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// SPDX-License-Identifier: GPL-2.0-only
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/*
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* w83l786ng . c - Linux kernel driver for hardware monitoring
* Copyright ( c ) 2007 Kevin Lo < kevlo @ kevlo . org >
*/
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/*
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* Supports following chips :
*
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* Chip # vin # fanin # pwm # temp wchipid vendid i2c ISA
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* w83l786ng 3 2 2 2 0x7b 0x5ca3 yes no
*/
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# include <linux/module.h>
# include <linux/init.h>
# include <linux/slab.h>
# include <linux/i2c.h>
# include <linux/hwmon.h>
# include <linux/hwmon-sysfs.h>
# include <linux/err.h>
# include <linux/mutex.h>
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# include <linux/jiffies.h>
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/* Addresses to scan */
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static const unsigned short normal_i2c [ ] = { 0x2e , 0x2f , I2C_CLIENT_END } ;
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/* Insmod parameters */
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static bool reset ;
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module_param ( reset , bool , 0 ) ;
MODULE_PARM_DESC ( reset , " Set to 1 to reset chip, not recommended " ) ;
# define W83L786NG_REG_IN_MIN(nr) (0x2C + (nr) * 2)
# define W83L786NG_REG_IN_MAX(nr) (0x2B + (nr) * 2)
# define W83L786NG_REG_IN(nr) ((nr) + 0x20)
# define W83L786NG_REG_FAN(nr) ((nr) + 0x28)
# define W83L786NG_REG_FAN_MIN(nr) ((nr) + 0x3B)
# define W83L786NG_REG_CONFIG 0x40
# define W83L786NG_REG_ALARM1 0x41
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# define W83L786NG_REG_ALARM2 0x42
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# define W83L786NG_REG_GPIO_EN 0x47
# define W83L786NG_REG_MAN_ID2 0x4C
# define W83L786NG_REG_MAN_ID1 0x4D
# define W83L786NG_REG_CHIP_ID 0x4E
# define W83L786NG_REG_DIODE 0x53
# define W83L786NG_REG_FAN_DIV 0x54
# define W83L786NG_REG_FAN_CFG 0x80
# define W83L786NG_REG_TOLERANCE 0x8D
static const u8 W83L786NG_REG_TEMP [ 2 ] [ 3 ] = {
{ 0x25 , /* TEMP 0 in DataSheet */
0x35 , /* TEMP 0 Over in DataSheet */
0x36 } , /* TEMP 0 Hyst in DataSheet */
{ 0x26 , /* TEMP 1 in DataSheet */
0x37 , /* TEMP 1 Over in DataSheet */
0x38 } /* TEMP 1 Hyst in DataSheet */
} ;
static const u8 W83L786NG_PWM_MODE_SHIFT [ ] = { 6 , 7 } ;
static const u8 W83L786NG_PWM_ENABLE_SHIFT [ ] = { 2 , 4 } ;
/* FAN Duty Cycle, be used to control */
static const u8 W83L786NG_REG_PWM [ ] = { 0x81 , 0x87 } ;
static inline u8
FAN_TO_REG ( long rpm , int div )
{
if ( rpm = = 0 )
return 255 ;
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rpm = clamp_val ( rpm , 1 , 1000000 ) ;
return clamp_val ( ( 1350000 + rpm * div / 2 ) / ( rpm * div ) , 1 , 254 ) ;
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}
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# define FAN_FROM_REG(val, div) ((val) == 0 ? -1 : \
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( ( val ) = = 255 ? 0 : \
1350000 / ( ( val ) * ( div ) ) ) )
/* for temp */
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# define TEMP_TO_REG(val) (clamp_val(((val) < 0 ? (val) + 0x100 * 1000 \
: ( val ) ) / 1000 , 0 , 0xff ) )
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# define TEMP_FROM_REG(val) (((val) & 0x80 ? \
( val ) - 0x100 : ( val ) ) * 1000 )
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/*
* The analog voltage inputs have 8 mV LSB . Since the sysfs output is
* in mV as would be measured on the chip input pin , need to just
* multiply / divide by 8 to translate from / to register values .
*/
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# define IN_TO_REG(val) (clamp_val((((val) + 4) / 8), 0, 255))
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# define IN_FROM_REG(val) ((val) * 8)
# define DIV_FROM_REG(val) (1 << (val))
static inline u8
DIV_TO_REG ( long val )
{
int i ;
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val = clamp_val ( val , 1 , 128 ) > > 1 ;
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for ( i = 0 ; i < 7 ; i + + ) {
if ( val = = 0 )
break ;
val > > = 1 ;
}
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return ( u8 ) i ;
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}
struct w83l786ng_data {
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struct i2c_client * client ;
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struct mutex update_lock ;
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bool valid ; /* true if following fields are valid */
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unsigned long last_updated ; /* In jiffies */
unsigned long last_nonvolatile ; /* In jiffies, last time we update the
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* nonvolatile registers */
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u8 in [ 3 ] ;
u8 in_max [ 3 ] ;
u8 in_min [ 3 ] ;
u8 fan [ 2 ] ;
u8 fan_div [ 2 ] ;
u8 fan_min [ 2 ] ;
u8 temp_type [ 2 ] ;
u8 temp [ 2 ] [ 3 ] ;
u8 pwm [ 2 ] ;
u8 pwm_mode [ 2 ] ; /* 0->DC variable voltage
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* 1 - > PWM variable duty cycle */
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u8 pwm_enable [ 2 ] ; /* 1->manual
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* 2 - > thermal cruise ( also called SmartFan I ) */
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u8 tolerance [ 2 ] ;
} ;
static u8
w83l786ng_read_value ( struct i2c_client * client , u8 reg )
{
return i2c_smbus_read_byte_data ( client , reg ) ;
}
static int
w83l786ng_write_value ( struct i2c_client * client , u8 reg , u8 value )
{
return i2c_smbus_write_byte_data ( client , reg , value ) ;
}
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static struct w83l786ng_data * w83l786ng_update_device ( struct device * dev )
{
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struct w83l786ng_data * data = dev_get_drvdata ( dev ) ;
struct i2c_client * client = data - > client ;
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int i , j ;
u8 reg_tmp , pwmcfg ;
mutex_lock ( & data - > update_lock ) ;
if ( time_after ( jiffies , data - > last_updated + HZ + HZ / 2 )
| | ! data - > valid ) {
dev_dbg ( & client - > dev , " Updating w83l786ng data. \n " ) ;
/* Update the voltages measured value and limits */
for ( i = 0 ; i < 3 ; i + + ) {
data - > in [ i ] = w83l786ng_read_value ( client ,
W83L786NG_REG_IN ( i ) ) ;
data - > in_min [ i ] = w83l786ng_read_value ( client ,
W83L786NG_REG_IN_MIN ( i ) ) ;
data - > in_max [ i ] = w83l786ng_read_value ( client ,
W83L786NG_REG_IN_MAX ( i ) ) ;
}
/* Update the fan counts and limits */
for ( i = 0 ; i < 2 ; i + + ) {
data - > fan [ i ] = w83l786ng_read_value ( client ,
W83L786NG_REG_FAN ( i ) ) ;
data - > fan_min [ i ] = w83l786ng_read_value ( client ,
W83L786NG_REG_FAN_MIN ( i ) ) ;
}
/* Update the fan divisor */
reg_tmp = w83l786ng_read_value ( client , W83L786NG_REG_FAN_DIV ) ;
data - > fan_div [ 0 ] = reg_tmp & 0x07 ;
data - > fan_div [ 1 ] = ( reg_tmp > > 4 ) & 0x07 ;
pwmcfg = w83l786ng_read_value ( client , W83L786NG_REG_FAN_CFG ) ;
for ( i = 0 ; i < 2 ; i + + ) {
data - > pwm_mode [ i ] =
( ( pwmcfg > > W83L786NG_PWM_MODE_SHIFT [ i ] ) & 1 )
? 0 : 1 ;
data - > pwm_enable [ i ] =
( ( pwmcfg > > W83L786NG_PWM_ENABLE_SHIFT [ i ] ) & 3 ) + 1 ;
data - > pwm [ i ] =
( w83l786ng_read_value ( client , W83L786NG_REG_PWM [ i ] )
& 0x0f ) * 0x11 ;
}
/* Update the temperature sensors */
for ( i = 0 ; i < 2 ; i + + ) {
for ( j = 0 ; j < 3 ; j + + ) {
data - > temp [ i ] [ j ] = w83l786ng_read_value ( client ,
W83L786NG_REG_TEMP [ i ] [ j ] ) ;
}
}
/* Update Smart Fan I/II tolerance */
reg_tmp = w83l786ng_read_value ( client , W83L786NG_REG_TOLERANCE ) ;
data - > tolerance [ 0 ] = reg_tmp & 0x0f ;
data - > tolerance [ 1 ] = ( reg_tmp > > 4 ) & 0x0f ;
data - > last_updated = jiffies ;
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data - > valid = true ;
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}
mutex_unlock ( & data - > update_lock ) ;
return data ;
}
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/* following are the sysfs callback functions */
# define show_in_reg(reg) \
static ssize_t \
show_ # # reg ( struct device * dev , struct device_attribute * attr , \
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char * buf ) \
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{ \
int nr = to_sensor_dev_attr ( attr ) - > index ; \
struct w83l786ng_data * data = w83l786ng_update_device ( dev ) ; \
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return sprintf ( buf , " %d \n " , IN_FROM_REG ( data - > reg [ nr ] ) ) ; \
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}
show_in_reg ( in )
show_in_reg ( in_min )
show_in_reg ( in_max )
# define store_in_reg(REG, reg) \
static ssize_t \
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store_in_ # # reg ( struct device * dev , struct device_attribute * attr , \
const char * buf , size_t count ) \
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{ \
int nr = to_sensor_dev_attr ( attr ) - > index ; \
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struct w83l786ng_data * data = dev_get_drvdata ( dev ) ; \
struct i2c_client * client = data - > client ; \
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unsigned long val ; \
int err = kstrtoul ( buf , 10 , & val ) ; \
if ( err ) \
return err ; \
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mutex_lock ( & data - > update_lock ) ; \
data - > in_ # # reg [ nr ] = IN_TO_REG ( val ) ; \
w83l786ng_write_value ( client , W83L786NG_REG_IN_ # # REG ( nr ) , \
data - > in_ # # reg [ nr ] ) ; \
mutex_unlock ( & data - > update_lock ) ; \
return count ; \
}
store_in_reg ( MIN , min )
store_in_reg ( MAX , max )
static struct sensor_device_attribute sda_in_input [ ] = {
SENSOR_ATTR ( in0_input , S_IRUGO , show_in , NULL , 0 ) ,
SENSOR_ATTR ( in1_input , S_IRUGO , show_in , NULL , 1 ) ,
SENSOR_ATTR ( in2_input , S_IRUGO , show_in , NULL , 2 ) ,
} ;
static struct sensor_device_attribute sda_in_min [ ] = {
SENSOR_ATTR ( in0_min , S_IWUSR | S_IRUGO , show_in_min , store_in_min , 0 ) ,
SENSOR_ATTR ( in1_min , S_IWUSR | S_IRUGO , show_in_min , store_in_min , 1 ) ,
SENSOR_ATTR ( in2_min , S_IWUSR | S_IRUGO , show_in_min , store_in_min , 2 ) ,
} ;
static struct sensor_device_attribute sda_in_max [ ] = {
SENSOR_ATTR ( in0_max , S_IWUSR | S_IRUGO , show_in_max , store_in_max , 0 ) ,
SENSOR_ATTR ( in1_max , S_IWUSR | S_IRUGO , show_in_max , store_in_max , 1 ) ,
SENSOR_ATTR ( in2_max , S_IWUSR | S_IRUGO , show_in_max , store_in_max , 2 ) ,
} ;
# define show_fan_reg(reg) \
static ssize_t show_ # # reg ( struct device * dev , struct device_attribute * attr , \
char * buf ) \
{ \
int nr = to_sensor_dev_attr ( attr ) - > index ; \
struct w83l786ng_data * data = w83l786ng_update_device ( dev ) ; \
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return sprintf ( buf , " %d \n " , \
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FAN_FROM_REG ( data - > reg [ nr ] , DIV_FROM_REG ( data - > fan_div [ nr ] ) ) ) ; \
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}
show_fan_reg ( fan ) ;
show_fan_reg ( fan_min ) ;
static ssize_t
store_fan_min ( struct device * dev , struct device_attribute * attr ,
const char * buf , size_t count )
{
int nr = to_sensor_dev_attr ( attr ) - > index ;
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struct w83l786ng_data * data = dev_get_drvdata ( dev ) ;
struct i2c_client * client = data - > client ;
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unsigned long val ;
int err ;
err = kstrtoul ( buf , 10 , & val ) ;
if ( err )
return err ;
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mutex_lock ( & data - > update_lock ) ;
data - > fan_min [ nr ] = FAN_TO_REG ( val , DIV_FROM_REG ( data - > fan_div [ nr ] ) ) ;
w83l786ng_write_value ( client , W83L786NG_REG_FAN_MIN ( nr ) ,
data - > fan_min [ nr ] ) ;
mutex_unlock ( & data - > update_lock ) ;
return count ;
}
static ssize_t
show_fan_div ( struct device * dev , struct device_attribute * attr ,
char * buf )
{
int nr = to_sensor_dev_attr ( attr ) - > index ;
struct w83l786ng_data * data = w83l786ng_update_device ( dev ) ;
return sprintf ( buf , " %u \n " , DIV_FROM_REG ( data - > fan_div [ nr ] ) ) ;
}
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/*
* Note : we save and restore the fan minimum here , because its value is
* determined in part by the fan divisor . This follows the principle of
* least surprise ; the user doesn ' t expect the fan minimum to change just
* because the divisor changed .
*/
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static ssize_t
store_fan_div ( struct device * dev , struct device_attribute * attr ,
const char * buf , size_t count )
{
int nr = to_sensor_dev_attr ( attr ) - > index ;
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struct w83l786ng_data * data = dev_get_drvdata ( dev ) ;
struct i2c_client * client = data - > client ;
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unsigned long min ;
u8 tmp_fan_div ;
u8 fan_div_reg ;
u8 keep_mask = 0 ;
u8 new_shift = 0 ;
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unsigned long val ;
int err ;
err = kstrtoul ( buf , 10 , & val ) ;
if ( err )
return err ;
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/* Save fan_min */
mutex_lock ( & data - > update_lock ) ;
min = FAN_FROM_REG ( data - > fan_min [ nr ] , DIV_FROM_REG ( data - > fan_div [ nr ] ) ) ;
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data - > fan_div [ nr ] = DIV_TO_REG ( val ) ;
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switch ( nr ) {
case 0 :
keep_mask = 0xf8 ;
new_shift = 0 ;
break ;
case 1 :
keep_mask = 0x8f ;
new_shift = 4 ;
break ;
}
fan_div_reg = w83l786ng_read_value ( client , W83L786NG_REG_FAN_DIV )
& keep_mask ;
tmp_fan_div = ( data - > fan_div [ nr ] < < new_shift ) & ~ keep_mask ;
w83l786ng_write_value ( client , W83L786NG_REG_FAN_DIV ,
fan_div_reg | tmp_fan_div ) ;
/* Restore fan_min */
data - > fan_min [ nr ] = FAN_TO_REG ( min , DIV_FROM_REG ( data - > fan_div [ nr ] ) ) ;
w83l786ng_write_value ( client , W83L786NG_REG_FAN_MIN ( nr ) ,
data - > fan_min [ nr ] ) ;
mutex_unlock ( & data - > update_lock ) ;
return count ;
}
static struct sensor_device_attribute sda_fan_input [ ] = {
SENSOR_ATTR ( fan1_input , S_IRUGO , show_fan , NULL , 0 ) ,
SENSOR_ATTR ( fan2_input , S_IRUGO , show_fan , NULL , 1 ) ,
} ;
static struct sensor_device_attribute sda_fan_min [ ] = {
SENSOR_ATTR ( fan1_min , S_IWUSR | S_IRUGO , show_fan_min ,
store_fan_min , 0 ) ,
SENSOR_ATTR ( fan2_min , S_IWUSR | S_IRUGO , show_fan_min ,
store_fan_min , 1 ) ,
} ;
static struct sensor_device_attribute sda_fan_div [ ] = {
SENSOR_ATTR ( fan1_div , S_IWUSR | S_IRUGO , show_fan_div ,
store_fan_div , 0 ) ,
SENSOR_ATTR ( fan2_div , S_IWUSR | S_IRUGO , show_fan_div ,
store_fan_div , 1 ) ,
} ;
/* read/write the temperature, includes measured value and limits */
static ssize_t
show_temp ( struct device * dev , struct device_attribute * attr , char * buf )
{
struct sensor_device_attribute_2 * sensor_attr =
to_sensor_dev_attr_2 ( attr ) ;
int nr = sensor_attr - > nr ;
int index = sensor_attr - > index ;
struct w83l786ng_data * data = w83l786ng_update_device ( dev ) ;
return sprintf ( buf , " %d \n " , TEMP_FROM_REG ( data - > temp [ nr ] [ index ] ) ) ;
}
static ssize_t
store_temp ( struct device * dev , struct device_attribute * attr ,
const char * buf , size_t count )
{
struct sensor_device_attribute_2 * sensor_attr =
to_sensor_dev_attr_2 ( attr ) ;
int nr = sensor_attr - > nr ;
int index = sensor_attr - > index ;
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struct w83l786ng_data * data = dev_get_drvdata ( dev ) ;
struct i2c_client * client = data - > client ;
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long val ;
int err ;
err = kstrtol ( buf , 10 , & val ) ;
if ( err )
return err ;
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mutex_lock ( & data - > update_lock ) ;
data - > temp [ nr ] [ index ] = TEMP_TO_REG ( val ) ;
w83l786ng_write_value ( client , W83L786NG_REG_TEMP [ nr ] [ index ] ,
data - > temp [ nr ] [ index ] ) ;
mutex_unlock ( & data - > update_lock ) ;
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return count ;
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}
static struct sensor_device_attribute_2 sda_temp_input [ ] = {
SENSOR_ATTR_2 ( temp1_input , S_IRUGO , show_temp , NULL , 0 , 0 ) ,
SENSOR_ATTR_2 ( temp2_input , S_IRUGO , show_temp , NULL , 1 , 0 ) ,
} ;
static struct sensor_device_attribute_2 sda_temp_max [ ] = {
SENSOR_ATTR_2 ( temp1_max , S_IRUGO | S_IWUSR ,
show_temp , store_temp , 0 , 1 ) ,
SENSOR_ATTR_2 ( temp2_max , S_IRUGO | S_IWUSR ,
show_temp , store_temp , 1 , 1 ) ,
} ;
static struct sensor_device_attribute_2 sda_temp_max_hyst [ ] = {
SENSOR_ATTR_2 ( temp1_max_hyst , S_IRUGO | S_IWUSR ,
show_temp , store_temp , 0 , 2 ) ,
SENSOR_ATTR_2 ( temp2_max_hyst , S_IRUGO | S_IWUSR ,
show_temp , store_temp , 1 , 2 ) ,
} ;
# define show_pwm_reg(reg) \
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static ssize_t show_ # # reg ( struct device * dev , struct device_attribute * attr , \
char * buf ) \
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{ \
struct w83l786ng_data * data = w83l786ng_update_device ( dev ) ; \
int nr = to_sensor_dev_attr ( attr ) - > index ; \
return sprintf ( buf , " %d \n " , data - > reg [ nr ] ) ; \
}
show_pwm_reg ( pwm_mode )
show_pwm_reg ( pwm_enable )
show_pwm_reg ( pwm )
static ssize_t
store_pwm_mode ( struct device * dev , struct device_attribute * attr ,
const char * buf , size_t count )
{
int nr = to_sensor_dev_attr ( attr ) - > index ;
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struct w83l786ng_data * data = dev_get_drvdata ( dev ) ;
struct i2c_client * client = data - > client ;
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u8 reg ;
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unsigned long val ;
int err ;
err = kstrtoul ( buf , 10 , & val ) ;
if ( err )
return err ;
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if ( val > 1 )
return - EINVAL ;
mutex_lock ( & data - > update_lock ) ;
data - > pwm_mode [ nr ] = val ;
reg = w83l786ng_read_value ( client , W83L786NG_REG_FAN_CFG ) ;
reg & = ~ ( 1 < < W83L786NG_PWM_MODE_SHIFT [ nr ] ) ;
if ( ! val )
reg | = 1 < < W83L786NG_PWM_MODE_SHIFT [ nr ] ;
w83l786ng_write_value ( client , W83L786NG_REG_FAN_CFG , reg ) ;
mutex_unlock ( & data - > update_lock ) ;
return count ;
}
static ssize_t
store_pwm ( struct device * dev , struct device_attribute * attr ,
const char * buf , size_t count )
{
int nr = to_sensor_dev_attr ( attr ) - > index ;
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struct w83l786ng_data * data = dev_get_drvdata ( dev ) ;
struct i2c_client * client = data - > client ;
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unsigned long val ;
int err ;
err = kstrtoul ( buf , 10 , & val ) ;
if ( err )
return err ;
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val = clamp_val ( val , 0 , 255 ) ;
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val = DIV_ROUND_CLOSEST ( val , 0x11 ) ;
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mutex_lock ( & data - > update_lock ) ;
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data - > pwm [ nr ] = val * 0x11 ;
val | = w83l786ng_read_value ( client , W83L786NG_REG_PWM [ nr ] ) & 0xf0 ;
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w83l786ng_write_value ( client , W83L786NG_REG_PWM [ nr ] , val ) ;
mutex_unlock ( & data - > update_lock ) ;
return count ;
}
static ssize_t
store_pwm_enable ( struct device * dev , struct device_attribute * attr ,
const char * buf , size_t count )
{
int nr = to_sensor_dev_attr ( attr ) - > index ;
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struct w83l786ng_data * data = dev_get_drvdata ( dev ) ;
struct i2c_client * client = data - > client ;
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u8 reg ;
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unsigned long val ;
int err ;
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err = kstrtoul ( buf , 10 , & val ) ;
if ( err )
return err ;
if ( ! val | | val > 2 ) /* only modes 1 and 2 are supported */
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return - EINVAL ;
mutex_lock ( & data - > update_lock ) ;
reg = w83l786ng_read_value ( client , W83L786NG_REG_FAN_CFG ) ;
data - > pwm_enable [ nr ] = val ;
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reg & = ~ ( 0x03 < < W83L786NG_PWM_ENABLE_SHIFT [ nr ] ) ;
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reg | = ( val - 1 ) < < W83L786NG_PWM_ENABLE_SHIFT [ nr ] ;
w83l786ng_write_value ( client , W83L786NG_REG_FAN_CFG , reg ) ;
mutex_unlock ( & data - > update_lock ) ;
return count ;
}
static struct sensor_device_attribute sda_pwm [ ] = {
SENSOR_ATTR ( pwm1 , S_IWUSR | S_IRUGO , show_pwm , store_pwm , 0 ) ,
SENSOR_ATTR ( pwm2 , S_IWUSR | S_IRUGO , show_pwm , store_pwm , 1 ) ,
} ;
static struct sensor_device_attribute sda_pwm_mode [ ] = {
SENSOR_ATTR ( pwm1_mode , S_IWUSR | S_IRUGO , show_pwm_mode ,
store_pwm_mode , 0 ) ,
SENSOR_ATTR ( pwm2_mode , S_IWUSR | S_IRUGO , show_pwm_mode ,
store_pwm_mode , 1 ) ,
} ;
static struct sensor_device_attribute sda_pwm_enable [ ] = {
SENSOR_ATTR ( pwm1_enable , S_IWUSR | S_IRUGO , show_pwm_enable ,
store_pwm_enable , 0 ) ,
SENSOR_ATTR ( pwm2_enable , S_IWUSR | S_IRUGO , show_pwm_enable ,
store_pwm_enable , 1 ) ,
} ;
/* For Smart Fan I/Thermal Cruise and Smart Fan II */
static ssize_t
show_tolerance ( struct device * dev , struct device_attribute * attr , char * buf )
{
int nr = to_sensor_dev_attr ( attr ) - > index ;
struct w83l786ng_data * data = w83l786ng_update_device ( dev ) ;
return sprintf ( buf , " %ld \n " , ( long ) data - > tolerance [ nr ] ) ;
}
static ssize_t
store_tolerance ( struct device * dev , struct device_attribute * attr ,
const char * buf , size_t count )
{
int nr = to_sensor_dev_attr ( attr ) - > index ;
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struct w83l786ng_data * data = dev_get_drvdata ( dev ) ;
struct i2c_client * client = data - > client ;
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u8 tol_tmp , tol_mask ;
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unsigned long val ;
int err ;
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err = kstrtoul ( buf , 10 , & val ) ;
if ( err )
return err ;
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mutex_lock ( & data - > update_lock ) ;
tol_mask = w83l786ng_read_value ( client ,
W83L786NG_REG_TOLERANCE ) & ( ( nr = = 1 ) ? 0x0f : 0xf0 ) ;
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tol_tmp = clamp_val ( val , 0 , 15 ) ;
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tol_tmp & = 0x0f ;
data - > tolerance [ nr ] = tol_tmp ;
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if ( nr = = 1 )
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tol_tmp < < = 4 ;
w83l786ng_write_value ( client , W83L786NG_REG_TOLERANCE ,
tol_mask | tol_tmp ) ;
mutex_unlock ( & data - > update_lock ) ;
return count ;
}
static struct sensor_device_attribute sda_tolerance [ ] = {
SENSOR_ATTR ( pwm1_tolerance , S_IWUSR | S_IRUGO ,
show_tolerance , store_tolerance , 0 ) ,
SENSOR_ATTR ( pwm2_tolerance , S_IWUSR | S_IRUGO ,
show_tolerance , store_tolerance , 1 ) ,
} ;
# define IN_UNIT_ATTRS(X) \
& sda_in_input [ X ] . dev_attr . attr , \
& sda_in_min [ X ] . dev_attr . attr , \
& sda_in_max [ X ] . dev_attr . attr
# define FAN_UNIT_ATTRS(X) \
& sda_fan_input [ X ] . dev_attr . attr , \
& sda_fan_min [ X ] . dev_attr . attr , \
& sda_fan_div [ X ] . dev_attr . attr
# define TEMP_UNIT_ATTRS(X) \
& sda_temp_input [ X ] . dev_attr . attr , \
& sda_temp_max [ X ] . dev_attr . attr , \
& sda_temp_max_hyst [ X ] . dev_attr . attr
# define PWM_UNIT_ATTRS(X) \
& sda_pwm [ X ] . dev_attr . attr , \
& sda_pwm_mode [ X ] . dev_attr . attr , \
& sda_pwm_enable [ X ] . dev_attr . attr
# define TOLERANCE_UNIT_ATTRS(X) \
& sda_tolerance [ X ] . dev_attr . attr
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static struct attribute * w83l786ng_attrs [ ] = {
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IN_UNIT_ATTRS ( 0 ) ,
IN_UNIT_ATTRS ( 1 ) ,
IN_UNIT_ATTRS ( 2 ) ,
FAN_UNIT_ATTRS ( 0 ) ,
FAN_UNIT_ATTRS ( 1 ) ,
TEMP_UNIT_ATTRS ( 0 ) ,
TEMP_UNIT_ATTRS ( 1 ) ,
PWM_UNIT_ATTRS ( 0 ) ,
PWM_UNIT_ATTRS ( 1 ) ,
TOLERANCE_UNIT_ATTRS ( 0 ) ,
TOLERANCE_UNIT_ATTRS ( 1 ) ,
NULL
} ;
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ATTRIBUTE_GROUPS ( w83l786ng ) ;
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static int
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w83l786ng_detect ( struct i2c_client * client , struct i2c_board_info * info )
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{
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struct i2c_adapter * adapter = client - > adapter ;
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u16 man_id ;
u8 chip_id ;
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if ( ! i2c_check_functionality ( adapter , I2C_FUNC_SMBUS_BYTE_DATA ) )
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return - ENODEV ;
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/* Detection */
if ( ( w83l786ng_read_value ( client , W83L786NG_REG_CONFIG ) & 0x80 ) ) {
dev_dbg ( & adapter - > dev , " W83L786NG detection failed at 0x%02x \n " ,
client - > addr ) ;
return - ENODEV ;
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}
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/* Identification */
man_id = ( w83l786ng_read_value ( client , W83L786NG_REG_MAN_ID1 ) < < 8 ) +
w83l786ng_read_value ( client , W83L786NG_REG_MAN_ID2 ) ;
chip_id = w83l786ng_read_value ( client , W83L786NG_REG_CHIP_ID ) ;
if ( man_id ! = 0x5CA3 | | /* Winbond */
chip_id ! = 0x80 ) { /* W83L786NG */
dev_dbg ( & adapter - > dev ,
" Unsupported chip (man_id=0x%04X, chip_id=0x%02X) \n " ,
man_id , chip_id ) ;
return - ENODEV ;
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}
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strscpy ( info - > type , " w83l786ng " , I2C_NAME_SIZE ) ;
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return 0 ;
}
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static void w83l786ng_init_client ( struct i2c_client * client )
{
u8 tmp ;
if ( reset )
w83l786ng_write_value ( client , W83L786NG_REG_CONFIG , 0x80 ) ;
/* Start monitoring */
tmp = w83l786ng_read_value ( client , W83L786NG_REG_CONFIG ) ;
if ( ! ( tmp & 0x01 ) )
w83l786ng_write_value ( client , W83L786NG_REG_CONFIG , tmp | 0x01 ) ;
}
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static int
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w83l786ng_probe ( struct i2c_client * client )
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{
struct device * dev = & client - > dev ;
struct w83l786ng_data * data ;
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struct device * hwmon_dev ;
int i ;
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u8 reg_tmp ;
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data = devm_kzalloc ( dev , sizeof ( struct w83l786ng_data ) , GFP_KERNEL ) ;
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if ( ! data )
return - ENOMEM ;
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data - > client = client ;
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mutex_init ( & data - > update_lock ) ;
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/* Initialize the chip */
w83l786ng_init_client ( client ) ;
/* A few vars need to be filled upon startup */
for ( i = 0 ; i < 2 ; i + + ) {
data - > fan_min [ i ] = w83l786ng_read_value ( client ,
W83L786NG_REG_FAN_MIN ( i ) ) ;
}
/* Update the fan divisor */
reg_tmp = w83l786ng_read_value ( client , W83L786NG_REG_FAN_DIV ) ;
data - > fan_div [ 0 ] = reg_tmp & 0x07 ;
data - > fan_div [ 1 ] = ( reg_tmp > > 4 ) & 0x07 ;
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hwmon_dev = devm_hwmon_device_register_with_groups ( dev , client - > name ,
data ,
w83l786ng_groups ) ;
return PTR_ERR_OR_ZERO ( hwmon_dev ) ;
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}
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static const struct i2c_device_id w83l786ng_id [ ] = {
{ " w83l786ng " , 0 } ,
{ }
} ;
MODULE_DEVICE_TABLE ( i2c , w83l786ng_id ) ;
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static struct i2c_driver w83l786ng_driver = {
. class = I2C_CLASS_HWMON ,
. driver = {
. name = " w83l786ng " ,
} ,
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. probe = w83l786ng_probe ,
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. id_table = w83l786ng_id ,
. detect = w83l786ng_detect ,
. address_list = normal_i2c ,
} ;
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module_i2c_driver ( w83l786ng_driver ) ;
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MODULE_AUTHOR ( " Kevin Lo " ) ;
MODULE_DESCRIPTION ( " w83l786ng driver " ) ;
MODULE_LICENSE ( " GPL " ) ;