/* * Plug and Play support for hid devices found through SDL2 * * Copyright 2017 CodeWeavers, Aric Stewart * * This library is free software; you can redistribute it and/or * modify it under the terms of the GNU Lesser General Public * License as published by the Free Software Foundation; either * version 2.1 of the License, or (at your option) any later version. * * This library 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 * Lesser General Public License for more details. * * You should have received a copy of the GNU Lesser General Public * License along with this library; if not, write to the Free Software * Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301, USA */ #if 0 #pragma makedep unix #endif #include "config.h" #include #include #include #include #include #include #include #include #ifdef HAVE_SDL_H # include #endif #include #include "ntstatus.h" #define WIN32_NO_STATUS #include "windef.h" #include "winbase.h" #include "winnls.h" #include "winreg.h" #include "winternl.h" #include "ddk/wdm.h" #include "ddk/hidtypes.h" #include "ddk/hidsdi.h" #include "hidusage.h" #include "wine/debug.h" #include "wine/hid.h" #include "wine/unixlib.h" #include "unix_private.h" WINE_DEFAULT_DEBUG_CHANNEL(hid); #ifdef SONAME_LIBSDL2 static pthread_mutex_t sdl_cs = PTHREAD_MUTEX_INITIALIZER; static struct sdl_bus_options options; static void *sdl_handle = NULL; static UINT quit_event = -1; static struct list event_queue = LIST_INIT(event_queue); static struct list device_list = LIST_INIT(device_list); #define MAKE_FUNCPTR(f) static typeof(f) * p##f = NULL MAKE_FUNCPTR(SDL_GetError); MAKE_FUNCPTR(SDL_Init); MAKE_FUNCPTR(SDL_JoystickClose); MAKE_FUNCPTR(SDL_JoystickEventState); MAKE_FUNCPTR(SDL_JoystickGetGUID); MAKE_FUNCPTR(SDL_JoystickGetGUIDString); MAKE_FUNCPTR(SDL_JoystickInstanceID); MAKE_FUNCPTR(SDL_JoystickName); MAKE_FUNCPTR(SDL_JoystickNumAxes); MAKE_FUNCPTR(SDL_JoystickOpen); MAKE_FUNCPTR(SDL_WaitEventTimeout); MAKE_FUNCPTR(SDL_JoystickNumButtons); MAKE_FUNCPTR(SDL_JoystickNumBalls); MAKE_FUNCPTR(SDL_JoystickNumHats); MAKE_FUNCPTR(SDL_JoystickGetAxis); MAKE_FUNCPTR(SDL_JoystickGetHat); MAKE_FUNCPTR(SDL_IsGameController); MAKE_FUNCPTR(SDL_GameControllerClose); MAKE_FUNCPTR(SDL_GameControllerGetAxis); MAKE_FUNCPTR(SDL_GameControllerGetButton); MAKE_FUNCPTR(SDL_GameControllerName); MAKE_FUNCPTR(SDL_GameControllerOpen); MAKE_FUNCPTR(SDL_GameControllerEventState); MAKE_FUNCPTR(SDL_HapticClose); MAKE_FUNCPTR(SDL_HapticDestroyEffect); MAKE_FUNCPTR(SDL_HapticGetEffectStatus); MAKE_FUNCPTR(SDL_HapticNewEffect); MAKE_FUNCPTR(SDL_HapticOpenFromJoystick); MAKE_FUNCPTR(SDL_HapticPause); MAKE_FUNCPTR(SDL_HapticQuery); MAKE_FUNCPTR(SDL_HapticRumbleInit); MAKE_FUNCPTR(SDL_HapticRumblePlay); MAKE_FUNCPTR(SDL_HapticRumbleStop); MAKE_FUNCPTR(SDL_HapticRumbleSupported); MAKE_FUNCPTR(SDL_HapticRunEffect); MAKE_FUNCPTR(SDL_HapticSetGain); MAKE_FUNCPTR(SDL_HapticSetAutocenter); MAKE_FUNCPTR(SDL_HapticStopAll); MAKE_FUNCPTR(SDL_HapticStopEffect); MAKE_FUNCPTR(SDL_HapticUnpause); MAKE_FUNCPTR(SDL_HapticUpdateEffect); MAKE_FUNCPTR(SDL_JoystickIsHaptic); MAKE_FUNCPTR(SDL_GameControllerAddMapping); MAKE_FUNCPTR(SDL_RegisterEvents); MAKE_FUNCPTR(SDL_PushEvent); MAKE_FUNCPTR(SDL_GetTicks); static int (*pSDL_JoystickRumble)(SDL_Joystick *joystick, Uint16 low_frequency_rumble, Uint16 high_frequency_rumble, Uint32 duration_ms); static int (*pSDL_JoystickRumbleTriggers)(SDL_Joystick *joystick, Uint16 left_rumble, Uint16 right_rumble, Uint32 duration_ms); static Uint16 (*pSDL_JoystickGetProduct)(SDL_Joystick * joystick); static Uint16 (*pSDL_JoystickGetProductVersion)(SDL_Joystick * joystick); static Uint16 (*pSDL_JoystickGetVendor)(SDL_Joystick * joystick); static SDL_JoystickType (*pSDL_JoystickGetType)(SDL_Joystick * joystick); static const char *(*pSDL_JoystickGetSerial)(SDL_Joystick * joystick); /* internal bits for extended rumble support, SDL_Haptic types are 16-bits */ #define WINE_SDL_JOYSTICK_RUMBLE 0x40000000 /* using SDL_JoystickRumble API */ #define WINE_SDL_HAPTIC_RUMBLE 0x80000000 /* using SDL_HapticRumble API */ #define EFFECT_SUPPORT_HAPTICS (SDL_HAPTIC_LEFTRIGHT|WINE_SDL_HAPTIC_RUMBLE|WINE_SDL_JOYSTICK_RUMBLE) #define EFFECT_SUPPORT_PHYSICAL (SDL_HAPTIC_CONSTANT|SDL_HAPTIC_RAMP|SDL_HAPTIC_SINE|SDL_HAPTIC_TRIANGLE| \ SDL_HAPTIC_SAWTOOTHUP|SDL_HAPTIC_SAWTOOTHDOWN|SDL_HAPTIC_SPRING|SDL_HAPTIC_DAMPER|SDL_HAPTIC_INERTIA| \ SDL_HAPTIC_FRICTION|SDL_HAPTIC_CUSTOM) struct sdl_device { struct unix_device unix_device; SDL_Joystick *sdl_joystick; SDL_GameController *sdl_controller; SDL_JoystickID id; BOOL started; DWORD effect_support; SDL_Haptic *sdl_haptic; int haptic_effect_id; int effect_ids[256]; int effect_state[256]; LONG effect_flags; int axis_offset; }; static inline struct sdl_device *impl_from_unix_device(struct unix_device *iface) { return CONTAINING_RECORD(iface, struct sdl_device, unix_device); } static struct sdl_device *find_device_from_id(SDL_JoystickID id) { struct sdl_device *impl; LIST_FOR_EACH_ENTRY(impl, &device_list, struct sdl_device, unix_device.entry) if (impl->id == id && impl->axis_offset == 0) return impl; return NULL; } static struct sdl_device *find_device_from_id_and_axis(SDL_JoystickID id, int axis) { struct sdl_device *impl; LIST_FOR_EACH_ENTRY(impl, &device_list, struct sdl_device, unix_device.entry) { USHORT count = impl->unix_device.hid_device_state.abs_axis_count; if (impl->id == id && impl->axis_offset <= axis && impl->axis_offset + count > axis) return impl; } return NULL; } static void set_hat_value(struct unix_device *iface, int index, int value) { LONG x = 0, y = 0; switch (value) { case SDL_HAT_CENTERED: break; case SDL_HAT_DOWN: y = 1; break; case SDL_HAT_RIGHTDOWN: y = x = 1; break; case SDL_HAT_RIGHT: x = 1; break; case SDL_HAT_RIGHTUP: x = 1; y = -1; break; case SDL_HAT_UP: y = -1; break; case SDL_HAT_LEFTUP: x = y = -1; break; case SDL_HAT_LEFT: x = -1; break; case SDL_HAT_LEFTDOWN: x = -1; y = 1; break; } hid_device_set_hatswitch_x(iface, index, x); hid_device_set_hatswitch_y(iface, index, y); } static BOOL descriptor_add_haptic(struct sdl_device *impl) { USHORT i, count = 0; USAGE usages[16]; if (impl->axis_offset > 0 || !pSDL_JoystickIsHaptic(impl->sdl_joystick) || !(impl->sdl_haptic = pSDL_HapticOpenFromJoystick(impl->sdl_joystick))) impl->effect_support = 0; else { impl->effect_support = pSDL_HapticQuery(impl->sdl_haptic); if (!(impl->effect_support & EFFECT_SUPPORT_HAPTICS) && pSDL_HapticRumbleSupported(impl->sdl_haptic) && pSDL_HapticRumbleInit(impl->sdl_haptic) == 0) impl->effect_support |= WINE_SDL_HAPTIC_RUMBLE; } if (impl->axis_offset == 0 && pSDL_JoystickRumble && !pSDL_JoystickRumble(impl->sdl_joystick, 0, 0, 0)) impl->effect_support |= WINE_SDL_JOYSTICK_RUMBLE; if (impl->effect_support & EFFECT_SUPPORT_HAPTICS) { if (!hid_device_add_haptics(&impl->unix_device)) return FALSE; } if ((impl->effect_support & EFFECT_SUPPORT_PHYSICAL)) { /* SDL_HAPTIC_SQUARE doesn't exist */ if (impl->effect_support & SDL_HAPTIC_SINE) usages[count++] = PID_USAGE_ET_SINE; if (impl->effect_support & SDL_HAPTIC_TRIANGLE) usages[count++] = PID_USAGE_ET_TRIANGLE; if (impl->effect_support & SDL_HAPTIC_SAWTOOTHUP) usages[count++] = PID_USAGE_ET_SAWTOOTH_UP; if (impl->effect_support & SDL_HAPTIC_SAWTOOTHDOWN) usages[count++] = PID_USAGE_ET_SAWTOOTH_DOWN; if (impl->effect_support & SDL_HAPTIC_SPRING) usages[count++] = PID_USAGE_ET_SPRING; if (impl->effect_support & SDL_HAPTIC_DAMPER) usages[count++] = PID_USAGE_ET_DAMPER; if (impl->effect_support & SDL_HAPTIC_INERTIA) usages[count++] = PID_USAGE_ET_INERTIA; if (impl->effect_support & SDL_HAPTIC_FRICTION) usages[count++] = PID_USAGE_ET_FRICTION; if (impl->effect_support & SDL_HAPTIC_CONSTANT) usages[count++] = PID_USAGE_ET_CONSTANT_FORCE; if (impl->effect_support & SDL_HAPTIC_RAMP) usages[count++] = PID_USAGE_ET_RAMP; if (!hid_device_add_physical(&impl->unix_device, usages, count)) return FALSE; } impl->haptic_effect_id = -1; for (i = 0; i < ARRAY_SIZE(impl->effect_ids); ++i) impl->effect_ids[i] = -1; return TRUE; } static const USAGE_AND_PAGE absolute_axis_usages[] = { {.UsagePage = HID_USAGE_PAGE_GENERIC, .Usage = HID_USAGE_GENERIC_X}, {.UsagePage = HID_USAGE_PAGE_GENERIC, .Usage = HID_USAGE_GENERIC_Y}, {.UsagePage = HID_USAGE_PAGE_GENERIC, .Usage = HID_USAGE_GENERIC_Z}, {.UsagePage = HID_USAGE_PAGE_GENERIC, .Usage = HID_USAGE_GENERIC_RX}, {.UsagePage = HID_USAGE_PAGE_GENERIC, .Usage = HID_USAGE_GENERIC_RY}, {.UsagePage = HID_USAGE_PAGE_GENERIC, .Usage = HID_USAGE_GENERIC_RZ}, {.UsagePage = HID_USAGE_PAGE_GENERIC, .Usage = HID_USAGE_GENERIC_SLIDER}, {.UsagePage = HID_USAGE_PAGE_GENERIC, .Usage = HID_USAGE_GENERIC_DIAL}, }; static const USAGE_AND_PAGE relative_axis_usages[] = { {.UsagePage = HID_USAGE_PAGE_GENERIC, .Usage = HID_USAGE_GENERIC_X}, {.UsagePage = HID_USAGE_PAGE_GENERIC, .Usage = HID_USAGE_GENERIC_Y}, {.UsagePage = HID_USAGE_PAGE_GENERIC, .Usage = HID_USAGE_GENERIC_RX}, {.UsagePage = HID_USAGE_PAGE_GENERIC, .Usage = HID_USAGE_GENERIC_RY}, {.UsagePage = HID_USAGE_PAGE_GENERIC, .Usage = HID_USAGE_GENERIC_Z}, {.UsagePage = HID_USAGE_PAGE_GENERIC, .Usage = HID_USAGE_GENERIC_RZ}, {.UsagePage = HID_USAGE_PAGE_GENERIC, .Usage = HID_USAGE_GENERIC_SLIDER}, {.UsagePage = HID_USAGE_PAGE_GENERIC, .Usage = HID_USAGE_GENERIC_DIAL}, {.UsagePage = HID_USAGE_PAGE_GENERIC, .Usage = HID_USAGE_GENERIC_WHEEL}, }; static NTSTATUS build_joystick_report_descriptor(struct unix_device *iface) { const USAGE_AND_PAGE device_usage = {.UsagePage = HID_USAGE_PAGE_GENERIC, .Usage = HID_USAGE_GENERIC_JOYSTICK}; struct sdl_device *impl = impl_from_unix_device(iface); int i, button_count, axis_count, ball_count, hat_count; USAGE_AND_PAGE physical_usage; axis_count = pSDL_JoystickNumAxes(impl->sdl_joystick); if (options.split_controllers) axis_count = min(6, axis_count - impl->axis_offset); if (axis_count > ARRAY_SIZE(absolute_axis_usages)) { FIXME("More than %zu absolute axes found, ignoring.\n", ARRAY_SIZE(absolute_axis_usages)); axis_count = ARRAY_SIZE(absolute_axis_usages); } ball_count = pSDL_JoystickNumBalls(impl->sdl_joystick); if (ball_count > ARRAY_SIZE(relative_axis_usages) / 2) { FIXME("More than %zu relative axes found, ignoring.\n", ARRAY_SIZE(relative_axis_usages)); ball_count = ARRAY_SIZE(relative_axis_usages) / 2; } if (impl->axis_offset == 0) { hat_count = pSDL_JoystickNumHats(impl->sdl_joystick); button_count = pSDL_JoystickNumButtons(impl->sdl_joystick); } else { hat_count = 0; button_count = 0; } if (!pSDL_JoystickGetType) physical_usage = device_usage; else switch (pSDL_JoystickGetType(impl->sdl_joystick)) { case SDL_JOYSTICK_TYPE_ARCADE_PAD: case SDL_JOYSTICK_TYPE_ARCADE_STICK: case SDL_JOYSTICK_TYPE_DANCE_PAD: case SDL_JOYSTICK_TYPE_DRUM_KIT: case SDL_JOYSTICK_TYPE_GUITAR: case SDL_JOYSTICK_TYPE_UNKNOWN: physical_usage.UsagePage = HID_USAGE_PAGE_GENERIC; physical_usage.Usage = HID_USAGE_GENERIC_JOYSTICK; break; case SDL_JOYSTICK_TYPE_GAMECONTROLLER: physical_usage.UsagePage = HID_USAGE_PAGE_GENERIC; physical_usage.Usage = HID_USAGE_GENERIC_GAMEPAD; break; case SDL_JOYSTICK_TYPE_WHEEL: physical_usage.UsagePage = HID_USAGE_PAGE_SIMULATION; physical_usage.Usage = HID_USAGE_SIMULATION_AUTOMOBILE_SIMULATION_DEVICE; break; case SDL_JOYSTICK_TYPE_FLIGHT_STICK: case SDL_JOYSTICK_TYPE_THROTTLE: physical_usage.UsagePage = HID_USAGE_PAGE_SIMULATION; physical_usage.Usage = HID_USAGE_SIMULATION_FLIGHT_SIMULATION_DEVICE; break; } if (!hid_device_begin_report_descriptor(iface, &device_usage)) return STATUS_NO_MEMORY; if (!hid_device_begin_input_report(iface, &physical_usage)) return STATUS_NO_MEMORY; for (i = 0; i < axis_count; i++) { if (!hid_device_add_axes(iface, 1, absolute_axis_usages[i].UsagePage, &absolute_axis_usages[i].Usage, FALSE, -32768, 32767)) return STATUS_NO_MEMORY; } for (i = 0; i < ball_count; i++) { if (!hid_device_add_axes(iface, 2, relative_axis_usages[2 * i].UsagePage, &relative_axis_usages[2 * i].Usage, TRUE, INT32_MIN, INT32_MAX)) return STATUS_NO_MEMORY; } if (hat_count && !hid_device_add_hatswitch(iface, hat_count)) return STATUS_NO_MEMORY; if (button_count && !hid_device_add_buttons(iface, HID_USAGE_PAGE_BUTTON, 1, button_count)) return STATUS_NO_MEMORY; if (!hid_device_end_input_report(iface)) return STATUS_NO_MEMORY; if (!descriptor_add_haptic(impl)) return STATUS_NO_MEMORY; if (!hid_device_end_report_descriptor(iface)) return STATUS_NO_MEMORY; /* Initialize axis in the report */ for (i = 0; i < axis_count; i++) hid_device_set_abs_axis(iface, i, pSDL_JoystickGetAxis(impl->sdl_joystick, i)); for (i = 0; i < hat_count; i++) set_hat_value(iface, i, pSDL_JoystickGetHat(impl->sdl_joystick, i)); return STATUS_SUCCESS; } static NTSTATUS build_controller_report_descriptor(struct unix_device *iface) { const USAGE_AND_PAGE device_usage = {.UsagePage = HID_USAGE_PAGE_GENERIC, .Usage = HID_USAGE_GENERIC_GAMEPAD}; static const USAGE left_axis_usages[] = {HID_USAGE_GENERIC_X, HID_USAGE_GENERIC_Y}; static const USAGE right_axis_usages[] = {HID_USAGE_GENERIC_RX, HID_USAGE_GENERIC_RY}; static const USAGE trigger_axis_usages[] = {HID_USAGE_GENERIC_Z, HID_USAGE_GENERIC_RZ}; struct sdl_device *impl = impl_from_unix_device(iface); ULONG i, button_count = SDL_CONTROLLER_BUTTON_MAX - 1; BOOL state; C_ASSERT(SDL_CONTROLLER_AXIS_MAX == 6); if (!hid_device_begin_report_descriptor(iface, &device_usage)) return STATUS_NO_MEMORY; if (!hid_device_begin_input_report(iface, &device_usage)) return STATUS_NO_MEMORY; if (!hid_device_add_axes(iface, 2, HID_USAGE_PAGE_GENERIC, left_axis_usages, FALSE, -32768, 32767)) return STATUS_NO_MEMORY; if (!hid_device_add_axes(iface, 2, HID_USAGE_PAGE_GENERIC, right_axis_usages, FALSE, -32768, 32767)) return STATUS_NO_MEMORY; if (!hid_device_add_axes(iface, 2, HID_USAGE_PAGE_GENERIC, trigger_axis_usages, FALSE, 0, 32767)) return STATUS_NO_MEMORY; if (!hid_device_add_hatswitch(iface, 1)) return STATUS_NO_MEMORY; if (!hid_device_add_buttons(iface, HID_USAGE_PAGE_BUTTON, 1, button_count)) return STATUS_NO_MEMORY; if (!hid_device_end_input_report(iface)) return STATUS_NO_MEMORY; if (!descriptor_add_haptic(impl)) return STATUS_NO_MEMORY; if (!hid_device_end_report_descriptor(iface)) return STATUS_NO_MEMORY; /* Initialize axis in the report */ for (i = SDL_CONTROLLER_AXIS_LEFTX; i < SDL_CONTROLLER_AXIS_MAX; i++) hid_device_set_abs_axis(iface, i, pSDL_GameControllerGetAxis(impl->sdl_controller, i)); state = pSDL_GameControllerGetButton(impl->sdl_controller, SDL_CONTROLLER_BUTTON_DPAD_UP); hid_device_move_hatswitch(iface, 0, 0, state ? -1 : +1); state = pSDL_GameControllerGetButton(impl->sdl_controller, SDL_CONTROLLER_BUTTON_DPAD_DOWN); hid_device_move_hatswitch(iface, 0, 0, state ? +1 : -1); state = pSDL_GameControllerGetButton(impl->sdl_controller, SDL_CONTROLLER_BUTTON_DPAD_LEFT); hid_device_move_hatswitch(iface, 0, state ? -1 : +1, 0); state = pSDL_GameControllerGetButton(impl->sdl_controller, SDL_CONTROLLER_BUTTON_DPAD_RIGHT); hid_device_move_hatswitch(iface, 0, state ? +1 : -1, 0); return STATUS_SUCCESS; } static void sdl_device_destroy(struct unix_device *iface) { } static NTSTATUS sdl_device_start(struct unix_device *iface) { struct sdl_device *impl = impl_from_unix_device(iface); NTSTATUS status; pthread_mutex_lock(&sdl_cs); if (impl->sdl_controller) status = build_controller_report_descriptor(iface); else status = build_joystick_report_descriptor(iface); impl->started = !status; pthread_mutex_unlock(&sdl_cs); return status; } static void sdl_device_stop(struct unix_device *iface) { struct sdl_device *impl = impl_from_unix_device(iface); pSDL_JoystickClose(impl->sdl_joystick); if (impl->sdl_controller) pSDL_GameControllerClose(impl->sdl_controller); if (impl->sdl_haptic) pSDL_HapticClose(impl->sdl_haptic); pthread_mutex_lock(&sdl_cs); impl->started = FALSE; list_remove(&impl->unix_device.entry); pthread_mutex_unlock(&sdl_cs); } static NTSTATUS sdl_device_haptics_start(struct unix_device *iface, UINT duration_ms, USHORT rumble_intensity, USHORT buzz_intensity, USHORT left_intensity, USHORT right_intensity) { struct sdl_device *impl = impl_from_unix_device(iface); TRACE("iface %p, duration_ms %u, rumble_intensity %u, buzz_intensity %u, left_intensity %u, right_intensity %u.\n", iface, duration_ms, rumble_intensity, buzz_intensity, left_intensity, right_intensity); if (!(impl->effect_support & EFFECT_SUPPORT_HAPTICS)) return STATUS_NOT_SUPPORTED; if (impl->effect_support & WINE_SDL_JOYSTICK_RUMBLE) { pSDL_JoystickRumble(impl->sdl_joystick, rumble_intensity, buzz_intensity, duration_ms); if (pSDL_JoystickRumbleTriggers) pSDL_JoystickRumbleTriggers(impl->sdl_joystick, left_intensity, right_intensity, duration_ms); } else if (impl->effect_support & SDL_HAPTIC_LEFTRIGHT) { SDL_HapticEffect effect; memset(&effect, 0, sizeof(SDL_HapticEffect)); effect.type = SDL_HAPTIC_LEFTRIGHT; effect.leftright.length = duration_ms; effect.leftright.large_magnitude = rumble_intensity; effect.leftright.small_magnitude = buzz_intensity; if (impl->haptic_effect_id >= 0) pSDL_HapticDestroyEffect(impl->sdl_haptic, impl->haptic_effect_id); impl->haptic_effect_id = pSDL_HapticNewEffect(impl->sdl_haptic, &effect); if (impl->haptic_effect_id >= 0) pSDL_HapticRunEffect(impl->sdl_haptic, impl->haptic_effect_id, 1); } else if (impl->effect_support & WINE_SDL_HAPTIC_RUMBLE) { float magnitude = (rumble_intensity + buzz_intensity) / 2.0 / 32767.0; pSDL_HapticRumblePlay(impl->sdl_haptic, magnitude, duration_ms); } return STATUS_SUCCESS; } static NTSTATUS sdl_device_haptics_stop(struct unix_device *iface) { struct sdl_device *impl = impl_from_unix_device(iface); TRACE("iface %p.\n", iface); if (impl->effect_support & WINE_SDL_JOYSTICK_RUMBLE) { pSDL_JoystickRumble(impl->sdl_joystick, 0, 0, 0); if (pSDL_JoystickRumbleTriggers) pSDL_JoystickRumbleTriggers(impl->sdl_joystick, 0, 0, 0); } else if (impl->effect_support & SDL_HAPTIC_LEFTRIGHT) pSDL_HapticStopAll(impl->sdl_haptic); else if (impl->effect_support & WINE_SDL_HAPTIC_RUMBLE) pSDL_HapticRumbleStop(impl->sdl_haptic); return STATUS_SUCCESS; } static NTSTATUS sdl_device_physical_device_control(struct unix_device *iface, USAGE control) { struct sdl_device *impl = impl_from_unix_device(iface); unsigned int i; TRACE("iface %p, control %#04x.\n", iface, control); switch (control) { case PID_USAGE_DC_ENABLE_ACTUATORS: pSDL_HapticSetGain(impl->sdl_haptic, 100); InterlockedOr(&impl->effect_flags, EFFECT_STATE_ACTUATORS_ENABLED); return STATUS_SUCCESS; case PID_USAGE_DC_DISABLE_ACTUATORS: pSDL_HapticSetGain(impl->sdl_haptic, 0); InterlockedAnd(&impl->effect_flags, ~EFFECT_STATE_ACTUATORS_ENABLED); return STATUS_SUCCESS; case PID_USAGE_DC_STOP_ALL_EFFECTS: pSDL_HapticStopAll(impl->sdl_haptic); pSDL_HapticSetAutocenter(impl->sdl_haptic, 0); return STATUS_SUCCESS; case PID_USAGE_DC_DEVICE_RESET: pSDL_HapticStopAll(impl->sdl_haptic); for (i = 0; i < ARRAY_SIZE(impl->effect_ids); ++i) { if (impl->effect_ids[i] < 0) continue; pSDL_HapticDestroyEffect(impl->sdl_haptic, impl->effect_ids[i]); impl->effect_ids[i] = -1; } pSDL_HapticSetAutocenter(impl->sdl_haptic, 100); return STATUS_SUCCESS; case PID_USAGE_DC_DEVICE_PAUSE: pSDL_HapticPause(impl->sdl_haptic); InterlockedOr(&impl->effect_flags, EFFECT_STATE_DEVICE_PAUSED); return STATUS_SUCCESS; case PID_USAGE_DC_DEVICE_CONTINUE: pSDL_HapticUnpause(impl->sdl_haptic); InterlockedAnd(&impl->effect_flags, ~EFFECT_STATE_DEVICE_PAUSED); return STATUS_SUCCESS; } return STATUS_NOT_SUPPORTED; } static NTSTATUS sdl_device_physical_device_set_gain(struct unix_device *iface, BYTE percent) { struct sdl_device *impl = impl_from_unix_device(iface); TRACE("iface %p, percent %#x.\n", iface, percent); pSDL_HapticSetGain(impl->sdl_haptic, percent); return STATUS_SUCCESS; } static NTSTATUS sdl_device_physical_effect_control(struct unix_device *iface, BYTE index, USAGE control, BYTE iterations) { struct sdl_device *impl = impl_from_unix_device(iface); int id = impl->effect_ids[index]; TRACE("iface %p, index %u, control %04x, iterations %u.\n", iface, index, control, iterations); if (impl->effect_ids[index] < 0) return STATUS_UNSUCCESSFUL; switch (control) { case PID_USAGE_OP_EFFECT_START_SOLO: pSDL_HapticStopAll(impl->sdl_haptic); /* fallthrough */ case PID_USAGE_OP_EFFECT_START: pSDL_HapticRunEffect(impl->sdl_haptic, id, (iterations == 0xff ? SDL_HAPTIC_INFINITY : iterations)); break; case PID_USAGE_OP_EFFECT_STOP: pSDL_HapticStopEffect(impl->sdl_haptic, id); break; } return STATUS_SUCCESS; } static NTSTATUS set_effect_type_from_usage(SDL_HapticEffect *effect, USAGE type) { switch (type) { case PID_USAGE_ET_SINE: effect->type = SDL_HAPTIC_SINE; return STATUS_SUCCESS; case PID_USAGE_ET_TRIANGLE: effect->type = SDL_HAPTIC_TRIANGLE; return STATUS_SUCCESS; case PID_USAGE_ET_SAWTOOTH_UP: effect->type = SDL_HAPTIC_SAWTOOTHUP; return STATUS_SUCCESS; case PID_USAGE_ET_SAWTOOTH_DOWN: effect->type = SDL_HAPTIC_SAWTOOTHDOWN; return STATUS_SUCCESS; case PID_USAGE_ET_SPRING: effect->type = SDL_HAPTIC_SPRING; return STATUS_SUCCESS; case PID_USAGE_ET_DAMPER: effect->type = SDL_HAPTIC_DAMPER; return STATUS_SUCCESS; case PID_USAGE_ET_INERTIA: effect->type = SDL_HAPTIC_INERTIA; return STATUS_SUCCESS; case PID_USAGE_ET_FRICTION: effect->type = SDL_HAPTIC_FRICTION; return STATUS_SUCCESS; case PID_USAGE_ET_CONSTANT_FORCE: effect->type = SDL_HAPTIC_CONSTANT; return STATUS_SUCCESS; case PID_USAGE_ET_RAMP: effect->type = SDL_HAPTIC_RAMP; return STATUS_SUCCESS; case PID_USAGE_ET_CUSTOM_FORCE_DATA: effect->type = SDL_HAPTIC_CUSTOM; return STATUS_SUCCESS; default: return STATUS_NOT_SUPPORTED; } } static NTSTATUS sdl_device_physical_effect_update(struct unix_device *iface, BYTE index, struct effect_params *params) { struct sdl_device *impl = impl_from_unix_device(iface); int id = impl->effect_ids[index]; SDL_HapticEffect effect = {0}; UINT16 direction; NTSTATUS status; TRACE("iface %p, index %u, params %p.\n", iface, index, params); if (params->effect_type == PID_USAGE_UNDEFINED) return STATUS_SUCCESS; if ((status = set_effect_type_from_usage(&effect, params->effect_type))) return status; /* The first direction we get from PID is in polar coordinate space, so we need to * remove 90° to make it match SDL spherical coordinates. */ direction = (params->direction[0] - 9000) % 36000; switch (params->effect_type) { case PID_USAGE_ET_SINE: case PID_USAGE_ET_SQUARE: case PID_USAGE_ET_TRIANGLE: case PID_USAGE_ET_SAWTOOTH_UP: case PID_USAGE_ET_SAWTOOTH_DOWN: effect.periodic.length = (params->duration == 0xffff ? SDL_HAPTIC_INFINITY : params->duration); effect.periodic.delay = params->start_delay; effect.periodic.button = params->trigger_button; effect.periodic.interval = params->trigger_repeat_interval; effect.periodic.direction.type = SDL_HAPTIC_SPHERICAL; effect.periodic.direction.dir[0] = direction; effect.periodic.direction.dir[1] = params->direction[1]; effect.periodic.period = params->periodic.period; effect.periodic.magnitude = (params->periodic.magnitude * params->gain_percent) / 100; effect.periodic.offset = params->periodic.offset; effect.periodic.phase = params->periodic.phase; effect.periodic.attack_length = params->envelope.attack_time; effect.periodic.attack_level = params->envelope.attack_level; effect.periodic.fade_length = params->envelope.fade_time; effect.periodic.fade_level = params->envelope.fade_level; break; case PID_USAGE_ET_SPRING: case PID_USAGE_ET_DAMPER: case PID_USAGE_ET_INERTIA: case PID_USAGE_ET_FRICTION: effect.condition.length = (params->duration == 0xffff ? SDL_HAPTIC_INFINITY : params->duration); effect.condition.delay = params->start_delay; effect.condition.button = params->trigger_button; effect.condition.interval = params->trigger_repeat_interval; effect.condition.direction.type = SDL_HAPTIC_SPHERICAL; effect.condition.direction.dir[0] = direction; effect.condition.direction.dir[1] = params->direction[1]; if (params->condition_count >= 1) { effect.condition.right_sat[0] = params->condition[0].positive_saturation; effect.condition.left_sat[0] = params->condition[0].negative_saturation; effect.condition.right_coeff[0] = params->condition[0].positive_coefficient; effect.condition.left_coeff[0] = params->condition[0].negative_coefficient; effect.condition.deadband[0] = params->condition[0].dead_band; effect.condition.center[0] = params->condition[0].center_point_offset; } if (params->condition_count >= 2) { effect.condition.right_sat[1] = params->condition[1].positive_saturation; effect.condition.left_sat[1] = params->condition[1].negative_saturation; effect.condition.right_coeff[1] = params->condition[1].positive_coefficient; effect.condition.left_coeff[1] = params->condition[1].negative_coefficient; effect.condition.deadband[1] = params->condition[1].dead_band; effect.condition.center[1] = params->condition[1].center_point_offset; } break; case PID_USAGE_ET_CONSTANT_FORCE: effect.constant.length = (params->duration == 0xffff ? SDL_HAPTIC_INFINITY : params->duration); effect.constant.delay = params->start_delay; effect.constant.button = params->trigger_button; effect.constant.interval = params->trigger_repeat_interval; effect.constant.direction.type = SDL_HAPTIC_SPHERICAL; effect.constant.direction.dir[0] = direction; effect.constant.direction.dir[1] = params->direction[1]; effect.constant.level = (params->constant_force.magnitude * params->gain_percent) / 100; effect.constant.attack_length = params->envelope.attack_time; effect.constant.attack_level = params->envelope.attack_level; effect.constant.fade_length = params->envelope.fade_time; effect.constant.fade_level = params->envelope.fade_level; break; /* According to the SDL documentation, ramp effect doesn't * support SDL_HAPTIC_INFINITY. */ case PID_USAGE_ET_RAMP: effect.ramp.length = params->duration; effect.ramp.delay = params->start_delay; effect.ramp.button = params->trigger_button; effect.ramp.interval = params->trigger_repeat_interval; effect.ramp.direction.type = SDL_HAPTIC_SPHERICAL; effect.ramp.direction.dir[0] = params->direction[0]; effect.ramp.direction.dir[1] = params->direction[1]; effect.ramp.start = (params->ramp_force.ramp_start * params->gain_percent) / 100; effect.ramp.end = (params->ramp_force.ramp_end * params->gain_percent) / 100; effect.ramp.attack_length = params->envelope.attack_time; effect.ramp.attack_level = params->envelope.attack_level; effect.ramp.fade_length = params->envelope.fade_time; effect.ramp.fade_level = params->envelope.fade_level; break; case PID_USAGE_ET_CUSTOM_FORCE_DATA: FIXME("not implemented!\n"); break; } if (id < 0) impl->effect_ids[index] = pSDL_HapticNewEffect(impl->sdl_haptic, &effect); else pSDL_HapticUpdateEffect(impl->sdl_haptic, id, &effect); return STATUS_SUCCESS; } static const struct hid_device_vtbl sdl_device_vtbl = { sdl_device_destroy, sdl_device_start, sdl_device_stop, sdl_device_haptics_start, sdl_device_haptics_stop, sdl_device_physical_device_control, sdl_device_physical_device_set_gain, sdl_device_physical_effect_control, sdl_device_physical_effect_update, }; static void check_device_effects_state(struct sdl_device *impl) { struct unix_device *iface = &impl->unix_device; struct hid_effect_state *effect_state = &iface->hid_physical.effect_state; ULONG effect_flags = InterlockedOr(&impl->effect_flags, 0); unsigned int i, ret; if (!impl->sdl_haptic) return; if (!(impl->effect_support & EFFECT_SUPPORT_PHYSICAL)) return; for (i = 0; i < ARRAY_SIZE(impl->effect_ids); ++i) { if (impl->effect_ids[i] == -1) continue; if (!(impl->effect_support & SDL_HAPTIC_STATUS)) ret = 1; else ret = pSDL_HapticGetEffectStatus(impl->sdl_haptic, impl->effect_ids[i]); if (impl->effect_state[i] == ret) continue; impl->effect_state[i] = ret; hid_device_set_effect_state(iface, i, effect_flags | (ret == 1 ? EFFECT_STATE_EFFECT_PLAYING : 0)); bus_event_queue_input_report(&event_queue, iface, effect_state->report_buf, effect_state->report_len); } } static void check_all_devices_effects_state(void) { static UINT last_ticks = 0; UINT ticks = pSDL_GetTicks(); struct sdl_device *impl; if (ticks - last_ticks < 10) return; last_ticks = ticks; pthread_mutex_lock(&sdl_cs); LIST_FOR_EACH_ENTRY(impl, &device_list, struct sdl_device, unix_device.entry) check_device_effects_state(impl); pthread_mutex_unlock(&sdl_cs); } static BOOL set_report_from_joystick_event(struct sdl_device *impl, SDL_Event *event) { struct unix_device *iface = &impl->unix_device; struct hid_device_state *state = &iface->hid_device_state; if (impl->sdl_controller) return TRUE; /* use controller events instead */ switch (event->type) { case SDL_JOYBUTTONDOWN: case SDL_JOYBUTTONUP: { SDL_JoyButtonEvent *ie = &event->jbutton; hid_device_set_button(iface, ie->button, ie->state); bus_event_queue_input_report(&event_queue, iface, state->report_buf, state->report_len); break; } case SDL_JOYAXISMOTION: { SDL_JoyAxisEvent *ie = &event->jaxis; if (!hid_device_set_abs_axis(iface, ie->axis, ie->value)) break; bus_event_queue_input_report(&event_queue, iface, state->report_buf, state->report_len); break; } case SDL_JOYBALLMOTION: { SDL_JoyBallEvent *ie = &event->jball; if (!hid_device_set_rel_axis(iface, 2 * ie->ball, ie->xrel)) break; hid_device_set_rel_axis(iface, 2 * ie->ball + 1, ie->yrel); bus_event_queue_input_report(&event_queue, iface, state->report_buf, state->report_len); break; } case SDL_JOYHATMOTION: { SDL_JoyHatEvent *ie = &event->jhat; set_hat_value(iface, ie->hat, ie->value); bus_event_queue_input_report(&event_queue, iface, state->report_buf, state->report_len); break; } default: ERR("TODO: Process Report (0x%x)\n",event->type); } check_device_effects_state(impl); return FALSE; } static BOOL set_report_from_controller_event(struct sdl_device *impl, SDL_Event *event) { struct unix_device *iface = &impl->unix_device; struct hid_device_state *state = &iface->hid_device_state; switch (event->type) { case SDL_CONTROLLERBUTTONDOWN: case SDL_CONTROLLERBUTTONUP: { SDL_ControllerButtonEvent *ie = &event->cbutton; int button; switch ((button = ie->button)) { case SDL_CONTROLLER_BUTTON_DPAD_UP: hid_device_move_hatswitch(iface, 0, 0, ie->state ? -1 : +1); break; case SDL_CONTROLLER_BUTTON_DPAD_DOWN: hid_device_move_hatswitch(iface, 0, 0, ie->state ? +1 : -1); break; case SDL_CONTROLLER_BUTTON_DPAD_LEFT: hid_device_move_hatswitch(iface, 0, ie->state ? -1 : +1, 0); break; case SDL_CONTROLLER_BUTTON_DPAD_RIGHT: hid_device_move_hatswitch(iface, 0, ie->state ? +1 : -1, 0); break; case SDL_CONTROLLER_BUTTON_LEFTSHOULDER: button = 4; break; case SDL_CONTROLLER_BUTTON_RIGHTSHOULDER: button = 5; break; case SDL_CONTROLLER_BUTTON_BACK: button = 6; break; case SDL_CONTROLLER_BUTTON_START: button = 7; break; case SDL_CONTROLLER_BUTTON_LEFTSTICK: button = 8; break; case SDL_CONTROLLER_BUTTON_RIGHTSTICK: button = 9; break; case SDL_CONTROLLER_BUTTON_GUIDE: button = 10; break; } hid_device_set_button(iface, button, ie->state); bus_event_queue_input_report(&event_queue, iface, state->report_buf, state->report_len); break; } case SDL_CONTROLLERAXISMOTION: { SDL_ControllerAxisEvent *ie = &event->caxis; hid_device_set_abs_axis(iface, ie->axis, ie->value); bus_event_queue_input_report(&event_queue, iface, state->report_buf, state->report_len); break; } default: ERR("TODO: Process Report (%x)\n",event->type); } check_device_effects_state(impl); return FALSE; } static void sdl_add_device(unsigned int index) { struct device_desc desc = { .input = -1, .manufacturer = {'S','D','L',0}, .serialnumber = {'0','0','0','0',0}, }; struct sdl_device *impl; SDL_Joystick* joystick; SDL_JoystickID id; SDL_GameController *controller = NULL; const char *product, *sdl_serial; char guid_str[33], buffer[ARRAY_SIZE(desc.product)]; int axis_count, axis_offset; if ((joystick = pSDL_JoystickOpen(index)) == NULL) { WARN("Unable to open sdl device %i: %s\n", index, pSDL_GetError()); return; } if (options.map_controllers && pSDL_IsGameController(index)) controller = pSDL_GameControllerOpen(index); if (controller) product = pSDL_GameControllerName(controller); else product = pSDL_JoystickName(joystick); if (!product) product = "Joystick"; id = pSDL_JoystickInstanceID(joystick); if (pSDL_JoystickGetProductVersion != NULL) { desc.vid = pSDL_JoystickGetVendor(joystick); desc.pid = pSDL_JoystickGetProduct(joystick); desc.version = pSDL_JoystickGetProductVersion(joystick); } else { desc.vid = 0x01; desc.pid = pSDL_JoystickInstanceID(joystick) + 1; desc.version = 0; } if (pSDL_JoystickGetSerial && (sdl_serial = pSDL_JoystickGetSerial(joystick))) { ntdll_umbstowcs(sdl_serial, strlen(sdl_serial) + 1, desc.serialnumber, ARRAY_SIZE(desc.serialnumber)); } else { /* Overcooked! All You Can Eat only adds controllers with unique serial numbers * Prefer keeping serial numbers unique over keeping them consistent across runs */ pSDL_JoystickGetGUIDString(pSDL_JoystickGetGUID(joystick), guid_str, sizeof(guid_str)); snprintf(buffer, sizeof(buffer), "%s.%d", guid_str, index); TRACE("Making up serial number for %s: %s\n", product, buffer); ntdll_umbstowcs(buffer, strlen(buffer) + 1, desc.serialnumber, ARRAY_SIZE(desc.serialnumber)); } if (controller) { desc.is_gamepad = TRUE; desc.usages.UsagePage = HID_USAGE_PAGE_GENERIC; desc.usages.Usage = HID_USAGE_GENERIC_GAMEPAD; axis_count = 6; } else { int button_count = pSDL_JoystickNumButtons(joystick); axis_count = pSDL_JoystickNumAxes(joystick); desc.is_gamepad = (axis_count == 6 && button_count >= 14); desc.usages.UsagePage = HID_USAGE_PAGE_GENERIC; desc.usages.Usage = HID_USAGE_GENERIC_JOYSTICK; } for (axis_offset = 0; axis_offset < axis_count; axis_offset += (options.split_controllers ? 6 : axis_count)) { if (!axis_offset) strcpy(buffer, product); else snprintf(buffer, ARRAY_SIZE(buffer), "%s %d", product, axis_offset / 6); ntdll_umbstowcs(buffer, strlen(buffer) + 1, desc.product, ARRAY_SIZE(desc.product)); TRACE("%s id %d, axis_offset %u, desc %s.\n", controller ? "controller" : "joystick", id, axis_offset, debugstr_device_desc(&desc)); if (!(impl = hid_device_create(&sdl_device_vtbl, sizeof(struct sdl_device)))) return; list_add_tail(&device_list, &impl->unix_device.entry); impl->sdl_joystick = joystick; impl->sdl_controller = controller; impl->id = id; impl->axis_offset = axis_offset; bus_event_queue_device_created(&event_queue, &impl->unix_device, &desc); } } static void process_device_event(SDL_Event *event) { struct sdl_device *impl; SDL_JoystickID id; TRACE("Received action %x\n", event->type); pthread_mutex_lock(&sdl_cs); if (event->type == SDL_JOYDEVICEADDED) sdl_add_device(((SDL_JoyDeviceEvent *)event)->which); else if (event->type == SDL_JOYDEVICEREMOVED) { id = ((SDL_JoyDeviceEvent *)event)->which; impl = find_device_from_id(id); if (impl) bus_event_queue_device_removed(&event_queue, &impl->unix_device); else WARN("Failed to find device with id %d\n", id); } else if (event->type == SDL_JOYAXISMOTION && options.split_controllers) { id = event->jaxis.which; impl = find_device_from_id_and_axis(id, event->jaxis.axis); if (!impl) WARN("Failed to find device with id %d for axis %d\n", id, event->jaxis.axis); else if (!impl->started) WARN("Device %p with id %d is stopped, ignoring event %#x\n", impl, id, event->type); else { event->jaxis.axis -= impl->axis_offset; set_report_from_joystick_event(impl, event); } } else if (event->type >= SDL_JOYAXISMOTION && event->type <= SDL_JOYBUTTONUP) { id = ((SDL_JoyButtonEvent *)event)->which; impl = find_device_from_id(id); if (!impl) WARN("Failed to find device with id %d\n", id); else if (!impl->started) WARN("Device %p with id %d is stopped, ignoring event %#x\n", impl, id, event->type); else set_report_from_joystick_event(impl, event); } else if (event->type >= SDL_CONTROLLERAXISMOTION && event->type <= SDL_CONTROLLERBUTTONUP) { id = ((SDL_ControllerButtonEvent *)event)->which; impl = find_device_from_id(id); if (!impl) WARN("Failed to find device with id %d\n", id); else if (!impl->started) WARN("Device %p with id %d is stopped, ignoring event %#x\n", impl, id, event->type); else set_report_from_controller_event(impl, event); } pthread_mutex_unlock(&sdl_cs); } NTSTATUS sdl_bus_init(void *args) { const char *mapping; int i; TRACE("args %p\n", args); options = *(struct sdl_bus_options *)args; if (!(sdl_handle = dlopen(SONAME_LIBSDL2, RTLD_NOW))) { WARN("could not load %s\n", SONAME_LIBSDL2); return STATUS_UNSUCCESSFUL; } #define LOAD_FUNCPTR(f) \ if ((p##f = dlsym(sdl_handle, #f)) == NULL) \ { \ WARN("could not find symbol %s\n", #f); \ goto failed; \ } LOAD_FUNCPTR(SDL_GetError); LOAD_FUNCPTR(SDL_Init); LOAD_FUNCPTR(SDL_JoystickClose); LOAD_FUNCPTR(SDL_JoystickEventState); LOAD_FUNCPTR(SDL_JoystickGetGUID); LOAD_FUNCPTR(SDL_JoystickGetGUIDString); LOAD_FUNCPTR(SDL_JoystickInstanceID); LOAD_FUNCPTR(SDL_JoystickName); LOAD_FUNCPTR(SDL_JoystickNumAxes); LOAD_FUNCPTR(SDL_JoystickOpen); LOAD_FUNCPTR(SDL_WaitEventTimeout); LOAD_FUNCPTR(SDL_JoystickNumButtons); LOAD_FUNCPTR(SDL_JoystickNumBalls); LOAD_FUNCPTR(SDL_JoystickNumHats); LOAD_FUNCPTR(SDL_JoystickGetAxis); LOAD_FUNCPTR(SDL_JoystickGetHat); LOAD_FUNCPTR(SDL_IsGameController); LOAD_FUNCPTR(SDL_GameControllerClose); LOAD_FUNCPTR(SDL_GameControllerGetAxis); LOAD_FUNCPTR(SDL_GameControllerGetButton); LOAD_FUNCPTR(SDL_GameControllerName); LOAD_FUNCPTR(SDL_GameControllerOpen); LOAD_FUNCPTR(SDL_GameControllerEventState); LOAD_FUNCPTR(SDL_HapticClose); LOAD_FUNCPTR(SDL_HapticDestroyEffect); LOAD_FUNCPTR(SDL_HapticGetEffectStatus); LOAD_FUNCPTR(SDL_HapticNewEffect); LOAD_FUNCPTR(SDL_HapticOpenFromJoystick); LOAD_FUNCPTR(SDL_HapticPause); LOAD_FUNCPTR(SDL_HapticQuery); LOAD_FUNCPTR(SDL_HapticRumbleInit); LOAD_FUNCPTR(SDL_HapticRumblePlay); LOAD_FUNCPTR(SDL_HapticRumbleStop); LOAD_FUNCPTR(SDL_HapticRumbleSupported); LOAD_FUNCPTR(SDL_HapticRunEffect); LOAD_FUNCPTR(SDL_HapticSetGain); LOAD_FUNCPTR(SDL_HapticSetAutocenter); LOAD_FUNCPTR(SDL_HapticStopAll); LOAD_FUNCPTR(SDL_HapticStopEffect); LOAD_FUNCPTR(SDL_HapticUnpause); LOAD_FUNCPTR(SDL_HapticUpdateEffect); LOAD_FUNCPTR(SDL_JoystickIsHaptic); LOAD_FUNCPTR(SDL_GameControllerAddMapping); LOAD_FUNCPTR(SDL_RegisterEvents); LOAD_FUNCPTR(SDL_PushEvent); LOAD_FUNCPTR(SDL_GetTicks); #undef LOAD_FUNCPTR pSDL_JoystickRumble = dlsym(sdl_handle, "SDL_JoystickRumble"); pSDL_JoystickRumbleTriggers = dlsym(sdl_handle, "SDL_JoystickRumbleTriggers"); pSDL_JoystickGetProduct = dlsym(sdl_handle, "SDL_JoystickGetProduct"); pSDL_JoystickGetProductVersion = dlsym(sdl_handle, "SDL_JoystickGetProductVersion"); pSDL_JoystickGetVendor = dlsym(sdl_handle, "SDL_JoystickGetVendor"); pSDL_JoystickGetType = dlsym(sdl_handle, "SDL_JoystickGetType"); pSDL_JoystickGetSerial = dlsym(sdl_handle, "SDL_JoystickGetSerial"); if (pSDL_Init(SDL_INIT_GAMECONTROLLER | SDL_INIT_HAPTIC) < 0) { ERR("could not init SDL: %s\n", pSDL_GetError()); goto failed; } if ((quit_event = pSDL_RegisterEvents(1)) == -1) { ERR("error registering quit event\n"); goto failed; } pSDL_JoystickEventState(SDL_ENABLE); pSDL_GameControllerEventState(SDL_ENABLE); /* Process mappings */ if (pSDL_GameControllerAddMapping) { if ((mapping = getenv("SDL_GAMECONTROLLERCONFIG"))) { TRACE("Setting environment mapping %s\n", debugstr_a(mapping)); if (pSDL_GameControllerAddMapping(mapping) < 0) WARN("Failed to add environment mapping %s\n", pSDL_GetError()); } else for (i = 0; i < options.mappings_count; ++i) { TRACE("Setting registry mapping %s\n", debugstr_a(options.mappings[i])); if (pSDL_GameControllerAddMapping(options.mappings[i]) < 0) WARN("Failed to add registry mapping %s\n", pSDL_GetError()); } } return STATUS_SUCCESS; failed: dlclose(sdl_handle); sdl_handle = NULL; return STATUS_UNSUCCESSFUL; } NTSTATUS sdl_bus_wait(void *args) { struct bus_event *result = args; SDL_Event event; /* cleanup previously returned event */ bus_event_cleanup(result); do { if (bus_event_queue_pop(&event_queue, result)) return STATUS_PENDING; if (pSDL_WaitEventTimeout(&event, 10) != 0) process_device_event(&event); else check_all_devices_effects_state(); } while (event.type != quit_event); TRACE("SDL main loop exiting\n"); bus_event_queue_destroy(&event_queue); dlclose(sdl_handle); sdl_handle = NULL; return STATUS_SUCCESS; } NTSTATUS sdl_bus_stop(void *args) { SDL_Event event; if (!sdl_handle) return STATUS_SUCCESS; event.type = quit_event; if (pSDL_PushEvent(&event) != 1) { ERR("error pushing quit event\n"); return STATUS_UNSUCCESSFUL; } return STATUS_SUCCESS; } #else NTSTATUS sdl_bus_init(void *args) { WARN("SDL support not compiled in!\n"); return STATUS_NOT_IMPLEMENTED; } NTSTATUS sdl_bus_wait(void *args) { WARN("SDL support not compiled in!\n"); return STATUS_NOT_IMPLEMENTED; } NTSTATUS sdl_bus_stop(void *args) { WARN("SDL support not compiled in!\n"); return STATUS_NOT_IMPLEMENTED; } #endif /* SONAME_LIBSDL2 */