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/* mac_esp.c: ESP front-end for Macintosh Quadra systems.
*
* Adapted from jazz_esp . c and the old mac_esp . c .
*
* The pseudo DMA algorithm is based on the one used in NetBSD .
* See sys / arch / mac68k / obio / esp . c for some background information .
*
* Copyright ( C ) 2007 - 2008 Finn Thain
*/
# include <linux/kernel.h>
# include <linux/types.h>
# include <linux/module.h>
# include <linux/init.h>
# include <linux/interrupt.h>
# include <linux/platform_device.h>
# include <linux/dma-mapping.h>
# include <linux/scatterlist.h>
# include <linux/delay.h>
# include <linux/io.h>
# include <linux/nubus.h>
# include <asm/irq.h>
# include <asm/dma.h>
# include <asm/macints.h>
# include <asm/macintosh.h>
# include <scsi/scsi_host.h>
# include "esp_scsi.h"
# define DRV_MODULE_NAME "mac_esp"
# define PFX DRV_MODULE_NAME ": "
# define DRV_VERSION "1.000"
# define DRV_MODULE_RELDATE "Sept 15, 2007"
# define MAC_ESP_IO_BASE 0x50F00000
# define MAC_ESP_REGS_QUADRA (MAC_ESP_IO_BASE + 0x10000)
# define MAC_ESP_REGS_QUADRA2 (MAC_ESP_IO_BASE + 0xF000)
# define MAC_ESP_REGS_QUADRA3 (MAC_ESP_IO_BASE + 0x18000)
# define MAC_ESP_REGS_SPACING 0x402
# define MAC_ESP_PDMA_REG 0xF9800024
# define MAC_ESP_PDMA_REG_SPACING 0x4
# define MAC_ESP_PDMA_IO_OFFSET 0x100
# define esp_read8(REG) mac_esp_read8(esp, REG)
# define esp_write8(VAL, REG) mac_esp_write8(esp, VAL, REG)
struct mac_esp_priv {
struct esp * esp ;
void __iomem * pdma_regs ;
void __iomem * pdma_io ;
int error ;
} ;
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static struct platform_device * internal_pdev , * external_pdev ;
static struct esp * esp_chips [ 2 ] ;
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# define MAC_ESP_GET_PRIV(esp) ((struct mac_esp_priv *) \
platform_get_drvdata ( ( struct platform_device * ) \
( esp - > dev ) ) )
static inline void mac_esp_write8 ( struct esp * esp , u8 val , unsigned long reg )
{
nubus_writeb ( val , esp - > regs + reg * 16 ) ;
}
static inline u8 mac_esp_read8 ( struct esp * esp , unsigned long reg )
{
return nubus_readb ( esp - > regs + reg * 16 ) ;
}
/* For pseudo DMA and PIO we need the virtual address
* so this address mapping is the identity mapping .
*/
static dma_addr_t mac_esp_map_single ( struct esp * esp , void * buf ,
size_t sz , int dir )
{
return ( dma_addr_t ) buf ;
}
static int mac_esp_map_sg ( struct esp * esp , struct scatterlist * sg ,
int num_sg , int dir )
{
int i ;
for ( i = 0 ; i < num_sg ; i + + )
sg [ i ] . dma_address = ( u32 ) sg_virt ( & sg [ i ] ) ;
return num_sg ;
}
static void mac_esp_unmap_single ( struct esp * esp , dma_addr_t addr ,
size_t sz , int dir )
{
/* Nothing to do. */
}
static void mac_esp_unmap_sg ( struct esp * esp , struct scatterlist * sg ,
int num_sg , int dir )
{
/* Nothing to do. */
}
static void mac_esp_reset_dma ( struct esp * esp )
{
/* Nothing to do. */
}
static void mac_esp_dma_drain ( struct esp * esp )
{
/* Nothing to do. */
}
static void mac_esp_dma_invalidate ( struct esp * esp )
{
/* Nothing to do. */
}
static int mac_esp_dma_error ( struct esp * esp )
{
return MAC_ESP_GET_PRIV ( esp ) - > error ;
}
static inline int mac_esp_wait_for_empty_fifo ( struct esp * esp )
{
struct mac_esp_priv * mep = MAC_ESP_GET_PRIV ( esp ) ;
int i = 500000 ;
do {
if ( ! ( esp_read8 ( ESP_FFLAGS ) & ESP_FF_FBYTES ) )
return 0 ;
if ( esp_read8 ( ESP_STATUS ) & ESP_STAT_INTR )
return 1 ;
udelay ( 2 ) ;
} while ( - - i ) ;
printk ( KERN_ERR PFX " FIFO is not empty (sreg %02x) \n " ,
esp_read8 ( ESP_STATUS ) ) ;
mep - > error = 1 ;
return 1 ;
}
static inline int mac_esp_wait_for_dreq ( struct esp * esp )
{
struct mac_esp_priv * mep = MAC_ESP_GET_PRIV ( esp ) ;
int i = 500000 ;
do {
if ( mep - > pdma_regs = = NULL ) {
if ( mac_irq_pending ( IRQ_MAC_SCSIDRQ ) )
return 0 ;
} else {
if ( nubus_readl ( mep - > pdma_regs ) & 0x200 )
return 0 ;
}
if ( esp_read8 ( ESP_STATUS ) & ESP_STAT_INTR )
return 1 ;
udelay ( 2 ) ;
} while ( - - i ) ;
printk ( KERN_ERR PFX " PDMA timeout (sreg %02x) \n " ,
esp_read8 ( ESP_STATUS ) ) ;
mep - > error = 1 ;
return 1 ;
}
# define MAC_ESP_PDMA_LOOP(operands) \
asm volatile ( \
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" tstw %1 \n " \
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" jbeq 20f \n " \
" 1: movew " operands " \n " \
" 2: movew " operands " \n " \
" 3: movew " operands " \n " \
" 4: movew " operands " \n " \
" 5: movew " operands " \n " \
" 6: movew " operands " \n " \
" 7: movew " operands " \n " \
" 8: movew " operands " \n " \
" 9: movew " operands " \n " \
" 10: movew " operands " \n " \
" 11: movew " operands " \n " \
" 12: movew " operands " \n " \
" 13: movew " operands " \n " \
" 14: movew " operands " \n " \
" 15: movew " operands " \n " \
" 16: movew " operands " \n " \
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" subqw #1,%1 \n " \
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" jbne 1b \n " \
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" 20: tstw %2 \n " \
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" jbeq 30f \n " \
" 21: movew " operands " \n " \
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" subqw #1,%2 \n " \
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" jbne 21b \n " \
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" 30: tstw %3 \n " \
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" jbeq 40f \n " \
" 31: moveb " operands " \n " \
" 32: nop \n " \
" 40: \n " \
" \n " \
" .section __ex_table, \" a \" \n " \
" .align 4 \n " \
" .long 1b,40b \n " \
" .long 2b,40b \n " \
" .long 3b,40b \n " \
" .long 4b,40b \n " \
" .long 5b,40b \n " \
" .long 6b,40b \n " \
" .long 7b,40b \n " \
" .long 8b,40b \n " \
" .long 9b,40b \n " \
" .long 10b,40b \n " \
" .long 11b,40b \n " \
" .long 12b,40b \n " \
" .long 13b,40b \n " \
" .long 14b,40b \n " \
" .long 15b,40b \n " \
" .long 16b,40b \n " \
" .long 21b,40b \n " \
" .long 31b,40b \n " \
" .long 32b,40b \n " \
" .previous \n " \
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: " +a " ( addr ) , " +r " ( count32 ) , " +r " ( count2 ) \
: " g " ( count1 ) , " a " ( mep - > pdma_io ) )
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static void mac_esp_send_pdma_cmd ( struct esp * esp , u32 addr , u32 esp_count ,
u32 dma_count , int write , u8 cmd )
{
struct mac_esp_priv * mep = MAC_ESP_GET_PRIV ( esp ) ;
unsigned long flags ;
local_irq_save ( flags ) ;
mep - > error = 0 ;
if ( ! write )
scsi_esp_cmd ( esp , ESP_CMD_FLUSH ) ;
esp_write8 ( ( esp_count > > 0 ) & 0xFF , ESP_TCLOW ) ;
esp_write8 ( ( esp_count > > 8 ) & 0xFF , ESP_TCMED ) ;
scsi_esp_cmd ( esp , cmd ) ;
do {
unsigned int count32 = esp_count > > 5 ;
unsigned int count2 = ( esp_count & 0x1F ) > > 1 ;
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unsigned int count1 = esp_count & 1 ;
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unsigned int start_addr = addr ;
if ( mac_esp_wait_for_dreq ( esp ) )
break ;
if ( write ) {
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MAC_ESP_PDMA_LOOP ( " %4@,%0@+ " ) ;
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esp_count - = addr - start_addr ;
} else {
unsigned int n ;
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MAC_ESP_PDMA_LOOP ( " %0@+,%4@ " ) ;
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if ( mac_esp_wait_for_empty_fifo ( esp ) )
break ;
n = ( esp_read8 ( ESP_TCMED ) < < 8 ) + esp_read8 ( ESP_TCLOW ) ;
addr = start_addr + esp_count - n ;
esp_count = n ;
}
} while ( esp_count ) ;
local_irq_restore ( flags ) ;
}
/*
* Programmed IO routines follow .
*/
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static inline unsigned int mac_esp_wait_for_fifo ( struct esp * esp )
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{
int i = 500000 ;
do {
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unsigned int fbytes = esp_read8 ( ESP_FFLAGS ) & ESP_FF_FBYTES ;
if ( fbytes )
return fbytes ;
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udelay ( 2 ) ;
} while ( - - i ) ;
printk ( KERN_ERR PFX " FIFO is empty (sreg %02x) \n " ,
esp_read8 ( ESP_STATUS ) ) ;
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return 0 ;
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}
static inline int mac_esp_wait_for_intr ( struct esp * esp )
{
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struct mac_esp_priv * mep = MAC_ESP_GET_PRIV ( esp ) ;
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int i = 500000 ;
do {
esp - > sreg = esp_read8 ( ESP_STATUS ) ;
if ( esp - > sreg & ESP_STAT_INTR )
return 0 ;
udelay ( 2 ) ;
} while ( - - i ) ;
printk ( KERN_ERR PFX " IRQ timeout (sreg %02x) \n " , esp - > sreg ) ;
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mep - > error = 1 ;
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return 1 ;
}
# define MAC_ESP_PIO_LOOP(operands, reg1) \
asm volatile ( \
" 1: moveb " operands " \n " \
" subqw #1,%1 \n " \
" jbne 1b \n " \
: " +a " ( addr ) , " +r " ( reg1 ) \
: " a " ( fifo ) )
# define MAC_ESP_PIO_FILL(operands, reg1) \
asm volatile ( \
" moveb " operands " \n " \
" moveb " operands " \n " \
" moveb " operands " \n " \
" moveb " operands " \n " \
" moveb " operands " \n " \
" moveb " operands " \n " \
" moveb " operands " \n " \
" moveb " operands " \n " \
" moveb " operands " \n " \
" moveb " operands " \n " \
" moveb " operands " \n " \
" moveb " operands " \n " \
" moveb " operands " \n " \
" moveb " operands " \n " \
" moveb " operands " \n " \
" moveb " operands " \n " \
" subqw #8,%1 \n " \
" subqw #8,%1 \n " \
: " +a " ( addr ) , " +r " ( reg1 ) \
: " a " ( fifo ) )
# define MAC_ESP_FIFO_SIZE 16
static void mac_esp_send_pio_cmd ( struct esp * esp , u32 addr , u32 esp_count ,
u32 dma_count , int write , u8 cmd )
{
struct mac_esp_priv * mep = MAC_ESP_GET_PRIV ( esp ) ;
u8 * fifo = esp - > regs + ESP_FDATA * 16 ;
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disable_irq ( esp - > host - > irq ) ;
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cmd & = ~ ESP_CMD_DMA ;
mep - > error = 0 ;
if ( write ) {
scsi_esp_cmd ( esp , cmd ) ;
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while ( 1 ) {
unsigned int n ;
n = mac_esp_wait_for_fifo ( esp ) ;
if ( ! n )
break ;
if ( n > esp_count )
n = esp_count ;
esp_count - = n ;
MAC_ESP_PIO_LOOP ( " %2@,%0@+ " , n ) ;
if ( ! esp_count )
break ;
if ( mac_esp_wait_for_intr ( esp ) )
break ;
if ( ( ( esp - > sreg & ESP_STAT_PMASK ) ! = ESP_DIP ) & &
( ( esp - > sreg & ESP_STAT_PMASK ) ! = ESP_MIP ) )
break ;
esp - > ireg = esp_read8 ( ESP_INTRPT ) ;
if ( ( esp - > ireg & ( ESP_INTR_DC | ESP_INTR_BSERV ) ) ! =
ESP_INTR_BSERV )
break ;
scsi_esp_cmd ( esp , ESP_CMD_TI ) ;
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}
} else {
scsi_esp_cmd ( esp , ESP_CMD_FLUSH ) ;
if ( esp_count > = MAC_ESP_FIFO_SIZE )
MAC_ESP_PIO_FILL ( " %0@+,%2@ " , esp_count ) ;
else
MAC_ESP_PIO_LOOP ( " %0@+,%2@ " , esp_count ) ;
scsi_esp_cmd ( esp , cmd ) ;
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while ( esp_count ) {
unsigned int n ;
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if ( mac_esp_wait_for_intr ( esp ) )
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break ;
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if ( ( ( esp - > sreg & ESP_STAT_PMASK ) ! = ESP_DOP ) & &
( ( esp - > sreg & ESP_STAT_PMASK ) ! = ESP_MOP ) )
break ;
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esp - > ireg = esp_read8 ( ESP_INTRPT ) ;
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if ( ( esp - > ireg & ( ESP_INTR_DC | ESP_INTR_BSERV ) ) ! =
ESP_INTR_BSERV )
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break ;
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n = MAC_ESP_FIFO_SIZE -
( esp_read8 ( ESP_FFLAGS ) & ESP_FF_FBYTES ) ;
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if ( n > esp_count )
n = esp_count ;
if ( n = = MAC_ESP_FIFO_SIZE ) {
MAC_ESP_PIO_FILL ( " %0@+,%2@ " , esp_count ) ;
} else {
esp_count - = n ;
MAC_ESP_PIO_LOOP ( " %0@+,%2@ " , n ) ;
}
scsi_esp_cmd ( esp , ESP_CMD_TI ) ;
}
}
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enable_irq ( esp - > host - > irq ) ;
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}
static int mac_esp_irq_pending ( struct esp * esp )
{
if ( esp_read8 ( ESP_STATUS ) & ESP_STAT_INTR )
return 1 ;
return 0 ;
}
static u32 mac_esp_dma_length_limit ( struct esp * esp , u32 dma_addr , u32 dma_len )
{
return dma_len > 0xFFFF ? 0xFFFF : dma_len ;
}
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static irqreturn_t mac_scsi_esp_intr ( int irq , void * dev_id )
{
int got_intr ;
/*
* This is an edge triggered IRQ , so we have to be careful to
* avoid missing a transition when it is shared by two ESP devices .
*/
do {
got_intr = 0 ;
if ( esp_chips [ 0 ] & &
( mac_esp_read8 ( esp_chips [ 0 ] , ESP_STATUS ) & ESP_STAT_INTR ) ) {
( void ) scsi_esp_intr ( irq , esp_chips [ 0 ] ) ;
got_intr = 1 ;
}
if ( esp_chips [ 1 ] & &
( mac_esp_read8 ( esp_chips [ 1 ] , ESP_STATUS ) & ESP_STAT_INTR ) ) {
( void ) scsi_esp_intr ( irq , esp_chips [ 1 ] ) ;
got_intr = 1 ;
}
} while ( got_intr ) ;
return IRQ_HANDLED ;
}
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static struct esp_driver_ops mac_esp_ops = {
. esp_write8 = mac_esp_write8 ,
. esp_read8 = mac_esp_read8 ,
. map_single = mac_esp_map_single ,
. map_sg = mac_esp_map_sg ,
. unmap_single = mac_esp_unmap_single ,
. unmap_sg = mac_esp_unmap_sg ,
. irq_pending = mac_esp_irq_pending ,
. dma_length_limit = mac_esp_dma_length_limit ,
. reset_dma = mac_esp_reset_dma ,
. dma_drain = mac_esp_dma_drain ,
. dma_invalidate = mac_esp_dma_invalidate ,
. send_dma_cmd = mac_esp_send_pdma_cmd ,
. dma_error = mac_esp_dma_error ,
} ;
static int __devinit esp_mac_probe ( struct platform_device * dev )
{
struct scsi_host_template * tpnt = & scsi_esp_template ;
struct Scsi_Host * host ;
struct esp * esp ;
int err ;
int chips_present ;
struct mac_esp_priv * mep ;
if ( ! MACH_IS_MAC )
return - ENODEV ;
switch ( macintosh_config - > scsi_type ) {
case MAC_SCSI_QUADRA :
case MAC_SCSI_QUADRA3 :
chips_present = 1 ;
break ;
case MAC_SCSI_QUADRA2 :
if ( ( macintosh_config - > ident = = MAC_MODEL_Q900 ) | |
( macintosh_config - > ident = = MAC_MODEL_Q950 ) )
chips_present = 2 ;
else
chips_present = 1 ;
break ;
default :
chips_present = 0 ;
}
if ( dev - > id + 1 > chips_present )
return - ENODEV ;
host = scsi_host_alloc ( tpnt , sizeof ( struct esp ) ) ;
err = - ENOMEM ;
if ( ! host )
goto fail ;
host - > max_id = 8 ;
host - > use_clustering = DISABLE_CLUSTERING ;
esp = shost_priv ( host ) ;
esp - > host = host ;
esp - > dev = dev ;
esp - > command_block = kzalloc ( 16 , GFP_KERNEL ) ;
if ( ! esp - > command_block )
goto fail_unlink ;
esp - > command_block_dma = ( dma_addr_t ) esp - > command_block ;
esp - > scsi_id = 7 ;
host - > this_id = esp - > scsi_id ;
esp - > scsi_id_mask = 1 < < esp - > scsi_id ;
mep = kzalloc ( sizeof ( struct mac_esp_priv ) , GFP_KERNEL ) ;
if ( ! mep )
goto fail_free_command_block ;
mep - > esp = esp ;
platform_set_drvdata ( dev , mep ) ;
switch ( macintosh_config - > scsi_type ) {
case MAC_SCSI_QUADRA :
esp - > cfreq = 16500000 ;
esp - > regs = ( void __iomem * ) MAC_ESP_REGS_QUADRA ;
mep - > pdma_io = esp - > regs + MAC_ESP_PDMA_IO_OFFSET ;
mep - > pdma_regs = NULL ;
break ;
case MAC_SCSI_QUADRA2 :
esp - > cfreq = 25000000 ;
esp - > regs = ( void __iomem * ) ( MAC_ESP_REGS_QUADRA2 +
dev - > id * MAC_ESP_REGS_SPACING ) ;
mep - > pdma_io = esp - > regs + MAC_ESP_PDMA_IO_OFFSET ;
mep - > pdma_regs = ( void __iomem * ) ( MAC_ESP_PDMA_REG +
dev - > id * MAC_ESP_PDMA_REG_SPACING ) ;
nubus_writel ( 0x1d1 , mep - > pdma_regs ) ;
break ;
case MAC_SCSI_QUADRA3 :
/* These quadras have a real DMA controller (the PSC) but we
* don ' t know how to drive it so we must use PIO instead .
*/
esp - > cfreq = 25000000 ;
esp - > regs = ( void __iomem * ) MAC_ESP_REGS_QUADRA3 ;
mep - > pdma_io = NULL ;
mep - > pdma_regs = NULL ;
break ;
}
esp - > ops = & mac_esp_ops ;
if ( mep - > pdma_io = = NULL ) {
printk ( KERN_INFO PFX " using PIO for controller %d \n " , dev - > id ) ;
esp_write8 ( 0 , ESP_TCLOW ) ;
esp_write8 ( 0 , ESP_TCMED ) ;
esp - > flags = ESP_FLAG_DISABLE_SYNC ;
mac_esp_ops . send_dma_cmd = mac_esp_send_pio_cmd ;
} else {
printk ( KERN_INFO PFX " using PDMA for controller %d \n " , dev - > id ) ;
}
host - > irq = IRQ_MAC_SCSI ;
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esp_chips [ dev - > id ] = esp ;
mb ( ) ;
if ( esp_chips [ ! dev - > id ] = = NULL ) {
err = request_irq ( host - > irq , mac_scsi_esp_intr , 0 ,
" Mac ESP " , NULL ) ;
if ( err < 0 ) {
esp_chips [ dev - > id ] = NULL ;
goto fail_free_priv ;
}
}
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err = scsi_esp_register ( esp , & dev - > dev ) ;
if ( err )
goto fail_free_irq ;
return 0 ;
fail_free_irq :
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if ( esp_chips [ ! dev - > id ] = = NULL )
free_irq ( host - > irq , esp ) ;
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fail_free_priv :
kfree ( mep ) ;
fail_free_command_block :
kfree ( esp - > command_block ) ;
fail_unlink :
scsi_host_put ( host ) ;
fail :
return err ;
}
static int __devexit esp_mac_remove ( struct platform_device * dev )
{
struct mac_esp_priv * mep = platform_get_drvdata ( dev ) ;
struct esp * esp = mep - > esp ;
unsigned int irq = esp - > host - > irq ;
scsi_esp_unregister ( esp ) ;
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esp_chips [ dev - > id ] = NULL ;
if ( ! ( esp_chips [ 0 ] | | esp_chips [ 1 ] ) )
free_irq ( irq , NULL ) ;
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kfree ( mep ) ;
kfree ( esp - > command_block ) ;
scsi_host_put ( esp - > host ) ;
return 0 ;
}
static struct platform_driver esp_mac_driver = {
. probe = esp_mac_probe ,
. remove = __devexit_p ( esp_mac_remove ) ,
. driver = {
. name = DRV_MODULE_NAME ,
} ,
} ;
static int __init mac_esp_init ( void )
{
int err ;
err = platform_driver_register ( & esp_mac_driver ) ;
if ( err )
return err ;
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internal_pdev = platform_device_alloc ( DRV_MODULE_NAME , 0 ) ;
if ( internal_pdev & & platform_device_add ( internal_pdev ) ) {
platform_device_put ( internal_pdev ) ;
internal_pdev = NULL ;
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}
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external_pdev = platform_device_alloc ( DRV_MODULE_NAME , 1 ) ;
if ( external_pdev & & platform_device_add ( external_pdev ) ) {
platform_device_put ( external_pdev ) ;
external_pdev = NULL ;
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}
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if ( internal_pdev | | external_pdev ) {
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return 0 ;
} else {
platform_driver_unregister ( & esp_mac_driver ) ;
return - ENOMEM ;
}
}
static void __exit mac_esp_exit ( void )
{
platform_driver_unregister ( & esp_mac_driver ) ;
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if ( internal_pdev ) {
platform_device_unregister ( internal_pdev ) ;
internal_pdev = NULL ;
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}
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if ( external_pdev ) {
platform_device_unregister ( external_pdev ) ;
external_pdev = NULL ;
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}
}
MODULE_DESCRIPTION ( " Mac ESP SCSI driver " ) ;
MODULE_AUTHOR ( " Finn Thain <fthain@telegraphics.com.au> " ) ;
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MODULE_LICENSE ( " GPL v2 " ) ;
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MODULE_VERSION ( DRV_VERSION ) ;
module_init ( mac_esp_init ) ;
module_exit ( mac_esp_exit ) ;