/**
* coopgammad -- Cooperative gamma server
* Copyright (C) 2016 Mattias Andrée (maandree@kth.se)
*
* This program is free software: you can redistribute it and/or modify
* it under the terms of the GNU General Public License as published by
* the Free Software Foundation, either version 3 of the License, or
* (at your option) any later version.
*
* This program is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with this program. If not, see <http://www.gnu.org/licenses/>.
*/
#include "gamma.h"
#include "crtc.h"
#include "../state.h"
#include "../communication.h"
#include "../util.h"
#include <errno.h>
#include <string.h>
#if defined(__clang__)
# pragma GCC diagnostic ignored "-Wswitch-enum"
#endif
/**
* Handle a ‘Command: set-gamma’ message
*
* @param conn The index of the connection
* @param message_id The value of the ‘Message ID’ header
* @param crtc The value of the ‘CRTC’ header
* @return Zero on success (even if ignored), -1 on error,
* 1 if connection closed
*/
int handle_get_gamma_info(size_t conn, const char* restrict message_id, const char* restrict crtc)
{
struct output* restrict output;
char* restrict buf;
char depth[3];
const char* supported;
const char* colourspace;
char gamut[8 * sizeof("White x: 1023")];
size_t n;
if (crtc == NULL) return send_error("protocol error: 'CRTC' header omitted");
output = output_find_by_name(crtc, outputs, outputs_n);
if (output == NULL)
return send_error("selected CRTC does not exist");
switch (output->depth)
{
case -2: strcpy(depth, "d"); break;
case -1: strcpy(depth, "f"); break;
default:
sprintf(depth, "%i", output->depth);
break;
}
switch (output->supported)
{
case LIBGAMMA_YES: supported = "yes"; break;
case LIBGAMMA_NO: supported = "no"; break;
default: supported = "maybe"; break;
}
switch (output->colourspace)
{
case COLOURSPACE_SRGB_SANS_GAMUT:
case COLOURSPACE_SRGB: colourspace = "Colour space: sRGB\n"; break;
case COLOURSPACE_RGB_SANS_GAMUT:
case COLOURSPACE_RGB: colourspace = "Colour space: RGB\n"; break;
case COLOURSPACE_NON_RGB: colourspace = "Colour space: non-RGB\n"; break;
case COLOURSPACE_GREY: colourspace = "Colour space: grey\n"; break;
default: colourspace = ""; break;
}
switch (output->colourspace)
{
case COLOURSPACE_SRGB:
case COLOURSPACE_RGB:
sprintf(gamut,
"Red x: %u\n"
"Red y: %u\n"
"Green x: %u\n"
"Green y: %u\n"
"Blue x: %u\n"
"Blue y: %u\n"
"White x: %u\n"
"White y: %u\n",
output->red_x, output->red_y, output->green_x, output->green_y,
output->blue_x, output->blue_y, output->white_x, output->white_y);
break;
default:
*gamut = '\0';
break;
}
MAKE_MESSAGE(&buf, &n, 0,
"In response to: %s\n"
"Cooperative: yes\n" /* In mds: say ‘no’, mds-coopgamma changes to ‘yes’.” */
"Depth: %s\n"
"Red size: %zu\n"
"Green size: %zu\n"
"Blue size: %zu\n"
"Gamma support: %s\n"
"%s%s"
"\n",
message_id, depth, output->red_size, output->green_size,
output->blue_size, supported, gamut, colourspace);
return send_message(conn, buf, n);
}
/**
* Set the gamma ramps on an output
*
* @param output The output
* @param ramps The gamma ramps
*/
void set_gamma(const struct output* restrict output, const union gamma_ramps* restrict ramps)
{
int r = 0;
if (!connected)
return;
switch (output->depth)
{
case 8: r = libgamma_crtc_set_gamma_ramps8(output->crtc, ramps->u8); break;
case 16: r = libgamma_crtc_set_gamma_ramps16(output->crtc, ramps->u16); break;
case 32: r = libgamma_crtc_set_gamma_ramps32(output->crtc, ramps->u32); break;
case 64: r = libgamma_crtc_set_gamma_ramps64(output->crtc, ramps->u64); break;
case -1: r = libgamma_crtc_set_gamma_rampsf(output->crtc, ramps->f); break;
case -2: r = libgamma_crtc_set_gamma_rampsd(output->crtc, ramps->d); break;
default:
abort();
}
if (r)
libgamma_perror(argv0, r); /* Not fatal */
}
/**
* Parse the EDID of a monitor
*
* @param output The output
*/
static void parse_edid(struct output* restrict output)
{
const unsigned char* restrict edid = (const unsigned char*)(output->name);
size_t i;
int sum, analogue;
output->red_x = output->green_x = output->blue_x = output->white_x = 0;
output->red_y = output->green_y = output->blue_y = output->white_y = 0;
if (output->name_is_edid == 0)
{
output->colourspace = COLOURSPACE_UNKNOWN;
return;
}
if (strlen((const char*)edid) < 128)
return;
for (i = 0, sum = 0; i < 128; i++)
sum += (int)edid[i];
if ((sum & 0xFF) != 0)
return;
if ((edid[0] != 0) || (edid[7] != 0))
return;
for (i = 1; i < 7; i++)
if (edid[i] != 0xFF)
return;
analogue = !(edid[20] & 0x80);
if (!analogue)
output->colourspace = COLOURSPACE_RGB;
else
switch ((edid[24] >> 3) & 3)
{
case 0: output->colourspace = COLOURSPACE_GREY; break;
case 1: output->colourspace = COLOURSPACE_RGB; break;
case 2: output->colourspace = COLOURSPACE_NON_RGB; break;
default: output->colourspace = COLOURSPACE_UNKNOWN; break;
}
if (output->colourspace != COLOURSPACE_RGB)
return;
if (edid[24] & 2)
output->colourspace = COLOURSPACE_SRGB;
output->red_x = (edid[25] >> 6) & 3;
output->red_y = (edid[25] >> 4) & 3;
output->green_x = (edid[25] >> 2) & 3;
output->green_y = (edid[25] >> 0) & 3;
output->blue_x = (edid[26] >> 6) & 3;
output->blue_y = (edid[26] >> 4) & 3;
output->white_x = (edid[26] >> 2) & 3;
output->white_y = (edid[26] >> 0) & 3;
output->red_x |= ((unsigned)(edid[27])) << 2;
output->red_y |= ((unsigned)(edid[28])) << 2;
output->green_x |= ((unsigned)(edid[29])) << 2;
output->green_y |= ((unsigned)(edid[30])) << 2;
output->blue_x |= ((unsigned)(edid[31])) << 2;
output->blue_y |= ((unsigned)(edid[32])) << 2;
output->white_x |= ((unsigned)(edid[33])) << 2;
output->white_y |= ((unsigned)(edid[34])) << 2;
if ((output->red_x == output->red_y) &&
(output->red_x == output->green_x) &&
(output->red_x == output->green_y) &&
(output->red_x == output->blue_x) &&
(output->red_x == output->blue_y) &&
(output->red_x == output->white_x) &&
(output->red_x == output->white_y))
{
if (output->colourspace == COLOURSPACE_SRGB)
output->colourspace = COLOURSPACE_SRGB_SANS_GAMUT;
else
output->colourspace = COLOURSPACE_RGB_SANS_GAMUT;
}
}
/**
* Store all current gamma ramps
*
* @return Zero on success, -1 on error
*/
int initialise_gamma_info(void)
{
libgamma_crtc_information_t info;
int saved_errno;
size_t i;
for (i = 0; i < outputs_n; i++)
{
libgamma_get_crtc_information(&info, crtcs + i,
LIBGAMMA_CRTC_INFO_EDID |
LIBGAMMA_CRTC_INFO_MACRO_RAMP |
LIBGAMMA_CRTC_INFO_GAMMA_SUPPORT |
LIBGAMMA_CRTC_INFO_CONNECTOR_NAME);
outputs[i].depth = info.gamma_depth_error ? 0 : info.gamma_depth;
outputs[i].red_size = info.gamma_size_error ? 0 : info.red_gamma_size;
outputs[i].green_size = info.gamma_size_error ? 0 : info.green_gamma_size;
outputs[i].blue_size = info.gamma_size_error ? 0 : info.blue_gamma_size;
outputs[i].supported = info.gamma_support_error ? 0 : info.gamma_support;
if (outputs[i].depth == 0 || outputs[i].red_size == 0 ||
outputs[i].green_size == 0 || outputs[i].blue_size == 0)
outputs[i].supported = 0;
outputs[i].name = get_crtc_name(&info, crtcs + i);
saved_errno = errno;
outputs[i].name_is_edid = ((info.edid_error == 0) && (info.edid != NULL));
outputs[i].crtc = crtcs + i;
libgamma_crtc_information_destroy(&info);
outputs[i].ramps_size = outputs[i].red_size + outputs[i].green_size + outputs[i].blue_size;
switch (outputs[i].depth)
{
default:
outputs[i].depth = 64;
/* Fall through */
case 8:
case 16:
case 32:
case 64: outputs[i].ramps_size *= (size_t)(outputs[i].depth / 8); break;
case -2: outputs[i].ramps_size *= sizeof(double); break;
case -1: outputs[i].ramps_size *= sizeof(float); break;
}
errno = saved_errno;
if (outputs[i].name == NULL)
return -1;
parse_edid(outputs + i);
}
return 0;
}
/**
* Store all current gamma ramps
*/
void store_gamma(void)
{
int gerror;
size_t i;
#define LOAD_RAMPS(SUFFIX, MEMBER) \
do \
{ \
libgamma_gamma_ramps##SUFFIX##_initialise(&(outputs[i].saved_ramps.MEMBER)); \
gerror = libgamma_crtc_get_gamma_ramps##SUFFIX(outputs[i].crtc, &(outputs[i].saved_ramps.MEMBER)); \
if (gerror) \
{ \
libgamma_perror(argv0, gerror); \
outputs[i].supported = LIBGAMMA_NO; \
libgamma_gamma_ramps##SUFFIX##_destroy(&(outputs[i].saved_ramps.MEMBER)); \
memset(&(outputs[i].saved_ramps.MEMBER), 0, sizeof(outputs[i].saved_ramps.MEMBER)); \
} \
} \
while (0)
for (i = 0; i < outputs_n; i++)
{
if (outputs[i].supported == LIBGAMMA_NO)
continue;
switch (outputs[i].depth)
{
case 64: LOAD_RAMPS(64, u64); break;
case 32: LOAD_RAMPS(32, u32); break;
case 16: LOAD_RAMPS(16, u16); break;
case 8: LOAD_RAMPS( 8, u8); break;
case -2: LOAD_RAMPS(d, d); break;
case -1: LOAD_RAMPS(f, f); break;
default: /* impossible */ break;
}
}
}
/**
* Restore all gamma ramps
*/
void restore_gamma(void)
{
size_t i;
int gerror;
#define RESTORE_RAMPS(SUFFIX, MEMBER) \
do \
if (outputs[i].saved_ramps.MEMBER.red != NULL) \
{ \
gerror = libgamma_crtc_set_gamma_ramps##SUFFIX(outputs[i].crtc, outputs[i].saved_ramps.MEMBER); \
if (gerror) \
libgamma_perror(argv0, gerror); \
} \
while (0)
for (i = 0; i < outputs_n; i++)
{
if (outputs[i].supported == LIBGAMMA_NO)
continue;
switch (outputs[i].depth)
{
case 64: RESTORE_RAMPS(64, u64); break;
case 32: RESTORE_RAMPS(32, u32); break;
case 16: RESTORE_RAMPS(16, u16); break;
case 8: RESTORE_RAMPS( 8, u8); break;
case -2: RESTORE_RAMPS(d, d); break;
case -1: RESTORE_RAMPS(f, f); break;
default: /* impossible */ break;
}
}
}
/**
* Reapplu all gamma ramps
*/
void reapply_gamma(void)
{
union gamma_ramps plain;
size_t i;
/* Reapply gamma ramps */
for (i = 0; i < outputs_n; i++)
{
struct output* output = outputs + i;
if (output->table_size > 0)
set_gamma(output, output->table_sums + output->table_size - 1);
else
{
make_plain_ramps(&plain, output);
set_gamma(output, &plain);
libgamma_gamma_ramps8_destroy(&(plain.u8));
}
}
}