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#define _POSIX_C_SOURCE 200809L
#include <assert.h>
#include <drm_fourcc.h>
#include <drm_mode.h>
#include <drm.h>
#include <libudev.h>
#include <stdio.h>
#include <stdlib.h>
#include <string.h>
#include <wlr/util/log.h>
#include "backend/drm/drm.h"
#include "backend/drm/util.h"
int32_t calculate_refresh_rate(const drmModeModeInfo *mode) {
int32_t refresh = (mode->clock * 1000000LL / mode->htotal +
mode->vtotal / 2) / mode->vtotal;
if (mode->flags & DRM_MODE_FLAG_INTERLACE) {
refresh *= 2;
}
if (mode->flags & DRM_MODE_FLAG_DBLSCAN) {
refresh /= 2;
}
if (mode->vscan > 1) {
refresh /= mode->vscan;
}
return refresh;
}
static const char *get_manufacturer(struct udev_hwdb *hwdb, uint16_t code) {
static char pnp_id[4];
// The ASCII 3-letter manufacturer PnP ID is encoded in 5-bit codes
pnp_id[0] = ((code >> 10) & 0x1F) + '@';
pnp_id[1] = ((code >> 5) & 0x1F) + '@';
pnp_id[2] = ((code >> 0) & 0x1F) + '@';
pnp_id[3] = '\0';
if (hwdb == NULL) {
return pnp_id;
}
char query[32];
snprintf(query, sizeof(query), "acpi:%s:", pnp_id);
struct udev_list_entry *acpi_entry =
udev_hwdb_get_properties_list_entry(hwdb, query, 0);
if (acpi_entry == NULL) {
return pnp_id;
}
struct udev_list_entry *vendor_entry =
udev_list_entry_get_by_name(acpi_entry, "ID_VENDOR_FROM_DATABASE");
if (vendor_entry == NULL) {
return pnp_id;
}
return udev_list_entry_get_value(vendor_entry);
}
/* See https://en.wikipedia.org/wiki/Extended_Display_Identification_Data for layout of EDID data.
* We don't parse the EDID properly. We just expect to receive valid data.
*/
void parse_edid(struct wlr_drm_connector *conn, size_t len, const uint8_t *data) {
struct wlr_output *output = &conn->output;
free(output->make);
free(output->model);
free(output->serial);
output->make = NULL;
output->model = NULL;
output->serial = NULL;
if (!data || len < 128) {
return;
}
uint16_t id = (data[8] << 8) | data[9];
output->make = strdup(get_manufacturer(conn->backend->hwdb, id));
uint16_t model = data[10] | (data[11] << 8);
char model_str[32];
snprintf(model_str, sizeof(model_str), "0x%04" PRIX16, model);
uint32_t serial = data[12] | (data[13] << 8) | (data[14] << 8) | (data[15] << 8);
char serial_str[32];
snprintf(serial_str, sizeof(serial_str), "0x%08" PRIX32, serial);
for (size_t i = 72; i <= 108; i += 18) {
uint16_t flag = (data[i] << 8) | data[i + 1];
if (flag == 0 && data[i + 3] == 0xFC) {
snprintf(model_str, sizeof(model_str), "%.13s", &data[i + 5]);
// Monitor names are terminated by newline if they're too short
char *nl = strchr(model_str, '\n');
if (nl) {
*nl = '\0';
}
} else if (flag == 0 && data[i + 3] == 0xFF) {
snprintf(serial_str, sizeof(serial_str), "%.13s", &data[i + 5]);
// Monitor serial numbers are terminated by newline if they're too
// short
char* nl = strchr(serial_str, '\n');
if (nl) {
*nl = '\0';
}
}
}
output->model = strdup(model_str);
output->serial = strdup(serial_str);
}
const char *conn_get_name(uint32_t type_id) {
switch (type_id) {
case DRM_MODE_CONNECTOR_Unknown: return "Unknown";
case DRM_MODE_CONNECTOR_VGA: return "VGA";
case DRM_MODE_CONNECTOR_DVII: return "DVI-I";
case DRM_MODE_CONNECTOR_DVID: return "DVI-D";
case DRM_MODE_CONNECTOR_DVIA: return "DVI-A";
case DRM_MODE_CONNECTOR_Composite: return "Composite";
case DRM_MODE_CONNECTOR_SVIDEO: return "SVIDEO";
case DRM_MODE_CONNECTOR_LVDS: return "LVDS";
case DRM_MODE_CONNECTOR_Component: return "Component";
case DRM_MODE_CONNECTOR_9PinDIN: return "DIN";
case DRM_MODE_CONNECTOR_DisplayPort: return "DP";
case DRM_MODE_CONNECTOR_HDMIA: return "HDMI-A";
case DRM_MODE_CONNECTOR_HDMIB: return "HDMI-B";
case DRM_MODE_CONNECTOR_TV: return "TV";
case DRM_MODE_CONNECTOR_eDP: return "eDP";
case DRM_MODE_CONNECTOR_VIRTUAL: return "Virtual";
case DRM_MODE_CONNECTOR_DSI: return "DSI";
case DRM_MODE_CONNECTOR_DPI: return "DPI";
case DRM_MODE_CONNECTOR_WRITEBACK: return "Writeback";
#ifdef DRM_MODE_CONNECTOR_SPI
case DRM_MODE_CONNECTOR_SPI: return "SPI";
#endif
#ifdef DRM_MODE_CONNECTOR_USB
case DRM_MODE_CONNECTOR_USB: return "USB";
#endif
default: return "Unknown";
}
}
static bool is_taken(size_t n, const uint32_t arr[static n], uint32_t key) {
for (size_t i = 0; i < n; ++i) {
if (arr[i] == key) {
return true;
}
}
return false;
}
/*
* Store all of the non-recursive state in a struct, so we aren't literally
* passing 12 arguments to a function.
*/
struct match_state {
const size_t num_objs;
const uint32_t *restrict objs;
const size_t num_res;
size_t score;
size_t replaced;
uint32_t *restrict res;
uint32_t *restrict best;
const uint32_t *restrict orig;
bool exit_early;
};
/*
* skips: The number of SKIP elements encountered so far.
* score: The number of resources we've matched so far.
* replaced: The number of changes from the original solution.
* i: The index of the current element.
*
* This tries to match a solution as close to st->orig as it can.
*
* Returns whether we've set a new best element with this solution.
*/
static bool match_obj_(struct match_state *st, size_t skips, size_t score, size_t replaced, size_t i) {
// Finished
if (i >= st->num_res) {
if (score > st->score ||
(score == st->score && replaced < st->replaced)) {
st->score = score;
st->replaced = replaced;
memcpy(st->best, st->res, sizeof(st->best[0]) * st->num_res);
st->exit_early = (st->score == st->num_res - skips
|| st->score == st->num_objs)
&& st->replaced == 0;
return true;
} else {
return false;
}
}
if (st->orig[i] == SKIP) {
st->res[i] = SKIP;
return match_obj_(st, skips + 1, score, replaced, i + 1);
}
bool has_best = false;
/*
* Attempt to use the current solution first, to try and avoid
* recalculating everything
*/
if (st->orig[i] != UNMATCHED && !is_taken(i, st->res, st->orig[i])) {
st->res[i] = st->orig[i];
size_t obj_score = st->objs[st->res[i]] != 0 ? 1 : 0;
if (match_obj_(st, skips, score + obj_score, replaced, i + 1)) {
has_best = true;
}
}
if (st->orig[i] == UNMATCHED) {
st->res[i] = UNMATCHED;
if (match_obj_(st, skips, score, replaced, i + 1)) {
has_best = true;
}
}
if (st->exit_early) {
return true;
}
if (st->orig[i] != UNMATCHED) {
++replaced;
}
for (size_t candidate = 0; candidate < st->num_objs; ++candidate) {
// We tried this earlier
if (candidate == st->orig[i]) {
continue;
}
// Not compatible
if (!(st->objs[candidate] & (1 << i))) {
continue;
}
// Already taken
if (is_taken(i, st->res, candidate)) {
continue;
}
st->res[i] = candidate;
size_t obj_score = st->objs[candidate] != 0 ? 1 : 0;
if (match_obj_(st, skips, score + obj_score, replaced, i + 1)) {
has_best = true;
}
if (st->exit_early) {
return true;
}
}
if (has_best) {
return true;
}
// Maybe this resource can't be matched
st->res[i] = UNMATCHED;
return match_obj_(st, skips, score, replaced, i + 1);
}
size_t match_obj(size_t num_objs, const uint32_t objs[static restrict num_objs],
size_t num_res, const uint32_t res[static restrict num_res],
uint32_t out[static restrict num_res]) {
uint32_t solution[num_res];
for (size_t i = 0; i < num_res; ++i) {
solution[i] = UNMATCHED;
}
struct match_state st = {
.num_objs = num_objs,
.num_res = num_res,
.score = 0,
.replaced = SIZE_MAX,
.objs = objs,
.res = solution,
.best = out,
.orig = res,
.exit_early = false,
};
match_obj_(&st, 0, 0, 0, 0);
return st.score;
}
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