
+
'0'
;
buflen
+=
sprintf
(
BUF
+
buflen
,
printfstr
,
abs
(
results
[
nr
])
/
times
,
abs
(
results
[
nr
])
%
times
);
if
(
buflen
<
0
)
{
/* Oops, a sprintf error! */
*
bufsize
=
0
;
return
-
EINVAL
;
}
}
/* Now copy it to the user-space buffer */
if
(
buflen
+
curbufsize
>
*
bufsize
)
buflen
=
*
bufsize
-
curbufsize
;
if
(
copy_to_user
(
buffer
,
BUF
,
buflen
))
return
-
EFAULT
;
curbufsize
+=
buflen
;
(
char
*
)
buffer
+=
buflen
;
nr
++
;
}
if
(
curbufsize
<
*
bufsize
)
{
if
(
put_user
(
'\n'
,
(
char
*
)
buffer
))
return
-
EFAULT
;
curbufsize
++
;
}
*
bufsize
=
curbufsize
;
return
0
;
}
/* Very inefficient for ISA detects, and won't work for 10-bit addresses! */
int
i2c_detect
(
struct
i2c_adapter
*
adapter
,
...
...
@@ -703,26 +170,13 @@ int i2c_detect(struct i2c_adapter *adapter,
static
int
__init
i2c_proc_init
(
void
)
{
printk
(
KERN_INFO
"i2c-proc.o version %s (%s)
\n
"
,
I2C_VERSION
,
I2C_DATE
);
if
(
!
(
i2c_proc_header
=
register_sysctl_table
(
i2c_proc
,
0
)))
{
printk
(
KERN_ERR
"i2c-proc.o: error: sysctl interface not supported by kernel!
\n
"
);
return
-
EPERM
;
}
i2c_proc_header
->
ctl_table
->
child
->
de
->
owner
=
THIS_MODULE
;
return
0
;
}
static
void
__exit
i2c_proc_exit
(
void
)
{
unregister_sysctl_table
(
i2c_proc_header
);
}
EXPORT_SYMBOL
(
i2c_register_entry
);
EXPORT_SYMBOL
(
i2c_deregister_entry
);
EXPORT_SYMBOL
(
i2c_proc_real
);
EXPORT_SYMBOL
(
i2c_sysctl_real
);
EXPORT_SYMBOL
(
i2c_detect
);
MODULE_AUTHOR
(
"Frodo Looijaard <frodol@dds.nl>"
);
...
...
include/linux/i2c-proc.h
View file @
8e46a83e
...
...
@@ -34,46 +34,6 @@ typedef void (*i2c_real_callback) (struct i2c_client * client,
#define SENSORS_PROC_REAL_READ 2
#define SENSORS_PROC_REAL_WRITE 3
/* These funcion reads or writes a 'real' value (encoded by the combination
of an integer and a magnitude, the last is the power of ten the value
should be divided with) to a /proc/sys directory. To use these functions,
you must (before registering the ctl_table) set the extra2 field to the
client, and the extra1 field to a function of the form:
void func(struct i2c_client *client, int operation, int ctl_name,
int *nrels_mag, long *results)
This last function can be called for three values of operation. If
operation equals SENSORS_PROC_REAL_INFO, the magnitude should be returned
in nrels_mag. If operation equals SENSORS_PROC_REAL_READ, values should
be read into results. nrels_mag should return the number of elements
read; the maximum number is put in it on entry. Finally, if operation
equals SENSORS_PROC_REAL_WRITE, the values in results should be
written to the chip. nrels_mag contains on entry the number of elements
found.
In all cases, client points to the client we wish to interact with,
and ctl_name is the SYSCTL id of the file we are accessing. */
extern
int
i2c_sysctl_real
(
ctl_table
*
table
,
int
*
name
,
int
nlen
,
void
*
oldval
,
size_t
*
oldlenp
,
void
*
newval
,
size_t
newlen
,
void
**
context
);
extern
int
i2c_proc_real
(
ctl_table
*
ctl
,
int
write
,
struct
file
*
filp
,
void
*
buffer
,
size_t
*
lenp
);
/* These rather complex functions must be called when you want to add or
delete an entry in /proc/sys/dev/sensors/chips (not yet implemented). It
also creates a new directory within /proc/sys/dev/sensors/.
ctl_template should be a template of the newly created directory. It is
copied in memory. The extra2 field of each file is set to point to client.
If any driver wants subdirectories within the newly created directory,
these functions must be updated! */
extern
int
i2c_register_entry
(
struct
i2c_client
*
client
,
const
char
*
prefix
,
ctl_table
*
ctl_template
);
extern
void
i2c_deregister_entry
(
int
id
);
/* A structure containing detect information.
Force variables overrule all other variables; they force a detection on
that place. If a specific chip is given, the module blindly assumes this
...
...
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