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Kirill Smelkov
linux
Commits
da7d2062
Commit
da7d2062
authored
Nov 09, 2016
by
Ben Skeggs
Browse files
Options
Browse Files
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Email Patches
Plain Diff
drm/nouveau/pmu: move ucode handling into gt215 implementation
Signed-off-by:
Ben Skeggs
<
bskeggs@redhat.com
>
parent
17ff521d
Changes
9
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Showing
9 changed files
with
304 additions
and
184 deletions
+304
-184
drivers/gpu/drm/nouveau/nvkm/subdev/pmu/base.c
drivers/gpu/drm/nouveau/nvkm/subdev/pmu/base.c
+37
-184
drivers/gpu/drm/nouveau/nvkm/subdev/pmu/gf100.c
drivers/gpu/drm/nouveau/nvkm/subdev/pmu/gf100.c
+6
-0
drivers/gpu/drm/nouveau/nvkm/subdev/pmu/gf119.c
drivers/gpu/drm/nouveau/nvkm/subdev/pmu/gf119.c
+6
-0
drivers/gpu/drm/nouveau/nvkm/subdev/pmu/gk104.c
drivers/gpu/drm/nouveau/nvkm/subdev/pmu/gk104.c
+6
-0
drivers/gpu/drm/nouveau/nvkm/subdev/pmu/gk110.c
drivers/gpu/drm/nouveau/nvkm/subdev/pmu/gk110.c
+6
-0
drivers/gpu/drm/nouveau/nvkm/subdev/pmu/gk208.c
drivers/gpu/drm/nouveau/nvkm/subdev/pmu/gk208.c
+6
-0
drivers/gpu/drm/nouveau/nvkm/subdev/pmu/gm107.c
drivers/gpu/drm/nouveau/nvkm/subdev/pmu/gm107.c
+6
-0
drivers/gpu/drm/nouveau/nvkm/subdev/pmu/gt215.c
drivers/gpu/drm/nouveau/nvkm/subdev/pmu/gt215.c
+217
-0
drivers/gpu/drm/nouveau/nvkm/subdev/pmu/priv.h
drivers/gpu/drm/nouveau/nvkm/subdev/pmu/priv.h
+14
-0
No files found.
drivers/gpu/drm/nouveau/nvkm/subdev/pmu/base.c
View file @
da7d2062
...
...
@@ -32,227 +32,80 @@ nvkm_pmu_pgob(struct nvkm_pmu *pmu, bool enable)
pmu
->
func
->
pgob
(
pmu
,
enable
);
}
int
nvkm_pmu_send
(
struct
nvkm_pmu
*
pmu
,
u32
reply
[
2
],
u32
process
,
u32
message
,
u32
data0
,
u32
data1
)
{
struct
nvkm_subdev
*
subdev
=
&
pmu
->
subdev
;
struct
nvkm_device
*
device
=
subdev
->
device
;
u32
addr
;
mutex_lock
(
&
subdev
->
mutex
);
/* wait for a free slot in the fifo */
addr
=
nvkm_rd32
(
device
,
0x10a4a0
);
if
(
nvkm_msec
(
device
,
2000
,
u32
tmp
=
nvkm_rd32
(
device
,
0x10a4b0
);
if
(
tmp
!=
(
addr
^
8
))
break
;
)
<
0
)
{
mutex_unlock
(
&
subdev
->
mutex
);
return
-
EBUSY
;
}
/* we currently only support a single process at a time waiting
* on a synchronous reply, take the PMU mutex and tell the
* receive handler what we're waiting for
*/
if
(
reply
)
{
pmu
->
recv
.
message
=
message
;
pmu
->
recv
.
process
=
process
;
}
/* acquire data segment access */
do
{
nvkm_wr32
(
device
,
0x10a580
,
0x00000001
);
}
while
(
nvkm_rd32
(
device
,
0x10a580
)
!=
0x00000001
);
/* write the packet */
nvkm_wr32
(
device
,
0x10a1c0
,
0x01000000
|
(((
addr
&
0x07
)
<<
4
)
+
pmu
->
send
.
base
));
nvkm_wr32
(
device
,
0x10a1c4
,
process
);
nvkm_wr32
(
device
,
0x10a1c4
,
message
);
nvkm_wr32
(
device
,
0x10a1c4
,
data0
);
nvkm_wr32
(
device
,
0x10a1c4
,
data1
);
nvkm_wr32
(
device
,
0x10a4a0
,
(
addr
+
1
)
&
0x0f
);
/* release data segment access */
nvkm_wr32
(
device
,
0x10a580
,
0x00000000
);
/* wait for reply, if requested */
if
(
reply
)
{
wait_event
(
pmu
->
recv
.
wait
,
(
pmu
->
recv
.
process
==
0
));
reply
[
0
]
=
pmu
->
recv
.
data
[
0
];
reply
[
1
]
=
pmu
->
recv
.
data
[
1
];
}
mutex_unlock
(
&
subdev
->
mutex
);
return
0
;
}
static
void
nvkm_pmu_recv
(
struct
work_struct
*
work
)
{
struct
nvkm_pmu
*
pmu
=
container_of
(
work
,
struct
nvkm_pmu
,
recv
.
work
);
struct
nvkm_subdev
*
subdev
=
&
pmu
->
subdev
;
struct
nvkm_device
*
device
=
subdev
->
device
;
u32
process
,
message
,
data0
,
data1
;
/* nothing to do if GET == PUT */
u32
addr
=
nvkm_rd32
(
device
,
0x10a4cc
);
if
(
addr
==
nvkm_rd32
(
device
,
0x10a4c8
))
return
;
/* acquire data segment access */
do
{
nvkm_wr32
(
device
,
0x10a580
,
0x00000002
);
}
while
(
nvkm_rd32
(
device
,
0x10a580
)
!=
0x00000002
);
/* read the packet */
nvkm_wr32
(
device
,
0x10a1c0
,
0x02000000
|
(((
addr
&
0x07
)
<<
4
)
+
pmu
->
recv
.
base
));
process
=
nvkm_rd32
(
device
,
0x10a1c4
);
message
=
nvkm_rd32
(
device
,
0x10a1c4
);
data0
=
nvkm_rd32
(
device
,
0x10a1c4
);
data1
=
nvkm_rd32
(
device
,
0x10a1c4
);
nvkm_wr32
(
device
,
0x10a4cc
,
(
addr
+
1
)
&
0x0f
);
/* release data segment access */
nvkm_wr32
(
device
,
0x10a580
,
0x00000000
);
/* wake process if it's waiting on a synchronous reply */
if
(
pmu
->
recv
.
process
)
{
if
(
process
==
pmu
->
recv
.
process
&&
message
==
pmu
->
recv
.
message
)
{
pmu
->
recv
.
data
[
0
]
=
data0
;
pmu
->
recv
.
data
[
1
]
=
data1
;
pmu
->
recv
.
process
=
0
;
wake_up
(
&
pmu
->
recv
.
wait
);
return
;
}
}
struct
nvkm_pmu
*
pmu
=
container_of
(
work
,
typeof
(
*
pmu
),
recv
.
work
);
return
pmu
->
func
->
recv
(
pmu
);
}
/* right now there's no other expected responses from the engine,
* so assume that any unexpected message is an error.
*/
nvkm_warn
(
subdev
,
"%c%c%c%c %08x %08x %08x %08x
\n
"
,
(
char
)((
process
&
0x000000ff
)
>>
0
),
(
char
)((
process
&
0x0000ff00
)
>>
8
),
(
char
)((
process
&
0x00ff0000
)
>>
16
),
(
char
)((
process
&
0xff000000
)
>>
24
),
process
,
message
,
data0
,
data1
);
int
nvkm_pmu_send
(
struct
nvkm_pmu
*
pmu
,
u32
reply
[
2
],
u32
process
,
u32
message
,
u32
data0
,
u32
data1
)
{
if
(
!
pmu
||
!
pmu
->
func
->
send
)
return
-
ENODEV
;
return
pmu
->
func
->
send
(
pmu
,
reply
,
process
,
message
,
data0
,
data1
);
}
static
void
nvkm_pmu_intr
(
struct
nvkm_subdev
*
subdev
)
{
struct
nvkm_pmu
*
pmu
=
nvkm_pmu
(
subdev
);
struct
nvkm_device
*
device
=
pmu
->
subdev
.
device
;
u32
disp
=
nvkm_rd32
(
device
,
0x10a01c
);
u32
intr
=
nvkm_rd32
(
device
,
0x10a008
)
&
disp
&
~
(
disp
>>
16
);
if
(
intr
&
0x00000020
)
{
u32
stat
=
nvkm_rd32
(
device
,
0x10a16c
);
if
(
stat
&
0x80000000
)
{
nvkm_error
(
subdev
,
"UAS fault at %06x addr %08x
\n
"
,
stat
&
0x00ffffff
,
nvkm_rd32
(
device
,
0x10a168
));
nvkm_wr32
(
device
,
0x10a16c
,
0x00000000
);
intr
&=
~
0x00000020
;
}
}
if
(
intr
&
0x00000040
)
{
schedule_work
(
&
pmu
->
recv
.
work
);
nvkm_wr32
(
device
,
0x10a004
,
0x00000040
);
intr
&=
~
0x00000040
;
}
if
(
intr
&
0x00000080
)
{
nvkm_info
(
subdev
,
"wr32 %06x %08x
\n
"
,
nvkm_rd32
(
device
,
0x10a7a0
),
nvkm_rd32
(
device
,
0x10a7a4
));
nvkm_wr32
(
device
,
0x10a004
,
0x00000080
);
intr
&=
~
0x00000080
;
}
if
(
intr
)
{
nvkm_error
(
subdev
,
"intr %08x
\n
"
,
intr
);
nvkm_wr32
(
device
,
0x10a004
,
intr
);
}
if
(
!
pmu
->
func
->
intr
)
return
;
pmu
->
func
->
intr
(
pmu
);
}
static
int
nvkm_pmu_fini
(
struct
nvkm_subdev
*
subdev
,
bool
suspend
)
{
struct
nvkm_pmu
*
pmu
=
nvkm_pmu
(
subdev
);
struct
nvkm_device
*
device
=
pmu
->
subdev
.
device
;
nvkm_wr32
(
device
,
0x10a014
,
0x00000060
);
if
(
pmu
->
func
->
fini
)
pmu
->
func
->
fini
(
pmu
);
flush_work
(
&
pmu
->
recv
.
work
);
return
0
;
}
static
int
nvkm_pmu_
init
(
struct
nvkm_subdev
*
subdev
)
nvkm_pmu_
reset
(
struct
nvkm_pmu
*
pmu
)
{
struct
nvkm_pmu
*
pmu
=
nvkm_pmu
(
subdev
);
struct
nvkm_device
*
device
=
pmu
->
subdev
.
device
;
int
i
;
/* prevent previous ucode from running, wait for idle, reset */
nvkm_wr32
(
device
,
0x10a014
,
0x0000ffff
);
/* INTR_EN_CLR = ALL */
if
(
!
(
nvkm_rd32
(
device
,
0x000200
)
&
0x00002000
))
return
0
;
/* Inhibit interrupts, and wait for idle. */
nvkm_wr32
(
device
,
0x10a014
,
0x0000ffff
);
nvkm_msec
(
device
,
2000
,
if
(
!
nvkm_rd32
(
device
,
0x10a04c
))
break
;
);
nvkm_mask
(
device
,
0x000200
,
0x00002000
,
0x00000000
);
nvkm_mask
(
device
,
0x000200
,
0x00002000
,
0x00002000
);
nvkm_rd32
(
device
,
0x000200
);
/* Reset. */
pmu
->
func
->
reset
(
pmu
);
/* Wait for IMEM/DMEM scrubbing to be complete. */
nvkm_msec
(
device
,
2000
,
if
(
!
(
nvkm_rd32
(
device
,
0x10a10c
)
&
0x00000006
))
break
;
);
/* upload data segment */
nvkm_wr32
(
device
,
0x10a1c0
,
0x01000000
);
for
(
i
=
0
;
i
<
pmu
->
func
->
data
.
size
/
4
;
i
++
)
nvkm_wr32
(
device
,
0x10a1c4
,
pmu
->
func
->
data
.
data
[
i
]);
/* upload code segment */
nvkm_wr32
(
device
,
0x10a180
,
0x01000000
);
for
(
i
=
0
;
i
<
pmu
->
func
->
code
.
size
/
4
;
i
++
)
{
if
((
i
&
0x3f
)
==
0
)
nvkm_wr32
(
device
,
0x10a188
,
i
>>
6
);
nvkm_wr32
(
device
,
0x10a184
,
pmu
->
func
->
code
.
data
[
i
]);
}
/* start it running */
nvkm_wr32
(
device
,
0x10a10c
,
0x00000000
);
nvkm_wr32
(
device
,
0x10a104
,
0x00000000
);
nvkm_wr32
(
device
,
0x10a100
,
0x00000002
);
/* wait for valid host->pmu ring configuration */
if
(
nvkm_msec
(
device
,
2000
,
if
(
nvkm_rd32
(
device
,
0x10a4d0
))
break
;
)
<
0
)
return
-
EBUSY
;
pmu
->
send
.
base
=
nvkm_rd32
(
device
,
0x10a4d0
)
&
0x0000ffff
;
pmu
->
send
.
size
=
nvkm_rd32
(
device
,
0x10a4d0
)
>>
16
;
/* wait for valid pmu->host ring configuration */
if
(
nvkm_msec
(
device
,
2000
,
if
(
nvkm_rd32
(
device
,
0x10a4dc
))
break
;
)
<
0
)
return
-
EBUSY
;
pmu
->
recv
.
base
=
nvkm_rd32
(
device
,
0x10a4dc
)
&
0x0000ffff
;
pmu
->
recv
.
size
=
nvkm_rd32
(
device
,
0x10a4dc
)
>>
16
;
nvkm_wr32
(
device
,
0x10a010
,
0x000000e0
);
return
0
;
}
static
int
nvkm_pmu_init
(
struct
nvkm_subdev
*
subdev
)
{
struct
nvkm_pmu
*
pmu
=
nvkm_pmu
(
subdev
);
int
ret
=
nvkm_pmu_reset
(
pmu
);
if
(
ret
==
0
&&
pmu
->
func
->
init
)
ret
=
pmu
->
func
->
init
(
pmu
);
return
ret
;
}
static
void
*
nvkm_pmu_dtor
(
struct
nvkm_subdev
*
subdev
)
{
...
...
drivers/gpu/drm/nouveau/nvkm/subdev/pmu/gf100.c
View file @
da7d2062
...
...
@@ -30,6 +30,12 @@ gf100_pmu = {
.
code
.
size
=
sizeof
(
gf100_pmu_code
),
.
data
.
data
=
gf100_pmu_data
,
.
data
.
size
=
sizeof
(
gf100_pmu_data
),
.
reset
=
gt215_pmu_reset
,
.
init
=
gt215_pmu_init
,
.
fini
=
gt215_pmu_fini
,
.
intr
=
gt215_pmu_intr
,
.
send
=
gt215_pmu_send
,
.
recv
=
gt215_pmu_recv
,
};
int
...
...
drivers/gpu/drm/nouveau/nvkm/subdev/pmu/gf119.c
View file @
da7d2062
...
...
@@ -30,6 +30,12 @@ gf119_pmu = {
.
code
.
size
=
sizeof
(
gf119_pmu_code
),
.
data
.
data
=
gf119_pmu_data
,
.
data
.
size
=
sizeof
(
gf119_pmu_data
),
.
reset
=
gt215_pmu_reset
,
.
init
=
gt215_pmu_init
,
.
fini
=
gt215_pmu_fini
,
.
intr
=
gt215_pmu_intr
,
.
send
=
gt215_pmu_send
,
.
recv
=
gt215_pmu_recv
,
};
int
...
...
drivers/gpu/drm/nouveau/nvkm/subdev/pmu/gk104.c
View file @
da7d2062
...
...
@@ -109,6 +109,12 @@ gk104_pmu = {
.
code
.
size
=
sizeof
(
gk104_pmu_code
),
.
data
.
data
=
gk104_pmu_data
,
.
data
.
size
=
sizeof
(
gk104_pmu_data
),
.
reset
=
gt215_pmu_reset
,
.
init
=
gt215_pmu_init
,
.
fini
=
gt215_pmu_fini
,
.
intr
=
gt215_pmu_intr
,
.
send
=
gt215_pmu_send
,
.
recv
=
gt215_pmu_recv
,
.
pgob
=
gk104_pmu_pgob
,
};
...
...
drivers/gpu/drm/nouveau/nvkm/subdev/pmu/gk110.c
View file @
da7d2062
...
...
@@ -88,6 +88,12 @@ gk110_pmu = {
.
code
.
size
=
sizeof
(
gk110_pmu_code
),
.
data
.
data
=
gk110_pmu_data
,
.
data
.
size
=
sizeof
(
gk110_pmu_data
),
.
reset
=
gt215_pmu_reset
,
.
init
=
gt215_pmu_init
,
.
fini
=
gt215_pmu_fini
,
.
intr
=
gt215_pmu_intr
,
.
send
=
gt215_pmu_send
,
.
recv
=
gt215_pmu_recv
,
.
pgob
=
gk110_pmu_pgob
,
};
...
...
drivers/gpu/drm/nouveau/nvkm/subdev/pmu/gk208.c
View file @
da7d2062
...
...
@@ -30,6 +30,12 @@ gk208_pmu = {
.
code
.
size
=
sizeof
(
gk208_pmu_code
),
.
data
.
data
=
gk208_pmu_data
,
.
data
.
size
=
sizeof
(
gk208_pmu_data
),
.
reset
=
gt215_pmu_reset
,
.
init
=
gt215_pmu_init
,
.
fini
=
gt215_pmu_fini
,
.
intr
=
gt215_pmu_intr
,
.
send
=
gt215_pmu_send
,
.
recv
=
gt215_pmu_recv
,
.
pgob
=
gk110_pmu_pgob
,
};
...
...
drivers/gpu/drm/nouveau/nvkm/subdev/pmu/gm107.c
View file @
da7d2062
...
...
@@ -32,6 +32,12 @@ gm107_pmu = {
.
code
.
size
=
sizeof
(
gm107_pmu_code
),
.
data
.
data
=
gm107_pmu_data
,
.
data
.
size
=
sizeof
(
gm107_pmu_data
),
.
reset
=
gt215_pmu_reset
,
.
init
=
gt215_pmu_init
,
.
fini
=
gt215_pmu_fini
,
.
intr
=
gt215_pmu_intr
,
.
send
=
gt215_pmu_send
,
.
recv
=
gt215_pmu_recv
,
};
int
...
...
drivers/gpu/drm/nouveau/nvkm/subdev/pmu/gt215.c
View file @
da7d2062
...
...
@@ -24,12 +24,229 @@
#include "priv.h"
#include "fuc/gt215.fuc3.h"
#include <subdev/timer.h>
int
gt215_pmu_send
(
struct
nvkm_pmu
*
pmu
,
u32
reply
[
2
],
u32
process
,
u32
message
,
u32
data0
,
u32
data1
)
{
struct
nvkm_subdev
*
subdev
=
&
pmu
->
subdev
;
struct
nvkm_device
*
device
=
subdev
->
device
;
u32
addr
;
mutex_lock
(
&
subdev
->
mutex
);
/* wait for a free slot in the fifo */
addr
=
nvkm_rd32
(
device
,
0x10a4a0
);
if
(
nvkm_msec
(
device
,
2000
,
u32
tmp
=
nvkm_rd32
(
device
,
0x10a4b0
);
if
(
tmp
!=
(
addr
^
8
))
break
;
)
<
0
)
{
mutex_unlock
(
&
subdev
->
mutex
);
return
-
EBUSY
;
}
/* we currently only support a single process at a time waiting
* on a synchronous reply, take the PMU mutex and tell the
* receive handler what we're waiting for
*/
if
(
reply
)
{
pmu
->
recv
.
message
=
message
;
pmu
->
recv
.
process
=
process
;
}
/* acquire data segment access */
do
{
nvkm_wr32
(
device
,
0x10a580
,
0x00000001
);
}
while
(
nvkm_rd32
(
device
,
0x10a580
)
!=
0x00000001
);
/* write the packet */
nvkm_wr32
(
device
,
0x10a1c0
,
0x01000000
|
(((
addr
&
0x07
)
<<
4
)
+
pmu
->
send
.
base
));
nvkm_wr32
(
device
,
0x10a1c4
,
process
);
nvkm_wr32
(
device
,
0x10a1c4
,
message
);
nvkm_wr32
(
device
,
0x10a1c4
,
data0
);
nvkm_wr32
(
device
,
0x10a1c4
,
data1
);
nvkm_wr32
(
device
,
0x10a4a0
,
(
addr
+
1
)
&
0x0f
);
/* release data segment access */
nvkm_wr32
(
device
,
0x10a580
,
0x00000000
);
/* wait for reply, if requested */
if
(
reply
)
{
wait_event
(
pmu
->
recv
.
wait
,
(
pmu
->
recv
.
process
==
0
));
reply
[
0
]
=
pmu
->
recv
.
data
[
0
];
reply
[
1
]
=
pmu
->
recv
.
data
[
1
];
}
mutex_unlock
(
&
subdev
->
mutex
);
return
0
;
}
void
gt215_pmu_recv
(
struct
nvkm_pmu
*
pmu
)
{
struct
nvkm_subdev
*
subdev
=
&
pmu
->
subdev
;
struct
nvkm_device
*
device
=
subdev
->
device
;
u32
process
,
message
,
data0
,
data1
;
/* nothing to do if GET == PUT */
u32
addr
=
nvkm_rd32
(
device
,
0x10a4cc
);
if
(
addr
==
nvkm_rd32
(
device
,
0x10a4c8
))
return
;
/* acquire data segment access */
do
{
nvkm_wr32
(
device
,
0x10a580
,
0x00000002
);
}
while
(
nvkm_rd32
(
device
,
0x10a580
)
!=
0x00000002
);
/* read the packet */
nvkm_wr32
(
device
,
0x10a1c0
,
0x02000000
|
(((
addr
&
0x07
)
<<
4
)
+
pmu
->
recv
.
base
));
process
=
nvkm_rd32
(
device
,
0x10a1c4
);
message
=
nvkm_rd32
(
device
,
0x10a1c4
);
data0
=
nvkm_rd32
(
device
,
0x10a1c4
);
data1
=
nvkm_rd32
(
device
,
0x10a1c4
);
nvkm_wr32
(
device
,
0x10a4cc
,
(
addr
+
1
)
&
0x0f
);
/* release data segment access */
nvkm_wr32
(
device
,
0x10a580
,
0x00000000
);
/* wake process if it's waiting on a synchronous reply */
if
(
pmu
->
recv
.
process
)
{
if
(
process
==
pmu
->
recv
.
process
&&
message
==
pmu
->
recv
.
message
)
{
pmu
->
recv
.
data
[
0
]
=
data0
;
pmu
->
recv
.
data
[
1
]
=
data1
;
pmu
->
recv
.
process
=
0
;
wake_up
(
&
pmu
->
recv
.
wait
);
return
;
}
}
/* right now there's no other expected responses from the engine,
* so assume that any unexpected message is an error.
*/
nvkm_warn
(
subdev
,
"%c%c%c%c %08x %08x %08x %08x
\n
"
,
(
char
)((
process
&
0x000000ff
)
>>
0
),
(
char
)((
process
&
0x0000ff00
)
>>
8
),
(
char
)((
process
&
0x00ff0000
)
>>
16
),
(
char
)((
process
&
0xff000000
)
>>
24
),
process
,
message
,
data0
,
data1
);
}
void
gt215_pmu_intr
(
struct
nvkm_pmu
*
pmu
)
{
struct
nvkm_subdev
*
subdev
=
&
pmu
->
subdev
;
struct
nvkm_device
*
device
=
subdev
->
device
;
u32
disp
=
nvkm_rd32
(
device
,
0x10a01c
);
u32
intr
=
nvkm_rd32
(
device
,
0x10a008
)
&
disp
&
~
(
disp
>>
16
);
if
(
intr
&
0x00000020
)
{
u32
stat
=
nvkm_rd32
(
device
,
0x10a16c
);
if
(
stat
&
0x80000000
)
{
nvkm_error
(
subdev
,
"UAS fault at %06x addr %08x
\n
"
,
stat
&
0x00ffffff
,
nvkm_rd32
(
device
,
0x10a168
));
nvkm_wr32
(
device
,
0x10a16c
,
0x00000000
);
intr
&=
~
0x00000020
;
}
}
if
(
intr
&
0x00000040
)
{
schedule_work
(
&
pmu
->
recv
.
work
);
nvkm_wr32
(
device
,
0x10a004
,
0x00000040
);
intr
&=
~
0x00000040
;
}
if
(
intr
&
0x00000080
)
{
nvkm_info
(
subdev
,
"wr32 %06x %08x
\n
"
,
nvkm_rd32
(
device
,
0x10a7a0
),
nvkm_rd32
(
device
,
0x10a7a4
));
nvkm_wr32
(
device
,
0x10a004
,
0x00000080
);
intr
&=
~
0x00000080
;
}
if
(
intr
)
{
nvkm_error
(
subdev
,
"intr %08x
\n
"
,
intr
);
nvkm_wr32
(
device
,
0x10a004
,
intr
);
}
}
void
gt215_pmu_fini
(
struct
nvkm_pmu
*
pmu
)
{
nvkm_wr32
(
pmu
->
subdev
.
device
,
0x10a014
,
0x00000060
);
}
void
gt215_pmu_reset
(
struct
nvkm_pmu
*
pmu
)
{
struct
nvkm_device
*
device
=
pmu
->
subdev
.
device
;
nvkm_mask
(
device
,
0x000200
,
0x00002000
,
0x00000000
);
nvkm_mask
(
device
,
0x000200
,
0x00002000
,
0x00002000
);
nvkm_rd32
(
device
,
0x000200
);
}
int
gt215_pmu_init
(
struct
nvkm_pmu
*
pmu
)
{
struct
nvkm_device
*
device
=
pmu
->
subdev
.
device
;
int
i
;
/* upload data segment */
nvkm_wr32
(
device
,
0x10a1c0
,
0x01000000
);
for
(
i
=
0
;
i
<
pmu
->
func
->
data
.
size
/
4
;
i
++
)
nvkm_wr32
(
device
,
0x10a1c4
,
pmu
->
func
->
data
.
data
[
i
]);
/* upload code segment */
nvkm_wr32
(
device
,
0x10a180
,
0x01000000
);
for
(
i
=
0
;
i
<
pmu
->
func
->
code
.
size
/
4
;
i
++
)
{
if
((
i
&
0x3f
)
==
0
)
nvkm_wr32
(
device
,
0x10a188
,
i
>>
6
);
nvkm_wr32
(
device
,
0x10a184
,
pmu
->
func
->
code
.
data
[
i
]);
}
/* start it running */
nvkm_wr32
(
device
,
0x10a10c
,
0x00000000
);
nvkm_wr32
(
device
,
0x10a104
,
0x00000000
);
nvkm_wr32
(
device
,
0x10a100
,
0x00000002
);
/* wait for valid host->pmu ring configuration */
if
(
nvkm_msec
(
device
,
2000
,
if
(
nvkm_rd32
(
device
,
0x10a4d0
))
break
;
)
<
0
)
return
-
EBUSY
;
pmu
->
send
.
base
=
nvkm_rd32
(
device
,
0x10a4d0
)
&
0x0000ffff
;
pmu
->
send
.
size
=
nvkm_rd32
(
device
,
0x10a4d0
)
>>
16
;
/* wait for valid pmu->host ring configuration */
if
(
nvkm_msec
(
device
,
2000
,
if
(
nvkm_rd32
(
device
,
0x10a4dc
))
break
;
)
<
0
)
return
-
EBUSY
;
pmu
->
recv
.
base
=
nvkm_rd32
(
device
,
0x10a4dc
)
&
0x0000ffff
;
pmu
->
recv
.
size
=
nvkm_rd32
(
device
,
0x10a4dc
)
>>
16
;
nvkm_wr32
(
device
,
0x10a010
,
0x000000e0
);
return
0
;
}
static
const
struct
nvkm_pmu_func
gt215_pmu
=
{
.
code
.
data
=
gt215_pmu_code
,
.
code
.
size
=
sizeof
(
gt215_pmu_code
),
.
data
.
data
=
gt215_pmu_data
,
.
data
.
size
=
sizeof
(
gt215_pmu_data
),
.
reset
=
gt215_pmu_reset
,
.
init
=
gt215_pmu_init
,
.
fini
=
gt215_pmu_fini
,
.
intr
=
gt215_pmu_intr
,
.
send
=
gt215_pmu_send
,
.
recv
=
gt215_pmu_recv
,
};
int
...
...
drivers/gpu/drm/nouveau/nvkm/subdev/pmu/priv.h
View file @
da7d2062
...
...
@@ -18,8 +18,22 @@ struct nvkm_pmu_func {
u32
size
;
}
data
;
void
(
*
reset
)(
struct
nvkm_pmu
*
);
int
(
*
init
)(
struct
nvkm_pmu
*
);
void
(
*
fini
)(
struct
nvkm_pmu
*
);
void
(
*
intr
)(
struct
nvkm_pmu
*
);
int
(
*
send
)(
struct
nvkm_pmu
*
,
u32
reply
[
2
],
u32
process
,
u32
message
,
u32
data0
,
u32
data1
);
void
(
*
recv
)(
struct
nvkm_pmu
*
);
void
(
*
pgob
)(
struct
nvkm_pmu
*
,
bool
);
};
void
gt215_pmu_reset
(
struct
nvkm_pmu
*
);
int
gt215_pmu_init
(
struct
nvkm_pmu
*
);
void
gt215_pmu_fini
(
struct
nvkm_pmu
*
);
void
gt215_pmu_intr
(
struct
nvkm_pmu
*
);
void
gt215_pmu_recv
(
struct
nvkm_pmu
*
);
int
gt215_pmu_send
(
struct
nvkm_pmu
*
,
u32
[
2
],
u32
,
u32
,
u32
,
u32
);
void
gk110_pmu_pgob
(
struct
nvkm_pmu
*
,
bool
);
#endif
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