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drm/amd/display: Framework for degamma and regramma through color module

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Signed-off-by: Amy Zhang <Amy.Zhang@amd.com>
Reviewed-by: Aric Cyr <Aric.Cyr@amd.com>
Acked-by: Harry Wentland <Harry.Wentland@amd.com>
Signed-off-by: Alex Deucher <alexander.deucher@amd.com>
This commit is contained in:
Amy Zhang 2016-12-12 16:57:40 -05:00 committed by Alex Deucher
parent b39474ef09
commit 5ce0183cdd
3 changed files with 597 additions and 93 deletions
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573
drivers/gpu/drm/amd/display/modules/color/color.c
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@ -63,14 +63,18 @@ struct gamut_src_dst_matrix {
struct color_state {
bool user_enable_color_temperature;
int custom_color_temperature;
struct color_space_coordinates source_gamut;
struct color_space_coordinates destination_gamut;
struct color_range contrast;
struct color_range saturation;
struct color_range brightness;
struct color_range hue;
struct dc_gamma *gamma;
enum dc_quantization_range preferred_quantization_range;
struct color_gamut_data source_gamut;
struct color_gamut_data destination_gamut;
enum color_transfer_func input_transfer_function;
enum color_transfer_func output_transfer_function;
struct color_mastering_info mastering_info;
};
struct core_color {
@ -79,6 +83,7 @@ struct core_color {
int num_sinks;
struct sink_caps *caps;
struct color_state *state;
struct color_edid_caps *edid_caps;
};
#define MOD_COLOR_TO_CORE(mod_color)\
@ -1286,6 +1291,142 @@ static struct dc_surface *dc_stream_to_surface_from_pipe_ctx(
return out_surface;
}
static enum predefined_gamut_type color_space_to_predefined_gamut_types(enum
color_color_space color_space)
{
switch (color_space) {
case color_space_bt709:
case color_space_xv_ycc_bt709:
return gamut_type_bt709;
case color_space_bt601:
case color_space_xv_ycc_bt601:
return gamut_type_bt601;
case color_space_adobe:
return gamut_type_adobe_rgb;
case color_space_srgb:
case color_space_sc_rgb_ms_ref:
return gamut_type_srgb;
case color_space_bt2020:
return gamut_type_bt2020;
case color_space_dci_p3: /* TODO */
default:
return gamut_type_unknown;
}
}
static enum predefined_white_point_type white_point_to_predefined_white_point
(enum color_white_point_type white_point)
{
switch (white_point) {
case color_white_point_type_5000k_horizon:
return white_point_type_5000k_horizon;
case color_white_point_type_6500k_noon:
return white_point_type_6500k_noon;
case color_white_point_type_7500k_north_sky:
return white_point_type_7500k_north_sky;
case color_white_point_type_9300k:
return white_point_type_9300k;
default:
return white_point_type_unknown;
}
}
static bool update_color_gamut_data(struct color_gamut_data *input_data,
struct color_gamut_data *output_data)
{
bool output_custom_cs = false;
bool output_custom_wp = false;
if (input_data == NULL || output_data == NULL)
return false;
if (input_data->color_space == color_space_custom_coordinates) {
output_data->color_space = input_data->color_space;
output_data->gamut.redX = input_data->gamut.redX;
output_data->gamut.redY = input_data->gamut.redY;
output_data->gamut.greenX = input_data->gamut.greenX;
output_data->gamut.greenY = input_data->gamut.greenY;
output_data->gamut.blueX = input_data->gamut.blueX;
output_data->gamut.blueY = input_data->gamut.blueY;
} else {
struct gamut_space_coordinates gamut_coord;
enum predefined_gamut_type gamut_type =
color_space_to_predefined_gamut_types
(input_data->color_space);
/* fall back to original color space if unknown */
if (gamut_type == gamut_type_unknown) {
if (output_data->color_space ==
color_space_custom_coordinates) {
output_custom_cs = true;
} else {
gamut_type =
color_space_to_predefined_gamut_types
(output_data->color_space);
/* fall back to sRGB if both unknown*/
if (gamut_type == gamut_type_unknown) {
output_data->color_space =
color_space_srgb;
gamut_type = gamut_type_srgb;
}
}
} else {
output_data->color_space = input_data->color_space;
}
if (!output_custom_cs) {
mod_color_find_predefined_gamut(&gamut_coord,
gamut_type);
output_data->gamut.redX = gamut_coord.redX;
output_data->gamut.redY = gamut_coord.redY;
output_data->gamut.greenX = gamut_coord.greenX;
output_data->gamut.greenY = gamut_coord.greenY;
output_data->gamut.blueX = gamut_coord.blueX;
output_data->gamut.blueY = gamut_coord.blueY;
}
}
if (input_data->white_point == color_space_custom_coordinates) {
output_data->white_point = input_data->white_point;
output_data->gamut.whiteX = input_data->gamut.whiteX;
output_data->gamut.whiteY = input_data->gamut.whiteY;
} else {
struct white_point_coodinates white_point_coord;
enum predefined_white_point_type white_type =
white_point_to_predefined_white_point
(input_data->white_point);
/* fall back to original white point if not found */
if (white_type == white_point_type_unknown) {
if (output_data->white_point ==
color_white_point_type_custom_coordinates) {
output_custom_wp = true;
} else {
white_type =
white_point_to_predefined_white_point
(output_data->white_point);
/* fall back to 6500 if both unknown*/
if (white_type == white_point_type_unknown) {
output_data->white_point =
color_white_point_type_6500k_noon;
white_type =
white_point_type_6500k_noon;
}
}
} else {
output_data->white_point = input_data->white_point;
}
if (!output_custom_wp) {
mod_color_find_predefined_white_point(
&white_point_coord, white_type);
output_data->gamut.whiteX = white_point_coord.whiteX;
output_data->gamut.whiteY = white_point_coord.whiteY;
}
}
return true;
}
struct mod_color *mod_color_create(struct dc *dc)
{
int i = 0;
@ -1311,23 +1452,36 @@ 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.blueX = 1500;
core_color->state[i].source_gamut.blueY = 600;
core_color->state[i].source_gamut.greenX = 3000;
core_color->state[i].source_gamut.greenY = 6000;
core_color->state[i].source_gamut.redX = 6400;
core_color->state[i].source_gamut.redY = 3300;
core_color->state[i].source_gamut.whiteX = 3127;
core_color->state[i].source_gamut.whiteY = 3290;
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.blueX = 1500;
core_color->state[i].destination_gamut.blueY = 600;
core_color->state[i].destination_gamut.greenX = 3000;
core_color->state[i].destination_gamut.greenY = 6000;
core_color->state[i].destination_gamut.redX = 6400;
core_color->state[i].destination_gamut.redY = 3300;
core_color->state[i].destination_gamut.whiteX = 3127;
core_color->state[i].destination_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;
@ -1351,6 +1505,12 @@ struct mod_color *mod_color_create(struct dc *dc)
if (core_color->state == NULL)
goto fail_alloc_state;
core_color->edid_caps = dm_alloc(sizeof(struct color_edid_caps) *
MOD_COLOR_MAX_CONCURRENT_SINKS);
if (core_color->edid_caps == NULL)
goto fail_alloc_edid_caps;
core_color->num_sinks = 0;
if (dc == NULL)
@ -1371,6 +1531,9 @@ struct mod_color *mod_color_create(struct dc *dc)
return &core_color->public;
fail_construct:
dm_free(core_color->edid_caps);
fail_alloc_edid_caps:
dm_free(core_color->state);
fail_alloc_state:
@ -1390,6 +1553,8 @@ void mod_color_destroy(struct mod_color *mod_color)
struct core_color *core_color =
MOD_COLOR_TO_CORE(mod_color);
dm_free(core_color->edid_caps);
for (i = 0; i < core_color->num_sinks; i++)
if (core_color->state[i].gamma)
dc_gamma_release(core_color->state[i].gamma);
@ -1405,7 +1570,8 @@ void mod_color_destroy(struct mod_color *mod_color)
}
}
bool mod_color_add_sink(struct mod_color *mod_color, const struct dc_sink *sink)
bool mod_color_add_sink(struct mod_color *mod_color, const struct dc_sink *sink,
struct color_edid_caps *edid_caps)
{
struct core_color *core_color = MOD_COLOR_TO_CORE(mod_color);
struct core_dc *core_dc = DC_TO_CORE(core_color->dc);
@ -1426,6 +1592,11 @@ 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 = true;
core_color->edid_caps[core_color->num_sinks].colorimetry_caps =
edid_caps->colorimetry_caps;
core_color->edid_caps[core_color->num_sinks].hdr_caps =
edid_caps->hdr_caps;
/* get persistent data from registry */
flag.save_per_edid = true;
flag.save_per_link = false;
@ -1462,25 +1633,25 @@ bool mod_color_add_sink(struct mod_color *mod_color, const struct dc_sink *sink)
sizeof(struct color_space_coordinates),
&flag)) {
memcpy(&core_color->state[core_color->num_sinks].
source_gamut, &persistent_source_gamut,
source_gamut.gamut, &persistent_source_gamut,
sizeof(struct color_space_coordinates));
} else {
core_color->state[core_color->num_sinks].
source_gamut.blueX = 1500;
source_gamut.gamut.blueX = 1500;
core_color->state[core_color->num_sinks].
source_gamut.blueY = 600;
source_gamut.gamut.blueY = 600;
core_color->state[core_color->num_sinks].
source_gamut.greenX = 3000;
source_gamut.gamut.greenX = 3000;
core_color->state[core_color->num_sinks].
source_gamut.greenY = 6000;
source_gamut.gamut.greenY = 6000;
core_color->state[core_color->num_sinks].
source_gamut.redX = 6400;
source_gamut.gamut.redX = 6400;
core_color->state[core_color->num_sinks].
source_gamut.redY = 3300;
source_gamut.gamut.redY = 3300;
core_color->state[core_color->num_sinks].
source_gamut.whiteX = 3127;
source_gamut.gamut.whiteX = 3127;
core_color->state[core_color->num_sinks].
source_gamut.whiteY = 3290;
source_gamut.gamut.whiteY = 3290;
}
if (dm_read_persistent_data(core_dc->ctx, sink, COLOR_REGISTRY_NAME,
@ -1489,26 +1660,26 @@ bool mod_color_add_sink(struct mod_color *mod_color, const struct dc_sink *sink)
sizeof(struct color_space_coordinates),
&flag)) {
memcpy(&core_color->state[core_color->num_sinks].
destination_gamut,
destination_gamut.gamut,
&persistent_destination_gamut,
sizeof(struct color_space_coordinates));
} else {
core_color->state[core_color->num_sinks].
destination_gamut.blueX = 1500;
destination_gamut.gamut.blueX = 1500;
core_color->state[core_color->num_sinks].
destination_gamut.blueY = 600;
destination_gamut.gamut.blueY = 600;
core_color->state[core_color->num_sinks].
destination_gamut.greenX = 3000;
destination_gamut.gamut.greenX = 3000;
core_color->state[core_color->num_sinks].
destination_gamut.greenY = 6000;
destination_gamut.gamut.greenY = 6000;
core_color->state[core_color->num_sinks].
destination_gamut.redX = 6400;
destination_gamut.gamut.redX = 6400;
core_color->state[core_color->num_sinks].
destination_gamut.redY = 3300;
destination_gamut.gamut.redY = 3300;
core_color->state[core_color->num_sinks].
destination_gamut.whiteX = 3127;
destination_gamut.gamut.whiteX = 3127;
core_color->state[core_color->num_sinks].
destination_gamut.whiteY = 3290;
destination_gamut.gamut.whiteY = 3290;
}
if (dm_read_persistent_data(core_dc->ctx, sink, COLOR_REGISTRY_NAME,
@ -1588,6 +1759,10 @@ bool mod_color_remove_sink(struct mod_color *mod_color,
memcpy(&core_color->state[j],
&core_color->state[j + 1],
sizeof(struct color_state));
memcpy(&core_color->edid_caps[j],
&core_color->edid_caps[j + 1],
sizeof(struct color_edid_caps));
}
core_color->num_sinks--;
@ -1625,7 +1800,7 @@ bool mod_color_update_gamut_to_stream(struct mod_color *mod_color,
COLOR_REGISTRY_NAME,
"sourcegamut",
&core_color->state[sink_index].
source_gamut,
source_gamut.gamut,
sizeof(struct color_space_coordinates),
&flag);
@ -1634,19 +1809,19 @@ bool mod_color_update_gamut_to_stream(struct mod_color *mod_color,
COLOR_REGISTRY_NAME,
"destgamut",
&core_color->state[sink_index].
destination_gamut,
destination_gamut.gamut,
sizeof(struct color_space_coordinates),
&flag);
if (!build_gamut_remap_matrix
(core_color->state[sink_index].source_gamut,
matrix->rgbCoeffSrc,
matrix->whiteCoeffSrc))
(core_color->state[sink_index].source_gamut.gamut,
matrix->rgbCoeffSrc,
matrix->whiteCoeffSrc))
goto function_fail;
if (!build_gamut_remap_matrix
(core_color->state[sink_index].
destination_gamut,
destination_gamut.gamut,
matrix->rgbCoeffDst, matrix->whiteCoeffDst))
goto function_fail;
@ -1700,8 +1875,7 @@ function_fail:
bool mod_color_adjust_source_gamut(struct mod_color *mod_color,
const struct dc_stream **streams, int num_streams,
struct gamut_space_coordinates *input_gamut_coordinates,
struct white_point_coodinates *input_white_point_coordinates)
struct color_gamut_data *input_gamut_data)
{
struct core_color *core_color = MOD_COLOR_TO_CORE(mod_color);
@ -1711,25 +1885,35 @@ bool mod_color_adjust_source_gamut(struct mod_color *mod_color,
sink_index = sink_index_from_sink(core_color,
streams[stream_index]->sink);
core_color->state[sink_index].source_gamut.blueX =
input_gamut_coordinates->blueX;
core_color->state[sink_index].source_gamut.blueY =
input_gamut_coordinates->blueY;
core_color->state[sink_index].source_gamut.greenX =
input_gamut_coordinates->greenX;
core_color->state[sink_index].source_gamut.greenY =
input_gamut_coordinates->greenY;
core_color->state[sink_index].source_gamut.redX =
input_gamut_coordinates->redX;
core_color->state[sink_index].source_gamut.redY =
input_gamut_coordinates->redY;
core_color->state[sink_index].source_gamut.whiteX =
input_white_point_coordinates->whiteX;
core_color->state[sink_index].source_gamut.whiteY =
input_white_point_coordinates->whiteY;
update_color_gamut_data(input_gamut_data,
&core_color->state[sink_index].source_gamut);
}
if (!mod_color_update_gamut_to_stream(mod_color, streams, num_streams))
if (!mod_color_update_gamut_info(mod_color, streams, num_streams))
return false;
return true;
}
bool mod_color_adjust_source_gamut_and_tf(struct mod_color *mod_color,
const struct dc_stream **streams, int num_streams,
struct color_gamut_data *input_gamut_data,
enum color_transfer_func input_transfer_func)
{
struct core_color *core_color = MOD_COLOR_TO_CORE(mod_color);
unsigned int stream_index, sink_index;
for (stream_index = 0; stream_index < num_streams; stream_index++) {
sink_index = sink_index_from_sink(core_color,
streams[stream_index]->sink);
update_color_gamut_data(input_gamut_data,
&core_color->state[sink_index].source_gamut);
core_color->state[sink_index].input_transfer_function =
input_transfer_func;
}
if (!mod_color_update_gamut_info(mod_color, streams, num_streams))
return false;
return true;
@ -1737,8 +1921,7 @@ bool mod_color_adjust_source_gamut(struct mod_color *mod_color,
bool mod_color_adjust_destination_gamut(struct mod_color *mod_color,
const struct dc_stream **streams, int num_streams,
struct gamut_space_coordinates *input_gamut_coordinates,
struct white_point_coodinates *input_white_point_coordinates)
struct color_gamut_data *input_gamut_data)
{
struct core_color *core_color = MOD_COLOR_TO_CORE(mod_color);
@ -1748,22 +1931,8 @@ bool mod_color_adjust_destination_gamut(struct mod_color *mod_color,
sink_index = sink_index_from_sink(core_color,
streams[stream_index]->sink);
core_color->state[sink_index].destination_gamut.blueX =
input_gamut_coordinates->blueX;
core_color->state[sink_index].destination_gamut.blueY =
input_gamut_coordinates->blueY;
core_color->state[sink_index].destination_gamut.greenX =
input_gamut_coordinates->greenX;
core_color->state[sink_index].destination_gamut.greenY =
input_gamut_coordinates->greenY;
core_color->state[sink_index].destination_gamut.redX =
input_gamut_coordinates->redX;
core_color->state[sink_index].destination_gamut.redY =
input_gamut_coordinates->redY;
core_color->state[sink_index].destination_gamut.whiteX =
input_white_point_coordinates->whiteX;
core_color->state[sink_index].destination_gamut.whiteY =
input_white_point_coordinates->whiteY;
update_color_gamut_data(input_gamut_data,
&core_color->state[sink_index].destination_gamut);
}
if (!mod_color_update_gamut_to_stream(mod_color, streams, num_streams))
@ -1784,9 +1953,9 @@ bool mod_color_set_white_point(struct mod_color *mod_color,
stream_index++) {
sink_index = sink_index_from_sink(core_color,
streams[stream_index]->sink);
core_color->state[sink_index].source_gamut.whiteX =
core_color->state[sink_index].source_gamut.gamut.whiteX =
white_point->whiteX;
core_color->state[sink_index].source_gamut.whiteY =
core_color->state[sink_index].source_gamut.gamut.whiteY =
white_point->whiteY;
}
@ -1796,6 +1965,39 @@ bool mod_color_set_white_point(struct mod_color *mod_color,
return true;
}
bool mod_color_set_mastering_info(struct mod_color *mod_color,
const struct dc_stream **streams, int num_streams,
struct color_mastering_info *mastering_info)
{
struct core_color *core_color = MOD_COLOR_TO_CORE(mod_color);
unsigned int stream_index, sink_index;
for (stream_index = 0; stream_index < num_streams; stream_index++) {
sink_index = sink_index_from_sink(core_color,
streams[stream_index]->sink);
memcpy(&core_color->state[sink_index].mastering_info,
mastering_info,
sizeof(struct color_mastering_info));
}
return true;
}
bool mod_color_get_mastering_info(struct mod_color *mod_color,
const struct dc_sink *sink,
struct color_mastering_info *mastering_info)
{
struct core_color *core_color =
MOD_COLOR_TO_CORE(mod_color);
unsigned int sink_index = sink_index_from_sink(core_color, sink);
memcpy(mastering_info, &core_color->state[sink_index].mastering_info,
sizeof(struct color_mastering_info));
return true;
}
bool mod_color_set_user_enable(struct mod_color *mod_color,
const struct dc_stream **streams, int num_streams,
bool user_enable)
@ -1953,7 +2155,7 @@ bool mod_color_get_source_gamut(struct mod_color *mod_color,
unsigned int sink_index = sink_index_from_sink(core_color, sink);
*source_gamut = core_color->state[sink_index].source_gamut;
*source_gamut = core_color->state[sink_index].source_gamut.gamut;
return true;
}
@ -1973,14 +2175,14 @@ bool mod_color_notify_mode_change(struct mod_color *mod_color,
streams[stream_index]->sink);
if (!build_gamut_remap_matrix
(core_color->state[sink_index].source_gamut,
matrix->rgbCoeffSrc,
matrix->whiteCoeffSrc))
(core_color->state[sink_index].source_gamut.gamut,
matrix->rgbCoeffSrc,
matrix->whiteCoeffSrc))
goto function_fail;
if (!build_gamut_remap_matrix
(core_color->state[sink_index].
destination_gamut,
destination_gamut.gamut,
matrix->rgbCoeffDst, matrix->whiteCoeffDst))
goto function_fail;
@ -2379,3 +2581,200 @@ bool mod_color_is_rgb_limited_range_supported_for_timing(
return result;
}
bool mod_color_set_regamma(struct mod_color *mod_color,
const struct dc_stream **streams, int num_streams)
{
/*TODO*/
return true;
}
bool mod_color_set_degamma(struct mod_color *mod_color,
const struct dc_stream **streams, int num_streams,
enum color_transfer_func transfer_function)
{
/*TODO*/
return true;
}
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;
bool should_defer = false;
bool is_hdr = false;
enum color_color_space source_color_space;
enum color_transfer_func input_transfer_function;
struct color_gamut_data new_gamut_source;
struct color_gamut_data new_gamut_destination;
for (stream_index = 0; stream_index < num_streams; stream_index++) {
sink_index = sink_index_from_sink(core_color,
streams[stream_index]->sink);
source_color_space =
core_color->state[sink_index].source_gamut.color_space;
input_transfer_function =
core_color->state[sink_index].input_transfer_function;
new_gamut_source.color_space = source_color_space;
new_gamut_destination.color_space =
core_color->state[sink_index].
destination_gamut.color_space;
struct dc_surface *surface =
dc_stream_to_surface_from_pipe_ctx(core_color,
streams[stream_index]);
if (surface == NULL)
return false;
if (surface->format == SURFACE_PIXEL_FORMAT_GRPH_ARGB8888 ||
surface->format ==
SURFACE_PIXEL_FORMAT_GRPH_ARGB2101010) {
if (input_transfer_function ==
transfer_func_pq2084 ||
input_transfer_function ==
transfer_func_pq2084_interim) {
/* For PQ and PQ interim, we bypass degamma+
* remap+regamma, application needs to also
* handle gamut remapping
*/
/* TODO */
is_hdr = true;
} else if (input_transfer_function ==
transfer_func_linear_0_1 ||
input_transfer_function ==
transfer_func_linear_0_125) {
/* TF not supported in current surface format,
* but may be deferred to a later flip
*/
should_defer = true;
} else {
new_gamut_destination.color_space =
color_space_srgb;
}
} else if (surface->format ==
SURFACE_PIXEL_FORMAT_GRPH_ARGB16161616F ||
surface->format ==
SURFACE_PIXEL_FORMAT_GRPH_ABGR16161616F ||
surface->format ==
SURFACE_PIXEL_FORMAT_GRPH_ARGB16161616) {
if (input_transfer_function ==
transfer_func_linear_0_125) {
/* Regamma PQ for HDR supported displays and
* 0-125 source
*/
if ((core_color->edid_caps[sink_index].
hdr_caps) & smpte_st2084)
is_hdr = true;
/* override for BT.2020 whenever PQ */
if (core_color->state[sink_index].
destination_gamut.color_space !=
color_space_bt2020) {
if (streams[stream_index]->timing.
pixel_encoding ==
PIXEL_ENCODING_RGB) {
if ((core_color->
edid_caps[sink_index].
colorimetry_caps) & bt_2020_rgb)
new_gamut_destination.
color_space =
color_space_bt2020;
} else {
if ((core_color->
edid_caps[sink_index].
colorimetry_caps) & bt_2020_ycc)
new_gamut_destination.
color_space =
color_space_bt2020;
}
}
} else if (input_transfer_function ==
transfer_func_linear_0_1) {
new_gamut_destination.color_space =
color_space_srgb;
} else {
/* TF not supported in current surface format,
* but may be deferred to a later flip
*/
should_defer = true;
}
}
/* 0. ---- CHECK DEFERRED ---- */
if (should_defer)
return true;
/* 1. ---- SET GAMUT SOURCE ---- */
new_gamut_source.white_point = core_color->state[sink_index].
source_gamut.white_point;
update_color_gamut_data(&new_gamut_source,
&core_color->state[sink_index].source_gamut);
/* 2. ---- SET GAMUT DESTINATION ---- */
new_gamut_destination.white_point =
core_color->state[sink_index].
destination_gamut.white_point;
update_color_gamut_data(&new_gamut_destination,
&core_color->state[sink_index].destination_gamut);
/* 3. ---- SET DEGAMMA ---- */
struct dc_transfer_func *input_tf = NULL;
input_tf = dc_create_transfer_func(core_color->dc);
if (input_tf != NULL) {
input_tf->type = TF_TYPE_PREDEFINED;
switch (input_transfer_function) {
case transfer_func_srgb:
input_tf->tf = TRANSFER_FUNCTION_SRGB;
break;
case transfer_func_linear_0_1:
case transfer_func_linear_0_125:
input_tf->tf = TRANSFER_FUNCTION_LINEAR;
break;
default:
dc_transfer_func_release(input_tf);
input_tf = NULL;
break;
}
}
/* 4. ---- SET REGAMMA ---- */
struct dc_transfer_func *output_tf = NULL;
output_tf = dc_create_transfer_func(core_color->dc);
if (output_tf != NULL) {
output_tf->type = TF_TYPE_PREDEFINED;
if (is_hdr)
output_tf->tf = TRANSFER_FUNCTION_PQ;
else
output_tf->tf = TRANSFER_FUNCTION_SRGB;
}
/* 5. ---- TODO: UPDATE INFOPACKETS ---- */
if (!mod_color_update_gamut_to_stream(
mod_color, streams, num_streams))
return false;
struct dc_surface_update updates[4] = {0};
updates[0].surface = surface;
updates[0].gamma = core_color->state[sink_index].gamma;
updates[0].in_transfer_func = input_tf;
updates[0].out_transfer_func = output_tf;
dc_update_surfaces_for_target(core_color->dc, updates, 1, NULL);
if (input_tf != NULL)
dc_transfer_func_release(input_tf);
if (output_tf != NULL)
dc_transfer_func_release(output_tf);
}
return true;
}

2
drivers/gpu/drm/amd/display/modules/color/color_helper.h
View file

@ -37,7 +37,7 @@ bool mod_color_find_predefined_gamut(
bool mod_color_find_predefined_white_point(
struct white_point_coodinates *out_white_point,
unsigned int index);
enum predefined_white_point_type type);
bool mod_color_find_white_point_from_temperature(
struct white_point_coodinates *out_white_point,

115
drivers/gpu/drm/amd/display/modules/inc/mod_color.h
View file

@ -30,6 +30,79 @@
#include "dm_services.h"
#include "color_helper.h"
enum color_transfer_func {
transfer_func_unknown,
transfer_func_srgb,
transfer_func_bt709,
transfer_func_pq2084,
transfer_func_pq2084_interim,
transfer_func_linear_0_1,
transfer_func_linear_0_125,
transfer_func_dolbyvision,
transfer_func_gamma_22,
transfer_func_gamma_26
};
enum color_color_space {
color_space_unsupported,
color_space_srgb,
color_space_bt601,
color_space_bt709,
color_space_xv_ycc_bt601,
color_space_xv_ycc_bt709,
color_space_xr_rgb,
color_space_bt2020,
color_space_adobe,
color_space_dci_p3,
color_space_sc_rgb_ms_ref,
color_space_display_native,
color_space_app_ctrl,
color_space_dolby_vision,
color_space_custom_coordinates
};
enum color_white_point_type {
color_white_point_type_unknown,
color_white_point_type_5000k_horizon,
color_white_point_type_6500k_noon,
color_white_point_type_7500k_north_sky,
color_white_point_type_9300k,
color_white_point_type_custom_coordinates
};
enum colorimetry_support_flag {
xv_ycc_bt601 = 0x01,
xv_ycc_bt709 = 0x02,
s_ycc_601 = 0x04,
adobe_ycc_601 = 0x08,
adobe_rgb = 0x10,
bt_2020_c_ycc = 0x20,
bt_2020_ycc = 0x40,
bt_2020_rgb = 0x80
};
enum hdr_tf_support_flag {
traditional_gamma_sdr = 0x01,
traditional_gamma_hdr = 0x02,
smpte_st2084 = 0x04
};
struct color_mastering_info {
unsigned int chromaticity_green_x;
unsigned int chromaticity_green_y;
unsigned int chromaticity_blue_x;
unsigned int chromaticity_blue_y;
unsigned int chromaticity_red_x;
unsigned int chromaticity_red_y;
unsigned int chromaticity_white_point_x;
unsigned int chromaticity_white_point_y;
unsigned int min_luminance;
unsigned int max_luminance;
unsigned int maximum_content_light_level;
unsigned int maximum_frame_average_light_level;
};
struct mod_color {
int dummy;
};
@ -86,12 +159,23 @@ struct color_range {
int max;
};
struct color_gamut_data {
enum color_color_space color_space;
enum color_white_point_type white_point;
struct color_space_coordinates gamut;
};
struct color_edid_caps {
unsigned int colorimetry_caps;
unsigned int hdr_caps;
};
struct mod_color *mod_color_create(struct dc *dc);
void mod_color_destroy(struct mod_color *mod_color);
bool mod_color_add_sink(struct mod_color *mod_color,
const struct dc_sink *sink);
const struct dc_sink *sink, struct color_edid_caps *edid_caps);
bool mod_color_remove_sink(struct mod_color *mod_color,
const struct dc_sink *sink);
@ -105,18 +189,29 @@ bool mod_color_set_white_point(struct mod_color *mod_color,
bool mod_color_adjust_source_gamut(struct mod_color *mod_color,
const struct dc_stream **streams, int num_streams,
struct gamut_space_coordinates *input_gamut_coordinates,
struct white_point_coodinates *input_white_point_coordinates);
struct color_gamut_data *input_gamut_data);
bool mod_color_adjust_destination_gamut(struct mod_color *mod_color,
const struct dc_stream **streams, int num_streams,
struct gamut_space_coordinates *input_gamut_coordinates,
struct white_point_coodinates *input_white_point_coordinates);
struct color_gamut_data *input_gamut_data);
bool mod_color_adjust_source_gamut_and_tf(struct mod_color *mod_color,
const struct dc_stream **streams, int num_streams,
struct color_gamut_data *input_gamut_data,
enum color_transfer_func input_transfer_func);
bool mod_color_get_user_enable(struct mod_color *mod_color,
const struct dc_sink *sink,
bool *user_enable);
bool mod_color_set_mastering_info(struct mod_color *mod_color,
const struct dc_stream **streams, int num_streams,
struct color_mastering_info *mastering_info);
bool mod_color_get_mastering_info(struct mod_color *mod_color,
const struct dc_sink *sink,
struct color_mastering_info *mastering_info);
bool mod_color_set_user_enable(struct mod_color *mod_color,
const struct dc_stream **streams, int num_streams,
bool user_enable);
@ -190,4 +285,14 @@ bool mod_color_is_rgb_limited_range_supported_for_timing(
const struct dc_sink *sink,
const struct dc_crtc_timing *timing);
bool mod_color_set_regamma(struct mod_color *mod_color,
const struct dc_stream **streams, int num_streams);
bool mod_color_set_degamma(struct mod_color *mod_color,
const struct dc_stream **streams, int num_streams,
enum color_transfer_func transfer_function);
bool mod_color_update_gamut_info(struct mod_color *mod_color,
const struct dc_stream **streams, int num_streams);
#endif /* MOD_COLOR_H_ */