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picom/src/compton.c
Yuxuan Shui a69ed89114
Treat first frame after redirection differently 
Because first frame no window has their pixmap bound, which doesn't
happen in frames after the first. If a window is unmapped in that frame,
the compositor will try to render a window with no pixmap bound if
fading is enabled.

Now we keep track if we are in the first frame, and if that's the case
we skip fading in unmap/destroy.

Fixes #239, bug number 2

Signed-off-by: Yuxuan Shui <yshuiv7@gmail.com>
2019-09-29 00:40:09 +01:00

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// SPDX-License-Identifier: MIT
/*
* Compton - a compositor for X11
*
* Based on `xcompmgr` - Copyright (c) 2003, Keith Packard
*
* Copyright (c) 2011-2013, Christopher Jeffrey
* See LICENSE-mit for more information.
*
*/
#include <X11/Xlib-xcb.h>
#include <X11/Xlib.h>
#include <X11/Xutil.h>
#include <X11/extensions/sync.h>
#include <fcntl.h>
#include <inttypes.h>
#include <stdio.h>
#include <string.h>
#include <xcb/composite.h>
#include <xcb/damage.h>
#include <xcb/present.h>
#include <xcb/randr.h>
#include <xcb/render.h>
#include <xcb/sync.h>
#include <xcb/xfixes.h>
#include <xcb/xinerama.h>
#include <ev.h>
#include <test.h>
#include "common.h"
#include "compiler.h"
#include "compton.h"
#include "config.h"
#include "err.h"
#include "kernel.h"
#ifdef CONFIG_OPENGL
#include "opengl.h"
#endif
#include "backend/backend.h"
#include "c2.h"
#include "config.h"
#include "diagnostic.h"
#include "log.h"
#include "region.h"
#include "render.h"
#include "types.h"
#include "utils.h"
#include "win.h"
#include "x.h"
#ifdef CONFIG_DBUS
#include "dbus.h"
#endif
#include "atom.h"
#include "event.h"
#include "list.h"
#include "options.h"
#include "uthash_extra.h"
/// Get session_t pointer from a pointer to a member of session_t
#define session_ptr(ptr, member) \
({ \
const __typeof__(((session_t *)0)->member) *__mptr = (ptr); \
(session_t *)((char *)__mptr - offsetof(session_t, member)); \
})
static const long SWOPTI_TOLERANCE = 3000;
static bool must_use redirect_start(session_t *ps);
static void unredirect(session_t *ps);
// === Global constants ===
/// Name strings for window types.
const char *const WINTYPES[NUM_WINTYPES] = {
"unknown", "desktop", "dock", "toolbar", "menu",
"utility", "splash", "dialog", "normal", "dropdown_menu",
"popup_menu", "tooltip", "notify", "combo", "dnd",
};
/// Names of backends.
const char *const BACKEND_STRS[] = {[BKEND_XRENDER] = "xrender",
[BKEND_GLX] = "glx",
[BKEND_XR_GLX_HYBRID] = "xr_glx_hybrid",
[BKEND_DUMMY] = "dummy",
NULL};
// === Global variables ===
/// Pointer to current session, as a global variable. Only used by
/// xerror(), which could not have a pointer to current session passed in.
/// XXX Limit what xerror can access by not having this pointer
session_t *ps_g = NULL;
void set_root_flags(session_t *ps, uint64_t flags) {
ps->root_flags |= flags;
}
void quit_compton(session_t *ps) {
ps->quit = true;
ev_break(ps->loop, EVBREAK_ALL);
}
/**
* Free Xinerama screen info.
*
* XXX consider moving to x.c
*/
static inline void free_xinerama_info(session_t *ps) {
if (ps->xinerama_scr_regs) {
for (int i = 0; i < ps->xinerama_nscrs; ++i)
pixman_region32_fini(&ps->xinerama_scr_regs[i]);
free(ps->xinerama_scr_regs);
}
ps->xinerama_nscrs = 0;
}
/**
* Get current system clock in milliseconds.
*/
static inline int64_t get_time_ms(void) {
struct timespec tp;
clock_gettime(CLOCK_MONOTONIC, &tp);
return (int64_t)tp.tv_sec * 1000 + (int64_t)tp.tv_nsec / 1000000;
}
// XXX Move to x.c
void cxinerama_upd_scrs(session_t *ps) {
// XXX Consider deprecating Xinerama, switch to RandR when necessary
free_xinerama_info(ps);
if (!ps->o.xinerama_shadow_crop || !ps->xinerama_exists)
return;
xcb_xinerama_is_active_reply_t *active =
xcb_xinerama_is_active_reply(ps->c, xcb_xinerama_is_active(ps->c), NULL);
if (!active || !active->state) {
free(active);
return;
}
free(active);
auto xinerama_scrs =
xcb_xinerama_query_screens_reply(ps->c, xcb_xinerama_query_screens(ps->c), NULL);
if (!xinerama_scrs) {
return;
}
xcb_xinerama_screen_info_t *scrs =
xcb_xinerama_query_screens_screen_info(xinerama_scrs);
ps->xinerama_nscrs = xcb_xinerama_query_screens_screen_info_length(xinerama_scrs);
ps->xinerama_scr_regs = ccalloc(ps->xinerama_nscrs, region_t);
for (int i = 0; i < ps->xinerama_nscrs; ++i) {
const xcb_xinerama_screen_info_t *const s = &scrs[i];
pixman_region32_init_rect(&ps->xinerama_scr_regs[i], s->x_org, s->y_org,
s->width, s->height);
}
free(xinerama_scrs);
}
/**
* Find matched window.
*
* XXX move to win.c
*/
static inline struct managed_win *find_win_all(session_t *ps, const xcb_window_t wid) {
if (!wid || PointerRoot == wid || wid == ps->root || wid == ps->overlay)
return NULL;
auto w = find_managed_win(ps, wid);
if (!w)
w = find_toplevel(ps, wid);
if (!w)
w = find_toplevel2(ps, wid);
return w;
}
void queue_redraw(session_t *ps) {
// If --benchmark is used, redraw is always queued
if (!ps->redraw_needed && !ps->o.benchmark) {
ev_idle_start(ps->loop, &ps->draw_idle);
}
ps->redraw_needed = true;
}
/**
* Get a region of the screen size.
*/
static inline void get_screen_region(session_t *ps, region_t *res) {
pixman_box32_t b = {.x1 = 0, .y1 = 0, .x2 = ps->root_width, .y2 = ps->root_height};
pixman_region32_fini(res);
pixman_region32_init_rects(res, &b, 1);
}
void add_damage(session_t *ps, const region_t *damage) {
// Ignore damage when screen isn't redirected
if (!ps->redirected)
return;
if (!damage)
return;
pixman_region32_union(ps->damage, ps->damage, (region_t *)damage);
}
// === Fading ===
/**
* Get the time left before next fading point.
*
* In milliseconds.
*/
static double fade_timeout(session_t *ps) {
auto now = get_time_ms();
if (ps->o.fade_delta + ps->fade_time < now)
return 0;
auto diff = ps->o.fade_delta + ps->fade_time - now;
diff = clamp(diff, 0, ps->o.fade_delta * 2);
return (double)diff / 1000.0;
}
/**
* Run fading on a window.
*
* @param steps steps of fading
* @return whether we are still in fading mode
*/
static bool run_fade(session_t *ps, struct managed_win **_w, long steps) {
auto w = *_w;
if (w->state == WSTATE_MAPPED || w->state == WSTATE_UNMAPPED) {
// We are not fading
assert(w->opacity_target == w->opacity);
return false;
}
if (!win_should_fade(ps, w)) {
log_debug("Window %#010x %s doesn't need fading", w->base.id, w->name);
w->opacity = w->opacity_target;
}
if (w->opacity == w->opacity_target) {
// We have reached target opacity.
// We don't call win_check_fade_finished here because that could destroy
// the window, but we still need the damage info from this window
log_debug("Fading finished for window %#010x %s", w->base.id, w->name);
return false;
}
if (steps) {
if (w->opacity < w->opacity_target) {
w->opacity = clamp(w->opacity + ps->o.fade_in_step * (double)steps,
0.0, w->opacity_target);
} else {
w->opacity = clamp(w->opacity - ps->o.fade_out_step * (double)steps,
w->opacity_target, 1);
}
}
// Note even if opacity == opacity_target here, we still want to run preprocess
// one last time to finish state transition. So return true in that case too.
return true;
}
// === Error handling ===
void discard_ignore(session_t *ps, unsigned long sequence) {
while (ps->ignore_head) {
if (sequence > ps->ignore_head->sequence) {
ignore_t *next = ps->ignore_head->next;
free(ps->ignore_head);
ps->ignore_head = next;
if (!ps->ignore_head) {
ps->ignore_tail = &ps->ignore_head;
}
} else {
break;
}
}
}
static int should_ignore(session_t *ps, unsigned long sequence) {
discard_ignore(ps, sequence);
return ps->ignore_head && ps->ignore_head->sequence == sequence;
}
// === Windows ===
/**
* Determine the event mask for a window.
*/
uint32_t determine_evmask(session_t *ps, xcb_window_t wid, win_evmode_t mode) {
uint32_t evmask = 0;
struct managed_win *w = NULL;
// Check if it's a mapped frame window
if (WIN_EVMODE_FRAME == mode ||
((w = find_managed_win(ps, wid)) && w->a.map_state == XCB_MAP_STATE_VIEWABLE)) {
evmask |= XCB_EVENT_MASK_PROPERTY_CHANGE;
if (!ps->o.use_ewmh_active_win) {
evmask |= XCB_EVENT_MASK_FOCUS_CHANGE;
}
}
// Check if it's a mapped client window
if (WIN_EVMODE_CLIENT == mode ||
((w = find_toplevel(ps, wid)) && w->a.map_state == XCB_MAP_STATE_VIEWABLE)) {
if (ps->o.frame_opacity > 0 || ps->o.track_wdata || ps->track_atom_lst ||
ps->o.detect_client_opacity)
evmask |= XCB_EVENT_MASK_PROPERTY_CHANGE;
}
return evmask;
}
/**
* Update current active window based on EWMH _NET_ACTIVE_WIN.
*
* Does not change anything if we fail to get the attribute or the window
* returned could not be found.
*/
void update_ewmh_active_win(session_t *ps) {
// Search for the window
xcb_window_t wid = wid_get_prop_window(ps, ps->root, ps->atoms->a_NET_ACTIVE_WINDOW);
auto w = find_win_all(ps, wid);
// Mark the window focused. No need to unfocus the previous one.
if (w) {
win_set_focused(ps, w);
}
}
/**
* Recheck currently focused window and set its <code>w->focused</code>
* to true.
*
* @param ps current session
* @return struct _win of currently focused window, NULL if not found
*/
static void recheck_focus(session_t *ps) {
// Use EWMH _NET_ACTIVE_WINDOW if enabled
if (ps->o.use_ewmh_active_win) {
update_ewmh_active_win(ps);
return;
}
// Determine the currently focused window so we can apply appropriate
// opacity on it
xcb_window_t wid = XCB_NONE;
xcb_get_input_focus_reply_t *reply =
xcb_get_input_focus_reply(ps->c, xcb_get_input_focus(ps->c), NULL);
if (reply) {
wid = reply->focus;
free(reply);
}
auto w = find_win_all(ps, wid);
log_trace("%#010" PRIx32 " (%#010lx \"%s\") focused.", wid,
(w ? w->base.id : XCB_NONE), (w ? w->name : NULL));
// And we set the focus state here
if (w) {
win_set_focused(ps, w);
return;
}
}
/**
* Look for the client window of a particular window.
*/
xcb_window_t find_client_win(session_t *ps, xcb_window_t w) {
if (wid_has_prop(ps, w, ps->atoms->aWM_STATE)) {
return w;
}
xcb_query_tree_reply_t *reply =
xcb_query_tree_reply(ps->c, xcb_query_tree(ps->c, w), NULL);
if (!reply)
return 0;
xcb_window_t *children = xcb_query_tree_children(reply);
int nchildren = xcb_query_tree_children_length(reply);
int i;
xcb_window_t ret = 0;
for (i = 0; i < nchildren; ++i) {
if ((ret = find_client_win(ps, children[i])))
break;
}
free(reply);
return ret;
}
static void handle_root_flags(session_t *ps) {
if ((ps->root_flags & ROOT_FLAGS_SCREEN_CHANGE) != 0) {
if (ps->o.xinerama_shadow_crop) {
cxinerama_upd_scrs(ps);
}
if (ps->o.sw_opti && !ps->o.refresh_rate) {
update_refresh_rate(ps);
if (!ps->refresh_rate) {
log_warn("Refresh rate detection failed. swopti will be "
"temporarily disabled");
}
}
ps->root_flags &= ~(uint64_t)ROOT_FLAGS_SCREEN_CHANGE;
}
}
static struct managed_win *paint_preprocess(session_t *ps, bool *fade_running) {
// XXX need better, more general name for `fade_running`. It really
// means if fade is still ongoing after the current frame is rendered
struct managed_win *bottom = NULL;
*fade_running = false;
// Fading step calculation
long steps = 0L;
auto now = get_time_ms();
if (ps->fade_time) {
assert(now >= ps->fade_time);
steps = (now - ps->fade_time) / ps->o.fade_delta;
} else {
// Reset fade_time if unset
ps->fade_time = get_time_ms();
steps = 0L;
}
ps->fade_time += steps * ps->o.fade_delta;
// First, let's process fading
win_stack_foreach_managed_safe(w, &ps->window_stack) {
const winmode_t mode_old = w->mode;
const bool was_painted = w->to_paint;
const double opacity_old = w->opacity;
if (win_should_dim(ps, w) != w->dim) {
w->dim = win_should_dim(ps, w);
add_damage_from_win(ps, w);
}
// Run fading
if (run_fade(ps, &w, steps)) {
*fade_running = true;
}
// Add window to damaged area if its opacity changes
// If was_painted == false, and to_paint is also false, we don't care
// If was_painted == false, but to_paint is true, damage will be added in
// the loop below
if (was_painted && w->opacity != opacity_old) {
add_damage_from_win(ps, w);
}
if (win_check_fade_finished(ps, w)) {
// the window has been destroyed because fading finished
continue;
}
if (win_has_frame(w)) {
w->frame_opacity = ps->o.frame_opacity;
} else {
w->frame_opacity = 1.0;
}
// Update window mode
w->mode = win_calc_mode(w);
// Destroy all reg_ignore above when frame opaque state changes on
// SOLID mode
if (was_painted && w->mode != mode_old) {
w->reg_ignore_valid = false;
}
}
// Opacity will not change, from now on.
rc_region_t *last_reg_ignore = rc_region_new();
bool unredir_possible = false;
// Track whether it's the highest window to paint
bool is_highest = true;
bool reg_ignore_valid = true;
win_stack_foreach_managed(w, &ps->window_stack) {
__label__ skip_window;
bool to_paint = true;
// w->to_paint remembers whether this window is painted last time
const bool was_painted = w->to_paint;
// Destroy reg_ignore if some window above us invalidated it
if (!reg_ignore_valid) {
rc_region_unref(&w->reg_ignore);
}
// Clear flags if we are not using experimental backends
if (!ps->o.experimental_backends) {
w->flags = 0;
}
// log_trace("%d %d %s", w->a.map_state, w->ever_damaged, w->name);
// Give up if it's not damaged or invisible, or it's unmapped and its
// pixmap is gone (for example due to a ConfigureNotify), or when it's
// excluded
if (!w->ever_damaged || w->g.x + w->g.width < 1 ||
w->g.y + w->g.height < 1 || w->g.x >= ps->root_width ||
w->g.y >= ps->root_height || w->state == WSTATE_UNMAPPED ||
((double)w->opacity * MAX_ALPHA < 1 && !w->blur_background) ||
w->paint_excluded) {
// TODO: for consistency, even a window has 0 opacity, we still
// probably need to blur its background, so to_paint shouldn't be
// false for them.
to_paint = false;
}
if (w->base.id == ps->debug_window || w->client_win == ps->debug_window) {
to_paint = false;
}
if ((w->flags & WIN_FLAGS_IMAGE_ERROR) != 0) {
to_paint = false;
}
// log_trace("%s %d %d %d", w->name, to_paint, w->opacity,
// w->paint_excluded);
// Add window to damaged area if its painting status changes
// or opacity changes
if (to_paint != was_painted) {
w->reg_ignore_valid = false;
add_damage_from_win(ps, w);
}
// to_paint will never change after this point
if (!to_paint) {
goto skip_window;
}
// Calculate shadow opacity
w->shadow_opacity = ps->o.shadow_opacity * w->opacity * ps->o.frame_opacity;
// Generate ignore region for painting to reduce GPU load
if (!w->reg_ignore) {
w->reg_ignore = rc_region_ref(last_reg_ignore);
}
// If the window is solid, we add the window region to the
// ignored region
// Otherwise last_reg_ignore shouldn't change
if (w->mode == WMODE_SOLID && !ps->o.force_win_blend) {
region_t *tmp = rc_region_new();
if (w->frame_opacity == 1)
*tmp = win_get_bounding_shape_global_by_val(w);
else {
win_get_region_noframe_local(w, tmp);
pixman_region32_intersect(tmp, tmp, &w->bounding_shape);
pixman_region32_translate(tmp, w->g.x, w->g.y);
}
pixman_region32_union(tmp, tmp, last_reg_ignore);
rc_region_unref(&last_reg_ignore);
last_reg_ignore = tmp;
}
// (Un)redirect screen
// We could definitely unredirect the screen when there's no window to
// paint, but this is typically unnecessary, may cause flickering when
// fading is enabled, and could create inconsistency when the wallpaper
// is not correctly set.
if (ps->o.unredir_if_possible && is_highest) {
if (w->mode == WMODE_SOLID && !ps->o.force_win_blend &&
win_is_fullscreen(ps, w) && !w->unredir_if_possible_excluded) {
unredir_possible = true;
}
}
w->prev_trans = bottom;
if (bottom) {
w->stacking_rank = bottom->stacking_rank + 1;
} else {
w->stacking_rank = 0;
}
bottom = w;
// If the screen is not redirected and the window has redir_ignore set,
// this window should not cause the screen to become redirected
if (!(ps->o.wintype_option[w->window_type].redir_ignore && !ps->redirected)) {
is_highest = false;
}
skip_window:
reg_ignore_valid = reg_ignore_valid && w->reg_ignore_valid;
w->reg_ignore_valid = true;
// Avoid setting w->to_paint if w is freed
if (w) {
w->to_paint = to_paint;
}
}
rc_region_unref(&last_reg_ignore);
// If possible, unredirect all windows and stop painting
if (ps->o.redirected_force != UNSET) {
unredir_possible = !ps->o.redirected_force;
} else if (ps->o.unredir_if_possible && is_highest && !ps->redirected) {
// If there's no window to paint, and the screen isn't redirected,
// don't redirect it.
unredir_possible = true;
}
if (unredir_possible) {
if (ps->redirected) {
if (!ps->o.unredir_if_possible_delay || ps->tmout_unredir_hit) {
unredirect(ps);
} else if (!ev_is_active(&ps->unredir_timer)) {
ev_timer_set(
&ps->unredir_timer,
(double)ps->o.unredir_if_possible_delay / 1000.0, 0);
ev_timer_start(ps->loop, &ps->unredir_timer);
}
}
} else {
ev_timer_stop(ps->loop, &ps->unredir_timer);
if (!ps->redirected) {
if (!redirect_start(ps)) {
return NULL;
}
}
}
return bottom;
}
/**
* Rebuild cached <code>screen_reg</code>.
*/
static void rebuild_screen_reg(session_t *ps) {
get_screen_region(ps, &ps->screen_reg);
}
/**
* Rebuild <code>shadow_exclude_reg</code>.
*/
static void rebuild_shadow_exclude_reg(session_t *ps) {
bool ret = parse_geometry(ps, ps->o.shadow_exclude_reg_str, &ps->shadow_exclude_reg);
if (!ret)
exit(1);
}
/// Free up all the images and deinit the backend
static void destroy_backend(session_t *ps) {
win_stack_foreach_managed_safe(w, &ps->window_stack) {
// Wrapping up fading in progress
if (win_skip_fading(ps, w)) {
// `w` is freed by win_skip_fading
continue;
}
if (ps->backend_data) {
if (w->state == WSTATE_MAPPED) {
win_release_images(ps->backend_data, w);
} else {
assert(!w->win_image);
assert(!w->shadow_image);
}
}
free_paint(ps, &w->paint);
}
if (ps->backend_data && ps->root_image) {
ps->backend_data->ops->release_image(ps->backend_data, ps->root_image);
ps->root_image = NULL;
}
if (ps->backend_data) {
// deinit backend
if (ps->backend_blur_context) {
ps->backend_data->ops->destroy_blur_context(
ps->backend_data, ps->backend_blur_context);
ps->backend_blur_context = NULL;
}
ps->backend_data->ops->deinit(ps->backend_data);
ps->backend_data = NULL;
}
}
static bool initialize_blur(session_t *ps) {
struct kernel_blur_args kargs;
struct gaussian_blur_args gargs;
struct box_blur_args bargs;
void *args = NULL;
switch (ps->o.blur_method) {
case BLUR_METHOD_BOX:
bargs.size = ps->o.blur_radius;
args = (void *)&bargs;
break;
case BLUR_METHOD_KERNEL:
kargs.kernel_count = ps->o.blur_kernel_count;
kargs.kernels = ps->o.blur_kerns;
args = (void *)&kargs;
break;
case BLUR_METHOD_GAUSSIAN:
gargs.size = ps->o.blur_radius;
gargs.deviation = ps->o.blur_deviation;
args = (void *)&gargs;
break;
default: return true;
}
ps->backend_blur_context = ps->backend_data->ops->create_blur_context(
ps->backend_data, ps->o.blur_method, args);
return ps->backend_blur_context != NULL;
}
/// Init the backend and bind all the window pixmap to backend images
static bool initialize_backend(session_t *ps) {
if (ps->o.experimental_backends) {
assert(!ps->backend_data);
// Reinitialize win_data
if (backend_list[ps->o.backend]) {
ps->backend_data = backend_list[ps->o.backend]->init(ps);
} else {
log_error("Backend \"%s\" is not available as part of the "
"experimental backends.",
BACKEND_STRS[ps->o.backend]);
}
if (!ps->backend_data) {
log_fatal("Failed to initialize backend, aborting...");
quit_compton(ps);
return false;
}
ps->backend_data->ops = backend_list[ps->o.backend];
if (!initialize_blur(ps)) {
log_fatal("Failed to prepare for background blur, aborting...");
ps->backend_data->ops->deinit(ps->backend_data);
ps->backend_data = NULL;
quit_compton(ps);
return false;
}
// window_stack shouldn't include window that's
// not in the hash table at this point. Since
// there cannot be any fading windows.
HASH_ITER2(ps->windows, _w) {
if (!_w->managed) {
continue;
}
auto w = (struct managed_win *)_w;
assert(w->state == WSTATE_MAPPED || w->state == WSTATE_UNMAPPED);
if (w->state == WSTATE_MAPPED) {
// We need to reacquire image
log_debug("Marking window %#010x (%s) for update after "
"redirection",
w->base.id, w->name);
if (w->shadow) {
struct color c = {
.red = ps->o.shadow_red,
.green = ps->o.shadow_green,
.blue = ps->o.shadow_blue,
.alpha = ps->o.shadow_opacity,
};
win_bind_shadow(ps->backend_data, w, c,
ps->gaussian_map);
}
w->flags |= WIN_FLAGS_PIXMAP_STALE;
ps->pending_updates = true;
}
}
}
// The old backends binds pixmap lazily, nothing to do here
return true;
}
/// Handle configure event of a root window
void configure_root(session_t *ps, int width, int height) {
log_info("Root configuration changed, new geometry: %dx%d", width, height);
bool has_root_change = false;
if (ps->redirected) {
// On root window changes
if (ps->o.experimental_backends) {
assert(ps->backend_data);
has_root_change = ps->backend_data->ops->root_change != NULL;
} else {
// Old backend can handle root change
has_root_change = true;
}
if (!has_root_change) {
// deinit/reinit backend and free up resources if the backend
// cannot handle root change
destroy_backend(ps);
}
free_paint(ps, &ps->tgt_buffer);
}
ps->root_width = width;
ps->root_height = height;
rebuild_screen_reg(ps);
rebuild_shadow_exclude_reg(ps);
// Invalidate reg_ignore from the top
auto top_w = win_stack_find_next_managed(ps, &ps->window_stack);
if (top_w) {
rc_region_unref(&top_w->reg_ignore);
top_w->reg_ignore_valid = false;
}
if (ps->redirected) {
for (int i = 0; i < ps->ndamage; i++) {
pixman_region32_clear(&ps->damage_ring[i]);
}
ps->damage = ps->damage_ring + ps->ndamage - 1;
#ifdef CONFIG_OPENGL
// GLX root change callback
if (BKEND_GLX == ps->o.backend && !ps->o.experimental_backends) {
glx_on_root_change(ps);
}
#endif
if (has_root_change) {
if (ps->backend_data != NULL) {
ps->backend_data->ops->root_change(ps->backend_data, ps);
}
// Old backend's root_change is not a specific function
} else {
if (!initialize_backend(ps)) {
log_fatal("Failed to re-initialize backend after root "
"change, aborting...");
ps->quit = true;
// TODO only event handlers should request ev_break,
// otherwise it's too hard to keep track of what can break
// the event loop
ev_break(ps->loop, EVBREAK_ALL);
return;
}
}
force_repaint(ps);
}
return;
}
void root_damaged(session_t *ps) {
if (ps->root_tile_paint.pixmap) {
free_root_tile(ps);
}
if (!ps->redirected) {
return;
}
if (ps->backend_data) {
if (ps->root_image) {
ps->backend_data->ops->release_image(ps->backend_data, ps->root_image);
}
auto pixmap = x_get_root_back_pixmap(ps);
if (pixmap != XCB_NONE) {
ps->root_image = ps->backend_data->ops->bind_pixmap(
ps->backend_data, pixmap, x_get_visual_info(ps->c, ps->vis), false);
ps->backend_data->ops->image_op(
ps->backend_data, IMAGE_OP_RESIZE_TILE, ps->root_image, NULL,
NULL, (int[]){ps->root_width, ps->root_height});
}
}
// Mark screen damaged
force_repaint(ps);
}
/**
* Xlib error handler function.
*/
static int xerror(Display attr_unused *dpy, XErrorEvent *ev) {
if (!should_ignore(ps_g, ev->serial))
x_print_error(ev->serial, ev->request_code, ev->minor_code, ev->error_code);
return 0;
}
/**
* XCB error handler function.
*/
void ev_xcb_error(session_t *ps, xcb_generic_error_t *err) {
if (!should_ignore(ps, err->sequence))
x_print_error(err->sequence, err->major_code, err->minor_code, err->error_code);
}
/**
* Force a full-screen repaint.
*/
void force_repaint(session_t *ps) {
assert(pixman_region32_not_empty(&ps->screen_reg));
queue_redraw(ps);
add_damage(ps, &ps->screen_reg);
}
#ifdef CONFIG_DBUS
/** @name DBus hooks
*/
///@{
/**
* Set no_fading_openclose option.
*
* Don't affect fading already in progress
*/
void opts_set_no_fading_openclose(session_t *ps, bool newval) {
ps->o.no_fading_openclose = newval;
}
//!@}
#endif
/**
* Register a window as symbol, and initialize GLX context if wanted.
*/
static bool register_cm(session_t *ps) {
assert(!ps->reg_win);
ps->reg_win = x_new_id(ps->c);
auto e = xcb_request_check(
ps->c, xcb_create_window_checked(ps->c, XCB_COPY_FROM_PARENT, ps->reg_win, ps->root,
0, 0, 1, 1, 0, XCB_NONE, ps->vis, 0, NULL));
if (e) {
log_fatal("Failed to create window.");
free(e);
return false;
}
{
XClassHint *h = XAllocClassHint();
if (h) {
h->res_name = "compton";
h->res_class = "compton";
}
Xutf8SetWMProperties(ps->dpy, ps->reg_win, "compton", "compton", NULL, 0,
NULL, NULL, h);
XFree(h);
}
// Set _NET_WM_PID
{
auto pid = getpid();
xcb_change_property(ps->c, XCB_PROP_MODE_REPLACE, ps->reg_win,
ps->atoms->a_NET_WM_PID, XCB_ATOM_CARDINAL, 32, 1, &pid);
}
// Set COMPTON_VERSION
if (!wid_set_text_prop(ps, ps->reg_win, get_atom(ps->atoms, "COMPTON_VERSION"),
COMPTON_VERSION)) {
log_error("Failed to set COMPTON_VERSION.");
}
// Acquire X Selection _NET_WM_CM_S?
if (!ps->o.no_x_selection) {
const char register_prop[] = "_NET_WM_CM_S";
xcb_atom_t atom;
char *buf = NULL;
if (asprintf(&buf, "%s%d", register_prop, ps->scr) < 0) {
log_fatal("Failed to allocate memory");
return false;
}
atom = get_atom(ps->atoms, buf);
free(buf);
xcb_get_selection_owner_reply_t *reply = xcb_get_selection_owner_reply(
ps->c, xcb_get_selection_owner(ps->c, atom), NULL);
if (reply && reply->owner != XCB_NONE) {
free(reply);
log_fatal("Another composite manager is already running");
return false;
}
free(reply);
xcb_set_selection_owner(ps->c, ps->reg_win, atom, 0);
}
return true;
}
/**
* Write PID to a file.
*/
static inline bool write_pid(session_t *ps) {
if (!ps->o.write_pid_path)
return true;
FILE *f = fopen(ps->o.write_pid_path, "w");
if (unlikely(!f)) {
log_error("Failed to write PID to \"%s\".", ps->o.write_pid_path);
return false;
}
fprintf(f, "%ld\n", (long)getpid());
fclose(f);
return true;
}
/**
* Update refresh rate info with X Randr extension.
*/
void update_refresh_rate(session_t *ps) {
xcb_randr_get_screen_info_reply_t *randr_info = xcb_randr_get_screen_info_reply(
ps->c, xcb_randr_get_screen_info(ps->c, ps->root), NULL);
if (!randr_info)
return;
ps->refresh_rate = randr_info->rate;
free(randr_info);
if (ps->refresh_rate)
ps->refresh_intv = US_PER_SEC / ps->refresh_rate;
else
ps->refresh_intv = 0;
}
/**
* Initialize refresh-rated based software optimization.
*
* @return true for success, false otherwise
*/
static bool swopti_init(session_t *ps) {
log_warn("--sw-opti is going to be deprecated. If you get real benefits from "
"using "
"this option, please open an issue to let us know.");
// Prepare refresh rate
// Check if user provides one
ps->refresh_rate = ps->o.refresh_rate;
if (ps->refresh_rate)
ps->refresh_intv = US_PER_SEC / ps->refresh_rate;
// Auto-detect refresh rate otherwise
if (!ps->refresh_rate && ps->randr_exists) {
update_refresh_rate(ps);
}
// Turn off vsync_sw if we can't get the refresh rate
if (!ps->refresh_rate)
return false;
return true;
}
/**
* Modify a struct timeval timeout value to render at a fixed pace.
*
* @param ps current session
* @param[in,out] ptv pointer to the timeout
*/
static double swopti_handle_timeout(session_t *ps) {
if (!ps->refresh_intv)
return 0;
// Get the microsecond offset of the time when the we reach the timeout
// I don't think a 32-bit long could overflow here.
long offset = (get_time_timeval().tv_usec - ps->paint_tm_offset) % ps->refresh_intv;
// XXX this formula dones't work if refresh rate is not a whole number
if (offset < 0)
offset += ps->refresh_intv;
// If the target time is sufficiently close to a refresh time, don't add
// an offset, to avoid certain blocking conditions.
if (offset < SWOPTI_TOLERANCE || offset > ps->refresh_intv - SWOPTI_TOLERANCE)
return 0;
// Add an offset so we wait until the next refresh after timeout
return (double)(ps->refresh_intv - offset) / 1e6;
}
/**
* Initialize X composite overlay window.
*/
static bool init_overlay(session_t *ps) {
xcb_composite_get_overlay_window_reply_t *reply =
xcb_composite_get_overlay_window_reply(
ps->c, xcb_composite_get_overlay_window(ps->c, ps->root), NULL);
if (reply) {
ps->overlay = reply->overlay_win;
free(reply);
} else {
ps->overlay = XCB_NONE;
}
if (ps->overlay) {
// Set window region of the overlay window, code stolen from
// compiz-0.8.8
if (!XCB_AWAIT_VOID(xcb_shape_mask, ps->c, XCB_SHAPE_SO_SET,
XCB_SHAPE_SK_BOUNDING, ps->overlay, 0, 0, 0)) {
log_fatal("Failed to set the bounding shape of overlay, giving "
"up.");
return false;
}
if (!XCB_AWAIT_VOID(xcb_shape_rectangles, ps->c, XCB_SHAPE_SO_SET,
XCB_SHAPE_SK_INPUT, XCB_CLIP_ORDERING_UNSORTED,
ps->overlay, 0, 0, 0, NULL)) {
log_fatal("Failed to set the input shape of overlay, giving up.");
return false;
}
// Listen to Expose events on the overlay
xcb_change_window_attributes(ps->c, ps->overlay, XCB_CW_EVENT_MASK,
(const uint32_t[]){XCB_EVENT_MASK_EXPOSURE});
// Retrieve DamageNotify on root window if we are painting on an
// overlay
// root_damage = XDamageCreate(ps->dpy, root, XDamageReportNonEmpty);
// Unmap the overlay, we will map it when needed in redirect_start
XCB_AWAIT_VOID(xcb_unmap_window, ps->c, ps->overlay);
} else {
log_error("Cannot get X Composite overlay window. Falling "
"back to painting on root window.");
}
log_debug("overlay = %#010x", ps->overlay);
return true;
}
static bool init_debug_window(session_t *ps) {
xcb_colormap_t colormap = x_new_id(ps->c);
ps->debug_window = x_new_id(ps->c);
auto err = xcb_request_check(
ps->c, xcb_create_colormap_checked(ps->c, XCB_COLORMAP_ALLOC_NONE, colormap,
ps->root, ps->vis));
if (err) {
goto err_out;
}
err = xcb_request_check(
ps->c, xcb_create_window_checked(ps->c, (uint8_t)ps->depth, ps->debug_window,
ps->root, 0, 0, to_u16_checked(ps->root_width),
to_u16_checked(ps->root_height), 0,
XCB_WINDOW_CLASS_INPUT_OUTPUT, ps->vis,
XCB_CW_COLORMAP, (uint32_t[]){colormap, 0}));
if (err) {
goto err_out;
}
err = xcb_request_check(ps->c, xcb_map_window(ps->c, ps->debug_window));
if (err) {
goto err_out;
}
return true;
err_out:
free(err);
return false;
}
xcb_window_t session_get_target_window(session_t *ps) {
if (ps->o.debug_mode) {
return ps->debug_window;
}
return ps->overlay != XCB_NONE ? ps->overlay : ps->root;
}
static inline uint8_t session_redirection_mode(session_t *ps) {
if (ps->o.debug_mode || !backend_list[ps->o.backend]->present) {
// If the backend is not rendering to the screen, or if the backend
// doesn't render anything, we don't need to take over the screen.
return XCB_COMPOSITE_REDIRECT_AUTOMATIC;
}
return XCB_COMPOSITE_REDIRECT_MANUAL;
}
/**
* Redirect all windows.
*
* @return whether the operation succeeded or not
*/
static bool redirect_start(session_t *ps) {
assert(!ps->redirected);
log_debug("Redirecting the screen.");
// Map overlay window. Done firstly according to this:
// https://bugzilla.gnome.org/show_bug.cgi?id=597014
if (ps->overlay) {
xcb_map_window(ps->c, ps->overlay);
}
xcb_composite_redirect_subwindows(ps->c, ps->root, session_redirection_mode(ps));
x_sync(ps->c);
if (!initialize_backend(ps)) {
return false;
}
if (ps->o.experimental_backends) {
assert(ps->backend_data);
ps->ndamage = ps->backend_data->ops->max_buffer_age;
} else {
ps->ndamage = maximum_buffer_age(ps);
}
ps->damage_ring = ccalloc(ps->ndamage, region_t);
ps->damage = ps->damage_ring + ps->ndamage - 1;
for (int i = 0; i < ps->ndamage; i++) {
pixman_region32_init(&ps->damage_ring[i]);
}
// Must call XSync() here
x_sync(ps->c);
ps->redirected = true;
ps->first_frame = true;
// Re-detect driver since we now have a backend
ps->drivers = detect_driver(ps->c, ps->backend_data, ps->root);
root_damaged(ps);
// Repaint the whole screen
force_repaint(ps);
log_debug("Screen redirected.");
return true;
}
/**
* Unredirect all windows.
*/
static void unredirect(session_t *ps) {
assert(ps->redirected);
log_debug("Unredirecting the screen.");
destroy_backend(ps);
xcb_composite_unredirect_subwindows(ps->c, ps->root, session_redirection_mode(ps));
// Unmap overlay window
if (ps->overlay)
xcb_unmap_window(ps->c, ps->overlay);
// Free the damage ring
for (int i = 0; i < ps->ndamage; ++i) {
pixman_region32_fini(&ps->damage_ring[i]);
}
ps->ndamage = 0;
free(ps->damage_ring);
ps->damage_ring = ps->damage = NULL;
// Must call XSync() here
x_sync(ps->c);
ps->redirected = false;
log_debug("Screen unredirected.");
}
// Handle queued events before we go to sleep
static void handle_queued_x_events(EV_P attr_unused, ev_prepare *w, int revents attr_unused) {
session_t *ps = session_ptr(w, event_check);
xcb_generic_event_t *ev;
while ((ev = xcb_poll_for_queued_event(ps->c))) {
ev_handle(ps, ev);
free(ev);
};
// Flush because if we go into sleep when there is still
// requests in the outgoing buffer, they will not be sent
// for an indefinite amount of time.
// Use XFlush here too, we might still use some Xlib functions
// because OpenGL.
XFlush(ps->dpy);
xcb_flush(ps->c);
int err = xcb_connection_has_error(ps->c);
if (err) {
log_fatal("X11 server connection broke (error %d)", err);
exit(1);
}
}
static void handle_new_windows(session_t *ps) {
list_foreach_safe(struct win, w, &ps->window_stack, stack_neighbour) {
if (w->is_new) {
auto new_w = fill_win(ps, w);
if (!new_w->managed) {
continue;
}
auto mw = (struct managed_win *)new_w;
if (mw->a.map_state == XCB_MAP_STATE_VIEWABLE) {
// Have to map immediately instead of queue window update
// because we need the window's extent right now.
// We can do this because we are in the critical section.
map_win_start(ps, mw);
// This window might be damaged before we called fill_win
// and created the damage handle. And there is no way for
// us to find out. So just blindly mark it damaged
mw->ever_damaged = true;
add_damage_from_win(ps, mw);
}
}
}
}
static void refresh_windows(session_t *ps) {
win_stack_foreach_managed_safe(w, &ps->window_stack) {
win_process_updates(ps, w);
}
}
static void refresh_stale_images(session_t *ps) {
win_stack_foreach_managed(w, &ps->window_stack) {
win_process_flags(ps, w);
}
}
/**
* Unredirection timeout callback.
*/
static void tmout_unredir_callback(EV_P attr_unused, ev_timer *w, int revents attr_unused) {
session_t *ps = session_ptr(w, unredir_timer);
ps->tmout_unredir_hit = true;
queue_redraw(ps);
}
static void fade_timer_callback(EV_P attr_unused, ev_timer *w, int revents attr_unused) {
session_t *ps = session_ptr(w, fade_timer);
queue_redraw(ps);
}
static void handle_pending_updates(EV_P_ struct session *ps) {
if (ps->pending_updates) {
log_debug("Delayed handling of events, entering critical section");
auto e = xcb_request_check(ps->c, xcb_grab_server_checked(ps->c));
if (e) {
log_fatal("failed to grab x server");
x_print_error(e->full_sequence, e->major_code, e->minor_code,
e->error_code);
return quit_compton(ps);
}
ps->server_grabbed = true;
// Catching up with X server
handle_queued_x_events(EV_A_ & ps->event_check, 0);
// Call fill_win on new windows
handle_new_windows(ps);
// Process window updates
refresh_windows(ps);
{
auto r = xcb_get_input_focus_reply(ps->c, xcb_get_input_focus(ps->c), NULL);
if (!ps->active_win || (r && r->focus != ps->active_win->base.id)) {
recheck_focus(ps);
}
free(r);
}
// Refresh pixmaps and shadows
refresh_stale_images(ps);
// Handle screen changes
handle_root_flags(ps);
e = xcb_request_check(ps->c, xcb_ungrab_server_checked(ps->c));
if (e) {
log_fatal("failed to ungrab x server");
x_print_error(e->full_sequence, e->major_code, e->minor_code,
e->error_code);
return quit_compton(ps);
}
ps->server_grabbed = false;
ps->pending_updates = false;
log_debug("Exited critical section");
}
}
static void _draw_callback(EV_P_ session_t *ps, int revents attr_unused) {
handle_pending_updates(EV_A_ ps);
if (ps->first_frame) {
// If we are still rendering the first frame, if some of the windows are
// unmapped/destroyed during the above handle_pending_updates() call, they
// won't have pixmap before we rendered it, causing us to crash.
// But we will only render them if they are in fading. So we just skip
// fading for all windows here.
//
// Using foreach_safe here since skipping fading can cause window to be
// freed if it's destroyed.
win_stack_foreach_managed_safe(w, &ps->window_stack) {
auto _ attr_unused = win_skip_fading(ps, w);
}
}
if (ps->o.benchmark) {
if (ps->o.benchmark_wid) {
auto w = find_managed_win(ps, ps->o.benchmark_wid);
if (!w) {
log_fatal("Couldn't find specified benchmark window.");
exit(1);
}
add_damage_from_win(ps, w);
} else {
force_repaint(ps);
}
}
// TODO have a stripped down version of paint_preprocess that is used when screen
// is not redirected. its sole purpose should be to decide whether the screen
// should be redirected.
bool fade_running = false;
bool was_redirected = ps->redirected;
auto bottom = paint_preprocess(ps, &fade_running);
ps->tmout_unredir_hit = false;
if (!was_redirected && ps->redirected) {
// paint_preprocess redirected the screen, which might change the state of
// some of the windows (e.g. the window image might become stale).
// so we rerun _draw_callback to make sure the rendering decision we make
// is up-to-date, and all the new flags got handled.
//
// TODO This is not ideal, we should try to avoid setting window flags in
// paint_preprocess.
log_debug("Re-run _draw_callback");
return _draw_callback(EV_A_ ps, revents);
}
// Start/stop fade timer depends on whether window are fading
if (!fade_running && ev_is_active(&ps->fade_timer)) {
ev_timer_stop(EV_A_ & ps->fade_timer);
} else if (fade_running && !ev_is_active(&ps->fade_timer)) {
ev_timer_set(&ps->fade_timer, fade_timeout(ps), 0);
ev_timer_start(EV_A_ & ps->fade_timer);
}
// If the screen is unredirected, free all_damage to stop painting
if (ps->redirected && ps->o.stoppaint_force != ON) {
static int paint = 0;
if (ps->o.experimental_backends) {
paint_all_new(ps, bottom, false);
} else {
paint_all(ps, bottom, false);
}
ps->first_frame = false;
paint++;
if (ps->o.benchmark && paint >= ps->o.benchmark)
exit(0);
}
if (!fade_running)
ps->fade_time = 0L;
// TODO xcb_ungrab_server
ps->redraw_needed = false;
}
static void draw_callback(EV_P_ ev_idle *w, int revents) {
// This function is not used if we are using --swopti
session_t *ps = session_ptr(w, draw_idle);
_draw_callback(EV_A_ ps, revents);
// Don't do painting non-stop unless we are in benchmark mode
if (!ps->o.benchmark) {
ev_idle_stop(EV_A_ & ps->draw_idle);
}
}
static void delayed_draw_timer_callback(EV_P_ ev_timer *w, int revents) {
session_t *ps = session_ptr(w, delayed_draw_timer);
_draw_callback(EV_A_ ps, revents);
// We might have stopped the ev_idle in delayed_draw_callback,
// so we restart it if we are in benchmark mode
if (ps->o.benchmark)
ev_idle_start(EV_A_ & ps->draw_idle);
}
static void delayed_draw_callback(EV_P_ ev_idle *w, int revents) {
// This function is only used if we are using --swopti
session_t *ps = session_ptr(w, draw_idle);
assert(ps->redraw_needed);
assert(!ev_is_active(&ps->delayed_draw_timer));
double delay = swopti_handle_timeout(ps);
if (delay < 1e-6) {
if (!ps->o.benchmark) {
ev_idle_stop(EV_A_ & ps->draw_idle);
}
return _draw_callback(EV_A_ ps, revents);
}
// This is a little bit hacky. When we get to this point in code, we need
// to update the screen , but we will only be updating after a delay, So
// we want to stop the ev_idle, so this callback doesn't get call repeatedly
// during the delay, we also want queue_redraw to not restart the ev_idle.
// So we stop ev_idle and leave ps->redraw_needed to be true. (effectively,
// ps->redraw_needed means if redraw is needed or if draw is in progress).
//
// We do this anyway even if we are in benchmark mode. That means we will
// have to restart draw_idle after the draw actually happened when we are in
// benchmark mode.
ev_idle_stop(EV_A_ & ps->draw_idle);
ev_timer_set(&ps->delayed_draw_timer, delay, 0);
ev_timer_start(EV_A_ & ps->delayed_draw_timer);
}
static void x_event_callback(EV_P attr_unused, ev_io *w, int revents attr_unused) {
session_t *ps = (session_t *)w;
xcb_generic_event_t *ev = xcb_poll_for_event(ps->c);
if (ev) {
ev_handle(ps, ev);
free(ev);
}
}
/**
* Turn on the program reset flag.
*
* This will result in compton resetting itself after next paint.
*/
static void reset_enable(EV_P_ ev_signal *w attr_unused, int revents attr_unused) {
log_info("compton is resetting...");
ev_break(EV_A_ EVBREAK_ALL);
}
static void exit_enable(EV_P attr_unused, ev_signal *w, int revents attr_unused) {
session_t *ps = session_ptr(w, int_signal);
log_info("compton is quitting...");
quit_compton(ps);
}
/**
* Initialize a session.
*
* @param argc number of commandline arguments
* @param argv commandline arguments
* @param dpy the X Display
* @param config_file the path to the config file
* @param all_xerros whether we should report all X errors
* @param fork whether we will fork after initialization
*/
static session_t *session_init(int argc, char **argv, Display *dpy,
const char *config_file, bool all_xerrors, bool fork) {
static const session_t s_def = {
.backend_data = NULL,
.dpy = NULL,
.scr = 0,
.c = NULL,
.vis = 0,
.depth = 0,
.root = XCB_NONE,
.root_height = 0,
.root_width = 0,
// .root_damage = XCB_NONE,
.overlay = XCB_NONE,
.root_tile_fill = false,
.root_tile_paint = PAINT_INIT,
.tgt_picture = XCB_NONE,
.tgt_buffer = PAINT_INIT,
.reg_win = XCB_NONE,
#ifdef CONFIG_OPENGL
.glx_prog_win = GLX_PROG_MAIN_INIT,
#endif
.redirected = false,
.alpha_picts = NULL,
.fade_time = 0L,
.ignore_head = NULL,
.ignore_tail = NULL,
.quit = false,
.expose_rects = NULL,
.size_expose = 0,
.n_expose = 0,
.windows = NULL,
.active_win = NULL,
.active_leader = XCB_NONE,
.black_picture = XCB_NONE,
.cshadow_picture = XCB_NONE,
.white_picture = XCB_NONE,
.gaussian_map = NULL,
.refresh_rate = 0,
.refresh_intv = 0UL,
.paint_tm_offset = 0L,
#ifdef CONFIG_VSYNC_DRM
.drm_fd = -1,
#endif
.xfixes_event = 0,
.xfixes_error = 0,
.damage_event = 0,
.damage_error = 0,
.render_event = 0,
.render_error = 0,
.composite_event = 0,
.composite_error = 0,
.composite_opcode = 0,
.shape_exists = false,
.shape_event = 0,
.shape_error = 0,
.randr_exists = 0,
.randr_event = 0,
.randr_error = 0,
#ifdef CONFIG_OPENGL
.glx_exists = false,
.glx_event = 0,
.glx_error = 0,
#endif
.xrfilter_convolution_exists = false,
.atoms_wintypes = {0},
.track_atom_lst = NULL,
#ifdef CONFIG_DBUS
.dbus_data = NULL,
#endif
};
auto stderr_logger = stderr_logger_new();
if (stderr_logger) {
// stderr logger might fail to create if we are already
// daemonized.
log_add_target_tls(stderr_logger);
}
// Allocate a session and copy default values into it
session_t *ps = cmalloc(session_t);
*ps = s_def;
list_init_head(&ps->window_stack);
ps->loop = EV_DEFAULT;
pixman_region32_init(&ps->screen_reg);
ps->ignore_tail = &ps->ignore_head;
ps->o.show_all_xerrors = all_xerrors;
// Use the same Display across reset, primarily for resource leak checking
ps->dpy = dpy;
ps->c = XGetXCBConnection(ps->dpy);
const xcb_query_extension_reply_t *ext_info;
ps->previous_xerror_handler = XSetErrorHandler(xerror);
ps->scr = DefaultScreen(ps->dpy);
auto screen = x_screen_of_display(ps->c, ps->scr);
ps->vis = screen->root_visual;
ps->depth = screen->root_depth;
ps->root = screen->root;
ps->root_width = screen->width_in_pixels;
ps->root_height = screen->height_in_pixels;
// Start listening to events on root earlier to catch all possible
// root geometry changes
auto e = xcb_request_check(
ps->c, xcb_change_window_attributes_checked(
ps->c, ps->root, XCB_CW_EVENT_MASK,
(const uint32_t[]){XCB_EVENT_MASK_SUBSTRUCTURE_NOTIFY |
XCB_EVENT_MASK_EXPOSURE | XCB_EVENT_MASK_STRUCTURE_NOTIFY |
XCB_EVENT_MASK_PROPERTY_CHANGE}));
if (e) {
log_error("Failed to setup root window event mask");
free(e);
}
xcb_prefetch_extension_data(ps->c, &xcb_render_id);
xcb_prefetch_extension_data(ps->c, &xcb_composite_id);
xcb_prefetch_extension_data(ps->c, &xcb_damage_id);
xcb_prefetch_extension_data(ps->c, &xcb_shape_id);
xcb_prefetch_extension_data(ps->c, &xcb_xfixes_id);
xcb_prefetch_extension_data(ps->c, &xcb_randr_id);
xcb_prefetch_extension_data(ps->c, &xcb_xinerama_id);
xcb_prefetch_extension_data(ps->c, &xcb_present_id);
xcb_prefetch_extension_data(ps->c, &xcb_sync_id);
ext_info = xcb_get_extension_data(ps->c, &xcb_render_id);
if (!ext_info || !ext_info->present) {
log_fatal("No render extension");
exit(1);
}
ps->render_event = ext_info->first_event;
ps->render_error = ext_info->first_error;
ext_info = xcb_get_extension_data(ps->c, &xcb_composite_id);
if (!ext_info || !ext_info->present) {
log_fatal("No composite extension");
exit(1);
}
ps->composite_opcode = ext_info->major_opcode;
ps->composite_event = ext_info->first_event;
ps->composite_error = ext_info->first_error;
{
xcb_composite_query_version_reply_t *reply = xcb_composite_query_version_reply(
ps->c,
xcb_composite_query_version(ps->c, XCB_COMPOSITE_MAJOR_VERSION,
XCB_COMPOSITE_MINOR_VERSION),
NULL);
if (!reply || (reply->major_version == 0 && reply->minor_version < 2)) {
log_fatal("Your X server doesn't have Composite >= 0.2 support, "
"compton cannot run.");
exit(1);
}
free(reply);
}
ext_info = xcb_get_extension_data(ps->c, &xcb_damage_id);
if (!ext_info || !ext_info->present) {
log_fatal("No damage extension");
exit(1);
}
ps->damage_event = ext_info->first_event;
ps->damage_error = ext_info->first_error;
xcb_discard_reply(ps->c, xcb_damage_query_version(ps->c, XCB_DAMAGE_MAJOR_VERSION,
XCB_DAMAGE_MINOR_VERSION)
.sequence);
ext_info = xcb_get_extension_data(ps->c, &xcb_xfixes_id);
if (!ext_info || !ext_info->present) {
log_fatal("No XFixes extension");
exit(1);
}
ps->xfixes_event = ext_info->first_event;
ps->xfixes_error = ext_info->first_error;
xcb_discard_reply(ps->c, xcb_xfixes_query_version(ps->c, XCB_XFIXES_MAJOR_VERSION,
XCB_XFIXES_MINOR_VERSION)
.sequence);
// Parse configuration file
win_option_mask_t winopt_mask[NUM_WINTYPES] = {{0}};
bool shadow_enabled = false, fading_enable = false, hasneg = false;
char *config_file_to_free = NULL;
config_file = config_file_to_free = parse_config(
&ps->o, config_file, &shadow_enabled, &fading_enable, &hasneg, winopt_mask);
if (IS_ERR(config_file_to_free)) {
return NULL;
}
// Parse all of the rest command line options
get_cfg(&ps->o, argc, argv, shadow_enabled, fading_enable, hasneg, winopt_mask);
if (ps->o.logpath) {
auto l = file_logger_new(ps->o.logpath);
if (l) {
log_info("Switching to log file: %s", ps->o.logpath);
if (stderr_logger) {
log_remove_target_tls(stderr_logger);
stderr_logger = NULL;
}
log_add_target_tls(l);
stderr_logger = NULL;
} else {
log_error("Failed to setup log file %s, I will keep using stderr",
ps->o.logpath);
}
}
if (ps->o.debug_mode && !ps->o.experimental_backends) {
log_fatal("Debug mode only works with the experimental backends.");
return NULL;
}
ps->atoms = init_atoms(ps->c);
ps->atoms_wintypes[WINTYPE_UNKNOWN] = 0;
#define SET_WM_TYPE_ATOM(x) \
ps->atoms_wintypes[WINTYPE_##x] = ps->atoms->a_NET_WM_WINDOW_TYPE_##x
SET_WM_TYPE_ATOM(DESKTOP);
SET_WM_TYPE_ATOM(DOCK);
SET_WM_TYPE_ATOM(TOOLBAR);
SET_WM_TYPE_ATOM(MENU);
SET_WM_TYPE_ATOM(UTILITY);
SET_WM_TYPE_ATOM(SPLASH);
SET_WM_TYPE_ATOM(DIALOG);
SET_WM_TYPE_ATOM(NORMAL);
SET_WM_TYPE_ATOM(DROPDOWN_MENU);
SET_WM_TYPE_ATOM(POPUP_MENU);
SET_WM_TYPE_ATOM(TOOLTIP);
SET_WM_TYPE_ATOM(NOTIFICATION);
SET_WM_TYPE_ATOM(COMBO);
SET_WM_TYPE_ATOM(DND);
#undef SET_WM_TYPE_ATOM
// Get needed atoms for c2 condition lists
if (!(c2_list_postprocess(ps, ps->o.unredir_if_possible_blacklist) &&
c2_list_postprocess(ps, ps->o.paint_blacklist) &&
c2_list_postprocess(ps, ps->o.shadow_blacklist) &&
c2_list_postprocess(ps, ps->o.fade_blacklist) &&
c2_list_postprocess(ps, ps->o.blur_background_blacklist) &&
c2_list_postprocess(ps, ps->o.invert_color_list) &&
c2_list_postprocess(ps, ps->o.opacity_rules) &&
c2_list_postprocess(ps, ps->o.focus_blacklist))) {
log_error("Post-processing of conditionals failed, some of your rules "
"might not work");
}
ps->gaussian_map = gaussian_kernel_autodetect_deviation(ps->o.shadow_radius);
sum_kernel_preprocess(ps->gaussian_map);
rebuild_shadow_exclude_reg(ps);
// Query X Shape
ext_info = xcb_get_extension_data(ps->c, &xcb_shape_id);
if (ext_info && ext_info->present) {
ps->shape_event = ext_info->first_event;
ps->shape_error = ext_info->first_error;
ps->shape_exists = true;
}
ext_info = xcb_get_extension_data(ps->c, &xcb_randr_id);
if (ext_info && ext_info->present) {
ps->randr_exists = true;
ps->randr_event = ext_info->first_event;
ps->randr_error = ext_info->first_error;
}
ext_info = xcb_get_extension_data(ps->c, &xcb_present_id);
if (ext_info && ext_info->present) {
auto r = xcb_present_query_version_reply(
ps->c,
xcb_present_query_version(ps->c, XCB_PRESENT_MAJOR_VERSION,
XCB_PRESENT_MINOR_VERSION),
NULL);
if (r) {
ps->present_exists = true;
free(r);
}
}
// Query X Sync
ext_info = xcb_get_extension_data(ps->c, &xcb_sync_id);
if (ext_info && ext_info->present) {
ps->xsync_error = ext_info->first_error;
ps->xsync_event = ext_info->first_event;
// Need X Sync 3.1 for fences
auto r = xcb_sync_initialize_reply(
ps->c,
xcb_sync_initialize(ps->c, XCB_SYNC_MAJOR_VERSION, XCB_SYNC_MINOR_VERSION),
NULL);
if (r && (r->major_version > 3 ||
(r->major_version == 3 && r->minor_version >= 1))) {
ps->xsync_exists = true;
free(r);
}
}
ps->sync_fence = XCB_NONE;
if (!ps->xsync_exists && ps->o.xrender_sync_fence) {
log_error("XSync extension not found. No XSync fence sync is "
"possible. (xrender-sync-fence can't be enabled)");
ps->o.xrender_sync_fence = false;
}
if (ps->o.xrender_sync_fence) {
ps->sync_fence = x_new_id(ps->c);
e = xcb_request_check(
ps->c, xcb_sync_create_fence(ps->c, ps->root, ps->sync_fence, 0));
if (e) {
log_error("Failed to create a XSync fence. xrender-sync-fence "
"will be disabled");
ps->o.xrender_sync_fence = false;
ps->sync_fence = XCB_NONE;
free(e);
}
}
// Query X RandR
if ((ps->o.sw_opti && !ps->o.refresh_rate) || ps->o.xinerama_shadow_crop) {
if (!ps->randr_exists) {
log_fatal("No XRandR extension. sw-opti, refresh-rate or "
"xinerama-shadow-crop "
"cannot be enabled.");
goto err;
}
}
// Query X Xinerama extension
if (ps->o.xinerama_shadow_crop) {
ext_info = xcb_get_extension_data(ps->c, &xcb_xinerama_id);
ps->xinerama_exists = ext_info && ext_info->present;
}
rebuild_screen_reg(ps);
// Create registration window
// If we are not taking over the screen, we don't need to register as a compositor
if (session_redirection_mode(ps) == XCB_COMPOSITE_REDIRECT_MANUAL && !register_cm(ps)) {
exit(1);
}
// Target window must be initialized before the backend
//
// backend_operations::present == NULL means this backend doesn't need a target
// window
if (backend_list[ps->o.backend]->present != NULL) {
if (!ps->o.debug_mode) {
if (!init_overlay(ps)) {
goto err;
}
} else {
if (!init_debug_window(ps)) {
goto err;
}
}
}
ps->drivers = detect_driver(ps->c, ps->backend_data, ps->root);
// Initialize filters, must be preceded by OpenGL context creation
if (!ps->o.experimental_backends && !init_render(ps)) {
log_fatal("Failed to initialize the backend");
exit(1);
}
if (ps->o.print_diagnostics) {
print_diagnostics(ps, config_file);
free(config_file_to_free);
exit(0);
}
free(config_file_to_free);
if (bkend_use_glx(ps) && !ps->o.experimental_backends) {
auto gl_logger = gl_string_marker_logger_new();
if (gl_logger) {
log_info("Enabling gl string marker");
log_add_target_tls(gl_logger);
}
}
if (ps->o.experimental_backends) {
if (ps->o.monitor_repaint && !backend_list[ps->o.backend]->fill) {
log_warn("--monitor-repaint is not supported by the backend, "
"disabling");
ps->o.monitor_repaint = false;
}
}
// Initialize software optimization
if (ps->o.sw_opti)
ps->o.sw_opti = swopti_init(ps);
// Monitor screen changes if vsync_sw is enabled and we are using
// an auto-detected refresh rate, or when Xinerama features are enabled
if (ps->randr_exists &&
((ps->o.sw_opti && !ps->o.refresh_rate) || ps->o.xinerama_shadow_crop))
xcb_randr_select_input(ps->c, ps->root, XCB_RANDR_NOTIFY_MASK_SCREEN_CHANGE);
cxinerama_upd_scrs(ps);
{
xcb_render_create_picture_value_list_t pa = {
.subwindowmode = IncludeInferiors,
};
ps->root_picture = x_create_picture_with_visual_and_pixmap(
ps->c, ps->vis, ps->root, XCB_RENDER_CP_SUBWINDOW_MODE, &pa);
if (ps->overlay != XCB_NONE) {
ps->tgt_picture = x_create_picture_with_visual_and_pixmap(
ps->c, ps->vis, ps->overlay, XCB_RENDER_CP_SUBWINDOW_MODE, &pa);
} else
ps->tgt_picture = ps->root_picture;
}
ev_io_init(&ps->xiow, x_event_callback, ConnectionNumber(ps->dpy), EV_READ);
ev_io_start(ps->loop, &ps->xiow);
ev_init(&ps->unredir_timer, tmout_unredir_callback);
if (ps->o.sw_opti)
ev_idle_init(&ps->draw_idle, delayed_draw_callback);
else
ev_idle_init(&ps->draw_idle, draw_callback);
ev_init(&ps->fade_timer, fade_timer_callback);
ev_init(&ps->delayed_draw_timer, delayed_draw_timer_callback);
// Set up SIGUSR1 signal handler to reset program
ev_signal_init(&ps->usr1_signal, reset_enable, SIGUSR1);
ev_signal_init(&ps->int_signal, exit_enable, SIGINT);
ev_signal_start(ps->loop, &ps->usr1_signal);
ev_signal_start(ps->loop, &ps->int_signal);
// xcb can read multiple events from the socket when a request with reply is
// made.
//
// Use an ev_prepare to make sure we cannot accidentally forget to handle them
// before we go to sleep.
//
// If we don't drain the queue before goes to sleep (i.e. blocking on socket
// input), we will be sleeping with events available in queue. Which might
// cause us to block indefinitely because arrival of new events could be
// dependent on processing of existing events (e.g. if we don't process damage
// event and do damage subtract, new damage event won't be generated).
//
// So we make use of a ev_prepare handle, which is called right before libev
// goes into sleep, to handle all the queued X events.
ev_prepare_init(&ps->event_check, handle_queued_x_events);
// Make sure nothing can cause xcb to read from the X socket after events are
// handled and before we going to sleep.
ev_set_priority(&ps->event_check, EV_MINPRI);
ev_prepare_start(ps->loop, &ps->event_check);
// Initialize DBus. We need to do this early, because add_win might call dbus
// functions
if (ps->o.dbus) {
#ifdef CONFIG_DBUS
cdbus_init(ps, DisplayString(ps->dpy));
if (!ps->dbus_data) {
ps->o.dbus = false;
}
#else
log_fatal("DBus support not compiled in!");
exit(1);
#endif
}
e = xcb_request_check(ps->c, xcb_grab_server_checked(ps->c));
if (e) {
log_fatal("Failed to grab X server");
goto err;
}
ps->server_grabbed = true;
// We are going to pull latest information from X server now, events sent by X
// earlier is irrelavant at this point.
// A better solution is probably grabbing the server from the very start. But I
// think there still could be race condition that mandates discarding the events.
x_discard_events(ps->c);
xcb_query_tree_reply_t *query_tree_reply =
xcb_query_tree_reply(ps->c, xcb_query_tree(ps->c, ps->root), NULL);
e = xcb_request_check(ps->c, xcb_ungrab_server(ps->c));
if (e) {
log_error("Failed to ungrab server");
free(e);
}
ps->server_grabbed = false;
if (query_tree_reply) {
xcb_window_t *children;
int nchildren;
children = xcb_query_tree_children(query_tree_reply);
nchildren = xcb_query_tree_children_length(query_tree_reply);
for (int i = 0; i < nchildren; i++) {
add_win_above(ps, children[i], i ? children[i - 1] : XCB_NONE);
}
free(query_tree_reply);
}
log_debug("Initial stack:");
list_foreach(struct win, w, &ps->window_stack, stack_neighbour) {
log_debug("%#010x", w->id);
}
ps->pending_updates = true;
write_pid(ps);
if (fork && stderr_logger) {
// Remove the stderr logger if we will fork
log_remove_target_tls(stderr_logger);
}
return ps;
err:
free(ps);
return NULL;
}
/**
* Destroy a session.
*
* Does not close the X connection or free the <code>session_t</code>
* structure, though.
*
* @param ps session to destroy
*/
static void session_destroy(session_t *ps) {
if (ps->redirected) {
unredirect(ps);
}
// Stop listening to events on root window
xcb_change_window_attributes(ps->c, ps->root, XCB_CW_EVENT_MASK,
(const uint32_t[]){0});
#ifdef CONFIG_DBUS
// Kill DBus connection
if (ps->o.dbus) {
assert(ps->dbus_data);
cdbus_destroy(ps);
}
#endif
// Free window linked list
list_foreach_safe(struct win, w, &ps->window_stack, stack_neighbour) {
if (!w->destroyed) {
win_ev_stop(ps, w);
HASH_DEL(ps->windows, w);
}
if (w->managed) {
auto mw = (struct managed_win *)w;
free_win_res(ps, mw);
}
free(w);
}
list_init_head(&ps->window_stack);
// Free blacklists
free_wincondlst(&ps->o.shadow_blacklist);
free_wincondlst(&ps->o.fade_blacklist);
free_wincondlst(&ps->o.focus_blacklist);
free_wincondlst(&ps->o.invert_color_list);
free_wincondlst(&ps->o.blur_background_blacklist);
free_wincondlst(&ps->o.opacity_rules);
free_wincondlst(&ps->o.paint_blacklist);
free_wincondlst(&ps->o.unredir_if_possible_blacklist);
// Free tracked atom list
{
latom_t *next = NULL;
for (latom_t *this = ps->track_atom_lst; this; this = next) {
next = this->next;
free(this);
}
ps->track_atom_lst = NULL;
}
// Free ignore linked list
{
ignore_t *next = NULL;
for (ignore_t *ign = ps->ignore_head; ign; ign = next) {
next = ign->next;
free(ign);
}
// Reset head and tail
ps->ignore_head = NULL;
ps->ignore_tail = &ps->ignore_head;
}
// Free tgt_{buffer,picture} and root_picture
if (ps->tgt_buffer.pict == ps->tgt_picture)
ps->tgt_buffer.pict = XCB_NONE;
if (ps->tgt_picture == ps->root_picture)
ps->tgt_picture = XCB_NONE;
else
free_picture(ps->c, &ps->tgt_picture);
free_picture(ps->c, &ps->root_picture);
free_paint(ps, &ps->tgt_buffer);
pixman_region32_fini(&ps->screen_reg);
free(ps->expose_rects);
free(ps->o.write_pid_path);
free(ps->o.logpath);
for (int i = 0; i < ps->o.blur_kernel_count; ++i) {
free(ps->o.blur_kerns[i]);
}
free(ps->o.blur_kerns);
free(ps->o.glx_fshader_win_str);
free_xinerama_info(ps);
#ifdef CONFIG_VSYNC_DRM
// Close file opened for DRM VSync
if (ps->drm_fd >= 0) {
close(ps->drm_fd);
ps->drm_fd = -1;
}
#endif
// Release overlay window
if (ps->overlay) {
xcb_composite_release_overlay_window(ps->c, ps->overlay);
ps->overlay = XCB_NONE;
}
if (ps->sync_fence) {
xcb_sync_destroy_fence(ps->c, ps->sync_fence);
ps->sync_fence = XCB_NONE;
}
// Free reg_win
if (ps->reg_win) {
xcb_destroy_window(ps->c, ps->reg_win);
ps->reg_win = XCB_NONE;
}
if (ps->debug_window) {
xcb_destroy_window(ps->c, ps->debug_window);
ps->debug_window = XCB_NONE;
}
if (ps->o.experimental_backends) {
// backend is deinitialized in unredirect()
assert(ps->backend_data == NULL);
} else {
deinit_render(ps);
}
#if CONFIG_OPENGL
if (glx_has_context(ps)) {
// GLX context created, but not for rendering
glx_destroy(ps);
}
#endif
// Flush all events
x_sync(ps->c);
ev_io_stop(ps->loop, &ps->xiow);
free_conv(ps->gaussian_map);
destroy_atoms(ps->atoms);
#ifdef DEBUG_XRC
// Report about resource leakage
xrc_report_xid();
#endif
XSetErrorHandler(ps->previous_xerror_handler);
// Stop libev event handlers
ev_timer_stop(ps->loop, &ps->unredir_timer);
ev_timer_stop(ps->loop, &ps->fade_timer);
ev_idle_stop(ps->loop, &ps->draw_idle);
ev_prepare_stop(ps->loop, &ps->event_check);
ev_signal_stop(ps->loop, &ps->usr1_signal);
ev_signal_stop(ps->loop, &ps->int_signal);
}
/**
* Do the actual work.
*
* @param ps current session
*/
static void session_run(session_t *ps) {
if (ps->o.sw_opti)
ps->paint_tm_offset = get_time_timeval().tv_usec;
// In benchmark mode, we want draw_idle handler to always be active
if (ps->o.benchmark) {
ev_idle_start(ps->loop, &ps->draw_idle);
} else {
// Let's draw our first frame!
queue_redraw(ps);
}
ev_run(ps->loop, 0);
}
/**
* The function that everybody knows.
*/
int main(int argc, char **argv) {
// Set locale so window names with special characters are interpreted
// correctly
setlocale(LC_ALL, "");
log_init_tls();
int exit_code;
char *config_file = NULL;
bool all_xerrors = false, need_fork = false;
if (get_early_config(argc, argv, &config_file, &all_xerrors, &need_fork, &exit_code)) {
return exit_code;
}
int pfds[2];
if (need_fork) {
if (pipe2(pfds, O_CLOEXEC)) {
perror("pipe2");
return 1;
}
auto pid = fork();
if (pid < 0) {
perror("fork");
return 1;
}
if (pid > 0) {
// We are the parent
close(pfds[1]);
// We wait for the child to tell us it has finished initialization
// by sending us something via the pipe.
int tmp;
if (read(pfds[0], &tmp, sizeof tmp) <= 0) {
// Failed to read, the child has most likely died
// We can probably waitpid() here.
return 1;
} else {
// We are done
return 0;
}
}
// We are the child
close(pfds[0]);
}
// Main loop
bool quit = false;
do {
Display *dpy = XOpenDisplay(NULL);
if (!dpy) {
fprintf(stderr, "Can't open display.");
return 1;
}
XSetEventQueueOwner(dpy, XCBOwnsEventQueue);
ps_g = session_init(argc, argv, dpy, config_file, all_xerrors, need_fork);
if (!ps_g) {
log_fatal("Failed to create new compton session.");
return 1;
}
if (need_fork) {
// Finishing up daemonization
// Close files
if (fclose(stdout) || fclose(stderr) || fclose(stdin)) {
log_fatal("Failed to close standard input/output");
return 1;
}
// Make us the session and process group leader so we don't get
// killed when our parent die.
setsid();
// Notify the parent that we are done. This might cause the parent
// to quit, so only do this after setsid()
int tmp = 1;
write(pfds[1], &tmp, sizeof tmp);
close(pfds[1]);
// We only do this once
need_fork = false;
}
session_run(ps_g);
quit = ps_g->quit;
session_destroy(ps_g);
free(ps_g);
ps_g = NULL;
if (dpy) {
XCloseDisplay(dpy);
}
} while (!quit);
free(config_file);
log_deinit_tls();
return 0;
}
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