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/*
* fscher . c - Part of lm_sensors , Linux kernel modules for hardware
* monitoring
* Copyright ( C ) 2003 , 2004 Reinhard Nissl < rnissl @ gmx . de >
*
* This program is free software ; you can redistribute it and / or modify
* it under the terms of the GNU General Public License as published by
* the Free Software Foundation ; either version 2 of the License , or
* ( at your option ) any later version .
*
* This program is distributed in the hope that it will be useful ,
* but WITHOUT ANY WARRANTY ; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE . See the
* GNU General Public License for more details .
*
* You should have received a copy of the GNU General Public License
* along with this program ; if not , write to the Free Software
* Foundation , Inc . , 675 Mass Ave , Cambridge , MA 0213 9 , USA .
*/
/*
* fujitsu siemens hermes chip ,
* module based on fscpos . c
* Copyright ( C ) 2000 Hermann Jung < hej @ odn . de >
* Copyright ( C ) 1998 , 1999 Frodo Looijaard < frodol @ dds . nl >
* and Philip Edelbrock < phil @ netroedge . com >
*/
# include <linux/module.h>
# include <linux/init.h>
# include <linux/slab.h>
# include <linux/jiffies.h>
# include <linux/i2c.h>
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# include <linux/hwmon.h>
# include <linux/err.h>
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# include <linux/mutex.h>
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# include <linux/sysfs.h>
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/*
* Addresses to scan
*/
static unsigned short normal_i2c [ ] = { 0x73 , I2C_CLIENT_END } ;
/*
* Insmod parameters
*/
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I2C_CLIENT_INSMOD_1 ( fscher ) ;
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/*
* The FSCHER registers
*/
/* chip identification */
# define FSCHER_REG_IDENT_0 0x00
# define FSCHER_REG_IDENT_1 0x01
# define FSCHER_REG_IDENT_2 0x02
# define FSCHER_REG_REVISION 0x03
/* global control and status */
# define FSCHER_REG_EVENT_STATE 0x04
# define FSCHER_REG_CONTROL 0x05
/* watchdog */
# define FSCHER_REG_WDOG_PRESET 0x28
# define FSCHER_REG_WDOG_STATE 0x23
# define FSCHER_REG_WDOG_CONTROL 0x21
/* fan 0 */
# define FSCHER_REG_FAN0_MIN 0x55
# define FSCHER_REG_FAN0_ACT 0x0e
# define FSCHER_REG_FAN0_STATE 0x0d
# define FSCHER_REG_FAN0_RIPPLE 0x0f
/* fan 1 */
# define FSCHER_REG_FAN1_MIN 0x65
# define FSCHER_REG_FAN1_ACT 0x6b
# define FSCHER_REG_FAN1_STATE 0x62
# define FSCHER_REG_FAN1_RIPPLE 0x6f
/* fan 2 */
# define FSCHER_REG_FAN2_MIN 0xb5
# define FSCHER_REG_FAN2_ACT 0xbb
# define FSCHER_REG_FAN2_STATE 0xb2
# define FSCHER_REG_FAN2_RIPPLE 0xbf
/* voltage supervision */
# define FSCHER_REG_VOLT_12 0x45
# define FSCHER_REG_VOLT_5 0x42
# define FSCHER_REG_VOLT_BATT 0x48
/* temperature 0 */
# define FSCHER_REG_TEMP0_ACT 0x64
# define FSCHER_REG_TEMP0_STATE 0x71
/* temperature 1 */
# define FSCHER_REG_TEMP1_ACT 0x32
# define FSCHER_REG_TEMP1_STATE 0x81
/* temperature 2 */
# define FSCHER_REG_TEMP2_ACT 0x35
# define FSCHER_REG_TEMP2_STATE 0x91
/*
* Functions declaration
*/
static int fscher_attach_adapter ( struct i2c_adapter * adapter ) ;
static int fscher_detect ( struct i2c_adapter * adapter , int address , int kind ) ;
static int fscher_detach_client ( struct i2c_client * client ) ;
static struct fscher_data * fscher_update_device ( struct device * dev ) ;
static void fscher_init_client ( struct i2c_client * client ) ;
static int fscher_read_value ( struct i2c_client * client , u8 reg ) ;
static int fscher_write_value ( struct i2c_client * client , u8 reg , u8 value ) ;
/*
* Driver data ( common to all clients )
*/
static struct i2c_driver fscher_driver = {
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. driver = {
. name = " fscher " ,
} ,
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. id = I2C_DRIVERID_FSCHER ,
. attach_adapter = fscher_attach_adapter ,
. detach_client = fscher_detach_client ,
} ;
/*
* Client data ( each client gets its own )
*/
struct fscher_data {
struct i2c_client client ;
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struct class_device * class_dev ;
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struct mutex update_lock ;
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char valid ; /* zero until following fields are valid */
unsigned long last_updated ; /* in jiffies */
/* register values */
u8 revision ; /* revision of chip */
u8 global_event ; /* global event status */
u8 global_control ; /* global control register */
u8 watchdog [ 3 ] ; /* watchdog */
u8 volt [ 3 ] ; /* 12, 5, battery voltage */
u8 temp_act [ 3 ] ; /* temperature */
u8 temp_status [ 3 ] ; /* status of sensor */
u8 fan_act [ 3 ] ; /* fans revolutions per second */
u8 fan_status [ 3 ] ; /* fan status */
u8 fan_min [ 3 ] ; /* fan min value for rps */
u8 fan_ripple [ 3 ] ; /* divider for rps */
} ;
/*
* Sysfs stuff
*/
# define sysfs_r(kind, sub, offset, reg) \
static ssize_t show_ # # kind # # sub ( struct fscher_data * , char * , int ) ; \
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static ssize_t show_ # # kind # # offset # # sub ( struct device * , struct device_attribute * attr , char * ) ; \
static ssize_t show_ # # kind # # offset # # sub ( struct device * dev , struct device_attribute * attr , char * buf ) \
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{ \
struct fscher_data * data = fscher_update_device ( dev ) ; \
return show_ # # kind # # sub ( data , buf , ( offset ) ) ; \
}
# define sysfs_w(kind, sub, offset, reg) \
static ssize_t set_ # # kind # # sub ( struct i2c_client * , struct fscher_data * , const char * , size_t , int , int ) ; \
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static ssize_t set_ # # kind # # offset # # sub ( struct device * , struct device_attribute * attr , const char * , size_t ) ; \
static ssize_t set_ # # kind # # offset # # sub ( struct device * dev , struct device_attribute * attr , const char * buf , size_t count ) \
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{ \
struct i2c_client * client = to_i2c_client ( dev ) ; \
struct fscher_data * data = i2c_get_clientdata ( client ) ; \
return set_ # # kind # # sub ( client , data , buf , count , ( offset ) , reg ) ; \
}
# define sysfs_rw_n(kind, sub, offset, reg) \
sysfs_r ( kind , sub , offset , reg ) \
sysfs_w ( kind , sub , offset , reg ) \
static DEVICE_ATTR ( kind # # offset # # sub , S_IRUGO | S_IWUSR , show_ # # kind # # offset # # sub , set_ # # kind # # offset # # sub ) ;
# define sysfs_rw(kind, sub, reg) \
sysfs_r ( kind , sub , 0 , reg ) \
sysfs_w ( kind , sub , 0 , reg ) \
static DEVICE_ATTR ( kind # # sub , S_IRUGO | S_IWUSR , show_ # # kind # # 0 # # sub , set_ # # kind # # 0 # # sub ) ;
# define sysfs_ro_n(kind, sub, offset, reg) \
sysfs_r ( kind , sub , offset , reg ) \
static DEVICE_ATTR ( kind # # offset # # sub , S_IRUGO , show_ # # kind # # offset # # sub , NULL ) ;
# define sysfs_ro(kind, sub, reg) \
sysfs_r ( kind , sub , 0 , reg ) \
static DEVICE_ATTR ( kind , S_IRUGO , show_ # # kind # # 0 # # sub , NULL ) ;
# define sysfs_fan(offset, reg_status, reg_min, reg_ripple, reg_act) \
sysfs_rw_n ( pwm , , offset , reg_min ) \
sysfs_rw_n ( fan , _status , offset , reg_status ) \
sysfs_rw_n ( fan , _div , offset , reg_ripple ) \
sysfs_ro_n ( fan , _input , offset , reg_act )
# define sysfs_temp(offset, reg_status, reg_act) \
sysfs_rw_n ( temp , _status , offset , reg_status ) \
sysfs_ro_n ( temp , _input , offset , reg_act )
# define sysfs_in(offset, reg_act) \
sysfs_ro_n ( in , _input , offset , reg_act )
# define sysfs_revision(reg_revision) \
sysfs_ro ( revision , , reg_revision )
# define sysfs_alarms(reg_events) \
sysfs_ro ( alarms , , reg_events )
# define sysfs_control(reg_control) \
sysfs_rw ( control , , reg_control )
# define sysfs_watchdog(reg_control, reg_status, reg_preset) \
sysfs_rw ( watchdog , _control , reg_control ) \
sysfs_rw ( watchdog , _status , reg_status ) \
sysfs_rw ( watchdog , _preset , reg_preset )
sysfs_fan ( 1 , FSCHER_REG_FAN0_STATE , FSCHER_REG_FAN0_MIN ,
FSCHER_REG_FAN0_RIPPLE , FSCHER_REG_FAN0_ACT )
sysfs_fan ( 2 , FSCHER_REG_FAN1_STATE , FSCHER_REG_FAN1_MIN ,
FSCHER_REG_FAN1_RIPPLE , FSCHER_REG_FAN1_ACT )
sysfs_fan ( 3 , FSCHER_REG_FAN2_STATE , FSCHER_REG_FAN2_MIN ,
FSCHER_REG_FAN2_RIPPLE , FSCHER_REG_FAN2_ACT )
sysfs_temp ( 1 , FSCHER_REG_TEMP0_STATE , FSCHER_REG_TEMP0_ACT )
sysfs_temp ( 2 , FSCHER_REG_TEMP1_STATE , FSCHER_REG_TEMP1_ACT )
sysfs_temp ( 3 , FSCHER_REG_TEMP2_STATE , FSCHER_REG_TEMP2_ACT )
sysfs_in ( 0 , FSCHER_REG_VOLT_12 )
sysfs_in ( 1 , FSCHER_REG_VOLT_5 )
sysfs_in ( 2 , FSCHER_REG_VOLT_BATT )
sysfs_revision ( FSCHER_REG_REVISION )
sysfs_alarms ( FSCHER_REG_EVENTS )
sysfs_control ( FSCHER_REG_CONTROL )
sysfs_watchdog ( FSCHER_REG_WDOG_CONTROL , FSCHER_REG_WDOG_STATE , FSCHER_REG_WDOG_PRESET )
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static struct attribute * fscher_attributes [ ] = {
& dev_attr_revision . attr ,
& dev_attr_alarms . attr ,
& dev_attr_control . attr ,
& dev_attr_watchdog_status . attr ,
& dev_attr_watchdog_control . attr ,
& dev_attr_watchdog_preset . attr ,
& dev_attr_in0_input . attr ,
& dev_attr_in1_input . attr ,
& dev_attr_in2_input . attr ,
& dev_attr_fan1_status . attr ,
& dev_attr_fan1_div . attr ,
& dev_attr_fan1_input . attr ,
& dev_attr_pwm1 . attr ,
& dev_attr_fan2_status . attr ,
& dev_attr_fan2_div . attr ,
& dev_attr_fan2_input . attr ,
& dev_attr_pwm2 . attr ,
& dev_attr_fan3_status . attr ,
& dev_attr_fan3_div . attr ,
& dev_attr_fan3_input . attr ,
& dev_attr_pwm3 . attr ,
& dev_attr_temp1_status . attr ,
& dev_attr_temp1_input . attr ,
& dev_attr_temp2_status . attr ,
& dev_attr_temp2_input . attr ,
& dev_attr_temp3_status . attr ,
& dev_attr_temp3_input . attr ,
NULL
} ;
static const struct attribute_group fscher_group = {
. attrs = fscher_attributes ,
} ;
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/*
* Real code
*/
static int fscher_attach_adapter ( struct i2c_adapter * adapter )
{
if ( ! ( adapter - > class & I2C_CLASS_HWMON ) )
return 0 ;
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return i2c_probe ( adapter , & addr_data , fscher_detect ) ;
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}
static int fscher_detect ( struct i2c_adapter * adapter , int address , int kind )
{
struct i2c_client * new_client ;
struct fscher_data * data ;
int err = 0 ;
if ( ! i2c_check_functionality ( adapter , I2C_FUNC_SMBUS_BYTE_DATA ) )
goto exit ;
/* OK. For now, we presume we have a valid client. We now create the
* client structure , even though we cannot fill it completely yet .
* But it allows us to access i2c_smbus_read_byte_data . */
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if ( ! ( data = kzalloc ( sizeof ( struct fscher_data ) , GFP_KERNEL ) ) ) {
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err = - ENOMEM ;
goto exit ;
}
/* The common I2C client data is placed right before the
* Hermes - specific data . */
new_client = & data - > client ;
i2c_set_clientdata ( new_client , data ) ;
new_client - > addr = address ;
new_client - > adapter = adapter ;
new_client - > driver = & fscher_driver ;
new_client - > flags = 0 ;
/* Do the remaining detection unless force or force_fscher parameter */
if ( kind < 0 ) {
if ( ( i2c_smbus_read_byte_data ( new_client ,
FSCHER_REG_IDENT_0 ) ! = 0x48 ) /* 'H' */
| | ( i2c_smbus_read_byte_data ( new_client ,
FSCHER_REG_IDENT_1 ) ! = 0x45 ) /* 'E' */
| | ( i2c_smbus_read_byte_data ( new_client ,
FSCHER_REG_IDENT_2 ) ! = 0x52 ) ) /* 'R' */
goto exit_free ;
}
/* Fill in the remaining client fields and put it into the
* global list */
strlcpy ( new_client - > name , " fscher " , I2C_NAME_SIZE ) ;
data - > valid = 0 ;
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mutex_init ( & data - > update_lock ) ;
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/* Tell the I2C layer a new client has arrived */
if ( ( err = i2c_attach_client ( new_client ) ) )
goto exit_free ;
fscher_init_client ( new_client ) ;
/* Register sysfs hooks */
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if ( ( err = sysfs_create_group ( & new_client - > dev . kobj , & fscher_group ) ) )
goto exit_detach ;
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data - > class_dev = hwmon_device_register ( & new_client - > dev ) ;
if ( IS_ERR ( data - > class_dev ) ) {
err = PTR_ERR ( data - > class_dev ) ;
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goto exit_remove_files ;
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}
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return 0 ;
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exit_remove_files :
sysfs_remove_group ( & new_client - > dev . kobj , & fscher_group ) ;
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exit_detach :
i2c_detach_client ( new_client ) ;
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exit_free :
kfree ( data ) ;
exit :
return err ;
}
static int fscher_detach_client ( struct i2c_client * client )
{
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struct fscher_data * data = i2c_get_clientdata ( client ) ;
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int err ;
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hwmon_device_unregister ( data - > class_dev ) ;
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sysfs_remove_group ( & client - > dev . kobj , & fscher_group ) ;
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if ( ( err = i2c_detach_client ( client ) ) )
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return err ;
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kfree ( data ) ;
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return 0 ;
}
static int fscher_read_value ( struct i2c_client * client , u8 reg )
{
dev_dbg ( & client - > dev , " read reg 0x%02x \n " , reg ) ;
return i2c_smbus_read_byte_data ( client , reg ) ;
}
static int fscher_write_value ( struct i2c_client * client , u8 reg , u8 value )
{
dev_dbg ( & client - > dev , " write reg 0x%02x, val 0x%02x \n " ,
reg , value ) ;
return i2c_smbus_write_byte_data ( client , reg , value ) ;
}
/* Called when we have found a new FSC Hermes. */
static void fscher_init_client ( struct i2c_client * client )
{
struct fscher_data * data = i2c_get_clientdata ( client ) ;
/* Read revision from chip */
data - > revision = fscher_read_value ( client , FSCHER_REG_REVISION ) ;
}
static struct fscher_data * fscher_update_device ( struct device * dev )
{
struct i2c_client * client = to_i2c_client ( dev ) ;
struct fscher_data * data = i2c_get_clientdata ( client ) ;
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mutex_lock ( & data - > update_lock ) ;
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if ( time_after ( jiffies , data - > last_updated + 2 * HZ ) | | ! data - > valid ) {
dev_dbg ( & client - > dev , " Starting fscher update \n " ) ;
data - > temp_act [ 0 ] = fscher_read_value ( client , FSCHER_REG_TEMP0_ACT ) ;
data - > temp_act [ 1 ] = fscher_read_value ( client , FSCHER_REG_TEMP1_ACT ) ;
data - > temp_act [ 2 ] = fscher_read_value ( client , FSCHER_REG_TEMP2_ACT ) ;
data - > temp_status [ 0 ] = fscher_read_value ( client , FSCHER_REG_TEMP0_STATE ) ;
data - > temp_status [ 1 ] = fscher_read_value ( client , FSCHER_REG_TEMP1_STATE ) ;
data - > temp_status [ 2 ] = fscher_read_value ( client , FSCHER_REG_TEMP2_STATE ) ;
data - > volt [ 0 ] = fscher_read_value ( client , FSCHER_REG_VOLT_12 ) ;
data - > volt [ 1 ] = fscher_read_value ( client , FSCHER_REG_VOLT_5 ) ;
data - > volt [ 2 ] = fscher_read_value ( client , FSCHER_REG_VOLT_BATT ) ;
data - > fan_act [ 0 ] = fscher_read_value ( client , FSCHER_REG_FAN0_ACT ) ;
data - > fan_act [ 1 ] = fscher_read_value ( client , FSCHER_REG_FAN1_ACT ) ;
data - > fan_act [ 2 ] = fscher_read_value ( client , FSCHER_REG_FAN2_ACT ) ;
data - > fan_status [ 0 ] = fscher_read_value ( client , FSCHER_REG_FAN0_STATE ) ;
data - > fan_status [ 1 ] = fscher_read_value ( client , FSCHER_REG_FAN1_STATE ) ;
data - > fan_status [ 2 ] = fscher_read_value ( client , FSCHER_REG_FAN2_STATE ) ;
data - > fan_min [ 0 ] = fscher_read_value ( client , FSCHER_REG_FAN0_MIN ) ;
data - > fan_min [ 1 ] = fscher_read_value ( client , FSCHER_REG_FAN1_MIN ) ;
data - > fan_min [ 2 ] = fscher_read_value ( client , FSCHER_REG_FAN2_MIN ) ;
data - > fan_ripple [ 0 ] = fscher_read_value ( client , FSCHER_REG_FAN0_RIPPLE ) ;
data - > fan_ripple [ 1 ] = fscher_read_value ( client , FSCHER_REG_FAN1_RIPPLE ) ;
data - > fan_ripple [ 2 ] = fscher_read_value ( client , FSCHER_REG_FAN2_RIPPLE ) ;
data - > watchdog [ 0 ] = fscher_read_value ( client , FSCHER_REG_WDOG_PRESET ) ;
data - > watchdog [ 1 ] = fscher_read_value ( client , FSCHER_REG_WDOG_STATE ) ;
data - > watchdog [ 2 ] = fscher_read_value ( client , FSCHER_REG_WDOG_CONTROL ) ;
data - > global_event = fscher_read_value ( client , FSCHER_REG_EVENT_STATE ) ;
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data - > global_control = fscher_read_value ( client ,
FSCHER_REG_CONTROL ) ;
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data - > last_updated = jiffies ;
data - > valid = 1 ;
}
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mutex_unlock ( & data - > update_lock ) ;
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return data ;
}
# define FAN_INDEX_FROM_NUM(nr) ((nr) - 1)
static ssize_t set_fan_status ( struct i2c_client * client , struct fscher_data * data ,
const char * buf , size_t count , int nr , int reg )
{
/* bits 0..1, 3..7 reserved => mask with 0x04 */
unsigned long v = simple_strtoul ( buf , NULL , 10 ) & 0x04 ;
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mutex_lock ( & data - > update_lock ) ;
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data - > fan_status [ FAN_INDEX_FROM_NUM ( nr ) ] & = ~ v ;
fscher_write_value ( client , reg , v ) ;
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mutex_unlock ( & data - > update_lock ) ;
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return count ;
}
static ssize_t show_fan_status ( struct fscher_data * data , char * buf , int nr )
{
/* bits 0..1, 3..7 reserved => mask with 0x04 */
return sprintf ( buf , " %u \n " , data - > fan_status [ FAN_INDEX_FROM_NUM ( nr ) ] & 0x04 ) ;
}
static ssize_t set_pwm ( struct i2c_client * client , struct fscher_data * data ,
const char * buf , size_t count , int nr , int reg )
{
unsigned long v = simple_strtoul ( buf , NULL , 10 ) ;
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mutex_lock ( & data - > update_lock ) ;
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data - > fan_min [ FAN_INDEX_FROM_NUM ( nr ) ] = v > 0xff ? 0xff : v ;
fscher_write_value ( client , reg , data - > fan_min [ FAN_INDEX_FROM_NUM ( nr ) ] ) ;
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mutex_unlock ( & data - > update_lock ) ;
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return count ;
}
static ssize_t show_pwm ( struct fscher_data * data , char * buf , int nr )
{
return sprintf ( buf , " %u \n " , data - > fan_min [ FAN_INDEX_FROM_NUM ( nr ) ] ) ;
}
static ssize_t set_fan_div ( struct i2c_client * client , struct fscher_data * data ,
const char * buf , size_t count , int nr , int reg )
{
/* supported values: 2, 4, 8 */
unsigned long v = simple_strtoul ( buf , NULL , 10 ) ;
switch ( v ) {
case 2 : v = 1 ; break ;
case 4 : v = 2 ; break ;
case 8 : v = 3 ; break ;
default :
dev_err ( & client - > dev , " fan_div value %ld not "
" supported. Choose one of 2, 4 or 8! \n " , v ) ;
return - EINVAL ;
}
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mutex_lock ( & data - > update_lock ) ;
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/* bits 2..7 reserved => mask with 0x03 */
data - > fan_ripple [ FAN_INDEX_FROM_NUM ( nr ) ] & = ~ 0x03 ;
data - > fan_ripple [ FAN_INDEX_FROM_NUM ( nr ) ] | = v ;
fscher_write_value ( client , reg , data - > fan_ripple [ FAN_INDEX_FROM_NUM ( nr ) ] ) ;
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mutex_unlock ( & data - > update_lock ) ;
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return count ;
}
static ssize_t show_fan_div ( struct fscher_data * data , char * buf , int nr )
{
/* bits 2..7 reserved => mask with 0x03 */
return sprintf ( buf , " %u \n " , 1 < < ( data - > fan_ripple [ FAN_INDEX_FROM_NUM ( nr ) ] & 0x03 ) ) ;
}
# define RPM_FROM_REG(val) (val*60)
static ssize_t show_fan_input ( struct fscher_data * data , char * buf , int nr )
{
return sprintf ( buf , " %u \n " , RPM_FROM_REG ( data - > fan_act [ FAN_INDEX_FROM_NUM ( nr ) ] ) ) ;
}
# define TEMP_INDEX_FROM_NUM(nr) ((nr) - 1)
static ssize_t set_temp_status ( struct i2c_client * client , struct fscher_data * data ,
const char * buf , size_t count , int nr , int reg )
{
/* bits 2..7 reserved, 0 read only => mask with 0x02 */
unsigned long v = simple_strtoul ( buf , NULL , 10 ) & 0x02 ;
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mutex_lock ( & data - > update_lock ) ;
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data - > temp_status [ TEMP_INDEX_FROM_NUM ( nr ) ] & = ~ v ;
fscher_write_value ( client , reg , v ) ;
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mutex_unlock ( & data - > update_lock ) ;
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return count ;
}
static ssize_t show_temp_status ( struct fscher_data * data , char * buf , int nr )
{
/* bits 2..7 reserved => mask with 0x03 */
return sprintf ( buf , " %u \n " , data - > temp_status [ TEMP_INDEX_FROM_NUM ( nr ) ] & 0x03 ) ;
}
# define TEMP_FROM_REG(val) (((val) - 128) * 1000)
static ssize_t show_temp_input ( struct fscher_data * data , char * buf , int nr )
{
return sprintf ( buf , " %d \n " , TEMP_FROM_REG ( data - > temp_act [ TEMP_INDEX_FROM_NUM ( nr ) ] ) ) ;
}
/*
* The final conversion is specified in sensors . conf , as it depends on
* mainboard specific values . We export the registers contents as
* pseudo - hundredths - of - Volts ( range 0 V - 2.55 V ) . Not that it makes much
* sense per se , but it minimizes the conversions count and keeps the
* values within a usual range .
*/
# define VOLT_FROM_REG(val) ((val) * 10)
static ssize_t show_in_input ( struct fscher_data * data , char * buf , int nr )
{
return sprintf ( buf , " %u \n " , VOLT_FROM_REG ( data - > volt [ nr ] ) ) ;
}
static ssize_t show_revision ( struct fscher_data * data , char * buf , int nr )
{
return sprintf ( buf , " %u \n " , data - > revision ) ;
}
static ssize_t show_alarms ( struct fscher_data * data , char * buf , int nr )
{
/* bits 2, 5..6 reserved => mask with 0x9b */
return sprintf ( buf , " %u \n " , data - > global_event & 0x9b ) ;
}
static ssize_t set_control ( struct i2c_client * client , struct fscher_data * data ,
const char * buf , size_t count , int nr , int reg )
{
/* bits 1..7 reserved => mask with 0x01 */
unsigned long v = simple_strtoul ( buf , NULL , 10 ) & 0x01 ;
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mutex_lock ( & data - > update_lock ) ;
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data - > global_control = v ;
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fscher_write_value ( client , reg , v ) ;
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mutex_unlock ( & data - > update_lock ) ;
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return count ;
}
static ssize_t show_control ( struct fscher_data * data , char * buf , int nr )
{
/* bits 1..7 reserved => mask with 0x01 */
return sprintf ( buf , " %u \n " , data - > global_control & 0x01 ) ;
}
static ssize_t set_watchdog_control ( struct i2c_client * client , struct
fscher_data * data , const char * buf , size_t count ,
int nr , int reg )
{
/* bits 0..3 reserved => mask with 0xf0 */
unsigned long v = simple_strtoul ( buf , NULL , 10 ) & 0xf0 ;
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mutex_lock ( & data - > update_lock ) ;
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data - > watchdog [ 2 ] & = ~ 0xf0 ;
data - > watchdog [ 2 ] | = v ;
fscher_write_value ( client , reg , data - > watchdog [ 2 ] ) ;
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mutex_unlock ( & data - > update_lock ) ;
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return count ;
}
static ssize_t show_watchdog_control ( struct fscher_data * data , char * buf , int nr )
{
/* bits 0..3 reserved, bit 5 write only => mask with 0xd0 */
return sprintf ( buf , " %u \n " , data - > watchdog [ 2 ] & 0xd0 ) ;
}
static ssize_t set_watchdog_status ( struct i2c_client * client , struct fscher_data * data ,
const char * buf , size_t count , int nr , int reg )
{
/* bits 0, 2..7 reserved => mask with 0x02 */
unsigned long v = simple_strtoul ( buf , NULL , 10 ) & 0x02 ;
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mutex_lock ( & data - > update_lock ) ;
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data - > watchdog [ 1 ] & = ~ v ;
fscher_write_value ( client , reg , v ) ;
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mutex_unlock ( & data - > update_lock ) ;
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return count ;
}
static ssize_t show_watchdog_status ( struct fscher_data * data , char * buf , int nr )
{
/* bits 0, 2..7 reserved => mask with 0x02 */
return sprintf ( buf , " %u \n " , data - > watchdog [ 1 ] & 0x02 ) ;
}
static ssize_t set_watchdog_preset ( struct i2c_client * client , struct fscher_data * data ,
const char * buf , size_t count , int nr , int reg )
{
unsigned long v = simple_strtoul ( buf , NULL , 10 ) & 0xff ;
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mutex_lock ( & data - > update_lock ) ;
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data - > watchdog [ 0 ] = v ;
fscher_write_value ( client , reg , data - > watchdog [ 0 ] ) ;
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mutex_unlock ( & data - > update_lock ) ;
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return count ;
}
static ssize_t show_watchdog_preset ( struct fscher_data * data , char * buf , int nr )
{
return sprintf ( buf , " %u \n " , data - > watchdog [ 0 ] ) ;
}
static int __init sensors_fscher_init ( void )
{
return i2c_add_driver ( & fscher_driver ) ;
}
static void __exit sensors_fscher_exit ( void )
{
i2c_del_driver ( & fscher_driver ) ;
}
MODULE_AUTHOR ( " Reinhard Nissl <rnissl@gmx.de> " ) ;
MODULE_DESCRIPTION ( " FSC Hermes driver " ) ;
MODULE_LICENSE ( " GPL " ) ;
module_init ( sensors_fscher_init ) ;
module_exit ( sensors_fscher_exit ) ;