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nexedi
linux
Commits
438d99e3
Commit
438d99e3
authored
Jul 05, 2011
by
Ben Skeggs
Browse files
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Plain Diff
drm/nvd0/disp: initial crtc object implementation
Signed-off-by:
Ben Skeggs
<
bskeggs@redhat.com
>
parent
270a5747
Changes
1
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1 changed file
with
456 additions
and
1 deletion
+456
-1
drivers/gpu/drm/nouveau/nvd0_display.c
drivers/gpu/drm/nouveau/nvd0_display.c
+456
-1
No files found.
drivers/gpu/drm/nouveau/nvd0_display.c
View file @
438d99e3
...
@@ -31,6 +31,7 @@
...
@@ -31,6 +31,7 @@
#include "nouveau_connector.h"
#include "nouveau_connector.h"
#include "nouveau_encoder.h"
#include "nouveau_encoder.h"
#include "nouveau_crtc.h"
#include "nouveau_crtc.h"
#include "nouveau_fb.h"
#define MEM_SYNC 0xe0000001
#define MEM_SYNC 0xe0000001
#define MEM_VRAM 0xe0010000
#define MEM_VRAM 0xe0010000
...
@@ -100,6 +101,449 @@ nvd0_display_crtc_get(struct drm_encoder *encoder)
...
@@ -100,6 +101,449 @@ nvd0_display_crtc_get(struct drm_encoder *encoder)
return
nouveau_encoder
(
encoder
)
->
crtc
;
return
nouveau_encoder
(
encoder
)
->
crtc
;
}
}
/******************************************************************************
* CRTC
*****************************************************************************/
static
int
nvd0_crtc_set_dither
(
struct
nouveau_crtc
*
nv_crtc
,
bool
on
,
bool
update
)
{
struct
drm_device
*
dev
=
nv_crtc
->
base
.
dev
;
u32
*
push
,
mode
;
mode
=
0x00000000
;
if
(
on
)
{
/* 0x11: 6bpc dynamic 2x2
* 0x13: 8bpc dynamic 2x2
* 0x19: 6bpc static 2x2
* 0x1b: 8bpc static 2x2
* 0x21: 6bpc temporal
* 0x23: 8bpc temporal
*/
mode
=
0x00000011
;
}
push
=
evo_wait
(
dev
,
0
,
4
);
if
(
push
)
{
evo_mthd
(
push
,
0x0490
+
(
nv_crtc
->
index
*
0x300
),
1
);
evo_data
(
push
,
mode
);
if
(
update
)
{
evo_mthd
(
push
,
0x0080
,
1
);
evo_data
(
push
,
0x00000000
);
}
evo_kick
(
push
,
dev
,
0
);
}
return
0
;
}
static
int
nvd0_crtc_set_scale
(
struct
nouveau_crtc
*
nv_crtc
,
int
type
,
bool
update
)
{
struct
drm_display_mode
*
mode
=
&
nv_crtc
->
base
.
mode
;
struct
drm_device
*
dev
=
nv_crtc
->
base
.
dev
;
u32
*
push
;
/*XXX: actually handle scaling */
push
=
evo_wait
(
dev
,
0
,
16
);
if
(
push
)
{
evo_mthd
(
push
,
0x04c0
+
(
nv_crtc
->
index
*
0x300
),
3
);
evo_data
(
push
,
(
mode
->
vdisplay
<<
16
)
|
mode
->
hdisplay
);
evo_data
(
push
,
(
mode
->
vdisplay
<<
16
)
|
mode
->
hdisplay
);
evo_data
(
push
,
(
mode
->
vdisplay
<<
16
)
|
mode
->
hdisplay
);
evo_mthd
(
push
,
0x0494
+
(
nv_crtc
->
index
*
0x300
),
1
);
evo_data
(
push
,
0x00000000
);
evo_mthd
(
push
,
0x04b0
+
(
nv_crtc
->
index
*
0x300
),
1
);
evo_data
(
push
,
0x00000000
);
evo_mthd
(
push
,
0x04b8
+
(
nv_crtc
->
index
*
0x300
),
1
);
evo_data
(
push
,
(
mode
->
vdisplay
<<
16
)
|
mode
->
hdisplay
);
if
(
update
)
{
evo_mthd
(
push
,
0x0080
,
1
);
evo_data
(
push
,
0x00000000
);
}
evo_kick
(
push
,
dev
,
0
);
}
return
0
;
}
static
int
nvd0_crtc_set_image
(
struct
nouveau_crtc
*
nv_crtc
,
struct
drm_framebuffer
*
fb
,
int
x
,
int
y
,
bool
update
)
{
struct
nouveau_framebuffer
*
nvfb
=
nouveau_framebuffer
(
fb
);
u32
*
push
;
/*XXX*/
nv_crtc
->
fb
.
tile_flags
=
MEM_VRAM
;
push
=
evo_wait
(
fb
->
dev
,
0
,
16
);
if
(
push
)
{
evo_mthd
(
push
,
0x0460
+
(
nv_crtc
->
index
*
0x300
),
1
);
evo_data
(
push
,
nvfb
->
nvbo
->
bo
.
offset
>>
8
);
evo_mthd
(
push
,
0x0468
+
(
nv_crtc
->
index
*
0x300
),
4
);
evo_data
(
push
,
(
fb
->
height
<<
16
)
|
fb
->
width
);
evo_data
(
push
,
nvfb
->
r_pitch
);
evo_data
(
push
,
nvfb
->
r_format
);
evo_data
(
push
,
nv_crtc
->
fb
.
tile_flags
);
evo_kick
(
push
,
fb
->
dev
,
0
);
}
return
0
;
}
static
void
nvd0_crtc_cursor_show
(
struct
nouveau_crtc
*
nv_crtc
,
bool
show
,
bool
update
)
{
struct
drm_device
*
dev
=
nv_crtc
->
base
.
dev
;
u32
*
push
=
evo_wait
(
dev
,
0
,
16
);
if
(
push
)
{
if
(
show
)
{
evo_mthd
(
push
,
0x0480
+
(
nv_crtc
->
index
*
0x300
),
2
);
evo_data
(
push
,
0x85000000
);
evo_data
(
push
,
nv_crtc
->
cursor
.
nvbo
->
bo
.
offset
>>
8
);
evo_mthd
(
push
,
0x048c
+
(
nv_crtc
->
index
*
0x300
),
1
);
evo_data
(
push
,
MEM_VRAM
);
}
else
{
evo_mthd
(
push
,
0x0480
+
(
nv_crtc
->
index
*
0x300
),
1
);
evo_data
(
push
,
0x05000000
);
evo_mthd
(
push
,
0x048c
+
(
nv_crtc
->
index
*
0x300
),
1
);
evo_data
(
push
,
0x00000000
);
}
if
(
update
)
{
evo_mthd
(
push
,
0x0080
,
1
);
evo_data
(
push
,
0x00000000
);
}
evo_kick
(
push
,
dev
,
0
);
}
}
static
void
nvd0_crtc_dpms
(
struct
drm_crtc
*
crtc
,
int
mode
)
{
}
static
void
nvd0_crtc_prepare
(
struct
drm_crtc
*
crtc
)
{
struct
nouveau_crtc
*
nv_crtc
=
nouveau_crtc
(
crtc
);
u32
*
push
;
push
=
evo_wait
(
crtc
->
dev
,
0
,
2
);
if
(
push
)
{
evo_mthd
(
push
,
0x0474
+
(
nv_crtc
->
index
*
0x300
),
1
);
evo_data
(
push
,
0x00000000
);
evo_mthd
(
push
,
0x0440
+
(
nv_crtc
->
index
*
0x300
),
1
);
evo_data
(
push
,
0x03000000
);
evo_mthd
(
push
,
0x045c
+
(
nv_crtc
->
index
*
0x300
),
1
);
evo_data
(
push
,
0x00000000
);
evo_kick
(
push
,
crtc
->
dev
,
0
);
}
nvd0_crtc_cursor_show
(
nv_crtc
,
false
,
false
);
}
static
void
nvd0_crtc_commit
(
struct
drm_crtc
*
crtc
)
{
struct
nouveau_crtc
*
nv_crtc
=
nouveau_crtc
(
crtc
);
u32
*
push
;
push
=
evo_wait
(
crtc
->
dev
,
0
,
32
);
if
(
push
)
{
evo_mthd
(
push
,
0x0474
+
(
nv_crtc
->
index
*
0x300
),
1
);
evo_data
(
push
,
nv_crtc
->
fb
.
tile_flags
);
evo_mthd
(
push
,
0x0440
+
(
nv_crtc
->
index
*
0x300
),
4
);
evo_data
(
push
,
0x83000000
);
evo_data
(
push
,
nv_crtc
->
lut
.
nvbo
->
bo
.
offset
>>
8
);
evo_data
(
push
,
0x00000000
);
evo_data
(
push
,
0x00000000
);
evo_mthd
(
push
,
0x045c
+
(
nv_crtc
->
index
*
0x300
),
1
);
evo_data
(
push
,
MEM_VRAM
);
evo_kick
(
push
,
crtc
->
dev
,
0
);
}
nvd0_crtc_cursor_show
(
nv_crtc
,
nv_crtc
->
cursor
.
visible
,
true
);
}
static
bool
nvd0_crtc_mode_fixup
(
struct
drm_crtc
*
crtc
,
struct
drm_display_mode
*
mode
,
struct
drm_display_mode
*
adjusted_mode
)
{
return
true
;
}
static
int
nvd0_crtc_swap_fbs
(
struct
drm_crtc
*
crtc
,
struct
drm_framebuffer
*
old_fb
)
{
struct
nouveau_framebuffer
*
nvfb
=
nouveau_framebuffer
(
crtc
->
fb
);
int
ret
;
ret
=
nouveau_bo_pin
(
nvfb
->
nvbo
,
TTM_PL_FLAG_VRAM
);
if
(
ret
)
return
ret
;
if
(
old_fb
)
{
nvfb
=
nouveau_framebuffer
(
old_fb
);
nouveau_bo_unpin
(
nvfb
->
nvbo
);
}
return
0
;
}
static
int
nvd0_crtc_mode_set
(
struct
drm_crtc
*
crtc
,
struct
drm_display_mode
*
umode
,
struct
drm_display_mode
*
mode
,
int
x
,
int
y
,
struct
drm_framebuffer
*
old_fb
)
{
struct
nouveau_crtc
*
nv_crtc
=
nouveau_crtc
(
crtc
);
struct
nouveau_connector
*
nv_connector
;
u32
htotal
=
mode
->
htotal
;
u32
vtotal
=
mode
->
vtotal
;
u32
hsyncw
=
mode
->
hsync_end
-
mode
->
hsync_start
-
1
;
u32
vsyncw
=
mode
->
vsync_end
-
mode
->
vsync_start
-
1
;
u32
hfrntp
=
mode
->
hsync_start
-
mode
->
hdisplay
;
u32
vfrntp
=
mode
->
vsync_start
-
mode
->
vdisplay
;
u32
hbackp
=
mode
->
htotal
-
mode
->
hsync_end
;
u32
vbackp
=
mode
->
vtotal
-
mode
->
vsync_end
;
u32
hss2be
=
hsyncw
+
hbackp
;
u32
vss2be
=
vsyncw
+
vbackp
;
u32
hss2de
=
htotal
-
hfrntp
;
u32
vss2de
=
vtotal
-
vfrntp
;
u32
hstart
=
0
;
u32
vstart
=
0
;
u32
*
push
;
int
ret
;
ret
=
nvd0_crtc_swap_fbs
(
crtc
,
old_fb
);
if
(
ret
)
return
ret
;
push
=
evo_wait
(
crtc
->
dev
,
0
,
64
);
if
(
push
)
{
evo_mthd
(
push
,
0x0410
+
(
nv_crtc
->
index
*
0x300
),
5
);
evo_data
(
push
,
(
vstart
<<
16
)
|
hstart
);
evo_data
(
push
,
(
vtotal
<<
16
)
|
htotal
);
evo_data
(
push
,
(
vsyncw
<<
16
)
|
hsyncw
);
evo_data
(
push
,
(
vss2be
<<
16
)
|
hss2be
);
evo_data
(
push
,
(
vss2de
<<
16
)
|
hss2de
);
evo_mthd
(
push
,
0x042c
+
(
nv_crtc
->
index
*
0x300
),
1
);
evo_data
(
push
,
0x00000000
);
/* ??? */
evo_mthd
(
push
,
0x0450
+
(
nv_crtc
->
index
*
0x300
),
3
);
evo_data
(
push
,
mode
->
clock
*
1000
);
evo_data
(
push
,
0x00200000
);
/* ??? */
evo_data
(
push
,
mode
->
clock
*
1000
);
evo_mthd
(
push
,
0x0408
+
(
nv_crtc
->
index
*
0x300
),
1
);
evo_data
(
push
,
0x31ec6000
);
/* ??? */
evo_kick
(
push
,
crtc
->
dev
,
0
);
}
nv_connector
=
nouveau_crtc_connector_get
(
nv_crtc
);
nvd0_crtc_set_dither
(
nv_crtc
,
nv_connector
->
use_dithering
,
false
);
nvd0_crtc_set_scale
(
nv_crtc
,
nv_connector
->
scaling_mode
,
false
);
nvd0_crtc_set_image
(
nv_crtc
,
crtc
->
fb
,
x
,
y
,
false
);
return
0
;
}
static
int
nvd0_crtc_mode_set_base
(
struct
drm_crtc
*
crtc
,
int
x
,
int
y
,
struct
drm_framebuffer
*
old_fb
)
{
struct
nouveau_crtc
*
nv_crtc
=
nouveau_crtc
(
crtc
);
int
ret
;
ret
=
nvd0_crtc_swap_fbs
(
crtc
,
old_fb
);
if
(
ret
)
return
ret
;
nvd0_crtc_set_image
(
nv_crtc
,
crtc
->
fb
,
x
,
y
,
true
);
return
0
;
}
static
int
nvd0_crtc_mode_set_base_atomic
(
struct
drm_crtc
*
crtc
,
struct
drm_framebuffer
*
fb
,
int
x
,
int
y
,
enum
mode_set_atomic
state
)
{
struct
nouveau_crtc
*
nv_crtc
=
nouveau_crtc
(
crtc
);
nvd0_crtc_set_image
(
nv_crtc
,
fb
,
x
,
y
,
true
);
return
0
;
}
static
void
nvd0_crtc_lut_load
(
struct
drm_crtc
*
crtc
)
{
struct
nouveau_crtc
*
nv_crtc
=
nouveau_crtc
(
crtc
);
void
__iomem
*
lut
=
nvbo_kmap_obj_iovirtual
(
nv_crtc
->
lut
.
nvbo
);
int
i
;
for
(
i
=
0
;
i
<
256
;
i
++
)
{
writew
(
nv_crtc
->
lut
.
r
[
i
]
>>
2
,
lut
+
8
*
i
+
0
);
writew
(
nv_crtc
->
lut
.
g
[
i
]
>>
2
,
lut
+
8
*
i
+
2
);
writew
(
nv_crtc
->
lut
.
b
[
i
]
>>
2
,
lut
+
8
*
i
+
4
);
}
}
static
int
nvd0_crtc_cursor_set
(
struct
drm_crtc
*
crtc
,
struct
drm_file
*
file_priv
,
uint32_t
handle
,
uint32_t
width
,
uint32_t
height
)
{
struct
nouveau_crtc
*
nv_crtc
=
nouveau_crtc
(
crtc
);
struct
drm_device
*
dev
=
crtc
->
dev
;
struct
drm_gem_object
*
gem
;
struct
nouveau_bo
*
nvbo
;
bool
visible
=
(
handle
!=
0
);
int
i
,
ret
=
0
;
if
(
visible
)
{
if
(
width
!=
64
||
height
!=
64
)
return
-
EINVAL
;
gem
=
drm_gem_object_lookup
(
dev
,
file_priv
,
handle
);
if
(
unlikely
(
!
gem
))
return
-
ENOENT
;
nvbo
=
nouveau_gem_object
(
gem
);
ret
=
nouveau_bo_map
(
nvbo
);
if
(
ret
==
0
)
{
for
(
i
=
0
;
i
<
64
*
64
;
i
++
)
{
u32
v
=
nouveau_bo_rd32
(
nvbo
,
i
);
nouveau_bo_wr32
(
nv_crtc
->
cursor
.
nvbo
,
i
,
v
);
}
nouveau_bo_unmap
(
nvbo
);
}
drm_gem_object_unreference_unlocked
(
gem
);
}
if
(
visible
!=
nv_crtc
->
cursor
.
visible
)
{
nvd0_crtc_cursor_show
(
nv_crtc
,
visible
,
true
);
nv_crtc
->
cursor
.
visible
=
visible
;
}
return
ret
;
}
static
int
nvd0_crtc_cursor_move
(
struct
drm_crtc
*
crtc
,
int
x
,
int
y
)
{
struct
nouveau_crtc
*
nv_crtc
=
nouveau_crtc
(
crtc
);
const
u32
data
=
(
y
<<
16
)
|
x
;
nv_wr32
(
crtc
->
dev
,
0x64d084
+
(
nv_crtc
->
index
*
0x1000
),
data
);
nv_wr32
(
crtc
->
dev
,
0x64d080
+
(
nv_crtc
->
index
*
0x1000
),
0x00000000
);
return
0
;
}
static
void
nvd0_crtc_gamma_set
(
struct
drm_crtc
*
crtc
,
u16
*
r
,
u16
*
g
,
u16
*
b
,
uint32_t
start
,
uint32_t
size
)
{
struct
nouveau_crtc
*
nv_crtc
=
nouveau_crtc
(
crtc
);
u32
end
=
max
(
start
+
size
,
(
u32
)
256
);
u32
i
;
for
(
i
=
start
;
i
<
end
;
i
++
)
{
nv_crtc
->
lut
.
r
[
i
]
=
r
[
i
];
nv_crtc
->
lut
.
g
[
i
]
=
g
[
i
];
nv_crtc
->
lut
.
b
[
i
]
=
b
[
i
];
}
nvd0_crtc_lut_load
(
crtc
);
}
static
void
nvd0_crtc_destroy
(
struct
drm_crtc
*
crtc
)
{
struct
nouveau_crtc
*
nv_crtc
=
nouveau_crtc
(
crtc
);
nouveau_bo_unmap
(
nv_crtc
->
cursor
.
nvbo
);
nouveau_bo_ref
(
NULL
,
&
nv_crtc
->
cursor
.
nvbo
);
nouveau_bo_unmap
(
nv_crtc
->
lut
.
nvbo
);
nouveau_bo_ref
(
NULL
,
&
nv_crtc
->
lut
.
nvbo
);
drm_crtc_cleanup
(
crtc
);
kfree
(
crtc
);
}
static
const
struct
drm_crtc_helper_funcs
nvd0_crtc_hfunc
=
{
.
dpms
=
nvd0_crtc_dpms
,
.
prepare
=
nvd0_crtc_prepare
,
.
commit
=
nvd0_crtc_commit
,
.
mode_fixup
=
nvd0_crtc_mode_fixup
,
.
mode_set
=
nvd0_crtc_mode_set
,
.
mode_set_base
=
nvd0_crtc_mode_set_base
,
.
mode_set_base_atomic
=
nvd0_crtc_mode_set_base_atomic
,
.
load_lut
=
nvd0_crtc_lut_load
,
};
static
const
struct
drm_crtc_funcs
nvd0_crtc_func
=
{
.
cursor_set
=
nvd0_crtc_cursor_set
,
.
cursor_move
=
nvd0_crtc_cursor_move
,
.
gamma_set
=
nvd0_crtc_gamma_set
,
.
set_config
=
drm_crtc_helper_set_config
,
.
destroy
=
nvd0_crtc_destroy
,
};
static
int
nvd0_crtc_create
(
struct
drm_device
*
dev
,
int
index
)
{
struct
nouveau_crtc
*
nv_crtc
;
struct
drm_crtc
*
crtc
;
int
ret
,
i
;
nv_crtc
=
kzalloc
(
sizeof
(
*
nv_crtc
),
GFP_KERNEL
);
if
(
!
nv_crtc
)
return
-
ENOMEM
;
nv_crtc
->
index
=
index
;
nv_crtc
->
set_dither
=
nvd0_crtc_set_dither
;
nv_crtc
->
set_scale
=
nvd0_crtc_set_scale
;
for
(
i
=
0
;
i
<
256
;
i
++
)
{
nv_crtc
->
lut
.
r
[
i
]
=
i
<<
8
;
nv_crtc
->
lut
.
g
[
i
]
=
i
<<
8
;
nv_crtc
->
lut
.
b
[
i
]
=
i
<<
8
;
}
crtc
=
&
nv_crtc
->
base
;
drm_crtc_init
(
dev
,
crtc
,
&
nvd0_crtc_func
);
drm_crtc_helper_add
(
crtc
,
&
nvd0_crtc_hfunc
);
drm_mode_crtc_set_gamma_size
(
crtc
,
256
);
ret
=
nouveau_bo_new
(
dev
,
64
*
64
*
4
,
0x100
,
TTM_PL_FLAG_VRAM
,
0
,
0x0000
,
&
nv_crtc
->
cursor
.
nvbo
);
if
(
!
ret
)
{
ret
=
nouveau_bo_pin
(
nv_crtc
->
cursor
.
nvbo
,
TTM_PL_FLAG_VRAM
);
if
(
!
ret
)
ret
=
nouveau_bo_map
(
nv_crtc
->
cursor
.
nvbo
);
if
(
ret
)
nouveau_bo_ref
(
NULL
,
&
nv_crtc
->
cursor
.
nvbo
);
}
if
(
ret
)
goto
out
;
ret
=
nouveau_bo_new
(
dev
,
4096
,
0x100
,
TTM_PL_FLAG_VRAM
,
0
,
0x0000
,
&
nv_crtc
->
lut
.
nvbo
);
if
(
!
ret
)
{
ret
=
nouveau_bo_pin
(
nv_crtc
->
lut
.
nvbo
,
TTM_PL_FLAG_VRAM
);
if
(
!
ret
)
ret
=
nouveau_bo_map
(
nv_crtc
->
lut
.
nvbo
);
if
(
ret
)
nouveau_bo_ref
(
NULL
,
&
nv_crtc
->
lut
.
nvbo
);
}
if
(
ret
)
goto
out
;
nvd0_crtc_lut_load
(
crtc
);
out:
if
(
ret
)
nvd0_crtc_destroy
(
crtc
);
return
ret
;
}
/******************************************************************************
/******************************************************************************
* DAC
* DAC
*****************************************************************************/
*****************************************************************************/
...
@@ -194,6 +638,7 @@ nvd0_sor_mode_set(struct drm_encoder *encoder, struct drm_display_mode *mode,
...
@@ -194,6 +638,7 @@ nvd0_sor_mode_set(struct drm_encoder *encoder, struct drm_display_mode *mode,
if
(
push
)
{
if
(
push
)
{
evo_mthd
(
push
,
0x0200
+
(
nv_encoder
->
or
*
0x20
),
1
);
evo_mthd
(
push
,
0x0200
+
(
nv_encoder
->
or
*
0x20
),
1
);
evo_data
(
push
,
mode_ctrl
);
evo_data
(
push
,
mode_ctrl
);
evo_kick
(
push
,
encoder
->
dev
,
0
);
}
}
nv_encoder
->
crtc
=
encoder
->
crtc
;
nv_encoder
->
crtc
=
encoder
->
crtc
;
...
@@ -204,9 +649,12 @@ nvd0_sor_disconnect(struct drm_encoder *encoder)
...
@@ -204,9 +649,12 @@ nvd0_sor_disconnect(struct drm_encoder *encoder)
{
{
struct
nouveau_encoder
*
nv_encoder
=
nouveau_encoder
(
encoder
);
struct
nouveau_encoder
*
nv_encoder
=
nouveau_encoder
(
encoder
);
struct
drm_device
*
dev
=
encoder
->
dev
;
struct
drm_device
*
dev
=
encoder
->
dev
;
u32
*
push
;
if
(
nv_encoder
->
crtc
)
{
if
(
nv_encoder
->
crtc
)
{
u32
*
push
=
evo_wait
(
dev
,
0
,
4
);
nvd0_crtc_prepare
(
nv_encoder
->
crtc
);
push
=
evo_wait
(
dev
,
0
,
4
);
if
(
push
)
{
if
(
push
)
{
evo_mthd
(
push
,
0x0200
+
(
nv_encoder
->
or
*
0x20
),
1
);
evo_mthd
(
push
,
0x0200
+
(
nv_encoder
->
or
*
0x20
),
1
);
evo_data
(
push
,
0x00000000
);
evo_data
(
push
,
0x00000000
);
...
@@ -493,6 +941,13 @@ nvd0_display_create(struct drm_device *dev)
...
@@ -493,6 +941,13 @@ nvd0_display_create(struct drm_device *dev)
return
-
ENOMEM
;
return
-
ENOMEM
;
dev_priv
->
engine
.
display
.
priv
=
disp
;
dev_priv
->
engine
.
display
.
priv
=
disp
;
/* create crtc objects to represent the hw heads */
for
(
i
=
0
;
i
<
2
;
i
++
)
{
ret
=
nvd0_crtc_create
(
dev
,
i
);
if
(
ret
)
goto
out
;
}
/* create encoder/connector objects based on VBIOS DCB table */
/* create encoder/connector objects based on VBIOS DCB table */
for
(
i
=
0
,
dcbe
=
&
dcb
->
entry
[
0
];
i
<
dcb
->
entries
;
i
++
,
dcbe
++
)
{
for
(
i
=
0
,
dcbe
=
&
dcb
->
entry
[
0
];
i
<
dcb
->
entries
;
i
++
,
dcbe
++
)
{
connector
=
nouveau_connector_create
(
dev
,
dcbe
->
connector
);
connector
=
nouveau_connector_create
(
dev
,
dcbe
->
connector
);
...
...
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