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Kirill Smelkov
linux
Commits
f4f8a039
Commit
f4f8a039
authored
May 02, 2002
by
Linus Torvalds
Browse files
Options
Browse Files
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Plain Diff
Manual merge of minor syntax clash
parents
dc0a81a9
4f70b416
Changes
33
Show whitespace changes
Inline
Side-by-side
Showing
33 changed files
with
1532 additions
and
642 deletions
+1532
-642
Documentation/usb/usb-serial.txt
Documentation/usb/usb-serial.txt
+3
-3
drivers/scsi/sd.c
drivers/scsi/sd.c
+7
-2
drivers/usb/class/printer.c
drivers/usb/class/printer.c
+11
-2
drivers/usb/host/ohci-hub.c
drivers/usb/host/ohci-hub.c
+1
-3
drivers/usb/host/ohci-q.c
drivers/usb/host/ohci-q.c
+10
-2
drivers/usb/image/mdc800.c
drivers/usb/image/mdc800.c
+6
-1
drivers/usb/image/scanner.c
drivers/usb/image/scanner.c
+8
-1
drivers/usb/input/hiddev.c
drivers/usb/input/hiddev.c
+7
-1
drivers/usb/media/dabusb.c
drivers/usb/media/dabusb.c
+5
-1
drivers/usb/media/ibmcam.c
drivers/usb/media/ibmcam.c
+13
-10
drivers/usb/media/konicawc.c
drivers/usb/media/konicawc.c
+2
-1
drivers/usb/media/ultracam.c
drivers/usb/media/ultracam.c
+8
-10
drivers/usb/media/usbvideo.c
drivers/usb/media/usbvideo.c
+30
-24
drivers/usb/media/usbvideo.h
drivers/usb/media/usbvideo.h
+2
-1
drivers/usb/misc/auerswald.c
drivers/usb/misc/auerswald.c
+7
-1
drivers/usb/misc/brlvger.c
drivers/usb/misc/brlvger.c
+7
-1
drivers/usb/net/pegasus.c
drivers/usb/net/pegasus.c
+7
-8
drivers/usb/serial/Config.help
drivers/usb/serial/Config.help
+3
-3
drivers/usb/serial/Config.in
drivers/usb/serial/Config.in
+1
-1
drivers/usb/serial/io_tables.h
drivers/usb/serial/io_tables.h
+26
-0
drivers/usb/serial/io_usbvend.h
drivers/usb/serial/io_usbvend.h
+14
-0
drivers/usb/serial/ipaq.c
drivers/usb/serial/ipaq.c
+6
-1
drivers/usb/serial/ipaq.h
drivers/usb/serial/ipaq.h
+3
-0
drivers/usb/serial/pl2303.c
drivers/usb/serial/pl2303.c
+8
-4
drivers/usb/storage/Config.help
drivers/usb/storage/Config.help
+7
-3
drivers/usb/storage/Config.in
drivers/usb/storage/Config.in
+1
-1
drivers/usb/storage/debug.c
drivers/usb/storage/debug.c
+1
-0
drivers/usb/storage/initializers.h
drivers/usb/storage/initializers.h
+5
-0
drivers/usb/storage/jumpshot.c
drivers/usb/storage/jumpshot.c
+1
-1
drivers/usb/storage/sddr09.c
drivers/usb/storage/sddr09.c
+1307
-552
drivers/usb/storage/sddr09.h
drivers/usb/storage/sddr09.h
+4
-0
drivers/usb/storage/unusual_devs.h
drivers/usb/storage/unusual_devs.h
+2
-2
drivers/usb/usb-skeleton.c
drivers/usb/usb-skeleton.c
+9
-2
No files found.
Documentation/usb/usb-serial.txt
View file @
f4f8a039
...
...
@@ -95,10 +95,10 @@ HandSpring Visor, Palm USB, and Cli
Kroah-Hartman at greg@kroah.com
Compaq iPAQ
and HP Jornada
driver
Compaq iPAQ
, HP Jornada and Casio EM500
driver
This driver can be used to connect to Compaq iPAQ
and HP Jornada PDAs
running Windows CE 3.0 or PocketPC 2002 using a USB cable/cradle. It
This driver can be used to connect to Compaq iPAQ
, HP Jornada and Casio EM500
PDAs
running Windows CE 3.0 or PocketPC 2002 using a USB cable/cradle. It
has been tested only on the Compaq H3135, but is rumoured to work on
with the H3600 and later models as well as the Jornada 548 and 568.
With minor modifications, it may work for other CE based handhelds too.
...
...
drivers/scsi/sd.c
View file @
f4f8a039
...
...
@@ -1141,6 +1141,10 @@ static int sd_init_onedisk(Scsi_Disk * sdkp, int dsk_nr)
* we're only interested in the header anyway, this should
* be fine.
* -- Matthew Dharm (mdharm-scsi@one-eyed-alien.net)
*
* As it turns out, some devices return an error for
* every MODE_SENSE request except one for page 0.
* So, we should also try that. --aeb
*/
memset
((
void
*
)
&
cmd
[
0
],
0
,
8
);
...
...
@@ -1161,8 +1165,9 @@ static int sd_init_onedisk(Scsi_Disk * sdkp, int dsk_nr)
the_result
=
SRpnt
->
sr_result
;
if
(
the_result
)
{
printk
(
KERN_NOTICE
"%s: test WP failed, assume "
"Write Enabled
\n
"
,
nbuff
);
printk
(
"%s: test WP failed, assume Write Enabled
\n
"
,
nbuff
);
/* alternatively, try page 0 */
}
else
{
sdkp
->
write_prot
=
((
buffer
[
2
]
&
0x80
)
!=
0
);
printk
(
KERN_NOTICE
"%s: Write Protect is %s
\n
"
,
nbuff
,
...
...
drivers/usb/class/printer.c
View file @
f4f8a039
...
...
@@ -794,6 +794,7 @@ static void *usblp_probe(struct usb_device *dev, unsigned int ifnum,
{
struct
usblp
*
usblp
=
0
;
int
protocol
;
int
retval
;
char
name
[
6
];
/* Malloc and start initializing usblp structure so we can use it
...
...
@@ -808,7 +809,12 @@ static void *usblp_probe(struct usb_device *dev, unsigned int ifnum,
init_waitqueue_head
(
&
usblp
->
wait
);
usblp
->
ifnum
=
ifnum
;
if
(
usb_register_dev
(
&
usblp_driver
,
1
,
&
usblp
->
minor
))
{
retval
=
usb_register_dev
(
&
usblp_driver
,
1
,
&
usblp
->
minor
);
if
(
retval
)
{
if
(
retval
!=
-
ENODEV
)
{
err
(
"Not able to get a minor for this device."
);
goto
abort
;
}
/* Look for a free usblp_table entry on our own. */
while
(
usblp_table
[
usblp
->
minor
])
{
usblp
->
minor
++
;
...
...
@@ -871,6 +877,9 @@ static void *usblp_probe(struct usb_device *dev, unsigned int ifnum,
usblp_check_status
(
usblp
,
0
);
#endif
/* add a table entry so the device works when advertised */
usblp_table
[
usblp
->
minor
]
=
usblp
;
/* If we have devfs, create with perms=660. */
sprintf
(
name
,
"lp%d"
,
usblp
->
minor
);
usblp
->
devfs
=
devfs_register
(
usb_devfs_handle
,
name
,
...
...
@@ -886,7 +895,7 @@ static void *usblp_probe(struct usb_device *dev, unsigned int ifnum,
usblp
->
current_protocol
,
usblp
->
dev
->
descriptor
.
idVendor
,
usblp
->
dev
->
descriptor
.
idProduct
);
return
usblp
_table
[
usblp
->
minor
]
=
usblp
;
return
usblp
;
abort:
if
(
usblp
)
{
...
...
drivers/usb/host/ohci-hub.c
View file @
f4f8a039
...
...
@@ -154,12 +154,10 @@ static int ohci_hub_control (
u16
wLength
)
{
struct
ohci_hcd
*
ohci
=
hcd_to_ohci
(
hcd
);
int
ports
;
int
ports
=
hcd
->
self
.
root_hub
->
maxchild
;
u32
temp
;
int
retval
=
0
;
// if (port request)
ports
=
roothub_a
(
ohci
)
&
RH_A_NDP
;
switch
(
typeReq
)
{
case
ClearHubFeature
:
switch
(
wValue
)
{
...
...
drivers/usb/host/ohci-q.c
View file @
f4f8a039
...
...
@@ -569,6 +569,9 @@ td_fill (struct ohci_hcd *ohci, unsigned int info,
td
->
hwNextTD
=
cpu_to_le32
(
td_pt
->
td_dma
);
td
->
hwPSW
[
0
]
=
cpu_to_le16
((
data
&
0x0FFF
)
|
0xE000
);
/* HC might read the TD right after we link it ... */
wmb
();
/* append to queue */
td
->
ed
->
hwTailP
=
td
->
hwNextTD
;
}
...
...
@@ -641,8 +644,10 @@ static void td_submit_urb (struct urb *urb)
cnt
++
;
}
/* start bulk list */
if
(
!
ohci
->
sleeping
)
if
(
!
ohci
->
sleeping
)
{
wmb
();
writel
(
OHCI_BLF
,
&
ohci
->
regs
->
cmdstatus
);
}
break
;
case
PIPE_INTERRUPT
:
...
...
@@ -654,6 +659,7 @@ static void td_submit_urb (struct urb *urb)
break
;
case
PIPE_CONTROL
:
/* control requests don't use toggle state */
info
=
TD_CC
|
TD_DP_SETUP
|
TD_T_DATA0
;
td_fill
(
ohci
,
info
,
#ifdef CONFIG_PCI
...
...
@@ -678,8 +684,10 @@ static void td_submit_urb (struct urb *urb)
:
TD_CC
|
TD_DP_OUT
|
TD_T_DATA1
;
td_fill
(
ohci
,
info
,
data
,
0
,
urb
,
cnt
++
);
/* start control list */
if
(
!
ohci
->
sleeping
)
if
(
!
ohci
->
sleeping
)
{
wmb
();
writel
(
OHCI_CLF
,
&
ohci
->
regs
->
cmdstatus
);
}
break
;
case
PIPE_ISOCHRONOUS
:
...
...
drivers/usb/image/mdc800.c
View file @
f4f8a039
...
...
@@ -411,6 +411,7 @@ static void* mdc800_usb_probe (struct usb_device *dev ,unsigned int ifnum,
int
i
,
j
;
struct
usb_interface_descriptor
*
intf_desc
;
int
irq_interval
=
0
;
int
retval
;
dbg
(
"(mdc800_usb_probe) called."
);
...
...
@@ -475,7 +476,11 @@ static void* mdc800_usb_probe (struct usb_device *dev ,unsigned int ifnum,
down
(
&
mdc800
->
io_lock
);
usb_register_dev
(
&
mdc800_usb_driver
,
1
,
&
mdc800
->
minor
);
retval
=
usb_register_dev
(
&
mdc800_usb_driver
,
1
,
&
mdc800
->
minor
);
if
(
retval
&&
(
retval
!=
-
ENODEV
))
{
err
(
"Not able to get a minor for this device."
);
return
0
;
}
mdc800
->
dev
=
dev
;
mdc800
->
open
=
0
;
...
...
drivers/usb/image/scanner.c
View file @
f4f8a039
...
...
@@ -812,6 +812,7 @@ probe_scanner(struct usb_device *dev, unsigned int ifnum,
int
ep_cnt
;
int
ix
;
int
scn_minor
;
int
retval
;
char
valid_device
=
0
;
char
have_bulk_in
,
have_bulk_out
,
have_intr
;
...
...
@@ -953,7 +954,13 @@ probe_scanner(struct usb_device *dev, unsigned int ifnum,
down
(
&
scn_mutex
);
if
(
usb_register_dev
(
&
scanner_driver
,
1
,
&
scn_minor
))
{
retval
=
usb_register_dev
(
&
scanner_driver
,
1
,
&
scn_minor
);
if
(
retval
)
{
if
(
retval
!=
-
ENODEV
)
{
err
(
"Not able to get a minor for this device."
);
up
(
&
scn_mutex
);
return
NULL
;
}
for
(
scn_minor
=
0
;
scn_minor
<
SCN_MAX_MNR
;
scn_minor
++
)
{
if
(
!
p_scn_table
[
scn_minor
])
break
;
...
...
drivers/usb/input/hiddev.c
View file @
f4f8a039
...
...
@@ -606,6 +606,7 @@ int hiddev_connect(struct hid_device *hid)
{
struct
hiddev
*
hiddev
;
int
minor
,
i
;
int
retval
;
char
devfs_name
[
16
];
for
(
i
=
0
;
i
<
hid
->
maxapplication
;
i
++
)
...
...
@@ -615,7 +616,12 @@ int hiddev_connect(struct hid_device *hid)
if
(
i
==
hid
->
maxapplication
)
return
-
1
;
if
(
usb_register_dev
(
&
hiddev_driver
,
1
,
&
minor
))
{
retval
=
usb_register_dev
(
&
hiddev_driver
,
1
,
&
minor
);
if
(
retval
)
{
if
(
retval
!=
-
ENODEV
)
{
err
(
"Not able to get a minor for this device."
);
return
-
1
;
}
for
(
minor
=
0
;
minor
<
HIDDEV_MINORS
&&
hiddev_table
[
minor
];
minor
++
);
if
(
minor
==
HIDDEV_MINORS
)
{
printk
(
KERN_ERR
"hiddev: no more free hiddev devices
\n
"
);
...
...
drivers/usb/media/dabusb.c
View file @
f4f8a039
...
...
@@ -727,6 +727,7 @@ static void *dabusb_probe (struct usb_device *usbdev, unsigned int ifnum,
const
struct
usb_device_id
*
id
)
{
int
devnum
;
int
retval
;
pdabusb_t
s
;
dbg
(
"dabusb: probe: vendor id 0x%x, device id 0x%x ifnum:%d"
,
...
...
@@ -739,7 +740,10 @@ static void *dabusb_probe (struct usb_device *usbdev, unsigned int ifnum,
if
(
ifnum
!=
_DABUSB_IF
&&
usbdev
->
descriptor
.
idProduct
==
0x9999
)
return
NULL
;
if
(
usb_register_dev
(
&
dabusb_driver
,
1
,
&
devnum
))
{
retval
=
usb_register_dev
(
&
dabusb_driver
,
1
,
&
devnum
);
if
(
retval
)
{
if
(
retval
!=
-
ENODEV
)
return
NULL
;
devnum
=
dabusb_find_struct
();
if
(
devnum
==
-
1
)
return
NULL
;
...
...
drivers/usb/media/ibmcam.c
View file @
f4f8a039
...
...
@@ -3899,6 +3899,17 @@ static void *ibmcam_probe(struct usb_device *dev, unsigned int ifnum, const stru
return
uvd
;
}
static
struct
usb_device_id
id_table
[]
=
{
{
USB_DEVICE_VER
(
IBMCAM_VENDOR_ID
,
IBMCAM_PRODUCT_ID
,
0x0002
,
0x0002
)
},
/* Model 1 */
{
USB_DEVICE_VER
(
IBMCAM_VENDOR_ID
,
IBMCAM_PRODUCT_ID
,
0x030a
,
0x030a
)
},
/* Model 2 */
{
USB_DEVICE_VER
(
IBMCAM_VENDOR_ID
,
IBMCAM_PRODUCT_ID
,
0x0301
,
0x0301
)
},
/* Model 3 */
{
USB_DEVICE_VER
(
IBMCAM_VENDOR_ID
,
NETCAM_PRODUCT_ID
,
0x030a
,
0x030a
)
},
/* Model 4 */
{
USB_DEVICE_VER
(
IBMCAM_VENDOR_ID
,
VEO_800C_PRODUCT_ID
,
0x030a
,
0x030a
)
},
/* Model 2 */
{
USB_DEVICE_VER
(
IBMCAM_VENDOR_ID
,
VEO_800D_PRODUCT_ID
,
0x030a
,
0x030a
)
},
/* Model 4 */
{
}
/* Terminating entry */
};
/*
* ibmcam_init()
*
...
...
@@ -3926,7 +3937,8 @@ static int __init ibmcam_init(void)
sizeof
(
ibmcam_t
),
"ibmcam"
,
&
cbTbl
,
THIS_MODULE
);
THIS_MODULE
,
id_table
);
}
static
void
__exit
ibmcam_cleanup
(
void
)
...
...
@@ -3934,15 +3946,6 @@ static void __exit ibmcam_cleanup(void)
usbvideo_Deregister
(
&
cams
);
}
static
__devinitdata
struct
usb_device_id
id_table
[]
=
{
{
USB_DEVICE_VER
(
IBMCAM_VENDOR_ID
,
IBMCAM_PRODUCT_ID
,
0x0002
,
0x0002
)
},
/* Model 1 */
{
USB_DEVICE_VER
(
IBMCAM_VENDOR_ID
,
IBMCAM_PRODUCT_ID
,
0x030a
,
0x030a
)
},
/* Model 2 */
{
USB_DEVICE_VER
(
IBMCAM_VENDOR_ID
,
IBMCAM_PRODUCT_ID
,
0x0301
,
0x0301
)
},
/* Model 3 */
{
USB_DEVICE_VER
(
IBMCAM_VENDOR_ID
,
NETCAM_PRODUCT_ID
,
0x030a
,
0x030a
)
},
/* Model 4 */
{
USB_DEVICE_VER
(
IBMCAM_VENDOR_ID
,
VEO_800C_PRODUCT_ID
,
0x030a
,
0x030a
)
},
/* Model 2 */
{
USB_DEVICE_VER
(
IBMCAM_VENDOR_ID
,
VEO_800D_PRODUCT_ID
,
0x030a
,
0x030a
)
},
/* Model 4 */
{
}
/* Terminating entry */
};
MODULE_DEVICE_TABLE
(
usb
,
id_table
);
module_init
(
ibmcam_init
);
...
...
drivers/usb/media/konicawc.c
View file @
f4f8a039
...
...
@@ -767,7 +767,8 @@ static int __init konicawc_init(void)
sizeof
(
struct
konicawc
),
"konicawc"
,
&
cbTbl
,
THIS_MODULE
);
THIS_MODULE
,
id_table
);
}
...
...
drivers/usb/media/ultracam.c
View file @
f4f8a039
...
...
@@ -659,6 +659,12 @@ static void *ultracam_probe(struct usb_device *dev, unsigned int ifnum ,const st
return
uvd
;
}
static
struct
usb_device_id
id_table
[]
=
{
{
USB_DEVICE
(
ULTRACAM_VENDOR_ID
,
ULTRACAM_PRODUCT_ID
)
},
{
}
/* Terminating entry */
};
/*
* ultracam_init()
*
...
...
@@ -682,7 +688,8 @@ static int __init ultracam_init(void)
sizeof
(
ultracam_t
),
"ultracam"
,
&
cbTbl
,
THIS_MODULE
);
THIS_MODULE
,
id_table
);
}
static
void
__exit
ultracam_cleanup
(
void
)
...
...
@@ -690,16 +697,7 @@ static void __exit ultracam_cleanup(void)
usbvideo_Deregister
(
&
cams
);
}
#if defined(usb_device_id_ver)
static
__devinitdata
struct
usb_device_id
id_table
[]
=
{
{
USB_DEVICE
(
ULTRACAM_VENDOR_ID
,
ULTRACAM_PRODUCT_ID
)
},
{
}
/* Terminating entry */
};
MODULE_DEVICE_TABLE
(
usb
,
id_table
);
#endif
/* defined(usb_device_id_ver) */
MODULE_LICENSE
(
"GPL"
);
module_init
(
ultracam_init
);
...
...
drivers/usb/media/usbvideo.c
View file @
f4f8a039
...
...
@@ -749,7 +749,8 @@ int usbvideo_register(
const
int
num_extra
,
const
char
*
driverName
,
const
usbvideo_cb_t
*
cbTbl
,
struct
module
*
md
)
struct
module
*
md
,
const
struct
usb_device_id
*
id_table
)
{
static
const
char
proc
[]
=
"usbvideo_register"
;
usbvideo_t
*
cams
;
...
...
@@ -839,6 +840,7 @@ int usbvideo_register(
cams
->
usbdrv
.
name
=
cams
->
drvName
;
cams
->
usbdrv
.
probe
=
cams
->
cb
.
probe
;
cams
->
usbdrv
.
disconnect
=
cams
->
cb
.
disconnect
;
cams
->
usbdrv
.
id_table
=
id_table
;
#if USES_PROC_FS
if
(
cams
->
uses_procfs
)
{
...
...
@@ -1192,7 +1194,7 @@ static int usbvideo_v4l_mmap(struct file *file, struct vm_area_struct *vma)
if
(
!
CAMERA_IS_OPERATIONAL
(
uvd
))
return
-
EFAULT
;
if
(
size
>
(((
2
*
uvd
->
max_frame_size
)
+
PAGE_SIZE
-
1
)
&
~
(
PAGE_SIZE
-
1
)))
if
(
size
>
(((
USBVIDEO_NUMFRAMES
*
uvd
->
max_frame_size
)
+
PAGE_SIZE
-
1
)
&
~
(
PAGE_SIZE
-
1
)))
return
-
EINVAL
;
pos
=
(
unsigned
long
)
uvd
->
fbuf
;
...
...
@@ -1471,12 +1473,14 @@ static int usbvideo_v4l_do_ioctl(struct inode *inode, struct file *file,
case
VIDIOCGMBUF
:
{
struct
video_mbuf
*
vm
=
arg
;
int
i
;
memset
(
vm
,
0
,
sizeof
(
*
vm
));
vm
->
size
=
uvd
->
max_frame_size
*
2
;
vm
->
frames
=
2
;
vm
->
offsets
[
0
]
=
0
;
vm
->
offsets
[
1
]
=
uvd
->
max_frame_size
;
vm
->
size
=
uvd
->
max_frame_size
*
USBVIDEO_NUMFRAMES
;
vm
->
frames
=
USBVIDEO_NUMFRAMES
;
for
(
i
=
0
;
i
<
USBVIDEO_NUMFRAMES
;
i
++
)
vm
->
offsets
[
i
]
=
i
*
uvd
->
max_frame_size
;
return
0
;
}
case
VIDIOCMCAPTURE
:
...
...
@@ -1518,8 +1522,8 @@ static int usbvideo_v4l_do_ioctl(struct inode *inode, struct file *file,
}
return
-
EINVAL
;
}
if
((
vm
->
frame
!=
0
)
&&
(
vm
->
frame
!=
1
))
{
err
(
"VIDIOCMCAPTURE: vm.frame=%d. !E [0
,1]"
,
vm
->
frame
);
if
((
vm
->
frame
<
0
)
||
(
vm
->
frame
>=
USBVIDEO_NUMFRAMES
))
{
err
(
"VIDIOCMCAPTURE: vm.frame=%d. !E [0
-%d]"
,
vm
->
frame
,
USBVIDEO_NUMFRAMES
-
1
);
return
-
EINVAL
;
}
if
(
uvd
->
frame
[
vm
->
frame
].
frameState
==
FrameState_Grabbing
)
{
...
...
@@ -1618,7 +1622,7 @@ static int usbvideo_v4l_read(struct file *file, char *buf,
static
const
char
proc
[]
=
"usbvideo_v4l_read"
;
uvd_t
*
uvd
=
file
->
private_data
;
int
noblock
=
file
->
f_flags
&
O_NONBLOCK
;
int
frmx
=
-
1
;
int
frmx
=
-
1
,
i
;
usbvideo_frame_t
*
frame
;
if
(
!
CAMERA_IS_OPERATIONAL
(
uvd
)
||
(
buf
==
NULL
))
...
...
@@ -1630,14 +1634,13 @@ static int usbvideo_v4l_read(struct file *file, char *buf,
down
(
&
uvd
->
lock
);
/* See if a frame is completed, then use it. */
if
((
uvd
->
frame
[
0
].
frameState
==
FrameState_Done
)
||
(
uvd
->
frame
[
0
].
frameState
==
FrameState_Done_Hold
)
||
(
uvd
->
frame
[
0
].
frameState
==
FrameState_Error
))
{
frmx
=
0
;
}
else
if
((
uvd
->
frame
[
1
].
frameState
>=
FrameState_Done
)
||
(
uvd
->
frame
[
1
].
frameState
==
FrameState_Done_Hold
)
||
(
uvd
->
frame
[
1
].
frameState
>=
FrameState_Done
))
{
frmx
=
1
;
for
(
i
=
0
;
i
<
USBVIDEO_NUMFRAMES
;
i
++
)
{
if
((
uvd
->
frame
[
i
].
frameState
==
FrameState_Done
)
||
(
uvd
->
frame
[
i
].
frameState
==
FrameState_Done_Hold
)
||
(
uvd
->
frame
[
i
].
frameState
==
FrameState_Error
))
{
frmx
=
i
;
break
;
}
}
/* FIXME: If we don't start a frame here then who ever does? */
...
...
@@ -1652,10 +1655,12 @@ static int usbvideo_v4l_read(struct file *file, char *buf,
* We will need to wait until it becomes cooked, of course.
*/
if
(
frmx
==
-
1
)
{
if
(
uvd
->
frame
[
0
].
frameState
==
FrameState_Grabbing
)
frmx
=
0
;
else
if
(
uvd
->
frame
[
1
].
frameState
==
FrameState_Grabbing
)
frmx
=
1
;
for
(
i
=
0
;
i
<
USBVIDEO_NUMFRAMES
;
i
++
)
{
if
(
uvd
->
frame
[
i
].
frameState
==
FrameState_Grabbing
)
{
frmx
=
i
;
break
;
}
}
}
/*
...
...
@@ -1753,7 +1758,7 @@ static int usbvideo_v4l_read(struct file *file, char *buf,
/* Mark it as available to be used again. */
uvd
->
frame
[
frmx
].
frameState
=
FrameState_Unused
;
if
(
usbvideo_NewFrame
(
uvd
,
frmx
?
0
:
1
))
{
if
(
usbvideo_NewFrame
(
uvd
,
(
frmx
+
1
)
%
USBVIDEO_NUMFRAMES
))
{
err
(
"%s: usbvideo_NewFrame failed."
,
proc
);
}
}
...
...
@@ -1990,7 +1995,7 @@ static int usbvideo_NewFrame(uvd_t *uvd, int framenum)
uvd
->
settingsAdjusted
=
1
;
}
n
=
(
framenum
-
1
+
USBVIDEO_NUMFRAMES
)
%
USBVIDEO_NUMFRAMES
;
n
=
(
framenum
+
1
)
%
USBVIDEO_NUMFRAMES
;
if
(
uvd
->
frame
[
n
].
frameState
==
FrameState_Ready
)
framenum
=
n
;
...
...
@@ -2022,7 +2027,8 @@ static int usbvideo_NewFrame(uvd_t *uvd, int framenum)
*/
if
(
!
(
uvd
->
flags
&
FLAGS_SEPARATE_FRAMES
))
{
/* This copies previous frame into this one to mask losses */
memmove
(
frame
->
data
,
uvd
->
frame
[
1
-
framenum
].
data
,
uvd
->
max_frame_size
);
int
prev
=
(
framenum
-
1
+
USBVIDEO_NUMFRAMES
)
%
USBVIDEO_NUMFRAMES
;
memmove
(
frame
->
data
,
uvd
->
frame
[
prev
].
data
,
uvd
->
max_frame_size
);
}
else
{
if
(
uvd
->
flags
&
FLAGS_CLEAN_FRAMES
)
{
/* This provides a "clean" frame but slows things down */
...
...
drivers/usb/media/usbvideo.h
View file @
f4f8a039
...
...
@@ -327,7 +327,8 @@ int usbvideo_register(
const
int
num_extra
,
const
char
*
driverName
,
const
usbvideo_cb_t
*
cbTable
,
struct
module
*
md
);
struct
module
*
md
,
const
struct
usb_device_id
*
id_table
);
uvd_t
*
usbvideo_AllocateDevice
(
usbvideo_t
*
cams
);
int
usbvideo_RegisterVideoDevice
(
uvd_t
*
uvd
);
void
usbvideo_Deregister
(
usbvideo_t
**
uvt
);
...
...
drivers/usb/misc/auerswald.c
View file @
f4f8a039
...
...
@@ -1948,7 +1948,13 @@ static void *auerswald_probe (struct usb_device *usbdev, unsigned int ifnum,
init_waitqueue_head
(
&
cp
->
bufferwait
);
down
(
&
dev_table_mutex
);
if
(
usb_register_dev
(
&
auerswald_driver
,
1
,
&
dtindex
))
{
ret
=
usb_register_dev
(
&
auerswald_driver
,
1
,
&
dtindex
);
if
(
ret
)
{
if
(
ret
!=
-
ENODEV
)
{
err
(
"Not able to get a minor for this device."
);
up
(
&
dev_table_mutex
);
goto
pfail
;
}
/* find a free slot in the device table */
for
(
dtindex
=
0
;
dtindex
<
AUER_MAX_DEVICES
;
++
dtindex
)
{
if
(
dev_table
[
dtindex
]
==
NULL
)
...
...
drivers/usb/misc/brlvger.c
View file @
f4f8a039
...
...
@@ -290,6 +290,7 @@ brlvger_probe (struct usb_device *dev, unsigned ifnum,
{
struct
brlvger_priv
*
priv
=
NULL
;
int
i
;
int
retval
;
struct
usb_endpoint_descriptor
*
endpoint
;
struct
usb_interface_descriptor
*
actifsettings
;
/* protects against reentrance: once we've found a free slot
...
...
@@ -315,7 +316,12 @@ brlvger_probe (struct usb_device *dev, unsigned ifnum,
down
(
&
reserve_sem
);
if
(
usb_register_dev
(
&
brlvger_driver
,
1
,
&
i
))
{
retval
=
usb_register_dev
(
&
brlvger_driver
,
1
,
&
i
);
if
(
retval
)
{
if
(
retval
!=
-
ENODEV
)
{
err
(
"Not able to get a minor for this device."
);
goto
error
;
}
for
(
i
=
0
;
i
<
MAX_NR_BRLVGER_DEVS
;
i
++
)
if
(
display_table
[
i
]
==
NULL
)
break
;
...
...
drivers/usb/net/pegasus.c
View file @
f4f8a039
...
...
@@ -62,6 +62,8 @@
#define DRIVER_AUTHOR "Petko Manolov <petkan@users.sourceforge.net>"
#define DRIVER_DESC "Pegasus/Pegasus II USB Ethernet driver"
static
const
char
driver_name
[]
=
"pegasus"
;
#define PEGASUS_USE_INTR
#define PEGASUS_WRITE_EEPROM
#define BMSR_MEDIA (BMSR_10HALF | BMSR_10FULL | BMSR_100HALF | \
...
...
@@ -811,7 +813,6 @@ static int pegasus_ethtool_ioctl(struct net_device *net, void *uaddr)
{
pegasus_t
*
pegasus
;
int
cmd
;
char
tmp
[
128
];
pegasus
=
net
->
priv
;
if
(
get_user
(
cmd
,
(
int
*
)
uaddr
))
...
...
@@ -819,12 +820,11 @@ static int pegasus_ethtool_ioctl(struct net_device *net, void *uaddr)
switch
(
cmd
)
{
case
ETHTOOL_GDRVINFO
:{
struct
ethtool_drvinfo
info
=
{
ETHTOOL_GDRVINFO
};
strncpy
(
info
.
driver
,
DRIVER_DESC
,
ETHTOOL_BUSINFO_LEN
);
strncpy
(
info
.
driver
,
driver_name
,
sizeof
info
.
driver
);
strncpy
(
info
.
version
,
DRIVER_VERSION
,
ETHTOOL_BUSINFO_LEN
);
sprintf
(
tmp
,
"usb%d:%d"
,
pegasus
->
usb
->
bus
->
busnum
,
pegasus
->
usb
->
devnum
);
strncpy
(
info
.
bus_info
,
tmp
,
ETHTOOL_BUSINFO_LEN
);
usb_make_path
(
pegasus
->
usb
,
info
.
bus_info
,
sizeof
info
.
bus_info
);
if
(
copy_to_user
(
uaddr
,
&
info
,
sizeof
(
info
)))
return
-
EFAULT
;
return
0
;
...
...
@@ -833,8 +833,7 @@ static int pegasus_ethtool_ioctl(struct net_device *net, void *uaddr)
struct
ethtool_cmd
ecmd
;
short
lpa
,
bmcr
;
if
(
copy_from_user
(
&
ecmd
,
uaddr
,
sizeof
(
ecmd
)))
return
-
EFAULT
;
memset
(
&
ecmd
,
0
,
sizeof
ecmd
);
ecmd
.
supported
=
(
SUPPORTED_10baseT_Half
|
SUPPORTED_10baseT_Full
|
SUPPORTED_100baseT_Half
|
...
...
@@ -1104,7 +1103,7 @@ static void pegasus_disconnect(struct usb_device *dev, void *ptr)
}
static
struct
usb_driver
pegasus_driver
=
{
name:
"pegasus"
,
name:
driver_name
,
probe:
pegasus_probe
,
disconnect:
pegasus_disconnect
,
id_table:
pegasus_ids
,
...
...
drivers/usb/serial/Config.help
View file @
f4f8a039
...
...
@@ -60,9 +60,9 @@ CONFIG_USB_SERIAL_VISOR
module, say M here and read <file:Documentation/modules.txt>.
CONFIG_USB_SERIAL_IPAQ
Say Y here if you want to connect to your Compaq iPAQ
or
HP Jornada
548/568
running Windows CE 3.0 or PocketPC 2002 using a USB
cradle/cable. For information on using the driver,
Say Y here if you want to connect to your Compaq iPAQ
,
HP Jornada
548/568
or Casio EM500 running Windows CE 3.0 or PocketPC 2002
using a USB
cradle/cable. For information on using the driver,
read <file:Documentation/usb/usb-serial.txt>.
This code is also available as a module ( = code which can be
...
...
drivers/usb/serial/Config.in
View file @
f4f8a039
...
...
@@ -16,7 +16,7 @@ dep_tristate ' USB Digi International AccelePort USB Serial Driver' CONFIG_USB_
dep_tristate ' USB Empeg empeg-car Mark I/II Driver' CONFIG_USB_SERIAL_EMPEG $CONFIG_USB_SERIAL
dep_tristate ' USB FTDI Single Port Serial Driver (EXPERIMENTAL)' CONFIG_USB_SERIAL_FTDI_SIO $CONFIG_USB_SERIAL $CONFIG_EXPERIMENTAL
dep_tristate ' USB Handspring Visor / Palm m50x / Sony Clie Driver' CONFIG_USB_SERIAL_VISOR $CONFIG_USB_SERIAL
dep_tristate ' USB Compaq iPAQ / HP Jornada Driver' CONFIG_USB_SERIAL_IPAQ $CONFIG_USB_SERIAL
dep_tristate ' USB Compaq iPAQ / HP Jornada
/ Casio EM500
Driver' CONFIG_USB_SERIAL_IPAQ $CONFIG_USB_SERIAL
dep_tristate ' USB IR Dongle Serial Driver (EXPERIMENTAL)' CONFIG_USB_SERIAL_IR $CONFIG_USB_SERIAL $CONFIG_EXPERIMENTAL
dep_tristate ' USB Inside Out Edgeport Serial Driver' CONFIG_USB_SERIAL_EDGEPORT $CONFIG_USB_SERIAL
dep_tristate ' USB Keyspan PDA Single Port Serial Driver' CONFIG_USB_SERIAL_KEYSPAN_PDA $CONFIG_USB_SERIAL
...
...
drivers/usb/serial/io_tables.h
View file @
f4f8a039
...
...
@@ -25,6 +25,11 @@ static __devinitdata struct usb_device_id edgeport_2port_id_table [] = {
{
USB_DEVICE
(
USB_VENDOR_ID_ION
,
ION_DEVICE_ID_EDGEPORT_421
)
},
{
USB_DEVICE
(
USB_VENDOR_ID_ION
,
ION_DEVICE_ID_EDGEPORT_21
)
},
{
USB_DEVICE
(
USB_VENDOR_ID_ION
,
ION_DEVICE_ID_EDGEPORT_2_DIN
)
},
{
USB_DEVICE
(
USB_VENDOR_ID_ION
,
ION_DEVICE_ID_BB_EDGEPORT_2
)
},
{
USB_DEVICE
(
USB_VENDOR_ID_ION
,
ION_DEVICE_ID_BB_EDGEPORT_2I
)
},
{
USB_DEVICE
(
USB_VENDOR_ID_ION
,
ION_DEVICE_ID_BB_EDGEPORT_421
)
},
{
USB_DEVICE
(
USB_VENDOR_ID_ION
,
ION_DEVICE_ID_BB_EDGEPORT_21
)
},
{
USB_DEVICE
(
USB_VENDOR_ID_ION
,
ION_DEVICE_ID_BB_EDGEPORT_2_DIN
)
},
{
}
};
...
...
@@ -37,6 +42,11 @@ static __devinitdata struct usb_device_id edgeport_4port_id_table [] = {
{
USB_DEVICE
(
USB_VENDOR_ID_ION
,
ION_DEVICE_ID_EDGEPORT_8_DUAL_CPU
)
},
{
USB_DEVICE
(
USB_VENDOR_ID_ION
,
ION_DEVICE_ID_EDGEPORT_4_DIN
)
},
{
USB_DEVICE
(
USB_VENDOR_ID_ION
,
ION_DEVICE_ID_EDGEPORT_COMPATIBLE
)
},
{
USB_DEVICE
(
USB_VENDOR_ID_ION
,
ION_DEVICE_ID_BB_EDGEPORT_4
)
},
{
USB_DEVICE
(
USB_VENDOR_ID_ION
,
ION_DEVICE_ID_BB_EDGEPORT_4T
)
},
{
USB_DEVICE
(
USB_VENDOR_ID_ION
,
ION_DEVICE_ID_BB_EDGEPORT_4I
)
},
{
USB_DEVICE
(
USB_VENDOR_ID_ION
,
ION_DEVICE_ID_BB_EDGEPORT_8_DUAL_CPU
)
},
{
USB_DEVICE
(
USB_VENDOR_ID_ION
,
ION_DEVICE_ID_BB_EDGEPORT_4_DIN
)
},
{
}
};
...
...
@@ -44,6 +54,9 @@ static __devinitdata struct usb_device_id edgeport_8port_id_table [] = {
{
USB_DEVICE
(
USB_VENDOR_ID_ION
,
ION_DEVICE_ID_EDGEPORT_8
)
},
{
USB_DEVICE
(
USB_VENDOR_ID_ION
,
ION_DEVICE_ID_EDGEPORT_16_DUAL_CPU
)
},
{
USB_DEVICE
(
USB_VENDOR_ID_ION
,
ION_DEVICE_ID_EDGEPORT_8I
)
},
{
USB_DEVICE
(
USB_VENDOR_ID_ION
,
ION_DEVICE_ID_BB_EDGEPORT_8
)
},
{
USB_DEVICE
(
USB_VENDOR_ID_ION
,
ION_DEVICE_ID_BB_EDGEPORT_16_DUAL_CPU
)
},
{
USB_DEVICE
(
USB_VENDOR_ID_ION
,
ION_DEVICE_ID_BB_EDGEPORT_8I
)
},
{
}
};
...
...
@@ -66,6 +79,19 @@ static __devinitdata struct usb_device_id id_table_combined [] = {
{
USB_DEVICE
(
USB_VENDOR_ID_ION
,
ION_DEVICE_ID_EDGEPORT_16_DUAL_CPU
)
},
{
USB_DEVICE
(
USB_VENDOR_ID_ION
,
ION_DEVICE_ID_EDGEPORT_COMPATIBLE
)
},
{
USB_DEVICE
(
USB_VENDOR_ID_ION
,
ION_DEVICE_ID_EDGEPORT_8I
)
},
{
USB_DEVICE
(
USB_VENDOR_ID_ION
,
ION_DEVICE_ID_BB_EDGEPORT_2
)
},
{
USB_DEVICE
(
USB_VENDOR_ID_ION
,
ION_DEVICE_ID_BB_EDGEPORT_2I
)
},
{
USB_DEVICE
(
USB_VENDOR_ID_ION
,
ION_DEVICE_ID_BB_EDGEPORT_421
)
},
{
USB_DEVICE
(
USB_VENDOR_ID_ION
,
ION_DEVICE_ID_BB_EDGEPORT_21
)
},
{
USB_DEVICE
(
USB_VENDOR_ID_ION
,
ION_DEVICE_ID_BB_EDGEPORT_2_DIN
)
},
{
USB_DEVICE
(
USB_VENDOR_ID_ION
,
ION_DEVICE_ID_BB_EDGEPORT_4
)
},
{
USB_DEVICE
(
USB_VENDOR_ID_ION
,
ION_DEVICE_ID_BB_EDGEPORT_4T
)
},
{
USB_DEVICE
(
USB_VENDOR_ID_ION
,
ION_DEVICE_ID_BB_EDGEPORT_4I
)
},
{
USB_DEVICE
(
USB_VENDOR_ID_ION
,
ION_DEVICE_ID_BB_EDGEPORT_8_DUAL_CPU
)
},
{
USB_DEVICE
(
USB_VENDOR_ID_ION
,
ION_DEVICE_ID_BB_EDGEPORT_4_DIN
)
},
{
USB_DEVICE
(
USB_VENDOR_ID_ION
,
ION_DEVICE_ID_BB_EDGEPORT_8
)
},
{
USB_DEVICE
(
USB_VENDOR_ID_ION
,
ION_DEVICE_ID_BB_EDGEPORT_16_DUAL_CPU
)
},
{
USB_DEVICE
(
USB_VENDOR_ID_ION
,
ION_DEVICE_ID_BB_EDGEPORT_8I
)
},
{
}
/* Terminating entry */
};
...
...
drivers/usb/serial/io_usbvend.h
View file @
f4f8a039
...
...
@@ -92,6 +92,20 @@
#define ION_DEVICE_ID_EDGEPORT_8I 0x014 // Edgeport/8 RS422 (single-CPU)
#define ION_DEVICE_ID_MT4X56USB 0x1403 // OEM device
// BlackBox OEM devices
#define ION_DEVICE_ID_BB_EDGEPORT_4 0x001 // Edgeport/4 RS232
#define ION_DEVICE_ID_BB_EDGEPORT_4T 0x004 // Edgeport/4 RS232 for Telxon (aka "Fleetport")
#define ION_DEVICE_ID_BB_EDGEPORT_2 0x005 // Edgeport/2 RS232
#define ION_DEVICE_ID_BB_EDGEPORT_4I 0x006 // Edgeport/4 RS422
#define ION_DEVICE_ID_BB_EDGEPORT_2I 0x007 // Edgeport/2 RS422/RS485
#define ION_DEVICE_ID_BB_EDGEPORT_421 0x00C // Edgeport/421 Hub+RS232+Parallel
#define ION_DEVICE_ID_BB_EDGEPORT_21 0x00D // Edgeport/21 RS232+Parallel
#define ION_DEVICE_ID_BB_EDGEPORT_8_DUAL_CPU 0x00E // Half of an Edgeport/8 (the kind with 2 EP/4s on 1 PCB)
#define ION_DEVICE_ID_BB_EDGEPORT_8 0x00F // Edgeport/8 (single-CPU)
#define ION_DEVICE_ID_BB_EDGEPORT_2_DIN 0x010 // Edgeport/2 RS232 with Apple DIN connector
#define ION_DEVICE_ID_BB_EDGEPORT_4_DIN 0x011 // Edgeport/4 RS232 with Apple DIN connector
#define ION_DEVICE_ID_BB_EDGEPORT_16_DUAL_CPU 0x012 // Half of an Edgeport/16 (the kind with 2 EP/8s)
#define ION_DEVICE_ID_BB_EDGEPORT_8I 0x014 // Edgeport/8 RS422 (single-CPU)
// These IDs are used by the Edgeport.exe program for uninstalling.
//
#define EDGEPORT_DEVICE_IDS {0x001, 0x003, 0x004, 0x005, 0x006, 0x007, 0x00B, \
...
...
drivers/usb/serial/ipaq.c
View file @
f4f8a039
...
...
@@ -9,6 +9,10 @@
* the Free Software Foundation; either version 2 of the License, or
* (at your option) any later version.
*
* (30/4/2002) ganesh
* Added support for the Casio EM500. Completely untested. Thanks
* to info from Nathan <wfilardo@fuse.net>
*
* (19/3/2002) ganesh
* Don't submit urbs while holding spinlocks. Not strictly necessary
* in 2.5.x.
...
...
@@ -58,7 +62,7 @@
*/
#define DRIVER_VERSION "v0.2"
#define DRIVER_AUTHOR "Ganesh Varadarajan <ganesh@veritas.com>"
#define DRIVER_DESC "USB Compaq iPAQ, HP Jornada driver"
#define DRIVER_DESC "USB Compaq iPAQ, HP Jornada
, Casio EM500
driver"
/* Function prototypes for an ipaq */
static
int
ipaq_open
(
struct
usb_serial_port
*
port
,
struct
file
*
filp
);
...
...
@@ -81,6 +85,7 @@ static __devinitdata struct usb_device_id ipaq_id_table [] = {
{
USB_DEVICE
(
COMPAQ_VENDOR_ID
,
COMPAQ_IPAQ_ID
)
},
{
USB_DEVICE
(
HP_VENDOR_ID
,
HP_JORNADA_548_ID
)
},
{
USB_DEVICE
(
HP_VENDOR_ID
,
HP_JORNADA_568_ID
)
},
{
USB_DEVICE
(
CASIO_VENDOR_ID
,
CASIO_EM500_ID
)
},
{
}
/* Terminating entry */
};
...
...
drivers/usb/serial/ipaq.h
View file @
f4f8a039
...
...
@@ -23,6 +23,9 @@
#define HP_JORNADA_548_ID 0x1016
#define HP_JORNADA_568_ID 0x1116
#define CASIO_VENDOR_ID 0x07cf
#define CASIO_EM500_ID 0x2002
/*
* Since we can't queue our bulk write urbs (don't know why - it just
* doesn't work), we can send down only one write urb at a time. The simplistic
...
...
drivers/usb/serial/pl2303.c
View file @
f4f8a039
...
...
@@ -142,6 +142,7 @@ static struct usb_serial_device_type pl2303_device = {
struct
pl2303_private
{
u8
line_control
;
u8
termios_initialized
;
};
...
...
@@ -214,13 +215,19 @@ static void pl2303_set_termios (struct usb_serial_port *port, struct termios *ol
int
baud
;
int
i
;
dbg
(
__FUNCTION__
" - port %d"
,
port
->
number
);
dbg
(
__FUNCTION__
" - port %d, initialized = %d"
,
port
->
number
,
((
struct
pl2303_private
*
)
port
->
private
)
->
termios_initialized
);
if
((
!
port
->
tty
)
||
(
!
port
->
tty
->
termios
))
{
dbg
(
__FUNCTION__
" - no tty structures"
);
return
;
}
if
(
!
(((
struct
pl2303_private
*
)
port
->
private
)
->
termios_initialized
))
{
*
(
port
->
tty
->
termios
)
=
tty_std_termios
;
port
->
tty
->
termios
->
c_cflag
=
B9600
|
CS8
|
CREAD
|
HUPCL
|
CLOCAL
;
((
struct
pl2303_private
*
)
port
->
private
)
->
termios_initialized
=
1
;
}
cflag
=
port
->
tty
->
termios
->
c_cflag
;
/* check that they really want us to change something */
if
(
old_termios
)
{
...
...
@@ -390,9 +397,6 @@ static int pl2303_open (struct usb_serial_port *port, struct file *filp)
/* Setup termios */
if
(
port
->
tty
)
{
*
(
port
->
tty
->
termios
)
=
tty_std_termios
;
port
->
tty
->
termios
->
c_cflag
=
B9600
|
CS8
|
CREAD
|
HUPCL
|
CLOCAL
;
pl2303_set_termios
(
port
,
&
tmp_termios
);
}
...
...
drivers/usb/storage/Config.help
View file @
f4f8a039
...
...
@@ -28,11 +28,15 @@ CONFIG_USB_STORAGE_FREECOM
Support for the Freecom USB to IDE/ATAPI adaptor.
Freecom has a web page at <http://www.freecom.de/>.
CONFIG_USB_STORAGE_DATAFAB
Support for certain Datafab CompactFlash readers.
Datafab has a web page at <http://www.datafabusa.com/>.
CONFIG_USB_STORAGE_DPCM
Say Y here to support the Microtech ZiO! CompactFlash/SmartMedia
reader, details at <http://www.microtechint.com/zio/index.html>.
This driver treats the flash card as a removable storage device.
Say Y here to support the Microtech ZiO! CompactFlash reader.
There is a web page at <http://www.microtechint.com/zio/index.html>.
CONFIG_USB_STORAGE_SDDR09
Say Y here to include additional code to support the Sandisk SDDR-09
SmartMedia reader in the USB Mass Storage driver.
Also works for the Microtech Zio! SmartMedia reader.
drivers/usb/storage/Config.in
View file @
f4f8a039
...
...
@@ -6,7 +6,7 @@ if [ "$CONFIG_SCSI" = "n" ]; then
fi
dep_tristate ' USB Mass Storage support' CONFIG_USB_STORAGE $CONFIG_USB $CONFIG_SCSI
dep_mbool ' USB Mass Storage verbose debug' CONFIG_USB_STORAGE_DEBUG $CONFIG_USB_STORAGE
dep_mbool ' Datafab
MDCFE-B
Compact Flash Reader support' CONFIG_USB_STORAGE_DATAFAB $CONFIG_USB_STORAGE $CONFIG_EXPERIMENTAL
dep_mbool ' Datafab Compact Flash Reader support' CONFIG_USB_STORAGE_DATAFAB $CONFIG_USB_STORAGE $CONFIG_EXPERIMENTAL
dep_mbool ' Freecom USB/ATAPI Bridge support' CONFIG_USB_STORAGE_FREECOM $CONFIG_USB_STORAGE
dep_mbool ' ISD-200 USB/ATA Bridge support' CONFIG_USB_STORAGE_ISD200 $CONFIG_USB_STORAGE
dep_mbool ' Microtech CompactFlash/SmartMedia support' CONFIG_USB_STORAGE_DPCM $CONFIG_USB_STORAGE
...
...
drivers/usb/storage/debug.c
View file @
f4f8a039
...
...
@@ -327,6 +327,7 @@ void usb_stor_show_sense(
case
0x3502
:
what
=
"enclosure services unavailable"
;
break
;
case
0x3503
:
what
=
"enclosure services transfer failure"
;
break
;
case
0x3504
:
what
=
"enclosure services transfer refused"
;
break
;
case
0x3A00
:
what
=
"medium not present"
;
break
;
case
0x3B0F
:
what
=
"end of medium reached"
;
break
;
case
0x3F02
:
what
=
"changed operating definition"
;
break
;
case
0x4100
:
what
=
"data path failure (should use 40 NN)"
;
break
;
...
...
drivers/usb/storage/initializers.h
View file @
f4f8a039
...
...
@@ -37,8 +37,13 @@
* 675 Mass Ave, Cambridge, MA 02139, USA.
*/
#include <linux/config.h>
#include "usb.h"
/* This places the Shuttle/SCM USB<->SCSI bridge devices in multi-target
* mode */
int
usb_stor_euscsi_init
(
struct
us_data
*
us
);
#ifdef CONFIG_USB_STORAGE_SDDR09
int
sddr09_init
(
struct
us_data
*
us
);
#endif
drivers/usb/storage/jumpshot.c
View file @
f4f8a039
...
...
@@ -192,7 +192,7 @@ static int jumpshot_raw_bulk(int direction,
return
US_BULK_TRANSFER_SHORT
;
}
US_DEBUGP
(
"jumpshot_raw_bulk: Transfered %d of %d bytes
\n
"
,
act_len
,
len
);
US_DEBUGP
(
"jumpshot_raw_bulk: Transfer
r
ed %d of %d bytes
\n
"
,
act_len
,
len
);
return
US_BULK_TRANSFER_GOOD
;
}
...
...
drivers/usb/storage/sddr09.c
View file @
f4f8a039
/* Driver for SanDisk SDDR-09 SmartMedia reader
*
* $Id: sddr09.c,v 1.22 2001/12/08 23:32:48 mdharm Exp $
*
* SDDR09 driver v0.1:
*
* First release
*
* Current development and maintenance by:
* (c) 2000, 2001 Robert Baruch (autophile@starband.net)
* (c) 2002 Andries Brouwer (aeb@cwi.nl)
*
* The SanDisk SDDR-09 SmartMedia reader uses the Shuttle EUSB-01 chip.
* This chip is a programmable USB controller. In the SDDR-09, it has
* been programmed to obey a certain limited set of SCSI commands.
This
* driver translates the "real" SCSI commands to the SDDR-09 SCSI
* been programmed to obey a certain limited set of SCSI commands.
*
This
driver translates the "real" SCSI commands to the SDDR-09 SCSI
* commands.
*
* This program is free software; you can redistribute it and/or modify it
...
...
@@ -44,6 +38,180 @@
#define LSB_of(s) ((s)&0xFF)
#define MSB_of(s) ((s)>>8)
/* #define US_DEBUGP printk */
/*
* First some stuff that does not belong here:
* data on SmartMedia and other cards, completely
* unrelated to this driver.
* Similar stuff occurs in <linux/mtd/nand_ids.h>.
*/
struct
nand_flash_dev
{
int
model_id
;
int
chipshift
;
/* 1<<cs bytes total capacity */
char
pageshift
;
/* 1<<ps bytes in a page */
char
blockshift
;
/* 1<<bs pages in an erase block */
char
zoneshift
;
/* 1<<zs blocks in a zone */
/* # of logical blocks is 125/128 of this */
char
pageadrlen
;
/* length of an address in bytes - 1 */
};
/*
* NAND Flash Manufacturer ID Codes
*/
#define NAND_MFR_AMD 0x01
#define NAND_MFR_TOSHIBA 0x98
#define NAND_MFR_SAMSUNG 0xec
static
inline
char
*
nand_flash_manufacturer
(
int
manuf_id
)
{
switch
(
manuf_id
)
{
case
NAND_MFR_AMD
:
return
"AMD"
;
case
NAND_MFR_TOSHIBA
:
return
"Toshiba"
;
case
NAND_MFR_SAMSUNG
:
return
"Samsung"
;
default:
return
"unknown"
;
}
}
/*
* It looks like it is unnecessary to attach manufacturer to the
* remaining data: SSFDC prescribes manufacturer-independent id codes.
*/
static
struct
nand_flash_dev
nand_flash_ids
[]
=
{
/* NAND flash - these I verified */
{
0x6e
,
20
,
8
,
4
,
8
,
2
},
/* 1 MB */
{
0xe8
,
20
,
8
,
4
,
8
,
2
},
/* 1 MB */
{
0xec
,
20
,
8
,
4
,
8
,
2
},
/* 1 MB */
{
0x64
,
21
,
8
,
4
,
9
,
2
},
/* 2 MB */
{
0xea
,
21
,
8
,
4
,
9
,
2
},
/* 2 MB */
{
0x6b
,
22
,
9
,
4
,
9
,
2
},
/* 4 MB */
{
0xe3
,
22
,
9
,
4
,
9
,
2
},
/* 4 MB */
{
0xe5
,
22
,
9
,
4
,
9
,
2
},
/* 4 MB */
{
0xe6
,
23
,
9
,
4
,
10
,
2
},
/* 8 MB */
{
0x73
,
24
,
9
,
5
,
10
,
2
},
/* 16 MB */
{
0x75
,
25
,
9
,
5
,
10
,
2
},
/* 32 MB */
{
0x76
,
26
,
9
,
5
,
10
,
3
},
/* 64 MB */
{
0x79
,
27
,
9
,
5
,
10
,
3
},
/* 128 MB */
/* There do also exist 96 MB (from Datafab) and 256 MB cards */
/* MASK ROM - from unknown source */
{
0x5d
,
21
,
9
,
4
,
8
,
2
},
/* 2 MB */
{
0xd5
,
22
,
9
,
4
,
9
,
2
},
/* 4 MB */
{
0xd6
,
23
,
9
,
4
,
10
,
2
},
/* 8 MB */
{
0
,}
};
#define SIZE(a) (sizeof(a)/sizeof((a)[0]))
static
struct
nand_flash_dev
*
nand_find_id
(
unsigned
char
id
)
{
int
i
;
for
(
i
=
0
;
i
<
SIZE
(
nand_flash_ids
);
i
++
)
if
(
nand_flash_ids
[
i
].
model_id
==
id
)
return
&
(
nand_flash_ids
[
i
]);
return
NULL
;
}
/*
* ECC computation.
*/
static
unsigned
char
parity
[
256
];
static
unsigned
char
ecc2
[
256
];
static
void
nand_init_ecc
(
void
)
{
int
i
,
j
,
a
;
parity
[
0
]
=
0
;
for
(
i
=
1
;
i
<
256
;
i
++
)
parity
[
i
]
=
(
parity
[
i
&
(
i
-
1
)]
^
1
);
for
(
i
=
0
;
i
<
256
;
i
++
)
{
a
=
0
;
for
(
j
=
0
;
j
<
8
;
j
++
)
{
if
(
i
&
(
1
<<
j
))
{
if
((
j
&
1
)
==
0
)
a
^=
0x04
;
if
((
j
&
2
)
==
0
)
a
^=
0x10
;
if
((
j
&
4
)
==
0
)
a
^=
0x40
;
}
}
ecc2
[
i
]
=
~
(
a
^
(
a
<<
1
)
^
(
parity
[
i
]
?
0xa8
:
0
));
}
}
/* compute 3-byte ecc on 256 bytes */
static
void
nand_compute_ecc
(
unsigned
char
*
data
,
unsigned
char
*
ecc
)
{
int
i
,
j
,
a
;
unsigned
char
par
,
bit
,
bits
[
8
];
par
=
0
;
for
(
j
=
0
;
j
<
8
;
j
++
)
bits
[
j
]
=
0
;
/* collect 16 checksum bits */
for
(
i
=
0
;
i
<
256
;
i
++
)
{
par
^=
data
[
i
];
bit
=
parity
[
data
[
i
]];
for
(
j
=
0
;
j
<
8
;
j
++
)
if
((
i
&
(
1
<<
j
))
==
0
)
bits
[
j
]
^=
bit
;
}
/* put 4+4+4 = 12 bits in the ecc */
a
=
(
bits
[
3
]
<<
6
)
+
(
bits
[
2
]
<<
4
)
+
(
bits
[
1
]
<<
2
)
+
bits
[
0
];
ecc
[
0
]
=
~
(
a
^
(
a
<<
1
)
^
(
parity
[
par
]
?
0xaa
:
0
));
a
=
(
bits
[
7
]
<<
6
)
+
(
bits
[
6
]
<<
4
)
+
(
bits
[
5
]
<<
2
)
+
bits
[
4
];
ecc
[
1
]
=
~
(
a
^
(
a
<<
1
)
^
(
parity
[
par
]
?
0xaa
:
0
));
ecc
[
2
]
=
ecc2
[
par
];
}
static
int
nand_compare_ecc
(
unsigned
char
*
data
,
unsigned
char
*
ecc
)
{
return
(
data
[
0
]
==
ecc
[
0
]
&&
data
[
1
]
==
ecc
[
1
]
&&
data
[
2
]
==
ecc
[
2
]);
}
static
void
nand_store_ecc
(
unsigned
char
*
data
,
unsigned
char
*
ecc
)
{
memcpy
(
data
,
ecc
,
3
);
}
/*
* The actual driver starts here.
*/
/*
* On my 16MB card, control blocks have size 64 (16 real control bytes,
* and 48 junk bytes). In reality of course the card uses 16 control bytes,
* so the reader makes up the remaining 48. Don't know whether these numbers
* depend on the card. For now a constant.
*/
#define CONTROL_SHIFT 6
/*
* On my Combo CF/SM reader, the SM reader has LUN 1.
* (and things fail with LUN 0).
* It seems LUN is irrelevant for others.
*/
#define LUN 1
#define LUNBITS (LUN << 5)
/*
* LBA and PBA are unsigned ints. Special values.
*/
#define UNDEF 0xffffffff
#define SPARE 0xfffffffe
#define UNUSABLE 0xfffffffd
static
int
erase_bad_lba_entries
=
0
;
/*
* Send a control message and wait for the response.
*
...
...
@@ -63,27 +231,18 @@
*
*/
static
int
sddr09_send_control
(
struct
us_data
*
us
,
static
int
sddr09_send_control
(
struct
us_data
*
us
,
int
pipe
,
unsigned
char
request
,
unsigned
char
requesttype
,
unsigned
shor
t
value
,
unsigned
shor
t
index
,
unsigned
in
t
value
,
unsigned
in
t
index
,
unsigned
char
*
xfer_data
,
unsigned
int
xfer_len
)
{
int
result
;
// If data is going to be sent or received with the URB,
// then allocate a buffer for it. If data is to be sent,
// copy the data into the buffer.
/*
if (xfer_len > 0) {
buffer = kmalloc(xfer_len, GFP_NOIO);
if (!(command[0] & USB_DIR_IN))
memcpy(buffer, xfer_data, xfer_len);
}
*/
// Send the URB to the device and wait for a response.
/* Why are request and request type reversed in this call? */
...
...
@@ -93,16 +252,6 @@ static int sddr09_send_control(struct us_data *us,
xfer_data
,
xfer_len
);
// If data was sent or received with the URB, free the buffer we
// allocated earlier, but not before reading the data out of the
// buffer if we wanted to receive data.
/*
if (xfer_len > 0) {
if (command[0] & USB_DIR_IN)
memcpy(xfer_data, buffer, xfer_len);
kfree(buffer);
}
*/
// Check the return code for the command.
if
(
result
<
0
)
{
...
...
@@ -118,17 +267,44 @@ static int sddr09_send_control(struct us_data *us,
return
USB_STOR_TRANSPORT_FAILED
;
}
/* Uh oh... serious problem here */
return
USB_STOR_TRANSPORT_ERROR
;
}
return
USB_STOR_TRANSPORT_GOOD
;
}
static
int
sddr09_raw_bulk
(
struct
us_data
*
us
,
int
direction
,
unsigned
char
*
data
,
unsigned
int
len
)
{
/* send vendor interface command (0x41) */
/* called for requests 0, 1, 8 */
static
int
sddr09_send_command
(
struct
us_data
*
us
,
unsigned
char
request
,
unsigned
char
direction
,
unsigned
char
*
xfer_data
,
unsigned
int
xfer_len
)
{
int
pipe
;
unsigned
char
requesttype
=
(
0x41
|
direction
);
// Get the receive or send control pipe number
if
(
direction
==
USB_DIR_IN
)
pipe
=
usb_rcvctrlpipe
(
us
->
pusb_dev
,
0
);
else
pipe
=
usb_sndctrlpipe
(
us
->
pusb_dev
,
0
);
return
sddr09_send_control
(
us
,
pipe
,
request
,
requesttype
,
0
,
0
,
xfer_data
,
xfer_len
);
}
static
int
sddr09_send_scsi_command
(
struct
us_data
*
us
,
unsigned
char
*
command
,
unsigned
int
command_len
)
{
return
sddr09_send_command
(
us
,
0
,
USB_DIR_OUT
,
command
,
command_len
);
}
static
int
sddr09_raw_bulk
(
struct
us_data
*
us
,
int
direction
,
unsigned
char
*
data
,
unsigned
int
len
)
{
int
result
;
int
act_len
;
...
...
@@ -150,51 +326,36 @@ static int sddr09_raw_bulk(struct us_data *us,
}
if
(
result
)
{
/* NAK - that means we've retried a few times already */
if
(
result
==
-
ETIMEDOUT
)
{
US_DEBUGP
(
"usbat_raw_bulk():"
" device NAKed
\n
"
);
return
US_BULK_TRANSFER_FAILED
;
}
/* -ENOENT -- we canceled this transfer */
if
(
result
==
-
ENOENT
)
{
US_DEBUGP
(
"usbat_raw_bulk():"
" transfer aborted
\n
"
);
US_DEBUGP
(
"usbat_raw_bulk(): transfer aborted
\n
"
);
return
US_BULK_TRANSFER_ABORTED
;
}
if
(
result
==
-
EPIPE
)
{
US_DEBUGP
(
"usbat_raw_bulk():"
" output pipe stalled
\n
"
);
return
USB_STOR_TRANSPORT_FAILED
;
}
/* NAK - that means we've retried a few times already */
if
(
result
==
-
ETIMEDOUT
)
US_DEBUGP
(
"usbat_raw_bulk(): device NAKed
\n
"
);
else
if
(
result
==
-
EOVERFLOW
)
US_DEBUGP
(
"us_transfer_partial(): babble/overflow
\n
"
);
else
if
(
result
!=
-
EPIPE
)
US_DEBUGP
(
"us_transfer_partial(): unknown error %d
\n
"
,
result
);
/* the catch-all case */
US_DEBUGP
(
"us_transfer_partial(): unknown error
\n
"
);
return
US_BULK_TRANSFER_FAILED
;
}
if
(
act_len
!=
len
)
{
US_DEBUGP
(
"Warning: Transferred only %d bytes
\n
"
,
act_
len
);
US_DEBUGP
(
"Warning: Transferred only %d
of %d
bytes
\n
"
,
act_len
,
len
);
return
US_BULK_TRANSFER_SHORT
;
}
US_DEBUGP
(
"Transferred %d of %d bytes
\n
"
,
act_len
,
len
);
return
US_BULK_TRANSFER_GOOD
;
}
/*
* Note: direction must be set if command_len == 0.
*/
static
int
sddr09_bulk_transport
(
struct
us_data
*
us
,
int
direction
,
unsigned
char
*
data
,
unsigned
int
len
,
static
int
sddr09_bulk_transport
(
struct
us_data
*
us
,
int
direction
,
unsigned
char
*
data
,
unsigned
int
len
,
int
use_sg
)
{
int
result
=
USB_STOR_TRANSPORT_GOOD
;
...
...
@@ -203,97 +364,724 @@ static int sddr09_bulk_transport(struct us_data *us,
struct
scatterlist
*
sg
;
char
string
[
64
];
if
(
len
==
0
)
return
USB_STOR_TRANSPORT_GOOD
;
#define DEBUG_PRCT 12
if
(
len
==
0
)
return
USB_STOR_TRANSPORT_GOOD
;
/* transfer the data */
if
(
direction
==
SCSI_DATA_WRITE
)
{
if
(
direction
==
SCSI_DATA_WRITE
&&
!
use_sg
)
{
/* Debug-print the first
48
bytes of the write transfer */
/* Debug-print the first
N
bytes of the write transfer */
if
(
!
use_sg
)
{
strcpy
(
string
,
"wr: "
);
for
(
i
=
0
;
i
<
len
&&
i
<
48
;
i
++
)
{
for
(
i
=
0
;
i
<
len
&&
i
<
DEBUG_PRCT
;
i
++
)
{
sprintf
(
string
+
strlen
(
string
),
"%02X "
,
data
[
i
]);
if
((
i
%
16
)
==
15
)
{
if
((
i
%
16
)
==
15
)
{
US_DEBUGP
(
"%s
\n
"
,
string
);
strcpy
(
string
,
"wr: "
);
}
}
if
((
i
%
16
)
!=
0
)
US_DEBUGP
(
"%s
\n
"
,
string
);
if
((
i
%
16
)
!=
0
)
US_DEBUGP
(
"%s
\n
"
,
string
);
}
US_DEBUGP
(
"SCM data %s transfer %d sg buffers %d
\n
"
,
(
direction
==
SCSI_DATA_READ
)
?
"in"
:
"out"
,
len
,
use_sg
);
if
(
!
use_sg
)
result
=
sddr09_raw_bulk
(
us
,
direction
,
data
,
len
);
else
{
sg
=
(
struct
scatterlist
*
)
data
;
for
(
i
=
0
;
i
<
use_sg
&&
transferred
<
len
;
i
++
)
{
unsigned
char
*
buf
;
unsigned
int
length
;
buf
=
page_address
(
sg
[
i
].
page
)
+
sg
[
i
].
offset
;
length
=
len
-
transferred
;
if
(
length
>
sg
[
i
].
length
)
length
=
sg
[
i
].
length
;
result
=
sddr09_raw_bulk
(
us
,
direction
,
buf
,
length
);
if
(
result
!=
US_BULK_TRANSFER_GOOD
)
break
;
transferred
+=
sg
[
i
].
length
;
}
}
if
(
direction
==
SCSI_DATA_READ
&&
!
use_sg
)
{
/* Debug-print the first N bytes of the read transfer */
strcpy
(
string
,
"rd: "
);
for
(
i
=
0
;
i
<
len
&&
i
<
DEBUG_PRCT
;
i
++
)
{
sprintf
(
string
+
strlen
(
string
),
"%02X "
,
data
[
i
]);
if
((
i
%
16
)
==
15
)
{
US_DEBUGP
(
"%s
\n
"
,
string
);
strcpy
(
string
,
"rd: "
);
}
}
if
((
i
%
16
)
!=
0
)
US_DEBUGP
(
"%s
\n
"
,
string
);
}
return
result
;
}
#if 0
/*
* Test Unit Ready Command: 12 bytes.
* byte 0: opcode: 00
*/
static int
sddr09_test_unit_ready(struct us_data *us) {
unsigned char command[6] = {
0, LUNBITS, 0, 0, 0, 0
};
int result;
result = sddr09_send_scsi_command(us, command, sizeof(command));
US_DEBUGP("sddr09_test_unit_ready returns %d\n", result);
return result;
}
#endif
/*
* Request Sense Command: 12 bytes.
* byte 0: opcode: 03
* byte 4: data length
*/
static
int
sddr09_request_sense
(
struct
us_data
*
us
,
unsigned
char
*
sensebuf
,
int
buflen
)
{
unsigned
char
command
[
12
]
=
{
0x03
,
LUNBITS
,
0
,
0
,
buflen
,
0
,
0
,
0
,
0
,
0
,
0
,
0
};
int
result
;
result
=
sddr09_send_scsi_command
(
us
,
command
,
sizeof
(
command
));
if
(
result
!=
USB_STOR_TRANSPORT_GOOD
)
{
US_DEBUGP
(
"request sense failed
\n
"
);
return
result
;
}
result
=
sddr09_raw_bulk
(
us
,
SCSI_DATA_READ
,
sensebuf
,
buflen
);
if
(
result
!=
USB_STOR_TRANSPORT_GOOD
)
US_DEBUGP
(
"request sense bulk in failed
\n
"
);
else
US_DEBUGP
(
"request sense worked
\n
"
);
return
result
;
}
/*
* Read Command: 12 bytes.
* byte 0: opcode: E8
* byte 1: last two bits: 00: read data, 01: read blockwise control,
* 10: read both, 11: read pagewise control.
* It turns out we need values 20, 21, 22, 23 here (LUN 1).
* bytes 2-5: address (interpretation depends on byte 1, see below)
* bytes 10-11: count (idem)
*
* A page has 512 data bytes and 64 control bytes (16 control and 48 junk).
* A read data command gets data in 512-byte pages.
* A read control command gets control in 64-byte chunks.
* A read both command gets data+control in 576-byte chunks.
*
* Blocks are groups of 32 pages, and read blockwise control jumps to the
* next block, while read pagewise control jumps to the next page after
* reading a group of 64 control bytes.
* [Here 512 = 1<<pageshift, 32 = 1<<blockshift, 64 is constant?]
*
* (1 MB and 2 MB cards are a bit different, but I have only a 16 MB card.)
*/
static
int
sddr09_readX
(
struct
us_data
*
us
,
int
x
,
unsigned
long
fromaddress
,
int
nr_of_pages
,
int
bulklen
,
unsigned
char
*
buf
,
int
use_sg
)
{
unsigned
char
command
[
12
]
=
{
0xe8
,
LUNBITS
|
x
,
0
,
0
,
0
,
0
,
0
,
0
,
0
,
0
,
0
,
0
};
int
result
;
command
[
2
]
=
MSB_of
(
fromaddress
>>
16
);
command
[
3
]
=
LSB_of
(
fromaddress
>>
16
);
command
[
4
]
=
MSB_of
(
fromaddress
&
0xFFFF
);
command
[
5
]
=
LSB_of
(
fromaddress
&
0xFFFF
);
command
[
10
]
=
MSB_of
(
nr_of_pages
);
command
[
11
]
=
LSB_of
(
nr_of_pages
);
result
=
sddr09_send_scsi_command
(
us
,
command
,
sizeof
(
command
));
if
(
result
!=
USB_STOR_TRANSPORT_GOOD
)
{
US_DEBUGP
(
"Result for send_control in sddr09_read2%d %d
\n
"
,
x
,
result
);
return
result
;
}
result
=
sddr09_bulk_transport
(
us
,
SCSI_DATA_READ
,
buf
,
bulklen
,
use_sg
);
if
(
result
!=
USB_STOR_TRANSPORT_GOOD
)
US_DEBUGP
(
"Result for bulk_transport in sddr09_read2%d %d
\n
"
,
x
,
result
);
return
result
;
}
/*
* Read Data
*
* fromaddress counts data shorts:
* increasing it by 256 shifts the bytestream by 512 bytes;
* the last 8 bits are ignored.
*
* nr_of_pages counts pages of size (1 << pageshift).
*/
static
int
sddr09_read20
(
struct
us_data
*
us
,
unsigned
long
fromaddress
,
int
nr_of_pages
,
int
pageshift
,
unsigned
char
*
buf
,
int
use_sg
)
{
int
bulklen
=
nr_of_pages
<<
pageshift
;
/* The last 8 bits of fromaddress are ignored. */
return
sddr09_readX
(
us
,
0
,
fromaddress
,
nr_of_pages
,
bulklen
,
buf
,
use_sg
);
}
/*
* Read Blockwise Control
*
* fromaddress gives the starting position (as in read data;
* the last 8 bits are ignored); increasing it by 32*256 shifts
* the output stream by 64 bytes.
*
* count counts control groups of size (1 << controlshift).
* For me, controlshift = 6. Is this constant?
*
* After getting one control group, jump to the next block
* (fromaddress += 8192).
*/
static
int
sddr09_read21
(
struct
us_data
*
us
,
unsigned
long
fromaddress
,
int
count
,
int
controlshift
,
unsigned
char
*
buf
,
int
use_sg
)
{
int
bulklen
=
(
count
<<
controlshift
);
return
sddr09_readX
(
us
,
1
,
fromaddress
,
count
,
bulklen
,
buf
,
use_sg
);
}
/*
* Read both Data and Control
*
* fromaddress counts data shorts, ignoring control:
* increasing it by 256 shifts the bytestream by 576 = 512+64 bytes;
* the last 8 bits are ignored.
*
* nr_of_pages counts pages of size (1 << pageshift) + (1 << controlshift).
*/
static
int
sddr09_read22
(
struct
us_data
*
us
,
unsigned
long
fromaddress
,
int
nr_of_pages
,
int
pageshift
,
unsigned
char
*
buf
,
int
use_sg
)
{
int
bulklen
=
(
nr_of_pages
<<
pageshift
)
+
(
nr_of_pages
<<
CONTROL_SHIFT
);
US_DEBUGP
(
"sddr09_read22: reading %d pages, %d bytes
\n
"
,
nr_of_pages
,
bulklen
);
return
sddr09_readX
(
us
,
2
,
fromaddress
,
nr_of_pages
,
bulklen
,
buf
,
use_sg
);
}
#if 0
/*
* Read Pagewise Control
*
* fromaddress gives the starting position (as in read data;
* the last 8 bits are ignored); increasing it by 256 shifts
* the output stream by 64 bytes.
*
* count counts control groups of size (1 << controlshift).
* For me, controlshift = 6. Is this constant?
*
* After getting one control group, jump to the next page
* (fromaddress += 256).
*/
static int
sddr09_read23(struct us_data *us, unsigned long fromaddress,
int count, int controlshift, unsigned char *buf, int use_sg) {
int bulklen = (count << controlshift);
return sddr09_readX(us, 3, fromaddress, count, bulklen,
buf, use_sg);
}
#endif
/*
* Erase Command: 12 bytes.
* byte 0: opcode: EA
* bytes 6-9: erase address (big-endian, counting shorts, sector aligned).
*
* Always precisely one block is erased; bytes 2-5 and 10-11 are ignored.
* The byte address being erased is 2*Eaddress.
*/
static
int
sddr09_erase
(
struct
us_data
*
us
,
unsigned
long
Eaddress
)
{
unsigned
char
command
[
12
]
=
{
0xea
,
LUNBITS
,
0
,
0
,
0
,
0
,
0
,
0
,
0
,
0
,
0
,
0
};
int
result
;
command
[
6
]
=
MSB_of
(
Eaddress
>>
16
);
command
[
7
]
=
LSB_of
(
Eaddress
>>
16
);
command
[
8
]
=
MSB_of
(
Eaddress
&
0xFFFF
);
command
[
9
]
=
LSB_of
(
Eaddress
&
0xFFFF
);
result
=
sddr09_send_scsi_command
(
us
,
command
,
sizeof
(
command
));
if
(
result
!=
USB_STOR_TRANSPORT_GOOD
)
US_DEBUGP
(
"Result for send_control in sddr09_erase %d
\n
"
,
result
);
return
result
;
}
/*
* Write Command: 12 bytes.
* byte 0: opcode: E9
* bytes 2-5: write address (big-endian, counting shorts, sector aligned).
* bytes 6-9: erase address (big-endian, counting shorts, sector aligned).
* bytes 10-11: sector count (big-endian, in 512-byte sectors).
*
* If write address equals erase address, the erase is done first,
* otherwise the write is done first. When erase address equals zero
* no erase is done?
*/
static
int
sddr09_writeX
(
struct
us_data
*
us
,
unsigned
long
Waddress
,
unsigned
long
Eaddress
,
int
nr_of_pages
,
int
bulklen
,
unsigned
char
*
buf
,
int
use_sg
)
{
unsigned
char
command
[
12
]
=
{
0xe9
,
LUNBITS
,
0
,
0
,
0
,
0
,
0
,
0
,
0
,
0
,
0
,
0
};
int
result
;
command
[
2
]
=
MSB_of
(
Waddress
>>
16
);
command
[
3
]
=
LSB_of
(
Waddress
>>
16
);
command
[
4
]
=
MSB_of
(
Waddress
&
0xFFFF
);
command
[
5
]
=
LSB_of
(
Waddress
&
0xFFFF
);
command
[
6
]
=
MSB_of
(
Eaddress
>>
16
);
command
[
7
]
=
LSB_of
(
Eaddress
>>
16
);
command
[
8
]
=
MSB_of
(
Eaddress
&
0xFFFF
);
command
[
9
]
=
LSB_of
(
Eaddress
&
0xFFFF
);
command
[
10
]
=
MSB_of
(
nr_of_pages
);
command
[
11
]
=
LSB_of
(
nr_of_pages
);
result
=
sddr09_send_scsi_command
(
us
,
command
,
sizeof
(
command
));
if
(
result
!=
USB_STOR_TRANSPORT_GOOD
)
{
US_DEBUGP
(
"Result for send_control in sddr09_writeX %d
\n
"
,
result
);
return
result
;
}
result
=
sddr09_bulk_transport
(
us
,
SCSI_DATA_WRITE
,
buf
,
bulklen
,
use_sg
);
if
(
result
!=
USB_STOR_TRANSPORT_GOOD
)
US_DEBUGP
(
"Result for bulk_transport in sddr09_writeX %d
\n
"
,
result
);
return
result
;
}
/* erase address, write same address */
static
int
sddr09_write_inplace
(
struct
us_data
*
us
,
unsigned
long
address
,
int
nr_of_pages
,
int
pageshift
,
unsigned
char
*
buf
,
int
use_sg
)
{
int
bulklen
=
(
nr_of_pages
<<
pageshift
)
+
(
nr_of_pages
<<
CONTROL_SHIFT
);
return
sddr09_writeX
(
us
,
address
,
address
,
nr_of_pages
,
bulklen
,
buf
,
use_sg
);
}
#if 0
/*
* Read Scatter Gather Command: 3+4n bytes.
* byte 0: opcode E7
* byte 2: n
* bytes 4i-1,4i,4i+1: page address
* byte 4i+2: page count
* (i=1..n)
*
* This reads several pages from the card to a single memory buffer.
* The last two bits of byte 1 have the same meaning as for E8.
*/
static int
sddr09_read_sg_test_only(struct us_data *us) {
unsigned char command[15] = {
0xe7, LUNBITS, 0
};
int result, bulklen, nsg, ct;
unsigned char *buf;
unsigned long address;
nsg = bulklen = 0;
address = 040000; ct = 1;
nsg++;
bulklen += (ct << 9);
command[4*nsg+2] = ct;
command[4*nsg+1] = ((address >> 9) & 0xFF);
command[4*nsg+0] = ((address >> 17) & 0xFF);
command[4*nsg-1] = ((address >> 25) & 0xFF);
address = 0340000; ct = 1;
nsg++;
bulklen += (ct << 9);
command[4*nsg+2] = ct;
command[4*nsg+1] = ((address >> 9) & 0xFF);
command[4*nsg+0] = ((address >> 17) & 0xFF);
command[4*nsg-1] = ((address >> 25) & 0xFF);
address = 01000000; ct = 2;
nsg++;
bulklen += (ct << 9);
command[4*nsg+2] = ct;
command[4*nsg+1] = ((address >> 9) & 0xFF);
command[4*nsg+0] = ((address >> 17) & 0xFF);
command[4*nsg-1] = ((address >> 25) & 0xFF);
command[2] = nsg;
result = sddr09_send_scsi_command(us, command, 4*nsg+3);
if (result != USB_STOR_TRANSPORT_GOOD) {
US_DEBUGP("Result for send_control in sddr09_read_sg %d\n",
result);
return result;
}
buf = (unsigned char *) kmalloc(bulklen, GFP_NOIO);
if (!buf)
return USB_STOR_TRANSPORT_ERROR;
result = sddr09_bulk_transport(us, SCSI_DATA_READ,
buf, bulklen, 0);
if (result != USB_STOR_TRANSPORT_GOOD)
US_DEBUGP("Result for bulk_transport in sddr09_read_sg %d\n",
result);
kfree(buf);
return result;
}
#endif
/*
* Read Status Command: 12 bytes.
* byte 0: opcode: EC
*
* Returns 64 bytes, all zero except for the first.
* bit 0: 1: Error
* bit 5: 1: Suspended
* bit 6: 1: Ready
* bit 7: 1: Not write-protected
*/
static
int
sddr09_read_status
(
struct
us_data
*
us
,
unsigned
char
*
status
)
{
unsigned
char
command
[
12
]
=
{
0xec
,
LUNBITS
,
0
,
0
,
0
,
0
,
0
,
0
,
0
,
0
,
0
,
0
};
unsigned
char
data
[
64
];
int
result
;
US_DEBUGP
(
"Reading status...
\n
"
);
result
=
sddr09_send_scsi_command
(
us
,
command
,
sizeof
(
command
));
if
(
result
!=
USB_STOR_TRANSPORT_GOOD
)
return
result
;
result
=
sddr09_bulk_transport
(
us
,
SCSI_DATA_READ
,
data
,
sizeof
(
data
),
0
);
*
status
=
data
[
0
];
return
result
;
}
static
int
sddr09_read_data
(
struct
us_data
*
us
,
unsigned
long
address
,
unsigned
int
sectors
,
unsigned
char
*
content
,
int
use_sg
)
{
struct
sddr09_card_info
*
info
=
(
struct
sddr09_card_info
*
)
us
->
extra
;
unsigned
int
lba
,
maxlba
,
pba
;
unsigned
int
page
,
pages
;
unsigned
char
*
buffer
=
NULL
;
unsigned
char
*
ptr
;
struct
scatterlist
*
sg
=
NULL
;
int
result
,
i
,
len
;
// If we're using scatter-gather, we have to create a new
// buffer to read all of the data in first, since a
// scatter-gather buffer could in theory start in the middle
// of a page, which would be bad. A developer who wants a
// challenge might want to write a limited-buffer
// version of this code.
len
=
sectors
*
info
->
pagesize
;
if
(
use_sg
)
{
sg
=
(
struct
scatterlist
*
)
content
;
buffer
=
kmalloc
(
len
,
GFP_NOIO
);
if
(
buffer
==
NULL
)
return
USB_STOR_TRANSPORT_ERROR
;
ptr
=
buffer
;
}
else
ptr
=
content
;
// Figure out the initial LBA and page
lba
=
address
>>
info
->
blockshift
;
page
=
(
address
&
info
->
blockmask
);
maxlba
=
info
->
capacity
>>
(
info
->
pageshift
+
info
->
blockshift
);
// This could be made much more efficient by checking for
// contiguous LBA's. Another exercise left to the student.
result
=
USB_STOR_TRANSPORT_GOOD
;
while
(
sectors
>
0
)
{
/* Find number of pages we can read in this block */
pages
=
info
->
blocksize
-
page
;
if
(
pages
>
sectors
)
pages
=
sectors
;
/* Not overflowing capacity? */
if
(
lba
>=
maxlba
)
{
US_DEBUGP
(
"Error: Requested lba %u exceeds "
"maximum %u
\n
"
,
lba
,
maxlba
);
result
=
USB_STOR_TRANSPORT_ERROR
;
break
;
}
/* Find where this lba lives on disk */
pba
=
info
->
lba_to_pba
[
lba
];
if
(
pba
==
UNDEF
)
{
/* this lba was never written */
US_DEBUGP
(
"Read %d zero pages (LBA %d) page %d
\n
"
,
pages
,
lba
,
page
);
/* This is not really an error. It just means
that the block has never been written.
Instead of returning USB_STOR_TRANSPORT_ERROR
it is better to return all zero data. */
memset
(
ptr
,
0
,
pages
<<
info
->
pageshift
);
}
else
{
US_DEBUGP
(
"Read %d pages, from PBA %d"
" (LBA %d) page %d
\n
"
,
pages
,
pba
,
lba
,
page
);
address
=
((
pba
<<
info
->
blockshift
)
+
page
)
<<
info
->
pageshift
;
result
=
sddr09_read20
(
us
,
address
>>
1
,
pages
,
info
->
pageshift
,
ptr
,
0
);
if
(
result
!=
USB_STOR_TRANSPORT_GOOD
)
break
;
}
page
=
0
;
lba
++
;
sectors
-=
pages
;
ptr
+=
(
pages
<<
info
->
pageshift
);
}
if
(
use_sg
&&
result
==
USB_STOR_TRANSPORT_GOOD
)
{
int
transferred
=
0
;
for
(
i
=
0
;
i
<
use_sg
&&
transferred
<
len
;
i
++
)
{
unsigned
char
*
buf
;
unsigned
int
length
;
buf
=
page_address
(
sg
[
i
].
page
)
+
sg
[
i
].
offset
;
length
=
len
-
transferred
;
if
(
length
>
sg
[
i
].
length
)
length
=
sg
[
i
].
length
;
memcpy
(
buf
,
buffer
+
transferred
,
length
);
transferred
+=
sg
[
i
].
length
;
}
}
if
(
use_sg
)
kfree
(
buffer
);
return
result
;
}
/* we never free blocks, so lastpba can only increase */
static
unsigned
int
sddr09_find_unused_pba
(
struct
sddr09_card_info
*
info
)
{
static
unsigned
int
lastpba
=
1
;
int
numblocks
=
info
->
capacity
>>
(
info
->
blockshift
+
info
->
pageshift
);
int
i
;
for
(
i
=
lastpba
+
1
;
i
<
numblocks
;
i
++
)
{
if
(
info
->
pba_to_lba
[
i
]
==
UNDEF
)
{
lastpba
=
i
;
return
i
;
}
}
return
0
;
}
static
int
sddr09_write_lba
(
struct
us_data
*
us
,
unsigned
int
lba
,
unsigned
int
page
,
unsigned
int
pages
,
unsigned
char
*
ptr
)
{
struct
sddr09_card_info
*
info
=
(
struct
sddr09_card_info
*
)
us
->
extra
;
unsigned
long
address
;
unsigned
int
pba
,
lbap
;
unsigned
int
pagelen
,
blocklen
;
unsigned
char
*
blockbuffer
,
*
bptr
,
*
cptr
,
*
xptr
;
unsigned
char
ecc
[
3
];
int
i
,
result
;
lbap
=
((
lba
&
0x3ff
)
<<
1
)
|
0x1000
;
if
(
parity
[
MSB_of
(
lbap
)
^
LSB_of
(
lbap
)])
lbap
^=
1
;
pba
=
info
->
lba_to_pba
[
lba
];
if
(
pba
==
UNDEF
)
{
pba
=
sddr09_find_unused_pba
(
info
);
if
(
!
pba
)
{
printk
(
"sddr09_write_lba: Out of unused blocks
\n
"
);
return
USB_STOR_TRANSPORT_ERROR
;
}
info
->
pba_to_lba
[
pba
]
=
lba
;
info
->
lba_to_pba
[
lba
]
=
pba
;
}
if
(
pba
==
1
)
{
/* Maybe it is impossible to write to PBA 1.
Fake success, but don't do anything. */
printk
(
"sddr09: avoid writing to pba 1
\n
"
);
return
USB_STOR_TRANSPORT_GOOD
;
}
pagelen
=
(
1
<<
info
->
pageshift
)
+
(
1
<<
CONTROL_SHIFT
);
blocklen
=
(
pagelen
<<
info
->
blockshift
);
blockbuffer
=
kmalloc
(
blocklen
,
GFP_NOIO
);
if
(
!
blockbuffer
)
{
printk
(
"sddr09_write_lba: Out of memory
\n
"
);
return
USB_STOR_TRANSPORT_ERROR
;
}
/* read old contents */
address
=
(
pba
<<
(
info
->
pageshift
+
info
->
blockshift
));
result
=
sddr09_read22
(
us
,
address
>>
1
,
info
->
blocksize
,
info
->
pageshift
,
blockbuffer
,
0
);
if
(
result
!=
USB_STOR_TRANSPORT_GOOD
)
goto
err
;
/* check old contents */
for
(
i
=
0
;
i
<
info
->
blockshift
;
i
++
)
{
bptr
=
blockbuffer
+
i
*
pagelen
;
cptr
=
bptr
+
info
->
pagesize
;
nand_compute_ecc
(
bptr
,
ecc
);
if
(
!
nand_compare_ecc
(
cptr
+
13
,
ecc
))
{
US_DEBUGP
(
"Warning: bad ecc in page %d- of pba %d
\n
"
,
i
,
pba
);
nand_store_ecc
(
cptr
+
13
,
ecc
);
}
nand_compute_ecc
(
bptr
+
(
info
->
pagesize
/
2
),
ecc
);
if
(
!
nand_compare_ecc
(
cptr
+
8
,
ecc
))
{
US_DEBUGP
(
"Warning: bad ecc in page %d+ of pba %d
\n
"
,
i
,
pba
);
nand_store_ecc
(
cptr
+
8
,
ecc
);
}
}
US_DEBUGP
(
"SCM data %s transfer %d sg buffers %d
\n
"
,
(
direction
==
SCSI_DATA_READ
?
"in"
:
"out"
),
len
,
use_sg
);
if
(
!
use_sg
)
result
=
sddr09_raw_bulk
(
us
,
direction
,
data
,
len
);
else
{
sg
=
(
struct
scatterlist
*
)
data
;
for
(
i
=
0
;
i
<
use_sg
&&
transferred
<
len
;
i
++
)
{
result
=
sddr09_raw_bulk
(
us
,
direction
,
page_address
(
sg
[
i
].
page
)
+
sg
[
i
].
offset
,
len
-
transferred
>
sg
[
i
].
length
?
sg
[
i
].
length
:
len
-
transferred
);
if
(
result
!=
US_BULK_TRANSFER_GOOD
)
break
;
transferred
+=
sg
[
i
].
length
;
}
/* copy in new stuff and compute ECC */
xptr
=
ptr
;
for
(
i
=
page
;
i
<
page
+
pages
;
i
++
)
{
bptr
=
blockbuffer
+
i
*
pagelen
;
cptr
=
bptr
+
info
->
pagesize
;
memcpy
(
bptr
,
xptr
,
info
->
pagesize
);
xptr
+=
info
->
pagesize
;
nand_compute_ecc
(
bptr
,
ecc
);
nand_store_ecc
(
cptr
+
13
,
ecc
);
nand_compute_ecc
(
bptr
+
(
info
->
pagesize
/
2
),
ecc
);
nand_store_ecc
(
cptr
+
8
,
ecc
);
cptr
[
6
]
=
cptr
[
11
]
=
MSB_of
(
lbap
);
cptr
[
7
]
=
cptr
[
12
]
=
LSB_of
(
lbap
);
}
if
(
direction
==
SCSI_DATA_READ
)
{
US_DEBUGP
(
"Rewrite PBA %d (LBA %d)
\n
"
,
pba
,
lba
);
/* Debug-print the first 48 bytes of the read transfer */
result
=
sddr09_write_inplace
(
us
,
address
>>
1
,
info
->
blocksize
,
info
->
pageshift
,
blockbuffer
,
0
);
if
(
!
use_sg
)
{
strcpy
(
string
,
"rd: "
);
for
(
i
=
0
;
i
<
len
&&
i
<
48
;
i
++
)
{
sprintf
(
string
+
strlen
(
string
),
"%02X "
,
data
[
i
]);
if
((
i
%
16
)
==
15
)
{
US_DEBUGP
(
"%s
\n
"
,
string
);
strcpy
(
string
,
"rd: "
);
}
}
if
((
i
%
16
)
!=
0
)
US_DEBUGP
(
"%s
\n
"
,
string
);
US_DEBUGP
(
"sddr09_write_inplace returns %d
\n
"
,
result
);
#if 0
{
unsigned char status = 0;
int result2 = sddr09_read_status(us, &status);
if (result2 != USB_STOR_TRANSPORT_GOOD)
US_DEBUGP("sddr09_write_inplace: cannot read status\n");
else if (status != 0xc0)
US_DEBUGP("sddr09_write_inplace: status after write: 0x%x\n",
status);
}
#endif
#if 0
{
int result2 = sddr09_test_unit_ready(us);
}
#endif
err:
kfree
(
blockbuffer
);
/* TODO: instead of doing kmalloc/kfree for each block,
add a bufferpointer to the info structure */
return
result
;
}
int
sddr09_read_data
(
struct
us_data
*
us
,
static
int
sddr09_write_data
(
struct
us_data
*
us
,
unsigned
long
address
,
unsigned
shor
t
sectors
,
unsigned
in
t
sectors
,
unsigned
char
*
content
,
int
use_sg
)
{
int
result
;
unsigned
char
command
[
12
]
=
{
0xe8
,
0x20
,
0
,
0
,
0
,
0
,
0
,
0
,
0
,
0
,
0
,
0
};
struct
sddr09_card_info
*
info
=
(
struct
sddr09_card_info
*
)
us
->
extra
;
unsigned
int
lba
;
unsigned
int
pba
;
unsigned
short
page
;
unsigned
short
pages
;
struct
sddr09_card_info
*
info
=
(
struct
sddr09_card_info
*
)
us
->
extra
;
unsigned
int
lba
,
page
,
pages
;
unsigned
char
*
buffer
=
NULL
;
unsigned
char
*
ptr
;
struct
scatterlist
*
sg
=
NULL
;
int
i
;
int
len
;
int
transferred
;
int
result
,
i
,
len
;
// If we're using scatter-gather, we have to create a new
// buffer to
read
all of the data in first, since a
// buffer to
write
all of the data in first, since a
// scatter-gather buffer could in theory start in the middle
// of a page, which would be bad. A developer who wants a
// challenge might want to write a limited-buffer
...
...
@@ -302,78 +1090,50 @@ int sddr09_read_data(struct us_data *us,
len
=
sectors
*
info
->
pagesize
;
if
(
use_sg
)
{
int
transferred
=
0
;
sg
=
(
struct
scatterlist
*
)
content
;
buffer
=
kmalloc
(
len
,
GFP_NOIO
);
if
(
buffer
==
NULL
)
return
USB_STOR_TRANSPORT_ERROR
;
for
(
i
=
0
;
i
<
use_sg
&&
transferred
<
len
;
i
++
)
{
unsigned
char
*
buf
;
unsigned
int
length
;
buf
=
page_address
(
sg
[
i
].
page
)
+
sg
[
i
].
offset
;
length
=
len
-
transferred
;
if
(
length
>
sg
[
i
].
length
)
length
=
sg
[
i
].
length
;
memcpy
(
buffer
+
transferred
,
buf
,
length
);
transferred
+=
sg
[
i
].
length
;
}
ptr
=
buffer
;
}
else
ptr
=
content
;
// Figure out the initial LBA and page
pba
=
address
>>
(
info
->
pageshift
+
info
->
blockshift
);
lba
=
info
->
pba_to_lba
[
pba
];
page
=
(
address
>>
info
->
pageshift
)
&
info
->
blockmask
;
lba
=
address
>>
info
->
blockshift
;
page
=
(
address
&
info
->
blockmask
);
// This could be made much more efficient by checking for
// contiguous LBA's. Another exercise left to the student.
while
(
sectors
>
0
)
{
result
=
USB_STOR_TRANSPORT_GOOD
;
pba
=
info
->
lba_to_pba
[
lba
];
while
(
sectors
>
0
)
{
//
Read
as many sectors as possible in this block
//
Write
as many sectors as possible in this block
pages
=
info
->
blocksize
-
page
;
if
(
pages
>
sectors
)
pages
=
sectors
;
US_DEBUGP
(
"Read %02X pages, from PBA %04X"
" (LBA %04X) page %02X
\n
"
,
pages
,
pba
,
lba
,
page
);
address
=
(
(
pba
<<
info
->
blockshift
)
+
page
)
<<
info
->
pageshift
;
// Unlike in the documentation, the address is in
// words of 2 bytes.
command
[
2
]
=
MSB_of
(
address
>>
17
);
command
[
3
]
=
LSB_of
(
address
>>
17
);
command
[
4
]
=
MSB_of
((
address
>>
1
)
&
0xFFFF
);
command
[
5
]
=
LSB_of
((
address
>>
1
)
&
0xFFFF
);
command
[
10
]
=
MSB_of
(
pages
);
command
[
11
]
=
LSB_of
(
pages
);
result
=
sddr09_send_control
(
us
,
usb_sndctrlpipe
(
us
->
pusb_dev
,
0
),
0
,
0x41
,
0
,
0
,
command
,
12
);
US_DEBUGP
(
"Result for send_control in read_data %d
\n
"
,
result
);
if
(
result
!=
USB_STOR_TRANSPORT_GOOD
)
{
if
(
use_sg
)
kfree
(
buffer
);
return
result
;
}
result
=
sddr09_bulk_transport
(
us
,
SCSI_DATA_READ
,
ptr
,
pages
<<
info
->
pageshift
,
0
);
if
(
result
!=
USB_STOR_TRANSPORT_GOOD
)
{
if
(
use_sg
)
kfree
(
buffer
);
return
result
;
}
result
=
sddr09_write_lba
(
us
,
lba
,
page
,
pages
,
ptr
);
if
(
result
!=
USB_STOR_TRANSPORT_GOOD
)
break
;
page
=
0
;
lba
++
;
...
...
@@ -381,234 +1141,164 @@ int sddr09_read_data(struct us_data *us,
ptr
+=
(
pages
<<
info
->
pageshift
);
}
if
(
use_sg
)
{
transferred
=
0
;
for
(
i
=
0
;
i
<
use_sg
&&
transferred
<
len
;
i
++
)
{
memcpy
(
page_address
(
sg
[
i
].
page
)
+
sg
[
i
].
offset
,
buffer
+
transferred
,
len
-
transferred
>
sg
[
i
].
length
?
sg
[
i
].
length
:
len
-
transferred
);
transferred
+=
sg
[
i
].
length
;
}
if
(
use_sg
)
kfree
(
buffer
);
}
return
USB_STOR_TRANSPORT_GOOD
;
return
result
;
}
int
sddr09_read_control
(
struct
us_data
*
us
,
static
int
sddr09_read_control
(
struct
us_data
*
us
,
unsigned
long
address
,
unsigned
shor
t
blocks
,
unsigned
in
t
blocks
,
unsigned
char
*
content
,
int
use_sg
)
{
// Unlike in the documentation, the last two bytes are the
// number of blocks, not sectors.
int
result
;
unsigned
char
command
[
12
]
=
{
0xe8
,
0x21
,
MSB_of
(
address
>>
16
),
LSB_of
(
address
>>
16
),
MSB_of
(
address
&
0xFFFF
),
LSB_of
(
address
&
0xFFFF
),
0
,
0
,
0
,
0
,
MSB_of
(
blocks
),
LSB_of
(
blocks
)
};
US_DEBUGP
(
"Read control address %08lX blocks %04X
\n
"
,
address
,
blocks
);
result
=
sddr09_send_control
(
us
,
usb_sndctrlpipe
(
us
->
pusb_dev
,
0
),
0
,
0x41
,
0
,
0
,
command
,
12
);
US_DEBUGP
(
"Result for send_control in read_control %d
\n
"
,
result
);
if
(
result
!=
USB_STOR_TRANSPORT_GOOD
)
return
result
;
result
=
sddr09_bulk_transport
(
us
,
SCSI_DATA_READ
,
content
,
blocks
<<
6
,
use_sg
);
// 0x40 bytes per block
US_DEBUGP
(
"Result for bulk read in read_control %d
\n
"
,
result
);
return
result
;
return
sddr09_read21
(
us
,
address
,
blocks
,
CONTROL_SHIFT
,
content
,
use_sg
);
}
int
sddr09_read_deviceID
(
struct
us_data
*
us
,
unsigned
char
*
manufacturerID
,
unsigned
char
*
deviceID
)
{
int
result
;
/*
* Read Device ID Command: 12 bytes.
* byte 0: opcode: ED
*
* Returns 2 bytes: Manufacturer ID and Device ID.
* On more recent cards 3 bytes: the third byte is an option code A5
* signifying that the secret command to read an 128-bit ID is available.
* On still more recent cards 4 bytes: the fourth byte C0 means that
* a second read ID cmd is available.
*/
static
int
sddr09_read_deviceID
(
struct
us_data
*
us
,
unsigned
char
*
deviceID
)
{
unsigned
char
command
[
12
]
=
{
0xed
,
0x20
,
0
,
0
,
0
,
0
,
0
,
0
,
0
,
0
,
0
,
0
0xed
,
LUNBITS
,
0
,
0
,
0
,
0
,
0
,
0
,
0
,
0
,
0
,
0
};
unsigned
char
content
[
64
];
int
result
,
i
;
result
=
sddr09_send_control
(
us
,
usb_sndctrlpipe
(
us
->
pusb_dev
,
0
),
0
,
0x41
,
0
,
0
,
command
,
12
);
US_DEBUGP
(
"Result of send_control for device ID is %d
\n
"
,
result
);
result
=
sddr09_send_scsi_command
(
us
,
command
,
sizeof
(
command
));
if
(
result
!=
USB_STOR_TRANSPORT_GOOD
)
return
result
;
result
=
sddr09_bulk_transport
(
us
,
SCSI_DATA_READ
,
content
,
64
,
0
);
result
=
sddr09_bulk_transport
(
us
,
SCSI_DATA_READ
,
content
,
64
,
0
);
*
manufacturerID
=
content
[
0
];
*
deviceID
=
content
[
1
];
for
(
i
=
0
;
i
<
4
;
i
++
)
deviceID
[
i
]
=
content
[
i
];
return
result
;
}
int
sddr09_read_status
(
struct
us_data
*
us
,
unsigned
char
*
status
)
{
static
int
sddr09_get_wp
(
struct
us_data
*
us
,
struct
sddr09_card_info
*
info
)
{
int
result
;
unsigned
char
command
[
12
]
=
{
0xec
,
0x20
,
0
,
0
,
0
,
0
,
0
,
0
,
0
,
0
,
0
,
0
};
result
=
sddr09_send_control
(
us
,
usb_sndctrlpipe
(
us
->
pusb_dev
,
0
),
0
,
0x41
,
0
,
0
,
command
,
12
);
if
(
result
!=
USB_STOR_TRANSPORT_GOOD
)
return
result
;
result
=
sddr09_bulk_transport
(
us
,
SCSI_DATA_READ
,
status
,
1
,
0
);
unsigned
char
status
;
result
=
sddr09_read_status
(
us
,
&
status
);
if
(
result
!=
USB_STOR_TRANSPORT_GOOD
)
{
US_DEBUGP
(
"sddr09_get_wp: read_status fails
\n
"
);
return
result
;
}
US_DEBUGP
(
"sddr09_get_wp: status %02X"
,
status
);
if
((
status
&
0x80
)
==
0
)
{
info
->
flags
|=
SDDR09_WP
;
/* write protected */
US_DEBUGP
(
" WP"
);
}
if
(
status
&
0x40
)
US_DEBUGP
(
" Ready"
);
if
(
status
&
LUNBITS
)
US_DEBUGP
(
" Suspended"
);
if
(
status
&
0x1
)
US_DEBUGP
(
" Error"
);
US_DEBUGP
(
"
\n
"
);
return
USB_STOR_TRANSPORT_GOOD
;
}
int
sddr09_reset
(
struct
us_data
*
us
)
{
#if 0
/*
* Reset Command: 12 bytes.
* byte 0: opcode: EB
*/
static int
sddr09_reset(struct us_data *us) {
int
result
;
unsigned char command[12] = {
0xeb
,
0x20
,
0
,
0
,
0
,
0
,
0
,
0
,
0
,
0
,
0
,
0
0xeb,
LUNBITS
, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0
};
result
=
sddr09_send_control
(
us
,
usb_sndctrlpipe
(
us
->
pusb_dev
,
0
),
0
,
0x41
,
0
,
0
,
command
,
12
);
return
result
;
return sddr09_send_scsi_command(us, command, sizeof(command));
}
#endif
unsigned
long
sddr09_get_capacity
(
struct
us_data
*
us
,
unsigned
int
*
pagesize
,
unsigned
int
*
blocksize
)
{
unsigned
char
manufacturerID
;
unsigned
char
deviceID
;
static
struct
nand_flash_dev
*
sddr09_get_cardinfo
(
struct
us_data
*
us
,
unsigned
char
flags
)
{
struct
nand_flash_dev
*
cardinfo
;
unsigned
char
deviceID
[
4
]
;
char
blurbtxt
[
256
]
;
int
result
;
US_DEBUGP
(
"Reading capacity...
\n
"
);
result
=
sddr09_read_deviceID
(
us
,
&
manufacturerID
,
&
deviceID
);
US_DEBUGP
(
"Result of read_deviceID is %d
\n
"
,
result
);
result
=
sddr09_read_deviceID
(
us
,
deviceID
);
if
(
result
!=
USB_STOR_TRANSPORT_GOOD
)
if
(
result
!=
USB_STOR_TRANSPORT_GOOD
)
{
US_DEBUGP
(
"Result of read_deviceID is %d
\n
"
,
result
);
printk
(
"sddr09: could not read card info
\n
"
);
return
0
;
}
US_DEBUGP
(
"Device ID = %02X
\n
"
,
deviceID
);
US_DEBUGP
(
"Manuf ID = %02X
\n
"
,
manufacturerID
);
*
pagesize
=
512
;
*
blocksize
=
16
;
switch
(
deviceID
)
{
case
0x6e
:
// 1MB
case
0xe8
:
case
0xec
:
*
pagesize
=
256
;
return
0x00100000
;
case
0xea
:
// 2MB
case
0x5d
:
// 5d is a ROM card with pagesize 512.
case
0x64
:
if
(
deviceID
!=
0x5D
)
*
pagesize
=
256
;
return
0x00200000
;
case
0xe3
:
// 4MB
case
0xe5
:
case
0x6b
:
case
0xd5
:
return
0x00400000
;
case
0xe6
:
// 8MB
case
0xd6
:
return
0x00800000
;
case
0x73
:
// 16MB
*
blocksize
=
32
;
return
0x01000000
;
sprintf
(
blurbtxt
,
"sddr09: Found Flash card, ID = %02X %02X %02X %02X"
,
deviceID
[
0
],
deviceID
[
1
],
deviceID
[
2
],
deviceID
[
3
]);
/* Byte 0 is the manufacturer */
sprintf
(
blurbtxt
+
strlen
(
blurbtxt
),
": Manuf. %s"
,
nand_flash_manufacturer
(
deviceID
[
0
]));
/* Byte 1 is the device type */
cardinfo
=
nand_find_id
(
deviceID
[
1
]);
if
(
cardinfo
)
{
/* MB or MiB? It is neither. A 16 MB card has
17301504 raw bytes, of which 16384000 are
usable for user data. */
sprintf
(
blurbtxt
+
strlen
(
blurbtxt
),
", %d MB"
,
1
<<
(
cardinfo
->
chipshift
-
20
));
}
else
{
sprintf
(
blurbtxt
+
strlen
(
blurbtxt
),
", type unrecognized"
);
}
case
0x75
:
// 32MB
*
blocksize
=
32
;
return
0x02000000
;
/* Byte 2 is code to signal availability of 128-bit ID */
if
(
deviceID
[
2
]
==
0xa5
)
{
sprintf
(
blurbtxt
+
strlen
(
blurbtxt
),
", 128-bit ID"
);
}
case
0x76
:
// 64MB
*
blocksize
=
32
;
return
0x04000000
;
/* Byte 3 announces the availability of another read ID command */
if
(
deviceID
[
3
]
==
0xc0
)
{
sprintf
(
blurbtxt
+
strlen
(
blurbtxt
),
", extra cmd"
);
}
case
0x79
:
// 128MB
*
blocksize
=
32
;
return
0x08000000
;
if
(
flags
&
SDDR09_WP
)
sprintf
(
blurbtxt
+
strlen
(
blurbtxt
),
", WP"
)
;
default:
// unknown
return
0
;
printk
(
"%s
\n
"
,
blurbtxt
);
}
return
cardinfo
;
}
int
sddr09_read_map
(
struct
us_data
*
us
)
{
static
int
sddr09_read_map
(
struct
us_data
*
us
)
{
struct
scatterlist
*
sg
;
struct
sddr09_card_info
*
info
=
(
struct
sddr09_card_info
*
)
(
us
->
extra
)
;
int
numblocks
;
int
i
;
struct
sddr09_card_info
*
info
=
(
struct
sddr09_card_info
*
)
us
->
extra
;
int
numblocks
,
alloc_len
,
alloc_blocks
;
int
i
,
j
,
result
;
unsigned
char
*
ptr
;
unsigned
short
lba
;
unsigned
char
parity
;
unsigned
char
fast_parity
[
16
]
=
{
0
,
1
,
1
,
0
,
1
,
0
,
0
,
1
,
1
,
0
,
0
,
1
,
0
,
1
,
1
,
0
};
int
result
;
int
alloc_len
;
int
alloc_blocks
;
unsigned
int
lba
,
lbact
;
if
(
!
info
->
capacity
)
return
-
1
;
...
...
@@ -621,7 +1311,7 @@ int sddr09_read_map(struct us_data *us) {
// capacity>>(b+p-6)
alloc_len
=
info
->
capacity
>>
(
info
->
blockshift
+
info
->
pageshift
-
6
);
(
info
->
blockshift
+
info
->
pageshift
-
CONTROL_SHIFT
);
// Allocate a number of scatterlist structures according to
// the number of 128k blocks in the alloc_len. Adding 128k-1
...
...
@@ -660,28 +1350,22 @@ int sddr09_read_map(struct us_data *us) {
numblocks
=
info
->
capacity
>>
(
info
->
blockshift
+
info
->
pageshift
);
if
(
(
result
=
sddr09_read_control
(
us
,
0
,
numblocks
,
(
unsigned
char
*
)
sg
,
alloc_blocks
))
!=
USB_STOR_TRANSPORT_GOOD
)
{
result
=
sddr09_read_control
(
us
,
0
,
numblocks
,
(
unsigned
char
*
)
sg
,
alloc_blocks
);
if
(
result
!=
USB_STOR_TRANSPORT_GOOD
)
{
for
(
i
=
0
;
i
<
alloc_blocks
;
i
++
)
kfree
(
page_address
(
sg
[
i
].
page
)
+
sg
[
i
].
offset
);
kfree
(
sg
);
return
-
1
;
}
if
(
info
->
lba_to_pba
)
kfree
(
info
->
lba_to_pba
);
if
(
info
->
pba_to_lba
)
kfree
(
info
->
pba_to_lba
);
info
->
lba_to_pba
=
kmalloc
(
numblocks
*
sizeof
(
int
),
GFP_NOIO
);
info
->
pba_to_lba
=
kmalloc
(
numblocks
*
sizeof
(
int
),
GFP_NOIO
);
if
(
info
->
lba_to_pba
==
NULL
||
info
->
pba_to_lba
==
NULL
)
{
if
(
info
->
lba_to_pba
!=
NULL
)
kfree
(
info
->
lba_to_pba
);
if
(
info
->
pba_to_lba
!=
NULL
)
kfree
(
info
->
pba_to_lba
);
info
->
lba_to_pba
=
NULL
;
info
->
pba_to_lba
=
NULL
;
...
...
@@ -691,64 +1375,137 @@ int sddr09_read_map(struct us_data *us) {
return
0
;
}
memset
(
info
->
lba_to_pba
,
0
,
numblocks
*
sizeof
(
int
));
memset
(
info
->
pba_to_lba
,
0
,
numblocks
*
sizeof
(
int
));
for
(
i
=
0
;
i
<
numblocks
;
i
++
)
info
->
lba_to_pba
[
i
]
=
info
->
pba_to_lba
[
i
]
=
UNDEF
;
ptr
=
page_address
(
sg
[
0
].
page
)
+
sg
[
0
].
offset
;
/*
* Define lba-pba translation table
*/
// Each block is 64 bytes of control data, so block i is located in
// scatterlist block i*64/128k = i*(2^6)*(2^-17) = i*(2^-11)
#if 0
/* No translation */
for (i=0; i<numblocks; i++) {
ptr
=
page_address
(
sg
[
i
>>
11
].
page
)
+
sg
[
i
>>
11
].
offset
+
((
i
&
0x7ff
)
<<
6
);
if
(
ptr
[
0
]
!=
0xFF
||
ptr
[
1
]
!=
0xFF
||
ptr
[
2
]
!=
0xFF
||
ptr
[
3
]
!=
0xFF
||
ptr
[
4
]
!=
0xFF
||
ptr
[
5
]
!=
0xFF
)
{
US_DEBUGP
(
"PBA %04X has no logical mapping: reserved area = "
"%02X%02X%02X%02X data status %02X block status %02X
\n
"
,
i
,
ptr
[
0
],
ptr
[
1
],
ptr
[
2
],
ptr
[
3
],
ptr
[
4
],
ptr
[
5
]);
continue
;
lba = i;
info->pba_to_lba[i] = lba;
info->lba_to_pba[lba] = i;
}
if
((
ptr
[
6
]
>>
4
)
!=
0x01
)
{
US_DEBUGP
(
"PBA %04X has invalid address field %02X%02X/%02X%02X
\n
"
,
i
,
ptr
[
6
],
ptr
[
7
],
ptr
[
11
],
ptr
[
12
]);
printk("sddr09: no translation today\n");
#else
for
(
i
=
0
;
i
<
numblocks
;
i
++
)
{
ptr
=
page_address
(
sg
[
i
>>
11
].
page
)
+
sg
[
i
>>
11
].
offset
+
((
i
&
0x7ff
)
<<
6
);
if
(
i
==
0
||
i
==
1
)
{
info
->
pba_to_lba
[
i
]
=
UNUSABLE
;
continue
;
}
/* ensure even parity */
/* special PBAs have control field 0^16 */
for
(
j
=
0
;
j
<
16
;
j
++
)
if
(
ptr
[
j
]
!=
0
)
goto
nonz
;
info
->
pba_to_lba
[
i
]
=
UNUSABLE
;
printk
(
"sddr09: PBA %04X has no logical mapping
\n
"
,
i
);
continue
;
lba
=
short_pack
(
ptr
[
7
],
ptr
[
6
]);
parity
=
1
;
// the parity of 0x1000
parity
^=
fast_parity
[
lba
&
0x000F
];
parity
^=
fast_parity
[(
lba
>>
4
)
&
0x000F
];
parity
^=
fast_parity
[(
lba
>>
8
)
&
0x000F
];
nonz:
/* unwritten PBAs have control field FF^16 */
for
(
j
=
0
;
j
<
16
;
j
++
)
if
(
ptr
[
j
]
!=
0xff
)
goto
nonff
;
continue
;
if
(
parity
)
{
/* bad parity bit */
US_DEBUGP
(
"Bad parity in LBA for block %04X
\n
"
,
i
);
nonff:
/* normal PBAs start with six FFs */
if
(
j
<
6
)
{
printk
(
"sddr09: PBA %04X has no logical mapping: "
"reserved area = %02X%02X%02X%02X "
"data status %02X block status %02X
\n
"
,
i
,
ptr
[
0
],
ptr
[
1
],
ptr
[
2
],
ptr
[
3
],
ptr
[
4
],
ptr
[
5
]);
info
->
pba_to_lba
[
i
]
=
UNUSABLE
;
continue
;
}
lba
=
(
lba
&
0x07FF
)
>>
1
;
if
((
ptr
[
6
]
>>
4
)
!=
0x01
)
{
printk
(
"sddr09: PBA %04X has invalid address field "
"%02X%02X/%02X%02X
\n
"
,
i
,
ptr
[
6
],
ptr
[
7
],
ptr
[
11
],
ptr
[
12
]);
info
->
pba_to_lba
[
i
]
=
UNUSABLE
;
continue
;
}
/* Every 1024 physical blocks ("zone"), the LBA numbers
* go back to zero, but are within a higher
* block of LBA's. Also, there is a maximum of
* 1000 LBA's per zone. In other words, in PBA
* 1024-2047 you will find LBA 0-999 which are
* really LBA 1000-1999. Yes, this wastes 24
* physical blocks per zone. Go figure.
*/
/* check even parity */
if
(
parity
[
ptr
[
6
]
^
ptr
[
7
]])
{
printk
(
"sddr09: Bad parity in LBA for block %04X"
" (%02X %02X)
\n
"
,
i
,
ptr
[
6
],
ptr
[
7
]);
info
->
pba_to_lba
[
i
]
=
UNUSABLE
;
continue
;
}
lba
+=
1000
*
(
i
/
0x400
);
lba
=
short_pack
(
ptr
[
7
],
ptr
[
6
]);
lba
=
(
lba
&
0x07FF
)
>>
1
;
/*
* Every 1024 physical blocks ("zone"), the LBA numbers
* go back to zero, but are within a higher block of LBA's.
* Also, there is a maximum of 1000 LBA's per zone.
* In other words, in PBA 1024-2047 you will find LBA 0-999
* which are really LBA 1000-1999. This allows for 24 bad
* or special physical blocks per zone.
*/
if
(
lba
>=
numblocks
)
{
US_DEBUGP
(
"Bad LBA %04X for block %04X
\n
"
,
lba
,
i
);
if
(
lba
>=
1000
)
{
unsigned
long
address
;
printk
(
"sddr09: Bad LBA %04X for block %04X
\n
"
,
lba
,
i
);
info
->
pba_to_lba
[
i
]
=
UNDEF
/* UNUSABLE */
;
if
(
erase_bad_lba_entries
)
{
/* some cameras cannot erase a card if it has
bad entries, so we supply this function */
address
=
(
i
<<
(
info
->
pageshift
+
info
->
blockshift
));
sddr09_erase
(
us
,
address
>>
1
);
}
continue
;
}
if
(
lba
<
0x10
||
(
lba
>=
0x3E0
&&
lba
<
0x3EF
))
lba
+=
1000
*
(
i
/
0x400
);
if
(
lba
<
0x10
||
(
lba
>=
0x3E0
&&
lba
<
0x3EF
))
US_DEBUGP
(
"LBA %04X <-> PBA %04X
\n
"
,
lba
,
i
);
info
->
pba_to_lba
[
i
]
=
lba
;
info
->
lba_to_pba
[
lba
]
=
i
;
}
#endif
/*
* Approximate capacity. This is not entirely correct yet,
* since a zone with less than 1000 usable pages leads to
* missing LBAs. Especially if it is the last zone, some
* LBAs can be past capacity.
*/
lbact
=
0
;
for
(
i
=
0
;
i
<
numblocks
;
i
+=
1024
)
{
int
ct
=
0
;
for
(
j
=
0
;
j
<
1024
&&
i
+
j
<
numblocks
;
j
++
)
{
if
(
info
->
pba_to_lba
[
i
+
j
]
!=
UNUSABLE
)
{
if
(
ct
>=
1000
)
info
->
pba_to_lba
[
i
+
j
]
=
SPARE
;
else
ct
++
;
}
}
lbact
+=
ct
;
}
info
->
lbact
=
lbact
;
US_DEBUGP
(
"Found %d LBA's
\n
"
,
lbact
);
for
(
i
=
0
;
i
<
alloc_blocks
;
i
++
)
kfree
(
page_address
(
sg
[
i
].
page
)
+
sg
[
i
].
offset
);
...
...
@@ -756,67 +1513,74 @@ int sddr09_read_map(struct us_data *us) {
return
0
;
}
/*
static int init_sddr09(struct us_data *us) {
int result;
unsigned char data[14];
unsigned char command[8] = {
0xc1, 0x01, 0, 0, 0, 0, 0, 0
};
unsigned char command2[8] = {
0x41, 0, 0, 0, 0, 0, 0, 0
};
unsigned char tur[12] = {
0x03, 0x20, 0, 0, 0x0e, 0, 0, 0, 0, 0, 0, 0
};
static
void
sddr09_card_info_destructor
(
void
*
extra
)
{
struct
sddr09_card_info
*
info
=
(
struct
sddr09_card_info
*
)
extra
;
// What the hey is all this for? Doesn't seem to
// affect the device, so we won't do device inits.
if
(
!
info
)
return
;
if ( (result = sddr09_send_control(us, command, data, 2)) !=
USB_STOR_TRANSPORT_GOOD)
return result;
kfree
(
info
->
lba_to_pba
);
kfree
(
info
->
pba_to_lba
);
}
US_DEBUGP("SDDR09: %02X %02X\n", data[0], data[1]);
static
void
sddr09_init_card_info
(
struct
us_data
*
us
)
{
if
(
!
us
->
extra
)
{
us
->
extra
=
kmalloc
(
sizeof
(
struct
sddr09_card_info
),
GFP_NOIO
);
if
(
us
->
extra
)
{
memset
(
us
->
extra
,
0
,
sizeof
(
struct
sddr09_card_info
));
us
->
extra_destructor
=
sddr09_card_info_destructor
;
}
}
}
command[1] = 0x08;
/*
* This is needed at a very early stage. If this is not listed in the
* unusual devices list but called from here then LUN 0 of the combo reader
* is not recognized. But I do not know what precisely these calls do.
*/
int
sddr09_init
(
struct
us_data
*
us
)
{
int
result
;
unsigned
char
data
[
18
];
if ( (result = sddr09_send_control(us, command, data, 2)) !=
USB_STOR_TRANSPORT_GOOD)
result
=
sddr09_send_command
(
us
,
0x01
,
USB_DIR_IN
,
data
,
2
);
if
(
result
!=
USB_STOR_TRANSPORT_GOOD
)
{
US_DEBUGP
(
"sddr09_init: send_command fails
\n
"
);
return
result
;
}
US_DEBUGP("SDDR09: %02X %02X\n", data[0], data[1]);
US_DEBUGP
(
"SDDR09init: %02X %02X
\n
"
,
data
[
0
],
data
[
1
]);
// get 07 02
if ( (result = sddr09_send_control(us, command2, tur, 12)) !=
USB_STOR_TRANSPORT_GOOD) {
US_DEBUGP("
SDDR09: request sense failed
\n");
result
=
sddr09_send_command
(
us
,
0x08
,
USB_DIR_IN
,
data
,
2
);
if
(
result
!=
USB_STOR_TRANSPORT_GOOD
)
{
US_DEBUGP
(
"
sddr09_init: 2nd send_command fails
\n
"
);
return
result
;
}
if ( (result = sddr09_raw_bulk(
us, SCSI_DATA_READ, data, 14)) !=
USB_STOR_TRANSPORT_GOOD) {
US_DEBUGP("SDDR09: request sense bulk in failed\n");
return result;
US_DEBUGP
(
"SDDR09init: %02X %02X
\n
"
,
data
[
0
],
data
[
1
]);
// get 07 00
result
=
sddr09_request_sense
(
us
,
data
,
sizeof
(
data
));
if
(
result
==
USB_STOR_TRANSPORT_GOOD
&&
data
[
2
]
!=
0
)
{
int
j
;
for
(
j
=
0
;
j
<
sizeof
(
data
);
j
++
)
printk
(
" %02X"
,
data
[
j
]);
printk
(
"
\n
"
);
// get 70 00 00 00 00 00 00 * 00 00 00 00 00 00
// 70: current command
// sense key 0, sense code 0, extd sense code 0
// additional transfer length * = sizeof(data) - 7
// Or: 70 00 06 00 00 00 00 0b 00 00 00 00 28 00 00 00 00 00
// sense key 06, sense code 28: unit attention,
// not ready to ready transition
}
US_DEBUGP("SDDR09: request sense worked\n");
return result;
}
*/
void
sddr09_card_info_destructor
(
void
*
extra
)
{
struct
sddr09_card_info
*
info
=
(
struct
sddr09_card_info
*
)
extra
;
// test unit ready
if
(
!
extra
)
return
;
if
(
info
->
lba_to_pba
)
kfree
(
info
->
lba_to_pba
);
if
(
info
->
pba_to_lba
)
kfree
(
info
->
pba_to_lba
);
return
USB_STOR_TRANSPORT_GOOD
;
/* not result */
}
/*
...
...
@@ -824,36 +1588,53 @@ void sddr09_card_info_destructor(void *extra) {
*/
int
sddr09_transport
(
Scsi_Cmnd
*
srb
,
struct
us_data
*
us
)
{
int
result
;
int
i
;
static
unsigned
char
sensekey
=
0
,
sensecode
=
0
;
static
unsigned
char
havefakesense
=
0
;
int
result
,
i
;
unsigned
char
*
ptr
;
unsigned
long
capacity
;
unsigned
int
page
,
pages
;
char
string
[
64
];
struct
sddr09_card_info
*
info
;
unsigned
char
inquiry_response
[
36
]
=
{
0x00
,
0x80
,
0x00
,
0x02
,
0x1F
,
0x00
,
0x00
,
0x00
};
unsigned
char
mode_page_01
[
16
]
=
{
// write-protected for now
0x03
,
0x00
,
0x80
,
0x00
,
unsigned
char
mode_page_01
[
16
]
=
{
0x0F
,
0x00
,
0
,
0x00
,
0x01
,
0x0A
,
0x00
,
0x00
,
0x00
,
0x00
,
0x00
,
0x00
,
0x00
,
0x00
,
0x00
,
0x00
};
unsigned
char
*
ptr
;
unsigned
long
capacity
;
unsigned
int
lba
;
unsigned
int
pba
;
unsigned
int
page
;
unsigned
short
pages
;
struct
sddr09_card_info
*
info
=
(
struct
sddr09_card_info
*
)(
us
->
extra
);
if
(
!
us
->
extra
)
{
us
->
extra
=
kmalloc
(
sizeof
(
struct
sddr09_card_info
),
GFP_NOIO
);
if
(
!
us
->
extra
)
info
=
(
struct
sddr09_card_info
*
)
us
->
extra
;
if
(
!
info
)
{
nand_init_ecc
();
sddr09_init_card_info
(
us
);
info
=
(
struct
sddr09_card_info
*
)
us
->
extra
;
if
(
!
info
)
return
USB_STOR_TRANSPORT_ERROR
;
memset
(
us
->
extra
,
0
,
sizeof
(
struct
sddr09_card_info
));
us
->
extra_destructor
=
sddr09_card_info_destructor
;
}
ptr
=
(
unsigned
char
*
)
srb
->
request_buffer
;
if
(
srb
->
cmnd
[
0
]
==
REQUEST_SENSE
&&
havefakesense
)
{
/* for a faked command, we have to follow with a faked sense */
memset
(
ptr
,
0
,
srb
->
request_bufflen
);
if
(
srb
->
request_bufflen
>
7
)
{
ptr
[
0
]
=
0x70
;
ptr
[
2
]
=
sensekey
;
ptr
[
7
]
=
srb
->
request_bufflen
-
7
;
}
if
(
srb
->
request_bufflen
>
12
)
ptr
[
12
]
=
sensecode
;
sensekey
=
sensecode
=
havefakesense
=
0
;
return
USB_STOR_TRANSPORT_GOOD
;
}
havefakesense
=
1
;
/* Dummy up a response for INQUIRY since SDDR09 doesn't
respond to INQUIRY commands */
...
...
@@ -864,43 +1645,44 @@ int sddr09_transport(Scsi_Cmnd *srb, struct us_data *us)
}
if
(
srb
->
cmnd
[
0
]
==
READ_CAPACITY
)
{
struct
nand_flash_dev
*
cardinfo
;
capacity
=
sddr09_get_capacity
(
us
,
&
info
->
pagesize
,
&
info
->
blocksize
);
sddr09_get_wp
(
us
,
info
);
/* read WP bit */
if
(
!
capacity
)
cardinfo
=
sddr09_get_cardinfo
(
us
,
info
->
flags
);
if
(
!
cardinfo
)
{
/* probably no media */
sensekey
=
0x02
;
/* not ready */
sensecode
=
0x3a
;
/* medium not present */
return
USB_STOR_TRANSPORT_FAILED
;
}
info
->
capacity
=
capacity
;
for
(
info
->
pageshift
=
1
;
(
info
->
pagesize
>>
info
->
pageshift
);
info
->
pageshift
++
);
info
->
pageshift
--
;
for
(
info
->
blockshift
=
1
;
(
info
->
blocksize
>>
info
->
blockshift
);
info
->
blockshift
++
);
info
->
blockshift
--
;
info
->
blockmask
=
(
1
<<
info
->
blockshift
)
-
1
;
info
->
capacity
=
(
1
<<
cardinfo
->
chipshift
);
info
->
pageshift
=
cardinfo
->
pageshift
;
info
->
pagesize
=
(
1
<<
info
->
pageshift
);
info
->
blockshift
=
cardinfo
->
blockshift
;
info
->
blocksize
=
(
1
<<
info
->
blockshift
);
info
->
blockmask
=
info
->
blocksize
-
1
;
// map initialization, must follow get_cardinfo()
sddr09_read_map
(
us
);
//
Last page in the card
//
Report capacity
capacity
/=
info
->
pagesize
;
capacity
--
;
capacity
=
(
info
->
lbact
<<
info
->
blockshift
)
-
1
;
ptr
[
0
]
=
MSB_of
(
capacity
>>
16
);
ptr
[
1
]
=
LSB_of
(
capacity
>>
16
);
ptr
[
2
]
=
MSB_of
(
capacity
&
0xFFFF
);
ptr
[
3
]
=
LSB_of
(
capacity
&
0xFFFF
);
//
The
page size
//
Report
page size
ptr
[
4
]
=
MSB_of
(
info
->
pagesize
>>
16
);
ptr
[
5
]
=
LSB_of
(
info
->
pagesize
>>
16
);
ptr
[
6
]
=
MSB_of
(
info
->
pagesize
&
0xFFFF
);
ptr
[
7
]
=
LSB_of
(
info
->
pagesize
&
0xFFFF
);
sddr09_read_map
(
us
);
return
USB_STOR_TRANSPORT_GOOD
;
}
...
...
@@ -914,19 +1696,21 @@ int sddr09_transport(Scsi_Cmnd *srb, struct us_data *us)
US_DEBUGP
(
"SDDR09: Dummy up request for mode page 1
\n
"
);
if
(
ptr
==
NULL
||
if
(
ptr
==
NULL
||
srb
->
request_bufflen
<
sizeof
(
mode_page_01
))
return
USB_STOR_TRANSPORT_ERROR
;
mode_page_01
[
0
]
=
sizeof
(
mode_page_01
)
-
1
;
mode_page_01
[
2
]
=
(
info
->
flags
&
SDDR09_WP
)
?
0x80
:
0
;
memcpy
(
ptr
,
mode_page_01
,
sizeof
(
mode_page_01
));
return
USB_STOR_TRANSPORT_GOOD
;
}
else
if
(
(
srb
->
cmnd
[
2
]
&
0x3F
)
==
0x3F
)
{
US_DEBUGP
(
"SDDR09: Dummy up request for
all mode pages
\n
"
);
US_DEBUGP
(
"SDDR09: Dummy up request for "
"
all mode pages
\n
"
);
if
(
ptr
==
NULL
||
if
(
ptr
==
NULL
||
srb
->
request_bufflen
<
sizeof
(
mode_page_01
))
return
USB_STOR_TRANSPORT_ERROR
;
...
...
@@ -935,8 +1719,6 @@ int sddr09_transport(Scsi_Cmnd *srb, struct us_data *us)
}
// FIXME: sense buffer?
return
USB_STOR_TRANSPORT_ERROR
;
}
...
...
@@ -951,6 +1733,8 @@ int sddr09_transport(Scsi_Cmnd *srb, struct us_data *us)
}
havefakesense
=
0
;
if
(
srb
->
cmnd
[
0
]
==
READ_10
)
{
page
=
short_pack
(
srb
->
cmnd
[
3
],
srb
->
cmnd
[
2
]);
...
...
@@ -958,61 +1742,37 @@ int sddr09_transport(Scsi_Cmnd *srb, struct us_data *us)
page
|=
short_pack
(
srb
->
cmnd
[
5
],
srb
->
cmnd
[
4
]);
pages
=
short_pack
(
srb
->
cmnd
[
8
],
srb
->
cmnd
[
7
]);
// convert page to block and page-within-block
lba
=
page
>>
info
->
blockshift
;
page
=
page
&
info
->
blockmask
;
// locate physical block corresponding to logical block
if
(
lba
>=
(
info
->
capacity
>>
(
info
->
pageshift
+
info
->
blockshift
)
)
)
{
US_DEBUGP
(
"READ_10: read page %d pagect %d
\n
"
,
page
,
pages
);
US_DEBUGP
(
"Error: Requested LBA %04X exceeds maximum "
"block %04lX
\n
"
,
lba
,
(
info
->
capacity
>>
(
info
->
pageshift
+
info
->
blockshift
))
-
1
);
// FIXME: sense buffer?
return
USB_STOR_TRANSPORT_ERROR
;
return
sddr09_read_data
(
us
,
page
,
pages
,
ptr
,
srb
->
use_sg
);
}
pba
=
info
->
lba_to_pba
[
lba
];
// if pba is 0, either it's really 0, in which case
// the pba-to-lba map for pba 0 will be the lba,
// or that lba doesn't exist.
if
(
pba
==
0
&&
info
->
pba_to_lba
[
0
]
!=
lba
)
{
// FIXME: sense buffer?
US_DEBUGP
(
"Error: Requested LBA %04X has no physical block "
"mapping.
\n
"
,
lba
);
if
(
srb
->
cmnd
[
0
]
==
WRITE_10
)
{
return
USB_STOR_TRANSPORT_ERROR
;
}
page
=
short_pack
(
srb
->
cmnd
[
3
],
srb
->
cmnd
[
2
]);
page
<<=
16
;
page
|=
short_pack
(
srb
->
cmnd
[
5
],
srb
->
cmnd
[
4
]);
pages
=
short_pack
(
srb
->
cmnd
[
8
],
srb
->
cmnd
[
7
]);
US_DEBUGP
(
"READ_10: read block %04X (LBA %04X) page %01X"
" pages %d
\n
"
,
pba
,
lba
,
page
,
pages
);
US_DEBUGP
(
"WRITE_10: write page %d pagect %d
\n
"
,
page
,
pages
);
return
sddr09_read_data
(
us
,
(
(
pba
<<
info
->
blockshift
)
+
page
)
<<
info
->
pageshift
,
pages
,
ptr
,
srb
->
use_sg
);
return
sddr09_write_data
(
us
,
page
,
pages
,
ptr
,
srb
->
use_sg
);
}
// Pass TEST_UNIT_READY and REQUEST_SENSE through
if
(
srb
->
cmnd
[
0
]
!=
TEST_UNIT_READY
&&
srb
->
cmnd
[
0
]
!=
REQUEST_SENSE
)
return
USB_STOR_TRANSPORT_ERROR
;
// FIXME: sense buffer?
srb
->
cmnd
[
0
]
!=
REQUEST_SENSE
)
{
havefakesense
=
1
;
return
USB_STOR_TRANSPORT_ERROR
;
}
for
(;
srb
->
cmd_len
<
12
;
srb
->
cmd_len
++
)
srb
->
cmnd
[
srb
->
cmd_len
]
=
0
;
srb
->
cmnd
[
1
]
=
0x20
;
srb
->
cmnd
[
1
]
=
LUNBITS
;
string
[
0
]
=
0
;
for
(
i
=
0
;
i
<
12
;
i
++
)
...
...
@@ -1021,17 +1781,12 @@ int sddr09_transport(Scsi_Cmnd *srb, struct us_data *us)
US_DEBUGP
(
"SDDR09: Send control for command %s
\n
"
,
string
);
if
(
(
result
=
sddr09_send_control
(
us
,
usb_sndctrlpipe
(
us
->
pusb_dev
,
0
),
0
,
0x41
,
0
,
0
,
srb
->
cmnd
,
12
))
!=
USB_STOR_TRANSPORT_GOOD
)
result
=
sddr09_send_scsi_command
(
us
,
srb
->
cmnd
,
12
);
if
(
result
!=
USB_STOR_TRANSPORT_GOOD
)
{
US_DEBUGP
(
"sddr09_transport: sddr09_send_scsi_command "
"returns %d
\n
"
,
result
);
return
result
;
US_DEBUGP
(
"SDDR09: Control for command OK
\n
"
);
}
if
(
srb
->
request_bufflen
==
0
)
return
USB_STOR_TRANSPORT_GOOD
;
...
...
@@ -1040,17 +1795,17 @@ int sddr09_transport(Scsi_Cmnd *srb, struct us_data *us)
srb
->
sc_data_direction
==
SCSI_DATA_READ
)
{
US_DEBUGP
(
"SDDR09: %s %d bytes
\n
"
,
srb
->
sc_data_direction
==
SCSI_DATA_WRITE
?
(
srb
->
sc_data_direction
==
SCSI_DATA_WRITE
)
?
"sending"
:
"receiving"
,
srb
->
request_bufflen
);
result
=
sddr09_bulk_transport
(
us
,
srb
->
sc_data_direction
,
srb
->
request_buffer
,
srb
->
request_bufflen
,
srb
->
use_sg
);
srb
->
request_bufflen
,
srb
->
use_sg
);
return
result
;
}
return
USB_STOR_TRANSPORT_GOOD
;
...
...
drivers/usb/storage/sddr09.h
View file @
f4f8a039
...
...
@@ -5,6 +5,7 @@
*
* Current development and maintenance by:
* (c) 2000 Robert Baruch (autophile@dol.net)
* (c) 2002 Andries Brouwer (aeb@cwi.nl)
*
* See sddr09.c for more explanation
*
...
...
@@ -39,6 +40,9 @@ struct sddr09_card_info {
int
blockmask
;
/* 2^blockshift - 1 */
int
*
lba_to_pba
;
/* logical to physical map */
int
*
pba_to_lba
;
/* physical to logical map */
int
lbact
;
/* number of available pages */
int
flags
;
#define SDDR09_WP 1
/* write protected */
};
#endif
drivers/usb/storage/unusual_devs.h
View file @
f4f8a039
...
...
@@ -130,14 +130,14 @@ UNUSUAL_DEV( 0x04e6, 0x0003, 0x0000, 0x9999,
"ImageMate SDDR09"
,
US_SC_SCSI
,
US_PR_EUSB_SDDR09
,
NULL
,
US_FL_SINGLE_LUN
|
US_FL_START_STOP
),
#endif
/* This entry is from Andries.Brouwer@cwi.nl */
UNUSUAL_DEV
(
0x04e6
,
0x0005
,
0x0100
,
0x0208
,
"SCM Microsystems"
,
"eUSB SmartMedia / CompactFlash Adapter"
,
US_SC_SCSI
,
US_PR_DPCM_USB
,
NULL
,
US_SC_SCSI
,
US_PR_DPCM_USB
,
sddr09_init
,
US_FL_START_STOP
),
#endif
UNUSUAL_DEV
(
0x04e6
,
0x0006
,
0x0100
,
0x0205
,
"Shuttle"
,
...
...
drivers/usb/usb-skeleton.c
View file @
f4f8a039
...
...
@@ -525,6 +525,7 @@ static void * skel_probe(struct usb_device *udev, unsigned int ifnum, const stru
int
minor
;
int
buffer_size
;
int
i
;
int
retval
;
char
name
[
10
];
...
...
@@ -535,14 +536,20 @@ static void * skel_probe(struct usb_device *udev, unsigned int ifnum, const stru
}
down
(
&
minor_table_mutex
);
if
(
usb_register_dev
(
&
skel_driver
,
1
,
&
minor
))
{
retval
=
usb_register_dev
(
&
skel_driver
,
1
,
&
minor
);
if
(
retval
)
{
if
(
retval
!=
-
ENODEV
)
{
/* something prevented us from registering this driver */
err
(
"Not able to get a minor for this device."
);
goto
exit
;
}
/* we could not get a dynamic minor, so lets find one of our own */
for
(
minor
=
0
;
minor
<
MAX_DEVICES
;
++
minor
)
{
if
(
minor_table
[
minor
]
==
NULL
)
break
;
}
if
(
minor
>=
MAX_DEVICES
)
{
info
(
"Too many devices plugged in, can not handle this device."
);
err
(
"Too many devices plugged in, can not handle this device."
);
goto
exit
;
}
}
...
...
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