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/* linux/drivers/spi/spi_s3c64xx.c
*
* Copyright ( C ) 2009 Samsung Electronics Ltd .
* Jaswinder Singh < jassi . brar @ samsung . com >
*
* 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 .
*/
# include <linux/init.h>
# include <linux/module.h>
# include <linux/workqueue.h>
# include <linux/delay.h>
# include <linux/clk.h>
# include <linux/dma-mapping.h>
# include <linux/platform_device.h>
# include <linux/spi/spi.h>
# include <mach/dma.h>
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# include <plat/s3c64xx-spi.h>
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/* Registers and bit-fields */
# define S3C64XX_SPI_CH_CFG 0x00
# define S3C64XX_SPI_CLK_CFG 0x04
# define S3C64XX_SPI_MODE_CFG 0x08
# define S3C64XX_SPI_SLAVE_SEL 0x0C
# define S3C64XX_SPI_INT_EN 0x10
# define S3C64XX_SPI_STATUS 0x14
# define S3C64XX_SPI_TX_DATA 0x18
# define S3C64XX_SPI_RX_DATA 0x1C
# define S3C64XX_SPI_PACKET_CNT 0x20
# define S3C64XX_SPI_PENDING_CLR 0x24
# define S3C64XX_SPI_SWAP_CFG 0x28
# define S3C64XX_SPI_FB_CLK 0x2C
# define S3C64XX_SPI_CH_HS_EN (1<<6) /* High Speed Enable */
# define S3C64XX_SPI_CH_SW_RST (1<<5)
# define S3C64XX_SPI_CH_SLAVE (1<<4)
# define S3C64XX_SPI_CPOL_L (1<<3)
# define S3C64XX_SPI_CPHA_B (1<<2)
# define S3C64XX_SPI_CH_RXCH_ON (1<<1)
# define S3C64XX_SPI_CH_TXCH_ON (1<<0)
# define S3C64XX_SPI_CLKSEL_SRCMSK (3<<9)
# define S3C64XX_SPI_CLKSEL_SRCSHFT 9
# define S3C64XX_SPI_ENCLK_ENABLE (1<<8)
# define S3C64XX_SPI_PSR_MASK 0xff
# define S3C64XX_SPI_MODE_CH_TSZ_BYTE (0<<29)
# define S3C64XX_SPI_MODE_CH_TSZ_HALFWORD (1<<29)
# define S3C64XX_SPI_MODE_CH_TSZ_WORD (2<<29)
# define S3C64XX_SPI_MODE_CH_TSZ_MASK (3<<29)
# define S3C64XX_SPI_MODE_BUS_TSZ_BYTE (0<<17)
# define S3C64XX_SPI_MODE_BUS_TSZ_HALFWORD (1<<17)
# define S3C64XX_SPI_MODE_BUS_TSZ_WORD (2<<17)
# define S3C64XX_SPI_MODE_BUS_TSZ_MASK (3<<17)
# define S3C64XX_SPI_MODE_RXDMA_ON (1<<2)
# define S3C64XX_SPI_MODE_TXDMA_ON (1<<1)
# define S3C64XX_SPI_MODE_4BURST (1<<0)
# define S3C64XX_SPI_SLAVE_AUTO (1<<1)
# define S3C64XX_SPI_SLAVE_SIG_INACT (1<<0)
# define S3C64XX_SPI_ACT(c) writel(0, (c)->regs + S3C64XX_SPI_SLAVE_SEL)
# define S3C64XX_SPI_DEACT(c) writel(S3C64XX_SPI_SLAVE_SIG_INACT, \
( c ) - > regs + S3C64XX_SPI_SLAVE_SEL )
# define S3C64XX_SPI_INT_TRAILING_EN (1<<6)
# define S3C64XX_SPI_INT_RX_OVERRUN_EN (1<<5)
# define S3C64XX_SPI_INT_RX_UNDERRUN_EN (1<<4)
# define S3C64XX_SPI_INT_TX_OVERRUN_EN (1<<3)
# define S3C64XX_SPI_INT_TX_UNDERRUN_EN (1<<2)
# define S3C64XX_SPI_INT_RX_FIFORDY_EN (1<<1)
# define S3C64XX_SPI_INT_TX_FIFORDY_EN (1<<0)
# define S3C64XX_SPI_ST_RX_OVERRUN_ERR (1<<5)
# define S3C64XX_SPI_ST_RX_UNDERRUN_ERR (1<<4)
# define S3C64XX_SPI_ST_TX_OVERRUN_ERR (1<<3)
# define S3C64XX_SPI_ST_TX_UNDERRUN_ERR (1<<2)
# define S3C64XX_SPI_ST_RX_FIFORDY (1<<1)
# define S3C64XX_SPI_ST_TX_FIFORDY (1<<0)
# define S3C64XX_SPI_PACKET_CNT_EN (1<<16)
# define S3C64XX_SPI_PND_TX_UNDERRUN_CLR (1<<4)
# define S3C64XX_SPI_PND_TX_OVERRUN_CLR (1<<3)
# define S3C64XX_SPI_PND_RX_UNDERRUN_CLR (1<<2)
# define S3C64XX_SPI_PND_RX_OVERRUN_CLR (1<<1)
# define S3C64XX_SPI_PND_TRAILING_CLR (1<<0)
# define S3C64XX_SPI_SWAP_RX_HALF_WORD (1<<7)
# define S3C64XX_SPI_SWAP_RX_BYTE (1<<6)
# define S3C64XX_SPI_SWAP_RX_BIT (1<<5)
# define S3C64XX_SPI_SWAP_RX_EN (1<<4)
# define S3C64XX_SPI_SWAP_TX_HALF_WORD (1<<3)
# define S3C64XX_SPI_SWAP_TX_BYTE (1<<2)
# define S3C64XX_SPI_SWAP_TX_BIT (1<<1)
# define S3C64XX_SPI_SWAP_TX_EN (1<<0)
# define S3C64XX_SPI_FBCLK_MSK (3<<0)
# define S3C64XX_SPI_ST_TRLCNTZ(v, i) ((((v) >> (i)->rx_lvl_offset) & \
( ( ( i ) - > fifo_lvl_mask + 1 ) ) ) \
? 1 : 0 )
# define S3C64XX_SPI_ST_TX_DONE(v, i) ((((v) >> (i)->rx_lvl_offset) & \
( ( ( i ) - > fifo_lvl_mask + 1 ) < < 1 ) ) \
? 1 : 0 )
# define TX_FIFO_LVL(v, i) (((v) >> 6) & (i)->fifo_lvl_mask)
# define RX_FIFO_LVL(v, i) (((v) >> (i)->rx_lvl_offset) & (i)->fifo_lvl_mask)
# define S3C64XX_SPI_MAX_TRAILCNT 0x3ff
# define S3C64XX_SPI_TRAILCNT_OFF 19
# define S3C64XX_SPI_TRAILCNT S3C64XX_SPI_MAX_TRAILCNT
# define msecs_to_loops(t) (loops_per_jiffy / 1000 * HZ * t)
# define SUSPND (1<<0)
# define SPIBUSY (1<<1)
# define RXBUSY (1<<2)
# define TXBUSY (1<<3)
/**
* struct s3c64xx_spi_driver_data - Runtime info holder for SPI driver .
* @ clk : Pointer to the spi clock .
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* @ src_clk : Pointer to the clock used to generate SPI signals .
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* @ master : Pointer to the SPI Protocol master .
* @ workqueue : Work queue for the SPI xfer requests .
* @ cntrlr_info : Platform specific data for the controller this driver manages .
* @ tgl_spi : Pointer to the last CS left untoggled by the cs_change hint .
* @ work : Work
* @ queue : To log SPI xfer requests .
* @ lock : Controller specific lock .
* @ state : Set of FLAGS to indicate status .
* @ rx_dmach : Controller ' s DMA channel for Rx .
* @ tx_dmach : Controller ' s DMA channel for Tx .
* @ sfr_start : BUS address of SPI controller regs .
* @ regs : Pointer to ioremap ' ed controller registers .
* @ xfer_completion : To indicate completion of xfer task .
* @ cur_mode : Stores the active configuration of the controller .
* @ cur_bpw : Stores the active bits per word settings .
* @ cur_speed : Stores the active xfer clock speed .
*/
struct s3c64xx_spi_driver_data {
void __iomem * regs ;
struct clk * clk ;
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struct clk * src_clk ;
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struct platform_device * pdev ;
struct spi_master * master ;
struct workqueue_struct * workqueue ;
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struct s3c64xx_spi_info * cntrlr_info ;
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struct spi_device * tgl_spi ;
struct work_struct work ;
struct list_head queue ;
spinlock_t lock ;
enum dma_ch rx_dmach ;
enum dma_ch tx_dmach ;
unsigned long sfr_start ;
struct completion xfer_completion ;
unsigned state ;
unsigned cur_mode , cur_bpw ;
unsigned cur_speed ;
} ;
static struct s3c2410_dma_client s3c64xx_spi_dma_client = {
. name = " samsung-spi-dma " ,
} ;
static void flush_fifo ( struct s3c64xx_spi_driver_data * sdd )
{
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struct s3c64xx_spi_info * sci = sdd - > cntrlr_info ;
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void __iomem * regs = sdd - > regs ;
unsigned long loops ;
u32 val ;
writel ( 0 , regs + S3C64XX_SPI_PACKET_CNT ) ;
val = readl ( regs + S3C64XX_SPI_CH_CFG ) ;
val | = S3C64XX_SPI_CH_SW_RST ;
val & = ~ S3C64XX_SPI_CH_HS_EN ;
writel ( val , regs + S3C64XX_SPI_CH_CFG ) ;
/* Flush TxFIFO*/
loops = msecs_to_loops ( 1 ) ;
do {
val = readl ( regs + S3C64XX_SPI_STATUS ) ;
} while ( TX_FIFO_LVL ( val , sci ) & & loops - - ) ;
/* Flush RxFIFO*/
loops = msecs_to_loops ( 1 ) ;
do {
val = readl ( regs + S3C64XX_SPI_STATUS ) ;
if ( RX_FIFO_LVL ( val , sci ) )
readl ( regs + S3C64XX_SPI_RX_DATA ) ;
else
break ;
} while ( loops - - ) ;
val = readl ( regs + S3C64XX_SPI_CH_CFG ) ;
val & = ~ S3C64XX_SPI_CH_SW_RST ;
writel ( val , regs + S3C64XX_SPI_CH_CFG ) ;
val = readl ( regs + S3C64XX_SPI_MODE_CFG ) ;
val & = ~ ( S3C64XX_SPI_MODE_TXDMA_ON | S3C64XX_SPI_MODE_RXDMA_ON ) ;
writel ( val , regs + S3C64XX_SPI_MODE_CFG ) ;
val = readl ( regs + S3C64XX_SPI_CH_CFG ) ;
val & = ~ ( S3C64XX_SPI_CH_RXCH_ON | S3C64XX_SPI_CH_TXCH_ON ) ;
writel ( val , regs + S3C64XX_SPI_CH_CFG ) ;
}
static void enable_datapath ( struct s3c64xx_spi_driver_data * sdd ,
struct spi_device * spi ,
struct spi_transfer * xfer , int dma_mode )
{
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struct s3c64xx_spi_info * sci = sdd - > cntrlr_info ;
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void __iomem * regs = sdd - > regs ;
u32 modecfg , chcfg ;
modecfg = readl ( regs + S3C64XX_SPI_MODE_CFG ) ;
modecfg & = ~ ( S3C64XX_SPI_MODE_TXDMA_ON | S3C64XX_SPI_MODE_RXDMA_ON ) ;
chcfg = readl ( regs + S3C64XX_SPI_CH_CFG ) ;
chcfg & = ~ S3C64XX_SPI_CH_TXCH_ON ;
if ( dma_mode ) {
chcfg & = ~ S3C64XX_SPI_CH_RXCH_ON ;
} else {
/* Always shift in data in FIFO, even if xfer is Tx only,
* this helps setting PCKT_CNT value for generating clocks
* as exactly needed .
*/
chcfg | = S3C64XX_SPI_CH_RXCH_ON ;
writel ( ( ( xfer - > len * 8 / sdd - > cur_bpw ) & 0xffff )
| S3C64XX_SPI_PACKET_CNT_EN ,
regs + S3C64XX_SPI_PACKET_CNT ) ;
}
if ( xfer - > tx_buf ! = NULL ) {
sdd - > state | = TXBUSY ;
chcfg | = S3C64XX_SPI_CH_TXCH_ON ;
if ( dma_mode ) {
modecfg | = S3C64XX_SPI_MODE_TXDMA_ON ;
s3c2410_dma_config ( sdd - > tx_dmach , 1 ) ;
s3c2410_dma_enqueue ( sdd - > tx_dmach , ( void * ) sdd ,
xfer - > tx_dma , xfer - > len ) ;
s3c2410_dma_ctrl ( sdd - > tx_dmach , S3C2410_DMAOP_START ) ;
} else {
unsigned char * buf = ( unsigned char * ) xfer - > tx_buf ;
int i = 0 ;
while ( i < xfer - > len )
writeb ( buf [ i + + ] , regs + S3C64XX_SPI_TX_DATA ) ;
}
}
if ( xfer - > rx_buf ! = NULL ) {
sdd - > state | = RXBUSY ;
if ( sci - > high_speed & & sdd - > cur_speed > = 30000000UL
& & ! ( sdd - > cur_mode & SPI_CPHA ) )
chcfg | = S3C64XX_SPI_CH_HS_EN ;
if ( dma_mode ) {
modecfg | = S3C64XX_SPI_MODE_RXDMA_ON ;
chcfg | = S3C64XX_SPI_CH_RXCH_ON ;
writel ( ( ( xfer - > len * 8 / sdd - > cur_bpw ) & 0xffff )
| S3C64XX_SPI_PACKET_CNT_EN ,
regs + S3C64XX_SPI_PACKET_CNT ) ;
s3c2410_dma_config ( sdd - > rx_dmach , 1 ) ;
s3c2410_dma_enqueue ( sdd - > rx_dmach , ( void * ) sdd ,
xfer - > rx_dma , xfer - > len ) ;
s3c2410_dma_ctrl ( sdd - > rx_dmach , S3C2410_DMAOP_START ) ;
}
}
writel ( modecfg , regs + S3C64XX_SPI_MODE_CFG ) ;
writel ( chcfg , regs + S3C64XX_SPI_CH_CFG ) ;
}
static inline void enable_cs ( struct s3c64xx_spi_driver_data * sdd ,
struct spi_device * spi )
{
struct s3c64xx_spi_csinfo * cs ;
if ( sdd - > tgl_spi ! = NULL ) { /* If last device toggled after mssg */
if ( sdd - > tgl_spi ! = spi ) { /* if last mssg on diff device */
/* Deselect the last toggled device */
cs = sdd - > tgl_spi - > controller_data ;
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cs - > set_level ( cs - > line ,
spi - > mode & SPI_CS_HIGH ? 0 : 1 ) ;
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}
sdd - > tgl_spi = NULL ;
}
cs = spi - > controller_data ;
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cs - > set_level ( cs - > line , spi - > mode & SPI_CS_HIGH ? 1 : 0 ) ;
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}
static int wait_for_xfer ( struct s3c64xx_spi_driver_data * sdd ,
struct spi_transfer * xfer , int dma_mode )
{
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struct s3c64xx_spi_info * sci = sdd - > cntrlr_info ;
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void __iomem * regs = sdd - > regs ;
unsigned long val ;
int ms ;
/* millisecs to xfer 'len' bytes @ 'cur_speed' */
ms = xfer - > len * 8 * 1000 / sdd - > cur_speed ;
ms + = 5 ; /* some tolerance */
if ( dma_mode ) {
val = msecs_to_jiffies ( ms ) + 10 ;
val = wait_for_completion_timeout ( & sdd - > xfer_completion , val ) ;
} else {
val = msecs_to_loops ( ms ) ;
do {
val = readl ( regs + S3C64XX_SPI_STATUS ) ;
} while ( RX_FIFO_LVL ( val , sci ) < xfer - > len & & - - val ) ;
}
if ( ! val )
return - EIO ;
if ( dma_mode ) {
u32 status ;
/*
* DmaTx returns after simply writing data in the FIFO ,
* w / o waiting for real transmission on the bus to finish .
* DmaRx returns only after Dma read data from FIFO which
* needs bus transmission to finish , so we don ' t worry if
* Xfer involved Rx ( with or without Tx ) .
*/
if ( xfer - > rx_buf = = NULL ) {
val = msecs_to_loops ( 10 ) ;
status = readl ( regs + S3C64XX_SPI_STATUS ) ;
while ( ( TX_FIFO_LVL ( status , sci )
| | ! S3C64XX_SPI_ST_TX_DONE ( status , sci ) )
& & - - val ) {
cpu_relax ( ) ;
status = readl ( regs + S3C64XX_SPI_STATUS ) ;
}
if ( ! val )
return - EIO ;
}
} else {
unsigned char * buf ;
int i ;
/* If it was only Tx */
if ( xfer - > rx_buf = = NULL ) {
sdd - > state & = ~ TXBUSY ;
return 0 ;
}
i = 0 ;
buf = xfer - > rx_buf ;
while ( i < xfer - > len )
buf [ i + + ] = readb ( regs + S3C64XX_SPI_RX_DATA ) ;
sdd - > state & = ~ RXBUSY ;
}
return 0 ;
}
static inline void disable_cs ( struct s3c64xx_spi_driver_data * sdd ,
struct spi_device * spi )
{
struct s3c64xx_spi_csinfo * cs = spi - > controller_data ;
if ( sdd - > tgl_spi = = spi )
sdd - > tgl_spi = NULL ;
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cs - > set_level ( cs - > line , spi - > mode & SPI_CS_HIGH ? 0 : 1 ) ;
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}
static void s3c64xx_spi_config ( struct s3c64xx_spi_driver_data * sdd )
{
void __iomem * regs = sdd - > regs ;
u32 val ;
/* Disable Clock */
val = readl ( regs + S3C64XX_SPI_CLK_CFG ) ;
val & = ~ S3C64XX_SPI_ENCLK_ENABLE ;
writel ( val , regs + S3C64XX_SPI_CLK_CFG ) ;
/* Set Polarity and Phase */
val = readl ( regs + S3C64XX_SPI_CH_CFG ) ;
val & = ~ ( S3C64XX_SPI_CH_SLAVE |
S3C64XX_SPI_CPOL_L |
S3C64XX_SPI_CPHA_B ) ;
if ( sdd - > cur_mode & SPI_CPOL )
val | = S3C64XX_SPI_CPOL_L ;
if ( sdd - > cur_mode & SPI_CPHA )
val | = S3C64XX_SPI_CPHA_B ;
writel ( val , regs + S3C64XX_SPI_CH_CFG ) ;
/* Set Channel & DMA Mode */
val = readl ( regs + S3C64XX_SPI_MODE_CFG ) ;
val & = ~ ( S3C64XX_SPI_MODE_BUS_TSZ_MASK
| S3C64XX_SPI_MODE_CH_TSZ_MASK ) ;
switch ( sdd - > cur_bpw ) {
case 32 :
val | = S3C64XX_SPI_MODE_BUS_TSZ_WORD ;
break ;
case 16 :
val | = S3C64XX_SPI_MODE_BUS_TSZ_HALFWORD ;
break ;
default :
val | = S3C64XX_SPI_MODE_BUS_TSZ_BYTE ;
break ;
}
val | = S3C64XX_SPI_MODE_CH_TSZ_BYTE ; /* Always 8bits wide */
writel ( val , regs + S3C64XX_SPI_MODE_CFG ) ;
/* Configure Clock */
val = readl ( regs + S3C64XX_SPI_CLK_CFG ) ;
val & = ~ S3C64XX_SPI_PSR_MASK ;
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val | = ( ( clk_get_rate ( sdd - > src_clk ) / sdd - > cur_speed / 2 - 1 )
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& S3C64XX_SPI_PSR_MASK ) ;
writel ( val , regs + S3C64XX_SPI_CLK_CFG ) ;
/* Enable Clock */
val = readl ( regs + S3C64XX_SPI_CLK_CFG ) ;
val | = S3C64XX_SPI_ENCLK_ENABLE ;
writel ( val , regs + S3C64XX_SPI_CLK_CFG ) ;
}
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static void s3c64xx_spi_dma_rxcb ( struct s3c2410_dma_chan * chan , void * buf_id ,
int size , enum s3c2410_dma_buffresult res )
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{
struct s3c64xx_spi_driver_data * sdd = buf_id ;
unsigned long flags ;
spin_lock_irqsave ( & sdd - > lock , flags ) ;
if ( res = = S3C2410_RES_OK )
sdd - > state & = ~ RXBUSY ;
else
dev_err ( & sdd - > pdev - > dev , " DmaAbrtRx-%d \n " , size ) ;
/* If the other done */
if ( ! ( sdd - > state & TXBUSY ) )
complete ( & sdd - > xfer_completion ) ;
spin_unlock_irqrestore ( & sdd - > lock , flags ) ;
}
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static void s3c64xx_spi_dma_txcb ( struct s3c2410_dma_chan * chan , void * buf_id ,
int size , enum s3c2410_dma_buffresult res )
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{
struct s3c64xx_spi_driver_data * sdd = buf_id ;
unsigned long flags ;
spin_lock_irqsave ( & sdd - > lock , flags ) ;
if ( res = = S3C2410_RES_OK )
sdd - > state & = ~ TXBUSY ;
else
dev_err ( & sdd - > pdev - > dev , " DmaAbrtTx-%d \n " , size ) ;
/* If the other done */
if ( ! ( sdd - > state & RXBUSY ) )
complete ( & sdd - > xfer_completion ) ;
spin_unlock_irqrestore ( & sdd - > lock , flags ) ;
}
# define XFER_DMAADDR_INVALID DMA_BIT_MASK(32)
static int s3c64xx_spi_map_mssg ( struct s3c64xx_spi_driver_data * sdd ,
struct spi_message * msg )
{
struct device * dev = & sdd - > pdev - > dev ;
struct spi_transfer * xfer ;
if ( msg - > is_dma_mapped )
return 0 ;
/* First mark all xfer unmapped */
list_for_each_entry ( xfer , & msg - > transfers , transfer_list ) {
xfer - > rx_dma = XFER_DMAADDR_INVALID ;
xfer - > tx_dma = XFER_DMAADDR_INVALID ;
}
/* Map until end or first fail */
list_for_each_entry ( xfer , & msg - > transfers , transfer_list ) {
if ( xfer - > tx_buf ! = NULL ) {
xfer - > tx_dma = dma_map_single ( dev , xfer - > tx_buf ,
xfer - > len , DMA_TO_DEVICE ) ;
if ( dma_mapping_error ( dev , xfer - > tx_dma ) ) {
dev_err ( dev , " dma_map_single Tx failed \n " ) ;
xfer - > tx_dma = XFER_DMAADDR_INVALID ;
return - ENOMEM ;
}
}
if ( xfer - > rx_buf ! = NULL ) {
xfer - > rx_dma = dma_map_single ( dev , xfer - > rx_buf ,
xfer - > len , DMA_FROM_DEVICE ) ;
if ( dma_mapping_error ( dev , xfer - > rx_dma ) ) {
dev_err ( dev , " dma_map_single Rx failed \n " ) ;
dma_unmap_single ( dev , xfer - > tx_dma ,
xfer - > len , DMA_TO_DEVICE ) ;
xfer - > tx_dma = XFER_DMAADDR_INVALID ;
xfer - > rx_dma = XFER_DMAADDR_INVALID ;
return - ENOMEM ;
}
}
}
return 0 ;
}
static void s3c64xx_spi_unmap_mssg ( struct s3c64xx_spi_driver_data * sdd ,
struct spi_message * msg )
{
struct device * dev = & sdd - > pdev - > dev ;
struct spi_transfer * xfer ;
if ( msg - > is_dma_mapped )
return ;
list_for_each_entry ( xfer , & msg - > transfers , transfer_list ) {
if ( xfer - > rx_buf ! = NULL
& & xfer - > rx_dma ! = XFER_DMAADDR_INVALID )
dma_unmap_single ( dev , xfer - > rx_dma ,
xfer - > len , DMA_FROM_DEVICE ) ;
if ( xfer - > tx_buf ! = NULL
& & xfer - > tx_dma ! = XFER_DMAADDR_INVALID )
dma_unmap_single ( dev , xfer - > tx_dma ,
xfer - > len , DMA_TO_DEVICE ) ;
}
}
static void handle_msg ( struct s3c64xx_spi_driver_data * sdd ,
struct spi_message * msg )
{
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struct s3c64xx_spi_info * sci = sdd - > cntrlr_info ;
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struct spi_device * spi = msg - > spi ;
struct s3c64xx_spi_csinfo * cs = spi - > controller_data ;
struct spi_transfer * xfer ;
int status = 0 , cs_toggle = 0 ;
u32 speed ;
u8 bpw ;
/* If Master's(controller) state differs from that needed by Slave */
if ( sdd - > cur_speed ! = spi - > max_speed_hz
| | sdd - > cur_mode ! = spi - > mode
| | sdd - > cur_bpw ! = spi - > bits_per_word ) {
sdd - > cur_bpw = spi - > bits_per_word ;
sdd - > cur_speed = spi - > max_speed_hz ;
sdd - > cur_mode = spi - > mode ;
s3c64xx_spi_config ( sdd ) ;
}
/* Map all the transfers if needed */
if ( s3c64xx_spi_map_mssg ( sdd , msg ) ) {
dev_err ( & spi - > dev ,
" Xfer: Unable to map message buffers! \n " ) ;
status = - ENOMEM ;
goto out ;
}
/* Configure feedback delay */
writel ( cs - > fb_delay & 0x3 , sdd - > regs + S3C64XX_SPI_FB_CLK ) ;
list_for_each_entry ( xfer , & msg - > transfers , transfer_list ) {
unsigned long flags ;
int use_dma ;
INIT_COMPLETION ( sdd - > xfer_completion ) ;
/* Only BPW and Speed may change across transfers */
bpw = xfer - > bits_per_word ? : spi - > bits_per_word ;
speed = xfer - > speed_hz ? : spi - > max_speed_hz ;
if ( bpw ! = sdd - > cur_bpw | | speed ! = sdd - > cur_speed ) {
sdd - > cur_bpw = bpw ;
sdd - > cur_speed = speed ;
s3c64xx_spi_config ( sdd ) ;
}
/* Polling method for xfers not bigger than FIFO capacity */
if ( xfer - > len < = ( ( sci - > fifo_lvl_mask > > 1 ) + 1 ) )
use_dma = 0 ;
else
use_dma = 1 ;
spin_lock_irqsave ( & sdd - > lock , flags ) ;
/* Pending only which is to be done */
sdd - > state & = ~ RXBUSY ;
sdd - > state & = ~ TXBUSY ;
enable_datapath ( sdd , spi , xfer , use_dma ) ;
/* Slave Select */
enable_cs ( sdd , spi ) ;
/* Start the signals */
S3C64XX_SPI_ACT ( sdd ) ;
spin_unlock_irqrestore ( & sdd - > lock , flags ) ;
status = wait_for_xfer ( sdd , xfer , use_dma ) ;
/* Quiese the signals */
S3C64XX_SPI_DEACT ( sdd ) ;
if ( status ) {
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dev_err ( & spi - > dev , " I/O Error: "
" rx-%d tx-%d res:rx-%c tx-%c len-%d \n " ,
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xfer - > rx_buf ? 1 : 0 , xfer - > tx_buf ? 1 : 0 ,
( sdd - > state & RXBUSY ) ? ' f ' : ' p ' ,
( sdd - > state & TXBUSY ) ? ' f ' : ' p ' ,
xfer - > len ) ;
if ( use_dma ) {
if ( xfer - > tx_buf ! = NULL
& & ( sdd - > state & TXBUSY ) )
s3c2410_dma_ctrl ( sdd - > tx_dmach ,
S3C2410_DMAOP_FLUSH ) ;
if ( xfer - > rx_buf ! = NULL
& & ( sdd - > state & RXBUSY ) )
s3c2410_dma_ctrl ( sdd - > rx_dmach ,
S3C2410_DMAOP_FLUSH ) ;
}
goto out ;
}
if ( xfer - > delay_usecs )
udelay ( xfer - > delay_usecs ) ;
if ( xfer - > cs_change ) {
/* Hint that the next mssg is gonna be
for the same device */
if ( list_is_last ( & xfer - > transfer_list ,
& msg - > transfers ) )
cs_toggle = 1 ;
else
disable_cs ( sdd , spi ) ;
}
msg - > actual_length + = xfer - > len ;
flush_fifo ( sdd ) ;
}
out :
if ( ! cs_toggle | | status )
disable_cs ( sdd , spi ) ;
else
sdd - > tgl_spi = spi ;
s3c64xx_spi_unmap_mssg ( sdd , msg ) ;
msg - > status = status ;
if ( msg - > complete )
msg - > complete ( msg - > context ) ;
}
static int acquire_dma ( struct s3c64xx_spi_driver_data * sdd )
{
if ( s3c2410_dma_request ( sdd - > rx_dmach ,
& s3c64xx_spi_dma_client , NULL ) < 0 ) {
dev_err ( & sdd - > pdev - > dev , " cannot get RxDMA \n " ) ;
return 0 ;
}
s3c2410_dma_set_buffdone_fn ( sdd - > rx_dmach , s3c64xx_spi_dma_rxcb ) ;
s3c2410_dma_devconfig ( sdd - > rx_dmach , S3C2410_DMASRC_HW ,
sdd - > sfr_start + S3C64XX_SPI_RX_DATA ) ;
if ( s3c2410_dma_request ( sdd - > tx_dmach ,
& s3c64xx_spi_dma_client , NULL ) < 0 ) {
dev_err ( & sdd - > pdev - > dev , " cannot get TxDMA \n " ) ;
s3c2410_dma_free ( sdd - > rx_dmach , & s3c64xx_spi_dma_client ) ;
return 0 ;
}
s3c2410_dma_set_buffdone_fn ( sdd - > tx_dmach , s3c64xx_spi_dma_txcb ) ;
s3c2410_dma_devconfig ( sdd - > tx_dmach , S3C2410_DMASRC_MEM ,
sdd - > sfr_start + S3C64XX_SPI_TX_DATA ) ;
return 1 ;
}
static void s3c64xx_spi_work ( struct work_struct * work )
{
struct s3c64xx_spi_driver_data * sdd = container_of ( work ,
struct s3c64xx_spi_driver_data , work ) ;
unsigned long flags ;
/* Acquire DMA channels */
while ( ! acquire_dma ( sdd ) )
msleep ( 10 ) ;
spin_lock_irqsave ( & sdd - > lock , flags ) ;
while ( ! list_empty ( & sdd - > queue )
& & ! ( sdd - > state & SUSPND ) ) {
struct spi_message * msg ;
msg = container_of ( sdd - > queue . next , struct spi_message , queue ) ;
list_del_init ( & msg - > queue ) ;
/* Set Xfer busy flag */
sdd - > state | = SPIBUSY ;
spin_unlock_irqrestore ( & sdd - > lock , flags ) ;
handle_msg ( sdd , msg ) ;
spin_lock_irqsave ( & sdd - > lock , flags ) ;
sdd - > state & = ~ SPIBUSY ;
}
spin_unlock_irqrestore ( & sdd - > lock , flags ) ;
/* Free DMA channels */
s3c2410_dma_free ( sdd - > tx_dmach , & s3c64xx_spi_dma_client ) ;
s3c2410_dma_free ( sdd - > rx_dmach , & s3c64xx_spi_dma_client ) ;
}
static int s3c64xx_spi_transfer ( struct spi_device * spi ,
struct spi_message * msg )
{
struct s3c64xx_spi_driver_data * sdd ;
unsigned long flags ;
sdd = spi_master_get_devdata ( spi - > master ) ;
spin_lock_irqsave ( & sdd - > lock , flags ) ;
if ( sdd - > state & SUSPND ) {
spin_unlock_irqrestore ( & sdd - > lock , flags ) ;
return - ESHUTDOWN ;
}
msg - > status = - EINPROGRESS ;
msg - > actual_length = 0 ;
list_add_tail ( & msg - > queue , & sdd - > queue ) ;
queue_work ( sdd - > workqueue , & sdd - > work ) ;
spin_unlock_irqrestore ( & sdd - > lock , flags ) ;
return 0 ;
}
/*
* Here we only check the validity of requested configuration
* and save the configuration in a local data - structure .
* The controller is actually configured only just before we
* get a message to transfer .
*/
static int s3c64xx_spi_setup ( struct spi_device * spi )
{
struct s3c64xx_spi_csinfo * cs = spi - > controller_data ;
struct s3c64xx_spi_driver_data * sdd ;
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struct s3c64xx_spi_info * sci ;
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struct spi_message * msg ;
u32 psr , speed ;
unsigned long flags ;
int err = 0 ;
if ( cs = = NULL | | cs - > set_level = = NULL ) {
dev_err ( & spi - > dev , " No CS for SPI(%d) \n " , spi - > chip_select ) ;
return - ENODEV ;
}
sdd = spi_master_get_devdata ( spi - > master ) ;
sci = sdd - > cntrlr_info ;
spin_lock_irqsave ( & sdd - > lock , flags ) ;
list_for_each_entry ( msg , & sdd - > queue , queue ) {
/* Is some mssg is already queued for this device */
if ( msg - > spi = = spi ) {
dev_err ( & spi - > dev ,
" setup: attempt while mssg in queue! \n " ) ;
spin_unlock_irqrestore ( & sdd - > lock , flags ) ;
return - EBUSY ;
}
}
if ( sdd - > state & SUSPND ) {
spin_unlock_irqrestore ( & sdd - > lock , flags ) ;
dev_err ( & spi - > dev ,
" setup: SPI-%d not active! \n " , spi - > master - > bus_num ) ;
return - ESHUTDOWN ;
}
spin_unlock_irqrestore ( & sdd - > lock , flags ) ;
if ( spi - > bits_per_word ! = 8
& & spi - > bits_per_word ! = 16
& & spi - > bits_per_word ! = 32 ) {
dev_err ( & spi - > dev , " setup: %dbits/wrd not supported! \n " ,
spi - > bits_per_word ) ;
err = - EINVAL ;
goto setup_exit ;
}
/* Check if we can provide the requested rate */
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speed = clk_get_rate ( sdd - > src_clk ) / 2 / ( 0 + 1 ) ; /* Max possible */
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if ( spi - > max_speed_hz > speed )
spi - > max_speed_hz = speed ;
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psr = clk_get_rate ( sdd - > src_clk ) / 2 / spi - > max_speed_hz - 1 ;
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psr & = S3C64XX_SPI_PSR_MASK ;
if ( psr = = S3C64XX_SPI_PSR_MASK )
psr - - ;
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speed = clk_get_rate ( sdd - > src_clk ) / 2 / ( psr + 1 ) ;
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if ( spi - > max_speed_hz < speed ) {
if ( psr + 1 < S3C64XX_SPI_PSR_MASK ) {
psr + + ;
} else {
err = - EINVAL ;
goto setup_exit ;
}
}
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speed = clk_get_rate ( sdd - > src_clk ) / 2 / ( psr + 1 ) ;
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if ( spi - > max_speed_hz > = speed )
spi - > max_speed_hz = speed ;
else
err = - EINVAL ;
setup_exit :
/* setup() returns with device de-selected */
disable_cs ( sdd , spi ) ;
return err ;
}
static void s3c64xx_spi_hwinit ( struct s3c64xx_spi_driver_data * sdd , int channel )
{
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struct s3c64xx_spi_info * sci = sdd - > cntrlr_info ;
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void __iomem * regs = sdd - > regs ;
unsigned int val ;
sdd - > cur_speed = 0 ;
S3C64XX_SPI_DEACT ( sdd ) ;
/* Disable Interrupts - we use Polling if not DMA mode */
writel ( 0 , regs + S3C64XX_SPI_INT_EN ) ;
writel ( sci - > src_clk_nr < < S3C64XX_SPI_CLKSEL_SRCSHFT ,
regs + S3C64XX_SPI_CLK_CFG ) ;
writel ( 0 , regs + S3C64XX_SPI_MODE_CFG ) ;
writel ( 0 , regs + S3C64XX_SPI_PACKET_CNT ) ;
/* Clear any irq pending bits */
writel ( readl ( regs + S3C64XX_SPI_PENDING_CLR ) ,
regs + S3C64XX_SPI_PENDING_CLR ) ;
writel ( 0 , regs + S3C64XX_SPI_SWAP_CFG ) ;
val = readl ( regs + S3C64XX_SPI_MODE_CFG ) ;
val & = ~ S3C64XX_SPI_MODE_4BURST ;
val & = ~ ( S3C64XX_SPI_MAX_TRAILCNT < < S3C64XX_SPI_TRAILCNT_OFF ) ;
val | = ( S3C64XX_SPI_TRAILCNT < < S3C64XX_SPI_TRAILCNT_OFF ) ;
writel ( val , regs + S3C64XX_SPI_MODE_CFG ) ;
flush_fifo ( sdd ) ;
}
static int __init s3c64xx_spi_probe ( struct platform_device * pdev )
{
struct resource * mem_res , * dmatx_res , * dmarx_res ;
struct s3c64xx_spi_driver_data * sdd ;
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struct s3c64xx_spi_info * sci ;
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struct spi_master * master ;
int ret ;
if ( pdev - > id < 0 ) {
dev_err ( & pdev - > dev ,
" Invalid platform device id-%d \n " , pdev - > id ) ;
return - ENODEV ;
}
if ( pdev - > dev . platform_data = = NULL ) {
dev_err ( & pdev - > dev , " platform_data missing! \n " ) ;
return - ENODEV ;
}
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sci = pdev - > dev . platform_data ;
if ( ! sci - > src_clk_name ) {
dev_err ( & pdev - > dev ,
" Board init must call s3c64xx_spi_set_info() \n " ) ;
return - EINVAL ;
}
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/* Check for availability of necessary resource */
dmatx_res = platform_get_resource ( pdev , IORESOURCE_DMA , 0 ) ;
if ( dmatx_res = = NULL ) {
dev_err ( & pdev - > dev , " Unable to get SPI-Tx dma resource \n " ) ;
return - ENXIO ;
}
dmarx_res = platform_get_resource ( pdev , IORESOURCE_DMA , 1 ) ;
if ( dmarx_res = = NULL ) {
dev_err ( & pdev - > dev , " Unable to get SPI-Rx dma resource \n " ) ;
return - ENXIO ;
}
mem_res = platform_get_resource ( pdev , IORESOURCE_MEM , 0 ) ;
if ( mem_res = = NULL ) {
dev_err ( & pdev - > dev , " Unable to get SPI MEM resource \n " ) ;
return - ENXIO ;
}
master = spi_alloc_master ( & pdev - > dev ,
sizeof ( struct s3c64xx_spi_driver_data ) ) ;
if ( master = = NULL ) {
dev_err ( & pdev - > dev , " Unable to allocate SPI Master \n " ) ;
return - ENOMEM ;
}
platform_set_drvdata ( pdev , master ) ;
sdd = spi_master_get_devdata ( master ) ;
sdd - > master = master ;
sdd - > cntrlr_info = sci ;
sdd - > pdev = pdev ;
sdd - > sfr_start = mem_res - > start ;
sdd - > tx_dmach = dmatx_res - > start ;
sdd - > rx_dmach = dmarx_res - > start ;
sdd - > cur_bpw = 8 ;
master - > bus_num = pdev - > id ;
master - > setup = s3c64xx_spi_setup ;
master - > transfer = s3c64xx_spi_transfer ;
master - > num_chipselect = sci - > num_cs ;
master - > dma_alignment = 8 ;
/* the spi->mode bits understood by this driver: */
master - > mode_bits = SPI_CPOL | SPI_CPHA | SPI_CS_HIGH ;
if ( request_mem_region ( mem_res - > start ,
resource_size ( mem_res ) , pdev - > name ) = = NULL ) {
dev_err ( & pdev - > dev , " Req mem region failed \n " ) ;
ret = - ENXIO ;
goto err0 ;
}
sdd - > regs = ioremap ( mem_res - > start , resource_size ( mem_res ) ) ;
if ( sdd - > regs = = NULL ) {
dev_err ( & pdev - > dev , " Unable to remap IO \n " ) ;
ret = - ENXIO ;
goto err1 ;
}
if ( sci - > cfg_gpio = = NULL | | sci - > cfg_gpio ( pdev ) ) {
dev_err ( & pdev - > dev , " Unable to config gpio \n " ) ;
ret = - EBUSY ;
goto err2 ;
}
/* Setup clocks */
sdd - > clk = clk_get ( & pdev - > dev , " spi " ) ;
if ( IS_ERR ( sdd - > clk ) ) {
dev_err ( & pdev - > dev , " Unable to acquire clock 'spi' \n " ) ;
ret = PTR_ERR ( sdd - > clk ) ;
goto err3 ;
}
if ( clk_enable ( sdd - > clk ) ) {
dev_err ( & pdev - > dev , " Couldn't enable clock 'spi' \n " ) ;
ret = - EBUSY ;
goto err4 ;
}
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sdd - > src_clk = clk_get ( & pdev - > dev , sci - > src_clk_name ) ;
if ( IS_ERR ( sdd - > src_clk ) ) {
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dev_err ( & pdev - > dev ,
" Unable to acquire clock '%s' \n " , sci - > src_clk_name ) ;
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ret = PTR_ERR ( sdd - > src_clk ) ;
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goto err5 ;
}
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if ( clk_enable ( sdd - > src_clk ) ) {
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dev_err ( & pdev - > dev , " Couldn't enable clock '%s' \n " ,
sci - > src_clk_name ) ;
ret = - EBUSY ;
goto err6 ;
}
sdd - > workqueue = create_singlethread_workqueue (
dev_name ( master - > dev . parent ) ) ;
if ( sdd - > workqueue = = NULL ) {
dev_err ( & pdev - > dev , " Unable to create workqueue \n " ) ;
ret = - ENOMEM ;
goto err7 ;
}
/* Setup Deufult Mode */
s3c64xx_spi_hwinit ( sdd , pdev - > id ) ;
spin_lock_init ( & sdd - > lock ) ;
init_completion ( & sdd - > xfer_completion ) ;
INIT_WORK ( & sdd - > work , s3c64xx_spi_work ) ;
INIT_LIST_HEAD ( & sdd - > queue ) ;
if ( spi_register_master ( master ) ) {
dev_err ( & pdev - > dev , " cannot register SPI master \n " ) ;
ret = - EBUSY ;
goto err8 ;
}
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dev_dbg ( & pdev - > dev , " Samsung SoC SPI Driver loaded for Bus SPI-%d "
" with %d Slaves attached \n " ,
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pdev - > id , master - > num_chipselect ) ;
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dev_dbg ( & pdev - > dev , " \t IOmem=[0x%x-0x%x] \t DMA=[Rx-%d, Tx-%d] \n " ,
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mem_res - > end , mem_res - > start ,
sdd - > rx_dmach , sdd - > tx_dmach ) ;
return 0 ;
err8 :
destroy_workqueue ( sdd - > workqueue ) ;
err7 :
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clk_disable ( sdd - > src_clk ) ;
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err6 :
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clk_put ( sdd - > src_clk ) ;
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err5 :
clk_disable ( sdd - > clk ) ;
err4 :
clk_put ( sdd - > clk ) ;
err3 :
err2 :
iounmap ( ( void * ) sdd - > regs ) ;
err1 :
release_mem_region ( mem_res - > start , resource_size ( mem_res ) ) ;
err0 :
platform_set_drvdata ( pdev , NULL ) ;
spi_master_put ( master ) ;
return ret ;
}
static int s3c64xx_spi_remove ( struct platform_device * pdev )
{
struct spi_master * master = spi_master_get ( platform_get_drvdata ( pdev ) ) ;
struct s3c64xx_spi_driver_data * sdd = spi_master_get_devdata ( master ) ;
struct resource * mem_res ;
unsigned long flags ;
spin_lock_irqsave ( & sdd - > lock , flags ) ;
sdd - > state | = SUSPND ;
spin_unlock_irqrestore ( & sdd - > lock , flags ) ;
while ( sdd - > state & SPIBUSY )
msleep ( 10 ) ;
spi_unregister_master ( master ) ;
destroy_workqueue ( sdd - > workqueue ) ;
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clk_disable ( sdd - > src_clk ) ;
clk_put ( sdd - > src_clk ) ;
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clk_disable ( sdd - > clk ) ;
clk_put ( sdd - > clk ) ;
iounmap ( ( void * ) sdd - > regs ) ;
mem_res = platform_get_resource ( pdev , IORESOURCE_MEM , 0 ) ;
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if ( mem_res ! = NULL )
release_mem_region ( mem_res - > start , resource_size ( mem_res ) ) ;
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platform_set_drvdata ( pdev , NULL ) ;
spi_master_put ( master ) ;
return 0 ;
}
# ifdef CONFIG_PM
static int s3c64xx_spi_suspend ( struct platform_device * pdev , pm_message_t state )
{
struct spi_master * master = spi_master_get ( platform_get_drvdata ( pdev ) ) ;
struct s3c64xx_spi_driver_data * sdd = spi_master_get_devdata ( master ) ;
unsigned long flags ;
spin_lock_irqsave ( & sdd - > lock , flags ) ;
sdd - > state | = SUSPND ;
spin_unlock_irqrestore ( & sdd - > lock , flags ) ;
while ( sdd - > state & SPIBUSY )
msleep ( 10 ) ;
/* Disable the clock */
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clk_disable ( sdd - > src_clk ) ;
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clk_disable ( sdd - > clk ) ;
sdd - > cur_speed = 0 ; /* Output Clock is stopped */
return 0 ;
}
static int s3c64xx_spi_resume ( struct platform_device * pdev )
{
struct spi_master * master = spi_master_get ( platform_get_drvdata ( pdev ) ) ;
struct s3c64xx_spi_driver_data * sdd = spi_master_get_devdata ( master ) ;
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struct s3c64xx_spi_info * sci = sdd - > cntrlr_info ;
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unsigned long flags ;
sci - > cfg_gpio ( pdev ) ;
/* Enable the clock */
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clk_enable ( sdd - > src_clk ) ;
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clk_enable ( sdd - > clk ) ;
s3c64xx_spi_hwinit ( sdd , pdev - > id ) ;
spin_lock_irqsave ( & sdd - > lock , flags ) ;
sdd - > state & = ~ SUSPND ;
spin_unlock_irqrestore ( & sdd - > lock , flags ) ;
return 0 ;
}
# else
# define s3c64xx_spi_suspend NULL
# define s3c64xx_spi_resume NULL
# endif /* CONFIG_PM */
static struct platform_driver s3c64xx_spi_driver = {
. driver = {
. name = " s3c64xx-spi " ,
. owner = THIS_MODULE ,
} ,
. remove = s3c64xx_spi_remove ,
. suspend = s3c64xx_spi_suspend ,
. resume = s3c64xx_spi_resume ,
} ;
MODULE_ALIAS ( " platform:s3c64xx-spi " ) ;
static int __init s3c64xx_spi_init ( void )
{
return platform_driver_probe ( & s3c64xx_spi_driver , s3c64xx_spi_probe ) ;
}
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subsys_initcall ( s3c64xx_spi_init ) ;
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static void __exit s3c64xx_spi_exit ( void )
{
platform_driver_unregister ( & s3c64xx_spi_driver ) ;
}
module_exit ( s3c64xx_spi_exit ) ;
MODULE_AUTHOR ( " Jaswinder Singh <jassi.brar@samsung.com> " ) ;
MODULE_DESCRIPTION ( " S3C64XX SPI Controller Driver " ) ;
MODULE_LICENSE ( " GPL " ) ;
