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Kirill Smelkov
linux
Commits
cd84a27d
Commit
cd84a27d
authored
Jul 20, 2012
by
Alex Deucher
Browse files
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Plain Diff
drm/radeon/dce8: add support for display watermark setup
Signed-off-by:
Alex Deucher
<
alexander.deucher@amd.com
>
parent
bc19f597
Changes
2
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drivers/gpu/drm/radeon/cik.c
drivers/gpu/drm/radeon/cik.c
+537
-0
drivers/gpu/drm/radeon/cikd.h
drivers/gpu/drm/radeon/cikd.h
+11
-0
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drivers/gpu/drm/radeon/cik.c
View file @
cd84a27d
...
@@ -5017,3 +5017,540 @@ void cik_fini(struct radeon_device *rdev)
...
@@ -5017,3 +5017,540 @@ void cik_fini(struct radeon_device *rdev)
kfree
(
rdev
->
bios
);
kfree
(
rdev
->
bios
);
rdev
->
bios
=
NULL
;
rdev
->
bios
=
NULL
;
}
}
/* display watermark setup */
/**
* dce8_line_buffer_adjust - Set up the line buffer
*
* @rdev: radeon_device pointer
* @radeon_crtc: the selected display controller
* @mode: the current display mode on the selected display
* controller
*
* Setup up the line buffer allocation for
* the selected display controller (CIK).
* Returns the line buffer size in pixels.
*/
static
u32
dce8_line_buffer_adjust
(
struct
radeon_device
*
rdev
,
struct
radeon_crtc
*
radeon_crtc
,
struct
drm_display_mode
*
mode
)
{
u32
tmp
;
/*
* Line Buffer Setup
* There are 6 line buffers, one for each display controllers.
* There are 3 partitions per LB. Select the number of partitions
* to enable based on the display width. For display widths larger
* than 4096, you need use to use 2 display controllers and combine
* them using the stereo blender.
*/
if
(
radeon_crtc
->
base
.
enabled
&&
mode
)
{
if
(
mode
->
crtc_hdisplay
<
1920
)
tmp
=
1
;
else
if
(
mode
->
crtc_hdisplay
<
2560
)
tmp
=
2
;
else
if
(
mode
->
crtc_hdisplay
<
4096
)
tmp
=
0
;
else
{
DRM_DEBUG_KMS
(
"Mode too big for LB!
\n
"
);
tmp
=
0
;
}
}
else
tmp
=
1
;
WREG32
(
LB_MEMORY_CTRL
+
radeon_crtc
->
crtc_offset
,
LB_MEMORY_CONFIG
(
tmp
)
|
LB_MEMORY_SIZE
(
0x6B0
));
if
(
radeon_crtc
->
base
.
enabled
&&
mode
)
{
switch
(
tmp
)
{
case
0
:
default:
return
4096
*
2
;
case
1
:
return
1920
*
2
;
case
2
:
return
2560
*
2
;
}
}
/* controller not enabled, so no lb used */
return
0
;
}
/**
* cik_get_number_of_dram_channels - get the number of dram channels
*
* @rdev: radeon_device pointer
*
* Look up the number of video ram channels (CIK).
* Used for display watermark bandwidth calculations
* Returns the number of dram channels
*/
static
u32
cik_get_number_of_dram_channels
(
struct
radeon_device
*
rdev
)
{
u32
tmp
=
RREG32
(
MC_SHARED_CHMAP
);
switch
((
tmp
&
NOOFCHAN_MASK
)
>>
NOOFCHAN_SHIFT
)
{
case
0
:
default:
return
1
;
case
1
:
return
2
;
case
2
:
return
4
;
case
3
:
return
8
;
case
4
:
return
3
;
case
5
:
return
6
;
case
6
:
return
10
;
case
7
:
return
12
;
case
8
:
return
16
;
}
}
struct
dce8_wm_params
{
u32
dram_channels
;
/* number of dram channels */
u32
yclk
;
/* bandwidth per dram data pin in kHz */
u32
sclk
;
/* engine clock in kHz */
u32
disp_clk
;
/* display clock in kHz */
u32
src_width
;
/* viewport width */
u32
active_time
;
/* active display time in ns */
u32
blank_time
;
/* blank time in ns */
bool
interlaced
;
/* mode is interlaced */
fixed20_12
vsc
;
/* vertical scale ratio */
u32
num_heads
;
/* number of active crtcs */
u32
bytes_per_pixel
;
/* bytes per pixel display + overlay */
u32
lb_size
;
/* line buffer allocated to pipe */
u32
vtaps
;
/* vertical scaler taps */
};
/**
* dce8_dram_bandwidth - get the dram bandwidth
*
* @wm: watermark calculation data
*
* Calculate the raw dram bandwidth (CIK).
* Used for display watermark bandwidth calculations
* Returns the dram bandwidth in MBytes/s
*/
static
u32
dce8_dram_bandwidth
(
struct
dce8_wm_params
*
wm
)
{
/* Calculate raw DRAM Bandwidth */
fixed20_12
dram_efficiency
;
/* 0.7 */
fixed20_12
yclk
,
dram_channels
,
bandwidth
;
fixed20_12
a
;
a
.
full
=
dfixed_const
(
1000
);
yclk
.
full
=
dfixed_const
(
wm
->
yclk
);
yclk
.
full
=
dfixed_div
(
yclk
,
a
);
dram_channels
.
full
=
dfixed_const
(
wm
->
dram_channels
*
4
);
a
.
full
=
dfixed_const
(
10
);
dram_efficiency
.
full
=
dfixed_const
(
7
);
dram_efficiency
.
full
=
dfixed_div
(
dram_efficiency
,
a
);
bandwidth
.
full
=
dfixed_mul
(
dram_channels
,
yclk
);
bandwidth
.
full
=
dfixed_mul
(
bandwidth
,
dram_efficiency
);
return
dfixed_trunc
(
bandwidth
);
}
/**
* dce8_dram_bandwidth_for_display - get the dram bandwidth for display
*
* @wm: watermark calculation data
*
* Calculate the dram bandwidth used for display (CIK).
* Used for display watermark bandwidth calculations
* Returns the dram bandwidth for display in MBytes/s
*/
static
u32
dce8_dram_bandwidth_for_display
(
struct
dce8_wm_params
*
wm
)
{
/* Calculate DRAM Bandwidth and the part allocated to display. */
fixed20_12
disp_dram_allocation
;
/* 0.3 to 0.7 */
fixed20_12
yclk
,
dram_channels
,
bandwidth
;
fixed20_12
a
;
a
.
full
=
dfixed_const
(
1000
);
yclk
.
full
=
dfixed_const
(
wm
->
yclk
);
yclk
.
full
=
dfixed_div
(
yclk
,
a
);
dram_channels
.
full
=
dfixed_const
(
wm
->
dram_channels
*
4
);
a
.
full
=
dfixed_const
(
10
);
disp_dram_allocation
.
full
=
dfixed_const
(
3
);
/* XXX worse case value 0.3 */
disp_dram_allocation
.
full
=
dfixed_div
(
disp_dram_allocation
,
a
);
bandwidth
.
full
=
dfixed_mul
(
dram_channels
,
yclk
);
bandwidth
.
full
=
dfixed_mul
(
bandwidth
,
disp_dram_allocation
);
return
dfixed_trunc
(
bandwidth
);
}
/**
* dce8_data_return_bandwidth - get the data return bandwidth
*
* @wm: watermark calculation data
*
* Calculate the data return bandwidth used for display (CIK).
* Used for display watermark bandwidth calculations
* Returns the data return bandwidth in MBytes/s
*/
static
u32
dce8_data_return_bandwidth
(
struct
dce8_wm_params
*
wm
)
{
/* Calculate the display Data return Bandwidth */
fixed20_12
return_efficiency
;
/* 0.8 */
fixed20_12
sclk
,
bandwidth
;
fixed20_12
a
;
a
.
full
=
dfixed_const
(
1000
);
sclk
.
full
=
dfixed_const
(
wm
->
sclk
);
sclk
.
full
=
dfixed_div
(
sclk
,
a
);
a
.
full
=
dfixed_const
(
10
);
return_efficiency
.
full
=
dfixed_const
(
8
);
return_efficiency
.
full
=
dfixed_div
(
return_efficiency
,
a
);
a
.
full
=
dfixed_const
(
32
);
bandwidth
.
full
=
dfixed_mul
(
a
,
sclk
);
bandwidth
.
full
=
dfixed_mul
(
bandwidth
,
return_efficiency
);
return
dfixed_trunc
(
bandwidth
);
}
/**
* dce8_dmif_request_bandwidth - get the dmif bandwidth
*
* @wm: watermark calculation data
*
* Calculate the dmif bandwidth used for display (CIK).
* Used for display watermark bandwidth calculations
* Returns the dmif bandwidth in MBytes/s
*/
static
u32
dce8_dmif_request_bandwidth
(
struct
dce8_wm_params
*
wm
)
{
/* Calculate the DMIF Request Bandwidth */
fixed20_12
disp_clk_request_efficiency
;
/* 0.8 */
fixed20_12
disp_clk
,
bandwidth
;
fixed20_12
a
,
b
;
a
.
full
=
dfixed_const
(
1000
);
disp_clk
.
full
=
dfixed_const
(
wm
->
disp_clk
);
disp_clk
.
full
=
dfixed_div
(
disp_clk
,
a
);
a
.
full
=
dfixed_const
(
32
);
b
.
full
=
dfixed_mul
(
a
,
disp_clk
);
a
.
full
=
dfixed_const
(
10
);
disp_clk_request_efficiency
.
full
=
dfixed_const
(
8
);
disp_clk_request_efficiency
.
full
=
dfixed_div
(
disp_clk_request_efficiency
,
a
);
bandwidth
.
full
=
dfixed_mul
(
b
,
disp_clk_request_efficiency
);
return
dfixed_trunc
(
bandwidth
);
}
/**
* dce8_available_bandwidth - get the min available bandwidth
*
* @wm: watermark calculation data
*
* Calculate the min available bandwidth used for display (CIK).
* Used for display watermark bandwidth calculations
* Returns the min available bandwidth in MBytes/s
*/
static
u32
dce8_available_bandwidth
(
struct
dce8_wm_params
*
wm
)
{
/* Calculate the Available bandwidth. Display can use this temporarily but not in average. */
u32
dram_bandwidth
=
dce8_dram_bandwidth
(
wm
);
u32
data_return_bandwidth
=
dce8_data_return_bandwidth
(
wm
);
u32
dmif_req_bandwidth
=
dce8_dmif_request_bandwidth
(
wm
);
return
min
(
dram_bandwidth
,
min
(
data_return_bandwidth
,
dmif_req_bandwidth
));
}
/**
* dce8_average_bandwidth - get the average available bandwidth
*
* @wm: watermark calculation data
*
* Calculate the average available bandwidth used for display (CIK).
* Used for display watermark bandwidth calculations
* Returns the average available bandwidth in MBytes/s
*/
static
u32
dce8_average_bandwidth
(
struct
dce8_wm_params
*
wm
)
{
/* Calculate the display mode Average Bandwidth
* DisplayMode should contain the source and destination dimensions,
* timing, etc.
*/
fixed20_12
bpp
;
fixed20_12
line_time
;
fixed20_12
src_width
;
fixed20_12
bandwidth
;
fixed20_12
a
;
a
.
full
=
dfixed_const
(
1000
);
line_time
.
full
=
dfixed_const
(
wm
->
active_time
+
wm
->
blank_time
);
line_time
.
full
=
dfixed_div
(
line_time
,
a
);
bpp
.
full
=
dfixed_const
(
wm
->
bytes_per_pixel
);
src_width
.
full
=
dfixed_const
(
wm
->
src_width
);
bandwidth
.
full
=
dfixed_mul
(
src_width
,
bpp
);
bandwidth
.
full
=
dfixed_mul
(
bandwidth
,
wm
->
vsc
);
bandwidth
.
full
=
dfixed_div
(
bandwidth
,
line_time
);
return
dfixed_trunc
(
bandwidth
);
}
/**
* dce8_latency_watermark - get the latency watermark
*
* @wm: watermark calculation data
*
* Calculate the latency watermark (CIK).
* Used for display watermark bandwidth calculations
* Returns the latency watermark in ns
*/
static
u32
dce8_latency_watermark
(
struct
dce8_wm_params
*
wm
)
{
/* First calculate the latency in ns */
u32
mc_latency
=
2000
;
/* 2000 ns. */
u32
available_bandwidth
=
dce8_available_bandwidth
(
wm
);
u32
worst_chunk_return_time
=
(
512
*
8
*
1000
)
/
available_bandwidth
;
u32
cursor_line_pair_return_time
=
(
128
*
4
*
1000
)
/
available_bandwidth
;
u32
dc_latency
=
40000000
/
wm
->
disp_clk
;
/* dc pipe latency */
u32
other_heads_data_return_time
=
((
wm
->
num_heads
+
1
)
*
worst_chunk_return_time
)
+
(
wm
->
num_heads
*
cursor_line_pair_return_time
);
u32
latency
=
mc_latency
+
other_heads_data_return_time
+
dc_latency
;
u32
max_src_lines_per_dst_line
,
lb_fill_bw
,
line_fill_time
;
u32
tmp
,
dmif_size
=
12288
;
fixed20_12
a
,
b
,
c
;
if
(
wm
->
num_heads
==
0
)
return
0
;
a
.
full
=
dfixed_const
(
2
);
b
.
full
=
dfixed_const
(
1
);
if
((
wm
->
vsc
.
full
>
a
.
full
)
||
((
wm
->
vsc
.
full
>
b
.
full
)
&&
(
wm
->
vtaps
>=
3
))
||
(
wm
->
vtaps
>=
5
)
||
((
wm
->
vsc
.
full
>=
a
.
full
)
&&
wm
->
interlaced
))
max_src_lines_per_dst_line
=
4
;
else
max_src_lines_per_dst_line
=
2
;
a
.
full
=
dfixed_const
(
available_bandwidth
);
b
.
full
=
dfixed_const
(
wm
->
num_heads
);
a
.
full
=
dfixed_div
(
a
,
b
);
b
.
full
=
dfixed_const
(
mc_latency
+
512
);
c
.
full
=
dfixed_const
(
wm
->
disp_clk
);
b
.
full
=
dfixed_div
(
b
,
c
);
c
.
full
=
dfixed_const
(
dmif_size
);
b
.
full
=
dfixed_div
(
c
,
b
);
tmp
=
min
(
dfixed_trunc
(
a
),
dfixed_trunc
(
b
));
b
.
full
=
dfixed_const
(
1000
);
c
.
full
=
dfixed_const
(
wm
->
disp_clk
);
b
.
full
=
dfixed_div
(
c
,
b
);
c
.
full
=
dfixed_const
(
wm
->
bytes_per_pixel
);
b
.
full
=
dfixed_mul
(
b
,
c
);
lb_fill_bw
=
min
(
tmp
,
dfixed_trunc
(
b
));
a
.
full
=
dfixed_const
(
max_src_lines_per_dst_line
*
wm
->
src_width
*
wm
->
bytes_per_pixel
);
b
.
full
=
dfixed_const
(
1000
);
c
.
full
=
dfixed_const
(
lb_fill_bw
);
b
.
full
=
dfixed_div
(
c
,
b
);
a
.
full
=
dfixed_div
(
a
,
b
);
line_fill_time
=
dfixed_trunc
(
a
);
if
(
line_fill_time
<
wm
->
active_time
)
return
latency
;
else
return
latency
+
(
line_fill_time
-
wm
->
active_time
);
}
/**
* dce8_average_bandwidth_vs_dram_bandwidth_for_display - check
* average and available dram bandwidth
*
* @wm: watermark calculation data
*
* Check if the display average bandwidth fits in the display
* dram bandwidth (CIK).
* Used for display watermark bandwidth calculations
* Returns true if the display fits, false if not.
*/
static
bool
dce8_average_bandwidth_vs_dram_bandwidth_for_display
(
struct
dce8_wm_params
*
wm
)
{
if
(
dce8_average_bandwidth
(
wm
)
<=
(
dce8_dram_bandwidth_for_display
(
wm
)
/
wm
->
num_heads
))
return
true
;
else
return
false
;
}
/**
* dce8_average_bandwidth_vs_available_bandwidth - check
* average and available bandwidth
*
* @wm: watermark calculation data
*
* Check if the display average bandwidth fits in the display
* available bandwidth (CIK).
* Used for display watermark bandwidth calculations
* Returns true if the display fits, false if not.
*/
static
bool
dce8_average_bandwidth_vs_available_bandwidth
(
struct
dce8_wm_params
*
wm
)
{
if
(
dce8_average_bandwidth
(
wm
)
<=
(
dce8_available_bandwidth
(
wm
)
/
wm
->
num_heads
))
return
true
;
else
return
false
;
}
/**
* dce8_check_latency_hiding - check latency hiding
*
* @wm: watermark calculation data
*
* Check latency hiding (CIK).
* Used for display watermark bandwidth calculations
* Returns true if the display fits, false if not.
*/
static
bool
dce8_check_latency_hiding
(
struct
dce8_wm_params
*
wm
)
{
u32
lb_partitions
=
wm
->
lb_size
/
wm
->
src_width
;
u32
line_time
=
wm
->
active_time
+
wm
->
blank_time
;
u32
latency_tolerant_lines
;
u32
latency_hiding
;
fixed20_12
a
;
a
.
full
=
dfixed_const
(
1
);
if
(
wm
->
vsc
.
full
>
a
.
full
)
latency_tolerant_lines
=
1
;
else
{
if
(
lb_partitions
<=
(
wm
->
vtaps
+
1
))
latency_tolerant_lines
=
1
;
else
latency_tolerant_lines
=
2
;
}
latency_hiding
=
(
latency_tolerant_lines
*
line_time
+
wm
->
blank_time
);
if
(
dce8_latency_watermark
(
wm
)
<=
latency_hiding
)
return
true
;
else
return
false
;
}
/**
* dce8_program_watermarks - program display watermarks
*
* @rdev: radeon_device pointer
* @radeon_crtc: the selected display controller
* @lb_size: line buffer size
* @num_heads: number of display controllers in use
*
* Calculate and program the display watermarks for the
* selected display controller (CIK).
*/
static
void
dce8_program_watermarks
(
struct
radeon_device
*
rdev
,
struct
radeon_crtc
*
radeon_crtc
,
u32
lb_size
,
u32
num_heads
)
{
struct
drm_display_mode
*
mode
=
&
radeon_crtc
->
base
.
mode
;
struct
dce8_wm_params
wm
;
u32
pixel_period
;
u32
line_time
=
0
;
u32
latency_watermark_a
=
0
,
latency_watermark_b
=
0
;
u32
tmp
,
wm_mask
;
if
(
radeon_crtc
->
base
.
enabled
&&
num_heads
&&
mode
)
{
pixel_period
=
1000000
/
(
u32
)
mode
->
clock
;
line_time
=
min
((
u32
)
mode
->
crtc_htotal
*
pixel_period
,
(
u32
)
65535
);
wm
.
yclk
=
rdev
->
pm
.
current_mclk
*
10
;
wm
.
sclk
=
rdev
->
pm
.
current_sclk
*
10
;
wm
.
disp_clk
=
mode
->
clock
;
wm
.
src_width
=
mode
->
crtc_hdisplay
;
wm
.
active_time
=
mode
->
crtc_hdisplay
*
pixel_period
;
wm
.
blank_time
=
line_time
-
wm
.
active_time
;
wm
.
interlaced
=
false
;
if
(
mode
->
flags
&
DRM_MODE_FLAG_INTERLACE
)
wm
.
interlaced
=
true
;
wm
.
vsc
=
radeon_crtc
->
vsc
;
wm
.
vtaps
=
1
;
if
(
radeon_crtc
->
rmx_type
!=
RMX_OFF
)
wm
.
vtaps
=
2
;
wm
.
bytes_per_pixel
=
4
;
/* XXX: get this from fb config */
wm
.
lb_size
=
lb_size
;
wm
.
dram_channels
=
cik_get_number_of_dram_channels
(
rdev
);
wm
.
num_heads
=
num_heads
;
/* set for high clocks */
latency_watermark_a
=
min
(
dce8_latency_watermark
(
&
wm
),
(
u32
)
65535
);
/* set for low clocks */
/* wm.yclk = low clk; wm.sclk = low clk */
latency_watermark_b
=
min
(
dce8_latency_watermark
(
&
wm
),
(
u32
)
65535
);
/* possibly force display priority to high */
/* should really do this at mode validation time... */
if
(
!
dce8_average_bandwidth_vs_dram_bandwidth_for_display
(
&
wm
)
||
!
dce8_average_bandwidth_vs_available_bandwidth
(
&
wm
)
||
!
dce8_check_latency_hiding
(
&
wm
)
||
(
rdev
->
disp_priority
==
2
))
{
DRM_DEBUG_KMS
(
"force priority to high
\n
"
);
}
}
/* select wm A */
wm_mask
=
RREG32
(
DPG_WATERMARK_MASK_CONTROL
+
radeon_crtc
->
crtc_offset
);
tmp
=
wm_mask
;
tmp
&=
~
LATENCY_WATERMARK_MASK
(
3
);
tmp
|=
LATENCY_WATERMARK_MASK
(
1
);
WREG32
(
DPG_WATERMARK_MASK_CONTROL
+
radeon_crtc
->
crtc_offset
,
tmp
);
WREG32
(
DPG_PIPE_LATENCY_CONTROL
+
radeon_crtc
->
crtc_offset
,
(
LATENCY_LOW_WATERMARK
(
latency_watermark_a
)
|
LATENCY_HIGH_WATERMARK
(
line_time
)));
/* select wm B */
tmp
=
RREG32
(
DPG_WATERMARK_MASK_CONTROL
+
radeon_crtc
->
crtc_offset
);
tmp
&=
~
LATENCY_WATERMARK_MASK
(
3
);
tmp
|=
LATENCY_WATERMARK_MASK
(
2
);
WREG32
(
DPG_WATERMARK_MASK_CONTROL
+
radeon_crtc
->
crtc_offset
,
tmp
);
WREG32
(
DPG_PIPE_LATENCY_CONTROL
+
radeon_crtc
->
crtc_offset
,
(
LATENCY_LOW_WATERMARK
(
latency_watermark_b
)
|
LATENCY_HIGH_WATERMARK
(
line_time
)));
/* restore original selection */
WREG32
(
DPG_WATERMARK_MASK_CONTROL
+
radeon_crtc
->
crtc_offset
,
wm_mask
);
}
/**
* dce8_bandwidth_update - program display watermarks
*
* @rdev: radeon_device pointer
*
* Calculate and program the display watermarks and line
* buffer allocation (CIK).
*/
void
dce8_bandwidth_update
(
struct
radeon_device
*
rdev
)
{
struct
drm_display_mode
*
mode
=
NULL
;
u32
num_heads
=
0
,
lb_size
;
int
i
;
radeon_update_display_priority
(
rdev
);
for
(
i
=
0
;
i
<
rdev
->
num_crtc
;
i
++
)
{
if
(
rdev
->
mode_info
.
crtcs
[
i
]
->
base
.
enabled
)
num_heads
++
;
}
for
(
i
=
0
;
i
<
rdev
->
num_crtc
;
i
++
)
{
mode
=
&
rdev
->
mode_info
.
crtcs
[
i
]
->
base
.
mode
;
lb_size
=
dce8_line_buffer_adjust
(
rdev
,
rdev
->
mode_info
.
crtcs
[
i
],
mode
);
dce8_program_watermarks
(
rdev
,
rdev
->
mode_info
.
crtcs
[
i
],
lb_size
,
num_heads
);
}
}
drivers/gpu/drm/radeon/cikd.h
View file @
cd84a27d
...
@@ -259,6 +259,17 @@
...
@@ -259,6 +259,17 @@
#define SDMA0 (1 << 10)
#define SDMA0 (1 << 10)
#define SDMA1 (1 << 11)
#define SDMA1 (1 << 11)
/* 0x6b04, 0x7704, 0x10304, 0x10f04, 0x11b04, 0x12704 */
#define LB_MEMORY_CTRL 0x6b04
#define LB_MEMORY_SIZE(x) ((x) << 0)
#define LB_MEMORY_CONFIG(x) ((x) << 20)
#define DPG_WATERMARK_MASK_CONTROL 0x6cc8
# define LATENCY_WATERMARK_MASK(x) ((x) << 8)
#define DPG_PIPE_LATENCY_CONTROL 0x6ccc
# define LATENCY_LOW_WATERMARK(x) ((x) << 0)
# define LATENCY_HIGH_WATERMARK(x) ((x) << 16)
/* 0x6b24, 0x7724, 0x10324, 0x10f24, 0x11b24, 0x12724 */
/* 0x6b24, 0x7724, 0x10324, 0x10f24, 0x11b24, 0x12724 */
#define LB_VLINE_STATUS 0x6b24
#define LB_VLINE_STATUS 0x6b24
# define VLINE_OCCURRED (1 << 0)
# define VLINE_OCCURRED (1 << 0)
...
...
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