yolobs-studio/libobs/obs-cocoa.m
2020-10-01 22:15:25 +02:00

1820 lines
42 KiB
Objective-C

/******************************************************************************
Copyright (C) 2013 by Ruwen Hahn <palana@stunned.de>
This program is free software: you can redistribute it and/or modify
it under the terms of the GNU General Public License as published by
the Free Software Foundation, either version 2 of the License, or
(at your option) any later version.
This program is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
GNU General Public License for more details.
You should have received a copy of the GNU General Public License
along with this program. If not, see <http://www.gnu.org/licenses/>.
******************************************************************************/
#include "util/platform.h"
#include "util/dstr.h"
#include "obs.h"
#include "obs-internal.h"
#include <unistd.h>
#include <sys/types.h>
#include <sys/sysctl.h>
#include <objc/objc.h>
#include <Carbon/Carbon.h>
#include <IOKit/hid/IOHIDDevice.h>
#include <IOKit/hid/IOHIDManager.h>
#import <AppKit/AppKit.h>
bool is_in_bundle()
{
NSRunningApplication *app = [NSRunningApplication currentApplication];
return [app bundleIdentifier] != nil;
}
const char *get_module_extension(void)
{
return ".so";
}
static const char *module_bin[] = {
"../obs-plugins",
OBS_INSTALL_PREFIX "obs-plugins",
};
static const char *module_data[] = {
"../data/obs-plugins/%module%",
OBS_INSTALL_DATA_PATH "obs-plugins/%module%",
};
static const int module_patterns_size =
sizeof(module_bin) / sizeof(module_bin[0]);
void add_default_module_paths(void)
{
for (int i = 0; i < module_patterns_size; i++)
obs_add_module_path(module_bin[i], module_data[i]);
if (is_in_bundle()) {
NSRunningApplication *app =
[NSRunningApplication currentApplication];
NSURL *bundleURL = [app bundleURL];
NSURL *pluginsURL = [bundleURL
URLByAppendingPathComponent:@"Contents/PlugIns"];
NSURL *dataURL = [bundleURL
URLByAppendingPathComponent:
@"Contents/Resources/data/obs-plugins/%module%"];
const char *binPath = [[pluginsURL path]
cStringUsingEncoding:NSUTF8StringEncoding];
const char *dataPath = [[dataURL path]
cStringUsingEncoding:NSUTF8StringEncoding];
obs_add_module_path(binPath, dataPath);
}
}
char *find_libobs_data_file(const char *file)
{
struct dstr path;
if (is_in_bundle()) {
NSRunningApplication *app =
[NSRunningApplication currentApplication];
NSURL *bundleURL = [app bundleURL];
NSURL *libobsDataURL =
[bundleURL URLByAppendingPathComponent:
@"Contents/Resources/data/libobs/"];
const char *libobsDataPath = [[libobsDataURL path]
cStringUsingEncoding:NSUTF8StringEncoding];
dstr_init_copy(&path, libobsDataPath);
dstr_cat(&path, "/");
} else {
dstr_init_copy(&path, OBS_INSTALL_DATA_PATH "/libobs/");
}
dstr_cat(&path, file);
return path.array;
}
static void log_processor_name(void)
{
char *name = NULL;
size_t size;
int ret;
ret = sysctlbyname("machdep.cpu.brand_string", NULL, &size, NULL, 0);
if (ret != 0)
return;
name = malloc(size);
ret = sysctlbyname("machdep.cpu.brand_string", name, &size, NULL, 0);
if (ret == 0)
blog(LOG_INFO, "CPU Name: %s", name);
free(name);
}
static void log_processor_speed(void)
{
size_t size;
long long freq;
int ret;
size = sizeof(freq);
ret = sysctlbyname("hw.cpufrequency", &freq, &size, NULL, 0);
if (ret == 0)
blog(LOG_INFO, "CPU Speed: %lldMHz", freq / 1000000);
}
static void log_processor_cores(void)
{
blog(LOG_INFO, "Physical Cores: %d, Logical Cores: %d",
os_get_physical_cores(), os_get_logical_cores());
}
static void log_available_memory(void)
{
size_t size;
long long memory_available;
int ret;
size = sizeof(memory_available);
ret = sysctlbyname("hw.memsize", &memory_available, &size, NULL, 0);
if (ret == 0)
blog(LOG_INFO, "Physical Memory: %lldMB Total",
memory_available / 1024 / 1024);
}
static void log_os_name(id pi, SEL UTF8StringSel)
{
typedef int (*os_func)(id, SEL);
os_func operatingSystem = (os_func)objc_msgSend;
unsigned long os_id = (unsigned long)operatingSystem(
pi, sel_registerName("operatingSystem"));
typedef id (*os_name_func)(id, SEL);
os_name_func operatingSystemName = (os_name_func)objc_msgSend;
id os = operatingSystemName(pi,
sel_registerName("operatingSystemName"));
typedef const char *(*utf8_func)(id, SEL);
utf8_func UTF8String = (utf8_func)objc_msgSend;
const char *name = UTF8String(os, UTF8StringSel);
if (os_id == 5 /*NSMACHOperatingSystem*/) {
blog(LOG_INFO, "OS Name: Mac OS X (%s)", name);
return;
}
blog(LOG_INFO, "OS Name: %s", name ? name : "Unknown");
}
static bool using_10_15_or_above = true;
static void log_os_version(id pi, SEL UTF8StringSel)
{
typedef id (*version_func)(id, SEL);
version_func operatingSystemVersionString = (version_func)objc_msgSend;
id vs = operatingSystemVersionString(
pi, sel_registerName("operatingSystemVersionString"));
typedef const char *(*utf8_func)(id, SEL);
utf8_func UTF8String = (utf8_func)objc_msgSend;
const char *version = UTF8String(vs, UTF8StringSel);
blog(LOG_INFO, "OS Version: %s", version ? version : "Unknown");
if (version) {
int major;
int minor;
int count = sscanf(version, "Version %d.%d", &major, &minor);
if (count == 2 && major == 10) {
using_10_15_or_above = minor >= 15;
}
}
}
static void log_os(void)
{
Class NSProcessInfo = objc_getClass("NSProcessInfo");
typedef id (*func)(id, SEL);
func processInfo = (func)objc_msgSend;
id pi = processInfo((id)NSProcessInfo, sel_registerName("processInfo"));
SEL UTF8String = sel_registerName("UTF8String");
log_os_name(pi, UTF8String);
log_os_version(pi, UTF8String);
}
static void log_kernel_version(void)
{
char kernel_version[1024];
size_t size = sizeof(kernel_version);
int ret;
ret = sysctlbyname("kern.osrelease", kernel_version, &size, NULL, 0);
if (ret == 0)
blog(LOG_INFO, "Kernel Version: %s", kernel_version);
}
void log_system_info(void)
{
log_processor_name();
log_processor_speed();
log_processor_cores();
log_available_memory();
log_os();
log_kernel_version();
}
static bool dstr_from_cfstring(struct dstr *str, CFStringRef ref)
{
CFIndex length = CFStringGetLength(ref);
CFIndex max_size = CFStringGetMaximumSizeForEncoding(
length, kCFStringEncodingUTF8);
dstr_reserve(str, max_size);
if (!CFStringGetCString(ref, str->array, max_size,
kCFStringEncodingUTF8))
return false;
str->len = strlen(str->array);
return true;
}
struct obs_hotkeys_platform {
volatile long refs;
bool secure_input_activated;
TISInputSourceRef tis;
CFDataRef layout_data;
UCKeyboardLayout *layout;
IOHIDManagerRef manager;
DARRAY(IOHIDElementRef) keys[OBS_KEY_LAST_VALUE];
};
static void hotkeys_retain(struct obs_hotkeys_platform *plat)
{
os_atomic_inc_long(&plat->refs);
}
static inline void free_hotkeys_platform(obs_hotkeys_platform_t *plat);
static void hotkeys_release(struct obs_hotkeys_platform *plat)
{
if (os_atomic_dec_long(&plat->refs) == -1)
free_hotkeys_platform(plat);
}
#define INVALID_KEY 0xff
int obs_key_to_virtual_key(obs_key_t code)
{
switch (code) {
case OBS_KEY_A:
return kVK_ANSI_A;
case OBS_KEY_B:
return kVK_ANSI_B;
case OBS_KEY_C:
return kVK_ANSI_C;
case OBS_KEY_D:
return kVK_ANSI_D;
case OBS_KEY_E:
return kVK_ANSI_E;
case OBS_KEY_F:
return kVK_ANSI_F;
case OBS_KEY_G:
return kVK_ANSI_G;
case OBS_KEY_H:
return kVK_ANSI_H;
case OBS_KEY_I:
return kVK_ANSI_I;
case OBS_KEY_J:
return kVK_ANSI_J;
case OBS_KEY_K:
return kVK_ANSI_K;
case OBS_KEY_L:
return kVK_ANSI_L;
case OBS_KEY_M:
return kVK_ANSI_M;
case OBS_KEY_N:
return kVK_ANSI_N;
case OBS_KEY_O:
return kVK_ANSI_O;
case OBS_KEY_P:
return kVK_ANSI_P;
case OBS_KEY_Q:
return kVK_ANSI_Q;
case OBS_KEY_R:
return kVK_ANSI_R;
case OBS_KEY_S:
return kVK_ANSI_S;
case OBS_KEY_T:
return kVK_ANSI_T;
case OBS_KEY_U:
return kVK_ANSI_U;
case OBS_KEY_V:
return kVK_ANSI_V;
case OBS_KEY_W:
return kVK_ANSI_W;
case OBS_KEY_X:
return kVK_ANSI_X;
case OBS_KEY_Y:
return kVK_ANSI_Y;
case OBS_KEY_Z:
return kVK_ANSI_Z;
case OBS_KEY_1:
return kVK_ANSI_1;
case OBS_KEY_2:
return kVK_ANSI_2;
case OBS_KEY_3:
return kVK_ANSI_3;
case OBS_KEY_4:
return kVK_ANSI_4;
case OBS_KEY_5:
return kVK_ANSI_5;
case OBS_KEY_6:
return kVK_ANSI_6;
case OBS_KEY_7:
return kVK_ANSI_7;
case OBS_KEY_8:
return kVK_ANSI_8;
case OBS_KEY_9:
return kVK_ANSI_9;
case OBS_KEY_0:
return kVK_ANSI_0;
case OBS_KEY_RETURN:
return kVK_Return;
case OBS_KEY_ESCAPE:
return kVK_Escape;
case OBS_KEY_BACKSPACE:
return kVK_Delete;
case OBS_KEY_TAB:
return kVK_Tab;
case OBS_KEY_SPACE:
return kVK_Space;
case OBS_KEY_MINUS:
return kVK_ANSI_Minus;
case OBS_KEY_EQUAL:
return kVK_ANSI_Equal;
case OBS_KEY_BRACKETLEFT:
return kVK_ANSI_LeftBracket;
case OBS_KEY_BRACKETRIGHT:
return kVK_ANSI_RightBracket;
case OBS_KEY_BACKSLASH:
return kVK_ANSI_Backslash;
case OBS_KEY_SEMICOLON:
return kVK_ANSI_Semicolon;
case OBS_KEY_QUOTE:
return kVK_ANSI_Quote;
case OBS_KEY_DEAD_GRAVE:
return kVK_ANSI_Grave;
case OBS_KEY_COMMA:
return kVK_ANSI_Comma;
case OBS_KEY_PERIOD:
return kVK_ANSI_Period;
case OBS_KEY_SLASH:
return kVK_ANSI_Slash;
case OBS_KEY_CAPSLOCK:
return kVK_CapsLock;
case OBS_KEY_SECTION:
return kVK_ISO_Section;
case OBS_KEY_F1:
return kVK_F1;
case OBS_KEY_F2:
return kVK_F2;
case OBS_KEY_F3:
return kVK_F3;
case OBS_KEY_F4:
return kVK_F4;
case OBS_KEY_F5:
return kVK_F5;
case OBS_KEY_F6:
return kVK_F6;
case OBS_KEY_F7:
return kVK_F7;
case OBS_KEY_F8:
return kVK_F8;
case OBS_KEY_F9:
return kVK_F9;
case OBS_KEY_F10:
return kVK_F10;
case OBS_KEY_F11:
return kVK_F11;
case OBS_KEY_F12:
return kVK_F12;
case OBS_KEY_HELP:
return kVK_Help;
case OBS_KEY_HOME:
return kVK_Home;
case OBS_KEY_PAGEUP:
return kVK_PageUp;
case OBS_KEY_DELETE:
return kVK_ForwardDelete;
case OBS_KEY_END:
return kVK_End;
case OBS_KEY_PAGEDOWN:
return kVK_PageDown;
case OBS_KEY_RIGHT:
return kVK_RightArrow;
case OBS_KEY_LEFT:
return kVK_LeftArrow;
case OBS_KEY_DOWN:
return kVK_DownArrow;
case OBS_KEY_UP:
return kVK_UpArrow;
case OBS_KEY_CLEAR:
return kVK_ANSI_KeypadClear;
case OBS_KEY_NUMSLASH:
return kVK_ANSI_KeypadDivide;
case OBS_KEY_NUMASTERISK:
return kVK_ANSI_KeypadMultiply;
case OBS_KEY_NUMMINUS:
return kVK_ANSI_KeypadMinus;
case OBS_KEY_NUMPLUS:
return kVK_ANSI_KeypadPlus;
case OBS_KEY_ENTER:
return kVK_ANSI_KeypadEnter;
case OBS_KEY_NUM1:
return kVK_ANSI_Keypad1;
case OBS_KEY_NUM2:
return kVK_ANSI_Keypad2;
case OBS_KEY_NUM3:
return kVK_ANSI_Keypad3;
case OBS_KEY_NUM4:
return kVK_ANSI_Keypad4;
case OBS_KEY_NUM5:
return kVK_ANSI_Keypad5;
case OBS_KEY_NUM6:
return kVK_ANSI_Keypad6;
case OBS_KEY_NUM7:
return kVK_ANSI_Keypad7;
case OBS_KEY_NUM8:
return kVK_ANSI_Keypad8;
case OBS_KEY_NUM9:
return kVK_ANSI_Keypad9;
case OBS_KEY_NUM0:
return kVK_ANSI_Keypad0;
case OBS_KEY_NUMPERIOD:
return kVK_ANSI_KeypadDecimal;
case OBS_KEY_NUMEQUAL:
return kVK_ANSI_KeypadEquals;
case OBS_KEY_F13:
return kVK_F13;
case OBS_KEY_F14:
return kVK_F14;
case OBS_KEY_F15:
return kVK_F15;
case OBS_KEY_F16:
return kVK_F16;
case OBS_KEY_F17:
return kVK_F17;
case OBS_KEY_F18:
return kVK_F18;
case OBS_KEY_F19:
return kVK_F19;
case OBS_KEY_F20:
return kVK_F20;
case OBS_KEY_CONTROL:
return kVK_Control;
case OBS_KEY_SHIFT:
return kVK_Shift;
case OBS_KEY_ALT:
return kVK_Option;
case OBS_KEY_META:
return kVK_Command;
//case OBS_KEY_CONTROL: return kVK_RightControl;
//case OBS_KEY_SHIFT: return kVK_RightShift;
//case OBS_KEY_ALT: return kVK_RightOption;
//case OBS_KEY_META: return 0x36;
case OBS_KEY_NONE:
case OBS_KEY_LAST_VALUE:
default:
break;
}
return INVALID_KEY;
}
static bool localized_key_to_str(obs_key_t key, struct dstr *str)
{
#define MAP_KEY(k, s) \
case k: \
dstr_copy(str, obs_get_hotkey_translation(k, s)); \
return true
#define MAP_BUTTON(i) \
case OBS_KEY_MOUSE##i: \
dstr_copy(str, obs_get_hotkey_translation(key, "Mouse " #i)); \
return true
switch (key) {
MAP_KEY(OBS_KEY_SPACE, "Space");
MAP_KEY(OBS_KEY_NUMEQUAL, "= (Keypad)");
MAP_KEY(OBS_KEY_NUMASTERISK, "* (Keypad)");
MAP_KEY(OBS_KEY_NUMPLUS, "+ (Keypad)");
MAP_KEY(OBS_KEY_NUMMINUS, "- (Keypad)");
MAP_KEY(OBS_KEY_NUMPERIOD, ". (Keypad)");
MAP_KEY(OBS_KEY_NUMSLASH, "/ (Keypad)");
MAP_KEY(OBS_KEY_NUM0, "0 (Keypad)");
MAP_KEY(OBS_KEY_NUM1, "1 (Keypad)");
MAP_KEY(OBS_KEY_NUM2, "2 (Keypad)");
MAP_KEY(OBS_KEY_NUM3, "3 (Keypad)");
MAP_KEY(OBS_KEY_NUM4, "4 (Keypad)");
MAP_KEY(OBS_KEY_NUM5, "5 (Keypad)");
MAP_KEY(OBS_KEY_NUM6, "6 (Keypad)");
MAP_KEY(OBS_KEY_NUM7, "7 (Keypad)");
MAP_KEY(OBS_KEY_NUM8, "8 (Keypad)");
MAP_KEY(OBS_KEY_NUM9, "9 (Keypad)");
MAP_BUTTON(1);
MAP_BUTTON(2);
MAP_BUTTON(3);
MAP_BUTTON(4);
MAP_BUTTON(5);
MAP_BUTTON(6);
MAP_BUTTON(7);
MAP_BUTTON(8);
MAP_BUTTON(9);
MAP_BUTTON(10);
MAP_BUTTON(11);
MAP_BUTTON(12);
MAP_BUTTON(13);
MAP_BUTTON(14);
MAP_BUTTON(15);
MAP_BUTTON(16);
MAP_BUTTON(17);
MAP_BUTTON(18);
MAP_BUTTON(19);
MAP_BUTTON(20);
MAP_BUTTON(21);
MAP_BUTTON(22);
MAP_BUTTON(23);
MAP_BUTTON(24);
MAP_BUTTON(25);
MAP_BUTTON(26);
MAP_BUTTON(27);
MAP_BUTTON(28);
MAP_BUTTON(29);
default:
break;
}
#undef MAP_BUTTON
#undef MAP_KEY
return false;
}
static bool code_to_str(int code, struct dstr *str)
{
#define MAP_GLYPH(c, g) \
case c: \
dstr_from_wcs(str, (wchar_t[]){g, 0}); \
return true
#define MAP_STR(c, s) \
case c: \
dstr_copy(str, s); \
return true
switch (code) {
MAP_GLYPH(kVK_Return, 0x21A9);
MAP_GLYPH(kVK_Escape, 0x238B);
MAP_GLYPH(kVK_Delete, 0x232B);
MAP_GLYPH(kVK_Tab, 0x21e5);
MAP_GLYPH(kVK_CapsLock, 0x21EA);
MAP_GLYPH(kVK_ANSI_KeypadClear, 0x2327);
MAP_GLYPH(kVK_ANSI_KeypadEnter, 0x2305);
MAP_GLYPH(kVK_Help, 0x003F);
MAP_GLYPH(kVK_Home, 0x2196);
MAP_GLYPH(kVK_PageUp, 0x21de);
MAP_GLYPH(kVK_ForwardDelete, 0x2326);
MAP_GLYPH(kVK_End, 0x2198);
MAP_GLYPH(kVK_PageDown, 0x21df);
MAP_GLYPH(kVK_RightArrow, 0x2192);
MAP_GLYPH(kVK_LeftArrow, 0x2190);
MAP_GLYPH(kVK_DownArrow, 0x2193);
MAP_GLYPH(kVK_UpArrow, 0x2191);
MAP_STR(kVK_F1, "F1");
MAP_STR(kVK_F2, "F2");
MAP_STR(kVK_F3, "F3");
MAP_STR(kVK_F4, "F4");
MAP_STR(kVK_F5, "F5");
MAP_STR(kVK_F6, "F6");
MAP_STR(kVK_F7, "F7");
MAP_STR(kVK_F8, "F8");
MAP_STR(kVK_F9, "F9");
MAP_STR(kVK_F10, "F10");
MAP_STR(kVK_F11, "F11");
MAP_STR(kVK_F12, "F12");
MAP_STR(kVK_F13, "F13");
MAP_STR(kVK_F14, "F14");
MAP_STR(kVK_F15, "F15");
MAP_STR(kVK_F16, "F16");
MAP_STR(kVK_F17, "F17");
MAP_STR(kVK_F18, "F18");
MAP_STR(kVK_F19, "F19");
MAP_STR(kVK_F20, "F20");
MAP_GLYPH(kVK_Control, kControlUnicode);
MAP_GLYPH(kVK_Shift, kShiftUnicode);
MAP_GLYPH(kVK_Option, kOptionUnicode);
MAP_GLYPH(kVK_Command, kCommandUnicode);
MAP_GLYPH(kVK_RightControl, kControlUnicode);
MAP_GLYPH(kVK_RightShift, kShiftUnicode);
MAP_GLYPH(kVK_RightOption, kOptionUnicode);
}
#undef MAP_STR
#undef MAP_GLYPH
return false;
}
void obs_key_to_str(obs_key_t key, struct dstr *str)
{
if (localized_key_to_str(key, str))
return;
int code = obs_key_to_virtual_key(key);
if (code_to_str(code, str))
return;
if (code == INVALID_KEY) {
blog(LOG_ERROR,
"hotkey-cocoa: Got invalid key while "
"translating key '%d' (%s)",
key, obs_key_to_name(key));
goto err;
}
struct obs_hotkeys_platform *plat = NULL;
if (obs) {
pthread_mutex_lock(&obs->hotkeys.mutex);
plat = obs->hotkeys.platform_context;
hotkeys_retain(plat);
pthread_mutex_unlock(&obs->hotkeys.mutex);
}
if (!plat) {
blog(LOG_ERROR,
"hotkey-cocoa: Could not get hotkey platform "
"while translating key '%d' (%s)",
key, obs_key_to_name(key));
goto err;
}
const UniCharCount max_length = 16;
UInt32 dead_key_state = 0;
UniChar buffer[max_length];
UniCharCount len = 0;
OSStatus err =
UCKeyTranslate(plat->layout, code, kUCKeyActionDown,
0x104, //caps lock for upper case letters
LMGetKbdType(), kUCKeyTranslateNoDeadKeysBit,
&dead_key_state, max_length, &len, buffer);
if (err == noErr && len <= 0 && dead_key_state) {
err = UCKeyTranslate(plat->layout, kVK_Space, kUCKeyActionDown,
0x104, LMGetKbdType(),
kUCKeyTranslateNoDeadKeysBit,
&dead_key_state, max_length, &len, buffer);
}
hotkeys_release(plat);
if (err != noErr) {
blog(LOG_ERROR,
"hotkey-cocoa: Error while translating key '%d'"
" (0x%x, %s) to string: %d",
key, code, obs_key_to_name(key), err);
goto err;
}
if (len == 0) {
blog(LOG_ERROR,
"hotkey-cocoa: Got 0 length string while "
"translating '%d' (0x%x, %s) to string",
key, code, obs_key_to_name(key));
goto err;
}
CFStringRef string = CFStringCreateWithCharactersNoCopy(
NULL, buffer, len, kCFAllocatorNull);
if (!string) {
blog(LOG_ERROR,
"hotkey-cocoa: Could not create CFStringRef "
"while translating '%d' (0x%x, %s) to string",
key, code, obs_key_to_name(key));
goto err;
}
if (!dstr_from_cfstring(str, string)) {
blog(LOG_ERROR,
"hotkey-cocoa: Could not translate CFStringRef "
"to CString while translating '%d' (0x%x, %s)",
key, code, obs_key_to_name(key));
goto release;
}
CFRelease(string);
return;
release:
CFRelease(string);
err:
dstr_copy(str, obs_key_to_name(key));
}
#define OBS_COCOA_MODIFIER_SIZE 7
static void unichar_to_utf8(const UniChar *c, char *buff)
{
CFStringRef string = CFStringCreateWithCharactersNoCopy(
NULL, c, 2, kCFAllocatorNull);
if (!string) {
blog(LOG_ERROR, "hotkey-cocoa: Could not create CFStringRef "
"while populating modifier strings");
return;
}
if (!CFStringGetCString(string, buff, OBS_COCOA_MODIFIER_SIZE,
kCFStringEncodingUTF8))
blog(LOG_ERROR,
"hotkey-cocoa: Error while populating "
" modifier string with glyph %d (0x%x)",
c[0], c[0]);
CFRelease(string);
}
static char ctrl_str[OBS_COCOA_MODIFIER_SIZE];
static char opt_str[OBS_COCOA_MODIFIER_SIZE];
static char shift_str[OBS_COCOA_MODIFIER_SIZE];
static char cmd_str[OBS_COCOA_MODIFIER_SIZE];
static void init_utf_8_strings(void)
{
const UniChar ctrl_uni[] = {kControlUnicode, 0};
const UniChar opt_uni[] = {kOptionUnicode, 0};
const UniChar shift_uni[] = {kShiftUnicode, 0};
const UniChar cmd_uni[] = {kCommandUnicode, 0};
unichar_to_utf8(ctrl_uni, ctrl_str);
unichar_to_utf8(opt_uni, opt_str);
unichar_to_utf8(shift_uni, shift_str);
unichar_to_utf8(cmd_uni, cmd_str);
}
static pthread_once_t strings_token = PTHREAD_ONCE_INIT;
void obs_key_combination_to_str(obs_key_combination_t key, struct dstr *str)
{
struct dstr key_str = {0};
if (key.key != OBS_KEY_NONE)
obs_key_to_str(key.key, &key_str);
int res = pthread_once(&strings_token, init_utf_8_strings);
if (res) {
blog(LOG_ERROR,
"hotkeys-cocoa: Error while translating "
"modifiers %d (0x%x)",
res, res);
dstr_move(str, &key_str);
return;
}
#define CHECK_MODIFIER(mod, str) ((key.modifiers & mod) ? str : "")
dstr_printf(str, "%s%s%s%s%s",
CHECK_MODIFIER(INTERACT_CONTROL_KEY, ctrl_str),
CHECK_MODIFIER(INTERACT_ALT_KEY, opt_str),
CHECK_MODIFIER(INTERACT_SHIFT_KEY, shift_str),
CHECK_MODIFIER(INTERACT_COMMAND_KEY, cmd_str),
key_str.len ? key_str.array : "");
#undef CHECK_MODIFIER
dstr_free(&key_str);
}
static inline CFDictionaryRef copy_device_mask(UInt32 page, UInt32 usage)
{
CFMutableDictionaryRef dict = CFDictionaryCreateMutable(
kCFAllocatorDefault, 2, &kCFTypeDictionaryKeyCallBacks,
&kCFTypeDictionaryValueCallBacks);
CFNumberRef value;
// Add the page value.
value = CFNumberCreate(kCFAllocatorDefault, kCFNumberIntType, &page);
CFDictionarySetValue(dict, CFSTR(kIOHIDDeviceUsagePageKey), value);
CFRelease(value);
// Add the usage value (which is only valid if page value exists).
value = CFNumberCreate(kCFAllocatorDefault, kCFNumberIntType, &usage);
CFDictionarySetValue(dict, CFSTR(kIOHIDDeviceUsageKey), value);
CFRelease(value);
return dict;
}
static CFSetRef copy_devices(obs_hotkeys_platform_t *plat, UInt32 page,
UInt32 usage)
{
CFDictionaryRef mask = copy_device_mask(page, usage);
IOHIDManagerSetDeviceMatching(plat->manager, mask);
CFRelease(mask);
CFSetRef devices = IOHIDManagerCopyDevices(plat->manager);
if (!devices)
return NULL;
if (CFSetGetCount(devices) < 1) {
CFRelease(devices);
return NULL;
}
return devices;
}
static UInt16 usage_to_carbon(UInt32 usage)
{
switch (usage) {
case kHIDUsage_KeyboardErrorRollOver:
return INVALID_KEY;
case kHIDUsage_KeyboardPOSTFail:
return INVALID_KEY;
case kHIDUsage_KeyboardErrorUndefined:
return INVALID_KEY;
case kHIDUsage_KeyboardA:
return kVK_ANSI_A;
case kHIDUsage_KeyboardB:
return kVK_ANSI_B;
case kHIDUsage_KeyboardC:
return kVK_ANSI_C;
case kHIDUsage_KeyboardD:
return kVK_ANSI_D;
case kHIDUsage_KeyboardE:
return kVK_ANSI_E;
case kHIDUsage_KeyboardF:
return kVK_ANSI_F;
case kHIDUsage_KeyboardG:
return kVK_ANSI_G;
case kHIDUsage_KeyboardH:
return kVK_ANSI_H;
case kHIDUsage_KeyboardI:
return kVK_ANSI_I;
case kHIDUsage_KeyboardJ:
return kVK_ANSI_J;
case kHIDUsage_KeyboardK:
return kVK_ANSI_K;
case kHIDUsage_KeyboardL:
return kVK_ANSI_L;
case kHIDUsage_KeyboardM:
return kVK_ANSI_M;
case kHIDUsage_KeyboardN:
return kVK_ANSI_N;
case kHIDUsage_KeyboardO:
return kVK_ANSI_O;
case kHIDUsage_KeyboardP:
return kVK_ANSI_P;
case kHIDUsage_KeyboardQ:
return kVK_ANSI_Q;
case kHIDUsage_KeyboardR:
return kVK_ANSI_R;
case kHIDUsage_KeyboardS:
return kVK_ANSI_S;
case kHIDUsage_KeyboardT:
return kVK_ANSI_T;
case kHIDUsage_KeyboardU:
return kVK_ANSI_U;
case kHIDUsage_KeyboardV:
return kVK_ANSI_V;
case kHIDUsage_KeyboardW:
return kVK_ANSI_W;
case kHIDUsage_KeyboardX:
return kVK_ANSI_X;
case kHIDUsage_KeyboardY:
return kVK_ANSI_Y;
case kHIDUsage_KeyboardZ:
return kVK_ANSI_Z;
case kHIDUsage_Keyboard1:
return kVK_ANSI_1;
case kHIDUsage_Keyboard2:
return kVK_ANSI_2;
case kHIDUsage_Keyboard3:
return kVK_ANSI_3;
case kHIDUsage_Keyboard4:
return kVK_ANSI_4;
case kHIDUsage_Keyboard5:
return kVK_ANSI_5;
case kHIDUsage_Keyboard6:
return kVK_ANSI_6;
case kHIDUsage_Keyboard7:
return kVK_ANSI_7;
case kHIDUsage_Keyboard8:
return kVK_ANSI_8;
case kHIDUsage_Keyboard9:
return kVK_ANSI_9;
case kHIDUsage_Keyboard0:
return kVK_ANSI_0;
case kHIDUsage_KeyboardReturnOrEnter:
return kVK_Return;
case kHIDUsage_KeyboardEscape:
return kVK_Escape;
case kHIDUsage_KeyboardDeleteOrBackspace:
return kVK_Delete;
case kHIDUsage_KeyboardTab:
return kVK_Tab;
case kHIDUsage_KeyboardSpacebar:
return kVK_Space;
case kHIDUsage_KeyboardHyphen:
return kVK_ANSI_Minus;
case kHIDUsage_KeyboardEqualSign:
return kVK_ANSI_Equal;
case kHIDUsage_KeyboardOpenBracket:
return kVK_ANSI_LeftBracket;
case kHIDUsage_KeyboardCloseBracket:
return kVK_ANSI_RightBracket;
case kHIDUsage_KeyboardBackslash:
return kVK_ANSI_Backslash;
case kHIDUsage_KeyboardNonUSPound:
return INVALID_KEY;
case kHIDUsage_KeyboardSemicolon:
return kVK_ANSI_Semicolon;
case kHIDUsage_KeyboardQuote:
return kVK_ANSI_Quote;
case kHIDUsage_KeyboardGraveAccentAndTilde:
return kVK_ANSI_Grave;
case kHIDUsage_KeyboardComma:
return kVK_ANSI_Comma;
case kHIDUsage_KeyboardPeriod:
return kVK_ANSI_Period;
case kHIDUsage_KeyboardSlash:
return kVK_ANSI_Slash;
case kHIDUsage_KeyboardCapsLock:
return kVK_CapsLock;
case kHIDUsage_KeyboardF1:
return kVK_F1;
case kHIDUsage_KeyboardF2:
return kVK_F2;
case kHIDUsage_KeyboardF3:
return kVK_F3;
case kHIDUsage_KeyboardF4:
return kVK_F4;
case kHIDUsage_KeyboardF5:
return kVK_F5;
case kHIDUsage_KeyboardF6:
return kVK_F6;
case kHIDUsage_KeyboardF7:
return kVK_F7;
case kHIDUsage_KeyboardF8:
return kVK_F8;
case kHIDUsage_KeyboardF9:
return kVK_F9;
case kHIDUsage_KeyboardF10:
return kVK_F10;
case kHIDUsage_KeyboardF11:
return kVK_F11;
case kHIDUsage_KeyboardF12:
return kVK_F12;
case kHIDUsage_KeyboardPrintScreen:
return INVALID_KEY;
case kHIDUsage_KeyboardScrollLock:
return INVALID_KEY;
case kHIDUsage_KeyboardPause:
return INVALID_KEY;
case kHIDUsage_KeyboardInsert:
return kVK_Help;
case kHIDUsage_KeyboardHome:
return kVK_Home;
case kHIDUsage_KeyboardPageUp:
return kVK_PageUp;
case kHIDUsage_KeyboardDeleteForward:
return kVK_ForwardDelete;
case kHIDUsage_KeyboardEnd:
return kVK_End;
case kHIDUsage_KeyboardPageDown:
return kVK_PageDown;
case kHIDUsage_KeyboardRightArrow:
return kVK_RightArrow;
case kHIDUsage_KeyboardLeftArrow:
return kVK_LeftArrow;
case kHIDUsage_KeyboardDownArrow:
return kVK_DownArrow;
case kHIDUsage_KeyboardUpArrow:
return kVK_UpArrow;
case kHIDUsage_KeypadNumLock:
return kVK_ANSI_KeypadClear;
case kHIDUsage_KeypadSlash:
return kVK_ANSI_KeypadDivide;
case kHIDUsage_KeypadAsterisk:
return kVK_ANSI_KeypadMultiply;
case kHIDUsage_KeypadHyphen:
return kVK_ANSI_KeypadMinus;
case kHIDUsage_KeypadPlus:
return kVK_ANSI_KeypadPlus;
case kHIDUsage_KeypadEnter:
return kVK_ANSI_KeypadEnter;
case kHIDUsage_Keypad1:
return kVK_ANSI_Keypad1;
case kHIDUsage_Keypad2:
return kVK_ANSI_Keypad2;
case kHIDUsage_Keypad3:
return kVK_ANSI_Keypad3;
case kHIDUsage_Keypad4:
return kVK_ANSI_Keypad4;
case kHIDUsage_Keypad5:
return kVK_ANSI_Keypad5;
case kHIDUsage_Keypad6:
return kVK_ANSI_Keypad6;
case kHIDUsage_Keypad7:
return kVK_ANSI_Keypad7;
case kHIDUsage_Keypad8:
return kVK_ANSI_Keypad8;
case kHIDUsage_Keypad9:
return kVK_ANSI_Keypad9;
case kHIDUsage_Keypad0:
return kVK_ANSI_Keypad0;
case kHIDUsage_KeypadPeriod:
return kVK_ANSI_KeypadDecimal;
case kHIDUsage_KeyboardNonUSBackslash:
return INVALID_KEY;
case kHIDUsage_KeyboardApplication:
return kVK_F13;
case kHIDUsage_KeyboardPower:
return INVALID_KEY;
case kHIDUsage_KeypadEqualSign:
return kVK_ANSI_KeypadEquals;
case kHIDUsage_KeyboardF13:
return kVK_F13;
case kHIDUsage_KeyboardF14:
return kVK_F14;
case kHIDUsage_KeyboardF15:
return kVK_F15;
case kHIDUsage_KeyboardF16:
return kVK_F16;
case kHIDUsage_KeyboardF17:
return kVK_F17;
case kHIDUsage_KeyboardF18:
return kVK_F18;
case kHIDUsage_KeyboardF19:
return kVK_F19;
case kHIDUsage_KeyboardF20:
return kVK_F20;
case kHIDUsage_KeyboardF21:
return INVALID_KEY;
case kHIDUsage_KeyboardF22:
return INVALID_KEY;
case kHIDUsage_KeyboardF23:
return INVALID_KEY;
case kHIDUsage_KeyboardF24:
return INVALID_KEY;
case kHIDUsage_KeyboardExecute:
return INVALID_KEY;
case kHIDUsage_KeyboardHelp:
return INVALID_KEY;
case kHIDUsage_KeyboardMenu:
return 0x7F;
case kHIDUsage_KeyboardSelect:
return kVK_ANSI_KeypadEnter;
case kHIDUsage_KeyboardStop:
return INVALID_KEY;
case kHIDUsage_KeyboardAgain:
return INVALID_KEY;
case kHIDUsage_KeyboardUndo:
return INVALID_KEY;
case kHIDUsage_KeyboardCut:
return INVALID_KEY;
case kHIDUsage_KeyboardCopy:
return INVALID_KEY;
case kHIDUsage_KeyboardPaste:
return INVALID_KEY;
case kHIDUsage_KeyboardFind:
return INVALID_KEY;
case kHIDUsage_KeyboardMute:
return kVK_Mute;
case kHIDUsage_KeyboardVolumeUp:
return kVK_VolumeUp;
case kHIDUsage_KeyboardVolumeDown:
return kVK_VolumeDown;
case kHIDUsage_KeyboardLockingCapsLock:
return INVALID_KEY;
case kHIDUsage_KeyboardLockingNumLock:
return INVALID_KEY;
case kHIDUsage_KeyboardLockingScrollLock:
return INVALID_KEY;
case kHIDUsage_KeypadComma:
return INVALID_KEY;
case kHIDUsage_KeypadEqualSignAS400:
return INVALID_KEY;
case kHIDUsage_KeyboardInternational1:
return INVALID_KEY;
case kHIDUsage_KeyboardInternational2:
return INVALID_KEY;
case kHIDUsage_KeyboardInternational3:
return INVALID_KEY;
case kHIDUsage_KeyboardInternational4:
return INVALID_KEY;
case kHIDUsage_KeyboardInternational5:
return INVALID_KEY;
case kHIDUsage_KeyboardInternational6:
return INVALID_KEY;
case kHIDUsage_KeyboardInternational7:
return INVALID_KEY;
case kHIDUsage_KeyboardInternational8:
return INVALID_KEY;
case kHIDUsage_KeyboardInternational9:
return INVALID_KEY;
case kHIDUsage_KeyboardLANG1:
return INVALID_KEY;
case kHIDUsage_KeyboardLANG2:
return INVALID_KEY;
case kHIDUsage_KeyboardLANG3:
return INVALID_KEY;
case kHIDUsage_KeyboardLANG4:
return INVALID_KEY;
case kHIDUsage_KeyboardLANG5:
return INVALID_KEY;
case kHIDUsage_KeyboardLANG6:
return INVALID_KEY;
case kHIDUsage_KeyboardLANG7:
return INVALID_KEY;
case kHIDUsage_KeyboardLANG8:
return INVALID_KEY;
case kHIDUsage_KeyboardLANG9:
return INVALID_KEY;
case kHIDUsage_KeyboardAlternateErase:
return INVALID_KEY;
case kHIDUsage_KeyboardSysReqOrAttention:
return INVALID_KEY;
case kHIDUsage_KeyboardCancel:
return INVALID_KEY;
case kHIDUsage_KeyboardClear:
return INVALID_KEY;
case kHIDUsage_KeyboardPrior:
return INVALID_KEY;
case kHIDUsage_KeyboardReturn:
return INVALID_KEY;
case kHIDUsage_KeyboardSeparator:
return INVALID_KEY;
case kHIDUsage_KeyboardOut:
return INVALID_KEY;
case kHIDUsage_KeyboardOper:
return INVALID_KEY;
case kHIDUsage_KeyboardClearOrAgain:
return INVALID_KEY;
case kHIDUsage_KeyboardCrSelOrProps:
return INVALID_KEY;
case kHIDUsage_KeyboardExSel:
return INVALID_KEY;
/* 0xa5-0xdf Reserved */
case kHIDUsage_KeyboardLeftControl:
return kVK_Control;
case kHIDUsage_KeyboardLeftShift:
return kVK_Shift;
case kHIDUsage_KeyboardLeftAlt:
return kVK_Option;
case kHIDUsage_KeyboardLeftGUI:
return kVK_Command;
case kHIDUsage_KeyboardRightControl:
return kVK_RightControl;
case kHIDUsage_KeyboardRightShift:
return kVK_RightShift;
case kHIDUsage_KeyboardRightAlt:
return kVK_RightOption;
case kHIDUsage_KeyboardRightGUI:
return 0x36; //??
/* 0xe8-0xffff Reserved */
case kHIDUsage_Keyboard_Reserved:
return INVALID_KEY;
default:
return INVALID_KEY;
}
return INVALID_KEY;
}
obs_key_t obs_key_from_virtual_key(int code)
{
switch (code) {
case kVK_ANSI_A:
return OBS_KEY_A;
case kVK_ANSI_B:
return OBS_KEY_B;
case kVK_ANSI_C:
return OBS_KEY_C;
case kVK_ANSI_D:
return OBS_KEY_D;
case kVK_ANSI_E:
return OBS_KEY_E;
case kVK_ANSI_F:
return OBS_KEY_F;
case kVK_ANSI_G:
return OBS_KEY_G;
case kVK_ANSI_H:
return OBS_KEY_H;
case kVK_ANSI_I:
return OBS_KEY_I;
case kVK_ANSI_J:
return OBS_KEY_J;
case kVK_ANSI_K:
return OBS_KEY_K;
case kVK_ANSI_L:
return OBS_KEY_L;
case kVK_ANSI_M:
return OBS_KEY_M;
case kVK_ANSI_N:
return OBS_KEY_N;
case kVK_ANSI_O:
return OBS_KEY_O;
case kVK_ANSI_P:
return OBS_KEY_P;
case kVK_ANSI_Q:
return OBS_KEY_Q;
case kVK_ANSI_R:
return OBS_KEY_R;
case kVK_ANSI_S:
return OBS_KEY_S;
case kVK_ANSI_T:
return OBS_KEY_T;
case kVK_ANSI_U:
return OBS_KEY_U;
case kVK_ANSI_V:
return OBS_KEY_V;
case kVK_ANSI_W:
return OBS_KEY_W;
case kVK_ANSI_X:
return OBS_KEY_X;
case kVK_ANSI_Y:
return OBS_KEY_Y;
case kVK_ANSI_Z:
return OBS_KEY_Z;
case kVK_ANSI_1:
return OBS_KEY_1;
case kVK_ANSI_2:
return OBS_KEY_2;
case kVK_ANSI_3:
return OBS_KEY_3;
case kVK_ANSI_4:
return OBS_KEY_4;
case kVK_ANSI_5:
return OBS_KEY_5;
case kVK_ANSI_6:
return OBS_KEY_6;
case kVK_ANSI_7:
return OBS_KEY_7;
case kVK_ANSI_8:
return OBS_KEY_8;
case kVK_ANSI_9:
return OBS_KEY_9;
case kVK_ANSI_0:
return OBS_KEY_0;
case kVK_Return:
return OBS_KEY_RETURN;
case kVK_Escape:
return OBS_KEY_ESCAPE;
case kVK_Delete:
return OBS_KEY_BACKSPACE;
case kVK_Tab:
return OBS_KEY_TAB;
case kVK_Space:
return OBS_KEY_SPACE;
case kVK_ANSI_Minus:
return OBS_KEY_MINUS;
case kVK_ANSI_Equal:
return OBS_KEY_EQUAL;
case kVK_ANSI_LeftBracket:
return OBS_KEY_BRACKETLEFT;
case kVK_ANSI_RightBracket:
return OBS_KEY_BRACKETRIGHT;
case kVK_ANSI_Backslash:
return OBS_KEY_BACKSLASH;
case kVK_ANSI_Semicolon:
return OBS_KEY_SEMICOLON;
case kVK_ANSI_Quote:
return OBS_KEY_QUOTE;
case kVK_ANSI_Grave:
return OBS_KEY_DEAD_GRAVE;
case kVK_ANSI_Comma:
return OBS_KEY_COMMA;
case kVK_ANSI_Period:
return OBS_KEY_PERIOD;
case kVK_ANSI_Slash:
return OBS_KEY_SLASH;
case kVK_CapsLock:
return OBS_KEY_CAPSLOCK;
case kVK_ISO_Section:
return OBS_KEY_SECTION;
case kVK_F1:
return OBS_KEY_F1;
case kVK_F2:
return OBS_KEY_F2;
case kVK_F3:
return OBS_KEY_F3;
case kVK_F4:
return OBS_KEY_F4;
case kVK_F5:
return OBS_KEY_F5;
case kVK_F6:
return OBS_KEY_F6;
case kVK_F7:
return OBS_KEY_F7;
case kVK_F8:
return OBS_KEY_F8;
case kVK_F9:
return OBS_KEY_F9;
case kVK_F10:
return OBS_KEY_F10;
case kVK_F11:
return OBS_KEY_F11;
case kVK_F12:
return OBS_KEY_F12;
case kVK_Help:
return OBS_KEY_HELP;
case kVK_Home:
return OBS_KEY_HOME;
case kVK_PageUp:
return OBS_KEY_PAGEUP;
case kVK_ForwardDelete:
return OBS_KEY_DELETE;
case kVK_End:
return OBS_KEY_END;
case kVK_PageDown:
return OBS_KEY_PAGEDOWN;
case kVK_RightArrow:
return OBS_KEY_RIGHT;
case kVK_LeftArrow:
return OBS_KEY_LEFT;
case kVK_DownArrow:
return OBS_KEY_DOWN;
case kVK_UpArrow:
return OBS_KEY_UP;
case kVK_ANSI_KeypadClear:
return OBS_KEY_CLEAR;
case kVK_ANSI_KeypadDivide:
return OBS_KEY_NUMSLASH;
case kVK_ANSI_KeypadMultiply:
return OBS_KEY_NUMASTERISK;
case kVK_ANSI_KeypadMinus:
return OBS_KEY_NUMMINUS;
case kVK_ANSI_KeypadPlus:
return OBS_KEY_NUMPLUS;
case kVK_ANSI_KeypadEnter:
return OBS_KEY_ENTER;
case kVK_ANSI_Keypad1:
return OBS_KEY_NUM1;
case kVK_ANSI_Keypad2:
return OBS_KEY_NUM2;
case kVK_ANSI_Keypad3:
return OBS_KEY_NUM3;
case kVK_ANSI_Keypad4:
return OBS_KEY_NUM4;
case kVK_ANSI_Keypad5:
return OBS_KEY_NUM5;
case kVK_ANSI_Keypad6:
return OBS_KEY_NUM6;
case kVK_ANSI_Keypad7:
return OBS_KEY_NUM7;
case kVK_ANSI_Keypad8:
return OBS_KEY_NUM8;
case kVK_ANSI_Keypad9:
return OBS_KEY_NUM9;
case kVK_ANSI_Keypad0:
return OBS_KEY_NUM0;
case kVK_ANSI_KeypadDecimal:
return OBS_KEY_NUMPERIOD;
case kVK_ANSI_KeypadEquals:
return OBS_KEY_NUMEQUAL;
case kVK_F13:
return OBS_KEY_F13;
case kVK_F14:
return OBS_KEY_F14;
case kVK_F15:
return OBS_KEY_F15;
case kVK_F16:
return OBS_KEY_F16;
case kVK_F17:
return OBS_KEY_F17;
case kVK_F18:
return OBS_KEY_F18;
case kVK_F19:
return OBS_KEY_F19;
case kVK_F20:
return OBS_KEY_F20;
case kVK_Control:
return OBS_KEY_CONTROL;
case kVK_Shift:
return OBS_KEY_SHIFT;
case kVK_Option:
return OBS_KEY_ALT;
case kVK_Command:
return OBS_KEY_META;
case kVK_RightControl:
return OBS_KEY_CONTROL;
case kVK_RightShift:
return OBS_KEY_SHIFT;
case kVK_RightOption:
return OBS_KEY_ALT;
case 0x36:
return OBS_KEY_META;
case kVK_Function:
case kVK_Mute:
case kVK_VolumeDown:
case kVK_VolumeUp:
break;
}
return OBS_KEY_NONE;
}
static inline void load_key(obs_hotkeys_platform_t *plat, IOHIDElementRef key)
{
UInt32 usage_code = IOHIDElementGetUsage(key);
UInt16 carbon_code = usage_to_carbon(usage_code);
if (carbon_code == INVALID_KEY)
return;
obs_key_t obs_key = obs_key_from_virtual_key(carbon_code);
if (obs_key == OBS_KEY_NONE)
return;
da_push_back(plat->keys[obs_key], &key);
CFRetain(*(IOHIDElementRef *)da_end(plat->keys[obs_key]));
}
static inline void load_keyboard(obs_hotkeys_platform_t *plat,
IOHIDDeviceRef keyboard)
{
CFArrayRef keys = IOHIDDeviceCopyMatchingElements(
keyboard, NULL, kIOHIDOptionsTypeNone);
if (!keys) {
blog(LOG_ERROR, "hotkeys-cocoa: Getting keyboard keys failed");
return;
}
CFIndex count = CFArrayGetCount(keys);
if (!count) {
blog(LOG_ERROR, "hotkeys-cocoa: Keyboard has no keys");
CFRelease(keys);
return;
}
for (CFIndex i = 0; i < count; i++) {
IOHIDElementRef key =
(IOHIDElementRef)CFArrayGetValueAtIndex(keys, i);
// Skip non-matching keys elements
if (IOHIDElementGetUsagePage(key) != kHIDPage_KeyboardOrKeypad)
continue;
load_key(plat, key);
}
CFRelease(keys);
}
static bool init_keyboard(obs_hotkeys_platform_t *plat)
{
CFSetRef keyboards = copy_devices(plat, kHIDPage_GenericDesktop,
kHIDUsage_GD_Keyboard);
if (!keyboards)
return false;
CFIndex count = CFSetGetCount(keyboards);
CFTypeRef devices[count];
CFSetGetValues(keyboards, devices);
for (CFIndex i = 0; i < count; i++)
load_keyboard(plat, (IOHIDDeviceRef)devices[i]);
CFRelease(keyboards);
return true;
}
static inline void free_hotkeys_platform(obs_hotkeys_platform_t *plat)
{
if (!plat)
return;
if (plat->tis) {
CFRelease(plat->tis);
plat->tis = NULL;
}
if (plat->layout_data) {
CFRelease(plat->layout_data);
plat->layout_data = NULL;
}
if (plat->manager) {
CFRelease(plat->manager);
plat->manager = NULL;
}
for (size_t i = 0; i < OBS_KEY_LAST_VALUE; i++) {
for (size_t j = 0; j < plat->keys[i].num; j++)
CFRelease(plat->keys[i].array[j]);
da_free(plat->keys[i]);
}
bfree(plat);
}
static bool log_layout_name(TISInputSourceRef tis)
{
struct dstr layout_name = {0};
CFStringRef sid = (CFStringRef)TISGetInputSourceProperty(
tis, kTISPropertyInputSourceID);
if (!sid) {
blog(LOG_ERROR, "hotkeys-cocoa: Failed getting InputSourceID");
return false;
}
if (!dstr_from_cfstring(&layout_name, sid)) {
blog(LOG_ERROR, "hotkeys-cocoa: Could not convert InputSourceID"
" to CString");
goto fail;
}
blog(LOG_INFO, "hotkeys-cocoa: Using layout '%s'", layout_name.array);
dstr_free(&layout_name);
return true;
fail:
dstr_free(&layout_name);
return false;
}
static bool init_hotkeys_platform(obs_hotkeys_platform_t **plat_)
{
if (!plat_)
return false;
*plat_ = bzalloc(sizeof(obs_hotkeys_platform_t));
obs_hotkeys_platform_t *plat = *plat_;
if (!plat) {
*plat_ = NULL;
return false;
}
plat->tis = TISCopyCurrentKeyboardLayoutInputSource();
plat->layout_data = (CFDataRef)TISGetInputSourceProperty(
plat->tis, kTISPropertyUnicodeKeyLayoutData);
if (!plat->layout_data) {
blog(LOG_ERROR, "hotkeys-cocoa: Failed getting LayoutData");
goto fail;
}
CFRetain(plat->layout_data);
plat->layout = (UCKeyboardLayout *)CFDataGetBytePtr(plat->layout_data);
plat->manager =
IOHIDManagerCreate(kCFAllocatorDefault, kIOHIDOptionsTypeNone);
IOReturn openStatus =
IOHIDManagerOpen(plat->manager, kIOHIDOptionsTypeNone);
if (openStatus != kIOReturnSuccess) {
blog(LOG_ERROR, "hotkeys-cocoa: Failed opening HIDManager");
goto fail;
}
init_keyboard(plat);
return true;
fail:
hotkeys_release(plat);
*plat_ = NULL;
return false;
}
static void input_method_changed(CFNotificationCenterRef nc, void *observer,
CFStringRef name, const void *object,
CFDictionaryRef user_info)
{
UNUSED_PARAMETER(nc);
UNUSED_PARAMETER(name);
UNUSED_PARAMETER(object);
UNUSED_PARAMETER(user_info);
struct obs_core_hotkeys *hotkeys = observer;
obs_hotkeys_platform_t *new_plat;
if (init_hotkeys_platform(&new_plat)) {
obs_hotkeys_platform_t *plat;
pthread_mutex_lock(&hotkeys->mutex);
plat = hotkeys->platform_context;
if (new_plat && plat &&
new_plat->layout_data == plat->layout_data) {
pthread_mutex_unlock(&hotkeys->mutex);
hotkeys_release(new_plat);
return;
}
hotkeys->platform_context = new_plat;
if (new_plat)
log_layout_name(new_plat->tis);
pthread_mutex_unlock(&hotkeys->mutex);
calldata_t params = {0};
signal_handler_signal(hotkeys->signals, "hotkey_layout_change",
&params);
if (plat)
hotkeys_release(plat);
}
}
bool obs_hotkeys_platform_init(struct obs_core_hotkeys *hotkeys)
{
CFNotificationCenterAddObserver(
CFNotificationCenterGetDistributedCenter(), hotkeys,
input_method_changed,
kTISNotifySelectedKeyboardInputSourceChanged, NULL,
CFNotificationSuspensionBehaviorDeliverImmediately);
input_method_changed(NULL, hotkeys, NULL, NULL, NULL);
return hotkeys->platform_context != NULL;
}
void obs_hotkeys_platform_free(struct obs_core_hotkeys *hotkeys)
{
CFNotificationCenterRemoveEveryObserver(
CFNotificationCenterGetDistributedCenter(), hotkeys);
hotkeys_release(hotkeys->platform_context);
}
typedef unsigned long NSUInteger;
static bool mouse_button_pressed(obs_key_t key, bool *pressed)
{
int button = 0;
switch (key) {
#define MAP_BUTTON(n) \
case OBS_KEY_MOUSE##n: \
button = n - 1; \
break
MAP_BUTTON(1);
MAP_BUTTON(2);
MAP_BUTTON(3);
MAP_BUTTON(4);
MAP_BUTTON(5);
MAP_BUTTON(6);
MAP_BUTTON(7);
MAP_BUTTON(8);
MAP_BUTTON(9);
MAP_BUTTON(10);
MAP_BUTTON(11);
MAP_BUTTON(12);
MAP_BUTTON(13);
MAP_BUTTON(14);
MAP_BUTTON(15);
MAP_BUTTON(16);
MAP_BUTTON(17);
MAP_BUTTON(18);
MAP_BUTTON(19);
MAP_BUTTON(20);
MAP_BUTTON(21);
MAP_BUTTON(22);
MAP_BUTTON(23);
MAP_BUTTON(24);
MAP_BUTTON(25);
MAP_BUTTON(26);
MAP_BUTTON(27);
MAP_BUTTON(28);
MAP_BUTTON(29);
break;
#undef MAP_BUTTON
default:
return false;
}
Class NSEvent = objc_getClass("NSEvent");
SEL pressedMouseButtonsSel = sel_registerName("pressedMouseButtons");
typedef int (*func)(id, SEL);
func pressedMouseButtons = (func)objc_msgSend;
NSUInteger buttons = (NSUInteger)pressedMouseButtons(
(id)NSEvent, pressedMouseButtonsSel);
*pressed = (buttons & (1 << button)) != 0;
return true;
}
bool obs_hotkeys_platform_is_pressed(obs_hotkeys_platform_t *plat,
obs_key_t key)
{
bool mouse_pressed = false;
if (mouse_button_pressed(key, &mouse_pressed))
return mouse_pressed;
if (!plat)
return false;
if (key >= OBS_KEY_LAST_VALUE)
return false;
/* if secure input is activated, kill hotkeys.
*
* TODO: rewrite all mac hotkey code, suspect there's a bug in 10.15
* causing the crash internally. */
if (plat->secure_input_activated) {
return false;
}
for (size_t i = 0; i < plat->keys[key].num;) {
IOHIDElementRef element = plat->keys[key].array[i];
IOHIDValueRef value = 0;
IOHIDDeviceRef device = IOHIDElementGetDevice(element);
if (device == NULL) {
continue;
}
if (using_10_15_or_above && IsSecureEventInputEnabled()) {
plat->secure_input_activated = true;
return false;
}
if (IOHIDDeviceGetValue(device, element, &value) !=
kIOReturnSuccess) {
i += 1;
continue;
}
if (!value) {
CFRelease(element);
da_erase(plat->keys[key], i);
continue;
}
if (IOHIDValueGetIntegerValue(value) == 1)
return true;
i += 1;
}
return false;
}
void *obs_graphics_thread_autorelease(void *param)
{
@autoreleasepool {
return obs_graphics_thread(param);
}
}
bool obs_graphics_thread_loop_autorelease(struct obs_graphics_context *context)
{
@autoreleasepool {
return obs_graphics_thread_loop(context);
}
}