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/*
* Adaptec AAC series RAID controller driver
* ( c ) Copyright 2001 Red Hat Inc . < alan @ redhat . com >
*
* based on the old aacraid driver that is . .
* Adaptec aacraid device driver for Linux .
*
* Copyright ( c ) 2000 Adaptec , Inc . ( aacraid @ adaptec . 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 , 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 ; see the file COPYING . If not , write to
* the Free Software Foundation , 675 Mass Ave , Cambridge , MA 0213 9 , USA .
*
*/
# include <linux/kernel.h>
# include <linux/init.h>
# include <linux/types.h>
# include <linux/sched.h>
# include <linux/pci.h>
# include <linux/spinlock.h>
# include <linux/slab.h>
# include <linux/completion.h>
# include <linux/blkdev.h>
# include <asm/semaphore.h>
# include <asm/uaccess.h>
# include <scsi/scsi.h>
# include <scsi/scsi_cmnd.h>
# include <scsi/scsi_device.h>
# include <scsi/scsi_host.h>
# include "aacraid.h"
/* values for inqd_pdt: Peripheral device type in plain English */
# define INQD_PDT_DA 0x00 /* Direct-access (DISK) device */
# define INQD_PDT_PROC 0x03 /* Processor device */
# define INQD_PDT_CHNGR 0x08 /* Changer (jukebox, scsi2) */
# define INQD_PDT_COMM 0x09 /* Communication device (scsi2) */
# define INQD_PDT_NOLUN2 0x1f /* Unknown Device (scsi2) */
# define INQD_PDT_NOLUN 0x7f /* Logical Unit Not Present */
# define INQD_PDT_DMASK 0x1F /* Peripheral Device Type Mask */
# define INQD_PDT_QMASK 0xE0 /* Peripheral Device Qualifer Mask */
/*
* Sense codes
*/
# define SENCODE_NO_SENSE 0x00
# define SENCODE_END_OF_DATA 0x00
# define SENCODE_BECOMING_READY 0x04
# define SENCODE_INIT_CMD_REQUIRED 0x04
# define SENCODE_PARAM_LIST_LENGTH_ERROR 0x1A
# define SENCODE_INVALID_COMMAND 0x20
# define SENCODE_LBA_OUT_OF_RANGE 0x21
# define SENCODE_INVALID_CDB_FIELD 0x24
# define SENCODE_LUN_NOT_SUPPORTED 0x25
# define SENCODE_INVALID_PARAM_FIELD 0x26
# define SENCODE_PARAM_NOT_SUPPORTED 0x26
# define SENCODE_PARAM_VALUE_INVALID 0x26
# define SENCODE_RESET_OCCURRED 0x29
# define SENCODE_LUN_NOT_SELF_CONFIGURED_YET 0x3E
# define SENCODE_INQUIRY_DATA_CHANGED 0x3F
# define SENCODE_SAVING_PARAMS_NOT_SUPPORTED 0x39
# define SENCODE_DIAGNOSTIC_FAILURE 0x40
# define SENCODE_INTERNAL_TARGET_FAILURE 0x44
# define SENCODE_INVALID_MESSAGE_ERROR 0x49
# define SENCODE_LUN_FAILED_SELF_CONFIG 0x4c
# define SENCODE_OVERLAPPED_COMMAND 0x4E
/*
* Additional sense codes
*/
# define ASENCODE_NO_SENSE 0x00
# define ASENCODE_END_OF_DATA 0x05
# define ASENCODE_BECOMING_READY 0x01
# define ASENCODE_INIT_CMD_REQUIRED 0x02
# define ASENCODE_PARAM_LIST_LENGTH_ERROR 0x00
# define ASENCODE_INVALID_COMMAND 0x00
# define ASENCODE_LBA_OUT_OF_RANGE 0x00
# define ASENCODE_INVALID_CDB_FIELD 0x00
# define ASENCODE_LUN_NOT_SUPPORTED 0x00
# define ASENCODE_INVALID_PARAM_FIELD 0x00
# define ASENCODE_PARAM_NOT_SUPPORTED 0x01
# define ASENCODE_PARAM_VALUE_INVALID 0x02
# define ASENCODE_RESET_OCCURRED 0x00
# define ASENCODE_LUN_NOT_SELF_CONFIGURED_YET 0x00
# define ASENCODE_INQUIRY_DATA_CHANGED 0x03
# define ASENCODE_SAVING_PARAMS_NOT_SUPPORTED 0x00
# define ASENCODE_DIAGNOSTIC_FAILURE 0x80
# define ASENCODE_INTERNAL_TARGET_FAILURE 0x00
# define ASENCODE_INVALID_MESSAGE_ERROR 0x00
# define ASENCODE_LUN_FAILED_SELF_CONFIG 0x00
# define ASENCODE_OVERLAPPED_COMMAND 0x00
# define BYTE0(x) (unsigned char)(x)
# define BYTE1(x) (unsigned char)((x) >> 8)
# define BYTE2(x) (unsigned char)((x) >> 16)
# define BYTE3(x) (unsigned char)((x) >> 24)
/*------------------------------------------------------------------------------
* S T R U C T S / T Y P E D E F S
* - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - */
/* SCSI inquiry data */
struct inquiry_data {
u8 inqd_pdt ; /* Peripheral qualifier | Peripheral Device Type */
u8 inqd_dtq ; /* RMB | Device Type Qualifier */
u8 inqd_ver ; /* ISO version | ECMA version | ANSI-approved version */
u8 inqd_rdf ; /* AENC | TrmIOP | Response data format */
u8 inqd_len ; /* Additional length (n-4) */
u8 inqd_pad1 [ 2 ] ; /* Reserved - must be zero */
u8 inqd_pad2 ; /* RelAdr | WBus32 | WBus16 | Sync | Linked |Reserved| CmdQue | SftRe */
u8 inqd_vid [ 8 ] ; /* Vendor ID */
u8 inqd_pid [ 16 ] ; /* Product ID */
u8 inqd_prl [ 4 ] ; /* Product Revision Level */
} ;
/*
* M O D U L E G L O B A L S
*/
static unsigned long aac_build_sg ( struct scsi_cmnd * scsicmd , struct sgmap * sgmap ) ;
static unsigned long aac_build_sg64 ( struct scsi_cmnd * scsicmd , struct sgmap64 * psg ) ;
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static unsigned long aac_build_sgraw ( struct scsi_cmnd * scsicmd , struct sgmapraw * psg ) ;
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static int aac_send_srb_fib ( struct scsi_cmnd * scsicmd ) ;
# ifdef AAC_DETAILED_STATUS_INFO
static char * aac_get_status_string ( u32 status ) ;
# endif
/*
* Non dasd selection is handled entirely in aachba now
*/
static int nondasd = - 1 ;
static int dacmode = - 1 ;
static int commit = - 1 ;
module_param ( nondasd , int , 0 ) ;
MODULE_PARM_DESC ( nondasd , " Control scanning of hba for nondasd devices. 0=off, 1=on " ) ;
module_param ( dacmode , int , 0 ) ;
MODULE_PARM_DESC ( dacmode , " Control whether dma addressing is using 64 bit DAC. 0=off, 1=on " ) ;
module_param ( commit , int , 0 ) ;
MODULE_PARM_DESC ( commit , " Control whether a COMMIT_CONFIG is issued to the adapter for foreign arrays. \n This is typically needed in systems that do not have a BIOS. 0=off, 1=on " ) ;
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int numacb = - 1 ;
module_param ( numacb , int , S_IRUGO | S_IWUSR ) ;
MODULE_PARM_DESC ( numacb , " Request a limit to the number of adapter control blocks (FIB) allocated. Valid \n values are 512 and down. Default is to use suggestion from Firmware. " ) ;
int acbsize = - 1 ;
module_param ( acbsize , int , S_IRUGO | S_IWUSR ) ;
MODULE_PARM_DESC ( acbsize , " Request a specific adapter control block (FIB) size. Valid values are 512, \n 2048, 4096 and 8192. Default is to use suggestion from Firmware. " ) ;
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/**
* aac_get_config_status - check the adapter configuration
* @ common : adapter to query
*
* Query config status , and commit the configuration if needed .
*/
int aac_get_config_status ( struct aac_dev * dev )
{
int status = 0 ;
struct fib * fibptr ;
if ( ! ( fibptr = fib_alloc ( dev ) ) )
return - ENOMEM ;
fib_init ( fibptr ) ;
{
struct aac_get_config_status * dinfo ;
dinfo = ( struct aac_get_config_status * ) fib_data ( fibptr ) ;
dinfo - > command = cpu_to_le32 ( VM_ContainerConfig ) ;
dinfo - > type = cpu_to_le32 ( CT_GET_CONFIG_STATUS ) ;
dinfo - > count = cpu_to_le32 ( sizeof ( ( ( struct aac_get_config_status_resp * ) NULL ) - > data ) ) ;
}
status = fib_send ( ContainerCommand ,
fibptr ,
sizeof ( struct aac_get_config_status ) ,
FsaNormal ,
1 , 1 ,
NULL , NULL ) ;
if ( status < 0 ) {
printk ( KERN_WARNING " aac_get_config_status: SendFIB failed. \n " ) ;
} else {
struct aac_get_config_status_resp * reply
= ( struct aac_get_config_status_resp * ) fib_data ( fibptr ) ;
dprintk ( ( KERN_WARNING
" aac_get_config_status: response=%d status=%d action=%d \n " ,
le32_to_cpu ( reply - > response ) ,
le32_to_cpu ( reply - > status ) ,
le32_to_cpu ( reply - > data . action ) ) ) ;
if ( ( le32_to_cpu ( reply - > response ) ! = ST_OK ) | |
( le32_to_cpu ( reply - > status ) ! = CT_OK ) | |
( le32_to_cpu ( reply - > data . action ) > CFACT_PAUSE ) ) {
printk ( KERN_WARNING " aac_get_config_status: Will not issue the Commit Configuration \n " ) ;
status = - EINVAL ;
}
}
fib_complete ( fibptr ) ;
/* Send a CT_COMMIT_CONFIG to enable discovery of devices */
if ( status > = 0 ) {
if ( commit = = 1 ) {
struct aac_commit_config * dinfo ;
fib_init ( fibptr ) ;
dinfo = ( struct aac_commit_config * ) fib_data ( fibptr ) ;
dinfo - > command = cpu_to_le32 ( VM_ContainerConfig ) ;
dinfo - > type = cpu_to_le32 ( CT_COMMIT_CONFIG ) ;
status = fib_send ( ContainerCommand ,
fibptr ,
sizeof ( struct aac_commit_config ) ,
FsaNormal ,
1 , 1 ,
NULL , NULL ) ;
fib_complete ( fibptr ) ;
} else if ( commit = = 0 ) {
printk ( KERN_WARNING
" aac_get_config_status: Foreign device configurations are being ignored \n " ) ;
}
}
fib_free ( fibptr ) ;
return status ;
}
/**
* aac_get_containers - list containers
* @ common : adapter to probe
*
* Make a list of all containers on this controller
*/
int aac_get_containers ( struct aac_dev * dev )
{
struct fsa_dev_info * fsa_dev_ptr ;
u32 index ;
int status = 0 ;
struct fib * fibptr ;
unsigned instance ;
struct aac_get_container_count * dinfo ;
struct aac_get_container_count_resp * dresp ;
int maximum_num_containers = MAXIMUM_NUM_CONTAINERS ;
instance = dev - > scsi_host_ptr - > unique_id ;
if ( ! ( fibptr = fib_alloc ( dev ) ) )
return - ENOMEM ;
fib_init ( fibptr ) ;
dinfo = ( struct aac_get_container_count * ) fib_data ( fibptr ) ;
dinfo - > command = cpu_to_le32 ( VM_ContainerConfig ) ;
dinfo - > type = cpu_to_le32 ( CT_GET_CONTAINER_COUNT ) ;
status = fib_send ( ContainerCommand ,
fibptr ,
sizeof ( struct aac_get_container_count ) ,
FsaNormal ,
1 , 1 ,
NULL , NULL ) ;
if ( status > = 0 ) {
dresp = ( struct aac_get_container_count_resp * ) fib_data ( fibptr ) ;
maximum_num_containers = le32_to_cpu ( dresp - > ContainerSwitchEntries ) ;
fib_complete ( fibptr ) ;
}
if ( maximum_num_containers < MAXIMUM_NUM_CONTAINERS )
maximum_num_containers = MAXIMUM_NUM_CONTAINERS ;
fsa_dev_ptr = ( struct fsa_dev_info * ) kmalloc (
sizeof ( * fsa_dev_ptr ) * maximum_num_containers , GFP_KERNEL ) ;
if ( ! fsa_dev_ptr ) {
fib_free ( fibptr ) ;
return - ENOMEM ;
}
memset ( fsa_dev_ptr , 0 , sizeof ( * fsa_dev_ptr ) * maximum_num_containers ) ;
dev - > fsa_dev = fsa_dev_ptr ;
dev - > maximum_num_containers = maximum_num_containers ;
for ( index = 0 ; index < dev - > maximum_num_containers ; index + + ) {
struct aac_query_mount * dinfo ;
struct aac_mount * dresp ;
fsa_dev_ptr [ index ] . devname [ 0 ] = ' \0 ' ;
fib_init ( fibptr ) ;
dinfo = ( struct aac_query_mount * ) fib_data ( fibptr ) ;
dinfo - > command = cpu_to_le32 ( VM_NameServe ) ;
dinfo - > count = cpu_to_le32 ( index ) ;
dinfo - > type = cpu_to_le32 ( FT_FILESYS ) ;
status = fib_send ( ContainerCommand ,
fibptr ,
sizeof ( struct aac_query_mount ) ,
FsaNormal ,
1 , 1 ,
NULL , NULL ) ;
if ( status < 0 ) {
printk ( KERN_WARNING " aac_get_containers: SendFIB failed. \n " ) ;
break ;
}
dresp = ( struct aac_mount * ) fib_data ( fibptr ) ;
dprintk ( ( KERN_DEBUG
" VM_NameServe cid=%d status=%d vol=%d state=%d cap=%u \n " ,
( int ) index , ( int ) le32_to_cpu ( dresp - > status ) ,
( int ) le32_to_cpu ( dresp - > mnt [ 0 ] . vol ) ,
( int ) le32_to_cpu ( dresp - > mnt [ 0 ] . state ) ,
( unsigned ) le32_to_cpu ( dresp - > mnt [ 0 ] . capacity ) ) ) ;
if ( ( le32_to_cpu ( dresp - > status ) = = ST_OK ) & &
( le32_to_cpu ( dresp - > mnt [ 0 ] . vol ) ! = CT_NONE ) & &
( le32_to_cpu ( dresp - > mnt [ 0 ] . state ) ! = FSCS_HIDDEN ) ) {
fsa_dev_ptr [ index ] . valid = 1 ;
fsa_dev_ptr [ index ] . type = le32_to_cpu ( dresp - > mnt [ 0 ] . vol ) ;
fsa_dev_ptr [ index ] . size = le32_to_cpu ( dresp - > mnt [ 0 ] . capacity ) ;
if ( le32_to_cpu ( dresp - > mnt [ 0 ] . state ) & FSCS_READONLY )
fsa_dev_ptr [ index ] . ro = 1 ;
}
fib_complete ( fibptr ) ;
/*
* If there are no more containers , then stop asking .
*/
if ( ( index + 1 ) > = le32_to_cpu ( dresp - > count ) ) {
break ;
}
}
fib_free ( fibptr ) ;
return status ;
}
static void aac_io_done ( struct scsi_cmnd * scsicmd )
{
unsigned long cpu_flags ;
struct Scsi_Host * host = scsicmd - > device - > host ;
spin_lock_irqsave ( host - > host_lock , cpu_flags ) ;
scsicmd - > scsi_done ( scsicmd ) ;
spin_unlock_irqrestore ( host - > host_lock , cpu_flags ) ;
}
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static void aac_internal_transfer ( struct scsi_cmnd * scsicmd , void * data , unsigned int offset , unsigned int len )
{
void * buf ;
unsigned int transfer_len ;
struct scatterlist * sg = scsicmd - > request_buffer ;
if ( scsicmd - > use_sg ) {
buf = kmap_atomic ( sg - > page , KM_IRQ0 ) + sg - > offset ;
transfer_len = min ( sg - > length , len + offset ) ;
} else {
buf = scsicmd - > request_buffer ;
transfer_len = min ( scsicmd - > request_bufflen , len + offset ) ;
}
memcpy ( buf + offset , data , transfer_len - offset ) ;
if ( scsicmd - > use_sg )
kunmap_atomic ( buf - sg - > offset , KM_IRQ0 ) ;
}
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static void get_container_name_callback ( void * context , struct fib * fibptr )
{
struct aac_get_name_resp * get_name_reply ;
struct scsi_cmnd * scsicmd ;
scsicmd = ( struct scsi_cmnd * ) context ;
dprintk ( ( KERN_DEBUG " get_container_name_callback[cpu %d]: t = %ld. \n " , smp_processor_id ( ) , jiffies ) ) ;
if ( fibptr = = NULL )
BUG ( ) ;
get_name_reply = ( struct aac_get_name_resp * ) fib_data ( fibptr ) ;
/* Failure is irrelevant, using default value instead */
if ( ( le32_to_cpu ( get_name_reply - > status ) = = CT_OK )
& & ( get_name_reply - > data [ 0 ] ! = ' \0 ' ) ) {
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char * sp = get_name_reply - > data ;
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sp [ sizeof ( ( ( struct aac_get_name_resp * ) NULL ) - > data ) - 1 ] = ' \0 ' ;
while ( * sp = = ' ' )
+ + sp ;
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if ( * sp ) {
char d [ sizeof ( ( ( struct inquiry_data * ) NULL ) - > inqd_pid ) ] ;
int count = sizeof ( d ) ;
char * dp = d ;
do {
* dp + + = ( * sp ) ? * sp + + : ' ' ;
} while ( - - count > 0 ) ;
aac_internal_transfer ( scsicmd , d ,
offsetof ( struct inquiry_data , inqd_pid ) , sizeof ( d ) ) ;
}
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}
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scsicmd - > result = DID_OK < < 16 | COMMAND_COMPLETE < < 8 | SAM_STAT_GOOD ;
fib_complete ( fibptr ) ;
fib_free ( fibptr ) ;
aac_io_done ( scsicmd ) ;
}
/**
* aac_get_container_name - get container name , none blocking .
*/
static int aac_get_container_name ( struct scsi_cmnd * scsicmd , int cid )
{
int status ;
struct aac_get_name * dinfo ;
struct fib * cmd_fibcontext ;
struct aac_dev * dev ;
dev = ( struct aac_dev * ) scsicmd - > device - > host - > hostdata ;
if ( ! ( cmd_fibcontext = fib_alloc ( dev ) ) )
return - ENOMEM ;
fib_init ( cmd_fibcontext ) ;
dinfo = ( struct aac_get_name * ) fib_data ( cmd_fibcontext ) ;
dinfo - > command = cpu_to_le32 ( VM_ContainerConfig ) ;
dinfo - > type = cpu_to_le32 ( CT_READ_NAME ) ;
dinfo - > cid = cpu_to_le32 ( cid ) ;
dinfo - > count = cpu_to_le32 ( sizeof ( ( ( struct aac_get_name_resp * ) NULL ) - > data ) ) ;
status = fib_send ( ContainerCommand ,
cmd_fibcontext ,
sizeof ( struct aac_get_name ) ,
FsaNormal ,
0 , 1 ,
( fib_callback ) get_container_name_callback ,
( void * ) scsicmd ) ;
/*
* Check that the command queued to the controller
*/
if ( status = = - EINPROGRESS )
return 0 ;
printk ( KERN_WARNING " aac_get_container_name: fib_send failed with status: %d. \n " , status ) ;
fib_complete ( cmd_fibcontext ) ;
fib_free ( cmd_fibcontext ) ;
return - 1 ;
}
/**
* probe_container - query a logical volume
* @ dev : device to query
* @ cid : container identifier
*
* Queries the controller about the given volume . The volume information
* is updated in the struct fsa_dev_info structure rather than returned .
*/
static int probe_container ( struct aac_dev * dev , int cid )
{
struct fsa_dev_info * fsa_dev_ptr ;
int status ;
struct aac_query_mount * dinfo ;
struct aac_mount * dresp ;
struct fib * fibptr ;
unsigned instance ;
fsa_dev_ptr = dev - > fsa_dev ;
instance = dev - > scsi_host_ptr - > unique_id ;
if ( ! ( fibptr = fib_alloc ( dev ) ) )
return - ENOMEM ;
fib_init ( fibptr ) ;
dinfo = ( struct aac_query_mount * ) fib_data ( fibptr ) ;
dinfo - > command = cpu_to_le32 ( VM_NameServe ) ;
dinfo - > count = cpu_to_le32 ( cid ) ;
dinfo - > type = cpu_to_le32 ( FT_FILESYS ) ;
status = fib_send ( ContainerCommand ,
fibptr ,
sizeof ( struct aac_query_mount ) ,
FsaNormal ,
1 , 1 ,
NULL , NULL ) ;
if ( status < 0 ) {
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printk ( KERN_WARNING " aacraid: probe_container query failed. \n " ) ;
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goto error ;
}
dresp = ( struct aac_mount * ) fib_data ( fibptr ) ;
if ( ( le32_to_cpu ( dresp - > status ) = = ST_OK ) & &
( le32_to_cpu ( dresp - > mnt [ 0 ] . vol ) ! = CT_NONE ) & &
( le32_to_cpu ( dresp - > mnt [ 0 ] . state ) ! = FSCS_HIDDEN ) ) {
fsa_dev_ptr [ cid ] . valid = 1 ;
fsa_dev_ptr [ cid ] . type = le32_to_cpu ( dresp - > mnt [ 0 ] . vol ) ;
fsa_dev_ptr [ cid ] . size = le32_to_cpu ( dresp - > mnt [ 0 ] . capacity ) ;
if ( le32_to_cpu ( dresp - > mnt [ 0 ] . state ) & FSCS_READONLY )
fsa_dev_ptr [ cid ] . ro = 1 ;
}
error :
fib_complete ( fibptr ) ;
fib_free ( fibptr ) ;
return status ;
}
/* Local Structure to set SCSI inquiry data strings */
struct scsi_inq {
char vid [ 8 ] ; /* Vendor ID */
char pid [ 16 ] ; /* Product ID */
char prl [ 4 ] ; /* Product Revision Level */
} ;
/**
* InqStrCopy - string merge
* @ a : string to copy from
* @ b : string to copy to
*
* Copy a String from one location to another
* without copying \ 0
*/
static void inqstrcpy ( char * a , char * b )
{
while ( * a ! = ( char ) 0 )
* b + + = * a + + ;
}
static char * container_types [ ] = {
" None " ,
" Volume " ,
" Mirror " ,
" Stripe " ,
" RAID5 " ,
" SSRW " ,
" SSRO " ,
" Morph " ,
" Legacy " ,
" RAID4 " ,
" RAID10 " ,
" RAID00 " ,
" V-MIRRORS " ,
" PSEUDO R4 " ,
" RAID50 " ,
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" RAID5D " ,
" RAID5D0 " ,
" RAID1E " ,
" RAID6 " ,
" RAID60 " ,
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" Unknown "
} ;
/* Function: setinqstr
*
* Arguments : [ 1 ] pointer to void [ 1 ] int
*
* Purpose : Sets SCSI inquiry data strings for vendor , product
* and revision level . Allows strings to be set in platform dependant
* files instead of in OS dependant driver source .
*/
static void setinqstr ( int devtype , void * data , int tindex )
{
struct scsi_inq * str ;
struct aac_driver_ident * mp ;
mp = aac_get_driver_ident ( devtype ) ;
str = ( struct scsi_inq * ) ( data ) ; /* cast data to scsi inq block */
inqstrcpy ( mp - > vname , str - > vid ) ;
inqstrcpy ( mp - > model , str - > pid ) ; /* last six chars reserved for vol type */
if ( tindex < ( sizeof ( container_types ) / sizeof ( char * ) ) ) {
char * findit = str - > pid ;
for ( ; * findit ! = ' ' ; findit + + ) ; /* walk till we find a space */
/* RAID is superfluous in the context of a RAID device */
if ( memcmp ( findit - 4 , " RAID " , 4 ) = = 0 )
* ( findit - = 4 ) = ' ' ;
inqstrcpy ( container_types [ tindex ] , findit + 1 ) ;
}
inqstrcpy ( " V1.0 " , str - > prl ) ;
}
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static void set_sense ( u8 * sense_buf , u8 sense_key , u8 sense_code ,
u8 a_sense_code , u8 incorrect_length ,
u8 bit_pointer , u16 field_pointer ,
u32 residue )
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{
sense_buf [ 0 ] = 0xF0 ; /* Sense data valid, err code 70h (current error) */
sense_buf [ 1 ] = 0 ; /* Segment number, always zero */
if ( incorrect_length ) {
sense_buf [ 2 ] = sense_key | 0x20 ; /* Set ILI bit | sense key */
sense_buf [ 3 ] = BYTE3 ( residue ) ;
sense_buf [ 4 ] = BYTE2 ( residue ) ;
sense_buf [ 5 ] = BYTE1 ( residue ) ;
sense_buf [ 6 ] = BYTE0 ( residue ) ;
} else
sense_buf [ 2 ] = sense_key ; /* Sense key */
if ( sense_key = = ILLEGAL_REQUEST )
sense_buf [ 7 ] = 10 ; /* Additional sense length */
else
sense_buf [ 7 ] = 6 ; /* Additional sense length */
sense_buf [ 12 ] = sense_code ; /* Additional sense code */
sense_buf [ 13 ] = a_sense_code ; /* Additional sense code qualifier */
if ( sense_key = = ILLEGAL_REQUEST ) {
sense_buf [ 15 ] = 0 ;
if ( sense_code = = SENCODE_INVALID_PARAM_FIELD )
sense_buf [ 15 ] = 0x80 ; /* Std sense key specific field */
/* Illegal parameter is in the parameter block */
if ( sense_code = = SENCODE_INVALID_CDB_FIELD )
sense_buf [ 15 ] = 0xc0 ; /* Std sense key specific field */
/* Illegal parameter is in the CDB block */
sense_buf [ 15 ] | = bit_pointer ;
sense_buf [ 16 ] = field_pointer > > 8 ; /* MSB */
sense_buf [ 17 ] = field_pointer ; /* LSB */
}
}
int aac_get_adapter_info ( struct aac_dev * dev )
{
struct fib * fibptr ;
int rcode ;
u32 tmp ;
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struct aac_adapter_info * info ;
struct aac_bus_info * command ;
struct aac_bus_info_response * bus_info ;
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if ( ! ( fibptr = fib_alloc ( dev ) ) )
return - ENOMEM ;
fib_init ( fibptr ) ;
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info = ( struct aac_adapter_info * ) fib_data ( fibptr ) ;
memset ( info , 0 , sizeof ( * info ) ) ;
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rcode = fib_send ( RequestAdapterInfo ,
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fibptr ,
sizeof ( * info ) ,
FsaNormal ,
1 , 1 ,
NULL ,
NULL ) ;
if ( rcode < 0 ) {
fib_complete ( fibptr ) ;
fib_free ( fibptr ) ;
return rcode ;
}
memcpy ( & dev - > adapter_info , info , sizeof ( * info ) ) ;
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if ( dev - > adapter_info . options & AAC_OPT_SUPPLEMENT_ADAPTER_INFO ) {
struct aac_supplement_adapter_info * info ;
fib_init ( fibptr ) ;
info = ( struct aac_supplement_adapter_info * ) fib_data ( fibptr ) ;
memset ( info , 0 , sizeof ( * info ) ) ;
rcode = fib_send ( RequestSupplementAdapterInfo ,
fibptr ,
sizeof ( * info ) ,
FsaNormal ,
1 , 1 ,
NULL ,
NULL ) ;
if ( rcode > = 0 )
memcpy ( & dev - > supplement_adapter_info , info , sizeof ( * info ) ) ;
}
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/*
* GetBusInfo
*/
fib_init ( fibptr ) ;
bus_info = ( struct aac_bus_info_response * ) fib_data ( fibptr ) ;
memset ( bus_info , 0 , sizeof ( * bus_info ) ) ;
command = ( struct aac_bus_info * ) bus_info ;
command - > Command = cpu_to_le32 ( VM_Ioctl ) ;
command - > ObjType = cpu_to_le32 ( FT_DRIVE ) ;
command - > MethodId = cpu_to_le32 ( 1 ) ;
command - > CtlCmd = cpu_to_le32 ( GetBusInfo ) ;
rcode = fib_send ( ContainerCommand ,
fibptr ,
sizeof ( * bus_info ) ,
FsaNormal ,
1 , 1 ,
NULL , NULL ) ;
if ( rcode > = 0 & & le32_to_cpu ( bus_info - > Status ) = = ST_OK ) {
dev - > maximum_num_physicals = le32_to_cpu ( bus_info - > TargetsPerBus ) ;
dev - > maximum_num_channels = le32_to_cpu ( bus_info - > BusCount ) ;
}
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tmp = le32_to_cpu ( dev - > adapter_info . kernelrev ) ;
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printk ( KERN_INFO " %s%d: kernel %d.%d-%d[%d] %.*s \n " ,
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dev - > name ,
dev - > id ,
tmp > > 24 ,
( tmp > > 16 ) & 0xff ,
tmp & 0xff ,
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le32_to_cpu ( dev - > adapter_info . kernelbuild ) ,
( int ) sizeof ( dev - > supplement_adapter_info . BuildDate ) ,
dev - > supplement_adapter_info . BuildDate ) ;
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tmp = le32_to_cpu ( dev - > adapter_info . monitorrev ) ;
printk ( KERN_INFO " %s%d: monitor %d.%d-%d[%d] \n " ,
dev - > name , dev - > id ,
tmp > > 24 , ( tmp > > 16 ) & 0xff , tmp & 0xff ,
le32_to_cpu ( dev - > adapter_info . monitorbuild ) ) ;
tmp = le32_to_cpu ( dev - > adapter_info . biosrev ) ;
printk ( KERN_INFO " %s%d: bios %d.%d-%d[%d] \n " ,
dev - > name , dev - > id ,
tmp > > 24 , ( tmp > > 16 ) & 0xff , tmp & 0xff ,
le32_to_cpu ( dev - > adapter_info . biosbuild ) ) ;
if ( le32_to_cpu ( dev - > adapter_info . serial [ 0 ] ) ! = 0xBAD0 )
printk ( KERN_INFO " %s%d: serial %x \n " ,
dev - > name , dev - > id ,
le32_to_cpu ( dev - > adapter_info . serial [ 0 ] ) ) ;
dev - > nondasd_support = 0 ;
dev - > raid_scsi_mode = 0 ;
if ( dev - > adapter_info . options & AAC_OPT_NONDASD ) {
dev - > nondasd_support = 1 ;
}
/*
* If the firmware supports ROMB RAID / SCSI mode and we are currently
* in RAID / SCSI mode , set the flag . For now if in this mode we will
* force nondasd support on . If we decide to allow the non - dasd flag
* additional changes changes will have to be made to support
* RAID / SCSI . the function aac_scsi_cmd in this module will have to be
* changed to support the new dev - > raid_scsi_mode flag instead of
* leaching off of the dev - > nondasd_support flag . Also in linit . c the
* function aac_detect will have to be modified where it sets up the
* max number of channels based on the aac - > nondasd_support flag only .
*/
if ( ( dev - > adapter_info . options & AAC_OPT_SCSI_MANAGED ) & &
( dev - > adapter_info . options & AAC_OPT_RAID_SCSI_MODE ) ) {
dev - > nondasd_support = 1 ;
dev - > raid_scsi_mode = 1 ;
}
if ( dev - > raid_scsi_mode ! = 0 )
printk ( KERN_INFO " %s%d: ROMB RAID/SCSI mode enabled \n " ,
dev - > name , dev - > id ) ;
if ( nondasd ! = - 1 ) {
dev - > nondasd_support = ( nondasd ! = 0 ) ;
}
if ( dev - > nondasd_support ! = 0 ) {
printk ( KERN_INFO " %s%d: Non-DASD support enabled. \n " , dev - > name , dev - > id ) ;
}
dev - > dac_support = 0 ;
if ( ( sizeof ( dma_addr_t ) > 4 ) & & ( dev - > adapter_info . options & AAC_OPT_SGMAP_HOST64 ) ) {
printk ( KERN_INFO " %s%d: 64bit support enabled. \n " , dev - > name , dev - > id ) ;
dev - > dac_support = 1 ;
}
if ( dacmode ! = - 1 ) {
dev - > dac_support = ( dacmode ! = 0 ) ;
}
if ( dev - > dac_support ! = 0 ) {
if ( ! pci_set_dma_mask ( dev - > pdev , 0xFFFFFFFFFFFFFFFFULL ) & &
! pci_set_consistent_dma_mask ( dev - > pdev , 0xFFFFFFFFFFFFFFFFULL ) ) {
printk ( KERN_INFO " %s%d: 64 Bit DAC enabled \n " ,
dev - > name , dev - > id ) ;
} else if ( ! pci_set_dma_mask ( dev - > pdev , 0xFFFFFFFFULL ) & &
! pci_set_consistent_dma_mask ( dev - > pdev , 0xFFFFFFFFULL ) ) {
printk ( KERN_INFO " %s%d: DMA mask set failed, 64 Bit DAC disabled \n " ,
dev - > name , dev - > id ) ;
dev - > dac_support = 0 ;
} else {
printk ( KERN_WARNING " %s%d: No suitable DMA available. \n " ,
dev - > name , dev - > id ) ;
rcode = - ENOMEM ;
}
}
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/*
* 57 scatter gather elements
*/
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if ( ! ( dev - > raw_io_interface ) ) {
dev - > scsi_host_ptr - > sg_tablesize = ( dev - > max_fib_size -
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sizeof ( struct aac_fibhdr ) -
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sizeof ( struct aac_write ) + sizeof ( struct sgmap ) ) /
sizeof ( struct sgmap ) ;
if ( dev - > dac_support ) {
/*
* 38 scatter gather elements
*/
dev - > scsi_host_ptr - > sg_tablesize =
( dev - > max_fib_size -
sizeof ( struct aac_fibhdr ) -
sizeof ( struct aac_write64 ) +
sizeof ( struct sgmap64 ) ) /
sizeof ( struct sgmap64 ) ;
}
dev - > scsi_host_ptr - > max_sectors = AAC_MAX_32BIT_SGBCOUNT ;
if ( ! ( dev - > adapter_info . options & AAC_OPT_NEW_COMM ) ) {
/*
* Worst case size that could cause sg overflow when
* we break up SG elements that are larger than 64 KB .
* Would be nice if we could tell the SCSI layer what
* the maximum SG element size can be . Worst case is
* ( sg_tablesize - 1 ) 4 KB elements with one 64 KB
* element .
* 32 bit - > 468 or 238 KB 64 bit - > 424 or 212 KB
*/
dev - > scsi_host_ptr - > max_sectors =
( dev - > scsi_host_ptr - > sg_tablesize * 8 ) + 112 ;
}
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}
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fib_complete ( fibptr ) ;
fib_free ( fibptr ) ;
return rcode ;
}
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static void io_callback ( void * context , struct fib * fibptr )
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{
struct aac_dev * dev ;
struct aac_read_reply * readreply ;
struct scsi_cmnd * scsicmd ;
u32 cid ;
scsicmd = ( struct scsi_cmnd * ) context ;
dev = ( struct aac_dev * ) scsicmd - > device - > host - > hostdata ;
cid = ID_LUN_TO_CONTAINER ( scsicmd - > device - > id , scsicmd - > device - > lun ) ;
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dprintk ( ( KERN_DEBUG " io_callback[cpu %d]: lba = %u, t = %ld. \n " , smp_processor_id ( ) , ( ( scsicmd - > cmnd [ 1 ] & 0x1F ) < < 16 ) | ( scsicmd - > cmnd [ 2 ] < < 8 ) | scsicmd - > cmnd [ 3 ] , jiffies ) ) ;
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if ( fibptr = = NULL )
BUG ( ) ;
if ( scsicmd - > use_sg )
pci_unmap_sg ( dev - > pdev ,
( struct scatterlist * ) scsicmd - > buffer ,
scsicmd - > use_sg ,
scsicmd - > sc_data_direction ) ;
else if ( scsicmd - > request_bufflen )
pci_unmap_single ( dev - > pdev , scsicmd - > SCp . dma_handle ,
scsicmd - > request_bufflen ,
scsicmd - > sc_data_direction ) ;
readreply = ( struct aac_read_reply * ) fib_data ( fibptr ) ;
if ( le32_to_cpu ( readreply - > status ) = = ST_OK )
scsicmd - > result = DID_OK < < 16 | COMMAND_COMPLETE < < 8 | SAM_STAT_GOOD ;
else {
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# ifdef AAC_DETAILED_STATUS_INFO
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printk ( KERN_WARNING " io_callback: io failed, status = %d \n " ,
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le32_to_cpu ( readreply - > status ) ) ;
# endif
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scsicmd - > result = DID_OK < < 16 | COMMAND_COMPLETE < < 8 | SAM_STAT_CHECK_CONDITION ;
set_sense ( ( u8 * ) & dev - > fsa_dev [ cid ] . sense_data ,
HARDWARE_ERROR ,
SENCODE_INTERNAL_TARGET_FAILURE ,
ASENCODE_INTERNAL_TARGET_FAILURE , 0 , 0 ,
0 , 0 ) ;
memcpy ( scsicmd - > sense_buffer , & dev - > fsa_dev [ cid ] . sense_data ,
( sizeof ( dev - > fsa_dev [ cid ] . sense_data ) > sizeof ( scsicmd - > sense_buffer ) )
? sizeof ( scsicmd - > sense_buffer )
: sizeof ( dev - > fsa_dev [ cid ] . sense_data ) ) ;
}
fib_complete ( fibptr ) ;
fib_free ( fibptr ) ;
aac_io_done ( scsicmd ) ;
}
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static int aac_read ( struct scsi_cmnd * scsicmd , int cid )
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{
u32 lba ;
u32 count ;
int status ;
u16 fibsize ;
struct aac_dev * dev ;
struct fib * cmd_fibcontext ;
dev = ( struct aac_dev * ) scsicmd - > device - > host - > hostdata ;
/*
* Get block address and transfer length
*/
if ( scsicmd - > cmnd [ 0 ] = = READ_6 ) /* 6 byte command */
{
dprintk ( ( KERN_DEBUG " aachba: received a read(6) command on id %d. \n " , cid ) ) ;
lba = ( ( scsicmd - > cmnd [ 1 ] & 0x1F ) < < 16 ) | ( scsicmd - > cmnd [ 2 ] < < 8 ) | scsicmd - > cmnd [ 3 ] ;
count = scsicmd - > cmnd [ 4 ] ;
if ( count = = 0 )
count = 256 ;
} else {
dprintk ( ( KERN_DEBUG " aachba: received a read(10) command on id %d. \n " , cid ) ) ;
lba = ( scsicmd - > cmnd [ 2 ] < < 24 ) | ( scsicmd - > cmnd [ 3 ] < < 16 ) | ( scsicmd - > cmnd [ 4 ] < < 8 ) | scsicmd - > cmnd [ 5 ] ;
count = ( scsicmd - > cmnd [ 7 ] < < 8 ) | scsicmd - > cmnd [ 8 ] ;
}
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dprintk ( ( KERN_DEBUG " aac_read[cpu %d]: lba = %u, t = %ld. \n " ,
smp_processor_id ( ) , ( unsigned long long ) lba , jiffies ) ) ;
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/*
* Alocate and initialize a Fib
*/
if ( ! ( cmd_fibcontext = fib_alloc ( dev ) ) ) {
return - 1 ;
}
fib_init ( cmd_fibcontext ) ;
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if ( dev - > raw_io_interface ) {
struct aac_raw_io * readcmd ;
readcmd = ( struct aac_raw_io * ) fib_data ( cmd_fibcontext ) ;
readcmd - > block [ 0 ] = cpu_to_le32 ( lba ) ;
readcmd - > block [ 1 ] = 0 ;
readcmd - > count = cpu_to_le32 ( count < < 9 ) ;
readcmd - > cid = cpu_to_le16 ( cid ) ;
readcmd - > flags = cpu_to_le16 ( 1 ) ;
readcmd - > bpTotal = 0 ;
readcmd - > bpComplete = 0 ;
aac_build_sgraw ( scsicmd , & readcmd - > sg ) ;
fibsize = sizeof ( struct aac_raw_io ) + ( ( le32_to_cpu ( readcmd - > sg . count ) - 1 ) * sizeof ( struct sgentryraw ) ) ;
if ( fibsize > ( dev - > max_fib_size - sizeof ( struct aac_fibhdr ) ) )
BUG ( ) ;
/*
* Now send the Fib to the adapter
*/
status = fib_send ( ContainerRawIo ,
cmd_fibcontext ,
fibsize ,
FsaNormal ,
0 , 1 ,
( fib_callback ) io_callback ,
( void * ) scsicmd ) ;
} else if ( dev - > dac_support = = 1 ) {
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struct aac_read64 * readcmd ;
readcmd = ( struct aac_read64 * ) fib_data ( cmd_fibcontext ) ;
readcmd - > command = cpu_to_le32 ( VM_CtHostRead64 ) ;
readcmd - > cid = cpu_to_le16 ( cid ) ;
readcmd - > sector_count = cpu_to_le16 ( count ) ;
readcmd - > block = cpu_to_le32 ( lba ) ;
readcmd - > pad = 0 ;
readcmd - > flags = 0 ;
aac_build_sg64 ( scsicmd , & readcmd - > sg ) ;
fibsize = sizeof ( struct aac_read64 ) +
( ( le32_to_cpu ( readcmd - > sg . count ) - 1 ) *
sizeof ( struct sgentry64 ) ) ;
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BUG_ON ( fibsize > ( dev - > max_fib_size -
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sizeof ( struct aac_fibhdr ) ) ) ;
/*
* Now send the Fib to the adapter
*/
status = fib_send ( ContainerCommand64 ,
cmd_fibcontext ,
fibsize ,
FsaNormal ,
0 , 1 ,
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( fib_callback ) io_callback ,
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( void * ) scsicmd ) ;
} else {
struct aac_read * readcmd ;
readcmd = ( struct aac_read * ) fib_data ( cmd_fibcontext ) ;
readcmd - > command = cpu_to_le32 ( VM_CtBlockRead ) ;
readcmd - > cid = cpu_to_le32 ( cid ) ;
readcmd - > block = cpu_to_le32 ( lba ) ;
readcmd - > count = cpu_to_le32 ( count * 512 ) ;
aac_build_sg ( scsicmd , & readcmd - > sg ) ;
fibsize = sizeof ( struct aac_read ) +
( ( le32_to_cpu ( readcmd - > sg . count ) - 1 ) *
sizeof ( struct sgentry ) ) ;
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BUG_ON ( fibsize > ( dev - > max_fib_size -
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sizeof ( struct aac_fibhdr ) ) ) ;
/*
* Now send the Fib to the adapter
*/
status = fib_send ( ContainerCommand ,
cmd_fibcontext ,
fibsize ,
FsaNormal ,
0 , 1 ,
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( fib_callback ) io_callback ,
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( void * ) scsicmd ) ;
}
/*
* Check that the command queued to the controller
*/
if ( status = = - EINPROGRESS )
return 0 ;
printk ( KERN_WARNING " aac_read: fib_send failed with status: %d. \n " , status ) ;
/*
* For some reason , the Fib didn ' t queue , return QUEUE_FULL
*/
scsicmd - > result = DID_OK < < 16 | COMMAND_COMPLETE < < 8 | SAM_STAT_TASK_SET_FULL ;
aac_io_done ( scsicmd ) ;
fib_complete ( cmd_fibcontext ) ;
fib_free ( cmd_fibcontext ) ;
return 0 ;
}
static int aac_write ( struct scsi_cmnd * scsicmd , int cid )
{
u32 lba ;
u32 count ;
int status ;
u16 fibsize ;
struct aac_dev * dev ;
struct fib * cmd_fibcontext ;
dev = ( struct aac_dev * ) scsicmd - > device - > host - > hostdata ;
/*
* Get block address and transfer length
*/
if ( scsicmd - > cmnd [ 0 ] = = WRITE_6 ) /* 6 byte command */
{
lba = ( ( scsicmd - > cmnd [ 1 ] & 0x1F ) < < 16 ) | ( scsicmd - > cmnd [ 2 ] < < 8 ) | scsicmd - > cmnd [ 3 ] ;
count = scsicmd - > cmnd [ 4 ] ;
if ( count = = 0 )
count = 256 ;
} else {
dprintk ( ( KERN_DEBUG " aachba: received a write(10) command on id %d. \n " , cid ) ) ;
lba = ( scsicmd - > cmnd [ 2 ] < < 24 ) | ( scsicmd - > cmnd [ 3 ] < < 16 ) | ( scsicmd - > cmnd [ 4 ] < < 8 ) | scsicmd - > cmnd [ 5 ] ;
count = ( scsicmd - > cmnd [ 7 ] < < 8 ) | scsicmd - > cmnd [ 8 ] ;
}
dprintk ( ( KERN_DEBUG " aac_write[cpu %d]: lba = %u, t = %ld. \n " ,
smp_processor_id ( ) , ( unsigned long long ) lba , jiffies ) ) ;
/*
* Allocate and initialize a Fib then setup a BlockWrite command
*/
if ( ! ( cmd_fibcontext = fib_alloc ( dev ) ) ) {
scsicmd - > result = DID_ERROR < < 16 ;
aac_io_done ( scsicmd ) ;
return 0 ;
}
fib_init ( cmd_fibcontext ) ;
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if ( dev - > raw_io_interface ) {
struct aac_raw_io * writecmd ;
writecmd = ( struct aac_raw_io * ) fib_data ( cmd_fibcontext ) ;
writecmd - > block [ 0 ] = cpu_to_le32 ( lba ) ;
writecmd - > block [ 1 ] = 0 ;
writecmd - > count = cpu_to_le32 ( count < < 9 ) ;
writecmd - > cid = cpu_to_le16 ( cid ) ;
writecmd - > flags = 0 ;
writecmd - > bpTotal = 0 ;
writecmd - > bpComplete = 0 ;
aac_build_sgraw ( scsicmd , & writecmd - > sg ) ;
fibsize = sizeof ( struct aac_raw_io ) + ( ( le32_to_cpu ( writecmd - > sg . count ) - 1 ) * sizeof ( struct sgentryraw ) ) ;
if ( fibsize > ( dev - > max_fib_size - sizeof ( struct aac_fibhdr ) ) )
BUG ( ) ;
/*
* Now send the Fib to the adapter
*/
status = fib_send ( ContainerRawIo ,
cmd_fibcontext ,
fibsize ,
FsaNormal ,
0 , 1 ,
( fib_callback ) io_callback ,
( void * ) scsicmd ) ;
} else if ( dev - > dac_support = = 1 ) {
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struct aac_write64 * writecmd ;
writecmd = ( struct aac_write64 * ) fib_data ( cmd_fibcontext ) ;
writecmd - > command = cpu_to_le32 ( VM_CtHostWrite64 ) ;
writecmd - > cid = cpu_to_le16 ( cid ) ;
writecmd - > sector_count = cpu_to_le16 ( count ) ;
writecmd - > block = cpu_to_le32 ( lba ) ;
writecmd - > pad = 0 ;
writecmd - > flags = 0 ;
aac_build_sg64 ( scsicmd , & writecmd - > sg ) ;
fibsize = sizeof ( struct aac_write64 ) +
( ( le32_to_cpu ( writecmd - > sg . count ) - 1 ) *
sizeof ( struct sgentry64 ) ) ;
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BUG_ON ( fibsize > ( dev - > max_fib_size -
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sizeof ( struct aac_fibhdr ) ) ) ;
/*
* Now send the Fib to the adapter
*/
status = fib_send ( ContainerCommand64 ,
cmd_fibcontext ,
fibsize ,
FsaNormal ,
0 , 1 ,
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( fib_callback ) io_callback ,
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( void * ) scsicmd ) ;
} else {
struct aac_write * writecmd ;
writecmd = ( struct aac_write * ) fib_data ( cmd_fibcontext ) ;
writecmd - > command = cpu_to_le32 ( VM_CtBlockWrite ) ;
writecmd - > cid = cpu_to_le32 ( cid ) ;
writecmd - > block = cpu_to_le32 ( lba ) ;
writecmd - > count = cpu_to_le32 ( count * 512 ) ;
writecmd - > sg . count = cpu_to_le32 ( 1 ) ;
/* ->stable is not used - it did mean which type of write */
aac_build_sg ( scsicmd , & writecmd - > sg ) ;
fibsize = sizeof ( struct aac_write ) +
( ( le32_to_cpu ( writecmd - > sg . count ) - 1 ) *
sizeof ( struct sgentry ) ) ;
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BUG_ON ( fibsize > ( dev - > max_fib_size -
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sizeof ( struct aac_fibhdr ) ) ) ;
/*
* Now send the Fib to the adapter
*/
status = fib_send ( ContainerCommand ,
cmd_fibcontext ,
fibsize ,
FsaNormal ,
0 , 1 ,
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( fib_callback ) io_callback ,
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( void * ) scsicmd ) ;
}
/*
* Check that the command queued to the controller
*/
if ( status = = - EINPROGRESS )
{
return 0 ;
}
printk ( KERN_WARNING " aac_write: fib_send failed with status: %d \n " , status ) ;
/*
* For some reason , the Fib didn ' t queue , return QUEUE_FULL
*/
scsicmd - > result = DID_OK < < 16 | COMMAND_COMPLETE < < 8 | SAM_STAT_TASK_SET_FULL ;
aac_io_done ( scsicmd ) ;
fib_complete ( cmd_fibcontext ) ;
fib_free ( cmd_fibcontext ) ;
return 0 ;
}
static void synchronize_callback ( void * context , struct fib * fibptr )
{
struct aac_synchronize_reply * synchronizereply ;
struct scsi_cmnd * cmd ;
cmd = context ;
dprintk ( ( KERN_DEBUG " synchronize_callback[cpu %d]: t = %ld. \n " ,
smp_processor_id ( ) , jiffies ) ) ;
BUG_ON ( fibptr = = NULL ) ;
synchronizereply = fib_data ( fibptr ) ;
if ( le32_to_cpu ( synchronizereply - > status ) = = CT_OK )
cmd - > result = DID_OK < < 16 |
COMMAND_COMPLETE < < 8 | SAM_STAT_GOOD ;
else {
struct scsi_device * sdev = cmd - > device ;
struct aac_dev * dev = ( struct aac_dev * ) sdev - > host - > hostdata ;
u32 cid = ID_LUN_TO_CONTAINER ( sdev - > id , sdev - > lun ) ;
printk ( KERN_WARNING
" synchronize_callback: synchronize failed, status = %d \n " ,
le32_to_cpu ( synchronizereply - > status ) ) ;
cmd - > result = DID_OK < < 16 |
COMMAND_COMPLETE < < 8 | SAM_STAT_CHECK_CONDITION ;
set_sense ( ( u8 * ) & dev - > fsa_dev [ cid ] . sense_data ,
HARDWARE_ERROR ,
SENCODE_INTERNAL_TARGET_FAILURE ,
ASENCODE_INTERNAL_TARGET_FAILURE , 0 , 0 ,
0 , 0 ) ;
memcpy ( cmd - > sense_buffer , & dev - > fsa_dev [ cid ] . sense_data ,
min ( sizeof ( dev - > fsa_dev [ cid ] . sense_data ) ,
sizeof ( cmd - > sense_buffer ) ) ) ;
}
fib_complete ( fibptr ) ;
fib_free ( fibptr ) ;
aac_io_done ( cmd ) ;
}
static int aac_synchronize ( struct scsi_cmnd * scsicmd , int cid )
{
int status ;
struct fib * cmd_fibcontext ;
struct aac_synchronize * synchronizecmd ;
struct scsi_cmnd * cmd ;
struct scsi_device * sdev = scsicmd - > device ;
int active = 0 ;
unsigned long flags ;
/*
* Wait for all commands to complete to this specific
* target ( block ) .
*/
spin_lock_irqsave ( & sdev - > list_lock , flags ) ;
list_for_each_entry ( cmd , & sdev - > cmd_list , list )
if ( cmd ! = scsicmd & & cmd - > serial_number ! = 0 ) {
+ + active ;
break ;
}
spin_unlock_irqrestore ( & sdev - > list_lock , flags ) ;
/*
* Yield the processor ( requeue for later )
*/
if ( active )
return SCSI_MLQUEUE_DEVICE_BUSY ;
/*
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* Allocate and initialize a Fib
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*/
if ( ! ( cmd_fibcontext =
fib_alloc ( ( struct aac_dev * ) scsicmd - > device - > host - > hostdata ) ) )
return SCSI_MLQUEUE_HOST_BUSY ;
fib_init ( cmd_fibcontext ) ;
synchronizecmd = fib_data ( cmd_fibcontext ) ;
synchronizecmd - > command = cpu_to_le32 ( VM_ContainerConfig ) ;
synchronizecmd - > type = cpu_to_le32 ( CT_FLUSH_CACHE ) ;
synchronizecmd - > cid = cpu_to_le32 ( cid ) ;
synchronizecmd - > count =
cpu_to_le32 ( sizeof ( ( ( struct aac_synchronize_reply * ) NULL ) - > data ) ) ;
/*
* Now send the Fib to the adapter
*/
status = fib_send ( ContainerCommand ,
cmd_fibcontext ,
sizeof ( struct aac_synchronize ) ,
FsaNormal ,
0 , 1 ,
( fib_callback ) synchronize_callback ,
( void * ) scsicmd ) ;
/*
* Check that the command queued to the controller
*/
if ( status = = - EINPROGRESS )
return 0 ;
printk ( KERN_WARNING
" aac_synchronize: fib_send failed with status: %d. \n " , status ) ;
fib_complete ( cmd_fibcontext ) ;
fib_free ( cmd_fibcontext ) ;
return SCSI_MLQUEUE_HOST_BUSY ;
}
/**
* aac_scsi_cmd ( ) - Process SCSI command
* @ scsicmd : SCSI command block
*
* Emulate a SCSI command and queue the required request for the
* aacraid firmware .
*/
int aac_scsi_cmd ( struct scsi_cmnd * scsicmd )
{
u32 cid = 0 ;
struct Scsi_Host * host = scsicmd - > device - > host ;
struct aac_dev * dev = ( struct aac_dev * ) host - > hostdata ;
struct fsa_dev_info * fsa_dev_ptr = dev - > fsa_dev ;
int cardtype = dev - > cardtype ;
int ret ;
/*
* If the bus , id or lun is out of range , return fail
* Test does not apply to ID 16 , the pseudo id for the controller
* itself .
*/
if ( scsicmd - > device - > id ! = host - > this_id ) {
if ( ( scsicmd - > device - > channel = = 0 ) ) {
if ( ( scsicmd - > device - > id > = dev - > maximum_num_containers ) | | ( scsicmd - > device - > lun ! = 0 ) ) {
scsicmd - > result = DID_NO_CONNECT < < 16 ;
scsicmd - > scsi_done ( scsicmd ) ;
return 0 ;
}
cid = ID_LUN_TO_CONTAINER ( scsicmd - > device - > id , scsicmd - > device - > lun ) ;
/*
* If the target container doesn ' t exist , it may have
* been newly created
*/
if ( ( fsa_dev_ptr [ cid ] . valid & 1 ) = = 0 ) {
switch ( scsicmd - > cmnd [ 0 ] ) {
case INQUIRY :
case READ_CAPACITY :
case TEST_UNIT_READY :
spin_unlock_irq ( host - > host_lock ) ;
probe_container ( dev , cid ) ;
spin_lock_irq ( host - > host_lock ) ;
if ( fsa_dev_ptr [ cid ] . valid = = 0 ) {
scsicmd - > result = DID_NO_CONNECT < < 16 ;
scsicmd - > scsi_done ( scsicmd ) ;
return 0 ;
}
default :
break ;
}
}
/*
* If the target container still doesn ' t exist ,
* return failure
*/
if ( fsa_dev_ptr [ cid ] . valid = = 0 ) {
scsicmd - > result = DID_BAD_TARGET < < 16 ;
scsicmd - > scsi_done ( scsicmd ) ;
return 0 ;
}
} else { /* check for physical non-dasd devices */
if ( dev - > nondasd_support = = 1 ) {
return aac_send_srb_fib ( scsicmd ) ;
} else {
scsicmd - > result = DID_NO_CONNECT < < 16 ;
scsicmd - > scsi_done ( scsicmd ) ;
return 0 ;
}
}
}
/*
* else Command for the controller itself
*/
else if ( ( scsicmd - > cmnd [ 0 ] ! = INQUIRY ) & & /* only INQUIRY & TUR cmnd supported for controller */
( scsicmd - > cmnd [ 0 ] ! = TEST_UNIT_READY ) )
{
dprintk ( ( KERN_WARNING " Only INQUIRY & TUR command supported for controller, rcvd = 0x%x. \n " , scsicmd - > cmnd [ 0 ] ) ) ;
scsicmd - > result = DID_OK < < 16 | COMMAND_COMPLETE < < 8 | SAM_STAT_CHECK_CONDITION ;
set_sense ( ( u8 * ) & dev - > fsa_dev [ cid ] . sense_data ,
ILLEGAL_REQUEST ,
SENCODE_INVALID_COMMAND ,
ASENCODE_INVALID_COMMAND , 0 , 0 , 0 , 0 ) ;
memcpy ( scsicmd - > sense_buffer , & dev - > fsa_dev [ cid ] . sense_data ,
( sizeof ( dev - > fsa_dev [ cid ] . sense_data ) > sizeof ( scsicmd - > sense_buffer ) )
? sizeof ( scsicmd - > sense_buffer )
: sizeof ( dev - > fsa_dev [ cid ] . sense_data ) ) ;
scsicmd - > scsi_done ( scsicmd ) ;
return 0 ;
}
/* Handle commands here that don't really require going out to the adapter */
switch ( scsicmd - > cmnd [ 0 ] ) {
case INQUIRY :
{
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struct inquiry_data inq_data ;
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dprintk ( ( KERN_DEBUG " INQUIRY command, ID: %d. \n " , scsicmd - > device - > id ) ) ;
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memset ( & inq_data , 0 , sizeof ( struct inquiry_data ) ) ;
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inq_data . inqd_ver = 2 ; /* claim compliance to SCSI-2 */
inq_data . inqd_dtq = 0x80 ; /* set RMB bit to one indicating that the medium is removable */
inq_data . inqd_rdf = 2 ; /* A response data format value of two indicates that the data shall be in the format specified in SCSI-2 */
inq_data . inqd_len = 31 ;
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/*Format for "pad2" is RelAdr | WBus32 | WBus16 | Sync | Linked |Reserved| CmdQue | SftRe */
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inq_data . inqd_pad2 = 0x32 ; /*WBus16|Sync|CmdQue */
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/*
* Set the Vendor , Product , and Revision Level
* see : < vendor > . c i . e . aac . c
*/
if ( scsicmd - > device - > id = = host - > this_id ) {
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setinqstr ( cardtype , ( void * ) ( inq_data . inqd_vid ) , ( sizeof ( container_types ) / sizeof ( char * ) ) ) ;
inq_data . inqd_pdt = INQD_PDT_PROC ; /* Processor device */
aac_internal_transfer ( scsicmd , & inq_data , 0 , sizeof ( inq_data ) ) ;
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scsicmd - > result = DID_OK < < 16 | COMMAND_COMPLETE < < 8 | SAM_STAT_GOOD ;
scsicmd - > scsi_done ( scsicmd ) ;
return 0 ;
}
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setinqstr ( cardtype , ( void * ) ( inq_data . inqd_vid ) , fsa_dev_ptr [ cid ] . type ) ;
inq_data . inqd_pdt = INQD_PDT_DA ; /* Direct/random access device */
aac_internal_transfer ( scsicmd , & inq_data , 0 , sizeof ( inq_data ) ) ;
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return aac_get_container_name ( scsicmd , cid ) ;
}
case READ_CAPACITY :
{
u32 capacity ;
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char cp [ 8 ] ;
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dprintk ( ( KERN_DEBUG " READ CAPACITY command. \n " ) ) ;
if ( fsa_dev_ptr [ cid ] . size < = 0x100000000LL )
capacity = fsa_dev_ptr [ cid ] . size - 1 ;
else
capacity = ( u32 ) - 1 ;
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cp [ 0 ] = ( capacity > > 24 ) & 0xff ;
cp [ 1 ] = ( capacity > > 16 ) & 0xff ;
cp [ 2 ] = ( capacity > > 8 ) & 0xff ;
cp [ 3 ] = ( capacity > > 0 ) & 0xff ;
cp [ 4 ] = 0 ;
cp [ 5 ] = 0 ;
cp [ 6 ] = 2 ;
cp [ 7 ] = 0 ;
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aac_internal_transfer ( scsicmd , cp , 0 , sizeof ( cp ) ) ;
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scsicmd - > result = DID_OK < < 16 | COMMAND_COMPLETE < < 8 | SAM_STAT_GOOD ;
scsicmd - > scsi_done ( scsicmd ) ;
return 0 ;
}
case MODE_SENSE :
{
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char mode_buf [ 4 ] ;
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dprintk ( ( KERN_DEBUG " MODE SENSE command. \n " ) ) ;
mode_buf [ 0 ] = 3 ; /* Mode data length */
mode_buf [ 1 ] = 0 ; /* Medium type - default */
mode_buf [ 2 ] = 0 ; /* Device-specific param, bit 8: 0/1 = write enabled/protected */
mode_buf [ 3 ] = 0 ; /* Block descriptor length */
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aac_internal_transfer ( scsicmd , mode_buf , 0 , sizeof ( mode_buf ) ) ;
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scsicmd - > result = DID_OK < < 16 | COMMAND_COMPLETE < < 8 | SAM_STAT_GOOD ;
scsicmd - > scsi_done ( scsicmd ) ;
return 0 ;
}
case MODE_SENSE_10 :
{
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char mode_buf [ 8 ] ;
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dprintk ( ( KERN_DEBUG " MODE SENSE 10 byte command. \n " ) ) ;
mode_buf [ 0 ] = 0 ; /* Mode data length (MSB) */
mode_buf [ 1 ] = 6 ; /* Mode data length (LSB) */
mode_buf [ 2 ] = 0 ; /* Medium type - default */
mode_buf [ 3 ] = 0 ; /* Device-specific param, bit 8: 0/1 = write enabled/protected */
mode_buf [ 4 ] = 0 ; /* reserved */
mode_buf [ 5 ] = 0 ; /* reserved */
mode_buf [ 6 ] = 0 ; /* Block descriptor length (MSB) */
mode_buf [ 7 ] = 0 ; /* Block descriptor length (LSB) */
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aac_internal_transfer ( scsicmd , mode_buf , 0 , sizeof ( mode_buf ) ) ;
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scsicmd - > result = DID_OK < < 16 | COMMAND_COMPLETE < < 8 | SAM_STAT_GOOD ;
scsicmd - > scsi_done ( scsicmd ) ;
return 0 ;
}
case REQUEST_SENSE :
dprintk ( ( KERN_DEBUG " REQUEST SENSE command. \n " ) ) ;
memcpy ( scsicmd - > sense_buffer , & dev - > fsa_dev [ cid ] . sense_data , sizeof ( struct sense_data ) ) ;
memset ( & dev - > fsa_dev [ cid ] . sense_data , 0 , sizeof ( struct sense_data ) ) ;
scsicmd - > result = DID_OK < < 16 | COMMAND_COMPLETE < < 8 | SAM_STAT_GOOD ;
scsicmd - > scsi_done ( scsicmd ) ;
return 0 ;
case ALLOW_MEDIUM_REMOVAL :
dprintk ( ( KERN_DEBUG " LOCK command. \n " ) ) ;
if ( scsicmd - > cmnd [ 4 ] )
fsa_dev_ptr [ cid ] . locked = 1 ;
else
fsa_dev_ptr [ cid ] . locked = 0 ;
scsicmd - > result = DID_OK < < 16 | COMMAND_COMPLETE < < 8 | SAM_STAT_GOOD ;
scsicmd - > scsi_done ( scsicmd ) ;
return 0 ;
/*
* These commands are all No - Ops
*/
case TEST_UNIT_READY :
case RESERVE :
case RELEASE :
case REZERO_UNIT :
case REASSIGN_BLOCKS :
case SEEK_10 :
case START_STOP :
scsicmd - > result = DID_OK < < 16 | COMMAND_COMPLETE < < 8 | SAM_STAT_GOOD ;
scsicmd - > scsi_done ( scsicmd ) ;
return 0 ;
}
switch ( scsicmd - > cmnd [ 0 ] )
{
case READ_6 :
case READ_10 :
/*
* Hack to keep track of ordinal number of the device that
* corresponds to a container . Needed to convert
* containers to / dev / sd device names
*/
spin_unlock_irq ( host - > host_lock ) ;
if ( scsicmd - > request - > rq_disk )
memcpy ( fsa_dev_ptr [ cid ] . devname ,
scsicmd - > request - > rq_disk - > disk_name ,
8 ) ;
ret = aac_read ( scsicmd , cid ) ;
spin_lock_irq ( host - > host_lock ) ;
return ret ;
case WRITE_6 :
case WRITE_10 :
spin_unlock_irq ( host - > host_lock ) ;
ret = aac_write ( scsicmd , cid ) ;
spin_lock_irq ( host - > host_lock ) ;
return ret ;
case SYNCHRONIZE_CACHE :
/* Issue FIB to tell Firmware to flush it's cache */
return aac_synchronize ( scsicmd , cid ) ;
default :
/*
* Unhandled commands
*/
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dprintk ( ( KERN_WARNING " Unhandled SCSI Command: 0x%x. \n " , scsicmd - > cmnd [ 0 ] ) ) ;
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scsicmd - > result = DID_OK < < 16 | COMMAND_COMPLETE < < 8 | SAM_STAT_CHECK_CONDITION ;
set_sense ( ( u8 * ) & dev - > fsa_dev [ cid ] . sense_data ,
ILLEGAL_REQUEST , SENCODE_INVALID_COMMAND ,
ASENCODE_INVALID_COMMAND , 0 , 0 , 0 , 0 ) ;
memcpy ( scsicmd - > sense_buffer , & dev - > fsa_dev [ cid ] . sense_data ,
( sizeof ( dev - > fsa_dev [ cid ] . sense_data ) > sizeof ( scsicmd - > sense_buffer ) )
? sizeof ( scsicmd - > sense_buffer )
: sizeof ( dev - > fsa_dev [ cid ] . sense_data ) ) ;
scsicmd - > scsi_done ( scsicmd ) ;
return 0 ;
}
}
static int query_disk ( struct aac_dev * dev , void __user * arg )
{
struct aac_query_disk qd ;
struct fsa_dev_info * fsa_dev_ptr ;
fsa_dev_ptr = dev - > fsa_dev ;
if ( copy_from_user ( & qd , arg , sizeof ( struct aac_query_disk ) ) )
return - EFAULT ;
if ( qd . cnum = = - 1 )
qd . cnum = ID_LUN_TO_CONTAINER ( qd . id , qd . lun ) ;
else if ( ( qd . bus = = - 1 ) & & ( qd . id = = - 1 ) & & ( qd . lun = = - 1 ) )
{
if ( qd . cnum < 0 | | qd . cnum > = dev - > maximum_num_containers )
return - EINVAL ;
qd . instance = dev - > scsi_host_ptr - > host_no ;
qd . bus = 0 ;
qd . id = CONTAINER_TO_ID ( qd . cnum ) ;
qd . lun = CONTAINER_TO_LUN ( qd . cnum ) ;
}
else return - EINVAL ;
qd . valid = fsa_dev_ptr [ qd . cnum ] . valid ;
qd . locked = fsa_dev_ptr [ qd . cnum ] . locked ;
qd . deleted = fsa_dev_ptr [ qd . cnum ] . deleted ;
if ( fsa_dev_ptr [ qd . cnum ] . devname [ 0 ] = = ' \0 ' )
qd . unmapped = 1 ;
else
qd . unmapped = 0 ;
strlcpy ( qd . name , fsa_dev_ptr [ qd . cnum ] . devname ,
min ( sizeof ( qd . name ) , sizeof ( fsa_dev_ptr [ qd . cnum ] . devname ) + 1 ) ) ;
if ( copy_to_user ( arg , & qd , sizeof ( struct aac_query_disk ) ) )
return - EFAULT ;
return 0 ;
}
static int force_delete_disk ( struct aac_dev * dev , void __user * arg )
{
struct aac_delete_disk dd ;
struct fsa_dev_info * fsa_dev_ptr ;
fsa_dev_ptr = dev - > fsa_dev ;
if ( copy_from_user ( & dd , arg , sizeof ( struct aac_delete_disk ) ) )
return - EFAULT ;
if ( dd . cnum > = dev - > maximum_num_containers )
return - EINVAL ;
/*
* Mark this container as being deleted .
*/
fsa_dev_ptr [ dd . cnum ] . deleted = 1 ;
/*
* Mark the container as no longer valid
*/
fsa_dev_ptr [ dd . cnum ] . valid = 0 ;
return 0 ;
}
static int delete_disk ( struct aac_dev * dev , void __user * arg )
{
struct aac_delete_disk dd ;
struct fsa_dev_info * fsa_dev_ptr ;
fsa_dev_ptr = dev - > fsa_dev ;
if ( copy_from_user ( & dd , arg , sizeof ( struct aac_delete_disk ) ) )
return - EFAULT ;
if ( dd . cnum > = dev - > maximum_num_containers )
return - EINVAL ;
/*
* If the container is locked , it can not be deleted by the API .
*/
if ( fsa_dev_ptr [ dd . cnum ] . locked )
return - EBUSY ;
else {
/*
* Mark the container as no longer being valid .
*/
fsa_dev_ptr [ dd . cnum ] . valid = 0 ;
fsa_dev_ptr [ dd . cnum ] . devname [ 0 ] = ' \0 ' ;
return 0 ;
}
}
int aac_dev_ioctl ( struct aac_dev * dev , int cmd , void __user * arg )
{
switch ( cmd ) {
case FSACTL_QUERY_DISK :
return query_disk ( dev , arg ) ;
case FSACTL_DELETE_DISK :
return delete_disk ( dev , arg ) ;
case FSACTL_FORCE_DELETE_DISK :
return force_delete_disk ( dev , arg ) ;
case FSACTL_GET_CONTAINERS :
return aac_get_containers ( dev ) ;
default :
return - ENOTTY ;
}
}
/**
*
* aac_srb_callback
* @ context : the context set in the fib - here it is scsi cmd
* @ fibptr : pointer to the fib
*
* Handles the completion of a scsi command to a non dasd device
*
*/
static void aac_srb_callback ( void * context , struct fib * fibptr )
{
struct aac_dev * dev ;
struct aac_srb_reply * srbreply ;
struct scsi_cmnd * scsicmd ;
scsicmd = ( struct scsi_cmnd * ) context ;
dev = ( struct aac_dev * ) scsicmd - > device - > host - > hostdata ;
if ( fibptr = = NULL )
BUG ( ) ;
srbreply = ( struct aac_srb_reply * ) fib_data ( fibptr ) ;
scsicmd - > sense_buffer [ 0 ] = ' \0 ' ; /* Initialize sense valid flag to false */
/*
* Calculate resid for sg
*/
scsicmd - > resid = scsicmd - > request_bufflen -
le32_to_cpu ( srbreply - > data_xfer_length ) ;
if ( scsicmd - > use_sg )
pci_unmap_sg ( dev - > pdev ,
( struct scatterlist * ) scsicmd - > buffer ,
scsicmd - > use_sg ,
scsicmd - > sc_data_direction ) ;
else if ( scsicmd - > request_bufflen )
pci_unmap_single ( dev - > pdev , scsicmd - > SCp . dma_handle , scsicmd - > request_bufflen ,
scsicmd - > sc_data_direction ) ;
/*
* First check the fib status
*/
if ( le32_to_cpu ( srbreply - > status ) ! = ST_OK ) {
int len ;
printk ( KERN_WARNING " aac_srb_callback: srb failed, status = %d \n " , le32_to_cpu ( srbreply - > status ) ) ;
len = ( le32_to_cpu ( srbreply - > sense_data_size ) >
sizeof ( scsicmd - > sense_buffer ) ) ?
sizeof ( scsicmd - > sense_buffer ) :
le32_to_cpu ( srbreply - > sense_data_size ) ;
scsicmd - > result = DID_ERROR < < 16 | COMMAND_COMPLETE < < 8 | SAM_STAT_CHECK_CONDITION ;
memcpy ( scsicmd - > sense_buffer , srbreply - > sense_data , len ) ;
}
/*
* Next check the srb status
*/
switch ( ( le32_to_cpu ( srbreply - > srb_status ) ) & 0x3f ) {
case SRB_STATUS_ERROR_RECOVERY :
case SRB_STATUS_PENDING :
case SRB_STATUS_SUCCESS :
if ( scsicmd - > cmnd [ 0 ] = = INQUIRY ) {
u8 b ;
u8 b1 ;
/* We can't expose disk devices because we can't tell whether they
* are the raw container drives or stand alone drives . If they have
* the removable bit set then we should expose them though .
*/
b = ( * ( u8 * ) scsicmd - > buffer ) & 0x1f ;
b1 = ( ( u8 * ) scsicmd - > buffer ) [ 1 ] ;
if ( b = = TYPE_TAPE | | b = = TYPE_WORM | | b = = TYPE_ROM | | b = = TYPE_MOD | | b = = TYPE_MEDIUM_CHANGER
| | ( b = = TYPE_DISK & & ( b1 & 0x80 ) ) ) {
scsicmd - > result = DID_OK < < 16 | COMMAND_COMPLETE < < 8 ;
/*
* We will allow disk devices if in RAID / SCSI mode and
* the channel is 2
*/
} else if ( ( dev - > raid_scsi_mode ) & &
( scsicmd - > device - > channel = = 2 ) ) {
scsicmd - > result = DID_OK < < 16 |
COMMAND_COMPLETE < < 8 ;
} else {
scsicmd - > result = DID_NO_CONNECT < < 16 |
COMMAND_COMPLETE < < 8 ;
}
} else {
scsicmd - > result = DID_OK < < 16 | COMMAND_COMPLETE < < 8 ;
}
break ;
case SRB_STATUS_DATA_OVERRUN :
switch ( scsicmd - > cmnd [ 0 ] ) {
case READ_6 :
case WRITE_6 :
case READ_10 :
case WRITE_10 :
case READ_12 :
case WRITE_12 :
if ( le32_to_cpu ( srbreply - > data_xfer_length ) < scsicmd - > underflow ) {
printk ( KERN_WARNING " aacraid: SCSI CMD underflow \n " ) ;
} else {
printk ( KERN_WARNING " aacraid: SCSI CMD Data Overrun \n " ) ;
}
scsicmd - > result = DID_ERROR < < 16 | COMMAND_COMPLETE < < 8 ;
break ;
case INQUIRY : {
u8 b ;
u8 b1 ;
/* We can't expose disk devices because we can't tell whether they
* are the raw container drives or stand alone drives
*/
b = ( * ( u8 * ) scsicmd - > buffer ) & 0x0f ;
b1 = ( ( u8 * ) scsicmd - > buffer ) [ 1 ] ;
if ( b = = TYPE_TAPE | | b = = TYPE_WORM | | b = = TYPE_ROM | | b = = TYPE_MOD | | b = = TYPE_MEDIUM_CHANGER
| | ( b = = TYPE_DISK & & ( b1 & 0x80 ) ) ) {
scsicmd - > result = DID_OK < < 16 | COMMAND_COMPLETE < < 8 ;
/*
* We will allow disk devices if in RAID / SCSI mode and
* the channel is 2
*/
} else if ( ( dev - > raid_scsi_mode ) & &
( scsicmd - > device - > channel = = 2 ) ) {
scsicmd - > result = DID_OK < < 16 |
COMMAND_COMPLETE < < 8 ;
} else {
scsicmd - > result = DID_NO_CONNECT < < 16 |
COMMAND_COMPLETE < < 8 ;
}
break ;
}
default :
scsicmd - > result = DID_OK < < 16 | COMMAND_COMPLETE < < 8 ;
break ;
}
break ;
case SRB_STATUS_ABORTED :
scsicmd - > result = DID_ABORT < < 16 | ABORT < < 8 ;
break ;
case SRB_STATUS_ABORT_FAILED :
// Not sure about this one - but assuming the hba was trying to abort for some reason
scsicmd - > result = DID_ERROR < < 16 | ABORT < < 8 ;
break ;
case SRB_STATUS_PARITY_ERROR :
scsicmd - > result = DID_PARITY < < 16 | MSG_PARITY_ERROR < < 8 ;
break ;
case SRB_STATUS_NO_DEVICE :
case SRB_STATUS_INVALID_PATH_ID :
case SRB_STATUS_INVALID_TARGET_ID :
case SRB_STATUS_INVALID_LUN :
case SRB_STATUS_SELECTION_TIMEOUT :
scsicmd - > result = DID_NO_CONNECT < < 16 | COMMAND_COMPLETE < < 8 ;
break ;
case SRB_STATUS_COMMAND_TIMEOUT :
case SRB_STATUS_TIMEOUT :
scsicmd - > result = DID_TIME_OUT < < 16 | COMMAND_COMPLETE < < 8 ;
break ;
case SRB_STATUS_BUSY :
scsicmd - > result = DID_NO_CONNECT < < 16 | COMMAND_COMPLETE < < 8 ;
break ;
case SRB_STATUS_BUS_RESET :
scsicmd - > result = DID_RESET < < 16 | COMMAND_COMPLETE < < 8 ;
break ;
case SRB_STATUS_MESSAGE_REJECTED :
scsicmd - > result = DID_ERROR < < 16 | MESSAGE_REJECT < < 8 ;
break ;
case SRB_STATUS_REQUEST_FLUSHED :
case SRB_STATUS_ERROR :
case SRB_STATUS_INVALID_REQUEST :
case SRB_STATUS_REQUEST_SENSE_FAILED :
case SRB_STATUS_NO_HBA :
case SRB_STATUS_UNEXPECTED_BUS_FREE :
case SRB_STATUS_PHASE_SEQUENCE_FAILURE :
case SRB_STATUS_BAD_SRB_BLOCK_LENGTH :
case SRB_STATUS_DELAYED_RETRY :
case SRB_STATUS_BAD_FUNCTION :
case SRB_STATUS_NOT_STARTED :
case SRB_STATUS_NOT_IN_USE :
case SRB_STATUS_FORCE_ABORT :
case SRB_STATUS_DOMAIN_VALIDATION_FAIL :
default :
# ifdef AAC_DETAILED_STATUS_INFO
printk ( " aacraid: SRB ERROR(%u) %s scsi cmd 0x%x - scsi status 0x%x \n " ,
le32_to_cpu ( srbreply - > srb_status ) & 0x3F ,
aac_get_status_string (
le32_to_cpu ( srbreply - > srb_status ) & 0x3F ) ,
scsicmd - > cmnd [ 0 ] ,
le32_to_cpu ( srbreply - > scsi_status ) ) ;
# endif
scsicmd - > result = DID_ERROR < < 16 | COMMAND_COMPLETE < < 8 ;
break ;
}
if ( le32_to_cpu ( srbreply - > scsi_status ) = = 0x02 ) { // Check Condition
int len ;
scsicmd - > result | = SAM_STAT_CHECK_CONDITION ;
len = ( le32_to_cpu ( srbreply - > sense_data_size ) >
sizeof ( scsicmd - > sense_buffer ) ) ?
sizeof ( scsicmd - > sense_buffer ) :
le32_to_cpu ( srbreply - > sense_data_size ) ;
# ifdef AAC_DETAILED_STATUS_INFO
dprintk ( ( KERN_WARNING " aac_srb_callback: check condition, status = %d len=%d \n " ,
le32_to_cpu ( srbreply - > status ) , len ) ) ;
# endif
memcpy ( scsicmd - > sense_buffer , srbreply - > sense_data , len ) ;
}
/*
* OR in the scsi status ( already shifted up a bit )
*/
scsicmd - > result | = le32_to_cpu ( srbreply - > scsi_status ) ;
fib_complete ( fibptr ) ;
fib_free ( fibptr ) ;
aac_io_done ( scsicmd ) ;
}
/**
*
* aac_send_scb_fib
* @ scsicmd : the scsi command block
*
* This routine will form a FIB and fill in the aac_srb from the
* scsicmd passed in .
*/
static int aac_send_srb_fib ( struct scsi_cmnd * scsicmd )
{
struct fib * cmd_fibcontext ;
struct aac_dev * dev ;
int status ;
struct aac_srb * srbcmd ;
u16 fibsize ;
u32 flag ;
u32 timeout ;
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dev = ( struct aac_dev * ) scsicmd - > device - > host - > hostdata ;
if ( scsicmd - > device - > id > = dev - > maximum_num_physicals | |
scsicmd - > device - > lun > 7 ) {
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scsicmd - > result = DID_NO_CONNECT < < 16 ;
scsicmd - > scsi_done ( scsicmd ) ;
return 0 ;
}
dev = ( struct aac_dev * ) scsicmd - > device - > host - > hostdata ;
switch ( scsicmd - > sc_data_direction ) {
case DMA_TO_DEVICE :
flag = SRB_DataOut ;
break ;
case DMA_BIDIRECTIONAL :
flag = SRB_DataIn | SRB_DataOut ;
break ;
case DMA_FROM_DEVICE :
flag = SRB_DataIn ;
break ;
case DMA_NONE :
default : /* shuts up some versions of gcc */
flag = SRB_NoDataXfer ;
break ;
}
/*
* Allocate and initialize a Fib then setup a BlockWrite command
*/
if ( ! ( cmd_fibcontext = fib_alloc ( dev ) ) ) {
return - 1 ;
}
fib_init ( cmd_fibcontext ) ;
srbcmd = ( struct aac_srb * ) fib_data ( cmd_fibcontext ) ;
srbcmd - > function = cpu_to_le32 ( SRBF_ExecuteScsi ) ;
srbcmd - > channel = cpu_to_le32 ( aac_logical_to_phys ( scsicmd - > device - > channel ) ) ;
srbcmd - > id = cpu_to_le32 ( scsicmd - > device - > id ) ;
srbcmd - > lun = cpu_to_le32 ( scsicmd - > device - > lun ) ;
srbcmd - > flags = cpu_to_le32 ( flag ) ;
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timeout = scsicmd - > timeout_per_command / HZ ;
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if ( timeout = = 0 ) {
timeout = 1 ;
}
srbcmd - > timeout = cpu_to_le32 ( timeout ) ; // timeout in seconds
srbcmd - > retry_limit = 0 ; /* Obsolete parameter */
srbcmd - > cdb_size = cpu_to_le32 ( scsicmd - > cmd_len ) ;
if ( dev - > dac_support = = 1 ) {
aac_build_sg64 ( scsicmd , ( struct sgmap64 * ) & srbcmd - > sg ) ;
srbcmd - > count = cpu_to_le32 ( scsicmd - > request_bufflen ) ;
memset ( srbcmd - > cdb , 0 , sizeof ( srbcmd - > cdb ) ) ;
memcpy ( srbcmd - > cdb , scsicmd - > cmnd , scsicmd - > cmd_len ) ;
/*
* Build Scatter / Gather list
*/
fibsize = sizeof ( struct aac_srb ) - sizeof ( struct sgentry ) +
( ( le32_to_cpu ( srbcmd - > sg . count ) & 0xff ) *
sizeof ( struct sgentry64 ) ) ;
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BUG_ON ( fibsize > ( dev - > max_fib_size -
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sizeof ( struct aac_fibhdr ) ) ) ;
/*
* Now send the Fib to the adapter
*/
status = fib_send ( ScsiPortCommand64 , cmd_fibcontext ,
fibsize , FsaNormal , 0 , 1 ,
( fib_callback ) aac_srb_callback ,
( void * ) scsicmd ) ;
} else {
aac_build_sg ( scsicmd , ( struct sgmap * ) & srbcmd - > sg ) ;
srbcmd - > count = cpu_to_le32 ( scsicmd - > request_bufflen ) ;
memset ( srbcmd - > cdb , 0 , sizeof ( srbcmd - > cdb ) ) ;
memcpy ( srbcmd - > cdb , scsicmd - > cmnd , scsicmd - > cmd_len ) ;
/*
* Build Scatter / Gather list
*/
fibsize = sizeof ( struct aac_srb ) +
( ( ( le32_to_cpu ( srbcmd - > sg . count ) & 0xff ) - 1 ) *
sizeof ( struct sgentry ) ) ;
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BUG_ON ( fibsize > ( dev - > max_fib_size -
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sizeof ( struct aac_fibhdr ) ) ) ;
/*
* Now send the Fib to the adapter
*/
status = fib_send ( ScsiPortCommand , cmd_fibcontext , fibsize , FsaNormal , 0 , 1 ,
( fib_callback ) aac_srb_callback , ( void * ) scsicmd ) ;
}
/*
* Check that the command queued to the controller
*/
if ( status = = - EINPROGRESS ) {
return 0 ;
}
printk ( KERN_WARNING " aac_srb: fib_send failed with status: %d \n " , status ) ;
fib_complete ( cmd_fibcontext ) ;
fib_free ( cmd_fibcontext ) ;
return - 1 ;
}
static unsigned long aac_build_sg ( struct scsi_cmnd * scsicmd , struct sgmap * psg )
{
struct aac_dev * dev ;
unsigned long byte_count = 0 ;
dev = ( struct aac_dev * ) scsicmd - > device - > host - > hostdata ;
// Get rid of old data
psg - > count = 0 ;
psg - > sg [ 0 ] . addr = 0 ;
psg - > sg [ 0 ] . count = 0 ;
if ( scsicmd - > use_sg ) {
struct scatterlist * sg ;
int i ;
int sg_count ;
sg = ( struct scatterlist * ) scsicmd - > request_buffer ;
sg_count = pci_map_sg ( dev - > pdev , sg , scsicmd - > use_sg ,
scsicmd - > sc_data_direction ) ;
psg - > count = cpu_to_le32 ( sg_count ) ;
byte_count = 0 ;
for ( i = 0 ; i < sg_count ; i + + ) {
psg - > sg [ i ] . addr = cpu_to_le32 ( sg_dma_address ( sg ) ) ;
psg - > sg [ i ] . count = cpu_to_le32 ( sg_dma_len ( sg ) ) ;
byte_count + = sg_dma_len ( sg ) ;
sg + + ;
}
/* hba wants the size to be exact */
if ( byte_count > scsicmd - > request_bufflen ) {
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u32 temp = le32_to_cpu ( psg - > sg [ i - 1 ] . count ) -
( byte_count - scsicmd - > request_bufflen ) ;
psg - > sg [ i - 1 ] . count = cpu_to_le32 ( temp ) ;
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byte_count = scsicmd - > request_bufflen ;
}
/* Check for command underflow */
if ( scsicmd - > underflow & & ( byte_count < scsicmd - > underflow ) ) {
printk ( KERN_WARNING " aacraid: cmd len %08lX cmd underflow %08X \n " ,
byte_count , scsicmd - > underflow ) ;
}
}
else if ( scsicmd - > request_bufflen ) {
dma_addr_t addr ;
addr = pci_map_single ( dev - > pdev ,
scsicmd - > request_buffer ,
scsicmd - > request_bufflen ,
scsicmd - > sc_data_direction ) ;
psg - > count = cpu_to_le32 ( 1 ) ;
psg - > sg [ 0 ] . addr = cpu_to_le32 ( addr ) ;
psg - > sg [ 0 ] . count = cpu_to_le32 ( scsicmd - > request_bufflen ) ;
scsicmd - > SCp . dma_handle = addr ;
byte_count = scsicmd - > request_bufflen ;
}
return byte_count ;
}
static unsigned long aac_build_sg64 ( struct scsi_cmnd * scsicmd , struct sgmap64 * psg )
{
struct aac_dev * dev ;
unsigned long byte_count = 0 ;
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u64 addr ;
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dev = ( struct aac_dev * ) scsicmd - > device - > host - > hostdata ;
// Get rid of old data
psg - > count = 0 ;
psg - > sg [ 0 ] . addr [ 0 ] = 0 ;
psg - > sg [ 0 ] . addr [ 1 ] = 0 ;
psg - > sg [ 0 ] . count = 0 ;
if ( scsicmd - > use_sg ) {
struct scatterlist * sg ;
int i ;
int sg_count ;
sg = ( struct scatterlist * ) scsicmd - > request_buffer ;
sg_count = pci_map_sg ( dev - > pdev , sg , scsicmd - > use_sg ,
scsicmd - > sc_data_direction ) ;
psg - > count = cpu_to_le32 ( sg_count ) ;
byte_count = 0 ;
for ( i = 0 ; i < sg_count ; i + + ) {
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addr = sg_dma_address ( sg ) ;
psg - > sg [ i ] . addr [ 0 ] = cpu_to_le32 ( addr & 0xffffffff ) ;
psg - > sg [ i ] . addr [ 1 ] = cpu_to_le32 ( addr > > 32 ) ;
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psg - > sg [ i ] . count = cpu_to_le32 ( sg_dma_len ( sg ) ) ;
byte_count + = sg_dma_len ( sg ) ;
sg + + ;
}
/* hba wants the size to be exact */
if ( byte_count > scsicmd - > request_bufflen ) {
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u32 temp = le32_to_cpu ( psg - > sg [ i - 1 ] . count ) -
( byte_count - scsicmd - > request_bufflen ) ;
psg - > sg [ i - 1 ] . count = cpu_to_le32 ( temp ) ;
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byte_count = scsicmd - > request_bufflen ;
}
/* Check for command underflow */
if ( scsicmd - > underflow & & ( byte_count < scsicmd - > underflow ) ) {
printk ( KERN_WARNING " aacraid: cmd len %08lX cmd underflow %08X \n " ,
byte_count , scsicmd - > underflow ) ;
}
}
else if ( scsicmd - > request_bufflen ) {
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u64 addr ;
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addr = pci_map_single ( dev - > pdev ,
scsicmd - > request_buffer ,
scsicmd - > request_bufflen ,
scsicmd - > sc_data_direction ) ;
psg - > count = cpu_to_le32 ( 1 ) ;
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psg - > sg [ 0 ] . addr [ 0 ] = cpu_to_le32 ( addr & 0xffffffff ) ;
psg - > sg [ 0 ] . addr [ 1 ] = cpu_to_le32 ( addr > > 32 ) ;
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psg - > sg [ 0 ] . count = cpu_to_le32 ( scsicmd - > request_bufflen ) ;
scsicmd - > SCp . dma_handle = addr ;
byte_count = scsicmd - > request_bufflen ;
}
return byte_count ;
}
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static unsigned long aac_build_sgraw ( struct scsi_cmnd * scsicmd , struct sgmapraw * psg )
{
struct Scsi_Host * host = scsicmd - > device - > host ;
struct aac_dev * dev = ( struct aac_dev * ) host - > hostdata ;
unsigned long byte_count = 0 ;
// Get rid of old data
psg - > count = 0 ;
psg - > sg [ 0 ] . next = 0 ;
psg - > sg [ 0 ] . prev = 0 ;
psg - > sg [ 0 ] . addr [ 0 ] = 0 ;
psg - > sg [ 0 ] . addr [ 1 ] = 0 ;
psg - > sg [ 0 ] . count = 0 ;
psg - > sg [ 0 ] . flags = 0 ;
if ( scsicmd - > use_sg ) {
struct scatterlist * sg ;
int i ;
int sg_count ;
sg = ( struct scatterlist * ) scsicmd - > request_buffer ;
sg_count = pci_map_sg ( dev - > pdev , sg , scsicmd - > use_sg ,
scsicmd - > sc_data_direction ) ;
for ( i = 0 ; i < sg_count ; i + + ) {
int count = sg_dma_len ( sg ) ;
u64 addr = sg_dma_address ( sg ) ;
psg - > sg [ i ] . next = 0 ;
psg - > sg [ i ] . prev = 0 ;
psg - > sg [ i ] . addr [ 1 ] = cpu_to_le32 ( ( u32 ) ( addr > > 32 ) ) ;
psg - > sg [ i ] . addr [ 0 ] = cpu_to_le32 ( ( u32 ) ( addr & 0xffffffff ) ) ;
psg - > sg [ i ] . count = cpu_to_le32 ( count ) ;
psg - > sg [ i ] . flags = 0 ;
byte_count + = count ;
sg + + ;
}
psg - > count = cpu_to_le32 ( sg_count ) ;
/* hba wants the size to be exact */
if ( byte_count > scsicmd - > request_bufflen ) {
u32 temp = le32_to_cpu ( psg - > sg [ i - 1 ] . count ) -
( byte_count - scsicmd - > request_bufflen ) ;
psg - > sg [ i - 1 ] . count = cpu_to_le32 ( temp ) ;
byte_count = scsicmd - > request_bufflen ;
}
/* Check for command underflow */
if ( scsicmd - > underflow & & ( byte_count < scsicmd - > underflow ) ) {
printk ( KERN_WARNING " aacraid: cmd len %08lX cmd underflow %08X \n " ,
byte_count , scsicmd - > underflow ) ;
}
}
else if ( scsicmd - > request_bufflen ) {
int count ;
u64 addr ;
scsicmd - > SCp . dma_handle = pci_map_single ( dev - > pdev ,
scsicmd - > request_buffer ,
scsicmd - > request_bufflen ,
scsicmd - > sc_data_direction ) ;
addr = scsicmd - > SCp . dma_handle ;
count = scsicmd - > request_bufflen ;
psg - > count = cpu_to_le32 ( 1 ) ;
psg - > sg [ 0 ] . next = 0 ;
psg - > sg [ 0 ] . prev = 0 ;
psg - > sg [ 0 ] . addr [ 1 ] = cpu_to_le32 ( ( u32 ) ( addr > > 32 ) ) ;
psg - > sg [ 0 ] . addr [ 0 ] = cpu_to_le32 ( ( u32 ) ( addr & 0xffffffff ) ) ;
psg - > sg [ 0 ] . count = cpu_to_le32 ( count ) ;
psg - > sg [ 0 ] . flags = 0 ;
byte_count = scsicmd - > request_bufflen ;
}
return byte_count ;
}
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# ifdef AAC_DETAILED_STATUS_INFO
struct aac_srb_status_info {
u32 status ;
char * str ;
} ;
static struct aac_srb_status_info srb_status_info [ ] = {
{ SRB_STATUS_PENDING , " Pending Status " } ,
{ SRB_STATUS_SUCCESS , " Success " } ,
{ SRB_STATUS_ABORTED , " Aborted Command " } ,
{ SRB_STATUS_ABORT_FAILED , " Abort Failed " } ,
{ SRB_STATUS_ERROR , " Error Event " } ,
{ SRB_STATUS_BUSY , " Device Busy " } ,
{ SRB_STATUS_INVALID_REQUEST , " Invalid Request " } ,
{ SRB_STATUS_INVALID_PATH_ID , " Invalid Path ID " } ,
{ SRB_STATUS_NO_DEVICE , " No Device " } ,
{ SRB_STATUS_TIMEOUT , " Timeout " } ,
{ SRB_STATUS_SELECTION_TIMEOUT , " Selection Timeout " } ,
{ SRB_STATUS_COMMAND_TIMEOUT , " Command Timeout " } ,
{ SRB_STATUS_MESSAGE_REJECTED , " Message Rejected " } ,
{ SRB_STATUS_BUS_RESET , " Bus Reset " } ,
{ SRB_STATUS_PARITY_ERROR , " Parity Error " } ,
{ SRB_STATUS_REQUEST_SENSE_FAILED , " Request Sense Failed " } ,
{ SRB_STATUS_NO_HBA , " No HBA " } ,
{ SRB_STATUS_DATA_OVERRUN , " Data Overrun/Data Underrun " } ,
{ SRB_STATUS_UNEXPECTED_BUS_FREE , " Unexpected Bus Free " } ,
{ SRB_STATUS_PHASE_SEQUENCE_FAILURE , " Phase Error " } ,
{ SRB_STATUS_BAD_SRB_BLOCK_LENGTH , " Bad Srb Block Length " } ,
{ SRB_STATUS_REQUEST_FLUSHED , " Request Flushed " } ,
{ SRB_STATUS_DELAYED_RETRY , " Delayed Retry " } ,
{ SRB_STATUS_INVALID_LUN , " Invalid LUN " } ,
{ SRB_STATUS_INVALID_TARGET_ID , " Invalid TARGET ID " } ,
{ SRB_STATUS_BAD_FUNCTION , " Bad Function " } ,
{ SRB_STATUS_ERROR_RECOVERY , " Error Recovery " } ,
{ SRB_STATUS_NOT_STARTED , " Not Started " } ,
{ SRB_STATUS_NOT_IN_USE , " Not In Use " } ,
{ SRB_STATUS_FORCE_ABORT , " Force Abort " } ,
{ SRB_STATUS_DOMAIN_VALIDATION_FAIL , " Domain Validation Failure " } ,
{ 0xff , " Unknown Error " }
} ;
char * aac_get_status_string ( u32 status )
{
int i ;
for ( i = 0 ; i < ( sizeof ( srb_status_info ) / sizeof ( struct aac_srb_status_info ) ) ; i + + ) {
if ( srb_status_info [ i ] . status = = status ) {
return srb_status_info [ i ] . str ;
}
}
return " Bad Status Code " ;
}
# endif