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linux
linux-davinci-2.6.23
Commits
edea3ab5
Commit
edea3ab5
authored
Oct 10, 2005
by
Mark Lord
Committed by
Jeff Garzik
Oct 10, 2005
Browse files
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libata: add new driver pdc_adma for PDC ADMA ATA cards
parent
3d3467f0
Changes
3
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Showing
3 changed files
with
749 additions
and
3 deletions
+749
-3
drivers/scsi/Kconfig
drivers/scsi/Kconfig
+11
-3
drivers/scsi/Makefile
drivers/scsi/Makefile
+1
-0
drivers/scsi/pdc_adma.c
drivers/scsi/pdc_adma.c
+737
-0
No files found.
drivers/scsi/Kconfig
View file @
edea3ab5
...
...
@@ -489,11 +489,11 @@ config SCSI_SATA_NV
If
unsure
,
say
N
.
config
SCSI_
SATA_PROMISE
tristate
"P
romise SATA TX2/TX4
support"
config
SCSI_
PDC_ADMA
tristate
"P
acific Digital ADMA
support"
depends
on
SCSI_SATA
&&
PCI
help
This
option
enables
support
for
P
romise
Serial
ATA
TX2
/
TX4
.
This
option
enables
support
for
P
acific
Digital
ADMA
controllers
If
unsure
,
say
N
.
...
...
@@ -505,6 +505,14 @@ config SCSI_SATA_QSTOR
If
unsure
,
say
N
.
config
SCSI_SATA_PROMISE
tristate
"Promise SATA TX2/TX4 support"
depends
on
SCSI_SATA
&&
PCI
help
This
option
enables
support
for
Promise
Serial
ATA
TX2
/
TX4
.
If
unsure
,
say
N
.
config
SCSI_SATA_SX4
tristate
"Promise SATA SX4 support"
depends
on
SCSI_SATA
&&
PCI
&&
EXPERIMENTAL
...
...
drivers/scsi/Makefile
View file @
edea3ab5
...
...
@@ -138,6 +138,7 @@ obj-$(CONFIG_SCSI_SATA_SX4) += libata.o sata_sx4.o
obj-$(CONFIG_SCSI_SATA_NV)
+=
libata.o sata_nv.o
obj-$(CONFIG_SCSI_SATA_ULI)
+=
libata.o sata_uli.o
obj-$(CONFIG_SCSI_SATA_MV)
+=
libata.o sata_mv.o
obj-$(CONFIG_SCSI_PDC_ADMA)
+=
libata.o pdc_adma.o
obj-$(CONFIG_ARM)
+=
arm/
...
...
drivers/scsi/pdc_adma.c
0 → 100644
View file @
edea3ab5
/*
* pdc_adma.c - Pacific Digital Corporation ADMA
*
* Maintained by: Mark Lord <mlord@pobox.com>
*
* Copyright 2005 Mark Lord
*
* The contents of this file are subject to the Open
* Software License version 1.1 that can be found at
* http://www.opensource.org/licenses/osl-1.1.txt and is included herein
* by reference.
*
* Alternatively, the contents of this file may be used under the terms
* of the GNU General Public License version 2 (the "GPL") as distributed
* in the kernel source COPYING file, in which case the provisions of
* the GPL are applicable instead of the above. If you wish to allow
* the use of your version of this file only under the terms of the
* GPL and not to allow others to use your version of this file under
* the OSL, indicate your decision by deleting the provisions above and
* replace them with the notice and other provisions required by the GPL.
* If you do not delete the provisions above, a recipient may use your
* version of this file under either the OSL or the GPL.
*
* Supports ATA disks in single-packet ADMA mode.
* Uses PIO for everything else.
*
* TODO: Use ADMA transfers for ATAPI devices, when possible.
* This requires careful attention to a number of quirks of the chip.
*
*/
#include <linux/kernel.h>
#include <linux/module.h>
#include <linux/pci.h>
#include <linux/init.h>
#include <linux/blkdev.h>
#include <linux/delay.h>
#include <linux/interrupt.h>
#include <linux/sched.h>
#include "scsi.h"
#include <scsi/scsi_host.h>
#include <asm/io.h>
#include <linux/libata.h>
#define DRV_NAME "pdc_adma"
#define DRV_VERSION "0.01"
/* macro to calculate base address for ATA regs */
#define ADMA_ATA_REGS(base,port_no) ((base) + ((port_no) * 0x40))
/* macro to calculate base address for ADMA regs */
#define ADMA_REGS(base,port_no) ((base) + 0x80 + ((port_no) * 0x20))
enum
{
ADMA_PORTS
=
2
,
ADMA_CPB_BYTES
=
40
,
ADMA_PRD_BYTES
=
LIBATA_MAX_PRD
*
16
,
ADMA_PKT_BYTES
=
ADMA_CPB_BYTES
+
ADMA_PRD_BYTES
,
ADMA_DMA_BOUNDARY
=
0xffffffff
,
/* global register offsets */
ADMA_MODE_LOCK
=
0x00c7
,
/* per-channel register offsets */
ADMA_CONTROL
=
0x0000
,
/* ADMA control */
ADMA_STATUS
=
0x0002
,
/* ADMA status */
ADMA_CPB_COUNT
=
0x0004
,
/* CPB count */
ADMA_CPB_CURRENT
=
0x000c
,
/* current CPB address */
ADMA_CPB_NEXT
=
0x000c
,
/* next CPB address */
ADMA_CPB_LOOKUP
=
0x0010
,
/* CPB lookup table */
ADMA_FIFO_IN
=
0x0014
,
/* input FIFO threshold */
ADMA_FIFO_OUT
=
0x0016
,
/* output FIFO threshold */
/* ADMA_CONTROL register bits */
aNIEN
=
(
1
<<
8
),
/* irq mask: 1==masked */
aGO
=
(
1
<<
7
),
/* packet trigger ("Go!") */
aRSTADM
=
(
1
<<
5
),
/* ADMA logic reset */
aAUTEN
=
(
1
<<
3
),
/* packet trigger ("Go!") */
aRSTA
=
(
1
<<
2
),
/* ATA hard reset */
aPIOMD4
=
0x0003
,
/* PIO mode 4 */
/* ADMA_STATUS register bits */
aPSD
=
(
1
<<
6
),
aUIRQ
=
(
1
<<
4
),
aPERR
=
(
1
<<
0
),
/* CPB bits */
cDONE
=
(
1
<<
0
),
cVLD
=
(
1
<<
0
),
cDAT
=
(
1
<<
2
),
cIEN
=
(
1
<<
3
),
/* PRD bits */
pORD
=
(
1
<<
4
),
pDIRO
=
(
1
<<
5
),
pEND
=
(
1
<<
7
),
/* ATA register flags */
rIGN
=
(
1
<<
5
),
rEND
=
(
1
<<
7
),
/* ATA register addresses */
ADMA_REGS_CONTROL
=
0x0e
,
ADMA_REGS_SECTOR_COUNT
=
0x12
,
ADMA_REGS_LBA_LOW
=
0x13
,
ADMA_REGS_LBA_MID
=
0x14
,
ADMA_REGS_LBA_HIGH
=
0x15
,
ADMA_REGS_DEVICE
=
0x16
,
ADMA_REGS_COMMAND
=
0x17
,
/* PCI device IDs */
board_1841_idx
=
0
,
/* ADMA 2-port controller */
};
typedef
enum
{
adma_state_idle
,
adma_state_pkt
,
adma_state_mmio
}
adma_state_t
;
struct
adma_port_priv
{
u8
*
pkt
;
dma_addr_t
pkt_dma
;
adma_state_t
state
;
};
static
int
adma_ata_init_one
(
struct
pci_dev
*
pdev
,
const
struct
pci_device_id
*
ent
);
static
irqreturn_t
adma_intr
(
int
irq
,
void
*
dev_instance
,
struct
pt_regs
*
regs
);
static
int
adma_port_start
(
struct
ata_port
*
ap
);
static
void
adma_host_stop
(
struct
ata_host_set
*
host_set
);
static
void
adma_port_stop
(
struct
ata_port
*
ap
);
static
void
adma_phy_reset
(
struct
ata_port
*
ap
);
static
void
adma_qc_prep
(
struct
ata_queued_cmd
*
qc
);
static
int
adma_qc_issue
(
struct
ata_queued_cmd
*
qc
);
static
int
adma_check_atapi_dma
(
struct
ata_queued_cmd
*
qc
);
static
void
adma_bmdma_stop
(
struct
ata_queued_cmd
*
qc
);
static
u8
adma_bmdma_status
(
struct
ata_port
*
ap
);
static
void
adma_irq_clear
(
struct
ata_port
*
ap
);
static
void
adma_eng_timeout
(
struct
ata_port
*
ap
);
static
Scsi_Host_Template
adma_ata_sht
=
{
.
module
=
THIS_MODULE
,
.
name
=
DRV_NAME
,
.
ioctl
=
ata_scsi_ioctl
,
.
queuecommand
=
ata_scsi_queuecmd
,
.
eh_strategy_handler
=
ata_scsi_error
,
.
can_queue
=
ATA_DEF_QUEUE
,
.
this_id
=
ATA_SHT_THIS_ID
,
.
sg_tablesize
=
LIBATA_MAX_PRD
,
.
max_sectors
=
ATA_MAX_SECTORS
,
.
cmd_per_lun
=
ATA_SHT_CMD_PER_LUN
,
.
emulated
=
ATA_SHT_EMULATED
,
.
use_clustering
=
ENABLE_CLUSTERING
,
.
proc_name
=
DRV_NAME
,
.
dma_boundary
=
ADMA_DMA_BOUNDARY
,
.
slave_configure
=
ata_scsi_slave_config
,
.
bios_param
=
ata_std_bios_param
,
};
static
struct
ata_port_operations
adma_ata_ops
=
{
.
port_disable
=
ata_port_disable
,
.
tf_load
=
ata_tf_load
,
.
tf_read
=
ata_tf_read
,
.
check_status
=
ata_check_status
,
.
check_atapi_dma
=
adma_check_atapi_dma
,
.
exec_command
=
ata_exec_command
,
.
dev_select
=
ata_std_dev_select
,
.
phy_reset
=
adma_phy_reset
,
.
qc_prep
=
adma_qc_prep
,
.
qc_issue
=
adma_qc_issue
,
.
eng_timeout
=
adma_eng_timeout
,
.
irq_handler
=
adma_intr
,
.
irq_clear
=
adma_irq_clear
,
.
port_start
=
adma_port_start
,
.
port_stop
=
adma_port_stop
,
.
host_stop
=
adma_host_stop
,
.
bmdma_stop
=
adma_bmdma_stop
,
.
bmdma_status
=
adma_bmdma_status
,
};
static
struct
ata_port_info
adma_port_info
[]
=
{
/* board_1841_idx */
{
.
sht
=
&
adma_ata_sht
,
.
host_flags
=
ATA_FLAG_SLAVE_POSS
|
ATA_FLAG_SRST
|
ATA_FLAG_NO_LEGACY
|
ATA_FLAG_MMIO
,
.
pio_mask
=
0x10
,
/* pio4 */
.
udma_mask
=
0x1f
,
/* udma0-4 */
.
port_ops
=
&
adma_ata_ops
,
},
};
static
struct
pci_device_id
adma_ata_pci_tbl
[]
=
{
{
PCI_VENDOR_ID_PDC
,
0x1841
,
PCI_ANY_ID
,
PCI_ANY_ID
,
0
,
0
,
board_1841_idx
},
{
}
/* terminate list */
};
static
struct
pci_driver
adma_ata_pci_driver
=
{
.
name
=
DRV_NAME
,
.
id_table
=
adma_ata_pci_tbl
,
.
probe
=
adma_ata_init_one
,
.
remove
=
ata_pci_remove_one
,
};
static
int
adma_check_atapi_dma
(
struct
ata_queued_cmd
*
qc
)
{
return
1
;
/* ATAPI DMA not yet supported */
}
static
void
adma_bmdma_stop
(
struct
ata_queued_cmd
*
qc
)
{
/* nothing */
}
static
u8
adma_bmdma_status
(
struct
ata_port
*
ap
)
{
return
0
;
}
static
void
adma_irq_clear
(
struct
ata_port
*
ap
)
{
/* nothing */
}
static
void
adma_reset_engine
(
void
__iomem
*
chan
)
{
/* reset ADMA to idle state */
writew
(
aPIOMD4
|
aNIEN
|
aRSTADM
,
chan
+
ADMA_CONTROL
);
udelay
(
2
);
writew
(
aPIOMD4
,
chan
+
ADMA_CONTROL
);
udelay
(
2
);
}
static
void
adma_reinit_engine
(
struct
ata_port
*
ap
)
{
struct
adma_port_priv
*
pp
=
ap
->
private_data
;
void
__iomem
*
mmio_base
=
ap
->
host_set
->
mmio_base
;
void
__iomem
*
chan
=
ADMA_REGS
(
mmio_base
,
ap
->
port_no
);
/* mask/clear ATA interrupts */
writeb
(
ATA_NIEN
,
(
void
__iomem
*
)
ap
->
ioaddr
.
ctl_addr
);
ata_check_status
(
ap
);
/* reset the ADMA engine */
adma_reset_engine
(
chan
);
/* set in-FIFO threshold to 0x100 */
writew
(
0x100
,
chan
+
ADMA_FIFO_IN
);
/* set CPB pointer */
writel
((
u32
)
pp
->
pkt_dma
,
chan
+
ADMA_CPB_NEXT
);
/* set out-FIFO threshold to 0x100 */
writew
(
0x100
,
chan
+
ADMA_FIFO_OUT
);
/* set CPB count */
writew
(
1
,
chan
+
ADMA_CPB_COUNT
);
/* read/discard ADMA status */
readb
(
chan
+
ADMA_STATUS
);
}
static
inline
void
adma_enter_reg_mode
(
struct
ata_port
*
ap
)
{
void
__iomem
*
chan
=
ADMA_REGS
(
ap
->
host_set
->
mmio_base
,
ap
->
port_no
);
writew
(
aPIOMD4
,
chan
+
ADMA_CONTROL
);
readb
(
chan
+
ADMA_STATUS
);
/* flush */
}
static
void
adma_phy_reset
(
struct
ata_port
*
ap
)
{
struct
adma_port_priv
*
pp
=
ap
->
private_data
;
pp
->
state
=
adma_state_idle
;
adma_reinit_engine
(
ap
);
ata_port_probe
(
ap
);
ata_bus_reset
(
ap
);
}
static
void
adma_eng_timeout
(
struct
ata_port
*
ap
)
{
struct
adma_port_priv
*
pp
=
ap
->
private_data
;
if
(
pp
->
state
!=
adma_state_idle
)
/* healthy paranoia */
pp
->
state
=
adma_state_mmio
;
adma_reinit_engine
(
ap
);
ata_eng_timeout
(
ap
);
}
static
int
adma_fill_sg
(
struct
ata_queued_cmd
*
qc
)
{
struct
scatterlist
*
sg
=
qc
->
sg
;
struct
ata_port
*
ap
=
qc
->
ap
;
struct
adma_port_priv
*
pp
=
ap
->
private_data
;
u8
*
buf
=
pp
->
pkt
;
int
nelem
,
i
=
(
2
+
buf
[
3
])
*
8
;
u8
pFLAGS
=
pORD
|
((
qc
->
tf
.
flags
&
ATA_TFLAG_WRITE
)
?
pDIRO
:
0
);
for
(
nelem
=
0
;
nelem
<
qc
->
n_elem
;
nelem
++
,
sg
++
)
{
u32
addr
;
u32
len
;
addr
=
(
u32
)
sg_dma_address
(
sg
);
*
(
__le32
*
)(
buf
+
i
)
=
cpu_to_le32
(
addr
);
i
+=
4
;
len
=
sg_dma_len
(
sg
)
>>
3
;
*
(
__le32
*
)(
buf
+
i
)
=
cpu_to_le32
(
len
);
i
+=
4
;
if
((
nelem
+
1
)
==
qc
->
n_elem
)
pFLAGS
|=
pEND
;
buf
[
i
++
]
=
pFLAGS
;
buf
[
i
++
]
=
qc
->
dev
->
dma_mode
&
0xf
;
buf
[
i
++
]
=
0
;
/* pPKLW */
buf
[
i
++
]
=
0
;
/* reserved */
*
(
__le32
*
)(
buf
+
i
)
=
(
pFLAGS
&
pEND
)
?
0
:
cpu_to_le32
(
pp
->
pkt_dma
+
i
+
4
);
i
+=
4
;
VPRINTK
(
"PRD[%u] = (0x%lX, 0x%X)
\n
"
,
nelem
,
(
unsigned
long
)
addr
,
len
);
}
return
i
;
}
static
void
adma_qc_prep
(
struct
ata_queued_cmd
*
qc
)
{
struct
adma_port_priv
*
pp
=
qc
->
ap
->
private_data
;
u8
*
buf
=
pp
->
pkt
;
u32
pkt_dma
=
(
u32
)
pp
->
pkt_dma
;
int
i
=
0
;
VPRINTK
(
"ENTER
\n
"
);
adma_enter_reg_mode
(
qc
->
ap
);
if
(
qc
->
tf
.
protocol
!=
ATA_PROT_DMA
)
{
ata_qc_prep
(
qc
);
return
;
}
buf
[
i
++
]
=
0
;
/* Response flags */
buf
[
i
++
]
=
0
;
/* reserved */
buf
[
i
++
]
=
cVLD
|
cDAT
|
cIEN
;
i
++
;
/* cLEN, gets filled in below */
*
(
__le32
*
)(
buf
+
i
)
=
cpu_to_le32
(
pkt_dma
);
/* cNCPB */
i
+=
4
;
/* cNCPB */
i
+=
4
;
/* cPRD, gets filled in below */
buf
[
i
++
]
=
0
;
/* reserved */
buf
[
i
++
]
=
0
;
/* reserved */
buf
[
i
++
]
=
0
;
/* reserved */
buf
[
i
++
]
=
0
;
/* reserved */
/* ATA registers; must be a multiple of 4 */
buf
[
i
++
]
=
qc
->
tf
.
device
;
buf
[
i
++
]
=
ADMA_REGS_DEVICE
;
if
((
qc
->
tf
.
flags
&
ATA_TFLAG_LBA48
))
{
buf
[
i
++
]
=
qc
->
tf
.
hob_nsect
;
buf
[
i
++
]
=
ADMA_REGS_SECTOR_COUNT
;
buf
[
i
++
]
=
qc
->
tf
.
hob_lbal
;
buf
[
i
++
]
=
ADMA_REGS_LBA_LOW
;
buf
[
i
++
]
=
qc
->
tf
.
hob_lbam
;
buf
[
i
++
]
=
ADMA_REGS_LBA_MID
;
buf
[
i
++
]
=
qc
->
tf
.
hob_lbah
;
buf
[
i
++
]
=
ADMA_REGS_LBA_HIGH
;
}
buf
[
i
++
]
=
qc
->
tf
.
nsect
;
buf
[
i
++
]
=
ADMA_REGS_SECTOR_COUNT
;
buf
[
i
++
]
=
qc
->
tf
.
lbal
;
buf
[
i
++
]
=
ADMA_REGS_LBA_LOW
;
buf
[
i
++
]
=
qc
->
tf
.
lbam
;
buf
[
i
++
]
=
ADMA_REGS_LBA_MID
;
buf
[
i
++
]
=
qc
->
tf
.
lbah
;
buf
[
i
++
]
=
ADMA_REGS_LBA_HIGH
;
buf
[
i
++
]
=
0
;
buf
[
i
++
]
=
ADMA_REGS_CONTROL
;
buf
[
i
++
]
=
rIGN
;
buf
[
i
++
]
=
0
;
buf
[
i
++
]
=
qc
->
tf
.
command
;
buf
[
i
++
]
=
ADMA_REGS_COMMAND
|
rEND
;
buf
[
3
]
=
(
i
>>
3
)
-
2
;
/* cLEN */
*
(
__le32
*
)(
buf
+
8
)
=
cpu_to_le32
(
pkt_dma
+
i
);
/* cPRD */
i
=
adma_fill_sg
(
qc
);
wmb
();
/* flush PRDs and pkt to memory */
#if 0
/* dump out CPB + PRDs for debug */
{
int j, len = 0;
static char obuf[2048];
for (j = 0; j < i; ++j) {
len += sprintf(obuf+len, "%02x ", buf[j]);
if ((j & 7) == 7) {
printk("%s\n", obuf);
len = 0;
}
}
if (len)
printk("%s\n", obuf);
}
#endif
}
static
inline
void
adma_packet_start
(
struct
ata_queued_cmd
*
qc
)
{
struct
ata_port
*
ap
=
qc
->
ap
;
void
__iomem
*
chan
=
ADMA_REGS
(
ap
->
host_set
->
mmio_base
,
ap
->
port_no
);
VPRINTK
(
"ENTER, ap %p
\n
"
,
ap
);
/* fire up the ADMA engine */
writew
(
aPIOMD4
|
aGO
|
aAUTEN
,
chan
+
ADMA_CONTROL
);
}
static
int
adma_qc_issue
(
struct
ata_queued_cmd
*
qc
)
{
struct
adma_port_priv
*
pp
=
qc
->
ap
->
private_data
;
switch
(
qc
->
tf
.
protocol
)
{
case
ATA_PROT_DMA
:
pp
->
state
=
adma_state_pkt
;
adma_packet_start
(
qc
);
return
0
;
case
ATA_PROT_ATAPI_DMA
:
BUG
();
break
;
default:
break
;
}
pp
->
state
=
adma_state_mmio
;
return
ata_qc_issue_prot
(
qc
);
}
static
inline
unsigned
int
adma_intr_pkt
(
struct
ata_host_set
*
host_set
)
{
unsigned
int
handled
=
0
,
port_no
;
u8
__iomem
*
mmio_base
=
host_set
->
mmio_base
;
for
(
port_no
=
0
;
port_no
<
host_set
->
n_ports
;
++
port_no
)
{
struct
ata_port
*
ap
=
host_set
->
ports
[
port_no
];
struct
adma_port_priv
*
pp
;
struct
ata_queued_cmd
*
qc
;
void
__iomem
*
chan
=
ADMA_REGS
(
mmio_base
,
port_no
);
u8
drv_stat
,
status
=
readb
(
chan
+
ADMA_STATUS
);
if
(
status
==
0
)
continue
;
handled
=
1
;
adma_enter_reg_mode
(
ap
);
if
((
ap
->
flags
&
ATA_FLAG_PORT_DISABLED
))
continue
;
pp
=
ap
->
private_data
;
if
(
!
pp
||
pp
->
state
!=
adma_state_pkt
)
continue
;
qc
=
ata_qc_from_tag
(
ap
,
ap
->
active_tag
);
drv_stat
=
0
;
if
((
status
&
(
aPERR
|
aPSD
|
aUIRQ
)))
drv_stat
=
ATA_ERR
;
else
if
(
pp
->
pkt
[
0
]
!=
cDONE
)
drv_stat
=
ATA_ERR
;
ata_qc_complete
(
qc
,
drv_stat
);
}
return
handled
;
}
static
inline
unsigned
int
adma_intr_mmio
(
struct
ata_host_set
*
host_set
)
{
unsigned
int
handled
=
0
,
port_no
;
for
(
port_no
=
0
;
port_no
<
host_set
->
n_ports
;
++
port_no
)
{
struct
ata_port
*
ap
;
ap
=
host_set
->
ports
[
port_no
];
if
(
ap
&&
(
!
(
ap
->
flags
&
(
ATA_FLAG_PORT_DISABLED
|
ATA_FLAG_NOINTR
))))
{
struct
ata_queued_cmd
*
qc
;
struct
adma_port_priv
*
pp
=
ap
->
private_data
;
if
(
!
pp
||
pp
->
state
!=
adma_state_mmio
)
continue
;
qc
=
ata_qc_from_tag
(
ap
,
ap
->
active_tag
);
if
(
qc
&&
(
!
(
qc
->
tf
.
ctl
&
ATA_NIEN
)))
{
/* check main status, clearing INTRQ */
u8
status
=
ata_chk_status
(
ap
);
if
((
status
&
ATA_BUSY
))
continue
;
DPRINTK
(
"ata%u: protocol %d (dev_stat 0x%X)
\n
"
,
ap
->
id
,
qc
->
tf
.
protocol
,
status
);
/* complete taskfile transaction */
pp
->
state
=
adma_state_idle
;
ata_qc_complete
(
qc
,
status
);
handled
=
1
;
}
}
}
return
handled
;
}
static
irqreturn_t
adma_intr
(
int
irq
,
void
*
dev_instance
,
struct
pt_regs
*
regs
)
{
struct
ata_host_set
*
host_set
=
dev_instance
;
unsigned
int
handled
=
0
;
VPRINTK
(
"ENTER
\n
"
);
spin_lock
(
&
host_set
->
lock
);
handled
=
adma_intr_pkt
(
host_set
)
|
adma_intr_mmio
(
host_set
);
spin_unlock
(
&
host_set
->
lock
);
VPRINTK
(
"EXIT
\n
"
);
return
IRQ_RETVAL
(
handled
);
}
static
void
adma_ata_setup_port
(
struct
ata_ioports
*
port
,
unsigned
long
base
)
{
port
->
cmd_addr
=
port
->
data_addr
=
base
+
0x000
;
port
->
error_addr
=
port
->
feature_addr
=
base
+
0x004
;
port
->
nsect_addr
=
base
+
0x008
;
port
->
lbal_addr
=
base
+
0x00c
;
port
->
lbam_addr
=
base
+
0x010
;
port
->
lbah_addr
=
base
+
0x014
;
port
->
device_addr
=
base
+
0x018
;
port
->
status_addr
=
port
->
command_addr
=
base
+
0x01c
;
port
->
altstatus_addr
=
port
->
ctl_addr
=
base
+
0x038
;
}
static
int
adma_port_start
(
struct
ata_port
*
ap
)
{
struct
device
*
dev
=
ap
->
host_set
->
dev
;
struct
adma_port_priv
*
pp
;
int
rc
;
rc
=
ata_port_start
(
ap
);
if
(
rc
)
return
rc
;
adma_enter_reg_mode
(
ap
);
rc
=
-
ENOMEM
;
pp
=
kcalloc
(
1
,
sizeof
(
*
pp
),
GFP_KERNEL
);
if
(
!
pp
)
goto
err_out
;
pp
->
pkt
=
dma_alloc_coherent
(
dev
,
ADMA_PKT_BYTES
,
&
pp
->
pkt_dma
,
GFP_KERNEL
);
if
(
!
pp
->
pkt
)
goto
err_out_kfree
;
/* paranoia? */
if
((
pp
->
pkt_dma
&
7
)
!=
0
)
{
printk
(
"bad alignment for pp->pkt_dma: %08x
\n
"
,
(
u32
)
pp
->
pkt_dma
);
goto
err_out_kfree2
;
}
memset
(
pp
->
pkt
,
0
,
ADMA_PKT_BYTES
);
ap
->
private_data
=
pp
;
adma_reinit_engine
(
ap
);
return
0
;
err_out_kfree2:
kfree
(
pp
);
err_out_kfree:
kfree
(
pp
);
err_out:
ata_port_stop
(
ap
);
return
rc
;
}
static
void
adma_port_stop
(
struct
ata_port
*
ap
)
{
struct
device
*
dev
=
ap
->
host_set
->
dev
;
struct
adma_port_priv
*
pp
=
ap
->
private_data
;
adma_reset_engine
(
ADMA_REGS
(
ap
->
host_set
->
mmio_base
,
ap
->
port_no
));
if
(
pp
!=
NULL
)
{
ap
->
private_data
=
NULL
;
if
(
pp
->
pkt
!=
NULL
)
dma_free_coherent
(
dev
,
ADMA_PKT_BYTES
,
pp
->
pkt
,
pp
->
pkt_dma
);
kfree
(
pp
);
}
ata_port_stop
(
ap
);
}
static
void
adma_host_stop
(
struct
ata_host_set
*
host_set
)
{
unsigned
int
port_no
;
for
(
port_no
=
0
;
port_no
<
ADMA_PORTS
;
++
port_no
)
adma_reset_engine
(
ADMA_REGS
(
host_set
->
mmio_base
,
port_no
));
ata_pci_host_stop
(
host_set
);
}
static
void
adma_host_init
(
unsigned
int
chip_id
,
struct
ata_probe_ent
*
probe_ent
)
{
unsigned
int
port_no
;
void
__iomem
*
mmio_base
=
probe_ent
->
mmio_base
;
/* enable/lock aGO operation */
writeb
(
7
,
mmio_base
+
ADMA_MODE_LOCK
);
/* reset the ADMA logic */
for
(
port_no
=
0
;
port_no
<
ADMA_PORTS
;
++
port_no
)
adma_reset_engine
(
ADMA_REGS
(
mmio_base
,
port_no
));
}
static
int
adma_set_dma_masks
(
struct
pci_dev
*
pdev
,
void
__iomem
*
mmio_base
)
{
int
rc
;
rc
=
pci_set_dma_mask
(
pdev
,
DMA_32BIT_MASK
);
if
(
rc
)
{
printk
(
KERN_ERR
DRV_NAME
"(%s): 32-bit DMA enable failed
\n
"
,
pci_name
(
pdev
));
return
rc
;
}
rc
=
pci_set_consistent_dma_mask
(
pdev
,
DMA_32BIT_MASK
);
if
(
rc
)
{
printk
(
KERN_ERR
DRV_NAME
"(%s): 32-bit consistent DMA enable failed
\n
"
,
pci_name
(
pdev
));
return
rc
;
}
return
0
;
}
static
int
adma_ata_init_one
(
struct
pci_dev
*
pdev
,
const
struct
pci_device_id
*
ent
)
{
static
int
printed_version
;
struct
ata_probe_ent
*
probe_ent
=
NULL
;
void
__iomem
*
mmio_base
;
unsigned
int
board_idx
=
(
unsigned
int
)
ent
->
driver_data
;
int
rc
,
port_no
;
if
(
!
printed_version
++
)
printk
(
KERN_DEBUG
DRV_NAME
" version "
DRV_VERSION
"
\n
"
);
rc
=
pci_enable_device
(
pdev
);
if
(
rc
)
return
rc
;
rc
=
pci_request_regions
(
pdev
,
DRV_NAME
);
if
(
rc
)
goto
err_out
;
if
((
pci_resource_flags
(
pdev
,
4
)
&
IORESOURCE_MEM
)
==
0
)
{
rc
=
-
ENODEV
;
goto
err_out_regions
;
}
mmio_base
=
pci_iomap
(
pdev
,
4
,
0
);
if
(
mmio_base
==
NULL
)
{
rc
=
-
ENOMEM
;
goto
err_out_regions
;
}
rc
=
adma_set_dma_masks
(
pdev
,
mmio_base
);
if
(
rc
)
goto
err_out_iounmap
;
probe_ent
=
kcalloc
(
1
,
sizeof
(
*
probe_ent
),
GFP_KERNEL
);
if
(
probe_ent
==
NULL
)
{
rc
=
-
ENOMEM
;
goto
err_out_iounmap
;
}
probe_ent
->
dev
=
pci_dev_to_dev
(
pdev
);
INIT_LIST_HEAD
(
&
probe_ent
->
node
);
probe_ent
->
sht
=
adma_port_info
[
board_idx
].
sht
;
probe_ent
->
host_flags
=
adma_port_info
[
board_idx
].
host_flags
;
probe_ent
->
pio_mask
=
adma_port_info
[
board_idx
].
pio_mask
;
probe_ent
->
mwdma_mask
=
adma_port_info
[
board_idx
].
mwdma_mask
;
probe_ent
->
udma_mask
=
adma_port_info
[
board_idx
].
udma_mask
;
probe_ent
->
port_ops
=
adma_port_info
[
board_idx
].
port_ops
;
probe_ent
->
irq
=
pdev
->
irq
;
probe_ent
->
irq_flags
=
SA_SHIRQ
;
probe_ent
->
mmio_base
=
mmio_base
;
probe_ent
->
n_ports
=
ADMA_PORTS
;
for
(
port_no
=
0
;
port_no
<
probe_ent
->
n_ports
;
++
port_no
)
{
adma_ata_setup_port
(
&
probe_ent
->
port
[
port_no
],
ADMA_ATA_REGS
((
unsigned
long
)
mmio_base
,
port_no
));
}
pci_set_master
(
pdev
);
/* initialize adapter */
adma_host_init
(
board_idx
,
probe_ent
);
rc
=
ata_device_add
(
probe_ent
);
kfree
(
probe_ent
);
if
(
rc
!=
ADMA_PORTS
)
goto
err_out_iounmap
;
return
0
;
err_out_iounmap:
pci_iounmap
(
pdev
,
mmio_base
);
err_out_regions:
pci_release_regions
(
pdev
);
err_out:
pci_disable_device
(
pdev
);
return
rc
;
}
static
int
__init
adma_ata_init
(
void
)
{
return
pci_module_init
(
&
adma_ata_pci_driver
);
}
static
void
__exit
adma_ata_exit
(
void
)
{
pci_unregister_driver
(
&
adma_ata_pci_driver
);
}
MODULE_AUTHOR
(
"Mark Lord"
);
MODULE_DESCRIPTION
(
"Pacific Digital Corporation ADMA low-level driver"
);
MODULE_LICENSE
(
"GPL"
);
MODULE_DEVICE_TABLE
(
pci
,
adma_ata_pci_tbl
);
MODULE_VERSION
(
DRV_VERSION
);
module_init
(
adma_ata_init
);
module_exit
(
adma_ata_exit
);
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