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ef9b399020
mpv/input/input.c
wm4 ef9b399020 input: fix event wakeup 
When a new event was added, merely a flag was set, instead of actually
waking up the core (if needed). This was ok in ancient times when all
event sources were part of the select() loop. But now there are several
cases where other threads can add input, and then you actually need to
wakeup the core in order to make it read the events at all.
2014-08-11 13:50:56 +02:00

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/*
* This file is part of MPlayer.
*
* MPlayer is free software; you can redistribute it and/or modify
* it under the terms of the GNU General Public License as published by
* the Free Software Foundation; either version 2 of the License, or
* (at your option) any later version.
*
* MPlayer is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
*
* You should have received a copy of the GNU General Public License along
* with MPlayer; if not, write to the Free Software Foundation, Inc.,
* 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA.
*/
#include "config.h"
#include <stdlib.h>
#include <string.h>
#include <stdio.h>
#include <stdbool.h>
#include <unistd.h>
#include <errno.h>
#include <sys/types.h>
#include <sys/stat.h>
#include <sys/time.h>
#include <fcntl.h>
#include <pthread.h>
#include <assert.h>
#include <libavutil/avstring.h>
#include <libavutil/common.h>
#include "osdep/io.h"
#include "input.h"
#include "keycodes.h"
#include "cmd_list.h"
#include "cmd_parse.h"
#include "osdep/threads.h"
#include "osdep/timer.h"
#include "common/msg.h"
#include "common/global.h"
#include "options/m_option.h"
#include "options/path.h"
#include "talloc.h"
#include "options/options.h"
#include "bstr/bstr.h"
#include "stream/stream.h"
#include "common/common.h"
#include "joystick.h"
#if HAVE_LIRC
#include "lirc.h"
#endif
#if HAVE_COCOA
#include "osdep/macosx_events.h"
#endif
#define input_lock(ictx) pthread_mutex_lock(&ictx->mutex)
#define input_unlock(ictx) pthread_mutex_unlock(&ictx->mutex)
#define MP_MAX_KEY_DOWN 4
struct cmd_bind {
int keys[MP_MAX_KEY_DOWN];
int num_keys;
char *cmd;
char *location; // filename/line number of definition
bool is_builtin;
struct cmd_bind_section *owner;
};
struct cmd_bind_section {
struct cmd_bind *binds;
int num_binds;
char *section;
struct mp_rect mouse_area; // set at runtime, if at all
bool mouse_area_set; // mouse_area is valid and should be tested
struct cmd_bind_section *next;
};
#define MP_MAX_FDS 10
struct input_fd {
struct mp_log *log;
int fd;
int (*read_key)(void *ctx, int fd);
int (*read_cmd)(void *ctx, int fd, char *dest, int size);
int (*close_func)(void *ctx, int fd);
void *ctx;
unsigned eof : 1;
unsigned drop : 1;
unsigned dead : 1;
unsigned got_cmd : 1;
unsigned select : 1;
// These fields are for the cmd fds.
char *buffer;
int pos, size;
};
#define MAX_ACTIVE_SECTIONS 50
struct active_section {
char *name;
int flags;
};
struct cmd_queue {
struct mp_cmd *first;
};
struct input_ctx {
pthread_mutex_t mutex;
pthread_cond_t wakeup;
pthread_t mainthread;
bool mainthread_set;
struct mp_log *log;
struct mpv_global *global;
struct input_opts *opts;
bool using_alt_gr;
bool using_ar;
bool using_cocoa_media_keys;
bool win_drag;
// Autorepeat stuff
short ar_state;
int64_t last_ar;
// Autorepeat config
unsigned int ar_delay;
unsigned int ar_rate;
// Maximum number of queued commands from keypresses (limit to avoid
// repeated slow commands piling up)
int key_fifo_size;
// history of key downs - the newest is in position 0
int key_history[MP_MAX_KEY_DOWN];
// key code of the last key that triggered MP_KEY_STATE_DOWN
int last_key_down;
int64_t last_key_down_time;
bool current_down_cmd_need_release;
struct mp_cmd *current_down_cmd;
int doubleclick_time;
int last_doubleclick_key_down;
double last_doubleclick_time;
// Mouse position on the consumer side (as command.c sees it)
int mouse_x, mouse_y;
char *mouse_section; // last section to receive mouse event
// Mouse position on the producer side (as the VO sees it)
// Unlike mouse_x/y, this can be used to resolve mouse click bindings.
int mouse_vo_x, mouse_vo_y;
bool mouse_mangle, mouse_src_mangle;
struct mp_rect mouse_src, mouse_dst;
bool test;
bool default_bindings;
// List of command binding sections
struct cmd_bind_section *cmd_bind_sections;
// List currently active command sections
struct active_section active_sections[MAX_ACTIVE_SECTIONS];
int num_active_sections;
unsigned int mouse_event_counter;
struct input_fd fds[MP_MAX_FDS];
unsigned int num_fds;
struct cmd_queue cmd_queue;
bool need_wakeup;
bool in_select;
int wakeup_pipe[2];
};
int async_quit_request;
static int parse_config(struct input_ctx *ictx, bool builtin, bstr data,
const char *location, const char *restrict_section);
#define OPT_BASE_STRUCT struct input_opts
struct input_opts {
char *config_file;
int doubleclick_time;
int key_fifo_size;
int ar_delay;
int ar_rate;
char *js_dev;
char *in_file;
int use_joystick;
int use_lirc;
char *lirc_configfile;
int use_lircc;
int use_alt_gr;
int use_appleremote;
int use_media_keys;
int default_bindings;
int enable_mouse_movements;
int test;
};
const struct m_sub_options input_config = {
.opts = (const m_option_t[]) {
OPT_STRING("conf", config_file, CONF_GLOBAL),
OPT_INT("ar-delay", ar_delay, CONF_GLOBAL),
OPT_INT("ar-rate", ar_rate, CONF_GLOBAL),
OPT_PRINT("keylist", mp_print_key_list),
OPT_PRINT("cmdlist", mp_print_cmd_list),
OPT_STRING("js-dev", js_dev, CONF_GLOBAL),
OPT_STRING("file", in_file, CONF_GLOBAL),
OPT_FLAG("default-bindings", default_bindings, CONF_GLOBAL),
OPT_FLAG("test", test, CONF_GLOBAL),
OPT_INTRANGE("doubleclick-time", doubleclick_time, 0, 0, 1000),
OPT_FLAG("joystick", use_joystick, CONF_GLOBAL),
OPT_FLAG("lirc", use_lirc, CONF_GLOBAL),
OPT_FLAG("right-alt-gr", use_alt_gr, CONF_GLOBAL),
OPT_INTRANGE("key-fifo-size", key_fifo_size, CONF_GLOBAL, 2, 65000),
OPT_FLAG("cursor", enable_mouse_movements, CONF_GLOBAL),
#if HAVE_LIRC
OPT_STRING("lirc-conf", lirc_configfile, CONF_GLOBAL),
#endif
#if HAVE_COCOA
OPT_FLAG("appleremote", use_appleremote, CONF_GLOBAL),
OPT_FLAG("media-keys", use_media_keys, CONF_GLOBAL),
#endif
{0}
},
.size = sizeof(struct input_opts),
.defaults = &(const struct input_opts){
.key_fifo_size = 7,
.doubleclick_time = 300,
.ar_delay = 200,
.ar_rate = 40,
.use_lirc = 1,
.use_alt_gr = 1,
.enable_mouse_movements = 1,
#if HAVE_COCOA
.use_appleremote = 1,
.use_media_keys = 1,
#endif
.default_bindings = 1,
},
};
static const char builtin_input_conf[] =
#include "input/input_conf.h"
;
static bool test_rect(struct mp_rect *rc, int x, int y)
{
return x >= rc->x0 && y >= rc->y0 && x < rc->x1 && y < rc->y1;
}
static int queue_count_cmds(struct cmd_queue *queue)
{
int res = 0;
for (struct mp_cmd *cmd = queue->first; cmd; cmd = cmd->queue_next)
res++;
return res;
}
static bool queue_has_abort_cmds(struct cmd_queue *queue)
{
bool ret = false;
for (struct mp_cmd *cmd = queue->first; cmd; cmd = cmd->queue_next)
if (mp_input_is_abort_cmd(cmd)) {
ret = true;
break;
}
return ret;
}
static void queue_remove(struct cmd_queue *queue, struct mp_cmd *cmd)
{
struct mp_cmd **p_prev = &queue->first;
while (*p_prev != cmd) {
p_prev = &(*p_prev)->queue_next;
}
// if this fails, cmd was not in the queue
assert(*p_prev == cmd);
*p_prev = cmd->queue_next;
}
static void queue_add_head(struct cmd_queue *queue, struct mp_cmd *cmd)
{
cmd->queue_next = queue->first;
queue->first = cmd;
}
static void queue_add_tail(struct cmd_queue *queue, struct mp_cmd *cmd)
{
struct mp_cmd **p_prev = &queue->first;
while (*p_prev)
p_prev = &(*p_prev)->queue_next;
*p_prev = cmd;
cmd->queue_next = NULL;
}
static struct mp_cmd *queue_peek(struct cmd_queue *queue)
{
struct mp_cmd *ret = NULL;
ret = queue->first;
return ret;
}
static struct mp_cmd *queue_peek_tail(struct cmd_queue *queue)
{
struct mp_cmd *cur = queue->first;
while (cur && cur->queue_next)
cur = cur->queue_next;
return cur;
}
static void append_bind_info(struct input_ctx *ictx, char **pmsg,
struct cmd_bind *bind)
{
char *msg = *pmsg;
struct mp_cmd *cmd = mp_input_parse_cmd(ictx, bstr0(bind->cmd),
bind->location);
bstr stripped = cmd ? cmd->original : bstr0(bind->cmd);
msg = talloc_asprintf_append(msg, " '%.*s'", BSTR_P(stripped));
if (!cmd)
msg = talloc_asprintf_append(msg, " (invalid)");
if (strcmp(bind->owner->section, "default") != 0)
msg = talloc_asprintf_append(msg, " in section {%s}",
bind->owner->section);
msg = talloc_asprintf_append(msg, " in %s", bind->location);
if (bind->is_builtin)
msg = talloc_asprintf_append(msg, " (default)");
talloc_free(cmd);
*pmsg = msg;
}
static mp_cmd_t *handle_test(struct input_ctx *ictx, int code)
{
if (code == MP_KEY_CLOSE_WIN) {
MP_WARN(ictx,
"CLOSE_WIN was received. This pseudo key can be remapped too,\n"
"but --input-test will always quit when receiving it.\n");
const char *args[] = {"quit", NULL};
mp_cmd_t *res = mp_input_parse_cmd_strv(ictx->log, 0, args, "");
return res;
}
char *key_buf = mp_input_get_key_combo_name(&code, 1);
char *msg = talloc_asprintf(NULL, "Key %s is bound to:\n", key_buf);
talloc_free(key_buf);
int count = 0;
for (struct cmd_bind_section *bs = ictx->cmd_bind_sections;
bs; bs = bs->next)
{
for (int i = 0; i < bs->num_binds; i++) {
if (bs->binds[i].num_keys && bs->binds[i].keys[0] == code) {
count++;
msg = talloc_asprintf_append(msg, "%d. ", count);
append_bind_info(ictx, &msg, &bs->binds[i]);
msg = talloc_asprintf_append(msg, "\n");
}
}
}
if (!count)
msg = talloc_asprintf_append(msg, "(nothing)");
MP_VERBOSE(ictx, "%s\n", msg);
const char *args[] = {"show_text", msg, NULL};
mp_cmd_t *res = mp_input_parse_cmd_strv(ictx->log, MP_ON_OSD_MSG, args, "");
talloc_free(msg);
return res;
}
static struct cmd_bind_section *get_bind_section(struct input_ctx *ictx,
bstr section)
{
struct cmd_bind_section *bind_section = ictx->cmd_bind_sections;
if (section.len == 0)
section = bstr0("default");
while (bind_section) {
if (bstrcmp0(section, bind_section->section) == 0)
return bind_section;
if (bind_section->next == NULL)
break;
bind_section = bind_section->next;
}
if (bind_section) {
bind_section->next = talloc_ptrtype(ictx, bind_section->next);
bind_section = bind_section->next;
} else {
ictx->cmd_bind_sections = talloc_ptrtype(ictx, ictx->cmd_bind_sections);
bind_section = ictx->cmd_bind_sections;
}
*bind_section = (struct cmd_bind_section) {
.section = bstrdup0(bind_section, section),
};
return bind_section;
}
static void key_buf_add(int *buf, int code)
{
for (int n = MP_MAX_KEY_DOWN - 1; n > 0; n--)
buf[n] = buf[n - 1];
buf[0] = code;
}
static struct cmd_bind *find_bind_for_key_section(struct input_ctx *ictx,
char *section, int code)
{
struct cmd_bind_section *bs = get_bind_section(ictx, bstr0(section));
if (!bs->num_binds)
return NULL;
int keys[MP_MAX_KEY_DOWN];
memcpy(keys, ictx->key_history, sizeof(keys));
key_buf_add(keys, code);
struct cmd_bind *best = NULL;
// Prefer user-defined keys over builtin bindings
for (int builtin = 0; builtin < 2; builtin++) {
if (builtin && !ictx->default_bindings)
break;
if (best)
break;
for (int n = 0; n < bs->num_binds; n++) {
if (bs->binds[n].is_builtin == (bool)builtin) {
struct cmd_bind *b = &bs->binds[n];
// we have: keys=[key2 key1 keyX ...]
// and: b->keys=[key1 key2] (and may be just a prefix)
for (int i = 0; i < b->num_keys; i++) {
if (b->keys[i] != keys[b->num_keys - 1 - i])
goto skip;
}
if (!best || b->num_keys >= best->num_keys)
best = b;
skip: ;
}
}
}
return best;
}
static struct cmd_bind *find_any_bind_for_key(struct input_ctx *ictx,
char *force_section, int code)
{
if (force_section)
return find_bind_for_key_section(ictx, force_section, code);
bool use_mouse = MP_KEY_DEPENDS_ON_MOUSE_POS(code);
// First look whether a mouse section is capturing all mouse input
// exclusively (regardless of the active section stack order).
if (use_mouse && MP_KEY_IS_MOUSE_BTN_SINGLE(ictx->last_key_down)) {
struct cmd_bind *bind =
find_bind_for_key_section(ictx, ictx->mouse_section, code);
if (bind)
return bind;
}
struct cmd_bind *best_bind = NULL;
for (int i = ictx->num_active_sections - 1; i >= 0; i--) {
struct active_section *s = &ictx->active_sections[i];
struct cmd_bind *bind = find_bind_for_key_section(ictx, s->name, code);
if (bind) {
struct cmd_bind_section *bs = bind->owner;
if (!use_mouse || (bs->mouse_area_set && test_rect(&bs->mouse_area,
ictx->mouse_vo_x,
ictx->mouse_vo_y)))
{
if (!best_bind || (best_bind->is_builtin && !bind->is_builtin))
best_bind = bind;
}
}
if (s->flags & MP_INPUT_EXCLUSIVE)
break;
}
return best_bind;
}
static mp_cmd_t *get_cmd_from_keys(struct input_ctx *ictx, char *force_section,
int code)
{
if (ictx->test)
return handle_test(ictx, code);
struct cmd_bind *cmd = find_any_bind_for_key(ictx, force_section, code);
if (cmd == NULL) {
int msgl = MSGL_WARN;
if (code == MP_KEY_MOUSE_MOVE || code == MP_KEY_MOUSE_LEAVE)
msgl = MSGL_DEBUG;
char *key_buf = mp_input_get_key_combo_name(&code, 1);
MP_MSG(ictx, msgl, "No bind found for key '%s'.\n", key_buf);
talloc_free(key_buf);
return NULL;
}
mp_cmd_t *ret = mp_input_parse_cmd(ictx, bstr0(cmd->cmd), cmd->location);
if (ret) {
ret->input_section = cmd->owner->section;
if (mp_msg_test(ictx->log, MSGL_DEBUG)) {
char *keyname = mp_input_get_key_combo_name(&code, 1);
MP_DBG(ictx, "key '%s' -> '%s' in '%s'\n",
keyname, cmd->cmd, ret->input_section);
talloc_free(keyname);
}
} else {
char *key_buf = mp_input_get_key_combo_name(&code, 1);
MP_ERR(ictx, "Invalid command for bound key '%s': '%s'\n",
key_buf, cmd->cmd);
talloc_free(key_buf);
}
return ret;
}
static void update_mouse_section(struct input_ctx *ictx)
{
struct cmd_bind *bind =
find_any_bind_for_key(ictx, NULL, MP_KEY_MOUSE_MOVE);
char *new_section = bind ? bind->owner->section : "default";
char *old = ictx->mouse_section;
ictx->mouse_section = new_section;
if (strcmp(old, ictx->mouse_section) != 0) {
MP_DBG(ictx, "input: switch section %s -> %s\n",
old, ictx->mouse_section);
struct mp_cmd *cmd = get_cmd_from_keys(ictx, old, MP_KEY_MOUSE_LEAVE);
if (cmd)
queue_add_tail(&ictx->cmd_queue, cmd);
mp_input_wakeup(ictx);
}
}
// Called when the currently held-down key is released. This (usually) sends
// the a key-up version of the command associated with the keys that were held
// down.
// If the drop_current parameter is set to true, then don't send the key-up
// command. Unless we've already sent a key-down event, in which case the
// input receiver (the player) must get a key-up event, or it would get stuck
// thinking a key is still held down.
static void release_down_cmd(struct input_ctx *ictx, bool drop_current)
{
if (ictx->current_down_cmd_need_release)
drop_current = false;
if (!drop_current && ictx->current_down_cmd &&
ictx->current_down_cmd->key_up_follows)
{
memset(ictx->key_history, 0, sizeof(ictx->key_history));
ictx->current_down_cmd->key_up_follows = false;
queue_add_tail(&ictx->cmd_queue, ictx->current_down_cmd);
mp_input_wakeup(ictx);
} else {
talloc_free(ictx->current_down_cmd);
}
ictx->current_down_cmd = NULL;
ictx->current_down_cmd_need_release = false;
ictx->last_key_down = 0;
ictx->last_key_down_time = 0;
ictx->ar_state = -1;
update_mouse_section(ictx);
}
// Whether a command shall be sent on both key down and key up events.
static bool key_updown_ok(enum mp_command_type cmd)
{
switch (cmd) {
case MP_CMD_SCRIPT_DISPATCH:
return true;
default:
return false;
}
}
// We don't want the append to the command queue indefinitely, because that
// could lead to situations where recovery would take too long. On the other
// hand, don't drop commands that will abort playback.
static bool should_drop_cmd(struct input_ctx *ictx, struct mp_cmd *cmd)
{
struct cmd_queue *queue = &ictx->cmd_queue;
return (queue_count_cmds(queue) >= ictx->key_fifo_size &&
(!mp_input_is_abort_cmd(cmd) || queue_has_abort_cmds(queue)));
}
static struct mp_cmd *resolve_key(struct input_ctx *ictx, int code)
{
update_mouse_section(ictx);
struct mp_cmd *cmd = get_cmd_from_keys(ictx, NULL, code);
key_buf_add(ictx->key_history, code);
if (cmd && cmd->id != MP_CMD_IGNORE && !should_drop_cmd(ictx, cmd))
return cmd;
talloc_free(cmd);
return NULL;
}
static void interpret_key(struct input_ctx *ictx, int code, double scale)
{
/* On normal keyboards shift changes the character code of non-special
* keys, so don't count the modifier separately for those. In other words
* we want to have "a" and "A" instead of "a" and "Shift+A"; but a separate
* shift modifier is still kept for special keys like arrow keys.
*/
int unmod = code & ~MP_KEY_MODIFIER_MASK;
if (unmod >= 32 && unmod < MP_KEY_BASE)
code &= ~MP_KEY_MODIFIER_SHIFT;
int state = code & (MP_KEY_STATE_DOWN | MP_KEY_STATE_UP);
code = code & ~(unsigned)state;
if (mp_msg_test(ictx->log, MSGL_DEBUG)) {
char *key = mp_input_get_key_name(code);
MP_DBG(ictx, "key code=%#x '%s'%s%s\n",
code, key, (state & MP_KEY_STATE_DOWN) ? " down" : "",
(state & MP_KEY_STATE_UP) ? " up" : "");
talloc_free(key);
}
if (MP_KEY_DEPENDS_ON_MOUSE_POS(unmod))
ictx->mouse_event_counter++;
mp_input_wakeup(ictx);
struct mp_cmd *cmd = NULL;
if (state == MP_KEY_STATE_DOWN) {
// Protect against VOs which send STATE_DOWN with autorepeat
if (ictx->last_key_down == code)
return;
// Cancel current down-event (there can be only one)
release_down_cmd(ictx, true);
cmd = resolve_key(ictx, code);
if (cmd && (code & MP_KEY_EMIT_ON_UP))
cmd->key_up_follows = true;
ictx->last_key_down = code;
ictx->last_key_down_time = mp_time_us();
ictx->ar_state = 0;
ictx->current_down_cmd = mp_cmd_clone(cmd);
ictx->current_down_cmd_need_release = false;
} else if (state == MP_KEY_STATE_UP) {
// Most VOs send RELEASE_ALL anyway
release_down_cmd(ictx, false);
} else {
// Press of key with no separate down/up events
if (ictx->last_key_down == code) {
// Mixing press events and up/down with the same key is not allowed
MP_WARN(ictx, "Mixing key presses and up/down.\n");
}
cmd = resolve_key(ictx, code);
}
if (!cmd)
return;
// Don't emit a command on key-down if the key is designed to emit commands
// on key-up (like mouse buttons). Also, if the command specifically should
// be sent both on key down and key up, still emit the command.
if (cmd->key_up_follows && !key_updown_ok(cmd->id)) {
talloc_free(cmd);
return;
}
memset(ictx->key_history, 0, sizeof(ictx->key_history));
cmd->scale = scale;
if (cmd->key_up_follows)
ictx->current_down_cmd_need_release = true;
queue_add_tail(&ictx->cmd_queue, cmd);
}
static void mp_input_feed_key(struct input_ctx *ictx, int code, double scale)
{
int unmod = code & ~MP_KEY_MODIFIER_MASK;
if (code == MP_INPUT_RELEASE_ALL) {
MP_DBG(ictx, "release all\n");
release_down_cmd(ictx, false);
return;
}
if (!ictx->opts->enable_mouse_movements && MP_KEY_IS_MOUSE(unmod))
return;
if (unmod == MP_KEY_MOUSE_LEAVE) {
update_mouse_section(ictx);
struct mp_cmd *cmd = get_cmd_from_keys(ictx, NULL, code);
if (cmd)
queue_add_tail(&ictx->cmd_queue, cmd);
mp_input_wakeup(ictx);
return;
}
double now = mp_time_sec();
int doubleclick_time = ictx->doubleclick_time;
// ignore system-doubleclick if we generate these events ourselves
if (doubleclick_time && MP_KEY_IS_MOUSE_BTN_DBL(unmod))
return;
interpret_key(ictx, code, scale);
if (code & MP_KEY_STATE_DOWN) {
code &= ~MP_KEY_STATE_DOWN;
if (ictx->last_doubleclick_key_down == code
&& now - ictx->last_doubleclick_time < doubleclick_time / 1000.0)
{
if (code >= MP_MOUSE_BTN0 && code <= MP_MOUSE_BTN2)
interpret_key(ictx, code - MP_MOUSE_BTN0 + MP_MOUSE_BTN0_DBL, 1);
}
ictx->last_doubleclick_key_down = code;
ictx->last_doubleclick_time = now;
}
}
void mp_input_put_key(struct input_ctx *ictx, int code)
{
input_lock(ictx);
mp_input_feed_key(ictx, code, 1);
input_unlock(ictx);
}
void mp_input_put_key_utf8(struct input_ctx *ictx, int mods, struct bstr t)
{
while (t.len) {
int code = bstr_decode_utf8(t, &t);
if (code < 0)
break;
mp_input_put_key(ictx, code | mods);
}
}
void mp_input_put_axis(struct input_ctx *ictx, int direction, double value)
{
if (value == 0.0)
return;
input_lock(ictx);
mp_input_feed_key(ictx, direction, value);
input_unlock(ictx);
}
void mp_input_set_mouse_transform(struct input_ctx *ictx, struct mp_rect *dst,
struct mp_rect *src)
{
input_lock(ictx);
ictx->mouse_mangle = dst || src;
if (ictx->mouse_mangle) {
ictx->mouse_dst = *dst;
ictx->mouse_src_mangle = !!src;
if (ictx->mouse_src_mangle)
ictx->mouse_src = *src;
}
input_unlock(ictx);
}
bool mp_input_mouse_enabled(struct input_ctx *ictx)
{
input_lock(ictx);
bool r = ictx->opts->enable_mouse_movements;
input_unlock(ictx);
return r;
}
void mp_input_set_mouse_pos(struct input_ctx *ictx, int x, int y)
{
input_lock(ictx);
MP_DBG(ictx, "mouse move %d/%d\n", x, y);
if (!ictx->opts->enable_mouse_movements) {
input_unlock(ictx);
return;
}
if (ictx->mouse_mangle) {
struct mp_rect *src = &ictx->mouse_src;
struct mp_rect *dst = &ictx->mouse_dst;
x = MPCLAMP(x, dst->x0, dst->x1) - dst->x0;
y = MPCLAMP(y, dst->y0, dst->y1) - dst->y0;
if (ictx->mouse_src_mangle) {
x = x * 1.0 / (dst->x1 - dst->x0) * (src->x1 - src->x0) + src->x0;
y = y * 1.0 / (dst->y1 - dst->y0) * (src->y1 - src->y0) + src->y0;
}
MP_DBG(ictx, "-> %d/%d\n", x, y);
}
ictx->mouse_event_counter++;
ictx->mouse_vo_x = x;
ictx->mouse_vo_y = y;
update_mouse_section(ictx);
struct mp_cmd *cmd = get_cmd_from_keys(ictx, NULL, MP_KEY_MOUSE_MOVE);
if (!cmd)
cmd = mp_input_parse_cmd(ictx, bstr0("ignore"), "<internal>");
if (cmd) {
cmd->mouse_move = true;
cmd->mouse_x = x;
cmd->mouse_y = y;
if (should_drop_cmd(ictx, cmd)) {
talloc_free(cmd);
} else {
// Coalesce with previous mouse move events (i.e. replace it)
struct mp_cmd *tail = queue_peek_tail(&ictx->cmd_queue);
if (tail && tail->mouse_move) {
queue_remove(&ictx->cmd_queue, tail);
talloc_free(tail);
}
queue_add_tail(&ictx->cmd_queue, cmd);
mp_input_wakeup(ictx);
}
}
input_unlock(ictx);
}
unsigned int mp_input_get_mouse_event_counter(struct input_ctx *ictx)
{
// Make the frontend always display the mouse cursor (as long as it's not
// forced invisible) if mouse input is desired.
input_lock(ictx);
if (mp_input_test_mouse_active(ictx, ictx->mouse_x, ictx->mouse_y))
ictx->mouse_event_counter++;
int ret = ictx->mouse_event_counter;
input_unlock(ictx);
return ret;
}
int input_default_read_cmd(void *ctx, int fd, char *buf, int l)
{
while (1) {
int r = read(fd, buf, l);
// Error ?
if (r < 0) {
if (errno == EINTR)
continue;
else if (errno == EAGAIN)
return MP_INPUT_NOTHING;
return MP_INPUT_ERROR;
// EOF ?
}
return r;
}
}
int mp_input_add_fd(struct input_ctx *ictx, int unix_fd, int select,
int read_cmd_func(void *ctx, int fd, char *dest, int size),
int read_key_func(void *ctx, int fd),
int close_func(void *ctx, int fd), void *ctx)
{
if (select && unix_fd < 0) {
MP_ERR(ictx, "Invalid fd %d in mp_input_add_fd", unix_fd);
return 0;
}
input_lock(ictx);
struct input_fd *fd = NULL;
if (ictx->num_fds == MP_MAX_FDS) {
MP_ERR(ictx, "Too many file descriptors.\n");
} else {
fd = &ictx->fds[ictx->num_fds];
}
*fd = (struct input_fd){
.log = ictx->log,
.fd = unix_fd,
.select = select,
.read_cmd = read_cmd_func,
.read_key = read_key_func,
.close_func = close_func,
.ctx = ctx,
};
ictx->num_fds++;
input_unlock(ictx);
return !!fd;
}
static void mp_input_rm_fd(struct input_ctx *ictx, int fd)
{
struct input_fd *fds = ictx->fds;
unsigned int i;
for (i = 0; i < ictx->num_fds; i++) {
if (fds[i].fd == fd)
break;
}
if (i == ictx->num_fds)
return;
if (fds[i].close_func)
fds[i].close_func(fds[i].ctx, fds[i].fd);
talloc_free(fds[i].buffer);
if (i + 1 < ictx->num_fds)
memmove(&fds[i], &fds[i + 1],
(ictx->num_fds - i - 1) * sizeof(struct input_fd));
ictx->num_fds--;
}
void mp_input_rm_key_fd(struct input_ctx *ictx, int fd)
{
input_lock(ictx);
mp_input_rm_fd(ictx, fd);
input_unlock(ictx);
}
#define MP_CMD_MAX_SIZE 4096
static int read_cmd(struct input_fd *mp_fd, char **ret)
{
char *end;
*ret = NULL;
// Allocate the buffer if it doesn't exist
if (!mp_fd->buffer) {
mp_fd->buffer = talloc_size(NULL, MP_CMD_MAX_SIZE);
mp_fd->pos = 0;
mp_fd->size = MP_CMD_MAX_SIZE;
}
// Get some data if needed/possible
while (!mp_fd->got_cmd && !mp_fd->eof && (mp_fd->size - mp_fd->pos > 1)) {
int r = mp_fd->read_cmd(mp_fd->ctx, mp_fd->fd, mp_fd->buffer + mp_fd->pos,
mp_fd->size - 1 - mp_fd->pos);
// Error ?
if (r < 0) {
switch (r) {
case MP_INPUT_ERROR:
case MP_INPUT_DEAD:
MP_ERR(mp_fd, "Error while reading command file descriptor %d: %s\n",
mp_fd->fd, strerror(errno));
case MP_INPUT_NOTHING:
return r;
case MP_INPUT_RETRY:
continue;
}
// EOF ?
} else if (r == 0) {
mp_fd->eof = 1;
break;
}
mp_fd->pos += r;
break;
}
mp_fd->got_cmd = 0;
while (1) {
int l = 0;
// Find the cmd end
mp_fd->buffer[mp_fd->pos] = '\0';
end = strchr(mp_fd->buffer, '\r');
if (end)
*end = '\n';
end = strchr(mp_fd->buffer, '\n');
// No cmd end ?
if (!end) {
// If buffer is full we must drop all until the next \n
if (mp_fd->size - mp_fd->pos <= 1) {
MP_ERR(mp_fd, "Command buffer of file descriptor %d is full: "
"dropping content.\n", mp_fd->fd);
mp_fd->pos = 0;
mp_fd->drop = 1;
}
break;
}
// We already have a cmd : set the got_cmd flag
else if ((*ret)) {
mp_fd->got_cmd = 1;
break;
}
l = end - mp_fd->buffer;
// Not dropping : put the cmd in ret
if (!mp_fd->drop)
*ret = talloc_strndup(NULL, mp_fd->buffer, l);
else
mp_fd->drop = 0;
mp_fd->pos -= l + 1;
memmove(mp_fd->buffer, end + 1, mp_fd->pos);
}
if (*ret)
return 1;
else
return MP_INPUT_NOTHING;
}
static void read_cmd_fd(struct input_ctx *ictx, struct input_fd *cmd_fd)
{
int r;
char *text;
while ((r = read_cmd(cmd_fd, &text)) >= 0) {
mp_input_wakeup(ictx);
struct mp_cmd *cmd = mp_input_parse_cmd(ictx, bstr0(text), "<pipe>");
talloc_free(text);
if (cmd)
queue_add_tail(&ictx->cmd_queue, cmd);
if (!cmd_fd->got_cmd)
return;
}
if (r == MP_INPUT_ERROR)
MP_ERR(ictx, "Error on command file descriptor %d\n", cmd_fd->fd);
else if (r == MP_INPUT_DEAD)
cmd_fd->dead = true;
}
static void read_key_fd(struct input_ctx *ictx, struct input_fd *key_fd)
{
int code = key_fd->read_key(key_fd->ctx, key_fd->fd);
if (code >= 0 || code == MP_INPUT_RELEASE_ALL) {
mp_input_feed_key(ictx, code, 1);
return;
}
if (code == MP_INPUT_ERROR)
MP_ERR(ictx, "Error on key input file descriptor %d\n", key_fd->fd);
else if (code == MP_INPUT_DEAD) {
MP_ERR(ictx, "Dead key input on file descriptor %d\n", key_fd->fd);
key_fd->dead = true;
}
}
static void read_fd(struct input_ctx *ictx, struct input_fd *fd)
{
if (fd->read_cmd) {
read_cmd_fd(ictx, fd);
} else {
read_key_fd(ictx, fd);
}
}
static void remove_dead_fds(struct input_ctx *ictx)
{
for (int i = 0; i < ictx->num_fds; i++) {
if (ictx->fds[i].dead) {
mp_input_rm_fd(ictx, ictx->fds[i].fd);
i--;
}
}
}
#if HAVE_POSIX_SELECT
static void input_wait_read(struct input_ctx *ictx, int time)
{
fd_set fds;
FD_ZERO(&fds);
int max_fd = 0;
for (int i = 0; i < ictx->num_fds; i++) {
if (!ictx->fds[i].select)
continue;
if (ictx->fds[i].fd > max_fd)
max_fd = ictx->fds[i].fd;
FD_SET(ictx->fds[i].fd, &fds);
}
struct timeval tv, *time_val;
tv.tv_sec = time / 1000;
tv.tv_usec = (time % 1000) * 1000;
time_val = &tv;
ictx->in_select = true;
input_unlock(ictx);
if (select(max_fd + 1, &fds, NULL, NULL, time_val) < 0) {
if (errno != EINTR)
MP_ERR(ictx, "Select error: %s\n", strerror(errno));
FD_ZERO(&fds);
}
input_lock(ictx);
ictx->in_select = false;
for (int i = 0; i < ictx->num_fds; i++) {
if (ictx->fds[i].select && !FD_ISSET(ictx->fds[i].fd, &fds))
continue;
read_fd(ictx, &ictx->fds[i]);
}
}
#else
static void input_wait_read(struct input_ctx *ictx, int time)
{
if (time > 0)
mpthread_cond_timedwait_rel(&ictx->wakeup, &ictx->mutex, time / 1000.0);
for (int i = 0; i < ictx->num_fds; i++)
read_fd(ictx, &ictx->fds[i]);
}
#endif
/**
* \param time time to wait at most for an event in milliseconds
*/
static void read_events(struct input_ctx *ictx, int time)
{
if (ictx->last_key_down && ictx->ar_rate > 0 && ictx->ar_state >= 0) {
time = FFMIN(time, 1000 / ictx->ar_rate);
time = FFMIN(time, ictx->ar_delay);
}
time = FFMAX(time, 0);
while (1) {
if (ictx->need_wakeup)
time = 0;
ictx->need_wakeup = false;
remove_dead_fds(ictx);
if (time) {
for (int i = 0; i < ictx->num_fds; i++) {
if (!ictx->fds[i].select)
read_fd(ictx, &ictx->fds[i]);
}
}
if (ictx->need_wakeup)
time = 0;
input_wait_read(ictx, time);
// Read until no new wakeups happen.
if (!ictx->need_wakeup)
break;
}
}
int mp_input_queue_cmd(struct input_ctx *ictx, mp_cmd_t *cmd)
{
input_lock(ictx);
if (cmd)
queue_add_tail(&ictx->cmd_queue, cmd);
input_unlock(ictx);
mp_input_wakeup(ictx);
return 1;
}
static mp_cmd_t *check_autorepeat(struct input_ctx *ictx)
{
// No input : autorepeat ?
if (ictx->ar_rate <= 0 || !ictx->current_down_cmd || !ictx->last_key_down ||
(ictx->last_key_down & MP_NO_REPEAT_KEY))
ictx->ar_state = -1; // disable
if (ictx->ar_state >= 0) {
int64_t t = mp_time_us();
if (ictx->last_ar + 2000000 < t)
ictx->last_ar = t;
// First time : wait delay
if (ictx->ar_state == 0
&& (t - ictx->last_key_down_time) >= ictx->ar_delay * 1000)
{
ictx->ar_state = 1;
ictx->last_ar = ictx->last_key_down_time + ictx->ar_delay * 1000;
return mp_cmd_clone(ictx->current_down_cmd);
// Then send rate / sec event
} else if (ictx->ar_state == 1
&& (t - ictx->last_ar) >= 1000000 / ictx->ar_rate) {
ictx->last_ar += 1000000 / ictx->ar_rate;
return mp_cmd_clone(ictx->current_down_cmd);
}
}
return NULL;
}
/**
* \param peek_only when set, the returned command stays in the queue.
* Do not free the returned cmd whe you set this!
*/
mp_cmd_t *mp_input_get_cmd(struct input_ctx *ictx, int time, int peek_only)
{
input_lock(ictx);
if (async_quit_request) {
struct mp_cmd *cmd = mp_input_parse_cmd(ictx, bstr0("quit"), "");
queue_add_head(&ictx->cmd_queue, cmd);
}
if (ictx->cmd_queue.first)
time = 0;
read_events(ictx, time);
struct cmd_queue *queue = &ictx->cmd_queue;
if (!queue->first) {
struct mp_cmd *repeated = check_autorepeat(ictx);
if (repeated) {
repeated->repeated = true;
if (mp_input_is_repeatable_cmd(repeated)) {
queue_add_tail(queue, repeated);
} else {
talloc_free(repeated);
}
}
}
struct mp_cmd *ret = queue_peek(queue);
if (ret && !peek_only) {
queue_remove(queue, ret);
if (ret->mouse_move) {
ictx->mouse_x = ret->mouse_x;
ictx->mouse_y = ret->mouse_y;
}
}
input_unlock(ictx);
return ret;
}
void mp_input_get_mouse_pos(struct input_ctx *ictx, int *x, int *y)
{
input_lock(ictx);
*x = ictx->mouse_x;
*y = ictx->mouse_y;
input_unlock(ictx);
}
// If name is NULL, return "default".
// Return a statically allocated name of the section (i.e. return value never
// gets deallocated).
static char *normalize_section(struct input_ctx *ictx, char *name)
{
return get_bind_section(ictx, bstr0(name))->section;
}
void mp_input_disable_section(struct input_ctx *ictx, char *name)
{
input_lock(ictx);
name = normalize_section(ictx, name);
// Remove old section, or make sure it's on top if re-enabled
for (int i = ictx->num_active_sections - 1; i >= 0; i--) {
struct active_section *as = &ictx->active_sections[i];
if (strcmp(as->name, name) == 0) {
MP_TARRAY_REMOVE_AT(ictx->active_sections,
ictx->num_active_sections, i);
}
}
input_unlock(ictx);
}
void mp_input_enable_section(struct input_ctx *ictx, char *name, int flags)
{
input_lock(ictx);
name = normalize_section(ictx, name);
mp_input_disable_section(ictx, name);
MP_VERBOSE(ictx, "enable section '%s'\n", name);
if (ictx->num_active_sections < MAX_ACTIVE_SECTIONS) {
int top = ictx->num_active_sections;
if (!(flags & MP_INPUT_ON_TOP)) {
// insert before the first top entry
for (top = 0; top < ictx->num_active_sections; top++) {
if (ictx->active_sections[top].flags & MP_INPUT_ON_TOP)
break;
}
for (int n = ictx->num_active_sections; n > top; n--)
ictx->active_sections[n] = ictx->active_sections[n - 1];
}
ictx->active_sections[top] = (struct active_section){name, flags};
ictx->num_active_sections++;
}
MP_DBG(ictx, "active section stack:\n");
for (int n = 0; n < ictx->num_active_sections; n++) {
MP_DBG(ictx, " %s %d\n", ictx->active_sections[n].name,
ictx->active_sections[n].flags);
}
input_unlock(ictx);
}
void mp_input_disable_all_sections(struct input_ctx *ictx)
{
input_lock(ictx);
ictx->num_active_sections = 0;
input_unlock(ictx);
}
void mp_input_set_section_mouse_area(struct input_ctx *ictx, char *name,
int x0, int y0, int x1, int y1)
{
input_lock(ictx);
struct cmd_bind_section *s = get_bind_section(ictx, bstr0(name));
s->mouse_area = (struct mp_rect){x0, y0, x1, y1};
s->mouse_area_set = x0 != x1 && y0 != y1;
input_unlock(ictx);
}
static bool test_mouse(struct input_ctx *ictx, int x, int y, int rej_flags)
{
input_lock(ictx);
bool res = false;
for (int i = 0; i < ictx->num_active_sections; i++) {
struct active_section *as = &ictx->active_sections[i];
if (as->flags & rej_flags)
continue;
struct cmd_bind_section *s = get_bind_section(ictx, bstr0(as->name));
if (s->mouse_area_set && test_rect(&s->mouse_area, x, y)) {
res = true;
break;
}
}
input_unlock(ictx);
return res;
}
bool mp_input_test_mouse_active(struct input_ctx *ictx, int x, int y)
{
return test_mouse(ictx, x, y, MP_INPUT_ALLOW_HIDE_CURSOR);
}
bool mp_input_test_dragging(struct input_ctx *ictx, int x, int y)
{
input_lock(ictx);
bool r = !ictx->win_drag || test_mouse(ictx, x, y, MP_INPUT_ALLOW_VO_DRAGGING);
input_unlock(ictx);
return r;
}
static void bind_dealloc(struct cmd_bind *bind)
{
talloc_free(bind->cmd);
talloc_free(bind->location);
}
// builtin: if true, remove all builtin binds, else remove all user binds
static void remove_binds(struct cmd_bind_section *bs, bool builtin)
{
for (int n = bs->num_binds - 1; n >= 0; n--) {
if (bs->binds[n].is_builtin == builtin) {
bind_dealloc(&bs->binds[n]);
assert(bs->num_binds >= 1);
bs->binds[n] = bs->binds[bs->num_binds - 1];
bs->num_binds--;
}
}
}
void mp_input_define_section(struct input_ctx *ictx, char *name, char *location,
char *contents, bool builtin)
{
if (!name || !name[0])
return; // parse_config() changes semantics with restrict_section==empty
input_lock(ictx);
if (contents) {
parse_config(ictx, builtin, bstr0(contents), location, name);
} else {
// Disable:
mp_input_disable_section(ictx, name);
// Delete:
struct cmd_bind_section *bs = get_bind_section(ictx, bstr0(name));
remove_binds(bs, builtin);
}
input_unlock(ictx);
}
static bool bind_matches_key(struct cmd_bind *bind, int num_keys, const int *keys)
{
if (bind->num_keys != num_keys)
return false;
for (int i = 0; i < num_keys; i++) {
if (bind->keys[i] != keys[i])
return false;
}
return true;
}
static void bind_keys(struct input_ctx *ictx, bool builtin, bstr section,
const int *keys, int num_keys, bstr command,
const char *loc)
{
struct cmd_bind_section *bs = get_bind_section(ictx, section);
struct cmd_bind *bind = NULL;
assert(num_keys <= MP_MAX_KEY_DOWN);
for (int n = 0; n < bs->num_binds; n++) {
struct cmd_bind *b = &bs->binds[n];
if (bind_matches_key(b, num_keys, keys) && b->is_builtin == builtin) {
bind = b;
break;
}
}
if (!bind) {
struct cmd_bind empty = {{0}};
MP_TARRAY_APPEND(bs, bs->binds, bs->num_binds, empty);
bind = &bs->binds[bs->num_binds - 1];
}
bind_dealloc(bind);
*bind = (struct cmd_bind) {
.cmd = bstrdup0(bs->binds, command),
.location = talloc_strdup(bs->binds, loc),
.owner = bs,
.is_builtin = builtin,
.num_keys = num_keys,
};
memcpy(bind->keys, keys, num_keys * sizeof(bind->keys[0]));
if (mp_msg_test(ictx->log, MSGL_DEBUG)) {
char *s = mp_input_get_key_combo_name(keys, num_keys);
MP_DBG(ictx, "add: section='%s' key='%s'%s cmd='%s' location='%s'\n",
bind->owner->section, s, bind->is_builtin ? " builtin" : "",
bind->cmd, bind->location);
talloc_free(s);
}
}
// restrict_section: every entry is forced to this section name
// if NULL, load normally and allow any sections
static int parse_config(struct input_ctx *ictx, bool builtin, bstr data,
const char *location, const char *restrict_section)
{
int n_binds = 0;
int line_no = 0;
char *cur_loc = NULL;
while (data.len) {
line_no++;
if (cur_loc)
talloc_free(cur_loc);
cur_loc = talloc_asprintf(NULL, "%s:%d", location, line_no);
bstr line = bstr_strip_linebreaks(bstr_getline(data, &data));
line = bstr_lstrip(line);
if (line.len == 0 || bstr_startswith0(line, "#"))
continue;
if (bstr_eatstart0(&line, "default-bindings ")) {
bstr orig = line;
bstr_split_tok(line, "#", &line, &(bstr){0});
line = bstr_strip(line);
if (bstr_equals0(line, "start")) {
builtin = true;
} else {
MP_ERR(ictx, "Broken line: %.*s at %s\n", BSTR_P(orig), cur_loc);
}
continue;
}
struct bstr command;
// Find the key name starting a line
struct bstr keyname = bstr_split(line, WHITESPACE, &command);
command = bstr_strip(command);
if (command.len == 0) {
MP_ERR(ictx, "Unfinished key binding: %.*s at %s\n", BSTR_P(line),
cur_loc);
continue;
}
char *name = bstrdup0(NULL, keyname);
int keys[MP_MAX_KEY_DOWN];
int num_keys = 0;
if (!mp_input_get_keys_from_string(name, MP_MAX_KEY_DOWN, &num_keys, keys))
{
talloc_free(name);
MP_ERR(ictx, "Unknown key '%.*s' at %s\n", BSTR_P(keyname), cur_loc);
continue;
}
talloc_free(name);
bstr section = bstr0(restrict_section);
if (!section.len) {
if (bstr_startswith0(command, "{")) {
int p = bstrchr(command, '}');
if (p != -1) {
section = bstr_strip(bstr_splice(command, 1, p));
command = bstr_lstrip(bstr_cut(command, p + 1));
}
}
}
bind_keys(ictx, builtin, section, keys, num_keys, command, cur_loc);
n_binds++;
// Print warnings if invalid commands are encountered.
talloc_free(mp_input_parse_cmd(ictx, command, cur_loc));
}
talloc_free(cur_loc);
return n_binds;
}
static int parse_config_file(struct input_ctx *ictx, char *file, bool warn)
{
int r = 0;
void *tmp = talloc_new(NULL);
stream_t *s = NULL;
file = mp_get_user_path(tmp, ictx->global, file);
if (!mp_path_exists(file)) {
MP_MSG(ictx, warn ? MSGL_ERR : MSGL_V,
"Input config file %s not found.\n", file);
goto done;
}
s = stream_open(file, ictx->global);
if (!s) {
MP_ERR(ictx, "Can't open input config file %s.\n", file);
goto done;
}
stream_skip_bom(s);
bstr data = stream_read_complete(s, tmp, 1000000);
if (data.start) {
MP_VERBOSE(ictx, "Parsing input config file %s\n", file);
int num = parse_config(ictx, false, data, file, NULL);
MP_VERBOSE(ictx, "Input config file %s parsed: %d binds\n", file, num);
r = 1;
} else {
MP_ERR(ictx, "Error reading input config file %s\n", file);
}
done:
free_stream(s);
talloc_free(tmp);
return r;
}
static int close_fd(void *ctx, int fd)
{
return close(fd);
}
#ifndef __MINGW32__
static int read_wakeup(void *ctx, int fd)
{
char buf[100];
read(fd, buf, sizeof(buf));
return MP_INPUT_NOTHING;
}
#endif
struct input_ctx *mp_input_init(struct mpv_global *global)
{
struct input_opts *input_conf = global->opts->input_opts;
struct input_ctx *ictx = talloc_ptrtype(NULL, ictx);
*ictx = (struct input_ctx){
.global = global,
.opts = input_conf,
.log = mp_log_new(ictx, global->log, "input"),
.key_fifo_size = input_conf->key_fifo_size,
.doubleclick_time = input_conf->doubleclick_time,
.ar_state = -1,
.ar_delay = input_conf->ar_delay,
.ar_rate = input_conf->ar_rate,
.default_bindings = input_conf->default_bindings,
.mouse_section = "default",
.test = input_conf->test,
.wakeup_pipe = {-1, -1},
};
mpthread_mutex_init_recursive(&ictx->mutex);
pthread_cond_init(&ictx->wakeup, NULL);
// Setup default section, so that it does nothing.
mp_input_enable_section(ictx, NULL, MP_INPUT_ALLOW_VO_DRAGGING |
MP_INPUT_ALLOW_HIDE_CURSOR);
mp_input_set_section_mouse_area(ictx, NULL, INT_MIN, INT_MIN, INT_MAX, INT_MAX);
// "Uncomment" the default key bindings in etc/input.conf and add them.
// All lines that do not start with '# ' are parsed.
bstr builtin = bstr0(builtin_input_conf);
while (builtin.len) {
bstr line = bstr_getline(builtin, &builtin);
bstr_eatstart0(&line, "#");
if (!bstr_startswith0(line, " "))
parse_config(ictx, true, line, "<builtin>", NULL);
}
#ifndef __MINGW32__
int ret = mp_make_wakeup_pipe(ictx->wakeup_pipe);
if (ret < 0)
MP_ERR(ictx, "Failed to initialize wakeup pipe.\n");
else
mp_input_add_fd(ictx, ictx->wakeup_pipe[0], true, NULL, read_wakeup,
NULL, NULL);
#endif
bool config_ok = false;
if (input_conf->config_file)
config_ok = parse_config_file(ictx, input_conf->config_file, true);
if (!config_ok && global->opts->load_config) {
// Try global conf dir
char *file = mp_find_config_file(NULL, global, "input.conf");
config_ok = file && parse_config_file(ictx, file, false);
talloc_free(file);
}
if (!config_ok) {
MP_VERBOSE(ictx, "Falling back on default (hardcoded) input config\n");
}
#if HAVE_JOYSTICK
if (input_conf->use_joystick)
mp_input_joystick_init(ictx, ictx->log, input_conf->js_dev);
#endif
#if HAVE_LIRC
if (input_conf->use_lirc)
mp_input_lirc_init(ictx, ictx->log, input_conf->lirc_configfile);
#endif
if (input_conf->use_alt_gr) {
ictx->using_alt_gr = true;
}
#if HAVE_COCOA
if (input_conf->use_appleremote) {
cocoa_init_apple_remote();
ictx->using_ar = true;
}
if (input_conf->use_media_keys) {
cocoa_init_media_keys();
ictx->using_cocoa_media_keys = true;
}
#endif
ictx->win_drag = global->opts->allow_win_drag;
if (input_conf->in_file) {
int mode = O_RDONLY;
#ifndef __MINGW32__
// Use RDWR for FIFOs to ensure they stay open over multiple accesses.
// Note that on Windows due to how the API works, using RDONLY should
// be ok.
struct stat st;
if (stat(input_conf->in_file, &st) == 0 && S_ISFIFO(st.st_mode))
mode = O_RDWR;
mode |= O_NONBLOCK;
#endif
int in_file_fd = open(input_conf->in_file, mode);
if (in_file_fd >= 0)
mp_input_add_fd(ictx, in_file_fd, 1, input_default_read_cmd, NULL, close_fd, NULL);
else
MP_ERR(ictx, "Can't open %s: %s\n", input_conf->in_file,
strerror(errno));
}
return ictx;
}
static void clear_queue(struct cmd_queue *queue)
{
while (queue->first) {
struct mp_cmd *item = queue->first;
queue_remove(queue, item);
talloc_free(item);
}
}
void mp_input_uninit(struct input_ctx *ictx)
{
if (!ictx)
return;
#if HAVE_COCOA
if (ictx->using_ar) {
cocoa_uninit_apple_remote();
}
if (ictx->using_cocoa_media_keys) {
cocoa_uninit_media_keys();
}
#endif
for (int i = 0; i < ictx->num_fds; i++) {
if (ictx->fds[i].close_func)
ictx->fds[i].close_func(ictx->fds[i].ctx, ictx->fds[i].fd);
}
for (int i = 0; i < 2; i++) {
if (ictx->wakeup_pipe[i] != -1)
close(ictx->wakeup_pipe[i]);
}
clear_queue(&ictx->cmd_queue);
talloc_free(ictx->current_down_cmd);
pthread_mutex_destroy(&ictx->mutex);
pthread_cond_destroy(&ictx->wakeup);
talloc_free(ictx);
}
void mp_input_wakeup(struct input_ctx *ictx)
{
input_lock(ictx);
bool send_wakeup = ictx->in_select;
ictx->need_wakeup = true;
pthread_cond_signal(&ictx->wakeup);
input_unlock(ictx);
// Safe without locking
if (send_wakeup && ictx->wakeup_pipe[1] >= 0)
write(ictx->wakeup_pipe[1], &(char){0}, 1);
}
void mp_input_wakeup_nolock(struct input_ctx *ictx)
{
if (ictx->wakeup_pipe[1] >= 0) {
write(ictx->wakeup_pipe[1], &(char){0}, 1);
} else {
// Not race condition free. Done for the sake of jackaudio+windows.
ictx->need_wakeup = true;
pthread_cond_signal(&ictx->wakeup);
}
}
static bool test_abort(struct input_ctx *ictx)
{
return async_quit_request || queue_has_abort_cmds(&ictx->cmd_queue);
}
void mp_input_set_main_thread(struct input_ctx *ictx)
{
ictx->mainthread = pthread_self();
ictx->mainthread_set = true;
}
bool mp_input_check_interrupt(struct input_ctx *ictx)
{
input_lock(ictx);
bool res = test_abort(ictx);
if (!res && ictx->mainthread_set &&
pthread_equal(ictx->mainthread, pthread_self()))
{
read_events(ictx, 0);
}
input_unlock(ictx);
return res;
}
bool mp_input_use_alt_gr(struct input_ctx *ictx)
{
return ictx->using_alt_gr;
}
struct mp_cmd *mp_input_parse_cmd(struct input_ctx *ictx, bstr str,
const char *location)
{
return mp_input_parse_cmd_(ictx->log, str, location);
}
void mp_input_run_cmd(struct input_ctx *ictx, int def_flags, const char **cmd,
const char *location)
{
mp_cmd_t *cmdt = mp_input_parse_cmd_strv(ictx->log, def_flags, cmd, location);
mp_input_queue_cmd(ictx, cmdt);
}
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