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drm/amd/display: Fix color module crash when hotplug monitors.

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Assume we have two monitors, and monitor 0 is unplugged.
This shifts the internal state of index 1 to index 0 by memcpy.
This means there are two copies of the gamma pointer previously
owned by state[1].

When hotplug occurs, this re-assigns the new display with state[1],
which has some garbage left over from before, including the
gamma pointer.

We should correctly clear unused states and re-initialize correctly.

Also, due to async nature of the hotplug and other events like commit,
we also need to safe guard against sink that has been removed.

Signed-off-by: Anthony Koo <anthony.koo@amd.com>
Reviewed-by: Aric Cyr <Aric.Cyr@amd.com>
Reviewed-by: Tony Cheng <Tony.Cheng@amd.com>
Acked-by: Harry Wentland <Harry.Wentland@amd.com>
Signed-off-by: Alex Deucher <alexander.deucher@amd.com>
This commit is contained in:
Anthony Koo 2016-12-23 15:43:04 -05:00 committed by Alex Deucher
parent 5a7a1eebc6
commit afed48a00c
1 changed files with 175 additions and 134 deletions
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309
drivers/gpu/drm/amd/display/modules/color/color.c
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@ -643,10 +643,10 @@ static void initialize_fix_point_color_values(
/* Given a specific dc_sink* this function finds its equivalent
* on the dc_sink array and returns the corresponding index
*/
static unsigned int sink_index_from_sink(struct core_color *core_color,
static int sink_index_from_sink(struct core_color *core_color,
const struct dc_sink *sink)
{
unsigned int index = 0;
int index = 0;
for (index = 0; index < core_color->num_sinks; index++)
if (core_color->caps[index].sink == sink)
@ -654,7 +654,7 @@ static unsigned int sink_index_from_sink(struct core_color *core_color,
/* Could not find sink requested */
ASSERT(false);
return index;
return -1;
}
static void calculate_rgb_matrix_legacy(struct core_color *core_color,
@ -1427,6 +1427,65 @@ static bool update_color_gamut_data(struct color_gamut_data *input_data,
return true;
}
void initialize_color_state(struct core_color *core_color, int index)
{
core_color->state[index].user_enable_color_temperature = true;
core_color->state[index].custom_color_temperature = 6500;
core_color->state[index].contrast.current = 100;
core_color->state[index].contrast.min = 0;
core_color->state[index].contrast.max = 200;
core_color->state[index].saturation.current = 100;
core_color->state[index].saturation.min = 0;
core_color->state[index].saturation.max = 200;
core_color->state[index].brightness.current = 0;
core_color->state[index].brightness.min = -100;
core_color->state[index].brightness.max = 100;
core_color->state[index].hue.current = 0;
core_color->state[index].hue.min = -30;
core_color->state[index].hue.max = 30;
core_color->state[index].gamma = NULL;
core_color->state[index].preferred_quantization_range =
QUANTIZATION_RANGE_FULL;
core_color->state[index].source_gamut.color_space =
color_space_srgb;
core_color->state[index].source_gamut.white_point =
color_white_point_type_6500k_noon;
core_color->state[index].source_gamut.gamut.blueX = 1500;
core_color->state[index].source_gamut.gamut.blueY = 600;
core_color->state[index].source_gamut.gamut.greenX = 3000;
core_color->state[index].source_gamut.gamut.greenY = 6000;
core_color->state[index].source_gamut.gamut.redX = 6400;
core_color->state[index].source_gamut.gamut.redY = 3300;
core_color->state[index].source_gamut.gamut.whiteX = 3127;
core_color->state[index].source_gamut.gamut.whiteY = 3290;
core_color->state[index].destination_gamut.color_space =
color_space_srgb;
core_color->state[index].destination_gamut.white_point =
color_white_point_type_6500k_noon;
core_color->state[index].destination_gamut.gamut.blueX = 1500;
core_color->state[index].destination_gamut.gamut.blueY = 600;
core_color->state[index].destination_gamut.gamut.greenX = 3000;
core_color->state[index].destination_gamut.gamut.greenY = 6000;
core_color->state[index].destination_gamut.gamut.redX = 6400;
core_color->state[index].destination_gamut.gamut.redY = 3300;
core_color->state[index].destination_gamut.gamut.whiteX = 3127;
core_color->state[index].destination_gamut.gamut.whiteY = 3290;
core_color->state[index].input_transfer_function =
transfer_func_srgb;
core_color->state[index].output_transfer_function =
transfer_func_srgb;
}
struct mod_color *mod_color_create(struct dc *dc)
{
int i = 0;
@ -1452,54 +1511,7 @@ struct mod_color *mod_color_create(struct dc *dc)
/*hardcoded to sRGB with 6500 color temperature*/
for (i = 0; i < MOD_COLOR_MAX_CONCURRENT_SINKS; i++) {
core_color->state[i].source_gamut.color_space =
color_space_srgb;
core_color->state[i].source_gamut.white_point =
color_white_point_type_6500k_noon;
core_color->state[i].source_gamut.gamut.blueX = 1500;
core_color->state[i].source_gamut.gamut.blueY = 600;
core_color->state[i].source_gamut.gamut.greenX = 3000;
core_color->state[i].source_gamut.gamut.greenY = 6000;
core_color->state[i].source_gamut.gamut.redX = 6400;
core_color->state[i].source_gamut.gamut.redY = 3300;
core_color->state[i].source_gamut.gamut.whiteX = 3127;
core_color->state[i].source_gamut.gamut.whiteY = 3290;
core_color->state[i].destination_gamut.color_space =
color_space_srgb;
core_color->state[i].destination_gamut.white_point =
color_white_point_type_6500k_noon;
core_color->state[i].destination_gamut.gamut.blueX = 1500;
core_color->state[i].destination_gamut.gamut.blueY = 600;
core_color->state[i].destination_gamut.gamut.greenX = 3000;
core_color->state[i].destination_gamut.gamut.greenY = 6000;
core_color->state[i].destination_gamut.gamut.redX = 6400;
core_color->state[i].destination_gamut.gamut.redY = 3300;
core_color->state[i].destination_gamut.gamut.whiteX = 3127;
core_color->state[i].destination_gamut.gamut.whiteY = 3290;
core_color->state[i].input_transfer_function =
transfer_func_srgb;
core_color->state[i].output_transfer_function =
transfer_func_srgb;
core_color->state[i].custom_color_temperature = 6500;
core_color->state[i].contrast.current = 100;
core_color->state[i].contrast.min = 0;
core_color->state[i].contrast.max = 200;
core_color->state[i].saturation.current = 100;
core_color->state[i].saturation.min = 0;
core_color->state[i].saturation.max = 200;
core_color->state[i].brightness.current = 0;
core_color->state[i].brightness.min = -100;
core_color->state[i].brightness.max = 100;
core_color->state[i].hue.current = 0;
core_color->state[i].hue.min = -30;
core_color->state[i].hue.max = 30;
initialize_color_state(core_color, i);
}
if (core_color->state == NULL)
@ -1589,8 +1601,8 @@ bool mod_color_add_sink(struct mod_color *mod_color, const struct dc_sink *sink,
if (core_color->num_sinks < MOD_COLOR_MAX_CONCURRENT_SINKS) {
dc_sink_retain(sink);
core_color->caps[core_color->num_sinks].sink = sink;
core_color->state[core_color->num_sinks].
user_enable_color_temperature = true;
initialize_color_state(core_color, core_color->num_sinks);
core_color->edid_caps[core_color->num_sinks].colorimetry_caps =
edid_caps->colorimetry_caps;
@ -1601,7 +1613,6 @@ bool mod_color_add_sink(struct mod_color *mod_color, const struct dc_sink *sink,
flag.save_per_edid = true;
flag.save_per_link = false;
if (dm_read_persistent_data(core_dc->ctx, sink,
COLOR_REGISTRY_NAME,
"enablecolortempadj",
@ -1610,9 +1621,6 @@ bool mod_color_add_sink(struct mod_color *mod_color, const struct dc_sink *sink,
core_color->state[core_color->num_sinks].
user_enable_color_temperature =
persistent_color_temp_enable;
else
core_color->state[core_color->num_sinks].
user_enable_color_temperature = true;
if (dm_read_persistent_data(core_dc->ctx, sink,
COLOR_REGISTRY_NAME,
@ -1622,9 +1630,6 @@ bool mod_color_add_sink(struct mod_color *mod_color, const struct dc_sink *sink,
core_color->state[core_color->num_sinks].
custom_color_temperature
= persistent_custom_color_temp;
else
core_color->state[core_color->num_sinks].
custom_color_temperature = 6500;
if (dm_read_persistent_data(core_dc->ctx, sink,
COLOR_REGISTRY_NAME,
@ -1635,23 +1640,6 @@ bool mod_color_add_sink(struct mod_color *mod_color, const struct dc_sink *sink,
memcpy(&core_color->state[core_color->num_sinks].
source_gamut.gamut, &persistent_source_gamut,
sizeof(struct color_space_coordinates));
} else {
core_color->state[core_color->num_sinks].
source_gamut.gamut.blueX = 1500;
core_color->state[core_color->num_sinks].
source_gamut.gamut.blueY = 600;
core_color->state[core_color->num_sinks].
source_gamut.gamut.greenX = 3000;
core_color->state[core_color->num_sinks].
source_gamut.gamut.greenY = 6000;
core_color->state[core_color->num_sinks].
source_gamut.gamut.redX = 6400;
core_color->state[core_color->num_sinks].
source_gamut.gamut.redY = 3300;
core_color->state[core_color->num_sinks].
source_gamut.gamut.whiteX = 3127;
core_color->state[core_color->num_sinks].
source_gamut.gamut.whiteY = 3290;
}
if (dm_read_persistent_data(core_dc->ctx, sink, COLOR_REGISTRY_NAME,
@ -1663,23 +1651,6 @@ bool mod_color_add_sink(struct mod_color *mod_color, const struct dc_sink *sink,
destination_gamut.gamut,
&persistent_destination_gamut,
sizeof(struct color_space_coordinates));
} else {
core_color->state[core_color->num_sinks].
destination_gamut.gamut.blueX = 1500;
core_color->state[core_color->num_sinks].
destination_gamut.gamut.blueY = 600;
core_color->state[core_color->num_sinks].
destination_gamut.gamut.greenX = 3000;
core_color->state[core_color->num_sinks].
destination_gamut.gamut.greenY = 6000;
core_color->state[core_color->num_sinks].
destination_gamut.gamut.redX = 6400;
core_color->state[core_color->num_sinks].
destination_gamut.gamut.redY = 3300;
core_color->state[core_color->num_sinks].
destination_gamut.gamut.whiteX = 3127;
core_color->state[core_color->num_sinks].
destination_gamut.gamut.whiteY = 3290;
}
if (dm_read_persistent_data(core_dc->ctx, sink, COLOR_REGISTRY_NAME,
@ -1688,9 +1659,6 @@ bool mod_color_add_sink(struct mod_color *mod_color, const struct dc_sink *sink,
sizeof(int), &flag))
core_color->state[core_color->num_sinks].
brightness.current = persistent_brightness;
else
core_color->state[core_color->num_sinks].
brightness.current = 0;
if (dm_read_persistent_data(core_dc->ctx, sink, COLOR_REGISTRY_NAME,
"contrast",
@ -1698,9 +1666,6 @@ bool mod_color_add_sink(struct mod_color *mod_color, const struct dc_sink *sink,
sizeof(int), &flag))
core_color->state[core_color->num_sinks].
contrast.current = persistent_contrast;
else
core_color->state[core_color->num_sinks].
contrast.current = 100;
if (dm_read_persistent_data(core_dc->ctx, sink, COLOR_REGISTRY_NAME,
"hue",
@ -1708,9 +1673,6 @@ bool mod_color_add_sink(struct mod_color *mod_color, const struct dc_sink *sink,
sizeof(int), &flag))
core_color->state[core_color->num_sinks].
hue.current = persistent_hue;
else
core_color->state[core_color->num_sinks].
hue.current = 0;
if (dm_read_persistent_data(core_dc->ctx, sink, COLOR_REGISTRY_NAME,
"saturation",
@ -1718,9 +1680,6 @@ bool mod_color_add_sink(struct mod_color *mod_color, const struct dc_sink *sink,
sizeof(int), &flag))
core_color->state[core_color->num_sinks].
saturation.current = persistent_saturation;
else
core_color->state[core_color->num_sinks].
saturation.current = 100;
if (dm_read_persistent_data(core_dc->ctx, sink,
COLOR_REGISTRY_NAME,
@ -1730,9 +1689,6 @@ bool mod_color_add_sink(struct mod_color *mod_color, const struct dc_sink *sink,
core_color->state[core_color->num_sinks].
preferred_quantization_range =
persistent_quantization_range;
else
core_color->state[core_color->num_sinks].
preferred_quantization_range = QUANTIZATION_RANGE_FULL;
core_color->num_sinks++;
return true;
@ -1751,6 +1707,10 @@ bool mod_color_remove_sink(struct mod_color *mod_color,
if (core_color->state[i].gamma) {
dc_gamma_release(&core_color->state[i].gamma);
}
memset(&core_color->state[i], 0,
sizeof(struct color_state));
memset(&core_color->edid_caps[i], 0,
sizeof(struct color_edid_caps));
/* To remove this sink, shift everything after down */
for (j = i; j < core_color->num_sinks - 1; j++) {
@ -1766,6 +1726,11 @@ bool mod_color_remove_sink(struct mod_color *mod_color,
sizeof(struct color_edid_caps));
}
memset(&core_color->state[core_color->num_sinks - 1], 0,
sizeof(struct color_state));
memset(&core_color->edid_caps[core_color->num_sinks - 1], 0,
sizeof(struct color_edid_caps));
core_color->num_sinks--;
dc_sink_release(sink);
@ -1786,11 +1751,14 @@ bool mod_color_update_gamut_to_stream(struct mod_color *mod_color,
struct gamut_src_dst_matrix *matrix =
dm_alloc(sizeof(struct gamut_src_dst_matrix));
unsigned int stream_index, sink_index, j;
unsigned int stream_index, j;
int sink_index;
for (stream_index = 0; stream_index < num_streams; stream_index++) {
sink_index = sink_index_from_sink(core_color,
streams[stream_index]->sink);
if (sink_index == -1)
continue;
/* Write persistent data in registry*/
flag.save_per_edid = true;
@ -1880,11 +1848,14 @@ bool mod_color_adjust_source_gamut(struct mod_color *mod_color,
{
struct core_color *core_color = MOD_COLOR_TO_CORE(mod_color);
unsigned int stream_index, sink_index;
unsigned int stream_index;
int sink_index;
for (stream_index = 0; stream_index < num_streams; stream_index++) {
sink_index = sink_index_from_sink(core_color,
streams[stream_index]->sink);
if (sink_index == -1)
continue;
update_color_gamut_data(input_gamut_data,
&core_color->state[sink_index].source_gamut);
@ -1903,11 +1874,14 @@ bool mod_color_adjust_source_gamut_and_tf(struct mod_color *mod_color,
{
struct core_color *core_color = MOD_COLOR_TO_CORE(mod_color);
unsigned int stream_index, sink_index;
unsigned int stream_index;
int sink_index;
for (stream_index = 0; stream_index < num_streams; stream_index++) {
sink_index = sink_index_from_sink(core_color,
streams[stream_index]->sink);
if (sink_index == -1)
continue;
update_color_gamut_data(input_gamut_data,
&core_color->state[sink_index].source_gamut);
core_color->state[sink_index].input_transfer_function =
@ -1926,11 +1900,14 @@ bool mod_color_adjust_destination_gamut(struct mod_color *mod_color,
{
struct core_color *core_color = MOD_COLOR_TO_CORE(mod_color);
unsigned int stream_index, sink_index;
unsigned int stream_index;
int sink_index;
for (stream_index = 0; stream_index < num_streams; stream_index++) {
sink_index = sink_index_from_sink(core_color,
streams[stream_index]->sink);
if (sink_index == -1)
continue;
update_color_gamut_data(input_gamut_data,
&core_color->state[sink_index].destination_gamut);
@ -1948,12 +1925,15 @@ bool mod_color_set_white_point(struct mod_color *mod_color,
{
struct core_color *core_color = MOD_COLOR_TO_CORE(mod_color);
unsigned int stream_index, sink_index;
unsigned int stream_index;
int sink_index;
for (stream_index = 0; stream_index < num_streams;
stream_index++) {
sink_index = sink_index_from_sink(core_color,
streams[stream_index]->sink);
if (sink_index == -1)
continue;
core_color->state[sink_index].source_gamut.gamut.whiteX =
white_point->whiteX;
core_color->state[sink_index].source_gamut.gamut.whiteY =
@ -1972,11 +1952,14 @@ bool mod_color_set_mastering_info(struct mod_color *mod_color,
const struct dc_hdr_static_metadata *mastering_info)
{
struct core_color *core_color = MOD_COLOR_TO_CORE(mod_color);
unsigned int stream_index, sink_index;
unsigned int stream_index;
int sink_index;
for (stream_index = 0; stream_index < num_streams; stream_index++) {
sink_index = sink_index_from_sink(core_color,
streams[stream_index]->sink);
if (sink_index == -1)
continue;
memcpy(&core_color->state[sink_index].mastering_info,
mastering_info,
sizeof(struct dc_hdr_static_metadata));
@ -1991,7 +1974,10 @@ bool mod_color_get_mastering_info(struct mod_color *mod_color,
struct core_color *core_color =
MOD_COLOR_TO_CORE(mod_color);
unsigned int sink_index = sink_index_from_sink(core_color, sink);
int sink_index = sink_index_from_sink(core_color, sink);
if (sink_index == -1)
return false;
memcpy(mastering_info, &core_color->state[sink_index].mastering_info,
sizeof(struct dc_hdr_static_metadata));
@ -2007,11 +1993,14 @@ bool mod_color_set_user_enable(struct mod_color *mod_color,
MOD_COLOR_TO_CORE(mod_color);
struct core_dc *core_dc = DC_TO_CORE(core_color->dc);
struct persistent_data_flag flag;
unsigned int stream_index, sink_index;
unsigned int stream_index;
int sink_index;
for (stream_index = 0; stream_index < num_streams; stream_index++) {
sink_index = sink_index_from_sink(core_color,
streams[stream_index]->sink);
if (sink_index == -1)
continue;
core_color->state[sink_index].user_enable_color_temperature
= user_enable;
@ -2037,7 +2026,10 @@ bool mod_color_get_user_enable(struct mod_color *mod_color,
struct core_color *core_color =
MOD_COLOR_TO_CORE(mod_color);
unsigned int sink_index = sink_index_from_sink(core_color, sink);
int sink_index = sink_index_from_sink(core_color, sink);
if (sink_index == -1)
return false;
*user_enable = core_color->state[sink_index].
user_enable_color_temperature;
@ -2052,7 +2044,10 @@ bool mod_color_get_custom_color_temperature(struct mod_color *mod_color,
struct core_color *core_color =
MOD_COLOR_TO_CORE(mod_color);
unsigned int sink_index = sink_index_from_sink(core_color, sink);
int sink_index = sink_index_from_sink(core_color, sink);
if (sink_index == -1)
return false;
*color_temperature = core_color->state[sink_index].
custom_color_temperature;
@ -2068,11 +2063,14 @@ bool mod_color_set_custom_color_temperature(struct mod_color *mod_color,
MOD_COLOR_TO_CORE(mod_color);
struct core_dc *core_dc = DC_TO_CORE(core_color->dc);
struct persistent_data_flag flag;
unsigned int stream_index, sink_index;
unsigned int stream_index;
int sink_index;
for (stream_index = 0; stream_index < num_streams; stream_index++) {
sink_index = sink_index_from_sink(core_color,
streams[stream_index]->sink);
if (sink_index == -1)
continue;
core_color->state[sink_index].custom_color_temperature
= color_temperature;
@ -2098,7 +2096,10 @@ bool mod_color_get_color_saturation(struct mod_color *mod_color,
struct core_color *core_color =
MOD_COLOR_TO_CORE(mod_color);
unsigned int sink_index = sink_index_from_sink(core_color, sink);
int sink_index = sink_index_from_sink(core_color, sink);
if (sink_index == -1)
return false;
*color_saturation = core_color->state[sink_index].saturation;
@ -2112,7 +2113,10 @@ bool mod_color_get_color_contrast(struct mod_color *mod_color,
struct core_color *core_color =
MOD_COLOR_TO_CORE(mod_color);
unsigned int sink_index = sink_index_from_sink(core_color, sink);
int sink_index = sink_index_from_sink(core_color, sink);
if (sink_index == -1)
return false;
*color_contrast = core_color->state[sink_index].contrast;
@ -2126,7 +2130,10 @@ bool mod_color_get_color_brightness(struct mod_color *mod_color,
struct core_color *core_color =
MOD_COLOR_TO_CORE(mod_color);
unsigned int sink_index = sink_index_from_sink(core_color, sink);
int sink_index = sink_index_from_sink(core_color, sink);
if (sink_index == -1)
return false;
*color_brightness = core_color->state[sink_index].brightness;
@ -2140,7 +2147,10 @@ bool mod_color_get_color_hue(struct mod_color *mod_color,
struct core_color *core_color =
MOD_COLOR_TO_CORE(mod_color);
unsigned int sink_index = sink_index_from_sink(core_color, sink);
int sink_index = sink_index_from_sink(core_color, sink);
if (sink_index == -1)
return false;
*color_hue = core_color->state[sink_index].hue;
@ -2154,7 +2164,10 @@ bool mod_color_get_source_gamut(struct mod_color *mod_color,
struct core_color *core_color =
MOD_COLOR_TO_CORE(mod_color);
unsigned int sink_index = sink_index_from_sink(core_color, sink);
int sink_index = sink_index_from_sink(core_color, sink);
if (sink_index == -1)
return false;
*source_gamut = core_color->state[sink_index].source_gamut.gamut;
@ -2169,11 +2182,14 @@ bool mod_color_notify_mode_change(struct mod_color *mod_color,
struct gamut_src_dst_matrix *matrix =
dm_alloc(sizeof(struct gamut_src_dst_matrix));
unsigned int stream_index, sink_index, j;
unsigned int stream_index, j;
int sink_index;
for (stream_index = 0; stream_index < num_streams; stream_index++) {
sink_index = sink_index_from_sink(core_color,
streams[stream_index]->sink);
if (sink_index == -1)
continue;
if (!build_gamut_remap_matrix
(core_color->state[sink_index].source_gamut.gamut,
@ -2247,11 +2263,14 @@ bool mod_color_set_brightness(struct mod_color *mod_color,
struct core_color *core_color = MOD_COLOR_TO_CORE(mod_color);
struct core_dc *core_dc = DC_TO_CORE(core_color->dc);
struct persistent_data_flag flag;
unsigned int stream_index, sink_index;
unsigned int stream_index;
int sink_index;
for (stream_index = 0; stream_index < num_streams; stream_index++) {
sink_index = sink_index_from_sink(core_color,
streams[stream_index]->sink);
if (sink_index == -1)
continue;
struct core_stream *core_stream =
DC_STREAM_TO_CORE
@ -2291,11 +2310,14 @@ bool mod_color_set_contrast(struct mod_color *mod_color,
struct core_color *core_color = MOD_COLOR_TO_CORE(mod_color);
struct core_dc *core_dc = DC_TO_CORE(core_color->dc);
struct persistent_data_flag flag;
unsigned int stream_index, sink_index;
unsigned int stream_index;
int sink_index;
for (stream_index = 0; stream_index < num_streams; stream_index++) {
sink_index = sink_index_from_sink(core_color,
streams[stream_index]->sink);
if (sink_index == -1)
continue;
struct core_stream *core_stream =
DC_STREAM_TO_CORE
@ -2335,11 +2357,14 @@ bool mod_color_set_hue(struct mod_color *mod_color,
struct core_color *core_color = MOD_COLOR_TO_CORE(mod_color);
struct core_dc *core_dc = DC_TO_CORE(core_color->dc);
struct persistent_data_flag flag;
unsigned int stream_index, sink_index;
unsigned int stream_index;
int sink_index;
for (stream_index = 0; stream_index < num_streams; stream_index++) {
sink_index = sink_index_from_sink(core_color,
streams[stream_index]->sink);
if (sink_index == -1)
continue;
struct core_stream *core_stream =
DC_STREAM_TO_CORE
@ -2378,11 +2403,14 @@ bool mod_color_set_saturation(struct mod_color *mod_color,
struct core_color *core_color = MOD_COLOR_TO_CORE(mod_color);
struct core_dc *core_dc = DC_TO_CORE(core_color->dc);
struct persistent_data_flag flag;
unsigned int stream_index, sink_index;
unsigned int stream_index;
int sink_index;
for (stream_index = 0; stream_index < num_streams; stream_index++) {
sink_index = sink_index_from_sink(core_color,
streams[stream_index]->sink);
if (sink_index == -1)
continue;
struct core_stream *core_stream =
DC_STREAM_TO_CORE
@ -2420,11 +2448,14 @@ bool mod_color_set_input_gamma_correction(struct mod_color *mod_color,
struct dc_gamma *gamma)
{
struct core_color *core_color = MOD_COLOR_TO_CORE(mod_color);
unsigned int stream_index, sink_index;
unsigned int stream_index;
int sink_index;
for (stream_index = 0; stream_index < num_streams; stream_index++) {
sink_index = sink_index_from_sink(core_color,
streams[stream_index]->sink);
if (sink_index == -1)
continue;
struct dc_surface *surface =
dc_stream_to_surface_from_pipe_ctx(core_color,
@ -2471,9 +2502,12 @@ bool mod_color_persist_user_preferred_quantization_range(
struct core_color *core_color = MOD_COLOR_TO_CORE(mod_color);
struct core_dc *core_dc = DC_TO_CORE(core_color->dc);
struct persistent_data_flag flag;
unsigned int sink_index;
int sink_index;
sink_index = sink_index_from_sink(core_color, sink);
if (sink_index == -1)
return false;
if (core_color->state[sink_index].
preferred_quantization_range != quantization_range) {
core_color->state[sink_index].preferred_quantization_range =
@ -2498,7 +2532,11 @@ bool mod_color_get_preferred_quantization_range(struct mod_color *mod_color,
enum dc_quantization_range *quantization_range)
{
struct core_color *core_color = MOD_COLOR_TO_CORE(mod_color);
unsigned int sink_index = sink_index_from_sink(core_color, sink);
int sink_index = sink_index_from_sink(core_color, sink);
if (sink_index == -1)
return false;
enum dc_quantization_range user_preferred_quantization_range =
core_color->state[sink_index].
preferred_quantization_range;
@ -2601,7 +2639,8 @@ bool mod_color_update_gamut_info(struct mod_color *mod_color,
const struct dc_stream **streams, int num_streams)
{
struct core_color *core_color = MOD_COLOR_TO_CORE(mod_color);
unsigned int stream_index, sink_index;
unsigned int stream_index;
int sink_index;
bool should_defer = false;
bool is_hdr = false;
enum color_color_space source_color_space;
@ -2612,6 +2651,8 @@ bool mod_color_update_gamut_info(struct mod_color *mod_color,
for (stream_index = 0; stream_index < num_streams; stream_index++) {
sink_index = sink_index_from_sink(core_color,
streams[stream_index]->sink);
if (sink_index == -1)
continue;
source_color_space =
core_color->state[sink_index].source_gamut.color_space;
input_transfer_function =