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#include <assert.h>
#include <drm_fourcc.h>
#include <stdbool.h>
#include <string.h>
#include <sys/socket.h>
#include <sys/wait.h>
#include <unistd.h>
#include <wlr/config.h>
#include <wlr/types/wlr_cursor.h>
#include <wlr/types/wlr_output_layout.h>
#include <wlr/types/wlr_output.h>
#include <wlr/types/wlr_output_swapchain_manager.h>
#include "sway/config.h"
#include "sway/input/cursor.h"
#include "sway/output.h"
#include "sway/server.h"
#include "sway/tree/root.h"
#include "log.h"
#include "util.h"
#if WLR_HAS_DRM_BACKEND
#include <wlr/backend/drm.h>
#endif
int output_name_cmp(const void *item, const void *data) {
const struct output_config *output = item;
const char *name = data;
return strcmp(output->name, name);
}
void output_get_identifier(char *identifier, size_t len,
struct sway_output *output) {
struct wlr_output *wlr_output = output->wlr_output;
snprintf(identifier, len, "%s %s %s",
wlr_output->make ? wlr_output->make : "Unknown",
wlr_output->model ? wlr_output->model : "Unknown",
wlr_output->serial ? wlr_output->serial : "Unknown");
}
const char *sway_output_scale_filter_to_string(enum scale_filter_mode scale_filter) {
switch (scale_filter) {
case SCALE_FILTER_DEFAULT:
return "smart";
case SCALE_FILTER_LINEAR:
return "linear";
case SCALE_FILTER_NEAREST:
return "nearest";
case SCALE_FILTER_SMART:
return "smart";
}
sway_assert(false, "Unknown value for scale_filter.");
return NULL;
}
struct output_config *new_output_config(const char *name) {
struct output_config *oc = calloc(1, sizeof(struct output_config));
if (oc == NULL) {
return NULL;
}
oc->name = strdup(name);
if (oc->name == NULL) {
free(oc);
return NULL;
}
oc->enabled = -1;
oc->width = oc->height = -1;
oc->refresh_rate = -1;
oc->custom_mode = -1;
oc->drm_mode.type = -1;
oc->x = oc->y = -1;
oc->scale = -1;
oc->scale_filter = SCALE_FILTER_DEFAULT;
oc->transform = -1;
oc->subpixel = WL_OUTPUT_SUBPIXEL_UNKNOWN;
oc->max_render_time = -1;
oc->adaptive_sync = -1;
oc->render_bit_depth = RENDER_BIT_DEPTH_DEFAULT;
oc->set_color_transform = false;
oc->color_transform = NULL;
oc->power = -1;
return oc;
}
// supersede_output_config clears all fields in dst that were set in src
static void supersede_output_config(struct output_config *dst, struct output_config *src) {
if (src->enabled != -1) {
dst->enabled = -1;
}
if (src->width != -1) {
dst->width = -1;
}
if (src->height != -1) {
dst->height = -1;
}
if (src->x != -1) {
dst->x = -1;
}
if (src->y != -1) {
dst->y = -1;
}
if (src->scale != -1) {
dst->scale = -1;
}
if (src->scale_filter != SCALE_FILTER_DEFAULT) {
dst->scale_filter = SCALE_FILTER_DEFAULT;
}
if (src->subpixel != WL_OUTPUT_SUBPIXEL_UNKNOWN) {
dst->subpixel = WL_OUTPUT_SUBPIXEL_UNKNOWN;
}
if (src->refresh_rate != -1) {
dst->refresh_rate = -1;
}
if (src->custom_mode != -1) {
dst->custom_mode = -1;
}
if (src->drm_mode.type != (uint32_t) -1) {
dst->drm_mode.type = -1;
}
if (src->transform != -1) {
dst->transform = -1;
}
if (src->max_render_time != -1) {
dst->max_render_time = -1;
}
if (src->adaptive_sync != -1) {
dst->adaptive_sync = -1;
}
if (src->render_bit_depth != RENDER_BIT_DEPTH_DEFAULT) {
dst->render_bit_depth = RENDER_BIT_DEPTH_DEFAULT;
}
if (src->background) {
free(dst->background);
dst->background = NULL;
}
if (src->background_option) {
free(dst->background_option);
dst->background_option = NULL;
}
if (src->background_fallback) {
free(dst->background_fallback);
dst->background_fallback = NULL;
}
if (src->power != -1) {
dst->power = -1;
}
}
// merge_output_config sets all fields in dst that were set in src
static void merge_output_config(struct output_config *dst, struct output_config *src) {
if (src->enabled != -1) {
dst->enabled = src->enabled;
}
if (src->width != -1) {
dst->width = src->width;
}
if (src->height != -1) {
dst->height = src->height;
}
if (src->x != -1) {
dst->x = src->x;
}
if (src->y != -1) {
dst->y = src->y;
}
if (src->scale != -1) {
dst->scale = src->scale;
}
if (src->scale_filter != SCALE_FILTER_DEFAULT) {
dst->scale_filter = src->scale_filter;
}
if (src->subpixel != WL_OUTPUT_SUBPIXEL_UNKNOWN) {
dst->subpixel = src->subpixel;
}
if (src->refresh_rate != -1) {
dst->refresh_rate = src->refresh_rate;
}
if (src->custom_mode != -1) {
dst->custom_mode = src->custom_mode;
}
if (src->drm_mode.type != (uint32_t) -1) {
memcpy(&dst->drm_mode, &src->drm_mode, sizeof(src->drm_mode));
}
if (src->transform != -1) {
dst->transform = src->transform;
}
if (src->max_render_time != -1) {
dst->max_render_time = src->max_render_time;
}
if (src->adaptive_sync != -1) {
dst->adaptive_sync = src->adaptive_sync;
}
if (src->render_bit_depth != RENDER_BIT_DEPTH_DEFAULT) {
dst->render_bit_depth = src->render_bit_depth;
}
if (src->set_color_transform) {
if (src->color_transform) {
wlr_color_transform_ref(src->color_transform);
}
wlr_color_transform_unref(dst->color_transform);
dst->set_color_transform = true;
dst->color_transform = src->color_transform;
}
if (src->background) {
free(dst->background);
dst->background = strdup(src->background);
}
if (src->background_option) {
free(dst->background_option);
dst->background_option = strdup(src->background_option);
}
if (src->background_fallback) {
free(dst->background_fallback);
dst->background_fallback = strdup(src->background_fallback);
}
if (src->power != -1) {
dst->power = src->power;
}
}
void store_output_config(struct output_config *oc) {
bool merged = false;
bool wildcard = strcmp(oc->name, "*") == 0;
struct sway_output *output = wildcard ? NULL : all_output_by_name_or_id(oc->name);
char id[128];
if (output) {
output_get_identifier(id, sizeof(id), output);
}
for (int i = 0; i < config->output_configs->length; i++) {
struct output_config *old = config->output_configs->items[i];
// If the old config matches the new config's name, regardless of
// whether it was name or identifier, merge on top of the existing
// config. If the new config is a wildcard, this also merges on top of
// old wildcard configs.
if (strcmp(old->name, oc->name) == 0) {
merge_output_config(old, oc);
merged = true;
continue;
}
// If the new config is a wildcard config we supersede all non-wildcard
// configs. Old wildcard configs have already been handled above.
if (wildcard) {
supersede_output_config(old, oc);
continue;
}
// If the new config matches an output's name, and the old config
// matches on that output's identifier, supersede it.
if (output && strcmp(old->name, id) == 0 &&
strcmp(oc->name, output->wlr_output->name) == 0) {
supersede_output_config(old, oc);
}
}
sway_log(SWAY_DEBUG, "Config stored for output %s (enabled: %d) (%dx%d@%fHz "
"position %d,%d scale %f subpixel %s transform %d) (bg %s %s) (power %d) "
"(max render time: %d)",
oc->name, oc->enabled, oc->width, oc->height, oc->refresh_rate,
oc->x, oc->y, oc->scale, sway_wl_output_subpixel_to_string(oc->subpixel),
oc->transform, oc->background, oc->background_option, oc->power,
oc->max_render_time);
// If the configuration was not merged into an existing configuration, add
// it to the list. Otherwise we're done with it and can free it.
if (!merged) {
list_add(config->output_configs, oc);
} else {
free_output_config(oc);
}
}
static void set_mode(struct wlr_output *output, struct wlr_output_state *pending,
int width, int height, float refresh_rate, bool custom) {
// Not all floating point integers can be represented exactly
// as (int)(1000 * mHz / 1000.f)
// round() the result to avoid any error
int mhz = (int)roundf(refresh_rate * 1000);
// If no target refresh rate is given, match highest available
mhz = mhz <= 0 ? INT_MAX : mhz;
if (wl_list_empty(&output->modes) || custom) {
sway_log(SWAY_DEBUG, "Assigning custom mode to %s", output->name);
wlr_output_state_set_custom_mode(pending, width, height,
refresh_rate > 0 ? mhz : 0);
return;
}
struct wlr_output_mode *mode, *best = NULL;
int best_diff_mhz = INT_MAX;
wl_list_for_each(mode, &output->modes, link) {
if (mode->width == width && mode->height == height) {
int diff_mhz = abs(mode->refresh - mhz);
if (diff_mhz < best_diff_mhz) {
best_diff_mhz = diff_mhz;
best = mode;
if (best_diff_mhz == 0) {
break;
}
}
}
}
if (best) {
sway_log(SWAY_INFO, "Assigning configured mode (%dx%d@%.3fHz) to %s",
best->width, best->height, best->refresh / 1000.f, output->name);
} else {
best = wlr_output_preferred_mode(output);
sway_log(SWAY_INFO, "Configured mode (%dx%d@%.3fHz) not available, "
"applying preferred mode (%dx%d@%.3fHz)",
width, height, refresh_rate,
best->width, best->height, best->refresh / 1000.f);
}
wlr_output_state_set_mode(pending, best);
}
static void set_modeline(struct wlr_output *output,
struct wlr_output_state *pending, drmModeModeInfo *drm_mode) {
#if WLR_HAS_DRM_BACKEND
if (!wlr_output_is_drm(output)) {
sway_log(SWAY_ERROR, "Modeline can only be set to DRM output");
return;
}
sway_log(SWAY_DEBUG, "Assigning custom modeline to %s", output->name);
struct wlr_output_mode *mode = wlr_drm_connector_add_mode(output, drm_mode);
if (mode) {
wlr_output_state_set_mode(pending, mode);
}
#else
sway_log(SWAY_ERROR, "Modeline can only be set to DRM output");
#endif
}
/* Some manufacturers hardcode the aspect-ratio of the output in the physical
* size field. */
static bool phys_size_is_aspect_ratio(struct wlr_output *output) {
return (output->phys_width == 1600 && output->phys_height == 900) ||
(output->phys_width == 1600 && output->phys_height == 1000) ||
(output->phys_width == 160 && output->phys_height == 90) ||
(output->phys_width == 160 && output->phys_height == 100) ||
(output->phys_width == 16 && output->phys_height == 9) ||
(output->phys_width == 16 && output->phys_height == 10);
}
// The minimum DPI at which we turn on a scale of 2
#define HIDPI_DPI_LIMIT (2 * 96)
// The minimum screen height at which we turn on a scale of 2
#define HIDPI_MIN_HEIGHT 1200
// 1 inch = 25.4 mm
#define MM_PER_INCH 25.4
static int compute_default_scale(struct wlr_output *output,
struct wlr_output_state *pending) {
struct wlr_box box = { .width = output->width, .height = output->height };
if (pending->committed & WLR_OUTPUT_STATE_MODE) {
switch (pending->mode_type) {
case WLR_OUTPUT_STATE_MODE_FIXED:
box.width = pending->mode->width;
box.height = pending->mode->height;
break;
case WLR_OUTPUT_STATE_MODE_CUSTOM:
box.width = pending->custom_mode.width;
box.height = pending->custom_mode.height;
break;
}
}
enum wl_output_transform transform = output->transform;
if (pending->committed & WLR_OUTPUT_STATE_TRANSFORM) {
transform = pending->transform;
}
wlr_box_transform(&box, &box, transform, box.width, box.height);
int width = box.width;
int height = box.height;
if (height < HIDPI_MIN_HEIGHT) {
return 1;
}
if (output->phys_width == 0 || output->phys_height == 0) {
return 1;
}
if (phys_size_is_aspect_ratio(output)) {
return 1;
}
double dpi_x = (double) width / (output->phys_width / MM_PER_INCH);
double dpi_y = (double) height / (output->phys_height / MM_PER_INCH);
sway_log(SWAY_DEBUG, "Output DPI: %fx%f", dpi_x, dpi_y);
if (dpi_x <= HIDPI_DPI_LIMIT || dpi_y <= HIDPI_DPI_LIMIT) {
return 1;
}
return 2;
}
static bool render_format_is_10bit(uint32_t render_format) {
return render_format == DRM_FORMAT_XRGB2101010 ||
render_format == DRM_FORMAT_XBGR2101010;
}
static bool render_format_is_bgr(uint32_t fmt) {
return fmt == DRM_FORMAT_XBGR2101010 || fmt == DRM_FORMAT_XBGR8888;
}
static bool output_config_is_disabling(struct output_config *oc) {
return oc && (!oc->enabled || oc->power == 0);
}
static void queue_output_config(struct output_config *oc,
struct sway_output *output, struct wlr_output_state *pending) {
if (output == root->fallback_output) {
return;
}
struct wlr_output *wlr_output = output->wlr_output;
if (output_config_is_disabling(oc)) {
sway_log(SWAY_DEBUG, "Turning off output %s", wlr_output->name);
wlr_output_state_set_enabled(pending, false);
return;
}
sway_log(SWAY_DEBUG, "Turning on output %s", wlr_output->name);
wlr_output_state_set_enabled(pending, true);
if (oc && oc->drm_mode.type != 0 && oc->drm_mode.type != (uint32_t) -1) {
sway_log(SWAY_DEBUG, "Set %s modeline",
wlr_output->name);
set_modeline(wlr_output, pending, &oc->drm_mode);
} else if (oc && oc->width > 0 && oc->height > 0) {
sway_log(SWAY_DEBUG, "Set %s mode to %dx%d (%f Hz)",
wlr_output->name, oc->width, oc->height, oc->refresh_rate);
set_mode(wlr_output, pending, oc->width, oc->height,
oc->refresh_rate, oc->custom_mode == 1);
} else if (!wl_list_empty(&wlr_output->modes)) {
sway_log(SWAY_DEBUG, "Set preferred mode");
struct wlr_output_mode *preferred_mode =
wlr_output_preferred_mode(wlr_output);
wlr_output_state_set_mode(pending, preferred_mode);
}
if (oc && (oc->subpixel != WL_OUTPUT_SUBPIXEL_UNKNOWN || config->reloading)) {
sway_log(SWAY_DEBUG, "Set %s subpixel to %s", oc->name,
sway_wl_output_subpixel_to_string(oc->subpixel));
wlr_output_state_set_subpixel(pending, oc->subpixel);
}
enum wl_output_transform tr = WL_OUTPUT_TRANSFORM_NORMAL;
if (oc && oc->transform >= 0) {
tr = oc->transform;
#if WLR_HAS_DRM_BACKEND
} else if (wlr_output_is_drm(wlr_output)) {
tr = wlr_drm_connector_get_panel_orientation(wlr_output);
sway_log(SWAY_DEBUG, "Auto-detected output transform: %d", tr);
#endif
}
if (wlr_output->transform != tr) {
sway_log(SWAY_DEBUG, "Set %s transform to %d", wlr_output->name, tr);
wlr_output_state_set_transform(pending, tr);
}
// Apply the scale last before the commit, because the scale auto-detection
// reads the pending output size
float scale;
if (oc && oc->scale > 0) {
scale = oc->scale;
// The factional-scale-v1 protocol uses increments of 120ths to send
// the scale factor to the client. Adjust the scale so that we use the
// same value as the clients'.
float adjusted_scale = round(scale * 120) / 120;
if (scale != adjusted_scale) {
sway_log(SWAY_INFO, "Adjusting output scale from %f to %f",
scale, adjusted_scale);
scale = adjusted_scale;
}
} else {
scale = compute_default_scale(wlr_output, pending);
sway_log(SWAY_DEBUG, "Auto-detected output scale: %f", scale);
}
if (scale != wlr_output->scale) {
sway_log(SWAY_DEBUG, "Set %s scale to %f", wlr_output->name, scale);
wlr_output_state_set_scale(pending, scale);
}
if (oc && oc->adaptive_sync != -1) {
sway_log(SWAY_DEBUG, "Set %s adaptive sync to %d", wlr_output->name,
oc->adaptive_sync);
wlr_output_state_set_adaptive_sync_enabled(pending, oc->adaptive_sync == 1);
}
if (oc && oc->render_bit_depth != RENDER_BIT_DEPTH_DEFAULT) {
if (oc->render_bit_depth == RENDER_BIT_DEPTH_10 &&
render_format_is_10bit(output->wlr_output->render_format)) {
// 10-bit was set successfully before, try to save some tests by reusing the format
wlr_output_state_set_render_format(pending, output->wlr_output->render_format);
} else if (oc->render_bit_depth == RENDER_BIT_DEPTH_10) {
wlr_output_state_set_render_format(pending, DRM_FORMAT_XRGB2101010);
} else {
wlr_output_state_set_render_format(pending, DRM_FORMAT_XRGB8888);
}
}
}
static bool finalize_output_config(struct output_config *oc, struct sway_output *output) {
if (output == root->fallback_output) {
return false;
}
struct wlr_output *wlr_output = output->wlr_output;
if (oc && !oc->enabled) {
sway_log(SWAY_DEBUG, "Disabling output %s", oc->name);
if (output->enabled) {
output_disable(output);
wlr_output_layout_remove(root->output_layout, wlr_output);
}
return true;
}
if (oc) {
enum scale_filter_mode scale_filter_old = output->scale_filter;
switch (oc->scale_filter) {
case SCALE_FILTER_DEFAULT:
case SCALE_FILTER_SMART:
output->scale_filter = ceilf(wlr_output->scale) == wlr_output->scale ?
SCALE_FILTER_NEAREST : SCALE_FILTER_LINEAR;
break;
case SCALE_FILTER_LINEAR:
case SCALE_FILTER_NEAREST:
output->scale_filter = oc->scale_filter;
break;
}
if (scale_filter_old != output->scale_filter) {
sway_log(SWAY_DEBUG, "Set %s scale_filter to %s", oc->name,
sway_output_scale_filter_to_string(output->scale_filter));
wlr_damage_ring_add_whole(&output->scene_output->damage_ring);
}
}
// Find position for it
if (oc && (oc->x != -1 || oc->y != -1)) {
sway_log(SWAY_DEBUG, "Set %s position to %d, %d", oc->name, oc->x, oc->y);
wlr_output_layout_add(root->output_layout, wlr_output, oc->x, oc->y);
} else {
wlr_output_layout_add_auto(root->output_layout, wlr_output);
}
// Update output->{lx, ly, width, height}
struct wlr_box output_box;
wlr_output_layout_get_box(root->output_layout, wlr_output, &output_box);
output->lx = output_box.x;
output->ly = output_box.y;
output->width = output_box.width;
output->height = output_box.height;
if (!output->enabled) {
output_enable(output);
}
if (oc && oc->max_render_time >= 0) {
sway_log(SWAY_DEBUG, "Set %s max render time to %d",
oc->name, oc->max_render_time);
output->max_render_time = oc->max_render_time;
}
if (oc && oc->set_color_transform) {
if (oc->color_transform) {
wlr_color_transform_ref(oc->color_transform);
}
wlr_color_transform_unref(output->color_transform);
output->color_transform = oc->color_transform;
}
return true;
}
static void default_output_config(struct output_config *oc,
struct wlr_output *wlr_output) {
oc->enabled = 1;
oc->power = 1;
struct wlr_output_mode *mode = wlr_output_preferred_mode(wlr_output);
if (mode != NULL) {
oc->width = mode->width;
oc->height = mode->height;
oc->refresh_rate = mode->refresh / 1000.f;
}
oc->x = oc->y = -1;
oc->scale = 0; // auto
oc->scale_filter = SCALE_FILTER_DEFAULT;
struct sway_output *output = wlr_output->data;
oc->subpixel = output->detected_subpixel;
oc->transform = WL_OUTPUT_TRANSFORM_NORMAL;
oc->max_render_time = 0;
}
// find_output_config returns a merged output_config containing all stored
// configuration that applies to the specified output.
struct output_config *find_output_config(struct sway_output *sway_output) {
const char *name = sway_output->wlr_output->name;
struct output_config *oc = NULL;
struct output_config *result = new_output_config(name);
if (config->reloading) {
default_output_config(result, sway_output->wlr_output);
}
char id[128];
output_get_identifier(id, sizeof(id), sway_output);
int i;
bool match = false;
if ((i = list_seq_find(config->output_configs, output_name_cmp, "*")) >= 0) {
match = true;
oc = config->output_configs->items[i];
merge_output_config(result, oc);
}
if ((i = list_seq_find(config->output_configs, output_name_cmp, name)) >= 0) {
match = true;
oc = config->output_configs->items[i];
merge_output_config(result, oc);
}
if ((i = list_seq_find(config->output_configs, output_name_cmp, id)) >= 0) {
match = true;
oc = config->output_configs->items[i];
merge_output_config(result, oc);
}
if (!match && !config->reloading) {
// No name, identifier, or wildcard config. Since we are not
// reloading with defaults, the output config will be empty, so
// just return NULL
free_output_config(result);
return NULL;
}
return result;
}
static bool config_has_auto_mode(struct output_config *oc) {
if (!oc) {
return true;
}
if (oc->drm_mode.type != 0 && oc->drm_mode.type != (uint32_t)-1) {
return true;
} else if (oc->width > 0 && oc->height > 0) {
return true;
}
return false;
}
struct search_context {
struct wlr_output_swapchain_manager *swapchain_mgr;
struct wlr_backend_output_state *states;
struct matched_output_config *configs;
size_t configs_len;
bool degrade_to_off;
};
static void dump_output_state(struct wlr_output *wlr_output, struct wlr_output_state *state) {
sway_log(SWAY_DEBUG, "Output state for %s", wlr_output->name);
if (state->committed & WLR_OUTPUT_STATE_ENABLED) {
sway_log(SWAY_DEBUG, " enabled: %s", state->enabled ? "yes" : "no");
}
if (state->committed & WLR_OUTPUT_STATE_RENDER_FORMAT) {
sway_log(SWAY_DEBUG, " render_format: %d", state->render_format);
}
if (state->committed & WLR_OUTPUT_STATE_MODE) {
if (state->mode_type == WLR_OUTPUT_STATE_MODE_CUSTOM) {
sway_log(SWAY_DEBUG, " custom mode: %dx%d@%dmHz",
state->custom_mode.width, state->custom_mode.height, state->custom_mode.refresh);
} else {
sway_log(SWAY_DEBUG, " mode: %dx%d@%dmHz%s",
state->mode->width, state->mode->height, state->mode->refresh,
state->mode->preferred ? " (preferred)" : "");
}
}
if (state->committed & WLR_OUTPUT_STATE_ADAPTIVE_SYNC_ENABLED) {
sway_log(SWAY_DEBUG, " adaptive_sync: %s",
state->adaptive_sync_enabled ? "enabled": "disabled");
}
}
static bool search_valid_config(struct search_context *ctx, size_t output_idx);
static void reset_output_state(struct wlr_output_state *state) {
wlr_output_state_finish(state);
wlr_output_state_init(state);
state->committed = 0;
}
static void clear_later_output_states(struct wlr_backend_output_state *states,
size_t configs_len, size_t output_idx) {
// Clear and disable all output states after this one to avoid conflict
// with previous tests.
for (size_t idx = output_idx+1; idx < configs_len; idx++) {
struct wlr_backend_output_state *backend_state = &states[idx];
struct wlr_output_state *state = &backend_state->base;
reset_output_state(state);
wlr_output_state_set_enabled(state, false);
}
}
static bool search_finish(struct search_context *ctx, size_t output_idx) {
struct wlr_backend_output_state *backend_state = &ctx->states[output_idx];
struct wlr_output_state *state = &backend_state->base;
struct wlr_output *wlr_output = backend_state->output;
clear_later_output_states(ctx->states, ctx->configs_len, output_idx);
dump_output_state(wlr_output, state);
return wlr_output_swapchain_manager_prepare(ctx->swapchain_mgr, ctx->states, ctx->configs_len) &&
search_valid_config(ctx, output_idx+1);
}
static bool search_adaptive_sync(struct search_context *ctx, size_t output_idx) {
struct matched_output_config *cfg = &ctx->configs[output_idx];
struct wlr_backend_output_state *backend_state = &ctx->states[output_idx];
struct wlr_output_state *state = &backend_state->base;
if (!backend_state->output->adaptive_sync_supported) {
return search_finish(ctx, output_idx);
}
if (cfg->config && cfg->config->adaptive_sync == 1) {
wlr_output_state_set_adaptive_sync_enabled(state, true);
if (search_finish(ctx, output_idx)) {
return true;
}
}
wlr_output_state_set_adaptive_sync_enabled(state, false);
return search_finish(ctx, output_idx);
}
static bool search_mode(struct search_context *ctx, size_t output_idx) {
struct matched_output_config *cfg = &ctx->configs[output_idx];
struct wlr_backend_output_state *backend_state = &ctx->states[output_idx];
struct wlr_output_state *state = &backend_state->base;
struct wlr_output *wlr_output = backend_state->output;
if (!config_has_auto_mode(cfg->config)) {
return search_adaptive_sync(ctx, output_idx);
}
struct wlr_output_mode *preferred_mode = wlr_output_preferred_mode(wlr_output);
if (preferred_mode) {
wlr_output_state_set_mode(state, preferred_mode);
if (search_adaptive_sync(ctx, output_idx)) {
return true;
}
}
if (wl_list_empty(&wlr_output->modes)) {
state->committed &= ~WLR_OUTPUT_STATE_MODE;
return search_adaptive_sync(ctx, output_idx);
}
struct wlr_output_mode *mode;
wl_list_for_each(mode, &backend_state->output->modes, link) {
if (mode == preferred_mode) {
continue;
}
wlr_output_state_set_mode(state, mode);
if (search_adaptive_sync(ctx, output_idx)) {
return true;
}
}
return false;
}
static bool search_render_format(struct search_context *ctx, size_t output_idx) {
struct matched_output_config *cfg = &ctx->configs[output_idx];
struct wlr_backend_output_state *backend_state = &ctx->states[output_idx];
struct wlr_output_state *state = &backend_state->base;
struct wlr_output *wlr_output = backend_state->output;
uint32_t fmts[] = {
DRM_FORMAT_XRGB2101010,
DRM_FORMAT_XBGR2101010,
DRM_FORMAT_XRGB8888,
DRM_FORMAT_INVALID,
};
if (render_format_is_bgr(wlr_output->render_format)) {
// Start with BGR in the unlikely event that we previously required it.
fmts[0] = DRM_FORMAT_XBGR2101010;
fmts[1] = DRM_FORMAT_XRGB2101010;
}
const struct wlr_drm_format_set *primary_formats =
wlr_output_get_primary_formats(wlr_output, WLR_BUFFER_CAP_DMABUF);
bool need_10bit = cfg->config && cfg->config->render_bit_depth == RENDER_BIT_DEPTH_10;
for (size_t idx = 0; fmts[idx] != DRM_FORMAT_INVALID; idx++) {
if (!need_10bit && render_format_is_10bit(fmts[idx])) {
continue;
}
if (!wlr_drm_format_set_get(primary_formats, fmts[idx])) {
// This is not a supported format for this output
continue;
}
wlr_output_state_set_render_format(state, fmts[idx]);
if (search_mode(ctx, output_idx)) {
return true;
}
}
return false;
}
static bool search_valid_config(struct search_context *ctx, size_t output_idx) {
if (output_idx >= ctx->configs_len) {
// We reached the end of the search, all good!
return true;
}
struct matched_output_config *cfg = &ctx->configs[output_idx];
struct wlr_backend_output_state *backend_state = &ctx->states[output_idx];
struct wlr_output_state *state = &backend_state->base;
struct wlr_output *wlr_output = backend_state->output;
if (!output_config_is_disabling(cfg->config)) {
// Search through our possible configurations, doing a depth-first
// through render_format, modes, adaptive_sync and the next output's
// config.
queue_output_config(cfg->config, cfg->output, &backend_state->base);
if (search_render_format(ctx, output_idx)) {
return true;
} else if (!ctx->degrade_to_off) {
return false;
}
// We could not get anything to work, try to disable this output to see
// if we can at least make the outputs before us work.
sway_log(SWAY_DEBUG, "Unable to find valid config with output %s, disabling",
wlr_output->name);
reset_output_state(state);
}
wlr_output_state_set_enabled(state, false);
return search_finish(ctx, output_idx);
}
static int compare_matched_output_config_priority(const void *a, const void *b) {
const struct matched_output_config *amc = a;
const struct matched_output_config *bmc = b;
bool a_disabling = output_config_is_disabling(amc->config);
bool b_disabling = output_config_is_disabling(bmc->config);
bool a_enabled = amc->output->enabled;
bool b_enabled = bmc->output->enabled;
// We want to give priority to existing enabled outputs. To do so, we want
// the configuration order to be:
// 1. Existing, enabled outputs
// 2. Outputs that need to be enabled
// 3. Disabled or disabling outputs
if (a_enabled && !a_disabling) {
return -1;
} else if (b_enabled && !b_disabling) {
return 1;
} else if (b_disabling && !a_disabling) {
return -1;
} else if (a_disabling && !b_disabling) {
return 1;
}
return 0;
}
void sort_output_configs_by_priority(struct matched_output_config *configs,
size_t configs_len) {
qsort(configs, configs_len, sizeof(*configs), compare_matched_output_config_priority);
}
bool apply_output_configs(struct matched_output_config *configs,
size_t configs_len, bool test_only, bool degrade_to_off) {
struct wlr_backend_output_state *states = calloc(configs_len, sizeof(*states));
if (!states) {
return false;
}
sway_log(SWAY_DEBUG, "Committing %zd outputs", configs_len);
for (size_t idx = 0; idx < configs_len; idx++) {
struct matched_output_config *cfg = &configs[idx];
struct wlr_backend_output_state *backend_state = &states[idx];
backend_state->output = cfg->output->wlr_output;
wlr_output_state_init(&backend_state->base);
sway_log(SWAY_DEBUG, "Preparing config for %s",
cfg->output->wlr_output->name);
queue_output_config(cfg->config, cfg->output, &backend_state->base);
}
struct wlr_output_swapchain_manager swapchain_mgr;
wlr_output_swapchain_manager_init(&swapchain_mgr, server.backend);
bool ok = wlr_output_swapchain_manager_prepare(&swapchain_mgr, states, configs_len);
if (!ok) {
sway_log(SWAY_ERROR, "Requested backend configuration failed, searching for valid fallbacks");
struct search_context ctx = {
.swapchain_mgr = &swapchain_mgr,
.states = states,
.configs = configs,
.configs_len = configs_len,
.degrade_to_off = degrade_to_off,
};
if (!search_valid_config(&ctx, 0)) {
sway_log(SWAY_ERROR, "Search for valid config failed");
goto out;
}
}
if (test_only) {
// The swapchain manager already did a test for us
goto out;
}
for (size_t idx = 0; idx < configs_len; idx++) {
struct matched_output_config *cfg = &configs[idx];
struct wlr_backend_output_state *backend_state = &states[idx];
struct wlr_scene_output_state_options opts = {
.swapchain = wlr_output_swapchain_manager_get_swapchain(
&swapchain_mgr, backend_state->output),
.color_transform = cfg->output->color_transform,
};
struct wlr_scene_output *scene_output = cfg->output->scene_output;
struct wlr_output_state *state = &backend_state->base;
if (!wlr_scene_output_build_state(scene_output, state, &opts)) {
sway_log(SWAY_ERROR, "Building output state for '%s' failed",
backend_state->output->name);
goto out;
}
}
ok = wlr_backend_commit(server.backend, states, configs_len);
if (!ok) {
sway_log(SWAY_ERROR, "Backend commit failed");
goto out;
}
sway_log(SWAY_DEBUG, "Commit of %zd outputs succeeded", configs_len);
wlr_output_swapchain_manager_apply(&swapchain_mgr);
for (size_t idx = 0; idx < configs_len; idx++) {
struct matched_output_config *cfg = &configs[idx];
sway_log(SWAY_DEBUG, "Finalizing config for %s",
cfg->output->wlr_output->name);
finalize_output_config(cfg->config, cfg->output);
}
out:
wlr_output_swapchain_manager_finish(&swapchain_mgr);
for (size_t idx = 0; idx < configs_len; idx++) {
struct wlr_backend_output_state *backend_state = &states[idx];
wlr_output_state_finish(&backend_state->base);
}
free(states);
// Reconfigure all devices, since input config may have been applied before
// this output came online, and some config items (like map_to_output) are
// dependent on an output being present.
input_manager_configure_all_input_mappings();
// Reconfigure the cursor images, since the scale may have changed.
input_manager_configure_xcursor();
struct sway_seat *seat;
wl_list_for_each(seat, &server.input->seats, link) {
wlr_seat_pointer_notify_clear_focus(seat->wlr_seat);
cursor_rebase(seat->cursor);
}
return ok;
}
void apply_all_output_configs(void) {
size_t configs_len = wl_list_length(&root->all_outputs);
struct matched_output_config *configs = calloc(configs_len, sizeof(*configs));
if (!configs) {
return;
}
int config_idx = 0;
struct sway_output *sway_output;
wl_list_for_each(sway_output, &root->all_outputs, link) {
if (sway_output == root->fallback_output) {
configs_len--;
continue;
}
struct matched_output_config *config = &configs[config_idx++];
config->output = sway_output;
config->config = find_output_config(sway_output);
}
sort_output_configs_by_priority(configs, configs_len);
apply_output_configs(configs, configs_len, false, true);
for (size_t idx = 0; idx < configs_len; idx++) {
struct matched_output_config *cfg = &configs[idx];
free_output_config(cfg->config);
}
free(configs);
}
void free_output_config(struct output_config *oc) {
if (!oc) {
return;
}
free(oc->name);
free(oc->background);
free(oc->background_option);
wlr_color_transform_unref(oc->color_transform);
free(oc);
}
static void handle_swaybg_client_destroy(struct wl_listener *listener,
void *data) {
struct sway_config *sway_config =
wl_container_of(listener, sway_config, swaybg_client_destroy);
wl_list_remove(&sway_config->swaybg_client_destroy.link);
wl_list_init(&sway_config->swaybg_client_destroy.link);
sway_config->swaybg_client = NULL;
}
static bool _spawn_swaybg(char **command) {
if (config->swaybg_client != NULL) {
wl_client_destroy(config->swaybg_client);
}
int sockets[2];
if (socketpair(AF_UNIX, SOCK_STREAM, 0, sockets) != 0) {
sway_log_errno(SWAY_ERROR, "socketpair failed");
return false;
}
if (!sway_set_cloexec(sockets[0], true) || !sway_set_cloexec(sockets[1], true)) {
return false;
}
config->swaybg_client = wl_client_create(server.wl_display, sockets[0]);
if (config->swaybg_client == NULL) {
sway_log_errno(SWAY_ERROR, "wl_client_create failed");
return false;
}
config->swaybg_client_destroy.notify = handle_swaybg_client_destroy;
wl_client_add_destroy_listener(config->swaybg_client,
&config->swaybg_client_destroy);
pid_t pid = fork();
if (pid < 0) {
sway_log_errno(SWAY_ERROR, "fork failed");
return false;
} else if (pid == 0) {
restore_nofile_limit();
pid = fork();
if (pid < 0) {
sway_log_errno(SWAY_ERROR, "fork failed");
_exit(EXIT_FAILURE);
} else if (pid == 0) {
if (!sway_set_cloexec(sockets[1], false)) {
_exit(EXIT_FAILURE);
}
char wayland_socket_str[16];
snprintf(wayland_socket_str, sizeof(wayland_socket_str),
"%d", sockets[1]);
setenv("WAYLAND_SOCKET", wayland_socket_str, true);
execvp(command[0], command);
sway_log_errno(SWAY_ERROR, "failed to execute '%s' "
"(background configuration probably not applied)",
command[0]);
_exit(EXIT_FAILURE);
}
_exit(EXIT_SUCCESS);
}
if (close(sockets[1]) != 0) {
sway_log_errno(SWAY_ERROR, "close failed");
return false;
}
int fork_status = 0;
if (waitpid(pid, &fork_status, 0) < 0) {
sway_log_errno(SWAY_ERROR, "waitpid failed");
return false;
}
return WIFEXITED(fork_status) && WEXITSTATUS(fork_status) == EXIT_SUCCESS;
}
bool spawn_swaybg(void) {
if (!config->swaybg_command) {
return true;
}
size_t length = 2;
for (int i = 0; i < config->output_configs->length; i++) {
struct output_config *oc = config->output_configs->items[i];
if (!oc->background) {
continue;
}
if (strcmp(oc->background_option, "solid_color") == 0) {
length += 4;
} else if (oc->background_fallback) {
length += 8;
} else {
length += 6;
}
}
char **cmd = calloc(length, sizeof(char *));
if (!cmd) {
sway_log(SWAY_ERROR, "Failed to allocate spawn_swaybg command");
return false;
}
size_t i = 0;
cmd[i++] = config->swaybg_command;
for (int j = 0; j < config->output_configs->length; j++) {
struct output_config *oc = config->output_configs->items[j];
if (!oc->background) {
continue;
}
if (strcmp(oc->background_option, "solid_color") == 0) {
cmd[i++] = "-o";
cmd[i++] = oc->name;
cmd[i++] = "-c";
cmd[i++] = oc->background;
} else {
cmd[i++] = "-o";
cmd[i++] = oc->name;
cmd[i++] = "-i";
cmd[i++] = oc->background;
cmd[i++] = "-m";
cmd[i++] = oc->background_option;
if (oc->background_fallback) {
cmd[i++] = "-c";
cmd[i++] = oc->background_fallback;
}
}
assert(i <= length);
}
for (size_t k = 0; k < i; k++) {
sway_log(SWAY_DEBUG, "spawn_swaybg cmd[%zd] = %s", k, cmd[k]);
}
bool result = _spawn_swaybg(cmd);
free(cmd);
return result;
}