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/*
* Copyright ( c ) 1998 , 1999 , 2000 , 2001 Katsushi Kobayashi and Hidetosh Shimokawa
* All rights reserved .
*
* Redistribution and use in source and binary forms , with or without
* modification , are permitted provided that the following conditions
* are met :
* 1. Redistributions of source code must retain the above copyright
* notice , this list of conditions and the following disclaimer .
* 2. Redistributions in binary form must reproduce the above copyright
* notice , this list of conditions and the following disclaimer in the
* documentation and / or other materials provided with the distribution .
* 3. All advertising materials mentioning features or use of this software
* must display the acknowledgement as bellow :
*
* This product includes software developed by K . Kobayashi and H . Shimokawa
*
* 4. The name of the author may not be used to endorse or promote products
* derived from this software without specific prior written permission .
*
* THIS SOFTWARE IS PROVIDED BY THE AUTHOR ` ` AS IS ' ' AND ANY EXPRESS OR
* IMPLIED WARRANTIES , INCLUDING , BUT NOT LIMITED TO , THE IMPLIED
* WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE
* DISCLAIMED . IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY DIRECT ,
* INDIRECT , INCIDENTAL , SPECIAL , EXEMPLARY , OR CONSEQUENTIAL DAMAGES
* ( INCLUDING , BUT NOT LIMITED TO , PROCUREMENT OF SUBSTITUTE GOODS OR
* SERVICES ; LOSS OF USE , DATA , OR PROFITS ; OR BUSINESS INTERRUPTION )
* HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY , WHETHER IN CONTRACT ,
* STRICT LIABILITY , OR TORT ( INCLUDING NEGLIGENCE OR OTHERWISE ) ARISING IN
* ANY WAY OUT OF THE USE OF THIS SOFTWARE , EVEN IF ADVISED OF THE
* POSSIBILITY OF SUCH DAMAGE .
*
* $ FreeBSD $
*
*/
# include <sys/param.h>
# include <sys/systm.h>
# include <sys/module.h>
# include <sys/bus.h>
# include <sys/mbuf.h>
# include <sys/sysctl.h>
# include <machine/bus.h>
# include <sys/malloc.h>
# include <sys/devicestat.h> /* for struct devstat */
# include <cam/cam.h>
# include <cam/cam_ccb.h>
# include <cam/cam_sim.h>
# include <cam/cam_xpt_sim.h>
# include <cam/cam_debug.h>
# include <cam/cam_periph.h>
# include <cam/scsi/scsi_all.h>
# include <cam/scsi/scsi_message.h>
# include <cam/scsi/scsi_da.h>
# include <sys/kernel.h>
# include <vm/vm.h>
# include <vm/pmap.h>
# include <dev/firewire/firewire.h>
# include <dev/firewire/firewirereg.h>
# include <dev/firewire/iec13213.h>
# define ccb_sdev_ptr spriv_ptr0
# define ccb_sbp_ptr spriv_ptr1
# define SBP_NUM_TARGETS 8
# define SBP_NUM_LUNS 8 /* limited by CAM_SCSI2_MAXLUN in cam_xpt.c */
# define SBP_QUEUE_LEN 4
# define SBP_NUM_OCB (SBP_QUEUE_LEN * SBP_NUM_TARGETS)
# define SBP_INITIATOR 7
# define SBP_ESELECT_TIMEOUT 1
# define SBP_BIND_HI 0x1
# define SBP_DEV2ADDR(u, t, l) \
( ( ( ( u ) & 0xff ) < < 16 ) | ( ( ( l ) & 0xff ) < < 8 ) | ( ( ( t ) & 0x3f ) < < 2 ) )
# define SBP_ADDR2TRG(a) (((a) >> 2) & 0x3f)
# define SBP_ADDR2LUN(a) (((a) >> 8) & 0xff)
# define ORB_NOTIFY (1 << 31)
# define ORB_FMT_STD (0 << 29)
# define ORB_FMT_VED (2 << 29)
# define ORB_FMT_NOP (3 << 29)
# define ORB_FMT_MSK (3 << 29)
# define ORB_EXV (1 << 28)
/* */
# define ORB_CMD_IN (1 << 27)
/* */
# define ORB_CMD_SPD(x) ((x) << 24)
# define ORB_CMD_MAXP(x) ((x) << 20)
# define ORB_RCN_TMO(x) ((x) << 20)
# define ORB_CMD_PTBL (1 << 19)
# define ORB_CMD_PSZ(x) ((x) << 16)
# define ORB_FUN_LGI (0 << 16)
# define ORB_FUN_QLG (1 << 16)
# define ORB_FUN_RCN (3 << 16)
# define ORB_FUN_LGO (7 << 16)
# define ORB_FUN_ATA (0xb << 16)
# define ORB_FUN_ATS (0xc << 16)
# define ORB_FUN_LUR (0xe << 16)
# define ORB_FUN_RST (0xf << 16)
# define ORB_FUN_MSK (0xf << 16)
static char * orb_fun_name [ ] = {
/* 0 */ " LOGIN " ,
/* 1 */ " QUERY LOGINS " ,
/* 2 */ " Reserved " ,
/* 3 */ " RECONNECT " ,
/* 4 */ " SET PASSWORD " ,
/* 5 */ " Reserved " ,
/* 6 */ " Reserved " ,
/* 7 */ " LOGOUT " ,
/* 8 */ " Reserved " ,
/* 9 */ " Reserved " ,
/* A */ " Reserved " ,
/* B */ " ABORT TASK " ,
/* C */ " ABORT TASK SET " ,
/* D */ " Reserved " ,
/* E */ " LOGICAL UNIT RESET " ,
/* F */ " TARGET RESET "
} ;
# define ORB_RES_CMPL 0
# define ORB_RES_FAIL 1
# define ORB_RES_ILLE 2
# define ORB_RES_VEND 3
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static int debug = 0 ;
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static int auto_login = 1 ;
static int max_speed = 2 ;
SYSCTL_DECL ( _hw_firewire ) ;
SYSCTL_NODE ( _hw_firewire , OID_AUTO , sbp , CTLFLAG_RD , 0 , " SBP-II Subsystem " ) ;
SYSCTL_INT ( _debug , OID_AUTO , sbp_debug , CTLFLAG_RW , & debug , 0 ,
" SBP debug flag " ) ;
SYSCTL_INT ( _hw_firewire_sbp , OID_AUTO , auto_login , CTLFLAG_RW , & auto_login , 0 ,
" SBP perform login automatically " ) ;
SYSCTL_INT ( _hw_firewire_sbp , OID_AUTO , max_speed , CTLFLAG_RW , & max_speed , 0 ,
" SBP transfer max speed " ) ;
# define SBP_DEBUG(x) if (debug > x) {
# define END_DEBUG }
# define NEED_RESPONSE 0
struct ind_ptr {
u_int32_t hi , lo ;
} ;
# define SBP_IND_MAX 0x20
struct sbp_ocb {
STAILQ_ENTRY ( sbp_ocb ) ocb ;
union ccb * ccb ;
volatile u_int32_t orb [ 8 ] ;
volatile struct ind_ptr ind_ptr [ SBP_IND_MAX ] ;
struct sbp_dev * sdev ;
int flags ;
bus_dmamap_t dmamap ;
} ;
# define OCB_ACT_MGM 0
# define OCB_ACT_CMD 1
# define OCB_ACT_MASK 3
# define OCB_RESERVED 0x10
# define OCB_DONE 0x20
# define SBP_RESOURCE_SHORTAGE 0x10
struct sbp_login_res {
# if FW_ENDIANSWAP == 0 && BYTE_ORDER == LITTLE_ENDIAN
u_int16_t len ;
u_int16_t id ;
u_int16_t res0 ;
u_int16_t cmd_hi ;
u_int32_t cmd_lo ;
u_int16_t res1 ;
u_int16_t recon_hold ;
# else
u_int16_t id ;
u_int16_t len ;
u_int16_t cmd_hi ;
u_int16_t res0 ;
u_int32_t cmd_lo ;
u_int16_t recon_hold ;
u_int16_t res1 ;
# endif
} ;
struct sbp_status {
# if FW_ENDIANSWAP == 0 && BYTE_ORDER == LITTLE_ENDIAN
u_int8_t len : 3 ,
dead : 1 ,
resp : 2 ,
src : 2 ;
u_int8_t status : 8 ;
u_int16_t orb_hi ;
u_int32_t orb_lo ;
u_int32_t data [ 6 ] ;
# else
u_int16_t orb_hi ;
u_int8_t status : 8 ;
u_int8_t len : 3 ,
dead : 1 ,
resp : 2 ,
src : 2 ;
u_int32_t orb_lo ;
u_int32_t data [ 6 ] ;
# endif
} ;
struct sbp_cmd_status {
# define SBP_SFMT_CURR 0
# define SBP_SFMT_DEFER 1
# if FW_ENDIANSWAP == 0 && BYTE_ORDER == LITTLE_ENDIAN
u_int8_t status : 6 ,
sfmt : 2 ;
u_int8_t s_key : 4 ,
ill_len : 1 ,
eom : 1 ,
mark : 1 ,
valid : 1 ;
u_int8_t s_code ;
u_int8_t s_qlfr ;
u_int32_t info ;
u_int32_t cdb ;
u_int32_t fru : 8 ,
s_keydep : 24 ;
u_int32_t vend [ 2 ] ;
# else
u_int8_t s_qlfr ;
u_int8_t s_code ;
u_int8_t s_key : 4 ,
ill_len : 1 ,
eom : 1 ,
mark : 1 ,
valid : 1 ;
u_int8_t status : 6 ,
sfmt : 2 ;
u_int32_t info ;
u_int32_t cdb ;
u_int32_t s_keydep : 24 ,
fru : 8 ;
u_int32_t vend [ 2 ] ;
# endif
} ;
struct sbp_dev {
# define SBP_DEV_RESET 0 /* accept login */
# define SBP_DEV_LOGIN 1 /* to login */
# define SBP_DEV_RECONN 2 /* to reconnect */
# define SBP_DEV_TOATTACH 3 /* to attach */
# define SBP_DEV_PROBE 4 /* scan lun */
# define SBP_DEV_ATTACHED 5 /* in operation */
# define SBP_DEV_DEAD 6 /* unavailable unit */
# define SBP_DEV_RETRY 7 /* unavailable unit */
int status ;
int lun_id ;
struct cam_path * path ;
struct sbp_target * target ;
struct sbp_login_res login ;
STAILQ_HEAD ( , sbp_ocb ) ocbs ;
char vendor [ 32 ] ;
char product [ 32 ] ;
char revision [ 10 ] ;
} ;
struct sbp_target {
int target_id ;
int num_lun ;
struct sbp_dev * luns ;
struct sbp_softc * sbp ;
struct fw_device * fwdev ;
u_int32_t mgm_hi , mgm_lo ;
} ;
struct sbp_softc {
struct firewire_dev_comm fd ;
unsigned char flags ;
struct cam_sim * sim ;
struct sbp_target targets [ SBP_NUM_TARGETS ] ;
struct fw_bind fwb ;
STAILQ_HEAD ( , sbp_ocb ) free_ocbs ;
struct sbp_ocb * ocb ;
bus_dma_tag_t dmat ;
} ;
static void sbp_post_explore __P ( ( void * ) ) ;
static void sbp_recv __P ( ( struct fw_xfer * ) ) ;
static void sbp_login_callback __P ( ( struct fw_xfer * ) ) ;
static void sbp_cmd_callback __P ( ( struct fw_xfer * ) ) ;
static void sbp_orb_pointer __P ( ( struct sbp_dev * , struct sbp_ocb * ) ) ;
static void sbp_execute_ocb __P ( ( void * , bus_dma_segment_t * , int , int ) ) ;
static void sbp_free_ocb __P ( ( struct sbp_softc * , struct sbp_ocb * ) ) ;
static void sbp_abort_ocb __P ( ( struct sbp_ocb * , int ) ) ;
static void sbp_abort_all_ocbs __P ( ( struct sbp_dev * , int ) ) ;
static struct fw_xfer * sbp_write_cmd __P ( ( struct sbp_dev * , int , int ) ) ;
static struct sbp_ocb * sbp_get_ocb __P ( ( struct sbp_softc * ) ) ;
static struct sbp_ocb * sbp_enqueue_ocb __P ( ( struct sbp_dev * , struct sbp_ocb * ) ) ;
static struct sbp_ocb * sbp_dequeue_ocb __P ( ( struct sbp_dev * , u_int32_t ) ) ;
static void sbp_detach_target __P ( ( struct sbp_target * ) ) ;
static void sbp_timeout __P ( ( void * arg ) ) ;
static void sbp_mgm_orb __P ( ( struct sbp_dev * , int ) ) ;
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MALLOC_DEFINE ( M_SBP , " sbp " , " SBP-II/FireWire " ) ;
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/* cam related functions */
static void sbp_action ( struct cam_sim * sim , union ccb * ccb ) ;
static void sbp_poll ( struct cam_sim * sim ) ;
static void sbp_cam_callback ( struct cam_periph * periph ,
union ccb * ccb ) ;
static void sbp_cam_scan_lun ( struct sbp_dev * sdev ) ;
static char * orb_status0 [ ] = {
/* 0 */ " No additional information to report " ,
/* 1 */ " Request type not supported " ,
/* 2 */ " Speed not supported " ,
/* 3 */ " Page size not supported " ,
/* 4 */ " Access denied " ,
/* 5 */ " Logical unit not supported " ,
/* 6 */ " Maximum payload too small " ,
/* 7 */ " Reserved for future standardization " ,
/* 8 */ " Resources unavailable " ,
/* 9 */ " Function rejected " ,
/* A */ " Login ID not recognized " ,
/* B */ " Dummy ORB completed " ,
/* C */ " Request aborted " ,
/* FF */ " Unspecified error "
# define MAX_ORB_STATUS0 0xd
} ;
static char * orb_status1_object [ ] = {
/* 0 */ " Operation request block (ORB) " ,
/* 1 */ " Data buffer " ,
/* 2 */ " Page table " ,
/* 3 */ " Unable to specify "
} ;
static char * orb_status1_serial_bus_error [ ] = {
/* 0 */ " Missing acknowledge " ,
/* 1 */ " Reserved; not to be used " ,
/* 2 */ " Time-out error " ,
/* 3 */ " Reserved; not to be used " ,
/* 4 */ " Busy retry limit exceeded(X) " ,
/* 5 */ " Busy retry limit exceeded(A) " ,
/* 6 */ " Busy retry limit exceeded(B) " ,
/* 7 */ " Reserved for future standardization " ,
/* 8 */ " Reserved for future standardization " ,
/* 9 */ " Reserved for future standardization " ,
/* A */ " Reserved for future standardization " ,
/* B */ " Tardy retry limit exceeded " ,
/* C */ " Conflict error " ,
/* D */ " Data error " ,
/* E */ " Type error " ,
/* F */ " Address error "
} ;
static void
sbp_identify ( driver_t * driver , device_t parent )
{
device_t child ;
SBP_DEBUG ( 0 )
printf ( " sbp_identify \n " ) ;
END_DEBUG
child = BUS_ADD_CHILD ( parent , 0 , " sbp " , device_get_unit ( parent ) ) ;
}
/*
* sbp_probe ( )
*/
static int
sbp_probe ( device_t dev )
{
device_t pa ;
SBP_DEBUG ( 0 )
printf ( " sbp_probe \n " ) ;
END_DEBUG
pa = device_get_parent ( dev ) ;
if ( device_get_unit ( dev ) ! = device_get_unit ( pa ) ) {
return ( ENXIO ) ;
}
device_set_desc ( dev , " SBP2/SCSI over firewire " ) ;
return ( 0 ) ;
}
static void
sbp_show_sdev_info ( struct sbp_dev * sdev , int new )
{
int lun ;
struct fw_device * fwdev ;
printf ( " %s:%d:%d " ,
device_get_nameunit ( sdev - > target - > sbp - > fd . dev ) ,
sdev - > target - > target_id ,
sdev - > lun_id
) ;
if ( new = = 2 ) {
return ;
}
fwdev = sdev - > target - > fwdev ;
lun = getcsrdata ( fwdev , 0x14 ) ;
printf ( " ordered:%d type:%d EUI:%08x%08x node:%d "
" speed:%d maxrec:%d " ,
( lun & 0x00400000 ) > > 22 ,
( lun & 0x001f0000 ) > > 16 ,
fwdev - > eui . hi ,
fwdev - > eui . lo ,
fwdev - > dst ,
fwdev - > speed ,
fwdev - > maxrec
) ;
if ( new )
printf ( " new! \n " ) ;
else
printf ( " \n " ) ;
sbp_show_sdev_info ( sdev , 2 ) ;
printf ( " '%s' '%s' '%s' \n " , sdev - > vendor , sdev - > product , sdev - > revision ) ;
}
static struct sbp_target *
sbp_alloc_target ( struct sbp_softc * sbp , struct fw_device * fwdev )
{
int i , lun ;
struct sbp_target * target ;
struct sbp_dev * sdev ;
SBP_DEBUG ( 1 )
printf ( " sbp_alloc_target \n " ) ;
END_DEBUG
for ( i = 0 ; i < SBP_NUM_TARGETS ; i + + )
if ( sbp - > targets [ i ] . fwdev = = NULL ) break ;
if ( i = = SBP_NUM_TARGETS ) {
printf ( " increase SBP_NUM_TARGETS! \n " ) ;
return NULL ;
}
/* new target */
target = & sbp - > targets [ i ] ;
target - > sbp = sbp ;
target - > fwdev = fwdev ;
target - > target_id = i ;
if ( ( target - > mgm_lo = getcsrdata ( fwdev , 0x54 ) ) = = 0 ) {
/* bad target */
printf ( " NULL management address \n " ) ;
target - > fwdev = NULL ;
return NULL ;
}
target - > mgm_hi = 0xffff ;
target - > mgm_lo = 0xf0000000 | target - > mgm_lo < < 2 ;
/* XXX should probe all luns */
/* XXX num_lun may be changed. realloc luns? */
lun = getcsrdata ( target - > fwdev , 0x14 ) & 0xff ;
target - > num_lun = lun + 1 ;
target - > luns = ( struct sbp_dev * ) malloc (
sizeof ( struct sbp_dev ) * target - > num_lun ,
M_SBP , M_NOWAIT | M_ZERO ) ;
for ( i = 0 ; i < target - > num_lun ; i + + ) {
sdev = & target - > luns [ i ] ;
sdev - > lun_id = i ;
sdev - > target = target ;
STAILQ_INIT ( & sdev - > ocbs ) ;
if ( i = = lun )
sdev - > status = SBP_DEV_RESET ;
else
sdev - > status = SBP_DEV_DEAD ;
}
return target ;
}
static void
sbp_get_text_leaf ( struct fw_device * fwdev , int key , char * buf , int len )
{
static char * nullstr = " (null) " ;
int i , clen , found = 0 ;
struct csrhdr * chdr ;
struct csrreg * creg ;
u_int32_t * src , * dst ;
chdr = ( struct csrhdr * ) & fwdev - > csrrom [ 0 ] ;
creg = ( struct csrreg * ) chdr ;
creg + = chdr - > info_len ;
for ( i = chdr - > info_len + 4 ; i < = fwdev - > rommax ; i + = 4 ) {
if ( ( creg + + ) - > key = = key ) {
found = 1 ;
break ;
}
}
if ( ! found ) {
strncpy ( buf , nullstr , len ) ;
return ;
}
src = ( u_int32_t * ) creg + creg - > val ;
clen = ( ( * src > > 16 ) - 2 ) * 4 ;
src + = 3 ;
dst = ( u_int32_t * ) buf ;
if ( len < clen )
clen = len ;
for ( i = 0 ; i < clen / 4 ; i + + )
* dst + + = htonl ( * src + + ) ;
buf [ clen ] = 0 ;
}
static void
sbp_probe_lun ( struct sbp_dev * sdev )
{
struct fw_device * fwdev ;
int rev ;
fwdev = sdev - > target - > fwdev ;
bzero ( sdev - > vendor , sizeof ( sdev - > vendor ) ) ;
bzero ( sdev - > product , sizeof ( sdev - > product ) ) ;
sbp_get_text_leaf ( fwdev , 0x03 , sdev - > vendor , sizeof ( sdev - > vendor ) ) ;
sbp_get_text_leaf ( fwdev , 0x17 , sdev - > product , sizeof ( sdev - > product ) ) ;
rev = getcsrdata ( sdev - > target - > fwdev , 0x3c ) ;
snprintf ( sdev - > revision , sizeof ( sdev - > revision ) , " %06x " , rev ) ;
}
static void
sbp_probe_target ( struct sbp_target * target , int alive )
{
struct sbp_softc * sbp ;
struct sbp_dev * sdev ;
struct firewire_comm * fc ;
int i ;
SBP_DEBUG ( 1 )
printf ( " sbp_probe_target %d \n " , target - > target_id ) ;
if ( ! alive )
printf ( " not alive \n " ) ;
END_DEBUG
sbp = target - > sbp ;
fc = target - > sbp - > fd . fc ;
for ( i = 0 ; i < target - > num_lun ; i + + ) {
sdev = & target - > luns [ i ] ;
if ( alive & & ( sdev - > status ! = SBP_DEV_DEAD ) ) {
if ( sdev - > path ! = NULL ) {
xpt_freeze_devq ( sdev - > path , 1 ) ;
}
sbp_abort_all_ocbs ( sdev , CAM_REQUEUE_REQ ) ;
switch ( sdev - > status ) {
case SBP_DEV_ATTACHED :
sbp_mgm_orb ( sdev , ORB_FUN_RCN ) ;
break ;
case SBP_DEV_RETRY :
sbp_probe_lun ( sdev ) ;
sbp_mgm_orb ( sdev , ORB_FUN_LGI ) ;
break ;
default :
/* new or revived target */
sbp_probe_lun ( sdev ) ;
if ( auto_login ) {
sdev - > status = SBP_DEV_TOATTACH ;
sbp_mgm_orb ( sdev , ORB_FUN_LGI ) ;
}
break ;
}
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SBP_DEBUG ( 0 )
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sbp_show_sdev_info ( sdev ,
( sdev - > status = = SBP_DEV_TOATTACH ) ) ;
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END_DEBUG
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} else {
switch ( sdev - > status ) {
case SBP_DEV_ATTACHED :
SBP_DEBUG ( 0 )
/* the device has gone */
sbp_show_sdev_info ( sdev , 2 ) ;
printf ( " lost target \n " ) ;
END_DEBUG
if ( sdev - > path )
xpt_freeze_devq ( sdev - > path , 1 ) ;
sdev - > status = SBP_DEV_RETRY ;
sbp_abort_all_ocbs ( sdev , CAM_REQUEUE_REQ ) ;
break ;
case SBP_DEV_PROBE :
case SBP_DEV_TOATTACH :
sdev - > status = SBP_DEV_RESET ;
break ;
case SBP_DEV_RETRY :
case SBP_DEV_RESET :
case SBP_DEV_DEAD :
break ;
}
}
}
}
#if 0
static void
sbp_release_queue ( void * arg )
{
struct sbp_softc * sbp ;
SBP_DEBUG ( 0 )
printf ( " sbp_release_queue \n " ) ;
END_DEBUG
sbp = ( struct sbp_softc * ) arg ;
xpt_release_simq ( sbp - > sim , 1 ) ;
}
static void
sbp_release_devq ( void * arg )
{
struct sbp_dev * sdev ;
int s ;
sdev = ( struct sbp_dev * ) arg ;
SBP_DEBUG ( 0 )
sbp_show_sdev_info ( sdev , 2 ) ;
printf ( " sbp_release_devq \n " ) ;
END_DEBUG
s = splcam ( ) ;
xpt_release_devq ( sdev - > path , 1 , TRUE ) ;
splx ( s ) ;
}
# endif
static void
sbp_post_explore ( void * arg )
{
struct sbp_softc * sbp = ( struct sbp_softc * ) arg ;
struct sbp_target * target ;
struct fw_device * fwdev ;
int i , alive ;
SBP_DEBUG ( 1 )
printf ( " sbp_post_explore \n " ) ;
END_DEBUG
#if 0
xpt_freeze_simq ( sbp - > sim , /*count*/ 1 ) ;
# endif
/* Gabage Collection */
for ( i = 0 ; i < SBP_NUM_TARGETS ; i + + ) {
target = & sbp - > targets [ i ] ;
for ( fwdev = TAILQ_FIRST ( & sbp - > fd . fc - > devices ) ;
fwdev ! = NULL ; fwdev = TAILQ_NEXT ( fwdev , link ) ) {
if ( target - > fwdev = = NULL ) break ;
if ( target - > fwdev = = fwdev ) break ;
}
if ( fwdev = = NULL ) {
/* device has removed in lower driver */
sbp_detach_target ( target ) ;
}
}
/* traverse device list */
for ( fwdev = TAILQ_FIRST ( & sbp - > fd . fc - > devices ) ;
fwdev ! = NULL ; fwdev = TAILQ_NEXT ( fwdev , link ) ) {
SBP_DEBUG ( 0 )
printf ( " sbp_post_explore: EUI:%08x%08x " ,
fwdev - > eui . hi , fwdev - > eui . lo ) ;
if ( fwdev - > status = = FWDEVATTACHED ) {
printf ( " spec=%d key=%d. \n " ,
getcsrdata ( fwdev , CSRKEY_SPEC ) = = CSRVAL_ANSIT10 ,
getcsrdata ( fwdev , CSRKEY_VER ) = = CSRVAL_T10SBP2 ) ;
} else {
printf ( " not attached, state=%d. \n " , fwdev - > status ) ;
}
END_DEBUG
alive = ( fwdev - > status = = FWDEVATTACHED )
& & ( getcsrdata ( fwdev , CSRKEY_SPEC ) = = CSRVAL_ANSIT10 )
& & ( getcsrdata ( fwdev , CSRKEY_VER ) = = CSRVAL_T10SBP2 ) ;
for ( i = 0 ; i < SBP_NUM_TARGETS ; i + + ) {
target = & sbp - > targets [ i ] ;
if ( target - > fwdev = = fwdev ) {
/* known target */
break ;
}
}
if ( i = = SBP_NUM_TARGETS ) {
if ( alive ) {
/* new target */
target = sbp_alloc_target ( sbp , fwdev ) ;
if ( target = = NULL )
continue ;
} else {
continue ;
}
}
sbp_probe_target ( target , alive ) ;
}
#if 0
timeout ( sbp_release_queue , ( caddr_t ) sbp , bus_reset_rest * hz / 1000 ) ;
# endif
}
# if NEED_RESPONSE
static void
sbp_loginres_callback ( struct fw_xfer * xfer ) {
SBP_DEBUG ( 1 )
struct sbp_dev * sdev ;
sdev = ( struct sbp_dev * ) xfer - > sc ;
sbp_show_sdev_info ( sdev , 2 ) ;
printf ( " sbp_loginres_callback \n " ) ;
END_DEBUG
fw_xfer_free ( xfer ) ;
return ;
}
# endif
static void
sbp_login_callback ( struct fw_xfer * xfer )
{
SBP_DEBUG ( 1 )
struct sbp_dev * sdev ;
sdev = ( struct sbp_dev * ) xfer - > sc ;
sbp_show_sdev_info ( sdev , 2 ) ;
printf ( " sbp_login_callback \n " ) ;
END_DEBUG
fw_xfer_free ( xfer ) ;
return ;
}
static void
sbp_cmd_callback ( struct fw_xfer * xfer )
{
SBP_DEBUG ( 2 )
struct sbp_dev * sdev ;
sdev = ( struct sbp_dev * ) xfer - > sc ;
sbp_show_sdev_info ( sdev , 2 ) ;
printf ( " sbp_cmd_callback \n " ) ;
END_DEBUG
fw_xfer_free ( xfer ) ;
return ;
}
static void
sbp_cam_callback ( struct cam_periph * periph , union ccb * ccb )
{
struct sbp_dev * sdev ;
sdev = ( struct sbp_dev * ) ccb - > ccb_h . ccb_sdev_ptr ;
SBP_DEBUG ( 1 )
sbp_show_sdev_info ( sdev , 2 ) ;
printf ( " sbp_cam_callback \n " ) ;
END_DEBUG
sdev - > status = SBP_DEV_ATTACHED ;
free ( ccb , M_SBP ) ;
}
static void
sbp_cam_scan_lun ( struct sbp_dev * sdev )
{
union ccb * ccb = malloc ( sizeof ( union ccb ) , M_SBP , M_WAITOK | M_ZERO ) ;
SBP_DEBUG ( 0 )
sbp_show_sdev_info ( sdev , 2 ) ;
printf ( " sbp_cam_scan_lun \n " ) ;
END_DEBUG
xpt_setup_ccb ( & ccb - > ccb_h , sdev - > path , 5 /*priority (low)*/ ) ;
ccb - > ccb_h . func_code = XPT_SCAN_LUN ;
ccb - > ccb_h . cbfcnp = sbp_cam_callback ;
ccb - > crcn . flags = CAM_FLAG_NONE ;
ccb - > ccb_h . ccb_sdev_ptr = sdev ;
xpt_action ( ccb ) ;
/* The scan is in progress now. */
}
static void
sbp_ping_unit_callback ( struct cam_periph * periph , union ccb * ccb )
{
struct sbp_dev * sdev ;
sdev = ( struct sbp_dev * ) ccb - > ccb_h . ccb_sdev_ptr ;
SBP_DEBUG ( 1 )
sbp_show_sdev_info ( sdev , 2 ) ;
printf ( " sbp_ping_unit_callback \n " ) ;
END_DEBUG
if ( ( ccb - > ccb_h . status & CAM_STATUS_MASK ) ! = CAM_REQ_CMP ) {
if ( - - ccb - > ccb_h . retry_count = = 0 ) {
sbp_show_sdev_info ( sdev , 2 ) ;
printf ( " sbp_tur_callback: retry count exceeded \n " ) ;
sdev - > status = SBP_DEV_RETRY ;
free ( ccb , M_SBP ) ;
} else {
/* requeue */
xpt_action ( ccb ) ;
xpt_release_devq ( sdev - > path , 1 , TRUE ) ;
}
} else {
free ( ccb - > csio . data_ptr , M_SBP ) ;
free ( ccb , M_SBP ) ;
sdev - > status = SBP_DEV_ATTACHED ;
xpt_release_devq ( sdev - > path , 1 , TRUE ) ;
}
}
/*
* XXX Some devices need to execute inquiry or read_capacity
* after bus_rest during busy transfer .
* Otherwise they return incorrect result for READ ( and WRITE ? )
* command without any SBP - II / SCSI error .
*
* e . g . Maxtor 3000 XT , Yano A - dish .
*/
static void
sbp_ping_unit ( struct sbp_dev * sdev )
{
union ccb * ccb ;
struct scsi_inquiry_data * inq_buf ;
ccb = malloc ( sizeof ( union ccb ) , M_SBP , M_WAITOK | M_ZERO ) ;
inq_buf = ( struct scsi_inquiry_data * )
malloc ( sizeof ( * inq_buf ) , M_SBP , M_WAITOK ) ;
SBP_DEBUG ( 1 )
sbp_show_sdev_info ( sdev , 2 ) ;
printf ( " sbp_ping_unit \n " ) ;
END_DEBUG
/*
* We need to execute this command before any other queued command .
* Make priority 0 and freeze queue after execution for retry .
* cam ' s scan_lun command doesn ' t provide this feature .
*/
xpt_setup_ccb ( & ccb - > ccb_h , sdev - > path , 0 /*priority (high)*/ ) ;
scsi_inquiry (
& ccb - > csio ,
/*retries*/ 5 ,
sbp_ping_unit_callback ,
MSG_SIMPLE_Q_TAG ,
( u_int8_t * ) inq_buf ,
SHORT_INQUIRY_LENGTH ,
/*evpd*/ FALSE ,
/*page_code*/ 0 ,
SSD_MIN_SIZE ,
/*timeout*/ 60000
) ;
ccb - > ccb_h . flags | = CAM_DEV_QFREEZE ;
xpt_action ( ccb ) ;
}
static void
sbp_do_attach ( struct fw_xfer * xfer )
{
struct sbp_dev * sdev ;
sdev = ( struct sbp_dev * ) xfer - > sc ;
SBP_DEBUG ( 0 )
sbp_show_sdev_info ( sdev , 2 ) ;
printf ( " sbp_do_attach \n " ) ;
END_DEBUG
fw_xfer_free ( xfer ) ;
if ( sdev - > path = = NULL )
xpt_create_path ( & sdev - > path , xpt_periph ,
cam_sim_path ( sdev - > target - > sbp - > sim ) ,
sdev - > target - > target_id , sdev - > lun_id ) ;
if ( sdev - > status = = SBP_DEV_RETRY ) {
sdev - > status = SBP_DEV_PROBE ;
sbp_ping_unit ( sdev ) ;
/* freezed twice */
xpt_release_devq ( sdev - > path , 1 , TRUE ) ;
} else {
sdev - > status = SBP_DEV_PROBE ;
sbp_cam_scan_lun ( sdev ) ;
}
xpt_release_devq ( sdev - > path , 1 , TRUE ) ;
return ;
}
static void
sbp_agent_reset_callback ( struct fw_xfer * xfer )
{
struct sbp_dev * sdev ;
sdev = ( struct sbp_dev * ) xfer - > sc ;
SBP_DEBUG ( 1 )
sbp_show_sdev_info ( sdev , 2 ) ;
printf ( " sbp_cmd_callback \n " ) ;
END_DEBUG
fw_xfer_free ( xfer ) ;
sbp_abort_all_ocbs ( sdev , CAM_REQUEUE_REQ ) ;
if ( sdev - > path )
xpt_release_devq ( sdev - > path , 1 , TRUE ) ;
}
static void
sbp_agent_reset ( struct sbp_dev * sdev , int attach )
{
struct fw_xfer * xfer ;
struct fw_pkt * fp ;
SBP_DEBUG ( 0 )
sbp_show_sdev_info ( sdev , 2 ) ;
printf ( " sbp_agent_reset \n " ) ;
END_DEBUG
xfer = sbp_write_cmd ( sdev , FWTCODE_WREQQ , 0x04 ) ;
if ( xfer = = NULL )
return ;
if ( attach )
xfer - > act . hand = sbp_do_attach ;
else
xfer - > act . hand = sbp_agent_reset_callback ;
fp = ( struct fw_pkt * ) xfer - > send . buf ;
fp - > mode . wreqq . data = htonl ( 0xf ) ;
fw_asyreq ( xfer - > fc , - 1 , xfer ) ;
}
static void
sbp_busy_timeout_callback ( struct fw_xfer * xfer )
{
struct sbp_dev * sdev ;
sdev = ( struct sbp_dev * ) xfer - > sc ;
SBP_DEBUG ( 1 )
sbp_show_sdev_info ( sdev , 2 ) ;
printf ( " sbp_but_timeout_callback \n " ) ;
END_DEBUG
fw_xfer_free ( xfer ) ;
sbp_agent_reset ( sdev , 1 ) ;
}
static void
sbp_busy_timeout ( struct sbp_dev * sdev )
{
struct fw_pkt * fp ;
struct fw_xfer * xfer ;
SBP_DEBUG ( 0 )
sbp_show_sdev_info ( sdev , 2 ) ;
printf ( " sbp_busy_timeout \n " ) ;
END_DEBUG
xfer = sbp_write_cmd ( sdev , FWTCODE_WREQQ , 0 ) ;
xfer - > act . hand = sbp_busy_timeout_callback ;
fp = ( struct fw_pkt * ) xfer - > send . buf ;
fp - > mode . wreqq . dest_hi = htons ( 0xffff ) ;
fp - > mode . wreqq . dest_lo = htonl ( 0xf0000000 | BUS_TIME ) ;
fp - > mode . wreqq . data = htonl ( 0xf ) ;
fw_asyreq ( xfer - > fc , - 1 , xfer ) ;
}
#if 0
static void
sbp_reset_start ( struct sbp_dev * sdev )
{
struct fw_xfer * xfer ;
struct fw_pkt * fp ;
SBP_DEBUG ( 0 )
sbp_show_sdev_info ( sdev , 2 ) ;
printf ( " sbp_reset_start \n " ) ;
END_DEBUG
xfer = sbp_write_cmd ( sdev , FWTCODE_WREQQ , 0 ) ;
xfer - > act . hand = sbp_busy_timeout ;
fp = ( struct fw_pkt * ) xfer - > send . buf ;
fp - > mode . wreqq . dest_hi = htons ( 0xffff ) ;
fp - > mode . wreqq . dest_lo = htonl ( 0xf0000000 | RESET_START ) ;
fp - > mode . wreqq . data = htonl ( 0xf ) ;
fw_asyreq ( xfer - > fc , - 1 , xfer ) ;
}
# endif
static void
sbp_orb_pointer ( struct sbp_dev * sdev , struct sbp_ocb * ocb )
{
struct fw_xfer * xfer ;
struct fw_pkt * fp ;
SBP_DEBUG ( 2 )
sbp_show_sdev_info ( sdev , 2 ) ;
printf ( " sbp_orb_pointer \n " ) ;
END_DEBUG
xfer = sbp_write_cmd ( sdev , FWTCODE_WREQB , 0x08 ) ;
if ( xfer = = NULL )
return ;
xfer - > act . hand = sbp_cmd_callback ;
fp = ( struct fw_pkt * ) xfer - > send . buf ;
fp - > mode . wreqb . len = htons ( 8 ) ;
fp - > mode . wreqb . extcode = 0 ;
fp - > mode . wreqb . payload [ 0 ] =
htonl ( ( ( sdev - > target - > sbp - > fd . fc - > nodeid | FWLOCALBUS ) < < 16 ) ) ;
fp - > mode . wreqb . payload [ 1 ] = htonl ( vtophys ( & ocb - > orb [ 0 ] ) ) ;
if ( fw_asyreq ( xfer - > fc , - 1 , xfer ) ! = 0 ) {
fw_xfer_free ( xfer ) ;
ocb - > ccb - > ccb_h . status = CAM_REQ_INVALID ;
xpt_done ( ocb - > ccb ) ;
}
}
static void
sbp_doorbell ( struct sbp_dev * sdev )
{
struct fw_xfer * xfer ;
struct fw_pkt * fp ;
SBP_DEBUG ( 1 )
sbp_show_sdev_info ( sdev , 2 ) ;
printf ( " sbp_doorbell \n " ) ;
END_DEBUG
xfer = sbp_write_cmd ( sdev , FWTCODE_WREQQ , 0x10 ) ;
if ( xfer = = NULL )
return ;
xfer - > act . hand = sbp_cmd_callback ;
fp = ( struct fw_pkt * ) xfer - > send . buf ;
fp - > mode . wreqq . data = htonl ( 0xf ) ;
fw_asyreq ( xfer - > fc , - 1 , xfer ) ;
}
static struct fw_xfer *
sbp_write_cmd ( struct sbp_dev * sdev , int tcode , int offset )
{
struct fw_xfer * xfer ;
struct fw_pkt * fp ;
xfer = fw_xfer_alloc ( ) ;
if ( xfer = = NULL ) {
return NULL ;
}
if ( tcode = = FWTCODE_WREQQ )
xfer - > send . len = 16 ;
else
xfer - > send . len = 24 ;
xfer - > send . buf = malloc ( xfer - > send . len , M_DEVBUF , M_NOWAIT ) ;
if ( xfer - > send . buf = = NULL ) {
fw_xfer_free ( xfer ) ;
return NULL ;
}
xfer - > send . off = 0 ;
xfer - > spd = min ( sdev - > target - > fwdev - > speed , max_speed ) ;
xfer - > sc = ( caddr_t ) sdev ;
xfer - > fc = sdev - > target - > sbp - > fd . fc ;
xfer - > retry_req = fw_asybusy ;
fp = ( struct fw_pkt * ) xfer - > send . buf ;
fp - > mode . wreqq . dest_hi = htons ( sdev - > login . cmd_hi ) ;
fp - > mode . wreqq . dest_lo = htonl ( sdev - > login . cmd_lo + offset ) ;
fp - > mode . wreqq . tlrt = 0 ;
fp - > mode . wreqq . tcode = tcode ;
fp - > mode . wreqq . pri = 0 ;
xfer - > dst = FWLOCALBUS | sdev - > target - > fwdev - > dst ;
fp - > mode . wreqq . dst = htons ( xfer - > dst ) ;
return xfer ;
}
static void
sbp_mgm_orb ( struct sbp_dev * sdev , int func )
{
struct fw_xfer * xfer ;
struct fw_pkt * fp ;
struct sbp_ocb * ocb ;
int s , nid ;
if ( ( ocb = sbp_get_ocb ( sdev - > target - > sbp ) ) = = NULL ) {
s = splfw ( ) ;
sdev - > target - > sbp - > flags | = SBP_RESOURCE_SHORTAGE ;
splx ( s ) ;
return ;
}
ocb - > flags = OCB_ACT_MGM ;
ocb - > sdev = sdev ;
ocb - > ccb = NULL ;
nid = sdev - > target - > sbp - > fd . fc - > nodeid | FWLOCALBUS ;
bzero ( ( void * ) ( uintptr_t ) ( volatile void * ) ocb - > orb , sizeof ( ocb - > orb ) ) ;
ocb - > orb [ 6 ] = htonl ( ( nid < < 16 ) | SBP_BIND_HI ) ;
ocb - > orb [ 7 ] = htonl ( SBP_DEV2ADDR (
device_get_unit ( sdev - > target - > sbp - > fd . dev ) ,
sdev - > target - > target_id ,
sdev - > lun_id ) ) ;
2002-12-06 02:17:30 +00:00
SBP_DEBUG ( 0 )
2002-09-13 12:31:56 +00:00
sbp_show_sdev_info ( sdev , 2 ) ;
printf ( " %s \n " , orb_fun_name [ ( func > > 16 ) & 0xf ] ) ;
2002-12-06 02:17:30 +00:00
END_DEBUG
2002-09-13 12:31:56 +00:00
switch ( func ) {
case ORB_FUN_LGI :
ocb - > orb [ 2 ] = htonl ( nid < < 16 ) ;
ocb - > orb [ 3 ] = htonl ( vtophys ( & sdev - > login ) ) ;
ocb - > orb [ 4 ] = htonl ( ORB_NOTIFY | ORB_EXV | sdev - > lun_id ) ;
ocb - > orb [ 5 ] = htonl ( sizeof ( struct sbp_login_res ) ) ;
break ;
case ORB_FUN_RCN :
case ORB_FUN_LGO :
case ORB_FUN_LUR :
case ORB_FUN_RST :
case ORB_FUN_ATA :
case ORB_FUN_ATS :
ocb - > orb [ 4 ] = htonl ( ORB_NOTIFY | func | sdev - > login . id ) ;
break ;
}
xfer = sbp_write_cmd ( sdev , FWTCODE_WREQB , 0 ) ;
if ( xfer = = NULL ) {
return ;
}
xfer - > act . hand = sbp_login_callback ;
fp = ( struct fw_pkt * ) xfer - > send . buf ;
fp - > mode . wreqb . dest_hi = htons ( sdev - > target - > mgm_hi ) ;
fp - > mode . wreqb . dest_lo = htonl ( sdev - > target - > mgm_lo ) ;
fp - > mode . wreqb . len = htons ( 8 ) ;
fp - > mode . wreqb . extcode = 0 ;
fp - > mode . wreqb . payload [ 0 ] = htonl ( ( ( sdev - > target - > sbp - > fd . fc - > nodeid | FWLOCALBUS ) < < 16 ) ) ;
fp - > mode . wreqb . payload [ 1 ] = htonl ( vtophys ( & ocb - > orb [ 0 ] ) ) ;
sbp_enqueue_ocb ( sdev , ocb ) ;
fw_asyreq ( xfer - > fc , - 1 , xfer ) ;
}
static void
2002-10-23 13:04:02 +00:00
sbp_print_scsi_cmd ( struct sbp_ocb * ocb )
2002-09-13 12:31:56 +00:00
{
struct ccb_scsiio * csio ;
csio = & ocb - > ccb - > csio ;
printf ( " %s:%d:%d XPT_SCSI_IO: "
" cmd: %02x %02x %02x %02x %02x %02x %02x %02x %02x %02x "
" , flags: 0x%02x, "
" %db cmd/%db data/%db sense \n " ,
device_get_nameunit ( ocb - > sdev - > target - > sbp - > fd . dev ) ,
ocb - > ccb - > ccb_h . target_id , ocb - > ccb - > ccb_h . target_lun ,
csio - > cdb_io . cdb_bytes [ 0 ] ,
csio - > cdb_io . cdb_bytes [ 1 ] ,
csio - > cdb_io . cdb_bytes [ 2 ] ,
csio - > cdb_io . cdb_bytes [ 3 ] ,
csio - > cdb_io . cdb_bytes [ 4 ] ,
csio - > cdb_io . cdb_bytes [ 5 ] ,
csio - > cdb_io . cdb_bytes [ 6 ] ,
csio - > cdb_io . cdb_bytes [ 7 ] ,
csio - > cdb_io . cdb_bytes [ 8 ] ,
csio - > cdb_io . cdb_bytes [ 9 ] ,
ocb - > ccb - > ccb_h . flags & CAM_DIR_MASK ,
csio - > cdb_len , csio - > dxfer_len ,
csio - > sense_len ) ;
2002-10-23 13:04:02 +00:00
}
static void
sbp_scsi_status ( struct sbp_status * sbp_status , struct sbp_ocb * ocb )
{
struct sbp_cmd_status * sbp_cmd_status ;
struct scsi_sense_data * sense ;
sbp_cmd_status = ( struct sbp_cmd_status * ) sbp_status - > data ;
sense = & ocb - > ccb - > csio . sense_data ;
SBP_DEBUG ( 0 )
sbp_print_scsi_cmd ( ocb ) ;
2002-09-13 12:31:56 +00:00
/* XXX need decode status */
sbp_show_sdev_info ( ocb - > sdev , 2 ) ;
printf ( " SCSI status %x sfmt %x valid %x key %x code %x qlfr %x len %d " ,
sbp_cmd_status - > status ,
sbp_cmd_status - > sfmt ,
sbp_cmd_status - > valid ,
sbp_cmd_status - > s_key ,
sbp_cmd_status - > s_code ,
sbp_cmd_status - > s_qlfr ,
sbp_status - > len
) ;
#if 0 /* XXX */
if ( sbp_cmd_status - > status = = SCSI_STATUS_CHECK_COND ) {
printf ( " %s \n " , scsi_sense_key_text [ sbp_cmd_status - > s_key ] ) ;
scsi_sense_desc (
sbp_cmd_status - > s_code ,
sbp_cmd_status - > s_qlfr ,
ocb - > ccb - > ccb_h . path - > device - > inq_data
)
} else {
printf ( " \n " ) ;
}
# else
printf ( " \n " ) ;
# endif
END_DEBUG
if ( sbp_cmd_status - > status = = SCSI_STATUS_CHECK_COND | |
sbp_cmd_status - > status = = SCSI_STATUS_CMD_TERMINATED ) {
if ( sbp_cmd_status - > sfmt = = SBP_SFMT_CURR ) {
sense - > error_code = SSD_CURRENT_ERROR ;
} else {
sense - > error_code = SSD_DEFERRED_ERROR ;
}
if ( sbp_cmd_status - > valid )
sense - > error_code | = SSD_ERRCODE_VALID ;
sense - > flags = sbp_cmd_status - > s_key ;
if ( sbp_cmd_status - > mark )
sense - > flags | = SSD_FILEMARK ;
if ( sbp_cmd_status - > eom )
sense - > flags | = SSD_EOM ;
if ( sbp_cmd_status - > ill_len )
sense - > flags | = SSD_ILI ;
sense - > info [ 0 ] = ntohl ( sbp_cmd_status - > info ) & 0xff ;
sense - > info [ 1 ] = ( ntohl ( sbp_cmd_status - > info ) > > 8 ) & 0xff ;
sense - > info [ 2 ] = ( ntohl ( sbp_cmd_status - > info ) > > 16 ) & 0xff ;
sense - > info [ 3 ] = ( ntohl ( sbp_cmd_status - > info ) > > 24 ) & 0xff ;
if ( sbp_status - > len < = 1 )
/* XXX not scsi status. shouldn't be happened */
sense - > extra_len = 0 ;
else if ( sbp_status - > len < = 4 )
/* add_sense_code(_qual), info, cmd_spec_info */
sense - > extra_len = 6 ;
else
/* fru, sense_key_spec */
sense - > extra_len = 10 ;
sense - > cmd_spec_info [ 0 ] = ntohl ( sbp_cmd_status - > cdb ) & 0xff ;
sense - > cmd_spec_info [ 1 ] = ( ntohl ( sbp_cmd_status - > cdb ) > > 8 ) & 0xff ;
sense - > cmd_spec_info [ 2 ] = ( ntohl ( sbp_cmd_status - > cdb ) > > 16 ) & 0xff ;
sense - > cmd_spec_info [ 3 ] = ( ntohl ( sbp_cmd_status - > cdb ) > > 24 ) & 0xff ;
sense - > add_sense_code = sbp_cmd_status - > s_code ;
sense - > add_sense_code_qual = sbp_cmd_status - > s_qlfr ;
sense - > fru = sbp_cmd_status - > fru ;
sense - > sense_key_spec [ 0 ] = ntohl ( sbp_cmd_status - > s_keydep ) & 0xff ;
sense - > sense_key_spec [ 1 ] = ( ntohl ( sbp_cmd_status - > s_keydep ) > > 8 ) & 0xff ;
sense - > sense_key_spec [ 2 ] = ( ntohl ( sbp_cmd_status - > s_keydep ) > > 16 ) & 0xff ;
ocb - > ccb - > csio . scsi_status = sbp_cmd_status - > status ; ;
ocb - > ccb - > ccb_h . status = CAM_SCSI_STATUS_ERROR
| CAM_AUTOSNS_VALID ;
/*
{
u_int8_t j , * tmp ;
tmp = sense ;
for ( j = 0 ; j < 32 ; j + = 8 ) {
printf ( " sense %02x%02x %02x%02x %02x%02x %02x%02x \n " ,
tmp [ j ] , tmp [ j + 1 ] , tmp [ j + 2 ] , tmp [ j + 3 ] ,
tmp [ j + 4 ] , tmp [ j + 5 ] , tmp [ j + 6 ] , tmp [ j + 7 ] ) ;
}
}
*/
} else {
printf ( " sbp_scsi_status: unknown scsi status \n " ) ;
}
}
static void
sbp_fix_inq_data ( struct sbp_ocb * ocb )
{
union ccb * ccb ;
struct sbp_dev * sdev ;
struct scsi_inquiry_data * inq ;
ccb = ocb - > ccb ;
sdev = ocb - > sdev ;
if ( ccb - > csio . cdb_io . cdb_bytes [ 1 ] & SI_EVPD )
return ;
SBP_DEBUG ( 1 )
sbp_show_sdev_info ( sdev , 2 ) ;
printf ( " sbp_fix_inq_data \n " ) ;
END_DEBUG
inq = ( struct scsi_inquiry_data * ) ccb - > csio . data_ptr ;
switch ( SID_TYPE ( inq ) ) {
case T_DIRECT :
/*
* XXX Convert Direct Access device to RBC .
2002-12-26 06:50:09 +00:00
* I ' ve never seen FireWire DA devices which support READ_6 .
2002-09-13 12:31:56 +00:00
*/
# if 1
if ( SID_TYPE ( inq ) = = T_DIRECT )
inq - > device | = T_RBC ; /* T_DIRECT == 0 */
# endif
/* fall through */
case T_RBC :
/* disable tag queuing */
inq - > flags & = ~ SID_CmdQue ;
/*
* Override vendor / product / revision information .
* Some devices sometimes return strange strings .
*/
bcopy ( sdev - > vendor , inq - > vendor , sizeof ( inq - > vendor ) ) ;
bcopy ( sdev - > product , inq - > product , sizeof ( inq - > product ) ) ;
bcopy ( sdev - > revision + 2 , inq - > revision , sizeof ( inq - > revision ) ) ;
break ;
}
}
static void
sbp_recv1 ( struct fw_xfer * xfer ) {
struct fw_pkt * rfp ;
# if NEED_RESPONSE
struct fw_pkt * sfp ;
# endif
struct sbp_softc * sbp ;
struct sbp_dev * sdev ;
struct sbp_ocb * ocb ;
struct sbp_login_res * login_res = NULL ;
struct sbp_status * sbp_status ;
struct sbp_target * target ;
int orb_fun , status_valid ;
u_int32_t addr ;
/*
u_int32_t * ld ;
ld = xfer - > recv . buf ;
printf ( " sbp %x %d %d %08x %08x %08x %08x \n " ,
xfer - > resp , xfer - > recv . len , xfer - > recv . off , ntohl ( ld [ 0 ] ) , ntohl ( ld [ 1 ] ) , ntohl ( ld [ 2 ] ) , ntohl ( ld [ 3 ] ) ) ;
printf ( " sbp %08x %08x %08x %08x \n " , ntohl ( ld [ 4 ] ) , ntohl ( ld [ 5 ] ) , ntohl ( ld [ 6 ] ) , ntohl ( ld [ 7 ] ) ) ;
printf ( " sbp %08x %08x %08x %08x \n " , ntohl ( ld [ 8 ] ) , ntohl ( ld [ 9 ] ) , ntohl ( ld [ 10 ] ) , ntohl ( ld [ 11 ] ) ) ;
*/
if ( xfer - > resp ! = 0 ) {
printf ( " sbp_recv: xfer->resp != 0 \n " ) ;
fw_xfer_free ( xfer ) ;
return ;
}
if ( xfer - > recv . buf = = NULL ) {
printf ( " sbp_recv: xfer->recv.buf == NULL \n " ) ;
fw_xfer_free ( xfer ) ;
return ;
}
sbp = ( struct sbp_softc * ) xfer - > sc ;
rfp = ( struct fw_pkt * ) xfer - > recv . buf ;
if ( rfp - > mode . wreqb . tcode ! = FWTCODE_WREQB ) {
printf ( " sbp_recv: tcode = %d \n " , rfp - > mode . wreqb . tcode ) ;
fw_xfer_free ( xfer ) ;
return ;
}
sbp_status = ( struct sbp_status * ) rfp - > mode . wreqb . payload ;
addr = ntohl ( rfp - > mode . wreqb . dest_lo ) ;
SBP_DEBUG ( 2 )
printf ( " received address 0x%x \n " , addr ) ;
END_DEBUG
target = & sbp - > targets [ SBP_ADDR2TRG ( addr ) ] ;
sdev = & target - > luns [ SBP_ADDR2LUN ( addr ) ] ;
status_valid = ( sbp_status - > resp = = ORB_RES_CMPL
& & sbp_status - > dead = = 0
& & sbp_status - > status = = 0 ) ;
SBP_DEBUG ( 0 )
if ( ! status_valid | | debug > 1 ) {
int status ;
sbp_show_sdev_info ( sdev , 2 ) ;
printf ( " ORB status src:%x resp:%x dead:%x "
" len:%x stat:%x orb:%x%08x \n " ,
sbp_status - > src , sbp_status - > resp , sbp_status - > dead ,
sbp_status - > len , sbp_status - > status ,
2002-12-26 06:41:37 +00:00
ntohs ( sbp_status - > orb_hi ) , ntohl ( sbp_status - > orb_lo ) ) ;
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sbp_show_sdev_info ( sdev , 2 ) ;
status = sbp_status - > status ;
switch ( sbp_status - > resp ) {
case 0 :
if ( status > MAX_ORB_STATUS0 )
printf ( " %s \n " , orb_status0 [ MAX_ORB_STATUS0 ] ) ;
else
printf ( " %s \n " , orb_status0 [ status ] ) ;
break ;
case 1 :
printf ( " Object: %s, Serial Bus Error: %s \n " ,
orb_status1_object [ ( status > > 6 ) & 3 ] ,
orb_status1_serial_bus_error [ status & 0xf ] ) ;
break ;
default :
printf ( " unknown respose code \n " ) ;
}
}
END_DEBUG
ocb = sbp_dequeue_ocb ( sdev , ntohl ( sbp_status - > orb_lo ) ) ;
/* we have to reset the fetch agent if it's dead */
if ( sbp_status - > dead ) {
if ( sdev - > path )
xpt_freeze_devq ( sdev - > path , 1 ) ;
sbp_agent_reset ( sdev , 0 ) ;
}
if ( ocb = = NULL ) {
printf ( " No ocb on the queue for target %d. \n " , sdev - > target - > target_id ) ;
fw_xfer_free ( xfer ) ;
return ;
}
switch ( ntohl ( ocb - > orb [ 4 ] ) & ORB_FMT_MSK ) {
case ORB_FMT_NOP :
break ;
case ORB_FMT_VED :
break ;
case ORB_FMT_STD :
switch ( ocb - > flags & OCB_ACT_MASK ) {
case OCB_ACT_MGM :
orb_fun = ntohl ( ocb - > orb [ 4 ] ) & ORB_FUN_MSK ;
switch ( orb_fun ) {
case ORB_FUN_LGI :
login_res = & sdev - > login ;
login_res - > len = ntohs ( login_res - > len ) ;
login_res - > id = ntohs ( login_res - > id ) ;
login_res - > cmd_hi = ntohs ( login_res - > cmd_hi ) ;
login_res - > cmd_lo = ntohl ( login_res - > cmd_lo ) ;
if ( status_valid ) {
SBP_DEBUG ( 0 )
sbp_show_sdev_info ( sdev , 2 ) ;
printf ( " login: len %d, ID %d, cmd %08x%08x, recon_hold %d \n " , login_res - > len , login_res - > id , login_res - > cmd_hi , login_res - > cmd_lo , ntohs ( login_res - > recon_hold ) ) ;
END_DEBUG
# if 1
sbp_busy_timeout ( sdev ) ;
# else
sbp_mgm_orb ( sdev , ORB_FUN_ATS ) ;
# endif
} else {
/* forgot logout ? */
printf ( " login failed \n " ) ;
sdev - > status = SBP_DEV_RESET ;
}
break ;
case ORB_FUN_RCN :
login_res = & sdev - > login ;
if ( status_valid ) {
sdev - > status = SBP_DEV_ATTACHED ;
SBP_DEBUG ( 0 )
sbp_show_sdev_info ( sdev , 2 ) ;
printf ( " reconnect: len %d, ID %d, cmd %08x%08x \n " , login_res - > len , login_res - > id , login_res - > cmd_hi , login_res - > cmd_lo ) ;
END_DEBUG
# if 1
sbp_ping_unit ( sdev ) ;
xpt_release_devq ( sdev - > path , 1 , TRUE ) ;
# else
sbp_mgm_orb ( sdev , ORB_FUN_ATS ) ;
# endif
} else {
/* reconnection hold time exceed? */
printf ( " reconnect failed \n " ) ;
sbp_mgm_orb ( sdev , ORB_FUN_LGI ) ;
}
break ;
case ORB_FUN_LGO :
sdev - > status = SBP_DEV_RESET ;
break ;
case ORB_FUN_LUR :
case ORB_FUN_RST :
case ORB_FUN_ATA :
case ORB_FUN_ATS :
if ( sdev - > status = = SBP_DEV_ATTACHED ) {
xpt_release_devq ( sdev - > path , 1 , TRUE ) ;
} else {
sbp_busy_timeout ( sdev ) ;
}
break ;
default :
break ;
}
break ;
case OCB_ACT_CMD :
if ( ocb - > ccb ! = NULL ) {
union ccb * ccb ;
/*
u_int32_t * ld ;
ld = ocb - > ccb - > csio . data_ptr ;
if ( ld ! = NULL & & ocb - > ccb - > csio . dxfer_len ! = 0 )
printf ( " ptr %08x %08x %08x %08x \n " , ld [ 0 ] , ld [ 1 ] , ld [ 2 ] , ld [ 3 ] ) ;
else
printf ( " ptr NULL \n " ) ;
printf ( " len %d \n " , sbp_status - > len ) ;
*/
ccb = ocb - > ccb ;
if ( sbp_status - > len > 1 ) {
sbp_scsi_status ( sbp_status , ocb ) ;
} else {
if ( sbp_status - > resp ! = ORB_RES_CMPL ) {
ccb - > ccb_h . status = CAM_REQ_CMP_ERR ;
} else {
ccb - > ccb_h . status = CAM_REQ_CMP ;
}
}
/* fix up inq data */
if ( ccb - > csio . cdb_io . cdb_bytes [ 0 ] = = INQUIRY )
sbp_fix_inq_data ( ocb ) ;
xpt_done ( ccb ) ;
}
break ;
default :
break ;
}
}
if ( ! ( ocb - > flags & OCB_RESERVED ) )
sbp_free_ocb ( sbp , ocb ) ;
/* The received packet is usually small enough to be stored within
* the buffer . In that case , the controller return ack_complete and
* no respose is necessary .
*
* XXX fwohci . c and firewire . c should inform event_code such as
* ack_complete or ack_pending to upper driver .
*/
# if NEED_RESPONSE
xfer - > send . buf = malloc ( 12 , M_SBP , M_NOWAIT | M_ZERO ) ;
xfer - > send . len = 12 ;
xfer - > send . off = 0 ;
sfp = ( struct fw_pkt * ) xfer - > send . buf ;
sfp - > mode . wres . dst = rfp - > mode . wreqb . src ;
xfer - > dst = ntohs ( sfp - > mode . wres . dst ) ;
xfer - > spd = min ( sdev - > target - > fwdev - > speed , max_speed ) ;
xfer - > act . hand = sbp_loginres_callback ;
xfer - > retry_req = fw_asybusy ;
sfp - > mode . wres . tlrt = rfp - > mode . wreqb . tlrt ;
sfp - > mode . wres . tcode = FWTCODE_WRES ;
sfp - > mode . wres . rtcode = 0 ;
sfp - > mode . wres . pri = 0 ;
fw_asyreq ( xfer - > fc , - 1 , xfer ) ;
# else
fw_xfer_free ( xfer ) ;
# endif
return ;
}
static void
sbp_recv ( struct fw_xfer * xfer )
{
int s ;
s = splcam ( ) ;
sbp_recv1 ( xfer ) ;
splx ( s ) ;
}
/*
* sbp_attach ( )
*/
static int
sbp_attach ( device_t dev )
{
struct sbp_softc * sbp ;
struct cam_devq * devq ;
struct fw_xfer * xfer ;
int i , s , error ;
SBP_DEBUG ( 0 )
printf ( " sbp_attach \n " ) ;
END_DEBUG
sbp = ( ( struct sbp_softc * ) device_get_softc ( dev ) ) ;
bzero ( sbp , sizeof ( struct sbp_softc ) ) ;
sbp - > fd . dev = dev ;
sbp - > fd . fc = device_get_ivars ( dev ) ;
error = bus_dma_tag_create ( /*parent*/ NULL , /*alignment*/ 1 ,
/*boundary*/ 0 ,
/*lowaddr*/ BUS_SPACE_MAXADDR_32BIT ,
/*highaddr*/ BUS_SPACE_MAXADDR ,
/*filter*/ NULL , /*filterarg*/ NULL ,
/*maxsize*/ 0x100000 , /*nsegments*/ SBP_IND_MAX ,
/*maxsegsz*/ 0x8000 ,
/*flags*/ BUS_DMA_ALLOCNOW ,
& sbp - > dmat ) ;
if ( error ! = 0 ) {
printf ( " sbp_attach: Could not allocate DMA tag "
" - error %d \n " , error ) ;
return ( ENOMEM ) ;
}
devq = cam_simq_alloc ( /*maxopenings*/ SBP_NUM_OCB ) ;
if ( devq = = NULL )
return ( ENXIO ) ;
for ( i = 0 ; i < SBP_NUM_TARGETS ; i + + ) {
sbp - > targets [ i ] . fwdev = NULL ;
sbp - > targets [ i ] . luns = NULL ;
}
sbp - > sim = cam_sim_alloc ( sbp_action , sbp_poll , " sbp " , sbp ,
device_get_unit ( dev ) ,
/*untagged*/ SBP_QUEUE_LEN ,
/*tagged*/ 0 , devq ) ;
if ( sbp - > sim = = NULL ) {
cam_simq_free ( devq ) ;
return ( ENXIO ) ;
}
sbp - > ocb = ( struct sbp_ocb * ) contigmalloc (
sizeof ( struct sbp_ocb ) * SBP_NUM_OCB ,
M_SBP , M_DONTWAIT , 0x10000 , 0xffffffff , PAGE_SIZE , 0ul ) ;
bzero ( sbp - > ocb , sizeof ( struct sbp_ocb ) * SBP_NUM_OCB ) ;
if ( sbp - > ocb = = NULL ) {
printf ( " sbp0: ocb alloction failure \n " ) ;
return ( ENOMEM ) ;
}
STAILQ_INIT ( & sbp - > free_ocbs ) ;
for ( i = 0 ; i < SBP_NUM_OCB ; i + + ) {
sbp_free_ocb ( sbp , & sbp - > ocb [ i ] ) ;
}
if ( xpt_bus_register ( sbp - > sim , /*bus*/ 0 ) ! = CAM_SUCCESS ) {
cam_sim_free ( sbp - > sim , /*free_devq*/ TRUE ) ;
contigfree ( sbp - > ocb , sizeof ( struct sbp_ocb ) * SBP_NUM_OCB ,
M_SBP ) ;
return ( ENXIO ) ;
}
xfer = fw_xfer_alloc ( ) ;
xfer - > act . hand = sbp_recv ;
xfer - > act_type = FWACT_XFER ;
# if NEED_RESPONSE
xfer - > fc = sbp - > fd . fc ;
# endif
xfer - > sc = ( caddr_t ) sbp ;
sbp - > fwb . start_hi = SBP_BIND_HI ;
sbp - > fwb . start_lo = SBP_DEV2ADDR ( device_get_unit ( sbp - > fd . dev ) , 0 , 0 ) ;
/* We reserve 16 bit space (4 bytes X 64 targets X 256 luns) */
sbp - > fwb . addrlen = 0xffff ;
sbp - > fwb . xfer = xfer ;
fw_bindadd ( sbp - > fd . fc , & sbp - > fwb ) ;
sbp - > fd . post_explore = sbp_post_explore ;
s = splfw ( ) ;
sbp_post_explore ( ( void * ) sbp ) ;
splx ( s ) ;
return ( 0 ) ;
}
static int
sbp_detach ( device_t dev )
{
struct sbp_softc * sbp = ( ( struct sbp_softc * ) device_get_softc ( dev ) ) ;
struct firewire_comm * fc = sbp - > fd . fc ;
int i ;
SBP_DEBUG ( 0 )
printf ( " sbp_detach \n " ) ;
END_DEBUG
/* bus reset for logout */
sbp - > fd . post_explore = NULL ;
fc - > ibr ( fc ) ;
contigfree ( sbp - > ocb , sizeof ( struct sbp_ocb ) * SBP_NUM_OCB , M_SBP ) ;
fw_bindremove ( fc , & sbp - > fwb ) ;
for ( i = 0 ; i < SBP_NUM_TARGETS ; i + + )
sbp_detach_target ( & sbp - > targets [ i ] ) ;
xpt_bus_deregister ( cam_sim_path ( sbp - > sim ) ) ;
bus_dma_tag_destroy ( sbp - > dmat ) ;
return ( 0 ) ;
}
static void
sbp_detach_target ( struct sbp_target * target )
{
int i ;
struct sbp_dev * sdev ;
if ( target - > luns ! = NULL ) {
printf ( " sbp_detach_target %d \n " , target - > target_id ) ;
for ( i = 0 ; i < target - > num_lun ; i + + ) {
sdev = & target - > luns [ i ] ;
if ( sdev - > status = = SBP_DEV_RESET | |
sdev - > status = = SBP_DEV_DEAD )
continue ;
if ( sdev - > path )
xpt_async ( AC_LOST_DEVICE , sdev - > path , NULL ) ;
xpt_free_path ( sdev - > path ) ;
sdev - > path = NULL ;
sbp_abort_all_ocbs ( sdev , CAM_DEV_NOT_THERE ) ;
}
free ( target - > luns , M_SBP ) ;
target - > luns = NULL ;
}
target - > fwdev = NULL ;
}
static void
sbp_timeout ( void * arg )
{
struct sbp_ocb * ocb = ( struct sbp_ocb * ) arg ;
struct sbp_dev * sdev = ocb - > sdev ;
int s ;
sbp_show_sdev_info ( sdev , 2 ) ;
printf ( " request timeout ... requeue \n " ) ;
/* XXX need reset? */
s = splfw ( ) ;
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sbp_abort_all_ocbs ( sdev , CAM_CMD_TIMEOUT ) ;
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splx ( s ) ;
return ;
}
static void
sbp_action1 ( struct cam_sim * sim , union ccb * ccb )
{
struct sbp_softc * sbp = ( struct sbp_softc * ) sim - > softc ;
struct sbp_target * target = NULL ;
struct sbp_dev * sdev = NULL ;
/* target:lun -> sdev mapping */
if ( sbp ! = NULL
& & ccb - > ccb_h . target_id ! = CAM_TARGET_WILDCARD
& & ccb - > ccb_h . target_id < SBP_NUM_TARGETS ) {
target = & sbp - > targets [ ccb - > ccb_h . target_id ] ;
if ( target - > fwdev ! = NULL
& & ccb - > ccb_h . target_lun ! = CAM_LUN_WILDCARD
& & ccb - > ccb_h . target_lun < target - > num_lun ) {
sdev = & target - > luns [ ccb - > ccb_h . target_lun ] ;
if ( sdev - > status ! = SBP_DEV_ATTACHED & &
sdev - > status ! = SBP_DEV_PROBE )
sdev = NULL ;
}
}
SBP_DEBUG ( 1 )
if ( sdev = = NULL )
printf ( " invalid target %d lun %d \n " ,
ccb - > ccb_h . target_id , ccb - > ccb_h . target_lun ) ;
END_DEBUG
switch ( ccb - > ccb_h . func_code ) {
case XPT_SCSI_IO :
case XPT_RESET_DEV :
case XPT_GET_TRAN_SETTINGS :
case XPT_SET_TRAN_SETTINGS :
case XPT_CALC_GEOMETRY :
if ( sdev = = NULL ) {
SBP_DEBUG ( 1 )
printf ( " %s:%d:%d:func_code 0x%04x: "
" Invalid target (target needed) \n " ,
device_get_nameunit ( sbp - > fd . dev ) ,
ccb - > ccb_h . target_id , ccb - > ccb_h . target_lun ,
ccb - > ccb_h . func_code ) ;
END_DEBUG
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ccb - > ccb_h . status = CAM_DEV_NOT_THERE ;
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xpt_done ( ccb ) ;
return ;
}
break ;
case XPT_PATH_INQ :
case XPT_NOOP :
/* The opcodes sometimes aimed at a target (sc is valid),
* sometimes aimed at the SIM ( sc is invalid and target is
* CAM_TARGET_WILDCARD )
*/
if ( sbp = = NULL & &
ccb - > ccb_h . target_id ! = CAM_TARGET_WILDCARD ) {
SBP_DEBUG ( 0 )
printf ( " %s:%d:%d func_code 0x%04x: "
" Invalid target (no wildcard) \n " ,
device_get_nameunit ( sbp - > fd . dev ) ,
ccb - > ccb_h . target_id , ccb - > ccb_h . target_lun ,
ccb - > ccb_h . func_code ) ;
END_DEBUG
2002-12-26 03:17:59 +00:00
ccb - > ccb_h . status = CAM_DEV_NOT_THERE ;
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xpt_done ( ccb ) ;
return ;
}
break ;
default :
/* XXX Hm, we should check the input parameters */
break ;
}
switch ( ccb - > ccb_h . func_code ) {
case XPT_SCSI_IO :
{
struct ccb_scsiio * csio ;
struct sbp_ocb * ocb ;
int s , speed ;
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void * cdb ;
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csio = & ccb - > csio ;
SBP_DEBUG ( 1 )
printf ( " %s:%d:%d XPT_SCSI_IO: "
" cmd: %02x %02x %02x %02x %02x %02x %02x %02x %02x %02x "
" , flags: 0x%02x, "
" %db cmd/%db data/%db sense \n " ,
device_get_nameunit ( sbp - > fd . dev ) ,
ccb - > ccb_h . target_id , ccb - > ccb_h . target_lun ,
csio - > cdb_io . cdb_bytes [ 0 ] ,
csio - > cdb_io . cdb_bytes [ 1 ] ,
csio - > cdb_io . cdb_bytes [ 2 ] ,
csio - > cdb_io . cdb_bytes [ 3 ] ,
csio - > cdb_io . cdb_bytes [ 4 ] ,
csio - > cdb_io . cdb_bytes [ 5 ] ,
csio - > cdb_io . cdb_bytes [ 6 ] ,
csio - > cdb_io . cdb_bytes [ 7 ] ,
csio - > cdb_io . cdb_bytes [ 8 ] ,
csio - > cdb_io . cdb_bytes [ 9 ] ,
ccb - > ccb_h . flags & CAM_DIR_MASK ,
csio - > cdb_len , csio - > dxfer_len ,
csio - > sense_len ) ;
END_DEBUG
if ( sdev = = NULL ) {
ccb - > ccb_h . status = CAM_DEV_NOT_THERE ;
xpt_done ( ccb ) ;
return ;
}
#if 0
/* if we are in probe stage, pass only probe commands */
if ( sdev - > status = = SBP_DEV_PROBE ) {
char * name ;
name = xpt_path_periph ( ccb - > ccb_h . path ) - > periph_name ;
printf ( " probe stage, periph name: %s \n " , name ) ;
if ( strcmp ( name , " probe " ) ! = 0 ) {
ccb - > ccb_h . status = CAM_REQUEUE_REQ ;
xpt_done ( ccb ) ;
return ;
}
}
# endif
if ( ( ocb = sbp_get_ocb ( sbp ) ) = = NULL ) {
s = splfw ( ) ;
sbp - > flags | = SBP_RESOURCE_SHORTAGE ;
splx ( s ) ;
return ;
}
ocb - > flags = OCB_ACT_CMD ;
ocb - > sdev = sdev ;
ocb - > ccb = ccb ;
ccb - > ccb_h . ccb_sdev_ptr = sdev ;
ocb - > orb [ 0 ] = htonl ( 1 < < 31 ) ;
ocb - > orb [ 1 ] = 0 ;
ocb - > orb [ 2 ] = htonl ( ( ( sbp - > fd . fc - > nodeid | FWLOCALBUS ) < < 16 ) ) ;
ocb - > orb [ 3 ] = htonl ( vtophys ( ocb - > ind_ptr ) ) ;
speed = min ( target - > fwdev - > speed , max_speed ) ;
ocb - > orb [ 4 ] = htonl ( ORB_NOTIFY | ORB_CMD_SPD ( speed )
| ORB_CMD_MAXP ( speed + 7 ) ) ;
if ( ( ccb - > ccb_h . flags & CAM_DIR_MASK ) = = CAM_DIR_IN ) {
ocb - > orb [ 4 ] | = htonl ( ORB_CMD_IN ) ;
}
if ( csio - > ccb_h . flags & CAM_SCATTER_VALID )
printf ( " sbp: CAM_SCATTER_VALID \n " ) ;
if ( csio - > ccb_h . flags & CAM_DATA_PHYS )
printf ( " sbp: CAM_DATA_PHYS \n " ) ;
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if ( csio - > ccb_h . flags & CAM_CDB_POINTER )
cdb = ( void * ) csio - > cdb_io . cdb_ptr ;
else
cdb = ( void * ) & csio - > cdb_io . cdb_bytes ;
bcopy ( cdb ,
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( void * ) ( uintptr_t ) ( volatile void * ) & ocb - > orb [ 5 ] ,
2002-11-06 15:34:52 +00:00
csio - > cdb_len ) ;
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/*
printf ( " ORB %08x %08x %08x %08x \n " , ntohl ( ocb - > orb [ 0 ] ) , ntohl ( ocb - > orb [ 1 ] ) , ntohl ( ocb - > orb [ 2 ] ) , ntohl ( ocb - > orb [ 3 ] ) ) ;
printf ( " ORB %08x %08x %08x %08x \n " , ntohl ( ocb - > orb [ 4 ] ) , ntohl ( ocb - > orb [ 5 ] ) , ntohl ( ocb - > orb [ 6 ] ) , ntohl ( ocb - > orb [ 7 ] ) ) ;
*/
if ( ccb - > csio . dxfer_len > 0 ) {
int s ;
if ( bus_dmamap_create ( sbp - > dmat , 0 , & ocb - > dmamap ) ) {
printf ( " sbp_action1: cannot create dmamap \n " ) ;
break ;
}
s = splsoftvm ( ) ;
bus_dmamap_load ( /*dma tag*/ sbp - > dmat ,
/*dma map*/ ocb - > dmamap ,
ccb - > csio . data_ptr ,
ccb - > csio . dxfer_len ,
sbp_execute_ocb ,
ocb ,
/*flags*/ 0 ) ;
splx ( s ) ;
} else
sbp_execute_ocb ( ocb , NULL , 0 , 0 ) ;
break ;
}
case XPT_CALC_GEOMETRY :
{
struct ccb_calc_geometry * ccg ;
u_int32_t size_mb ;
u_int32_t secs_per_cylinder ;
int extended = 1 ;
ccg = & ccb - > ccg ;
if ( ccg - > block_size = = 0 ) {
printf ( " sbp_action1: block_size is 0. \n " ) ;
ccb - > ccb_h . status = CAM_REQ_INVALID ;
xpt_done ( ccb ) ;
break ;
}
SBP_DEBUG ( 1 )
printf ( " %s:%d:%d:%d:XPT_CALC_GEOMETRY: "
" Volume size = %d \n " ,
device_get_nameunit ( sbp - > fd . dev ) , cam_sim_path ( sbp - > sim ) ,
ccb - > ccb_h . target_id , ccb - > ccb_h . target_lun ,
ccg - > volume_size ) ;
END_DEBUG
size_mb = ccg - > volume_size
/ ( ( 1024L * 1024L ) / ccg - > block_size ) ;
if ( size_mb > = 1024 & & extended ) {
ccg - > heads = 255 ;
ccg - > secs_per_track = 63 ;
} else {
ccg - > heads = 64 ;
ccg - > secs_per_track = 32 ;
}
secs_per_cylinder = ccg - > heads * ccg - > secs_per_track ;
ccg - > cylinders = ccg - > volume_size / secs_per_cylinder ;
ccb - > ccb_h . status = CAM_REQ_CMP ;
xpt_done ( ccb ) ;
break ;
}
case XPT_RESET_BUS : /* Reset the specified SCSI bus */
{
SBP_DEBUG ( 1 )
printf ( " %s:%d:XPT_RESET_BUS: \n " ,
device_get_nameunit ( sbp - > fd . dev ) , cam_sim_path ( sbp - > sim ) ) ;
END_DEBUG
ccb - > ccb_h . status = CAM_REQ_INVALID ;
xpt_done ( ccb ) ;
break ;
}
case XPT_PATH_INQ : /* Path routing inquiry */
{
struct ccb_pathinq * cpi = & ccb - > cpi ;
SBP_DEBUG ( 1 )
printf ( " %s:%d:%d XPT_PATH_INQ:. \n " ,
device_get_nameunit ( sbp - > fd . dev ) ,
ccb - > ccb_h . target_id , ccb - > ccb_h . target_lun ) ;
END_DEBUG
cpi - > version_num = 1 ; /* XXX??? */
cpi - > hba_inquiry = 0 ;
cpi - > target_sprt = 0 ;
cpi - > hba_misc = 0 ;
cpi - > hba_eng_cnt = 0 ;
cpi - > max_target = SBP_NUM_TARGETS - 1 ;
cpi - > max_lun = SBP_NUM_LUNS - 1 ;
cpi - > initiator_id = SBP_INITIATOR ;
cpi - > bus_id = sim - > bus_id ;
cpi - > base_transfer_speed = 400 * 1000 / 8 ;
strncpy ( cpi - > sim_vid , " FreeBSD " , SIM_IDLEN ) ;
strncpy ( cpi - > hba_vid , " SBP " , HBA_IDLEN ) ;
strncpy ( cpi - > dev_name , sim - > sim_name , DEV_IDLEN ) ;
cpi - > unit_number = sim - > unit_number ;
cpi - > ccb_h . status = CAM_REQ_CMP ;
xpt_done ( ccb ) ;
break ;
}
case XPT_GET_TRAN_SETTINGS :
{
struct ccb_trans_settings * cts = & ccb - > cts ;
SBP_DEBUG ( 1 )
printf ( " %s:%d:%d XPT_GET_TRAN_SETTINGS:. \n " ,
device_get_nameunit ( sbp - > fd . dev ) ,
ccb - > ccb_h . target_id , ccb - > ccb_h . target_lun ) ;
END_DEBUG
/* Disable disconnect and tagged queuing */
cts - > valid = CCB_TRANS_DISC_VALID | CCB_TRANS_TQ_VALID ;
cts - > flags = 0 ;
cts - > ccb_h . status = CAM_REQ_CMP ;
xpt_done ( ccb ) ;
break ;
}
case XPT_ABORT :
ccb - > ccb_h . status = CAM_UA_ABORT ;
xpt_done ( ccb ) ;
break ;
default :
ccb - > ccb_h . status = CAM_REQ_INVALID ;
xpt_done ( ccb ) ;
break ;
}
return ;
}
static void
sbp_action ( struct cam_sim * sim , union ccb * ccb )
{
int s ;
s = splfw ( ) ;
sbp_action1 ( sim , ccb ) ;
splx ( s ) ;
}
static void
sbp_execute_ocb ( void * arg , bus_dma_segment_t * segments , int seg , int error )
{
int i ;
struct sbp_ocb * ocb ;
struct sbp_ocb * prev ;
union ccb * ccb ;
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bus_dma_segment_t * s ;
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if ( error )
printf ( " sbp_execute_ocb: error=%d \n " , error ) ;
ocb = ( struct sbp_ocb * ) arg ;
if ( seg = = 1 ) {
/* direct pointer */
ocb - > orb [ 3 ] = htonl ( segments [ 0 ] . ds_addr ) ;
ocb - > orb [ 4 ] | = htonl ( segments [ 0 ] . ds_len ) ;
} else if ( seg > 1 ) {
/* page table */
SBP_DEBUG ( 1 )
printf ( " sbp_execute_ocb: seg %d " , seg ) ;
for ( i = 0 ; i < seg ; i + + )
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printf ( " , %tx:%zd " , segments [ i ] . ds_addr ,
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segments [ i ] . ds_len ) ;
printf ( " \n " ) ;
END_DEBUG
for ( i = 0 ; i < seg ; i + + ) {
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s = & segments [ i ] ;
# if 1 /* XXX LSI Logic "< 16 byte" bug might be hit */
if ( s - > ds_len < 16 )
printf ( " sbp_execute_ocb: warning, "
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" segment length(%zd) is less than 16. "
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" (seg=%d/%d) \n " , s - > ds_len , i + 1 , seg ) ;
# endif
ocb - > ind_ptr [ i ] . hi = htonl ( s - > ds_len < < 16 ) ;
ocb - > ind_ptr [ i ] . lo = htonl ( s - > ds_addr ) ;
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}
ocb - > orb [ 4 ] | = htonl ( ORB_CMD_PTBL | seg ) ;
}
ccb = ocb - > ccb ;
prev = sbp_enqueue_ocb ( ocb - > sdev , ocb ) ;
if ( prev )
sbp_doorbell ( ocb - > sdev ) ;
else
sbp_orb_pointer ( ocb - > sdev , ocb ) ;
}
static void
sbp_poll ( struct cam_sim * sim )
{
/* should call fwohci_intr? */
return ;
}
static struct sbp_ocb *
sbp_dequeue_ocb ( struct sbp_dev * sdev , u_int32_t orb_lo )
{
struct sbp_ocb * ocb ;
struct sbp_ocb * next ;
int s = splfw ( ) , order = 0 ;
int flags ;
for ( ocb = STAILQ_FIRST ( & sdev - > ocbs ) ; ocb ! = NULL ; ocb = next ) {
next = STAILQ_NEXT ( ocb , ocb ) ;
flags = ocb - > flags ;
SBP_DEBUG ( 1 )
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printf ( " orb: 0x%tx next: 0x%x, flags %x \n " ,
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vtophys ( & ocb - > orb [ 0 ] ) , ntohl ( ocb - > orb [ 1 ] ) , flags ) ;
END_DEBUG
if ( vtophys ( & ocb - > orb [ 0 ] ) = = orb_lo ) {
/* found */
if ( ocb - > flags & OCB_RESERVED )
ocb - > flags | = OCB_DONE ;
else
STAILQ_REMOVE ( & sdev - > ocbs , ocb , sbp_ocb , ocb ) ;
if ( ocb - > ccb ! = NULL )
untimeout ( sbp_timeout , ( caddr_t ) ocb ,
ocb - > ccb - > ccb_h . timeout_ch ) ;
if ( ocb - > dmamap ! = NULL ) {
bus_dmamap_destroy ( sdev - > target - > sbp - > dmat ,
ocb - > dmamap ) ;
ocb - > dmamap = NULL ;
}
break ;
} else {
if ( ( ocb - > flags & OCB_RESERVED ) & &
( ocb - > flags & OCB_DONE ) ) {
/* next orb must be fetched already */
STAILQ_REMOVE ( & sdev - > ocbs , ocb , sbp_ocb , ocb ) ;
sbp_free_ocb ( sdev - > target - > sbp , ocb ) ;
} else
order + + ;
}
}
splx ( s ) ;
SBP_DEBUG ( 0 )
if ( ocb & & order > 0 ) {
sbp_show_sdev_info ( sdev , 2 ) ;
printf ( " unordered execution order:%d \n " , order ) ;
}
END_DEBUG
return ( ocb ) ;
}
static struct sbp_ocb *
sbp_enqueue_ocb ( struct sbp_dev * sdev , struct sbp_ocb * ocb )
{
int s = splfw ( ) ;
struct sbp_ocb * prev ;
SBP_DEBUG ( 2 )
sbp_show_sdev_info ( sdev , 2 ) ;
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printf ( " sbp_enqueue_ocb orb=0x%tx in physical memory \n " , vtophys ( & ocb - > orb [ 0 ] ) ) ;
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END_DEBUG
prev = STAILQ_LAST ( & sdev - > ocbs , sbp_ocb , ocb ) ;
STAILQ_INSERT_TAIL ( & sdev - > ocbs , ocb , ocb ) ;
if ( ocb - > ccb ! = NULL )
ocb - > ccb - > ccb_h . timeout_ch = timeout ( sbp_timeout , ( caddr_t ) ocb ,
( ocb - > ccb - > ccb_h . timeout * hz ) / 1000 ) ;
if ( prev ! = NULL
& & ( ( prev - > flags & OCB_ACT_MASK ) = = OCB_ACT_CMD )
& & ( ( ocb - > flags & OCB_ACT_MASK ) = = OCB_ACT_CMD ) ) {
SBP_DEBUG ( 1 )
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printf ( " linking chain 0x%tx -> 0x%tx \n " , vtophys ( & prev - > orb [ 0 ] ) ,
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vtophys ( & ocb - > orb [ 0 ] ) ) ;
END_DEBUG
prev - > flags | = OCB_RESERVED ;
prev - > orb [ 1 ] = htonl ( vtophys ( & ocb - > orb [ 0 ] ) ) ;
prev - > orb [ 0 ] = 0 ;
} else {
prev = NULL ;
}
splx ( s ) ;
return prev ;
}
static struct sbp_ocb *
sbp_get_ocb ( struct sbp_softc * sbp )
{
struct sbp_ocb * ocb ;
int s = splfw ( ) ;
ocb = STAILQ_FIRST ( & sbp - > free_ocbs ) ;
if ( ocb = = NULL ) {
printf ( " ocb shortage!!! \n " ) ;
return NULL ;
}
STAILQ_REMOVE ( & sbp - > free_ocbs , ocb , sbp_ocb , ocb ) ;
splx ( s ) ;
ocb - > ccb = NULL ;
return ( ocb ) ;
}
static void
sbp_free_ocb ( struct sbp_softc * sbp , struct sbp_ocb * ocb )
{
#if 0 /* XXX make sure that ocb has ccb */
if ( ( sbp - > flags & SBP_RESOURCE_SHORTAGE ) ! = 0 & &
( ocb - > ccb - > ccb_h . status & CAM_RELEASE_SIMQ ) = = 0 ) {
ocb - > ccb - > ccb_h . status | = CAM_RELEASE_SIMQ ;
sbp - > flags & = ~ SBP_RESOURCE_SHORTAGE ;
}
# else
if ( ( sbp - > flags & SBP_RESOURCE_SHORTAGE ) ! = 0 )
sbp - > flags & = ~ SBP_RESOURCE_SHORTAGE ;
# endif
ocb - > flags = 0 ;
ocb - > ccb = NULL ;
STAILQ_INSERT_TAIL ( & sbp - > free_ocbs , ocb , ocb ) ;
}
static void
sbp_abort_ocb ( struct sbp_ocb * ocb , int status )
{
struct sbp_dev * sdev ;
sdev = ocb - > sdev ;
SBP_DEBUG ( 0 )
sbp_show_sdev_info ( sdev , 2 ) ;
printf ( " sbp_abort_ocb 0x%x \n " , status ) ;
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if ( ocb - > ccb ! = NULL )
sbp_print_scsi_cmd ( ocb ) ;
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END_DEBUG
if ( ocb - > ccb ! = NULL & & ! ( ocb - > flags & OCB_DONE ) ) {
if ( status ! = CAM_CMD_TIMEOUT )
untimeout ( sbp_timeout , ( caddr_t ) ocb ,
ocb - > ccb - > ccb_h . timeout_ch ) ;
ocb - > ccb - > ccb_h . status = status ;
xpt_done ( ocb - > ccb ) ;
}
if ( ocb - > dmamap ! = NULL ) {
bus_dmamap_destroy ( sdev - > target - > sbp - > dmat , ocb - > dmamap ) ;
ocb - > dmamap = NULL ;
}
sbp_free_ocb ( sdev - > target - > sbp , ocb ) ;
}
static void
sbp_abort_all_ocbs ( struct sbp_dev * sdev , int status )
{
int s ;
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struct sbp_ocb * ocb , * next ;
STAILQ_HEAD ( , sbp_ocb ) temp ;
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s = splfw ( ) ;
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bcopy ( & sdev - > ocbs , & temp , sizeof ( temp ) ) ;
STAILQ_INIT ( & sdev - > ocbs ) ;
for ( ocb = STAILQ_FIRST ( & temp ) ; ocb ! = NULL ; ocb = next ) {
next = STAILQ_NEXT ( ocb , ocb ) ;
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sbp_abort_ocb ( ocb , status ) ;
}
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splx ( s ) ;
}
static devclass_t sbp_devclass ;
static device_method_t sbp_methods [ ] = {
/* device interface */
DEVMETHOD ( device_identify , sbp_identify ) ,
DEVMETHOD ( device_probe , sbp_probe ) ,
DEVMETHOD ( device_attach , sbp_attach ) ,
DEVMETHOD ( device_detach , sbp_detach ) ,
{ 0 , 0 }
} ;
static driver_t sbp_driver = {
" sbp " ,
sbp_methods ,
sizeof ( struct sbp_softc ) ,
} ;
DRIVER_MODULE ( sbp , firewire , sbp_driver , sbp_devclass , 0 , 0 ) ;
MODULE_VERSION ( sbp , 1 ) ;
MODULE_DEPEND ( sbp , firewire , 1 , 1 , 1 ) ;
MODULE_DEPEND ( sbp , cam , 1 , 1 , 1 ) ;