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/*
* linux / drivers / mfd / ucb1x00 - core . c
*
* Copyright ( C ) 2001 Russell King , All Rights Reserved .
*
* 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 .
*
* The UCB1x00 core driver provides basic services for handling IO ,
* the ADC , interrupts , and accessing registers . It is designed
* such that everything goes through this layer , thereby providing
* a consistent locking methodology , as well as allowing the drivers
* to be used on other non - MCP - enabled hardware platforms .
*
* Note that all locks are private to this file . Nothing else may
* touch them .
*/
# include <linux/module.h>
# include <linux/kernel.h>
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# include <linux/sched.h>
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# include <linux/slab.h>
# include <linux/init.h>
# include <linux/errno.h>
# include <linux/interrupt.h>
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# include <linux/irq.h>
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# include <linux/device.h>
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# include <linux/mutex.h>
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# include <linux/mfd/ucb1x00.h>
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# include <linux/pm.h>
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# include <linux/gpio.h>
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static DEFINE_MUTEX ( ucb1x00_mutex ) ;
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static LIST_HEAD ( ucb1x00_drivers ) ;
static LIST_HEAD ( ucb1x00_devices ) ;
/**
* ucb1x00_io_set_dir - set IO direction
* @ ucb : UCB1x00 structure describing chip
* @ in : bitfield of IO pins to be set as inputs
* @ out : bitfield of IO pins to be set as outputs
*
* Set the IO direction of the ten general purpose IO pins on
* the UCB1x00 chip . The @ in bitfield has priority over the
* @ out bitfield , in that if you specify a pin as both input
* and output , it will end up as an input .
*
* ucb1x00_enable must have been called to enable the comms
* before using this function .
*
* This function takes a spinlock , disabling interrupts .
*/
void ucb1x00_io_set_dir ( struct ucb1x00 * ucb , unsigned int in , unsigned int out )
{
unsigned long flags ;
spin_lock_irqsave ( & ucb - > io_lock , flags ) ;
ucb - > io_dir | = out ;
ucb - > io_dir & = ~ in ;
ucb1x00_reg_write ( ucb , UCB_IO_DIR , ucb - > io_dir ) ;
spin_unlock_irqrestore ( & ucb - > io_lock , flags ) ;
}
/**
* ucb1x00_io_write - set or clear IO outputs
* @ ucb : UCB1x00 structure describing chip
* @ set : bitfield of IO pins to set to logic ' 1 '
* @ clear : bitfield of IO pins to set to logic ' 0 '
*
* Set the IO output state of the specified IO pins . The value
* is retained if the pins are subsequently configured as inputs .
* The @ clear bitfield has priority over the @ set bitfield -
* outputs will be cleared .
*
* ucb1x00_enable must have been called to enable the comms
* before using this function .
*
* This function takes a spinlock , disabling interrupts .
*/
void ucb1x00_io_write ( struct ucb1x00 * ucb , unsigned int set , unsigned int clear )
{
unsigned long flags ;
spin_lock_irqsave ( & ucb - > io_lock , flags ) ;
ucb - > io_out | = set ;
ucb - > io_out & = ~ clear ;
ucb1x00_reg_write ( ucb , UCB_IO_DATA , ucb - > io_out ) ;
spin_unlock_irqrestore ( & ucb - > io_lock , flags ) ;
}
/**
* ucb1x00_io_read - read the current state of the IO pins
* @ ucb : UCB1x00 structure describing chip
*
* Return a bitfield describing the logic state of the ten
* general purpose IO pins .
*
* ucb1x00_enable must have been called to enable the comms
* before using this function .
*
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* This function does not take any mutexes or spinlocks .
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*/
unsigned int ucb1x00_io_read ( struct ucb1x00 * ucb )
{
return ucb1x00_reg_read ( ucb , UCB_IO_DATA ) ;
}
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static void ucb1x00_gpio_set ( struct gpio_chip * chip , unsigned offset , int value )
{
struct ucb1x00 * ucb = container_of ( chip , struct ucb1x00 , gpio ) ;
unsigned long flags ;
spin_lock_irqsave ( & ucb - > io_lock , flags ) ;
if ( value )
ucb - > io_out | = 1 < < offset ;
else
ucb - > io_out & = ~ ( 1 < < offset ) ;
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ucb1x00_enable ( ucb ) ;
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ucb1x00_reg_write ( ucb , UCB_IO_DATA , ucb - > io_out ) ;
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ucb1x00_disable ( ucb ) ;
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spin_unlock_irqrestore ( & ucb - > io_lock , flags ) ;
}
static int ucb1x00_gpio_get ( struct gpio_chip * chip , unsigned offset )
{
struct ucb1x00 * ucb = container_of ( chip , struct ucb1x00 , gpio ) ;
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unsigned val ;
ucb1x00_enable ( ucb ) ;
val = ucb1x00_reg_read ( ucb , UCB_IO_DATA ) ;
ucb1x00_disable ( ucb ) ;
return val & ( 1 < < offset ) ;
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}
static int ucb1x00_gpio_direction_input ( struct gpio_chip * chip , unsigned offset )
{
struct ucb1x00 * ucb = container_of ( chip , struct ucb1x00 , gpio ) ;
unsigned long flags ;
spin_lock_irqsave ( & ucb - > io_lock , flags ) ;
ucb - > io_dir & = ~ ( 1 < < offset ) ;
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ucb1x00_enable ( ucb ) ;
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ucb1x00_reg_write ( ucb , UCB_IO_DIR , ucb - > io_dir ) ;
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ucb1x00_disable ( ucb ) ;
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spin_unlock_irqrestore ( & ucb - > io_lock , flags ) ;
return 0 ;
}
static int ucb1x00_gpio_direction_output ( struct gpio_chip * chip , unsigned offset
, int value )
{
struct ucb1x00 * ucb = container_of ( chip , struct ucb1x00 , gpio ) ;
unsigned long flags ;
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unsigned old , mask = 1 < < offset ;
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spin_lock_irqsave ( & ucb - > io_lock , flags ) ;
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old = ucb - > io_out ;
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if ( value )
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ucb - > io_out | = mask ;
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else
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ucb - > io_out & = ~ mask ;
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ucb1x00_enable ( ucb ) ;
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if ( old ! = ucb - > io_out )
ucb1x00_reg_write ( ucb , UCB_IO_DATA , ucb - > io_out ) ;
if ( ! ( ucb - > io_dir & mask ) ) {
ucb - > io_dir | = mask ;
ucb1x00_reg_write ( ucb , UCB_IO_DIR , ucb - > io_dir ) ;
}
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ucb1x00_disable ( ucb ) ;
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spin_unlock_irqrestore ( & ucb - > io_lock , flags ) ;
return 0 ;
}
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static int ucb1x00_to_irq ( struct gpio_chip * chip , unsigned offset )
{
struct ucb1x00 * ucb = container_of ( chip , struct ucb1x00 , gpio ) ;
return ucb - > irq_base > 0 ? ucb - > irq_base + offset : - ENXIO ;
}
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/*
* UCB1300 data sheet says we must :
* 1. enable ADC = > 5u s ( including reference startup time )
* 2. select input = > 51 * tsibclk = > 4.3 us
* 3. start conversion = > 102 * tsibclk = > 8.5 us
* ( tsibclk = 1 / 11981000 )
* Period between SIB 128 - bit frames = 10.7 us
*/
/**
* ucb1x00_adc_enable - enable the ADC converter
* @ ucb : UCB1x00 structure describing chip
*
* Enable the ucb1x00 and ADC converter on the UCB1x00 for use .
* Any code wishing to use the ADC converter must call this
* function prior to using it .
*
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* This function takes the ADC mutex to prevent two or more
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* concurrent uses , and therefore may sleep . As a result , it
* can only be called from process context , not interrupt
* context .
*
* You should release the ADC as soon as possible using
* ucb1x00_adc_disable .
*/
void ucb1x00_adc_enable ( struct ucb1x00 * ucb )
{
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mutex_lock ( & ucb - > adc_mutex ) ;
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ucb - > adc_cr | = UCB_ADC_ENA ;
ucb1x00_enable ( ucb ) ;
ucb1x00_reg_write ( ucb , UCB_ADC_CR , ucb - > adc_cr ) ;
}
/**
* ucb1x00_adc_read - read the specified ADC channel
* @ ucb : UCB1x00 structure describing chip
* @ adc_channel : ADC channel mask
* @ sync : wait for syncronisation pulse .
*
* Start an ADC conversion and wait for the result . Note that
* synchronised ADC conversions ( via the ADCSYNC pin ) must wait
* until the trigger is asserted and the conversion is finished .
*
* This function currently spins waiting for the conversion to
* complete ( 2 frames max without sync ) .
*
* If called for a synchronised ADC conversion , it may sleep
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* with the ADC mutex held .
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*/
unsigned int ucb1x00_adc_read ( struct ucb1x00 * ucb , int adc_channel , int sync )
{
unsigned int val ;
if ( sync )
adc_channel | = UCB_ADC_SYNC_ENA ;
ucb1x00_reg_write ( ucb , UCB_ADC_CR , ucb - > adc_cr | adc_channel ) ;
ucb1x00_reg_write ( ucb , UCB_ADC_CR , ucb - > adc_cr | adc_channel | UCB_ADC_START ) ;
for ( ; ; ) {
val = ucb1x00_reg_read ( ucb , UCB_ADC_DATA ) ;
if ( val & UCB_ADC_DAT_VAL )
break ;
/* yield to other processes */
set_current_state ( TASK_INTERRUPTIBLE ) ;
schedule_timeout ( 1 ) ;
}
return UCB_ADC_DAT ( val ) ;
}
/**
* ucb1x00_adc_disable - disable the ADC converter
* @ ucb : UCB1x00 structure describing chip
*
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* Disable the ADC converter and release the ADC mutex .
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*/
void ucb1x00_adc_disable ( struct ucb1x00 * ucb )
{
ucb - > adc_cr & = ~ UCB_ADC_ENA ;
ucb1x00_reg_write ( ucb , UCB_ADC_CR , ucb - > adc_cr ) ;
ucb1x00_disable ( ucb ) ;
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mutex_unlock ( & ucb - > adc_mutex ) ;
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}
/*
* UCB1x00 Interrupt handling .
*
* The UCB1x00 can generate interrupts when the SIBCLK is stopped .
* Since we need to read an internal register , we must re - enable
* SIBCLK to talk to the chip . We leave the clock running until
* we have finished processing all interrupts from the chip .
*/
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static void ucb1x00_irq ( unsigned int irq , struct irq_desc * desc )
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{
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struct ucb1x00 * ucb = irq_desc_get_handler_data ( desc ) ;
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unsigned int isr , i ;
ucb1x00_enable ( ucb ) ;
isr = ucb1x00_reg_read ( ucb , UCB_IE_STATUS ) ;
ucb1x00_reg_write ( ucb , UCB_IE_CLEAR , isr ) ;
ucb1x00_reg_write ( ucb , UCB_IE_CLEAR , 0 ) ;
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for ( i = 0 ; i < 16 & & isr ; i + + , isr > > = 1 , irq + + )
if ( isr & 1 )
generic_handle_irq ( ucb - > irq_base + i ) ;
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ucb1x00_disable ( ucb ) ;
}
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static void ucb1x00_irq_update ( struct ucb1x00 * ucb , unsigned mask )
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{
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ucb1x00_enable ( ucb ) ;
if ( ucb - > irq_ris_enbl & mask )
ucb1x00_reg_write ( ucb , UCB_IE_RIS , ucb - > irq_ris_enbl &
ucb - > irq_mask ) ;
if ( ucb - > irq_fal_enbl & mask )
ucb1x00_reg_write ( ucb , UCB_IE_FAL , ucb - > irq_fal_enbl &
ucb - > irq_mask ) ;
ucb1x00_disable ( ucb ) ;
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}
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static void ucb1x00_irq_noop ( struct irq_data * data )
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{
}
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static void ucb1x00_irq_mask ( struct irq_data * data )
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{
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struct ucb1x00 * ucb = irq_data_get_irq_chip_data ( data ) ;
unsigned mask = 1 < < ( data - > irq - ucb - > irq_base ) ;
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raw_spin_lock ( & ucb - > irq_lock ) ;
ucb - > irq_mask & = ~ mask ;
ucb1x00_irq_update ( ucb , mask ) ;
raw_spin_unlock ( & ucb - > irq_lock ) ;
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}
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static void ucb1x00_irq_unmask ( struct irq_data * data )
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{
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struct ucb1x00 * ucb = irq_data_get_irq_chip_data ( data ) ;
unsigned mask = 1 < < ( data - > irq - ucb - > irq_base ) ;
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raw_spin_lock ( & ucb - > irq_lock ) ;
ucb - > irq_mask | = mask ;
ucb1x00_irq_update ( ucb , mask ) ;
raw_spin_unlock ( & ucb - > irq_lock ) ;
}
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static int ucb1x00_irq_set_type ( struct irq_data * data , unsigned int type )
{
struct ucb1x00 * ucb = irq_data_get_irq_chip_data ( data ) ;
unsigned mask = 1 < < ( data - > irq - ucb - > irq_base ) ;
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raw_spin_lock ( & ucb - > irq_lock ) ;
if ( type & IRQ_TYPE_EDGE_RISING )
ucb - > irq_ris_enbl | = mask ;
else
ucb - > irq_ris_enbl & = ~ mask ;
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if ( type & IRQ_TYPE_EDGE_FALLING )
ucb - > irq_fal_enbl | = mask ;
else
ucb - > irq_fal_enbl & = ~ mask ;
if ( ucb - > irq_mask & mask ) {
ucb1x00_reg_write ( ucb , UCB_IE_RIS , ucb - > irq_ris_enbl &
ucb - > irq_mask ) ;
ucb1x00_reg_write ( ucb , UCB_IE_FAL , ucb - > irq_fal_enbl &
ucb - > irq_mask ) ;
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}
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raw_spin_unlock ( & ucb - > irq_lock ) ;
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return 0 ;
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}
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static int ucb1x00_irq_set_wake ( struct irq_data * data , unsigned int on )
{
struct ucb1x00 * ucb = irq_data_get_irq_chip_data ( data ) ;
struct ucb1x00_plat_data * pdata = ucb - > mcp - > attached_device . platform_data ;
unsigned mask = 1 < < ( data - > irq - ucb - > irq_base ) ;
if ( ! pdata | | ! pdata - > can_wakeup )
return - EINVAL ;
raw_spin_lock ( & ucb - > irq_lock ) ;
if ( on )
ucb - > irq_wake | = mask ;
else
ucb - > irq_wake & = ~ mask ;
raw_spin_unlock ( & ucb - > irq_lock ) ;
return 0 ;
}
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static struct irq_chip ucb1x00_irqchip = {
. name = " ucb1x00 " ,
. irq_ack = ucb1x00_irq_noop ,
. irq_mask = ucb1x00_irq_mask ,
. irq_unmask = ucb1x00_irq_unmask ,
. irq_set_type = ucb1x00_irq_set_type ,
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. irq_set_wake = ucb1x00_irq_set_wake ,
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} ;
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static int ucb1x00_add_dev ( struct ucb1x00 * ucb , struct ucb1x00_driver * drv )
{
struct ucb1x00_dev * dev ;
int ret = - ENOMEM ;
dev = kmalloc ( sizeof ( struct ucb1x00_dev ) , GFP_KERNEL ) ;
if ( dev ) {
dev - > ucb = ucb ;
dev - > drv = drv ;
ret = drv - > add ( dev ) ;
if ( ret = = 0 ) {
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list_add_tail ( & dev - > dev_node , & ucb - > devs ) ;
list_add_tail ( & dev - > drv_node , & drv - > devs ) ;
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} else {
kfree ( dev ) ;
}
}
return ret ;
}
static void ucb1x00_remove_dev ( struct ucb1x00_dev * dev )
{
dev - > drv - > remove ( dev ) ;
list_del ( & dev - > dev_node ) ;
list_del ( & dev - > drv_node ) ;
kfree ( dev ) ;
}
/*
* Try to probe our interrupt , rather than relying on lots of
* hard - coded machine dependencies . For reference , the expected
* IRQ mappings are :
*
* Machine Default IRQ
* adsbitsy IRQ_GPCIN4
* cerf IRQ_GPIO_UCB1200_IRQ
* flexanet IRQ_GPIO_GUI
* freebird IRQ_GPIO_FREEBIRD_UCB1300_IRQ
* graphicsclient ADS_EXT_IRQ ( 8 )
* graphicsmaster ADS_EXT_IRQ ( 8 )
* lart LART_IRQ_UCB1200
* omnimeter IRQ_GPIO23
* pfs168 IRQ_GPIO_UCB1300_IRQ
* simpad IRQ_GPIO_UCB1300_IRQ
* shannon SHANNON_IRQ_GPIO_IRQ_CODEC
* yopy IRQ_GPIO_UCB1200_IRQ
*/
static int ucb1x00_detect_irq ( struct ucb1x00 * ucb )
{
unsigned long mask ;
mask = probe_irq_on ( ) ;
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if ( ! mask ) {
probe_irq_off ( mask ) ;
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return NO_IRQ ;
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}
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/*
* Enable the ADC interrupt .
*/
ucb1x00_reg_write ( ucb , UCB_IE_RIS , UCB_IE_ADC ) ;
ucb1x00_reg_write ( ucb , UCB_IE_FAL , UCB_IE_ADC ) ;
ucb1x00_reg_write ( ucb , UCB_IE_CLEAR , 0xffff ) ;
ucb1x00_reg_write ( ucb , UCB_IE_CLEAR , 0 ) ;
/*
* Cause an ADC interrupt .
*/
ucb1x00_reg_write ( ucb , UCB_ADC_CR , UCB_ADC_ENA ) ;
ucb1x00_reg_write ( ucb , UCB_ADC_CR , UCB_ADC_ENA | UCB_ADC_START ) ;
/*
* Wait for the conversion to complete .
*/
while ( ( ucb1x00_reg_read ( ucb , UCB_ADC_DATA ) & UCB_ADC_DAT_VAL ) = = 0 ) ;
ucb1x00_reg_write ( ucb , UCB_ADC_CR , 0 ) ;
/*
* Disable and clear interrupt .
*/
ucb1x00_reg_write ( ucb , UCB_IE_RIS , 0 ) ;
ucb1x00_reg_write ( ucb , UCB_IE_FAL , 0 ) ;
ucb1x00_reg_write ( ucb , UCB_IE_CLEAR , 0xffff ) ;
ucb1x00_reg_write ( ucb , UCB_IE_CLEAR , 0 ) ;
/*
* Read triggered interrupt .
*/
return probe_irq_off ( mask ) ;
}
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static void ucb1x00_release ( struct device * dev )
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{
struct ucb1x00 * ucb = classdev_to_ucb1x00 ( dev ) ;
kfree ( ucb ) ;
}
static struct class ucb1x00_class = {
. name = " ucb1x00 " ,
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. dev_release = ucb1x00_release ,
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} ;
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static int ucb1x00_probe ( struct mcp * mcp )
{
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struct ucb1x00_plat_data * pdata = mcp - > attached_device . platform_data ;
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struct ucb1x00_driver * drv ;
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struct ucb1x00 * ucb ;
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unsigned id , i , irq_base ;
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int ret = - ENODEV ;
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/* Tell the platform to deassert the UCB1x00 reset */
if ( pdata & & pdata - > reset )
pdata - > reset ( UCB_RST_PROBE ) ;
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mcp_enable ( mcp ) ;
id = mcp_reg_read ( mcp , UCB_ID ) ;
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mcp_disable ( mcp ) ;
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if ( id ! = UCB_ID_1200 & & id ! = UCB_ID_1300 & & id ! = UCB_ID_TC35143 ) {
printk ( KERN_WARNING " UCB1x00 ID not found: %04x \n " , id ) ;
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goto out ;
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}
some kmalloc/memset ->kzalloc (tree wide)
Transform some calls to kmalloc/memset to a single kzalloc (or kcalloc).
Here is a short excerpt of the semantic patch performing
this transformation:
@@
type T2;
expression x;
identifier f,fld;
expression E;
expression E1,E2;
expression e1,e2,e3,y;
statement S;
@@
x =
- kmalloc
+ kzalloc
(E1,E2)
... when != \(x->fld=E;\|y=f(...,x,...);\|f(...,x,...);\|x=E;\|while(...) S\|for(e1;e2;e3) S\)
- memset((T2)x,0,E1);
@@
expression E1,E2,E3;
@@
- kzalloc(E1 * E2,E3)
+ kcalloc(E1,E2,E3)
[akpm@linux-foundation.org: get kcalloc args the right way around]
Signed-off-by: Yoann Padioleau <padator@wanadoo.fr>
Cc: Richard Henderson <rth@twiddle.net>
Cc: Ivan Kokshaysky <ink@jurassic.park.msu.ru>
Acked-by: Russell King <rmk@arm.linux.org.uk>
Cc: Bryan Wu <bryan.wu@analog.com>
Acked-by: Jiri Slaby <jirislaby@gmail.com>
Cc: Dave Airlie <airlied@linux.ie>
Acked-by: Roland Dreier <rolandd@cisco.com>
Cc: Jiri Kosina <jkosina@suse.cz>
Acked-by: Dmitry Torokhov <dtor@mail.ru>
Cc: Benjamin Herrenschmidt <benh@kernel.crashing.org>
Acked-by: Mauro Carvalho Chehab <mchehab@infradead.org>
Acked-by: Pierre Ossman <drzeus-list@drzeus.cx>
Cc: Jeff Garzik <jeff@garzik.org>
Cc: "David S. Miller" <davem@davemloft.net>
Acked-by: Greg KH <greg@kroah.com>
Cc: James Bottomley <James.Bottomley@steeleye.com>
Cc: "Antonino A. Daplas" <adaplas@pol.net>
Signed-off-by: Andrew Morton <akpm@linux-foundation.org>
Signed-off-by: Linus Torvalds <torvalds@linux-foundation.org>
2007-07-19 12:49:03 +04:00
ucb = kzalloc ( sizeof ( struct ucb1x00 ) , GFP_KERNEL ) ;
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ret = - ENOMEM ;
if ( ! ucb )
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goto out ;
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device_initialize ( & ucb - > dev ) ;
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ucb - > dev . class = & ucb1x00_class ;
ucb - > dev . parent = & mcp - > attached_device ;
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dev_set_name ( & ucb - > dev , " ucb1x00 " ) ;
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raw_spin_lock_init ( & ucb - > irq_lock ) ;
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spin_lock_init ( & ucb - > io_lock ) ;
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mutex_init ( & ucb - > adc_mutex ) ;
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ucb - > id = id ;
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ucb - > mcp = mcp ;
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ret = device_add ( & ucb - > dev ) ;
if ( ret )
goto err_dev_add ;
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ucb1x00_enable ( ucb ) ;
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ucb - > irq = ucb1x00_detect_irq ( ucb ) ;
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ucb1x00_disable ( ucb ) ;
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if ( ucb - > irq = = NO_IRQ ) {
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dev_err ( & ucb - > dev , " IRQ probe failed \n " ) ;
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ret = - ENODEV ;
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goto err_no_irq ;
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}
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ucb - > gpio . base = - 1 ;
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irq_base = pdata ? pdata - > irq_base : 0 ;
ucb - > irq_base = irq_alloc_descs ( - 1 , irq_base , 16 , - 1 ) ;
if ( ucb - > irq_base < 0 ) {
dev_err ( & ucb - > dev , " unable to allocate 16 irqs: %d \n " ,
ucb - > irq_base ) ;
goto err_irq_alloc ;
}
for ( i = 0 ; i < 16 ; i + + ) {
unsigned irq = ucb - > irq_base + i ;
irq_set_chip_and_handler ( irq , & ucb1x00_irqchip , handle_edge_irq ) ;
irq_set_chip_data ( irq , ucb ) ;
set_irq_flags ( irq , IRQF_VALID | IRQ_NOREQUEST ) ;
}
irq_set_irq_type ( ucb - > irq , IRQ_TYPE_EDGE_RISING ) ;
irq_set_handler_data ( ucb - > irq , ucb ) ;
irq_set_chained_handler ( ucb - > irq , ucb1x00_irq ) ;
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if ( pdata & & pdata - > gpio_base ) {
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ucb - > gpio . label = dev_name ( & ucb - > dev ) ;
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ucb - > gpio . dev = & ucb - > dev ;
ucb - > gpio . owner = THIS_MODULE ;
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ucb - > gpio . base = pdata - > gpio_base ;
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ucb - > gpio . ngpio = 10 ;
ucb - > gpio . set = ucb1x00_gpio_set ;
ucb - > gpio . get = ucb1x00_gpio_get ;
ucb - > gpio . direction_input = ucb1x00_gpio_direction_input ;
ucb - > gpio . direction_output = ucb1x00_gpio_direction_output ;
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ucb - > gpio . to_irq = ucb1x00_to_irq ;
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ret = gpiochip_add ( & ucb - > gpio ) ;
if ( ret )
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goto err_gpio_add ;
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} else
dev_info ( & ucb - > dev , " gpio_base not set so no gpiolib support " ) ;
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mcp_set_drvdata ( mcp , ucb ) ;
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if ( pdata )
device_set_wakeup_capable ( & ucb - > dev , pdata - > can_wakeup ) ;
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INIT_LIST_HEAD ( & ucb - > devs ) ;
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mutex_lock ( & ucb1x00_mutex ) ;
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list_add_tail ( & ucb - > node , & ucb1x00_devices ) ;
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list_for_each_entry ( drv , & ucb1x00_drivers , node ) {
ucb1x00_add_dev ( ucb , drv ) ;
}
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mutex_unlock ( & ucb1x00_mutex ) ;
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return ret ;
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2012-01-21 18:45:17 +04:00
err_gpio_add :
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irq_set_chained_handler ( ucb - > irq , NULL ) ;
err_irq_alloc :
if ( ucb - > irq_base > 0 )
irq_free_descs ( ucb - > irq_base , 16 ) ;
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err_no_irq :
device_del ( & ucb - > dev ) ;
err_dev_add :
put_device ( & ucb - > dev ) ;
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out :
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if ( pdata & & pdata - > reset )
pdata - > reset ( UCB_RST_PROBE_FAIL ) ;
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return ret ;
}
static void ucb1x00_remove ( struct mcp * mcp )
{
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struct ucb1x00_plat_data * pdata = mcp - > attached_device . platform_data ;
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struct ucb1x00 * ucb = mcp_get_drvdata ( mcp ) ;
struct list_head * l , * n ;
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int ret ;
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mutex_lock ( & ucb1x00_mutex ) ;
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list_del ( & ucb - > node ) ;
list_for_each_safe ( l , n , & ucb - > devs ) {
struct ucb1x00_dev * dev = list_entry ( l , struct ucb1x00_dev , dev_node ) ;
ucb1x00_remove_dev ( dev ) ;
}
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mutex_unlock ( & ucb1x00_mutex ) ;
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2009-02-10 16:50:56 +03:00
if ( ucb - > gpio . base ! = - 1 ) {
ret = gpiochip_remove ( & ucb - > gpio ) ;
if ( ret )
dev_err ( & ucb - > dev , " Can't remove gpio chip: %d \n " , ret ) ;
}
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irq_set_chained_handler ( ucb - > irq , NULL ) ;
irq_free_descs ( ucb - > irq_base , 16 ) ;
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device_unregister ( & ucb - > dev ) ;
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if ( pdata & & pdata - > reset )
pdata - > reset ( UCB_RST_REMOVE ) ;
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}
int ucb1x00_register_driver ( struct ucb1x00_driver * drv )
{
struct ucb1x00 * ucb ;
INIT_LIST_HEAD ( & drv - > devs ) ;
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mutex_lock ( & ucb1x00_mutex ) ;
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list_add_tail ( & drv - > node , & ucb1x00_drivers ) ;
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list_for_each_entry ( ucb , & ucb1x00_devices , node ) {
ucb1x00_add_dev ( ucb , drv ) ;
}
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mutex_unlock ( & ucb1x00_mutex ) ;
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return 0 ;
}
void ucb1x00_unregister_driver ( struct ucb1x00_driver * drv )
{
struct list_head * n , * l ;
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mutex_lock ( & ucb1x00_mutex ) ;
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list_del ( & drv - > node ) ;
list_for_each_safe ( l , n , & drv - > devs ) {
struct ucb1x00_dev * dev = list_entry ( l , struct ucb1x00_dev , drv_node ) ;
ucb1x00_remove_dev ( dev ) ;
}
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mutex_unlock ( & ucb1x00_mutex ) ;
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}
2013-08-02 09:45:25 +04:00
# ifdef CONFIG_PM_SLEEP
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static int ucb1x00_suspend ( struct device * dev )
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{
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struct ucb1x00_plat_data * pdata = dev_get_platdata ( dev ) ;
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struct ucb1x00 * ucb = dev_get_drvdata ( dev ) ;
struct ucb1x00_dev * udev ;
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2006-01-12 21:43:35 +03:00
mutex_lock ( & ucb1x00_mutex ) ;
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list_for_each_entry ( udev , & ucb - > devs , dev_node ) {
if ( udev - > drv - > suspend )
udev - > drv - > suspend ( udev ) ;
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}
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mutex_unlock ( & ucb1x00_mutex ) ;
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if ( ucb - > irq_wake ) {
unsigned long flags ;
raw_spin_lock_irqsave ( & ucb - > irq_lock , flags ) ;
ucb1x00_enable ( ucb ) ;
ucb1x00_reg_write ( ucb , UCB_IE_RIS , ucb - > irq_ris_enbl &
ucb - > irq_wake ) ;
ucb1x00_reg_write ( ucb , UCB_IE_FAL , ucb - > irq_fal_enbl &
ucb - > irq_wake ) ;
ucb1x00_disable ( ucb ) ;
raw_spin_unlock_irqrestore ( & ucb - > irq_lock , flags ) ;
enable_irq_wake ( ucb - > irq ) ;
} else if ( pdata & & pdata - > reset )
pdata - > reset ( UCB_RST_SUSPEND ) ;
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return 0 ;
}
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static int ucb1x00_resume ( struct device * dev )
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{
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struct ucb1x00_plat_data * pdata = dev_get_platdata ( dev ) ;
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struct ucb1x00 * ucb = dev_get_drvdata ( dev ) ;
struct ucb1x00_dev * udev ;
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2012-01-23 00:05:24 +04:00
if ( ! ucb - > irq_wake & & pdata & & pdata - > reset )
pdata - > reset ( UCB_RST_RESUME ) ;
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ucb1x00_enable ( ucb ) ;
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ucb1x00_reg_write ( ucb , UCB_IO_DATA , ucb - > io_out ) ;
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ucb1x00_reg_write ( ucb , UCB_IO_DIR , ucb - > io_dir ) ;
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if ( ucb - > irq_wake ) {
unsigned long flags ;
raw_spin_lock_irqsave ( & ucb - > irq_lock , flags ) ;
ucb1x00_reg_write ( ucb , UCB_IE_RIS , ucb - > irq_ris_enbl &
ucb - > irq_mask ) ;
ucb1x00_reg_write ( ucb , UCB_IE_FAL , ucb - > irq_fal_enbl &
ucb - > irq_mask ) ;
raw_spin_unlock_irqrestore ( & ucb - > irq_lock , flags ) ;
disable_irq_wake ( ucb - > irq ) ;
}
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ucb1x00_disable ( ucb ) ;
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2006-01-12 21:43:35 +03:00
mutex_lock ( & ucb1x00_mutex ) ;
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list_for_each_entry ( udev , & ucb - > devs , dev_node ) {
if ( udev - > drv - > resume )
udev - > drv - > resume ( udev ) ;
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}
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mutex_unlock ( & ucb1x00_mutex ) ;
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return 0 ;
}
2013-08-02 09:45:25 +04:00
# endif
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2012-01-21 20:36:30 +04:00
static const struct dev_pm_ops ucb1x00_pm_ops = {
SET_SYSTEM_SLEEP_PM_OPS ( ucb1x00_suspend , ucb1x00_resume )
} ;
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static struct mcp_driver ucb1x00_driver = {
. drv = {
. name = " ucb1x00 " ,
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. owner = THIS_MODULE ,
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. pm = & ucb1x00_pm_ops ,
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} ,
. probe = ucb1x00_probe ,
. remove = ucb1x00_remove ,
} ;
static int __init ucb1x00_init ( void )
{
int ret = class_register ( & ucb1x00_class ) ;
if ( ret = = 0 ) {
ret = mcp_driver_register ( & ucb1x00_driver ) ;
if ( ret )
class_unregister ( & ucb1x00_class ) ;
}
return ret ;
}
static void __exit ucb1x00_exit ( void )
{
mcp_driver_unregister ( & ucb1x00_driver ) ;
class_unregister ( & ucb1x00_class ) ;
}
module_init ( ucb1x00_init ) ;
module_exit ( ucb1x00_exit ) ;
EXPORT_SYMBOL ( ucb1x00_io_set_dir ) ;
EXPORT_SYMBOL ( ucb1x00_io_write ) ;
EXPORT_SYMBOL ( ucb1x00_io_read ) ;
EXPORT_SYMBOL ( ucb1x00_adc_enable ) ;
EXPORT_SYMBOL ( ucb1x00_adc_read ) ;
EXPORT_SYMBOL ( ucb1x00_adc_disable ) ;
EXPORT_SYMBOL ( ucb1x00_register_driver ) ;
EXPORT_SYMBOL ( ucb1x00_unregister_driver ) ;
2012-01-21 20:33:38 +04:00
MODULE_ALIAS ( " mcp:ucb1x00 " ) ;
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MODULE_AUTHOR ( " Russell King <rmk@arm.linux.org.uk> " ) ;
MODULE_DESCRIPTION ( " UCB1x00 core driver " ) ;
MODULE_LICENSE ( " GPL " ) ;