obs-studio/libobs/obs-windows.c

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/******************************************************************************
Copyright (C) 2013 by Hugh Bailey <obs.jim@gmail.com>
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/windows/win-registry.h"
#include "util/windows/win-version.h"
#include "util/platform.h"
#include "util/dstr.h"
#include "obs.h"
#include "obs-internal.h"
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#include <windows.h>
#include <wscapi.h>
#include <iwscapi.h>
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static uint32_t win_ver = 0;
const char *get_module_extension(void)
{
return ".dll";
}
#ifdef _WIN64
(API Change) Refactor module handling Changed API: - char *obs_find_plugin_file(const char *sub_path); Changed to: char *obs_module_file(const char *file); Cahnge it so you no longer need to specify a sub-path such as: obs_find_plugin_file("module_name/file.ext") Instead, now automatically handle the module data path so all you need to do is: obs_module_file("file.ext") - int obs_load_module(const char *name); Changed to: int obs_open_module(obs_module_t *module, const char *path, const char *data_path); bool obs_init_module(obs_module_t module); Change the module loading API so that if the front-end chooses, it can load modules directly from a specified path, and associate a data directory with it on the spot. The module will not be initialized immediately; obs_init_module must be called on the module pointer in order to fully initialize the module. This is done so a module can be disabled by the front-end if the it so chooses. New API: - void obs_add_module_path(const char *bin, const char *data); These functions allow you to specify new module search paths to add, and allow you to search through them, or optionally just load all modules from them. If the string %module% is included, it will replace it with the module's name when that string is used as a lookup. Data paths are now directly added to the module's internal storage structure, and when obs_find_module_file is used, it will look up the pointer to the obs_module structure and get its data directory that way. Example: obs_add_module_path("/opt/obs/my-modules/%module%/bin", "/opt/obs/my-modules/%module%/data"); This would cause it to additionally look for the binary of a hypthetical module named "foo" at /opt/obs/my-modules/foo/bin/foo.so (or libfoo.so), and then look for the data in /opt/obs/my-modules/foo/data. This gives the front-end more flexibility for handling third-party plugin modules, or handling all plugin modules in a custom way. - void obs_find_modules(obs_find_module_callback_t callback, void *param); This searches the existing paths for modules and calls the callback function when any are found. Useful for plugin management and custom handling of the paths by the front-end if desired. - void obs_load_all_modules(void); Search through the paths and both loads and initializes all modules automatically without custom handling. - void obs_enum_modules(obs_enum_module_callback_t callback, void *param); Enumerates currently opened modules.
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#define BIT_STRING "64bit"
#else
(API Change) Refactor module handling Changed API: - char *obs_find_plugin_file(const char *sub_path); Changed to: char *obs_module_file(const char *file); Cahnge it so you no longer need to specify a sub-path such as: obs_find_plugin_file("module_name/file.ext") Instead, now automatically handle the module data path so all you need to do is: obs_module_file("file.ext") - int obs_load_module(const char *name); Changed to: int obs_open_module(obs_module_t *module, const char *path, const char *data_path); bool obs_init_module(obs_module_t module); Change the module loading API so that if the front-end chooses, it can load modules directly from a specified path, and associate a data directory with it on the spot. The module will not be initialized immediately; obs_init_module must be called on the module pointer in order to fully initialize the module. This is done so a module can be disabled by the front-end if the it so chooses. New API: - void obs_add_module_path(const char *bin, const char *data); These functions allow you to specify new module search paths to add, and allow you to search through them, or optionally just load all modules from them. If the string %module% is included, it will replace it with the module's name when that string is used as a lookup. Data paths are now directly added to the module's internal storage structure, and when obs_find_module_file is used, it will look up the pointer to the obs_module structure and get its data directory that way. Example: obs_add_module_path("/opt/obs/my-modules/%module%/bin", "/opt/obs/my-modules/%module%/data"); This would cause it to additionally look for the binary of a hypthetical module named "foo" at /opt/obs/my-modules/foo/bin/foo.so (or libfoo.so), and then look for the data in /opt/obs/my-modules/foo/data. This gives the front-end more flexibility for handling third-party plugin modules, or handling all plugin modules in a custom way. - void obs_find_modules(obs_find_module_callback_t callback, void *param); This searches the existing paths for modules and calls the callback function when any are found. Useful for plugin management and custom handling of the paths by the front-end if desired. - void obs_load_all_modules(void); Search through the paths and both loads and initializes all modules automatically without custom handling. - void obs_enum_modules(obs_enum_module_callback_t callback, void *param); Enumerates currently opened modules.
2014-07-27 12:00:11 -07:00
#define BIT_STRING "32bit"
#endif
(API Change) Refactor module handling Changed API: - char *obs_find_plugin_file(const char *sub_path); Changed to: char *obs_module_file(const char *file); Cahnge it so you no longer need to specify a sub-path such as: obs_find_plugin_file("module_name/file.ext") Instead, now automatically handle the module data path so all you need to do is: obs_module_file("file.ext") - int obs_load_module(const char *name); Changed to: int obs_open_module(obs_module_t *module, const char *path, const char *data_path); bool obs_init_module(obs_module_t module); Change the module loading API so that if the front-end chooses, it can load modules directly from a specified path, and associate a data directory with it on the spot. The module will not be initialized immediately; obs_init_module must be called on the module pointer in order to fully initialize the module. This is done so a module can be disabled by the front-end if the it so chooses. New API: - void obs_add_module_path(const char *bin, const char *data); These functions allow you to specify new module search paths to add, and allow you to search through them, or optionally just load all modules from them. If the string %module% is included, it will replace it with the module's name when that string is used as a lookup. Data paths are now directly added to the module's internal storage structure, and when obs_find_module_file is used, it will look up the pointer to the obs_module structure and get its data directory that way. Example: obs_add_module_path("/opt/obs/my-modules/%module%/bin", "/opt/obs/my-modules/%module%/data"); This would cause it to additionally look for the binary of a hypthetical module named "foo" at /opt/obs/my-modules/foo/bin/foo.so (or libfoo.so), and then look for the data in /opt/obs/my-modules/foo/data. This gives the front-end more flexibility for handling third-party plugin modules, or handling all plugin modules in a custom way. - void obs_find_modules(obs_find_module_callback_t callback, void *param); This searches the existing paths for modules and calls the callback function when any are found. Useful for plugin management and custom handling of the paths by the front-end if desired. - void obs_load_all_modules(void); Search through the paths and both loads and initializes all modules automatically without custom handling. - void obs_enum_modules(obs_enum_module_callback_t callback, void *param); Enumerates currently opened modules.
2014-07-27 12:00:11 -07:00
static const char *module_bin[] = {
"../../obs-plugins/" BIT_STRING,
};
static const char *module_data[] = {"../../data/obs-plugins/%module%"};
(API Change) Refactor module handling Changed API: - char *obs_find_plugin_file(const char *sub_path); Changed to: char *obs_module_file(const char *file); Cahnge it so you no longer need to specify a sub-path such as: obs_find_plugin_file("module_name/file.ext") Instead, now automatically handle the module data path so all you need to do is: obs_module_file("file.ext") - int obs_load_module(const char *name); Changed to: int obs_open_module(obs_module_t *module, const char *path, const char *data_path); bool obs_init_module(obs_module_t module); Change the module loading API so that if the front-end chooses, it can load modules directly from a specified path, and associate a data directory with it on the spot. The module will not be initialized immediately; obs_init_module must be called on the module pointer in order to fully initialize the module. This is done so a module can be disabled by the front-end if the it so chooses. New API: - void obs_add_module_path(const char *bin, const char *data); These functions allow you to specify new module search paths to add, and allow you to search through them, or optionally just load all modules from them. If the string %module% is included, it will replace it with the module's name when that string is used as a lookup. Data paths are now directly added to the module's internal storage structure, and when obs_find_module_file is used, it will look up the pointer to the obs_module structure and get its data directory that way. Example: obs_add_module_path("/opt/obs/my-modules/%module%/bin", "/opt/obs/my-modules/%module%/data"); This would cause it to additionally look for the binary of a hypthetical module named "foo" at /opt/obs/my-modules/foo/bin/foo.so (or libfoo.so), and then look for the data in /opt/obs/my-modules/foo/data. This gives the front-end more flexibility for handling third-party plugin modules, or handling all plugin modules in a custom way. - void obs_find_modules(obs_find_module_callback_t callback, void *param); This searches the existing paths for modules and calls the callback function when any are found. Useful for plugin management and custom handling of the paths by the front-end if desired. - void obs_load_all_modules(void); Search through the paths and both loads and initializes all modules automatically without custom handling. - void obs_enum_modules(obs_enum_module_callback_t callback, void *param); Enumerates currently opened modules.
2014-07-27 12:00:11 -07:00
static const int module_patterns_size =
sizeof(module_bin) / sizeof(module_bin[0]);
(API Change) Refactor module handling Changed API: - char *obs_find_plugin_file(const char *sub_path); Changed to: char *obs_module_file(const char *file); Cahnge it so you no longer need to specify a sub-path such as: obs_find_plugin_file("module_name/file.ext") Instead, now automatically handle the module data path so all you need to do is: obs_module_file("file.ext") - int obs_load_module(const char *name); Changed to: int obs_open_module(obs_module_t *module, const char *path, const char *data_path); bool obs_init_module(obs_module_t module); Change the module loading API so that if the front-end chooses, it can load modules directly from a specified path, and associate a data directory with it on the spot. The module will not be initialized immediately; obs_init_module must be called on the module pointer in order to fully initialize the module. This is done so a module can be disabled by the front-end if the it so chooses. New API: - void obs_add_module_path(const char *bin, const char *data); These functions allow you to specify new module search paths to add, and allow you to search through them, or optionally just load all modules from them. If the string %module% is included, it will replace it with the module's name when that string is used as a lookup. Data paths are now directly added to the module's internal storage structure, and when obs_find_module_file is used, it will look up the pointer to the obs_module structure and get its data directory that way. Example: obs_add_module_path("/opt/obs/my-modules/%module%/bin", "/opt/obs/my-modules/%module%/data"); This would cause it to additionally look for the binary of a hypthetical module named "foo" at /opt/obs/my-modules/foo/bin/foo.so (or libfoo.so), and then look for the data in /opt/obs/my-modules/foo/data. This gives the front-end more flexibility for handling third-party plugin modules, or handling all plugin modules in a custom way. - void obs_find_modules(obs_find_module_callback_t callback, void *param); This searches the existing paths for modules and calls the callback function when any are found. Useful for plugin management and custom handling of the paths by the front-end if desired. - void obs_load_all_modules(void); Search through the paths and both loads and initializes all modules automatically without custom handling. - void obs_enum_modules(obs_enum_module_callback_t callback, void *param); Enumerates currently opened modules.
2014-07-27 12:00:11 -07:00
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]);
}
(API Change) Refactor module handling Changed API: - char *obs_find_plugin_file(const char *sub_path); Changed to: char *obs_module_file(const char *file); Cahnge it so you no longer need to specify a sub-path such as: obs_find_plugin_file("module_name/file.ext") Instead, now automatically handle the module data path so all you need to do is: obs_module_file("file.ext") - int obs_load_module(const char *name); Changed to: int obs_open_module(obs_module_t *module, const char *path, const char *data_path); bool obs_init_module(obs_module_t module); Change the module loading API so that if the front-end chooses, it can load modules directly from a specified path, and associate a data directory with it on the spot. The module will not be initialized immediately; obs_init_module must be called on the module pointer in order to fully initialize the module. This is done so a module can be disabled by the front-end if the it so chooses. New API: - void obs_add_module_path(const char *bin, const char *data); These functions allow you to specify new module search paths to add, and allow you to search through them, or optionally just load all modules from them. If the string %module% is included, it will replace it with the module's name when that string is used as a lookup. Data paths are now directly added to the module's internal storage structure, and when obs_find_module_file is used, it will look up the pointer to the obs_module structure and get its data directory that way. Example: obs_add_module_path("/opt/obs/my-modules/%module%/bin", "/opt/obs/my-modules/%module%/data"); This would cause it to additionally look for the binary of a hypthetical module named "foo" at /opt/obs/my-modules/foo/bin/foo.so (or libfoo.so), and then look for the data in /opt/obs/my-modules/foo/data. This gives the front-end more flexibility for handling third-party plugin modules, or handling all plugin modules in a custom way. - void obs_find_modules(obs_find_module_callback_t callback, void *param); This searches the existing paths for modules and calls the callback function when any are found. Useful for plugin management and custom handling of the paths by the front-end if desired. - void obs_load_all_modules(void); Search through the paths and both loads and initializes all modules automatically without custom handling. - void obs_enum_modules(obs_enum_module_callback_t callback, void *param); Enumerates currently opened modules.
2014-07-27 12:00:11 -07:00
/* on windows, points to [base directory]/data/libobs */
char *find_libobs_data_file(const char *file)
{
struct dstr path;
dstr_init(&path);
if (check_path(file, "../../data/libobs/", &path))
return path.array;
dstr_free(&path);
return NULL;
}
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static void log_processor_info(void)
{
HKEY key;
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wchar_t data[1024];
char *str = NULL;
DWORD size, speed;
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LSTATUS status;
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memset(data, 0, sizeof(data));
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status = RegOpenKeyW(
HKEY_LOCAL_MACHINE,
L"HARDWARE\\DESCRIPTION\\System\\CentralProcessor\\0", &key);
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if (status != ERROR_SUCCESS)
return;
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size = sizeof(data);
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status = RegQueryValueExW(key, L"ProcessorNameString", NULL, NULL,
(LPBYTE)data, &size);
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if (status == ERROR_SUCCESS) {
os_wcs_to_utf8_ptr(data, 0, &str);
blog(LOG_INFO, "CPU Name: %s", str);
bfree(str);
}
size = sizeof(speed);
status = RegQueryValueExW(key, L"~MHz", NULL, NULL, (LPBYTE)&speed,
&size);
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if (status == ERROR_SUCCESS)
blog(LOG_INFO, "CPU Speed: %ldMHz", speed);
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RegCloseKey(key);
}
static void log_processor_cores(void)
{
blog(LOG_INFO, "Physical Cores: %d, Logical Cores: %d",
os_get_physical_cores(), os_get_logical_cores());
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}
static void log_available_memory(void)
{
MEMORYSTATUSEX ms;
ms.dwLength = sizeof(ms);
GlobalMemoryStatusEx(&ms);
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#ifdef _WIN64
const char *note = "";
#else
const char *note = " (NOTE: 32bit programs cannot use more than 3gb)";
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#endif
blog(LOG_INFO, "Physical Memory: %luMB Total, %luMB Free%s",
(DWORD)(ms.ullTotalPhys / 1048576),
(DWORD)(ms.ullAvailPhys / 1048576), note);
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}
extern const char *get_win_release_id();
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static void log_windows_version(void)
{
struct win_version_info ver;
get_win_ver(&ver);
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const char *release_id = get_win_release_id();
bool b64 = is_64_bit_windows();
const char *windows_bitness = b64 ? "64" : "32";
blog(LOG_INFO,
"Windows Version: %d.%d Build %d (release: %s; revision: %d; %s-bit)",
ver.major, ver.minor, ver.build, release_id, ver.revis,
windows_bitness);
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}
static void log_admin_status(void)
{
SID_IDENTIFIER_AUTHORITY auth = SECURITY_NT_AUTHORITY;
PSID admin_group;
BOOL success;
success = AllocateAndInitializeSid(&auth, 2,
SECURITY_BUILTIN_DOMAIN_RID,
DOMAIN_ALIAS_RID_ADMINS, 0, 0, 0, 0,
0, 0, &admin_group);
if (success) {
if (!CheckTokenMembership(NULL, admin_group, &success))
success = false;
FreeSid(admin_group);
}
blog(LOG_INFO, "Running as administrator: %s",
success ? "true" : "false");
}
typedef HRESULT(WINAPI *dwm_is_composition_enabled_t)(BOOL *);
static void log_aero(void)
{
dwm_is_composition_enabled_t composition_enabled = NULL;
const char *aeroMessage =
win_ver >= 0x602
? " (Aero is always on for windows 8 and above)"
: "";
HMODULE dwm = LoadLibraryW(L"dwmapi");
BOOL bComposition = true;
if (!dwm) {
return;
}
composition_enabled = (dwm_is_composition_enabled_t)GetProcAddress(
dwm, "DwmIsCompositionEnabled");
if (!composition_enabled) {
FreeLibrary(dwm);
return;
}
composition_enabled(&bComposition);
blog(LOG_INFO, "Aero is %s%s", bComposition ? "Enabled" : "Disabled",
aeroMessage);
}
#define WIN10_GAME_BAR_REG_KEY \
L"Software\\Microsoft\\Windows\\CurrentVersion\\GameDVR"
#define WIN10_GAME_DVR_POLICY_REG_KEY \
L"SOFTWARE\\Policies\\Microsoft\\Windows\\GameDVR"
#define WIN10_GAME_DVR_REG_KEY L"System\\GameConfigStore"
#define WIN10_GAME_MODE_REG_KEY L"Software\\Microsoft\\GameBar"
#define WIN10_HAGS_REG_KEY \
L"SYSTEM\\CurrentControlSet\\Control\\GraphicsDrivers"
static void log_gaming_features(void)
{
if (win_ver < 0xA00)
return;
struct reg_dword game_bar_enabled;
struct reg_dword game_dvr_allowed;
struct reg_dword game_dvr_enabled;
struct reg_dword game_dvr_bg_recording;
struct reg_dword game_mode_enabled;
struct reg_dword hags_enabled;
get_reg_dword(HKEY_CURRENT_USER, WIN10_GAME_BAR_REG_KEY,
L"AppCaptureEnabled", &game_bar_enabled);
get_reg_dword(HKEY_CURRENT_USER, WIN10_GAME_DVR_POLICY_REG_KEY,
L"AllowGameDVR", &game_dvr_allowed);
get_reg_dword(HKEY_CURRENT_USER, WIN10_GAME_DVR_REG_KEY,
L"GameDVR_Enabled", &game_dvr_enabled);
get_reg_dword(HKEY_CURRENT_USER, WIN10_GAME_BAR_REG_KEY,
L"HistoricalCaptureEnabled", &game_dvr_bg_recording);
get_reg_dword(HKEY_CURRENT_USER, WIN10_GAME_MODE_REG_KEY,
L"AllowAutoGameMode", &game_mode_enabled);
get_reg_dword(HKEY_LOCAL_MACHINE, WIN10_HAGS_REG_KEY, L"HwSchMode",
&hags_enabled);
if (game_mode_enabled.status != ERROR_SUCCESS) {
get_reg_dword(HKEY_CURRENT_USER, WIN10_GAME_MODE_REG_KEY,
L"AutoGameModeEnabled", &game_mode_enabled);
}
blog(LOG_INFO, "Windows 10 Gaming Features:");
if (game_bar_enabled.status == ERROR_SUCCESS) {
blog(LOG_INFO, "\tGame Bar: %s",
(bool)game_bar_enabled.return_value ? "On" : "Off");
}
if (game_dvr_allowed.status == ERROR_SUCCESS) {
blog(LOG_INFO, "\tGame DVR Allowed: %s",
(bool)game_dvr_allowed.return_value ? "Yes" : "No");
}
if (game_dvr_enabled.status == ERROR_SUCCESS) {
blog(LOG_INFO, "\tGame DVR: %s",
(bool)game_dvr_enabled.return_value ? "On" : "Off");
}
if (game_dvr_bg_recording.status == ERROR_SUCCESS) {
blog(LOG_INFO, "\tGame DVR Background Recording: %s",
(bool)game_dvr_bg_recording.return_value ? "On" : "Off");
}
if (game_mode_enabled.status == ERROR_SUCCESS) {
blog(LOG_INFO, "\tGame Mode: %s",
(bool)game_mode_enabled.return_value ? "On" : "Off");
}
if (hags_enabled.status == ERROR_SUCCESS) {
blog(LOG_INFO, "\tHardware GPU Scheduler: %s",
(hags_enabled.return_value == 2) ? "On" : "Off");
}
}
static const char *get_str_for_state(int state)
{
switch (state) {
case WSC_SECURITY_PRODUCT_STATE_ON:
return "enabled";
case WSC_SECURITY_PRODUCT_STATE_OFF:
return "disabled";
case WSC_SECURITY_PRODUCT_STATE_SNOOZED:
return "temporarily disabled";
case WSC_SECURITY_PRODUCT_STATE_EXPIRED:
return "expired";
default:
return "unknown";
}
}
static const char *get_str_for_type(int type)
{
switch (type) {
case WSC_SECURITY_PROVIDER_ANTIVIRUS:
return "AV";
case WSC_SECURITY_PROVIDER_FIREWALL:
return "FW";
case WSC_SECURITY_PROVIDER_ANTISPYWARE:
return "ASW";
default:
return "unknown";
}
}
static void log_security_products_by_type(IWSCProductList *prod_list, int type)
{
HRESULT hr;
LONG count = 0;
IWscProduct *prod;
BSTR name;
WSC_SECURITY_PRODUCT_STATE prod_state;
hr = prod_list->lpVtbl->Initialize(prod_list, type);
if (FAILED(hr))
return;
hr = prod_list->lpVtbl->get_Count(prod_list, &count);
if (FAILED(hr)) {
prod_list->lpVtbl->Release(prod_list);
return;
}
for (int i = 0; i < count; i++) {
hr = prod_list->lpVtbl->get_Item(prod_list, i, &prod);
if (FAILED(hr))
continue;
hr = prod->lpVtbl->get_ProductName(prod, &name);
if (FAILED(hr))
continue;
hr = prod->lpVtbl->get_ProductState(prod, &prod_state);
if (FAILED(hr)) {
SysFreeString(name);
continue;
}
blog(LOG_INFO, "\t%S: %s (%s)", name,
get_str_for_state(prod_state), get_str_for_type(type));
SysFreeString(name);
prod->lpVtbl->Release(prod);
}
prod_list->lpVtbl->Release(prod_list);
}
static void log_security_products(void)
{
IWSCProductList *prod_list = NULL;
HMODULE h_wsc;
HRESULT hr;
/* We load the DLL rather than import wcsapi.lib because the clsid /
* iid only exists on Windows 8 or higher. */
h_wsc = LoadLibraryW(L"wscapi.dll");
if (!h_wsc)
return;
const CLSID *prod_list_clsid =
(const CLSID *)GetProcAddress(h_wsc, "CLSID_WSCProductList");
const IID *prod_list_iid =
(const IID *)GetProcAddress(h_wsc, "IID_IWSCProductList");
if (prod_list_clsid && prod_list_iid) {
blog(LOG_INFO, "Sec. Software Status:");
hr = CoCreateInstance(prod_list_clsid, NULL,
CLSCTX_INPROC_SERVER, prod_list_iid,
&prod_list);
if (!FAILED(hr)) {
log_security_products_by_type(
prod_list, WSC_SECURITY_PROVIDER_ANTIVIRUS);
}
hr = CoCreateInstance(prod_list_clsid, NULL,
CLSCTX_INPROC_SERVER, prod_list_iid,
&prod_list);
if (!FAILED(hr)) {
log_security_products_by_type(
prod_list, WSC_SECURITY_PROVIDER_FIREWALL);
}
hr = CoCreateInstance(prod_list_clsid, NULL,
CLSCTX_INPROC_SERVER, prod_list_iid,
&prod_list);
if (!FAILED(hr)) {
log_security_products_by_type(
prod_list, WSC_SECURITY_PROVIDER_ANTISPYWARE);
}
}
FreeLibrary(h_wsc);
}
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void log_system_info(void)
{
struct win_version_info ver;
get_win_ver(&ver);
win_ver = (ver.major << 8) | ver.minor;
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log_processor_info();
log_processor_cores();
log_available_memory();
log_windows_version();
log_admin_status();
log_aero();
log_gaming_features();
log_security_products();
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}
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struct obs_hotkeys_platform {
int vk_codes[OBS_KEY_LAST_VALUE];
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};
static int get_virtual_key(obs_key_t key)
{
switch (key) {
case OBS_KEY_RETURN:
return VK_RETURN;
case OBS_KEY_ESCAPE:
return VK_ESCAPE;
case OBS_KEY_TAB:
return VK_TAB;
case OBS_KEY_BACKTAB:
return VK_OEM_BACKTAB;
case OBS_KEY_BACKSPACE:
return VK_BACK;
case OBS_KEY_INSERT:
return VK_INSERT;
case OBS_KEY_DELETE:
return VK_DELETE;
case OBS_KEY_PAUSE:
return VK_PAUSE;
case OBS_KEY_PRINT:
return VK_SNAPSHOT;
case OBS_KEY_CLEAR:
return VK_CLEAR;
case OBS_KEY_HOME:
return VK_HOME;
case OBS_KEY_END:
return VK_END;
case OBS_KEY_LEFT:
return VK_LEFT;
case OBS_KEY_UP:
return VK_UP;
case OBS_KEY_RIGHT:
return VK_RIGHT;
case OBS_KEY_DOWN:
return VK_DOWN;
case OBS_KEY_PAGEUP:
return VK_PRIOR;
case OBS_KEY_PAGEDOWN:
return VK_NEXT;
case OBS_KEY_SHIFT:
return VK_SHIFT;
case OBS_KEY_CONTROL:
return VK_CONTROL;
case OBS_KEY_ALT:
return VK_MENU;
case OBS_KEY_CAPSLOCK:
return VK_CAPITAL;
case OBS_KEY_NUMLOCK:
return VK_NUMLOCK;
case OBS_KEY_SCROLLLOCK:
return VK_SCROLL;
case OBS_KEY_F1:
return VK_F1;
case OBS_KEY_F2:
return VK_F2;
case OBS_KEY_F3:
return VK_F3;
case OBS_KEY_F4:
return VK_F4;
case OBS_KEY_F5:
return VK_F5;
case OBS_KEY_F6:
return VK_F6;
case OBS_KEY_F7:
return VK_F7;
case OBS_KEY_F8:
return VK_F8;
case OBS_KEY_F9:
return VK_F9;
case OBS_KEY_F10:
return VK_F10;
case OBS_KEY_F11:
return VK_F11;
case OBS_KEY_F12:
return VK_F12;
case OBS_KEY_F13:
return VK_F13;
case OBS_KEY_F14:
return VK_F14;
case OBS_KEY_F15:
return VK_F15;
case OBS_KEY_F16:
return VK_F16;
case OBS_KEY_F17:
return VK_F17;
case OBS_KEY_F18:
return VK_F18;
case OBS_KEY_F19:
return VK_F19;
case OBS_KEY_F20:
return VK_F20;
case OBS_KEY_F21:
return VK_F21;
case OBS_KEY_F22:
return VK_F22;
case OBS_KEY_F23:
return VK_F23;
case OBS_KEY_F24:
return VK_F24;
case OBS_KEY_SPACE:
return VK_SPACE;
case OBS_KEY_APOSTROPHE:
return VK_OEM_7;
case OBS_KEY_PLUS:
return VK_OEM_PLUS;
case OBS_KEY_COMMA:
return VK_OEM_COMMA;
case OBS_KEY_MINUS:
return VK_OEM_MINUS;
case OBS_KEY_PERIOD:
return VK_OEM_PERIOD;
case OBS_KEY_SLASH:
return VK_OEM_2;
case OBS_KEY_0:
return '0';
case OBS_KEY_1:
return '1';
case OBS_KEY_2:
return '2';
case OBS_KEY_3:
return '3';
case OBS_KEY_4:
return '4';
case OBS_KEY_5:
return '5';
case OBS_KEY_6:
return '6';
case OBS_KEY_7:
return '7';
case OBS_KEY_8:
return '8';
case OBS_KEY_9:
return '9';
case OBS_KEY_NUMASTERISK:
return VK_MULTIPLY;
case OBS_KEY_NUMPLUS:
return VK_ADD;
case OBS_KEY_NUMMINUS:
return VK_SUBTRACT;
case OBS_KEY_NUMPERIOD:
return VK_DECIMAL;
case OBS_KEY_NUMSLASH:
return VK_DIVIDE;
case OBS_KEY_NUM0:
return VK_NUMPAD0;
case OBS_KEY_NUM1:
return VK_NUMPAD1;
case OBS_KEY_NUM2:
return VK_NUMPAD2;
case OBS_KEY_NUM3:
return VK_NUMPAD3;
case OBS_KEY_NUM4:
return VK_NUMPAD4;
case OBS_KEY_NUM5:
return VK_NUMPAD5;
case OBS_KEY_NUM6:
return VK_NUMPAD6;
case OBS_KEY_NUM7:
return VK_NUMPAD7;
case OBS_KEY_NUM8:
return VK_NUMPAD8;
case OBS_KEY_NUM9:
return VK_NUMPAD9;
case OBS_KEY_SEMICOLON:
return VK_OEM_1;
case OBS_KEY_A:
return 'A';
case OBS_KEY_B:
return 'B';
case OBS_KEY_C:
return 'C';
case OBS_KEY_D:
return 'D';
case OBS_KEY_E:
return 'E';
case OBS_KEY_F:
return 'F';
case OBS_KEY_G:
return 'G';
case OBS_KEY_H:
return 'H';
case OBS_KEY_I:
return 'I';
case OBS_KEY_J:
return 'J';
case OBS_KEY_K:
return 'K';
case OBS_KEY_L:
return 'L';
case OBS_KEY_M:
return 'M';
case OBS_KEY_N:
return 'N';
case OBS_KEY_O:
return 'O';
case OBS_KEY_P:
return 'P';
case OBS_KEY_Q:
return 'Q';
case OBS_KEY_R:
return 'R';
case OBS_KEY_S:
return 'S';
case OBS_KEY_T:
return 'T';
case OBS_KEY_U:
return 'U';
case OBS_KEY_V:
return 'V';
case OBS_KEY_W:
return 'W';
case OBS_KEY_X:
return 'X';
case OBS_KEY_Y:
return 'Y';
case OBS_KEY_Z:
return 'Z';
case OBS_KEY_BRACKETLEFT:
return VK_OEM_4;
case OBS_KEY_BACKSLASH:
return VK_OEM_5;
case OBS_KEY_BRACKETRIGHT:
return VK_OEM_6;
case OBS_KEY_ASCIITILDE:
return VK_OEM_3;
case OBS_KEY_HENKAN:
return VK_CONVERT;
case OBS_KEY_MUHENKAN:
return VK_NONCONVERT;
case OBS_KEY_KANJI:
return VK_KANJI;
case OBS_KEY_TOUROKU:
return VK_OEM_FJ_TOUROKU;
case OBS_KEY_MASSYO:
return VK_OEM_FJ_MASSHOU;
case OBS_KEY_HANGUL:
return VK_HANGUL;
case OBS_KEY_BACKSLASH_RT102:
return VK_OEM_102;
case OBS_KEY_MOUSE1:
return VK_LBUTTON;
case OBS_KEY_MOUSE2:
return VK_RBUTTON;
case OBS_KEY_MOUSE3:
return VK_MBUTTON;
case OBS_KEY_MOUSE4:
return VK_XBUTTON1;
case OBS_KEY_MOUSE5:
return VK_XBUTTON2;
case OBS_KEY_VK_CANCEL:
return VK_CANCEL;
case OBS_KEY_0x07:
return 0x07;
case OBS_KEY_0x0A:
return 0x0A;
case OBS_KEY_0x0B:
return 0x0B;
case OBS_KEY_0x0E:
return 0x0E;
case OBS_KEY_0x0F:
return 0x0F;
case OBS_KEY_0x16:
return 0x16;
case OBS_KEY_VK_JUNJA:
return VK_JUNJA;
case OBS_KEY_VK_FINAL:
return VK_FINAL;
case OBS_KEY_0x1A:
return 0x1A;
case OBS_KEY_VK_ACCEPT:
return VK_ACCEPT;
case OBS_KEY_VK_MODECHANGE:
return VK_MODECHANGE;
case OBS_KEY_VK_SELECT:
return VK_SELECT;
case OBS_KEY_VK_PRINT:
return VK_PRINT;
case OBS_KEY_VK_EXECUTE:
return VK_EXECUTE;
case OBS_KEY_VK_HELP:
return VK_HELP;
case OBS_KEY_0x30:
return 0x30;
case OBS_KEY_0x31:
return 0x31;
case OBS_KEY_0x32:
return 0x32;
case OBS_KEY_0x33:
return 0x33;
case OBS_KEY_0x34:
return 0x34;
case OBS_KEY_0x35:
return 0x35;
case OBS_KEY_0x36:
return 0x36;
case OBS_KEY_0x37:
return 0x37;
case OBS_KEY_0x38:
return 0x38;
case OBS_KEY_0x39:
return 0x39;
case OBS_KEY_0x3A:
return 0x3A;
case OBS_KEY_0x3B:
return 0x3B;
case OBS_KEY_0x3C:
return 0x3C;
case OBS_KEY_0x3D:
return 0x3D;
case OBS_KEY_0x3E:
return 0x3E;
case OBS_KEY_0x3F:
return 0x3F;
case OBS_KEY_0x40:
return 0x40;
case OBS_KEY_0x41:
return 0x41;
case OBS_KEY_0x42:
return 0x42;
case OBS_KEY_0x43:
return 0x43;
case OBS_KEY_0x44:
return 0x44;
case OBS_KEY_0x45:
return 0x45;
case OBS_KEY_0x46:
return 0x46;
case OBS_KEY_0x47:
return 0x47;
case OBS_KEY_0x48:
return 0x48;
case OBS_KEY_0x49:
return 0x49;
case OBS_KEY_0x4A:
return 0x4A;
case OBS_KEY_0x4B:
return 0x4B;
case OBS_KEY_0x4C:
return 0x4C;
case OBS_KEY_0x4D:
return 0x4D;
case OBS_KEY_0x4E:
return 0x4E;
case OBS_KEY_0x4F:
return 0x4F;
case OBS_KEY_0x50:
return 0x50;
case OBS_KEY_0x51:
return 0x51;
case OBS_KEY_0x52:
return 0x52;
case OBS_KEY_0x53:
return 0x53;
case OBS_KEY_0x54:
return 0x54;
case OBS_KEY_0x55:
return 0x55;
case OBS_KEY_0x56:
return 0x56;
case OBS_KEY_0x57:
return 0x57;
case OBS_KEY_0x58:
return 0x58;
case OBS_KEY_0x59:
return 0x59;
case OBS_KEY_0x5A:
return 0x5A;
case OBS_KEY_VK_LWIN:
return VK_LWIN;
case OBS_KEY_VK_RWIN:
return VK_RWIN;
case OBS_KEY_VK_APPS:
return VK_APPS;
case OBS_KEY_0x5E:
return 0x5E;
case OBS_KEY_VK_SLEEP:
return VK_SLEEP;
case OBS_KEY_VK_SEPARATOR:
return VK_SEPARATOR;
case OBS_KEY_0x88:
return 0x88;
case OBS_KEY_0x89:
return 0x89;
case OBS_KEY_0x8A:
return 0x8A;
case OBS_KEY_0x8B:
return 0x8B;
case OBS_KEY_0x8C:
return 0x8C;
case OBS_KEY_0x8D:
return 0x8D;
case OBS_KEY_0x8E:
return 0x8E;
case OBS_KEY_0x8F:
return 0x8F;
case OBS_KEY_VK_OEM_FJ_JISHO:
return VK_OEM_FJ_JISHO;
case OBS_KEY_VK_OEM_FJ_LOYA:
return VK_OEM_FJ_LOYA;
case OBS_KEY_VK_OEM_FJ_ROYA:
return VK_OEM_FJ_ROYA;
case OBS_KEY_0x97:
return 0x97;
case OBS_KEY_0x98:
return 0x98;
case OBS_KEY_0x99:
return 0x99;
case OBS_KEY_0x9A:
return 0x9A;
case OBS_KEY_0x9B:
return 0x9B;
case OBS_KEY_0x9C:
return 0x9C;
case OBS_KEY_0x9D:
return 0x9D;
case OBS_KEY_0x9E:
return 0x9E;
case OBS_KEY_0x9F:
return 0x9F;
case OBS_KEY_VK_LSHIFT:
return VK_LSHIFT;
case OBS_KEY_VK_RSHIFT:
return VK_RSHIFT;
case OBS_KEY_VK_LCONTROL:
return VK_LCONTROL;
case OBS_KEY_VK_RCONTROL:
return VK_RCONTROL;
case OBS_KEY_VK_LMENU:
return VK_LMENU;
case OBS_KEY_VK_RMENU:
return VK_RMENU;
case OBS_KEY_VK_BROWSER_BACK:
return VK_BROWSER_BACK;
case OBS_KEY_VK_BROWSER_FORWARD:
return VK_BROWSER_FORWARD;
case OBS_KEY_VK_BROWSER_REFRESH:
return VK_BROWSER_REFRESH;
case OBS_KEY_VK_BROWSER_STOP:
return VK_BROWSER_STOP;
case OBS_KEY_VK_BROWSER_SEARCH:
return VK_BROWSER_SEARCH;
case OBS_KEY_VK_BROWSER_FAVORITES:
return VK_BROWSER_FAVORITES;
case OBS_KEY_VK_BROWSER_HOME:
return VK_BROWSER_HOME;
case OBS_KEY_VK_VOLUME_MUTE:
return VK_VOLUME_MUTE;
case OBS_KEY_VK_VOLUME_DOWN:
return VK_VOLUME_DOWN;
case OBS_KEY_VK_VOLUME_UP:
return VK_VOLUME_UP;
case OBS_KEY_VK_MEDIA_NEXT_TRACK:
return VK_MEDIA_NEXT_TRACK;
case OBS_KEY_VK_MEDIA_PREV_TRACK:
return VK_MEDIA_PREV_TRACK;
case OBS_KEY_VK_MEDIA_STOP:
return VK_MEDIA_STOP;
case OBS_KEY_VK_MEDIA_PLAY_PAUSE:
return VK_MEDIA_PLAY_PAUSE;
case OBS_KEY_VK_LAUNCH_MAIL:
return VK_LAUNCH_MAIL;
case OBS_KEY_VK_LAUNCH_MEDIA_SELECT:
return VK_LAUNCH_MEDIA_SELECT;
case OBS_KEY_VK_LAUNCH_APP1:
return VK_LAUNCH_APP1;
case OBS_KEY_VK_LAUNCH_APP2:
return VK_LAUNCH_APP2;
case OBS_KEY_0xB8:
return 0xB8;
case OBS_KEY_0xB9:
return 0xB9;
case OBS_KEY_0xC1:
return 0xC1;
case OBS_KEY_0xC2:
return 0xC2;
case OBS_KEY_0xC3:
return 0xC3;
case OBS_KEY_0xC4:
return 0xC4;
case OBS_KEY_0xC5:
return 0xC5;
case OBS_KEY_0xC6:
return 0xC6;
case OBS_KEY_0xC7:
return 0xC7;
case OBS_KEY_0xC8:
return 0xC8;
case OBS_KEY_0xC9:
return 0xC9;
case OBS_KEY_0xCA:
return 0xCA;
case OBS_KEY_0xCB:
return 0xCB;
case OBS_KEY_0xCC:
return 0xCC;
case OBS_KEY_0xCD:
return 0xCD;
case OBS_KEY_0xCE:
return 0xCE;
case OBS_KEY_0xCF:
return 0xCF;
case OBS_KEY_0xD0:
return 0xD0;
case OBS_KEY_0xD1:
return 0xD1;
case OBS_KEY_0xD2:
return 0xD2;
case OBS_KEY_0xD3:
return 0xD3;
case OBS_KEY_0xD4:
return 0xD4;
case OBS_KEY_0xD5:
return 0xD5;
case OBS_KEY_0xD6:
return 0xD6;
case OBS_KEY_0xD7:
return 0xD7;
case OBS_KEY_0xD8:
return 0xD8;
case OBS_KEY_0xD9:
return 0xD9;
case OBS_KEY_0xDA:
return 0xDA;
case OBS_KEY_VK_OEM_8:
return VK_OEM_8;
case OBS_KEY_0xE0:
return 0xE0;
case OBS_KEY_VK_OEM_AX:
return VK_OEM_AX;
case OBS_KEY_VK_ICO_HELP:
return VK_ICO_HELP;
case OBS_KEY_VK_ICO_00:
return VK_ICO_00;
case OBS_KEY_VK_PROCESSKEY:
return VK_PROCESSKEY;
case OBS_KEY_VK_ICO_CLEAR:
return VK_ICO_CLEAR;
case OBS_KEY_VK_PACKET:
return VK_PACKET;
case OBS_KEY_0xE8:
return 0xE8;
case OBS_KEY_VK_OEM_RESET:
return VK_OEM_RESET;
case OBS_KEY_VK_OEM_JUMP:
return VK_OEM_JUMP;
case OBS_KEY_VK_OEM_PA1:
return VK_OEM_PA1;
case OBS_KEY_VK_OEM_PA2:
return VK_OEM_PA2;
case OBS_KEY_VK_OEM_PA3:
return VK_OEM_PA3;
case OBS_KEY_VK_OEM_WSCTRL:
return VK_OEM_WSCTRL;
case OBS_KEY_VK_OEM_CUSEL:
return VK_OEM_CUSEL;
case OBS_KEY_VK_OEM_ATTN:
return VK_OEM_ATTN;
case OBS_KEY_VK_OEM_FINISH:
return VK_OEM_FINISH;
case OBS_KEY_VK_OEM_COPY:
return VK_OEM_COPY;
case OBS_KEY_VK_OEM_AUTO:
return VK_OEM_AUTO;
case OBS_KEY_VK_OEM_ENLW:
return VK_OEM_ENLW;
case OBS_KEY_VK_ATTN:
return VK_ATTN;
case OBS_KEY_VK_CRSEL:
return VK_CRSEL;
case OBS_KEY_VK_EXSEL:
return VK_EXSEL;
case OBS_KEY_VK_EREOF:
return VK_EREOF;
case OBS_KEY_VK_PLAY:
return VK_PLAY;
case OBS_KEY_VK_ZOOM:
return VK_ZOOM;
case OBS_KEY_VK_NONAME:
return VK_NONAME;
case OBS_KEY_VK_PA1:
return VK_PA1;
case OBS_KEY_VK_OEM_CLEAR:
return VK_OEM_CLEAR;
/* TODO: Implement keys for non-US keyboards */
default:;
}
return 0;
}
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bool obs_hotkeys_platform_init(struct obs_core_hotkeys *hotkeys)
{
hotkeys->platform_context = bzalloc(sizeof(obs_hotkeys_platform_t));
for (size_t i = 0; i < OBS_KEY_LAST_VALUE; i++)
hotkeys->platform_context->vk_codes[i] = get_virtual_key(i);
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return true;
}
void obs_hotkeys_platform_free(struct obs_core_hotkeys *hotkeys)
{
bfree(hotkeys->platform_context);
hotkeys->platform_context = NULL;
}
static bool vk_down(DWORD vk)
{
short state = GetAsyncKeyState(vk);
bool down = (state & 0x8000) != 0;
return down;
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}
bool obs_hotkeys_platform_is_pressed(obs_hotkeys_platform_t *context,
obs_key_t key)
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{
if (key == OBS_KEY_META) {
return vk_down(VK_LWIN) || vk_down(VK_RWIN);
}
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UNUSED_PARAMETER(context);
return vk_down(obs_key_to_virtual_key(key));
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}
void obs_key_to_str(obs_key_t key, struct dstr *str)
{
wchar_t name[128] = L"";
UINT scan_code;
int vk;
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if (key == OBS_KEY_NONE) {
return;
} else if (key >= OBS_KEY_F13 && key <= OBS_KEY_F24) {
dstr_printf(str, "F%d", (int)(key - OBS_KEY_F13 + 13));
return;
} else if (key >= OBS_KEY_MOUSE1 && key <= OBS_KEY_MOUSE29) {
if (obs->hotkeys.translations[key]) {
dstr_copy(str, obs->hotkeys.translations[key]);
} else {
dstr_printf(str, "Mouse %d",
(int)(key - OBS_KEY_MOUSE1 + 1));
}
return;
}
if (key == OBS_KEY_PAUSE) {
dstr_copy(str, obs_get_hotkey_translation(key, "Pause"));
return;
} else if (key == OBS_KEY_META) {
dstr_copy(str, obs_get_hotkey_translation(key, "Windows"));
return;
}
vk = obs_key_to_virtual_key(key);
scan_code = MapVirtualKey(vk, 0) << 16;
switch (vk) {
case VK_HOME:
case VK_END:
case VK_LEFT:
case VK_UP:
case VK_RIGHT:
case VK_DOWN:
case VK_PRIOR:
case VK_NEXT:
case VK_INSERT:
case VK_DELETE:
case VK_NUMLOCK:
scan_code |= 0x01000000;
}
if ((key < OBS_KEY_VK_CANCEL || key > OBS_KEY_VK_OEM_CLEAR) &&
scan_code != 0 && GetKeyNameTextW(scan_code, name, 128) != 0) {
dstr_from_wcs(str, name);
} else if (key != OBS_KEY_NONE) {
dstr_copy(str, obs_key_to_name(key));
}
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}
obs_key_t obs_key_from_virtual_key(int code)
{
obs_hotkeys_platform_t *platform = obs->hotkeys.platform_context;
for (size_t i = 0; i < OBS_KEY_LAST_VALUE; i++) {
if (platform->vk_codes[i] == code) {
return (obs_key_t)i;
}
}
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return OBS_KEY_NONE;
}
int obs_key_to_virtual_key(obs_key_t key)
{
if (key == OBS_KEY_META)
return VK_LWIN;
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return obs->hotkeys.platform_context->vk_codes[(int)key];
}
static inline void add_combo_key(obs_key_t key, struct dstr *str)
{
struct dstr key_str = {0};
obs_key_to_str(key, &key_str);
if (!dstr_is_empty(&key_str)) {
if (!dstr_is_empty(str)) {
dstr_cat(str, " + ");
}
dstr_cat_dstr(str, &key_str);
}
dstr_free(&key_str);
}
void obs_key_combination_to_str(obs_key_combination_t combination,
struct dstr *str)
{
if ((combination.modifiers & INTERACT_CONTROL_KEY) != 0) {
add_combo_key(OBS_KEY_CONTROL, str);
}
if ((combination.modifiers & INTERACT_COMMAND_KEY) != 0) {
add_combo_key(OBS_KEY_META, str);
}
if ((combination.modifiers & INTERACT_ALT_KEY) != 0) {
add_combo_key(OBS_KEY_ALT, str);
}
if ((combination.modifiers & INTERACT_SHIFT_KEY) != 0) {
add_combo_key(OBS_KEY_SHIFT, str);
}
if (combination.key != OBS_KEY_NONE) {
add_combo_key(combination.key, str);
}
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}
bool sym_initialize_called = false;
void reset_win32_symbol_paths(void)
{
static BOOL(WINAPI * sym_initialize_w)(HANDLE, const wchar_t *, BOOL);
static BOOL(WINAPI * sym_set_search_path_w)(HANDLE, const wchar_t *);
static bool funcs_initialized = false;
static bool initialize_success = false;
struct obs_module *module = obs->first_module;
struct dstr path_str = {0};
DARRAY(char *) paths;
wchar_t *path_str_w = NULL;
char *abspath;
da_init(paths);
if (!funcs_initialized) {
HMODULE mod;
funcs_initialized = true;
mod = LoadLibraryW(L"DbgHelp");
if (!mod)
return;
sym_initialize_w =
(void *)GetProcAddress(mod, "SymInitializeW");
sym_set_search_path_w =
(void *)GetProcAddress(mod, "SymSetSearchPathW");
if (!sym_initialize_w || !sym_set_search_path_w) {
FreeLibrary(mod);
return;
}
initialize_success = true;
// Leaks 'mod' once.
}
if (!initialize_success)
return;
abspath = os_get_abs_path_ptr(".");
if (abspath)
da_push_back(paths, &abspath);
while (module) {
bool found = false;
struct dstr path = {0};
char *path_end;
dstr_copy(&path, module->bin_path);
dstr_replace(&path, "/", "\\");
path_end = strrchr(path.array, '\\');
if (!path_end) {
module = module->next;
dstr_free(&path);
continue;
}
*path_end = 0;
for (size_t i = 0; i < paths.num; i++) {
const char *existing_path = paths.array[i];
if (astrcmpi(path.array, existing_path) == 0) {
found = true;
break;
}
}
if (!found) {
abspath = os_get_abs_path_ptr(path.array);
if (abspath)
da_push_back(paths, &abspath);
}
dstr_free(&path);
module = module->next;
}
for (size_t i = 0; i < paths.num; i++) {
const char *path = paths.array[i];
if (path && *path) {
if (i != 0)
dstr_cat(&path_str, ";");
dstr_cat(&path_str, paths.array[i]);
}
}
if (path_str.array) {
os_utf8_to_wcs_ptr(path_str.array, path_str.len, &path_str_w);
if (path_str_w) {
if (!sym_initialize_called) {
sym_initialize_w(GetCurrentProcess(),
path_str_w, false);
sym_initialize_called = true;
} else {
sym_set_search_path_w(GetCurrentProcess(),
path_str_w);
}
bfree(path_str_w);
}
}
for (size_t i = 0; i < paths.num; i++)
bfree(paths.array[i]);
dstr_free(&path_str);
da_free(paths);
}
extern void initialize_crash_handler(void);
void obs_init_win32_crash_handler(void)
{
initialize_crash_handler();
}
bool initialize_com(void)
{
const HRESULT hr = CoInitializeEx(0, COINIT_APARTMENTTHREADED);
const bool success = SUCCEEDED(hr);
if (!success)
blog(LOG_ERROR, "CoInitializeEx failed: 0x%08X", hr);
return success;
}
void uninitialize_com(void)
{
CoUninitialize();
}