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/* -*- mode: c; c-basic-offset: 8 -*- */
/* Driver for 53c700 and 53c700-66 chips from NCR and Symbios
*
* Copyright ( C ) 2001 by James . Bottomley @ HansenPartnership . com
*/
# ifndef _53C700_H
# define _53C700_H
# include <linux/interrupt.h>
# include <asm/io.h>
# include <scsi/scsi_device.h>
/* Turn on for general debugging---too verbose for normal use */
# undef NCR_700_DEBUG
/* Debug the tag queues, checking hash queue allocation and deallocation
* and search for duplicate tags */
# undef NCR_700_TAG_DEBUG
# ifdef NCR_700_DEBUG
# define DEBUG(x) printk x
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# define DDEBUG(prefix, sdev, fmt, a...) \
sdev_printk ( prefix , sdev , fmt , # # a )
# define CDEBUG(prefix, scmd, fmt, a...) \
scmd_printk ( prefix , scmd , fmt , # # a )
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# else
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# define DEBUG(x) do {} while (0)
# define DDEBUG(prefix, scmd, fmt, a...) do {} while (0)
# define CDEBUG(prefix, scmd, fmt, a...) do {} while (0)
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# endif
/* The number of available command slots */
# define NCR_700_COMMAND_SLOTS_PER_HOST 64
/* The maximum number of Scatter Gathers we allow */
# define NCR_700_SG_SEGMENTS 32
/* The maximum number of luns (make this of the form 2^n) */
# define NCR_700_MAX_LUNS 32
# define NCR_700_LUN_MASK (NCR_700_MAX_LUNS - 1)
/* Maximum number of tags the driver ever allows per device */
# define NCR_700_MAX_TAGS 16
/* Tag depth the driver starts out with (can be altered in sysfs) */
# define NCR_700_DEFAULT_TAGS 4
/* This is the default number of commands per LUN in the untagged case.
* two is a good value because it means we can have one command active and
* one command fully prepared and waiting
*/
# define NCR_700_CMD_PER_LUN 2
/* magic byte identifying an internally generated REQUEST_SENSE command */
# define NCR_700_INTERNAL_SENSE_MAGIC 0x42
struct NCR_700_Host_Parameters ;
/* These are the externally used routines */
struct Scsi_Host * NCR_700_detect ( struct scsi_host_template * ,
struct NCR_700_Host_Parameters * , struct device * ) ;
int NCR_700_release ( struct Scsi_Host * host ) ;
irqreturn_t NCR_700_intr ( int , void * , struct pt_regs * ) ;
enum NCR_700_Host_State {
NCR_700_HOST_BUSY ,
NCR_700_HOST_FREE ,
} ;
struct NCR_700_SG_List {
/* The following is a script fragment to move the buffer onto the
* bus and then link the next fragment or return */
# define SCRIPT_MOVE_DATA_IN 0x09000000
# define SCRIPT_MOVE_DATA_OUT 0x08000000
__u32 ins ;
__u32 pAddr ;
# define SCRIPT_NOP 0x80000000
# define SCRIPT_RETURN 0x90080000
} ;
/* We use device->hostdata to store negotiated parameters. This is
* supposed to be a pointer to a device private area , but we cannot
* really use it as such since it will never be freed , so just use the
* 32 bits to cram the information . The SYNC negotiation sequence looks
* like :
*
* If DEV_NEGOTIATED_SYNC not set , tack and SDTR message on to the
* initial identify for the device and set DEV_BEGIN_SYNC_NEGOTATION
* If we get an SDTR reply , work out the SXFER parameters , squirrel
* them away here , clear DEV_BEGIN_SYNC_NEGOTIATION and set
* DEV_NEGOTIATED_SYNC . If we get a REJECT msg , squirrel
*
*
* 0 : 7 SXFER_REG negotiated value for this device
* 8 : 15 Current queue depth
* 16 negotiated SYNC flag
* 17 begin SYNC negotiation flag
* 18 device supports tag queueing */
# define NCR_700_DEV_NEGOTIATED_SYNC (1<<16)
# define NCR_700_DEV_BEGIN_SYNC_NEGOTIATION (1<<17)
# define NCR_700_DEV_PRINT_SYNC_NEGOTIATION (1<<19)
static inline void
NCR_700_set_depth ( struct scsi_device * SDp , __u8 depth )
{
long l = ( long ) SDp - > hostdata ;
l & = 0xffff00ff ;
l | = 0xff00 & ( depth < < 8 ) ;
SDp - > hostdata = ( void * ) l ;
}
static inline __u8
NCR_700_get_depth ( struct scsi_device * SDp )
{
return ( ( ( ( unsigned long ) SDp - > hostdata ) & 0xff00 ) > > 8 ) ;
}
static inline int
NCR_700_is_flag_set ( struct scsi_device * SDp , __u32 flag )
{
return ( spi_flags ( SDp - > sdev_target ) & flag ) = = flag ;
}
static inline int
NCR_700_is_flag_clear ( struct scsi_device * SDp , __u32 flag )
{
return ( spi_flags ( SDp - > sdev_target ) & flag ) = = 0 ;
}
static inline void
NCR_700_set_flag ( struct scsi_device * SDp , __u32 flag )
{
spi_flags ( SDp - > sdev_target ) | = flag ;
}
static inline void
NCR_700_clear_flag ( struct scsi_device * SDp , __u32 flag )
{
spi_flags ( SDp - > sdev_target ) & = ~ flag ;
}
enum NCR_700_tag_neg_state {
NCR_700_START_TAG_NEGOTIATION = 0 ,
NCR_700_DURING_TAG_NEGOTIATION = 1 ,
NCR_700_FINISHED_TAG_NEGOTIATION = 2 ,
} ;
static inline enum NCR_700_tag_neg_state
NCR_700_get_tag_neg_state ( struct scsi_device * SDp )
{
return ( enum NCR_700_tag_neg_state ) ( ( spi_flags ( SDp - > sdev_target ) > > 20 ) & 0x3 ) ;
}
static inline void
NCR_700_set_tag_neg_state ( struct scsi_device * SDp ,
enum NCR_700_tag_neg_state state )
{
/* clear the slot */
spi_flags ( SDp - > sdev_target ) & = ~ ( 0x3 < < 20 ) ;
spi_flags ( SDp - > sdev_target ) | = ( ( __u32 ) state ) < < 20 ;
}
struct NCR_700_command_slot {
struct NCR_700_SG_List SG [ NCR_700_SG_SEGMENTS + 1 ] ;
struct NCR_700_SG_List * pSG ;
# define NCR_700_SLOT_MASK 0xFC
# define NCR_700_SLOT_MAGIC 0xb8
# define NCR_700_SLOT_FREE (0|NCR_700_SLOT_MAGIC) /* slot may be used */
# define NCR_700_SLOT_BUSY (1|NCR_700_SLOT_MAGIC) /* slot has command active on HA */
# define NCR_700_SLOT_QUEUED (2|NCR_700_SLOT_MAGIC) /* slot has command to be made active on HA */
__u8 state ;
int tag ;
__u32 resume_offset ;
struct scsi_cmnd * cmnd ;
/* The pci_mapped address of the actual command in cmnd */
dma_addr_t pCmd ;
__u32 temp ;
/* if this command is a pci_single mapping, holds the dma address
* for later unmapping in the done routine */
dma_addr_t dma_handle ;
/* historical remnant, now used to link free commands */
struct NCR_700_command_slot * ITL_forw ;
} ;
struct NCR_700_Host_Parameters {
/* These must be filled in by the calling driver */
int clock ; /* board clock speed in MHz */
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void __iomem * base ; /* the base for the port (copied to host) */
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struct device * dev ;
__u32 dmode_extra ; /* adjustable bus settings */
__u32 differential : 1 ; /* if we are differential */
# ifdef CONFIG_53C700_LE_ON_BE
/* This option is for HP only. Set it if your chip is wired for
* little endian on this platform ( which is big endian ) */
__u32 force_le_on_be : 1 ;
# endif
__u32 chip710 : 1 ; /* set if really a 710 not 700 */
__u32 burst_disable : 1 ; /* set to 1 to disable 710 bursting */
/* NOTHING BELOW HERE NEEDS ALTERING */
__u32 fast : 1 ; /* if we can alter the SCSI bus clock
speed ( so can negiotiate sync ) */
int sync_clock ; /* The speed of the SYNC core */
__u32 * script ; /* pointer to script location */
__u32 pScript ; /* physical mem addr of script */
enum NCR_700_Host_State state ; /* protected by state lock */
struct scsi_cmnd * cmd ;
/* Note: pScript contains the single consistent block of
* memory . All the msgin , msgout and status are allocated in
* this memory too ( at separate cache lines ) . TOTAL_MEM_SIZE
* represents the total size of this area */
# define MSG_ARRAY_SIZE 8
# define MSGOUT_OFFSET (L1_CACHE_ALIGN(sizeof(SCRIPT)))
__u8 * msgout ;
# define MSGIN_OFFSET (MSGOUT_OFFSET + L1_CACHE_ALIGN(MSG_ARRAY_SIZE))
__u8 * msgin ;
# define STATUS_OFFSET (MSGIN_OFFSET + L1_CACHE_ALIGN(MSG_ARRAY_SIZE))
__u8 * status ;
# define SLOTS_OFFSET (STATUS_OFFSET + L1_CACHE_ALIGN(MSG_ARRAY_SIZE))
struct NCR_700_command_slot * slots ;
# define TOTAL_MEM_SIZE (SLOTS_OFFSET + L1_CACHE_ALIGN(sizeof(struct NCR_700_command_slot) * NCR_700_COMMAND_SLOTS_PER_HOST))
int saved_slot_position ;
int command_slot_count ; /* protected by state lock */
__u8 tag_negotiated ;
__u8 rev ;
__u8 reselection_id ;
__u8 min_period ;
/* Free list, singly linked by ITL_forw elements */
struct NCR_700_command_slot * free_list ;
/* Completion for waited for ops, like reset, abort or
* device reset .
*
* NOTE : relies on single threading in the error handler to
* have only one outstanding at once */
struct completion * eh_complete ;
} ;
/*
* 53 C700 Register Interface - the offset from the Selected base
* I / O address */
# ifdef CONFIG_53C700_LE_ON_BE
# define bE (hostdata->force_le_on_be ? 0 : 3)
# define bSWAP (hostdata->force_le_on_be)
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/* This is terrible, but there's no raw version of ioread32. That means
* that on a be board we swap twice ( once in ioread32 and once again to
* get the value correct ) */
# define bS_to_io(x) ((hostdata->force_le_on_be) ? (x) : cpu_to_le32(x))
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# elif defined(__BIG_ENDIAN)
# define bE 3
# define bSWAP 0
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# define bS_to_io(x) (x)
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# elif defined(__LITTLE_ENDIAN)
# define bE 0
# define bSWAP 0
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# define bS_to_io(x) (x)
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# else
# error "__BIG_ENDIAN or __LITTLE_ENDIAN must be defined, did you include byteorder.h?"
# endif
# define bS_to_cpu(x) (bSWAP ? le32_to_cpu(x) : (x))
# define bS_to_host(x) (bSWAP ? cpu_to_le32(x) : (x))
/* NOTE: These registers are in the LE register space only, the required byte
* swapping is done by the NCR_700_ { read | write } [ b ] functions */
# define SCNTL0_REG 0x00
# define FULL_ARBITRATION 0xc0
# define PARITY 0x08
# define ENABLE_PARITY 0x04
# define AUTO_ATN 0x02
# define SCNTL1_REG 0x01
# define SLOW_BUS 0x80
# define ENABLE_SELECT 0x20
# define ASSERT_RST 0x08
# define ASSERT_EVEN_PARITY 0x04
# define SDID_REG 0x02
# define SIEN_REG 0x03
# define PHASE_MM_INT 0x80
# define FUNC_COMP_INT 0x40
# define SEL_TIMEOUT_INT 0x20
# define SELECT_INT 0x10
# define GROSS_ERR_INT 0x08
# define UX_DISC_INT 0x04
# define RST_INT 0x02
# define PAR_ERR_INT 0x01
# define SCID_REG 0x04
# define SXFER_REG 0x05
# define ASYNC_OPERATION 0x00
# define SODL_REG 0x06
# define SOCL_REG 0x07
# define SFBR_REG 0x08
# define SIDL_REG 0x09
# define SBDL_REG 0x0A
# define SBCL_REG 0x0B
/* read bits */
# define SBCL_IO 0x01
/*write bits */
# define SYNC_DIV_AS_ASYNC 0x00
# define SYNC_DIV_1_0 0x01
# define SYNC_DIV_1_5 0x02
# define SYNC_DIV_2_0 0x03
# define DSTAT_REG 0x0C
# define ILGL_INST_DETECTED 0x01
# define WATCH_DOG_INTERRUPT 0x02
# define SCRIPT_INT_RECEIVED 0x04
# define ABORTED 0x10
# define SSTAT0_REG 0x0D
# define PARITY_ERROR 0x01
# define SCSI_RESET_DETECTED 0x02
# define UNEXPECTED_DISCONNECT 0x04
# define SCSI_GROSS_ERROR 0x08
# define SELECTED 0x10
# define SELECTION_TIMEOUT 0x20
# define FUNCTION_COMPLETE 0x40
# define PHASE_MISMATCH 0x80
# define SSTAT1_REG 0x0E
# define SIDL_REG_FULL 0x80
# define SODR_REG_FULL 0x40
# define SODL_REG_FULL 0x20
# define SSTAT2_REG 0x0F
# define CTEST0_REG 0x14
# define BTB_TIMER_DISABLE 0x40
# define CTEST1_REG 0x15
# define CTEST2_REG 0x16
# define CTEST3_REG 0x17
# define CTEST4_REG 0x18
# define DISABLE_FIFO 0x00
# define SLBE 0x10
# define SFWR 0x08
# define BYTE_LANE0 0x04
# define BYTE_LANE1 0x05
# define BYTE_LANE2 0x06
# define BYTE_LANE3 0x07
# define SCSI_ZMODE 0x20
# define ZMODE 0x40
# define CTEST5_REG 0x19
# define MASTER_CONTROL 0x10
# define DMA_DIRECTION 0x08
# define CTEST7_REG 0x1B
# define BURST_DISABLE 0x80 /* 710 only */
# define SEL_TIMEOUT_DISABLE 0x10 /* 710 only */
# define DFP 0x08
# define EVP 0x04
# define DIFF 0x01
# define CTEST6_REG 0x1A
# define TEMP_REG 0x1C
# define DFIFO_REG 0x20
# define FLUSH_DMA_FIFO 0x80
# define CLR_FIFO 0x40
# define ISTAT_REG 0x21
# define ABORT_OPERATION 0x80
# define SOFTWARE_RESET_710 0x40
# define DMA_INT_PENDING 0x01
# define SCSI_INT_PENDING 0x02
# define CONNECTED 0x08
# define CTEST8_REG 0x22
# define LAST_DIS_ENBL 0x01
# define SHORTEN_FILTERING 0x04
# define ENABLE_ACTIVE_NEGATION 0x10
# define GENERATE_RECEIVE_PARITY 0x20
# define CLR_FIFO_710 0x04
# define FLUSH_DMA_FIFO_710 0x08
# define CTEST9_REG 0x23
# define DBC_REG 0x24
# define DCMD_REG 0x27
# define DNAD_REG 0x28
# define DIEN_REG 0x39
# define BUS_FAULT 0x20
# define ABORT_INT 0x10
# define INT_INST_INT 0x04
# define WD_INT 0x02
# define ILGL_INST_INT 0x01
# define DCNTL_REG 0x3B
# define SOFTWARE_RESET 0x01
# define COMPAT_700_MODE 0x01
# define SCRPTS_16BITS 0x20
# define ASYNC_DIV_2_0 0x00
# define ASYNC_DIV_1_5 0x40
# define ASYNC_DIV_1_0 0x80
# define ASYNC_DIV_3_0 0xc0
# define DMODE_710_REG 0x38
# define DMODE_700_REG 0x34
# define BURST_LENGTH_1 0x00
# define BURST_LENGTH_2 0x40
# define BURST_LENGTH_4 0x80
# define BURST_LENGTH_8 0xC0
# define DMODE_FC1 0x10
# define DMODE_FC2 0x20
# define BW16 32
# define MODE_286 16
# define IO_XFER 8
# define FIXED_ADDR 4
# define DSP_REG 0x2C
# define DSPS_REG 0x30
/* Parameters to begin SDTR negotiations. Empirically, I find that
* the 53 c700 - 66 cannot handle an offset > 8 , so don ' t change this */
# define NCR_700_MAX_OFFSET 8
/* Was hoping the max offset would be greater for the 710, but
* empirically it seems to be 8 also */
# define NCR_710_MAX_OFFSET 8
# define NCR_700_MIN_XFERP 1
# define NCR_710_MIN_XFERP 0
# define NCR_700_MIN_PERIOD 25 /* for SDTR message, 100ns */
# define script_patch_32(script, symbol, value) \
{ \
int i ; \
for ( i = 0 ; i < ( sizeof ( A_ # # symbol # # _used ) / sizeof ( __u32 ) ) ; i + + ) { \
__u32 val = bS_to_cpu ( ( script ) [ A_ # # symbol # # _used [ i ] ] ) + value ; \
( script ) [ A_ # # symbol # # _used [ i ] ] = bS_to_host ( val ) ; \
dma_cache_sync ( & ( script ) [ A_ # # symbol # # _used [ i ] ] , 4 , DMA_TO_DEVICE ) ; \
DEBUG ( ( " script, patching %s at %d to 0x%lx \n " , \
# symbol, A_##symbol##_used[i], (value))); \
} \
}
# define script_patch_32_abs(script, symbol, value) \
{ \
int i ; \
for ( i = 0 ; i < ( sizeof ( A_ # # symbol # # _used ) / sizeof ( __u32 ) ) ; i + + ) { \
( script ) [ A_ # # symbol # # _used [ i ] ] = bS_to_host ( value ) ; \
dma_cache_sync ( & ( script ) [ A_ # # symbol # # _used [ i ] ] , 4 , DMA_TO_DEVICE ) ; \
DEBUG ( ( " script, patching %s at %d to 0x%lx \n " , \
# symbol, A_##symbol##_used[i], (value))); \
} \
}
/* Used for patching the SCSI ID in the SELECT instruction */
# define script_patch_ID(script, symbol, value) \
{ \
int i ; \
for ( i = 0 ; i < ( sizeof ( A_ # # symbol # # _used ) / sizeof ( __u32 ) ) ; i + + ) { \
__u32 val = bS_to_cpu ( ( script ) [ A_ # # symbol # # _used [ i ] ] ) ; \
val & = 0xff00ffff ; \
val | = ( ( value ) & 0xff ) < < 16 ; \
( script ) [ A_ # # symbol # # _used [ i ] ] = bS_to_host ( val ) ; \
dma_cache_sync ( & ( script ) [ A_ # # symbol # # _used [ i ] ] , 4 , DMA_TO_DEVICE ) ; \
DEBUG ( ( " script, patching ID field %s at %d to 0x%x \n " , \
# symbol, A_##symbol##_used[i], val)); \
} \
}
# define script_patch_16(script, symbol, value) \
{ \
int i ; \
for ( i = 0 ; i < ( sizeof ( A_ # # symbol # # _used ) / sizeof ( __u32 ) ) ; i + + ) { \
__u32 val = bS_to_cpu ( ( script ) [ A_ # # symbol # # _used [ i ] ] ) ; \
val & = 0xffff0000 ; \
val | = ( ( value ) & 0xffff ) ; \
( script ) [ A_ # # symbol # # _used [ i ] ] = bS_to_host ( val ) ; \
dma_cache_sync ( & ( script ) [ A_ # # symbol # # _used [ i ] ] , 4 , DMA_TO_DEVICE ) ; \
DEBUG ( ( " script, patching short field %s at %d to 0x%x \n " , \
# symbol, A_##symbol##_used[i], val)); \
} \
}
static inline __u8
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NCR_700_readb ( struct Scsi_Host * host , __u32 reg )
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{
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const struct NCR_700_Host_Parameters * hostdata
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= ( struct NCR_700_Host_Parameters * ) host - > hostdata [ 0 ] ;
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return ioread8 ( hostdata - > base + ( reg ^ bE ) ) ;
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}
static inline __u32
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NCR_700_readl ( struct Scsi_Host * host , __u32 reg )
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{
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const struct NCR_700_Host_Parameters * hostdata
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= ( struct NCR_700_Host_Parameters * ) host - > hostdata [ 0 ] ;
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__u32 value = ioread32 ( hostdata - > base + reg ) ;
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# if 1
/* sanity check the register */
if ( ( reg & 0x3 ) ! = 0 )
BUG ( ) ;
# endif
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return bS_to_io ( value ) ;
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}
static inline void
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NCR_700_writeb ( __u8 value , struct Scsi_Host * host , __u32 reg )
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{
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const struct NCR_700_Host_Parameters * hostdata
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= ( struct NCR_700_Host_Parameters * ) host - > hostdata [ 0 ] ;
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iowrite8 ( value , hostdata - > base + ( reg ^ bE ) ) ;
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}
static inline void
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NCR_700_writel ( __u32 value , struct Scsi_Host * host , __u32 reg )
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{
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const struct NCR_700_Host_Parameters * hostdata
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= ( struct NCR_700_Host_Parameters * ) host - > hostdata [ 0 ] ;
# if 1
/* sanity check the register */
if ( ( reg & 0x3 ) ! = 0 )
BUG ( ) ;
# endif
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iowrite32 ( bS_to_io ( value ) , hostdata - > base + reg ) ;
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}
# endif