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Kirill Smelkov
linux
Commits
8afb2f5f
Commit
8afb2f5f
authored
Sep 11, 2002
by
Jens Axboe
Browse files
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Plain Diff
add low level driver for sis sata controller
parent
70930b40
Changes
2
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2 changed files
with
1014 additions
and
0 deletions
+1014
-0
drivers/ide/pci/siimage.c
drivers/ide/pci/siimage.c
+861
-0
drivers/ide/pci/siimage.h
drivers/ide/pci/siimage.h
+153
-0
No files found.
drivers/ide/pci/siimage.c
0 → 100644
View file @
8afb2f5f
/*
* linux/drivers/ide/siimage.c Version 1.00 May 9, 2002
*
* Copyright (C) 2001-2002 Andre Hedrick <andre@linux-ide.org>
*/
#include <linux/config.h>
#include <linux/types.h>
#include <linux/pci.h>
#include <linux/delay.h>
#include <linux/hdreg.h>
#include <linux/ide.h>
#include <linux/init.h>
#include <asm/io.h>
#include "ide_modes.h"
#include "siimage.h"
#if defined(DISPLAY_SIIMAGE_TIMINGS) && defined(CONFIG_PROC_FS)
#include <linux/stat.h>
#include <linux/proc_fs.h>
static
u8
siimage_proc
=
0
;
#define SIIMAGE_MAX_DEVS 5
static
struct
pci_dev
*
siimage_devs
[
SIIMAGE_MAX_DEVS
];
static
int
n_siimage_devs
;
static
char
*
print_siimage_get_info
(
char
*
buf
,
struct
pci_dev
*
dev
,
int
index
)
{
char
*
p
=
buf
;
u8
mmio
=
(
dev
->
driver_data
!=
NULL
)
?
1
:
0
;
u32
bmdma
=
(
mmio
)
?
((
u32
)
dev
->
driver_data
)
:
(
pci_resource_start
(
dev
,
4
));
p
+=
sprintf
(
p
,
"
\n
Controller: %d
\n
"
,
index
);
p
+=
sprintf
(
p
,
"SiI%x Chipset.
\n
"
,
dev
->
device
);
if
(
mmio
)
p
+=
sprintf
(
p
,
"MMIO Base 0x%08x
\n
"
,
bmdma
);
p
+=
sprintf
(
p
,
"%s-DMA Base 0x%08x
\n
"
,
(
mmio
)
?
"MMIO"
:
"BM"
,
bmdma
);
p
+=
sprintf
(
p
,
"%s-DMA Base 0x%08x
\n
"
,
(
mmio
)
?
"MMIO"
:
"BM"
,
bmdma
+
8
);
p
+=
sprintf
(
p
,
"--------------- Primary Channel "
"---------------- Secondary Channel "
"-------------
\n
"
);
p
+=
sprintf
(
p
,
"--------------- drive0 --------- drive1 "
"-------- drive0 ---------- drive1 ------
\n
"
);
p
+=
sprintf
(
p
,
"PIO Mode: %s %s"
" %s %s
\n
"
,
"?"
,
"?"
,
"?"
,
"?"
);
return
(
char
*
)
p
;
}
static
int
siimage_get_info
(
char
*
buffer
,
char
**
addr
,
off_t
offset
,
int
count
)
{
char
*
p
=
buffer
;
u16
i
;
p
+=
sprintf
(
p
,
"
\n
"
);
for
(
i
=
0
;
i
<
n_siimage_devs
;
i
++
)
{
struct
pci_dev
*
dev
=
siimage_devs
[
i
];
p
=
print_siimage_get_info
(
p
,
dev
,
i
);
}
return
p
-
buffer
;
/* => must be less than 4k! */
}
#endif
/* defined(DISPLAY_SIIMAGE_TIMINGS) && defined(CONFIG_PROC_FS) */
static
byte
siimage_ratemask
(
ide_drive_t
*
drive
)
{
ide_hwif_t
*
hwif
=
HWIF
(
drive
);
u8
mode
=
0
,
scsc
=
0
;
if
(
hwif
->
mmio
)
scsc
=
hwif
->
INB
(
HWIFADDR
(
0x4A
));
else
pci_read_config_byte
(
hwif
->
pci_dev
,
0x8A
,
&
scsc
);
switch
(
hwif
->
pci_dev
->
device
)
{
case
PCI_DEVICE_ID_SII_3112
:
return
4
;
case
PCI_DEVICE_ID_SII_680
:
if
((
scsc
&
0x10
)
==
0x10
)
/* 133 */
mode
=
4
;
else
if
((
scsc
&
0x30
)
==
0x00
)
/* 100 */
mode
=
3
;
else
if
((
scsc
&
0x20
)
==
0x20
)
/* 66 eek */
BUG
();
// mode = 2;
break
;
default:
return
0
;
}
if
(
!
eighty_ninty_three
(
drive
))
mode
=
min
(
mode
,
(
u8
)
1
);
return
mode
;
}
static
byte
siimage_taskfile_timing
(
ide_hwif_t
*
hwif
)
{
u16
timing
=
0x328a
;
if
(
hwif
->
mmio
)
timing
=
hwif
->
INW
(
SELADDR
(
2
));
else
pci_read_config_word
(
hwif
->
pci_dev
,
SELREG
(
2
),
&
timing
);
switch
(
timing
)
{
case
0x10c1
:
return
4
;
case
0x10c3
:
return
3
;
case
0x1281
:
return
2
;
case
0x2283
:
return
1
;
case
0x328a
:
default:
return
0
;
}
}
static
void
siimage_tuneproc
(
ide_drive_t
*
drive
,
byte
mode_wanted
)
{
ide_hwif_t
*
hwif
=
HWIF
(
drive
);
struct
pci_dev
*
dev
=
hwif
->
pci_dev
;
u16
speedt
=
0
;
u8
unit
=
drive
->
select
.
b
.
unit
;
if
(
hwif
->
mmio
)
speedt
=
hwif
->
INW
(
SELADDR
(
0x04
|
(
unit
<<
unit
)));
else
pci_read_config_word
(
dev
,
SELADDR
(
0x04
|
(
unit
<<
unit
)),
&
speedt
);
/* cheat for now and use the docs */
// switch(siimage_taskfile_timing(hwif)) {
switch
(
mode_wanted
)
{
case
4
:
speedt
=
0x10c1
;
break
;
case
3
:
speedt
=
0x10C3
;
break
;
case
2
:
speedt
=
0x1104
;
break
;
case
1
:
speedt
=
0x2283
;
break
;
case
0
:
default:
speedt
=
0x328A
;
break
;
}
if
(
hwif
->
mmio
)
hwif
->
OUTW
(
speedt
,
SELADDR
(
0x04
|
(
unit
<<
unit
)));
else
pci_write_config_word
(
dev
,
SELADDR
(
0x04
|
(
unit
<<
unit
)),
speedt
);
}
static
void
config_siimage_chipset_for_pio
(
ide_drive_t
*
drive
,
byte
set_speed
)
{
u8
channel_timings
=
siimage_taskfile_timing
(
HWIF
(
drive
));
u8
speed
=
0
,
set_pio
=
ide_get_best_pio_mode
(
drive
,
4
,
5
,
NULL
);
/* WARNING PIO timing mess is going to happen b/w devices, argh */
if
((
channel_timings
!=
set_pio
)
&&
(
set_pio
>
channel_timings
))
set_pio
=
channel_timings
;
siimage_tuneproc
(
drive
,
set_pio
);
speed
=
XFER_PIO_0
+
set_pio
;
if
(
set_speed
)
(
void
)
ide_config_drive_speed
(
drive
,
speed
);
}
static
void
config_chipset_for_pio
(
ide_drive_t
*
drive
,
byte
set_speed
)
{
config_siimage_chipset_for_pio
(
drive
,
set_speed
);
}
static
int
siimage_tune_chipset
(
ide_drive_t
*
drive
,
byte
xferspeed
)
{
u8
ultra6
[]
=
{
0x0F
,
0x0B
,
0x07
,
0x05
,
0x03
,
0x02
,
0x01
};
u8
ultra5
[]
=
{
0x0C
,
0x07
,
0x05
,
0x04
,
0x02
,
0x01
};
u16
dma
[]
=
{
0x2208
,
0x10C2
,
0x10C1
};
ide_hwif_t
*
hwif
=
HWIF
(
drive
);
u16
ultra
=
0
,
multi
=
0
;
u8
mode
=
0
,
unit
=
drive
->
select
.
b
.
unit
;
u8
speed
=
ide_rate_filter
(
siimage_ratemask
(
drive
),
xferspeed
);
u8
scsc
=
0
,
addr_mask
=
((
hwif
->
channel
)
?
((
hwif
->
mmio
)
?
0xF4
:
0x84
)
:
((
hwif
->
mmio
)
?
0xB4
:
0x80
));
if
(
hwif
->
mmio
)
{
scsc
=
hwif
->
INB
(
HWIFADDR
(
0x4A
));
mode
=
hwif
->
INB
(
HWIFADDR
(
addr_mask
));
multi
=
hwif
->
INW
(
SELADDR
(
0x08
|
(
unit
<<
unit
)));
ultra
=
hwif
->
INW
(
SELADDR
(
0x0C
|
(
unit
<<
unit
)));
}
else
{
pci_read_config_byte
(
hwif
->
pci_dev
,
HWIFADDR
(
0x8A
),
&
scsc
);
pci_read_config_byte
(
hwif
->
pci_dev
,
addr_mask
,
&
mode
);
pci_read_config_word
(
hwif
->
pci_dev
,
SELREG
(
0x08
|
(
unit
<<
unit
)),
&
multi
);
pci_read_config_word
(
hwif
->
pci_dev
,
SELREG
(
0x0C
|
(
unit
<<
unit
)),
&
ultra
);
}
mode
&=
~
((
unit
)
?
0x30
:
0x03
);
ultra
&=
~
0x3F
;
scsc
=
((
scsc
&
0x30
)
==
0x00
)
?
0
:
1
;
scsc
=
(
hwif
->
pci_dev
->
device
==
PCI_DEVICE_ID_SII_3112
)
?
1
:
scsc
;
switch
(
speed
)
{
case
XFER_PIO_4
:
case
XFER_PIO_3
:
case
XFER_PIO_2
:
case
XFER_PIO_1
:
case
XFER_PIO_0
:
siimage_tuneproc
(
drive
,
(
speed
-
XFER_PIO_0
));
mode
|=
((
unit
)
?
0x10
:
0x01
);
break
;
#ifdef CONFIG_BLK_DEV_IDEDMA
case
XFER_MW_DMA_2
:
case
XFER_MW_DMA_1
:
case
XFER_MW_DMA_0
:
multi
=
dma
[
speed
-
XFER_MW_DMA_0
];
mode
|=
((
unit
)
?
0x20
:
0x02
);
config_siimage_chipset_for_pio
(
drive
,
0
);
break
;
case
XFER_UDMA_6
:
case
XFER_UDMA_5
:
case
XFER_UDMA_4
:
case
XFER_UDMA_3
:
case
XFER_UDMA_2
:
case
XFER_UDMA_1
:
case
XFER_UDMA_0
:
multi
=
dma
[
2
];
ultra
|=
((
scsc
)
?
(
ultra5
[
speed
-
XFER_UDMA_0
])
:
(
ultra6
[
speed
-
XFER_UDMA_0
]));
mode
|=
((
unit
)
?
0x30
:
0x03
);
config_siimage_chipset_for_pio
(
drive
,
0
);
break
;
#endif
/* CONFIG_BLK_DEV_IDEDMA */
default:
return
1
;
}
if
(
hwif
->
mmio
)
{
hwif
->
OUTB
(
mode
,
HWIFADDR
(
addr_mask
));
hwif
->
OUTW
(
multi
,
SELADDR
(
0x08
|
(
unit
<<
unit
)));
hwif
->
OUTW
(
ultra
,
SELADDR
(
0x0C
|
(
unit
<<
unit
)));
}
else
{
pci_write_config_byte
(
hwif
->
pci_dev
,
addr_mask
,
mode
);
pci_write_config_word
(
hwif
->
pci_dev
,
SELREG
(
0x08
|
(
unit
<<
unit
)),
multi
);
pci_write_config_word
(
hwif
->
pci_dev
,
SELREG
(
0x0C
|
(
unit
<<
unit
)),
ultra
);
}
return
(
ide_config_drive_speed
(
drive
,
speed
));
}
#ifdef CONFIG_BLK_DEV_IDEDMA
static
int
config_chipset_for_dma
(
ide_drive_t
*
drive
)
{
u8
speed
=
ide_dma_speed
(
drive
,
siimage_ratemask
(
drive
));
config_chipset_for_pio
(
drive
,
(
!
(
speed
)));
if
((
!
(
speed
)))
return
0
;
if
(
HWIF
(
drive
)
->
speedproc
(
drive
,
speed
))
return
0
;
if
(
!
drive
->
init_speed
)
drive
->
init_speed
=
speed
;
return
ide_dma_enable
(
drive
);
}
static
int
siimage_config_drive_for_dma
(
ide_drive_t
*
drive
)
{
ide_hwif_t
*
hwif
=
HWIF
(
drive
);
struct
hd_driveid
*
id
=
drive
->
id
;
if
((
id
!=
NULL
)
&&
((
id
->
capability
&
1
)
!=
0
)
&&
drive
->
autodma
)
{
if
(
!
(
hwif
->
atapi_dma
))
goto
fast_ata_pio
;
/* Consult the list of known "bad" drives */
if
(
hwif
->
ide_dma_bad_drive
(
drive
))
goto
fast_ata_pio
;
if
((
id
->
field_valid
&
4
)
&&
siimage_ratemask
(
drive
))
{
if
(
id
->
dma_ultra
&
hwif
->
ultra_mask
)
{
/* Force if Capable UltraDMA */
int
dma
=
config_chipset_for_dma
(
drive
);
if
((
id
->
field_valid
&
2
)
&&
!
dma
)
goto
try_dma_modes
;
}
}
else
if
(
id
->
field_valid
&
2
)
{
try_dma_modes:
if
((
id
->
dma_mword
&
hwif
->
mwdma_mask
)
||
(
id
->
dma_1word
&
hwif
->
swdma_mask
))
{
/* Force if Capable regular DMA modes */
if
(
!
config_chipset_for_dma
(
drive
))
goto
no_dma_set
;
}
}
else
if
(
hwif
->
ide_dma_good_drive
(
drive
)
&&
(
id
->
eide_dma_time
<
150
))
{
/* Consult the list of known "good" drives */
if
(
!
config_chipset_for_dma
(
drive
))
goto
no_dma_set
;
}
else
{
goto
fast_ata_pio
;
}
}
else
if
((
id
->
capability
&
8
)
||
(
id
->
field_valid
&
2
))
{
fast_ata_pio:
no_dma_set:
config_chipset_for_pio
(
drive
,
1
);
return
hwif
->
ide_dma_off_quietly
(
drive
);
}
return
hwif
->
ide_dma_on
(
drive
);
}
/* returns 1 if dma irq issued, 0 otherwise */
static
int
siimage_io_ide_dma_test_irq
(
ide_drive_t
*
drive
)
{
ide_hwif_t
*
hwif
=
HWIF
(
drive
);
u8
dma_altstat
=
0
;
/* return 1 if INTR asserted */
if
((
hwif
->
INB
(
hwif
->
dma_status
)
&
4
)
==
4
)
return
1
;
/* return 1 if Device INTR asserted */
if
((
pci_read_config_byte
(
hwif
->
pci_dev
,
SELREG
(
1
),
&
dma_altstat
)),
((
dma_altstat
&
8
)
==
8
))
return
0
;
//return 1;
return
0
;
}
static
int
siimage_mmio_ide_dma_count
(
ide_drive_t
*
drive
)
{
#ifdef SIIMAGE_VIRTUAL_DMAPIO
struct
request
*
rq
=
HWGROUP
(
drive
)
->
rq
;
ide_hwif_t
*
hwif
=
HWIF
(
drive
);
u32
count
=
(
rq
->
nr_sectors
*
SECTOR_SIZE
);
u32
rcount
=
0
;
hwif
->
OUTL
(
count
,
SELADDR
(
0x1C
));
rcount
=
hwif
->
INL
(
SELADDR
(
0x1C
));
printk
(
"
\n
%s: count = %d, rcount = %d, nr_sectors = %lu
\n
"
,
drive
->
name
,
count
,
rcount
,
rq
->
nr_sectors
);
#endif
/* SIIMAGE_VIRTUAL_DMAPIO */
return
__ide_dma_count
(
drive
);
}
/* returns 1 if dma irq issued, 0 otherwise */
static
int
siimage_mmio_ide_dma_test_irq
(
ide_drive_t
*
drive
)
{
ide_hwif_t
*
hwif
=
HWIF
(
drive
);
if
(
SATA_ERROR_REG
)
{
u32
ext_stat
=
hwif
->
INL
(
HWIFADDR
(
0x10
));
u8
watchdog
=
0
;
if
(
ext_stat
&
((
hwif
->
channel
)
?
0x40
:
0x10
))
{
u32
sata_error
=
hwif
->
INL
(
SATA_ERROR_REG
);
hwif
->
OUTL
(
sata_error
,
SATA_ERROR_REG
);
watchdog
=
(
sata_error
&
0x00680000
)
?
1
:
0
;
#if 1
printk
(
"%s: sata_error = 0x%08x, "
"watchdog = %d, %s
\n
"
,
drive
->
name
,
sata_error
,
watchdog
,
__FUNCTION__
);
#endif
}
else
{
watchdog
=
(
ext_stat
&
0x8000
)
?
1
:
0
;
}
ext_stat
>>=
16
;
if
(
!
(
ext_stat
&
0x0404
)
&&
!
watchdog
)
return
0
;
}
/* return 1 if INTR asserted */
if
((
hwif
->
INB
(
hwif
->
dma_status
)
&
0x04
)
==
0x04
)
return
1
;
/* return 1 if Device INTR asserted */
if
((
hwif
->
INB
(
SELADDR
(
1
))
&
8
)
==
8
)
return
0
;
//return 1;
return
0
;
}
static
int
siimage_mmio_ide_dma_verbose
(
ide_drive_t
*
drive
)
{
int
temp
=
__ide_dma_verbose
(
drive
);
#if 0
drive->using_dma = 0;
#endif
return
temp
;
}
#endif
/* CONFIG_BLK_DEV_IDEDMA */
static
int
siimage_busproc
(
ide_drive_t
*
drive
,
int
state
)
{
ide_hwif_t
*
hwif
=
HWIF
(
drive
);
u32
stat_config
=
0
;
if
(
hwif
->
mmio
)
{
stat_config
=
hwif
->
INL
(
SELADDR
(
0
));
}
else
pci_read_config_dword
(
hwif
->
pci_dev
,
SELREG
(
0
),
&
stat_config
);
switch
(
state
)
{
case
BUSSTATE_ON
:
hwif
->
drives
[
0
].
failures
=
0
;
hwif
->
drives
[
1
].
failures
=
0
;
break
;
case
BUSSTATE_OFF
:
hwif
->
drives
[
0
].
failures
=
hwif
->
drives
[
0
].
max_failures
+
1
;
hwif
->
drives
[
1
].
failures
=
hwif
->
drives
[
1
].
max_failures
+
1
;
break
;
case
BUSSTATE_TRISTATE
:
hwif
->
drives
[
0
].
failures
=
hwif
->
drives
[
0
].
max_failures
+
1
;
hwif
->
drives
[
1
].
failures
=
hwif
->
drives
[
1
].
max_failures
+
1
;
break
;
default:
return
0
;
}
hwif
->
bus_state
=
state
;
return
0
;
}
static
int
siimage_reset_poll
(
ide_drive_t
*
drive
)
{
if
(
SATA_STATUS_REG
)
{
ide_hwif_t
*
hwif
=
HWIF
(
drive
);
if
((
hwif
->
INL
(
SATA_STATUS_REG
)
&
0x03
)
!=
0x03
)
{
printk
(
"%s: reset phy dead, status=0x%08x
\n
"
,
hwif
->
name
,
hwif
->
INL
(
SATA_STATUS_REG
));
HWGROUP
(
drive
)
->
poll_timeout
=
0
;
#if 0
drive->failures++;
return ide_stopped;
#else
return
ide_started
;
#endif
return
1
;
}
return
0
;
}
else
{
return
0
;
}
}
static
void
siimage_pre_reset
(
ide_drive_t
*
drive
)
{
if
(
drive
->
media
!=
ide_disk
)
return
;
if
(
HWIF
(
drive
)
->
pci_dev
->
device
==
PCI_DEVICE_ID_SII_3112
)
{
drive
->
special
.
b
.
set_geometry
=
0
;
drive
->
special
.
b
.
recalibrate
=
0
;
}
}
static
void
siimage_reset
(
ide_drive_t
*
drive
)
{
ide_hwif_t
*
hwif
=
HWIF
(
drive
);
u8
reset
=
0
;
if
(
hwif
->
mmio
)
{
reset
=
hwif
->
INB
(
SELADDR
(
0
));
hwif
->
OUTB
((
reset
|
0x03
),
SELADDR
(
0
));
udelay
(
25
);
hwif
->
OUTB
(
reset
,
SELADDR
(
0
));
(
void
)
hwif
->
INB
(
SELADDR
(
0
));
}
else
{
pci_read_config_byte
(
hwif
->
pci_dev
,
SELREG
(
0
),
&
reset
);
pci_write_config_byte
(
hwif
->
pci_dev
,
SELREG
(
0
),
reset
|
0x03
);
udelay
(
25
);
pci_write_config_byte
(
hwif
->
pci_dev
,
SELREG
(
0
),
reset
);
pci_read_config_byte
(
hwif
->
pci_dev
,
SELREG
(
0
),
&
reset
);
}
if
(
SATA_STATUS_REG
)
{
u32
sata_stat
=
hwif
->
INL
(
SATA_STATUS_REG
);
printk
(
"%s: reset phy, status=0x%08x, %s
\n
"
,
hwif
->
name
,
sata_stat
,
__FUNCTION__
);
if
(
!
(
sata_stat
))
{
printk
(
"%s: reset phy dead, status=0x%08x
\n
"
,
hwif
->
name
,
sata_stat
);
drive
->
failures
++
;
}
}
}
static
void
proc_reports_siimage
(
struct
pci_dev
*
dev
,
u8
clocking
,
const
char
*
name
)
{
if
(
dev
->
device
==
PCI_DEVICE_ID_SII_3112
)
goto
sata_skip
;
printk
(
"%s: BASE CLOCK "
,
name
);
clocking
&=
~
0x0C
;
switch
(
clocking
)
{
case
0x03
:
printk
(
"DISABLED !
\n
"
);
break
;
case
0x02
:
printk
(
"== 2X PCI
\n
"
);
break
;
case
0x01
:
printk
(
"== 133
\n
"
);
break
;
case
0x00
:
printk
(
"== 100
\n
"
);
break
;
default:
BUG
();
}
sata_skip:
#if defined(DISPLAY_SIIMAGE_TIMINGS) && defined(CONFIG_PROC_FS)
siimage_devs
[
n_siimage_devs
++
]
=
dev
;
if
(
!
siimage_proc
)
{
siimage_proc
=
1
;
ide_pci_register_host_proc
(
&
siimage_procs
[
0
]);
}
#endif
/* DISPLAY_SIIMAGE_TIMINGS && CONFIG_PROC_FS */
}
#ifdef CONFIG_TRY_MMIO_SIIMAGE
static
unsigned
int
setup_mmio_siimage
(
struct
pci_dev
*
dev
,
const
char
*
name
)
{
u32
bar5
=
pci_resource_start
(
dev
,
5
);
u32
end5
=
pci_resource_end
(
dev
,
5
);
u8
tmpbyte
=
0
;
u32
addr
;
void
*
ioaddr
;
ioaddr
=
ioremap_nocache
(
bar5
,
(
end5
-
bar5
));
if
(
ioaddr
==
NULL
)
return
0
;
pci_set_master
(
dev
);
addr
=
(
u32
)
ioaddr
;
pci_set_drvdata
(
dev
,
(
void
*
)
addr
);
if
(
dev
->
device
==
PCI_DEVICE_ID_SII_3112
)
{
sii_outl
(
0
,
DEVADDR
(
0x148
));
sii_outl
(
0
,
DEVADDR
(
0x1C8
));
}
sii_outb
(
0
,
DEVADDR
(
0xB4
));
sii_outb
(
0
,
DEVADDR
(
0xF4
));
tmpbyte
=
sii_inb
(
DEVADDR
(
0x4A
));
switch
(
tmpbyte
)
{
case
0x01
:
sii_outb
(
tmpbyte
|
0x10
,
DEVADDR
(
0x4A
));
tmpbyte
=
sii_inb
(
DEVADDR
(
0x4A
));
case
0x31
:
/* if clocking is disabled */
/* 133 clock attempt to force it on */
sii_outb
(
tmpbyte
&
~
0x20
,
DEVADDR
(
0x4A
));
tmpbyte
=
sii_inb
(
DEVADDR
(
0x4A
));
case
0x11
:
case
0x21
:
break
;
default:
tmpbyte
&=
~
0x30
;
tmpbyte
|=
0x20
;
sii_outb
(
tmpbyte
,
DEVADDR
(
0x4A
));
break
;
}
sii_outb
(
0x72
,
DEVADDR
(
0xA1
));
sii_outw
(
0x328A
,
DEVADDR
(
0xA2
));
sii_outl
(
0x62DD62DD
,
DEVADDR
(
0xA4
));
sii_outl
(
0x43924392
,
DEVADDR
(
0xA8
));
sii_outl
(
0x40094009
,
DEVADDR
(
0xAC
));
sii_outb
(
0x72
,
DEVADDR
(
0xE1
));
sii_outw
(
0x328A
,
DEVADDR
(
0xE2
));
sii_outl
(
0x62DD62DD
,
DEVADDR
(
0xE4
));
sii_outl
(
0x43924392
,
DEVADDR
(
0xE8
));
sii_outl
(
0x40094009
,
DEVADDR
(
0xEC
));
if
(
dev
->
device
==
PCI_DEVICE_ID_SII_3112
)
{
sii_outl
(
0xFFFF0000
,
DEVADDR
(
0x108
));
sii_outl
(
0xFFFF0000
,
DEVADDR
(
0x188
));
sii_outl
(
0x00680000
,
DEVADDR
(
0x148
));
sii_outl
(
0x00680000
,
DEVADDR
(
0x1C8
));
}
tmpbyte
=
sii_inb
(
DEVADDR
(
0x4A
));
proc_reports_siimage
(
dev
,
(
tmpbyte
>>=
4
),
name
);
return
1
;
}
#endif
/* CONFIG_TRY_MMIO_SIIMAGE */
static
unsigned
int
__init
init_chipset_siimage
(
struct
pci_dev
*
dev
,
const
char
*
name
)
{
u32
class_rev
=
0
;
u8
tmpbyte
=
0
;
#ifdef CONFIG_TRY_MMIO_SIIMAGE
u8
BA5_EN
=
0
;
#endif
/* CONFIG_TRY_MMIO_SIIMAGE */
pci_read_config_dword
(
dev
,
PCI_CLASS_REVISION
,
&
class_rev
);
class_rev
&=
0xff
;
pci_write_config_byte
(
dev
,
PCI_CACHE_LINE_SIZE
,
(
class_rev
)
?
1
:
255
);
#ifdef CONFIG_TRY_MMIO_SIIMAGE
pci_read_config_byte
(
dev
,
0x8A
,
&
BA5_EN
);
if
((
BA5_EN
&
0x01
)
||
(
pci_resource_start
(
dev
,
5
)))
{
if
(
setup_mmio_siimage
(
dev
,
name
))
{
return
0
;
}
}
#endif
/* CONFIG_TRY_MMIO_SIIMAGE */
pci_write_config_byte
(
dev
,
0x80
,
0x00
);
pci_write_config_byte
(
dev
,
0x84
,
0x00
);
pci_read_config_byte
(
dev
,
0x8A
,
&
tmpbyte
);
switch
(
tmpbyte
)
{
case
0x00
:
case
0x01
:
/* 133 clock attempt to force it on */
pci_write_config_byte
(
dev
,
0x8A
,
tmpbyte
|
0x10
);
pci_read_config_byte
(
dev
,
0x8A
,
&
tmpbyte
);
case
0x30
:
case
0x31
:
/* if clocking is disabled */
/* 133 clock attempt to force it on */
pci_write_config_byte
(
dev
,
0x8A
,
tmpbyte
&
~
0x20
);
pci_read_config_byte
(
dev
,
0x8A
,
&
tmpbyte
);
case
0x10
:
case
0x11
:
case
0x20
:
case
0x21
:
break
;
default:
tmpbyte
&=
~
0x30
;
tmpbyte
|=
0x20
;
pci_write_config_byte
(
dev
,
0x8A
,
tmpbyte
);
break
;
}
pci_read_config_byte
(
dev
,
0x8A
,
&
tmpbyte
);
pci_write_config_byte
(
dev
,
0xA1
,
0x72
);
pci_write_config_word
(
dev
,
0xA2
,
0x328A
);
pci_write_config_dword
(
dev
,
0xA4
,
0x62DD62DD
);
pci_write_config_dword
(
dev
,
0xA8
,
0x43924392
);
pci_write_config_dword
(
dev
,
0xAC
,
0x40094009
);
pci_write_config_byte
(
dev
,
0xB1
,
0x72
);
pci_write_config_word
(
dev
,
0xB2
,
0x328A
);
pci_write_config_dword
(
dev
,
0xB4
,
0x62DD62DD
);
pci_write_config_dword
(
dev
,
0xB8
,
0x43924392
);
pci_write_config_dword
(
dev
,
0xBC
,
0x40094009
);
pci_read_config_byte
(
dev
,
0x8A
,
&
tmpbyte
);
proc_reports_siimage
(
dev
,
(
tmpbyte
>>=
4
),
name
);
return
0
;
}
static
void
__init
init_mmio_iops_siimage
(
ide_hwif_t
*
hwif
)
{
struct
pci_dev
*
dev
=
hwif
->
pci_dev
;
u32
addr
=
(
u32
)
pci_get_drvdata
(
hwif
->
pci_dev
);
u8
ch
=
hwif
->
channel
;
// u16 i = 0;
hw_regs_t
hw
;
hwif
->
OUTB
=
sii_outb
;
hwif
->
OUTW
=
sii_outw
;
hwif
->
OUTL
=
sii_outl
;
hwif
->
OUTSW
=
sii_outsw
;
hwif
->
OUTSL
=
sii_outsl
;
hwif
->
INB
=
sii_inb
;
hwif
->
INW
=
sii_inw
;
hwif
->
INL
=
sii_inl
;
hwif
->
INSW
=
sii_insw
;
hwif
->
INSL
=
sii_insl
;
memset
(
&
hw
,
0
,
sizeof
(
hw_regs_t
));
#if 1
#ifdef SIIMAGE_BUFFERED_TASKFILE
hw
.
io_ports
[
IDE_DATA_OFFSET
]
=
DEVADDR
((
ch
)
?
0xD0
:
0x90
);
hw
.
io_ports
[
IDE_ERROR_OFFSET
]
=
DEVADDR
((
ch
)
?
0xD1
:
0x91
);
hw
.
io_ports
[
IDE_NSECTOR_OFFSET
]
=
DEVADDR
((
ch
)
?
0xD2
:
0x92
);
hw
.
io_ports
[
IDE_SECTOR_OFFSET
]
=
DEVADDR
((
ch
)
?
0xD3
:
0x93
);
hw
.
io_ports
[
IDE_LCYL_OFFSET
]
=
DEVADDR
((
ch
)
?
0xD4
:
0x94
);
hw
.
io_ports
[
IDE_HCYL_OFFSET
]
=
DEVADDR
((
ch
)
?
0xD5
:
0x95
);
hw
.
io_ports
[
IDE_SELECT_OFFSET
]
=
DEVADDR
((
ch
)
?
0xD6
:
0x96
);
hw
.
io_ports
[
IDE_STATUS_OFFSET
]
=
DEVADDR
((
ch
)
?
0xD7
:
0x97
);
hw
.
io_ports
[
IDE_CONTROL_OFFSET
]
=
DEVADDR
((
ch
)
?
0xDA
:
0x9A
);
#else
/* ! SIIMAGE_BUFFERED_TASKFILE */
hw
.
io_ports
[
IDE_DATA_OFFSET
]
=
DEVADDR
((
ch
)
?
0xC0
:
0x80
);
hw
.
io_ports
[
IDE_ERROR_OFFSET
]
=
DEVADDR
((
ch
)
?
0xC1
:
0x81
);
hw
.
io_ports
[
IDE_NSECTOR_OFFSET
]
=
DEVADDR
((
ch
)
?
0xC2
:
0x82
);
hw
.
io_ports
[
IDE_SECTOR_OFFSET
]
=
DEVADDR
((
ch
)
?
0xC3
:
0x83
);
hw
.
io_ports
[
IDE_LCYL_OFFSET
]
=
DEVADDR
((
ch
)
?
0xC4
:
0x84
);
hw
.
io_ports
[
IDE_HCYL_OFFSET
]
=
DEVADDR
((
ch
)
?
0xC5
:
0x85
);
hw
.
io_ports
[
IDE_SELECT_OFFSET
]
=
DEVADDR
((
ch
)
?
0xC6
:
0x86
);
hw
.
io_ports
[
IDE_STATUS_OFFSET
]
=
DEVADDR
((
ch
)
?
0xC7
:
0x87
);
hw
.
io_ports
[
IDE_CONTROL_OFFSET
]
=
DEVADDR
((
ch
)
?
0xCA
:
0x8A
);
#endif
/* SIIMAGE_BUFFERED_TASKFILE */
#else
#ifdef SIIMAGE_BUFFERED_TASKFILE
for
(
i
=
IDE_DATA_OFFSET
;
i
<=
IDE_STATUS_OFFSET
;
i
++
)
hw
.
io_ports
[
i
]
=
DEVADDR
((
ch
)
?
0xD0
:
0x90
)
|
(
i
);
hw
.
io_ports
[
IDE_CONTROL_OFFSET
]
=
DEVADDR
((
ch
)
?
0xDA
:
0x9A
);
#else
/* ! SIIMAGE_BUFFERED_TASKFILE */
for
(
i
=
IDE_DATA_OFFSET
;
i
<=
IDE_STATUS_OFFSET
;
i
++
)
hw
.
io_ports
[
i
]
=
DEVADDR
((
ch
)
?
0xC0
:
0x80
)
|
(
i
);
hw
.
io_ports
[
IDE_CONTROL_OFFSET
]
=
DEVADDR
((
ch
)
?
0xCA
:
0x8A
);
#endif
/* SIIMAGE_BUFFERED_TASKFILE */
#endif
#if 0
printk("%s: ", hwif->name);
for (i = IDE_DATA_OFFSET; i <= IDE_STATUS_OFFSET; i++)
printk("0x%08x ", DEVADDR((ch) ? 0xC0 : 0x80)|(i));
printk("0x%08x ", DEVADDR((ch) ? 0xCA : 0x8A)|(i));
#endif
hw
.
io_ports
[
IDE_IRQ_OFFSET
]
=
0
;
if
(
dev
->
device
==
PCI_DEVICE_ID_SII_3112
)
{
hw
.
sata_scr
[
SATA_STATUS_OFFSET
]
=
DEVADDR
((
ch
)
?
0x184
:
0x104
);
hw
.
sata_scr
[
SATA_ERROR_OFFSET
]
=
DEVADDR
((
ch
)
?
0x188
:
0x108
);
hw
.
sata_scr
[
SATA_CONTROL_OFFSET
]
=
DEVADDR
((
ch
)
?
0x180
:
0x100
);
hw
.
sata_misc
[
SATA_MISC_OFFSET
]
=
DEVADDR
((
ch
)
?
0x1C0
:
0x140
);
hw
.
sata_misc
[
SATA_PHY_OFFSET
]
=
DEVADDR
((
ch
)
?
0x1C4
:
0x144
);
hw
.
sata_misc
[
SATA_IEN_OFFSET
]
=
DEVADDR
((
ch
)
?
0x1C8
:
0x148
);
}
hw
.
priv
=
(
void
*
)
addr
;
// hw.priv = pci_get_drvdata(hwif->pci_dev);
hw
.
irq
=
hwif
->
pci_dev
->
irq
;
// hw.iops = siimage_iops;
memcpy
(
&
hwif
->
hw
,
&
hw
,
sizeof
(
hw
));
memcpy
(
hwif
->
io_ports
,
hwif
->
hw
.
io_ports
,
sizeof
(
hwif
->
hw
.
io_ports
));
if
(
hwif
->
pci_dev
->
device
==
PCI_DEVICE_ID_SII_3112
)
{
memcpy
(
hwif
->
sata_scr
,
hwif
->
hw
.
sata_scr
,
sizeof
(
hwif
->
hw
.
sata_scr
));
memcpy
(
hwif
->
sata_misc
,
hwif
->
hw
.
sata_misc
,
sizeof
(
hwif
->
hw
.
sata_misc
));
}
#ifdef SIIMAGE_BUFFERED_TASKFILE
hwif
->
addressing
=
1
;
#endif
/* SIIMAGE_BUFFERED_TASKFILE */
hwif
->
irq
=
hw
.
irq
;
hwif
->
hwif_data
=
pci_get_drvdata
(
hwif
->
pci_dev
);
#ifdef SIIMAGE_LARGE_DMA
hwif
->
dma_base
=
DEVADDR
((
ch
)
?
0x18
:
0x10
);
hwif
->
dma_base2
=
DEVADDR
((
ch
)
?
0x08
:
0x00
);
hwif
->
dma_prdtable
=
(
hwif
->
dma_base2
+
4
);
#else
/* ! SIIMAGE_LARGE_DMA */
hwif
->
dma_base
=
DEVADDR
((
ch
)
?
0x08
:
0x00
);
hwif
->
dma_base2
=
DEVADDR
((
ch
)
?
0x18
:
0x10
);
#endif
/* SIIMAGE_LARGE_DMA */
hwif
->
mmio
=
1
;
}
static
void
__init
init_iops_siimage
(
ide_hwif_t
*
hwif
)
{
struct
pci_dev
*
dev
=
hwif
->
pci_dev
;
u32
class_rev
=
0
;
pci_read_config_dword
(
dev
,
PCI_CLASS_REVISION
,
&
class_rev
);
class_rev
&=
0xff
;
hwif
->
rqsize
=
128
;
if
((
dev
->
device
==
PCI_DEVICE_ID_SII_3112
)
&&
(
!
(
class_rev
)))
hwif
->
rqsize
=
16
;
if
(
dev
->
driver_data
==
NULL
)
return
;
init_mmio_iops_siimage
(
hwif
);
}
static
unsigned
int
__init
ata66_siimage
(
ide_hwif_t
*
hwif
)
{
if
(
hwif
->
pci_dev
->
driver_data
==
NULL
)
{
u8
ata66
=
0
;
pci_read_config_byte
(
hwif
->
pci_dev
,
SELREG
(
0
),
&
ata66
);
return
(
ata66
&
0x01
)
?
1
:
0
;
}
#ifndef CONFIG_TRY_MMIO_SIIMAGE
if
(
hwif
->
mmio
)
BUG
();
#endif
/* CONFIG_TRY_MMIO_SIIMAGE */
return
(
hwif
->
INB
(
SELADDR
(
0
))
&
0x01
)
?
1
:
0
;
}
static
void
__init
init_hwif_siimage
(
ide_hwif_t
*
hwif
)
{
hwif
->
autodma
=
0
;
hwif
->
busproc
=
&
siimage_busproc
;
hwif
->
resetproc
=
&
siimage_reset
;
hwif
->
speedproc
=
&
siimage_tune_chipset
;
hwif
->
tuneproc
=
&
siimage_tuneproc
;
hwif
->
reset_poll
=
&
siimage_reset_poll
;
hwif
->
pre_reset
=
&
siimage_pre_reset
;
if
(
!
hwif
->
dma_base
)
{
hwif
->
drives
[
0
].
autotune
=
1
;
hwif
->
drives
[
1
].
autotune
=
1
;
return
;
}
hwif
->
ultra_mask
=
0x7f
;
hwif
->
mwdma_mask
=
0x07
;
hwif
->
swdma_mask
=
0x07
;
if
(
hwif
->
pci_dev
->
device
!=
PCI_DEVICE_ID_SII_3112
)
hwif
->
atapi_dma
=
1
;
#ifdef CONFIG_BLK_DEV_IDEDMA
hwif
->
ide_dma_check
=
&
siimage_config_drive_for_dma
;
if
(
!
(
hwif
->
udma_four
))
hwif
->
udma_four
=
ata66_siimage
(
hwif
);
if
(
hwif
->
mmio
)
{
hwif
->
ide_dma_count
=
&
siimage_mmio_ide_dma_count
;
hwif
->
ide_dma_test_irq
=
&
siimage_mmio_ide_dma_test_irq
;
hwif
->
ide_dma_verbose
=
&
siimage_mmio_ide_dma_verbose
;
}
else
{
hwif
->
ide_dma_test_irq
=
&
siimage_io_ide_dma_test_irq
;
}
if
(
!
noautodma
)
hwif
->
autodma
=
1
;
hwif
->
drives
[
0
].
autodma
=
hwif
->
autodma
;
hwif
->
drives
[
1
].
autodma
=
hwif
->
autodma
;
#endif
/* CONFIG_BLK_DEV_IDEDMA */
}
static
void
__init
init_dma_siimage
(
ide_hwif_t
*
hwif
,
unsigned
long
dmabase
)
{
ide_setup_dma
(
hwif
,
dmabase
,
8
);
}
extern
void
ide_setup_pci_device
(
struct
pci_dev
*
,
ide_pci_device_t
*
);
static
void
__init
init_setup_siimage
(
struct
pci_dev
*
dev
,
ide_pci_device_t
*
d
)
{
ide_setup_pci_device
(
dev
,
d
);
}
int
__init
siimage_scan_pcidev
(
struct
pci_dev
*
dev
)
{
ide_pci_device_t
*
d
;
if
(
dev
->
vendor
!=
PCI_VENDOR_ID_CMD
)
return
0
;
for
(
d
=
siimage_chipsets
;
d
&&
d
->
vendor
&&
d
->
device
;
++
d
)
{
if
(((
d
->
vendor
==
dev
->
vendor
)
&&
(
d
->
device
==
dev
->
device
))
&&
(
d
->
init_setup
))
{
d
->
init_setup
(
dev
,
d
);
return
1
;
}
}
return
0
;
}
drivers/ide/pci/siimage.h
0 → 100644
View file @
8afb2f5f
#ifndef SIIMAGE_H
#define SIIMAGE_H
#include <linux/config.h>
#include <linux/pci.h>
#include <linux/ide.h>
#include <asm/io.h>
#define DISPLAY_SIIMAGE_TIMINGS
#define CONFIG_TRY_MMIO_SIIMAGE
//#undef CONFIG_TRY_MMIO_SIIMAGE
#undef SIIMAGE_VIRTUAL_DMAPIO
#undef SIIMAGE_BUFFERED_TASKFILE
#undef SIIMAGE_LARGE_DMA
#if 0
typedef struct ide_io_ops_s siimage_iops {
}
#endif
#define SII_DEBUG 0
#if SII_DEBUG
#define siiprintk(x...) printk(x)
#else
#define siiprintk(x...)
#endif
#define ADJREG(B,R) ((B)|(R)|((hwif->channel)<<(4+(2*(hwif->mmio)))))
#define SELREG(R) ADJREG((0xA0),(R))
#define SELADDR(R) ((((u32)hwif->hwif_data)*(hwif->mmio))|SELREG((R)))
#define HWIFADDR(R) ((((u32)hwif->hwif_data)*(hwif->mmio))|(R))
#define DEVADDR(R) (((u32) pci_get_drvdata(dev))|(R))
inline
u8
sii_inb
(
u32
port
)
{
return
(
u8
)
readb
(
port
);
}
inline
u16
sii_inw
(
u32
port
)
{
return
(
u16
)
readw
(
port
);
}
inline
void
sii_insw
(
u32
port
,
void
*
addr
,
u32
count
)
{
while
(
count
--
)
{
*
(
u16
*
)
addr
=
readw
(
port
);
addr
+=
2
;
}
}
inline
u32
sii_inl
(
u32
port
)
{
return
(
u32
)
readl
(
port
);
}
inline
void
sii_insl
(
u32
port
,
void
*
addr
,
u32
count
)
{
sii_insw
(
port
,
addr
,
(
count
)
<<
1
);
// while (count--) { *(u32 *)addr = readl(port); addr += 4; }
}
inline
void
sii_outb
(
u8
addr
,
u32
port
)
{
writeb
(
addr
,
port
);
}
inline
void
sii_outw
(
u16
addr
,
u32
port
)
{
writew
(
addr
,
port
);
}
inline
void
sii_outsw
(
u32
port
,
void
*
addr
,
u32
count
)
{
while
(
count
--
)
{
writew
(
*
(
u16
*
)
addr
,
port
);
addr
+=
2
;
}
}
inline
void
sii_outl
(
u32
addr
,
u32
port
)
{
writel
(
addr
,
port
);
}
inline
void
sii_outsl
(
u32
port
,
void
*
addr
,
u32
count
)
{
sii_outsw
(
port
,
addr
,
(
count
)
<<
1
);
// while (count--) { writel(*(u32 *)addr, port); addr += 4; }
}
#if defined(DISPLAY_SIIMAGE_TIMINGS) && defined(CONFIG_PROC_FS)
#include <linux/stat.h>
#include <linux/proc_fs.h>
static
char
*
print_siimage_get_info
(
char
*
,
struct
pci_dev
*
,
int
);
static
int
siimage_get_info
(
char
*
,
char
**
,
off_t
,
int
);
static
u8
siimage_proc
;
static
ide_pci_host_proc_t
siimage_procs
[]
__initdata
=
{
{
name:
"siimage"
,
set:
1
,
get_info:
siimage_get_info
,
parent:
NULL
,
},
};
#endif
/* DISPLAY_SIIMAGE_TIMINGS && CONFIG_PROC_FS */
static
void
init_setup_siimage
(
struct
pci_dev
*
,
ide_pci_device_t
*
);
static
unsigned
int
init_chipset_siimage
(
struct
pci_dev
*
,
const
char
*
);
static
void
init_iops_siimage
(
ide_hwif_t
*
);
static
void
init_hwif_siimage
(
ide_hwif_t
*
);
static
void
init_dma_siimage
(
ide_hwif_t
*
,
unsigned
long
);
static
ide_pci_device_t
siimage_chipsets
[]
__initdata
=
{
{
vendor:
PCI_VENDOR_ID_CMD
,
device:
PCI_DEVICE_ID_SII_680
,
name:
"SiI680"
,
init_setup:
init_setup_siimage
,
init_chipset:
init_chipset_siimage
,
init_iops:
init_iops_siimage
,
init_hwif:
init_hwif_siimage
,
init_dma:
init_dma_siimage
,
channels:
2
,
autodma:
AUTODMA
,
enablebits:
{{
0x00
,
0x00
,
0x00
},
{
0x00
,
0x00
,
0x00
}},
bootable:
ON_BOARD
,
extra:
0
,
},{
vendor:
PCI_VENDOR_ID_CMD
,
device:
PCI_DEVICE_ID_SII_3112
,
name:
"SiI3112 Serial ATA"
,
init_setup:
init_setup_siimage
,
init_chipset:
init_chipset_siimage
,
init_iops:
init_iops_siimage
,
init_hwif:
init_hwif_siimage
,
init_dma:
init_dma_siimage
,
channels:
2
,
autodma:
AUTODMA
,
enablebits:
{{
0x00
,
0x00
,
0x00
},
{
0x00
,
0x00
,
0x00
}},
bootable:
ON_BOARD
,
extra:
0
,
},{
vendor:
0
,
device:
0
,
channels:
0
,
bootable:
EOL
,
}
};
#endif
/* SIIMAGE_H */
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