/* Simple DirectMedia Layer Copyright (C) 2024 Sam Lantinga This software is provided 'as-is', without any express or implied warranty. In no event will the authors be held liable for any damages arising from the use of this software. Permission is granted to anyone to use this software for any purpose, including commercial applications, and to alter it and redistribute it freely, subject to the following restrictions: 1. The origin of this software must not be misrepresented; you must not claim that you wrote the original software. If you use this software in a product, an acknowledgment in the product documentation would be appreciated but is not required. 2. Altered source versions must be plainly marked as such, and must not be misrepresented as being the original software. 3. This notice may not be removed or altered from any source distribution. */ /* RAWINPUT Joystick API for better handling XInput-capable devices on Windows. XInput is limited to 4 devices. Windows.Gaming.Input does not get inputs from XBox One controllers when not in the foreground. DirectInput does not get inputs from XBox One controllers when not in the foreground, nor rumble or accurate triggers. RawInput does not get rumble or accurate triggers. So, combine them as best we can! */ #include "SDL_internal.h" #ifdef SDL_JOYSTICK_RAWINPUT #include "../usb_ids.h" #include "../SDL_sysjoystick.h" #include "../../core/windows/SDL_windows.h" #include "../../core/windows/SDL_hid.h" #include "../hidapi/SDL_hidapijoystick_c.h" /* SDL_JOYSTICK_RAWINPUT_XINPUT is disabled because using XInput at the same time as raw input will turn off the Xbox Series X controller when it is connected via the Xbox One Wireless Adapter. */ #ifdef HAVE_XINPUT_H #define SDL_JOYSTICK_RAWINPUT_XINPUT #endif #ifdef HAVE_WINDOWS_GAMING_INPUT_H #define SDL_JOYSTICK_RAWINPUT_WGI #endif #ifdef SDL_JOYSTICK_RAWINPUT_XINPUT #include "../../core/windows/SDL_xinput.h" #endif #ifdef SDL_JOYSTICK_RAWINPUT_WGI #include "../../core/windows/SDL_windows.h" typedef struct WindowsGamingInputGamepadState WindowsGamingInputGamepadState; #define GamepadButtons_GUIDE 0x40000000 #define COBJMACROS #include "windows.gaming.input.h" #include #endif #if defined(SDL_JOYSTICK_RAWINPUT_XINPUT) || defined(SDL_JOYSTICK_RAWINPUT_WGI) #define SDL_JOYSTICK_RAWINPUT_MATCHING #define SDL_JOYSTICK_RAWINPUT_MATCH_AXES #define SDL_JOYSTICK_RAWINPUT_MATCH_TRIGGERS #ifdef SDL_JOYSTICK_RAWINPUT_MATCH_TRIGGERS #define SDL_JOYSTICK_RAWINPUT_MATCH_COUNT 6 // stick + trigger axes #else #define SDL_JOYSTICK_RAWINPUT_MATCH_COUNT 4 // stick axes #endif #endif #if 0 #define DEBUG_RAWINPUT #endif #ifndef RIDEV_EXINPUTSINK #define RIDEV_EXINPUTSINK 0x00001000 #define RIDEV_DEVNOTIFY 0x00002000 #endif #ifndef WM_INPUT_DEVICE_CHANGE #define WM_INPUT_DEVICE_CHANGE 0x00FE #endif #ifndef WM_INPUT #define WM_INPUT 0x00FF #endif #ifndef GIDC_ARRIVAL #define GIDC_ARRIVAL 1 #define GIDC_REMOVAL 2 #endif extern void WINDOWS_RAWINPUTEnabledChanged(void); extern void WINDOWS_JoystickDetect(void); static bool SDL_RAWINPUT_inited = false; static bool SDL_RAWINPUT_remote_desktop = false; static int SDL_RAWINPUT_numjoysticks = 0; static void RAWINPUT_JoystickClose(SDL_Joystick *joystick); typedef struct SDL_RAWINPUT_Device { SDL_AtomicInt refcount; char *name; char *path; Uint16 vendor_id; Uint16 product_id; Uint16 version; SDL_GUID guid; bool is_xinput; bool is_xboxone; int steam_virtual_gamepad_slot; PHIDP_PREPARSED_DATA preparsed_data; HANDLE hDevice; SDL_Joystick *joystick; SDL_JoystickID joystick_id; struct SDL_RAWINPUT_Device *next; } SDL_RAWINPUT_Device; struct joystick_hwdata { bool is_xinput; bool is_xboxone; PHIDP_PREPARSED_DATA preparsed_data; ULONG max_data_length; HIDP_DATA *data; USHORT *button_indices; USHORT *axis_indices; USHORT *hat_indices; bool guide_hack; bool trigger_hack; USHORT trigger_hack_index; #ifdef SDL_JOYSTICK_RAWINPUT_MATCHING Uint64 match_state; // Lowest 16 bits for button states, higher 24 for 6 4bit axes Uint64 last_state_packet; #endif #ifdef SDL_JOYSTICK_RAWINPUT_XINPUT bool xinput_enabled; bool xinput_correlated; Uint8 xinput_correlation_id; Uint8 xinput_correlation_count; Uint8 xinput_uncorrelate_count; Uint8 xinput_slot; #endif #ifdef SDL_JOYSTICK_RAWINPUT_WGI bool wgi_correlated; Uint8 wgi_correlation_id; Uint8 wgi_correlation_count; Uint8 wgi_uncorrelate_count; WindowsGamingInputGamepadState *wgi_slot; #endif SDL_RAWINPUT_Device *device; }; typedef struct joystick_hwdata RAWINPUT_DeviceContext; SDL_RAWINPUT_Device *SDL_RAWINPUT_devices; static const Uint16 subscribed_devices[] = { USB_USAGE_GENERIC_GAMEPAD, /* Don't need Joystick for any devices we're handling here (XInput-capable) USB_USAGE_GENERIC_JOYSTICK, USB_USAGE_GENERIC_MULTIAXISCONTROLLER, */ }; #ifdef SDL_JOYSTICK_RAWINPUT_MATCHING static struct { Uint64 last_state_packet; SDL_Joystick *joystick; SDL_Joystick *last_joystick; } guide_button_candidate; typedef struct WindowsMatchState { #ifdef SDL_JOYSTICK_RAWINPUT_MATCH_AXES SHORT match_axes[SDL_JOYSTICK_RAWINPUT_MATCH_COUNT]; #endif #ifdef SDL_JOYSTICK_RAWINPUT_XINPUT WORD xinput_buttons; #endif #ifdef SDL_JOYSTICK_RAWINPUT_WGI Uint32 wgi_buttons; #endif bool any_data; } WindowsMatchState; static void RAWINPUT_FillMatchState(WindowsMatchState *state, Uint64 match_state) { #ifdef SDL_JOYSTICK_RAWINPUT_MATCH_AXES int ii; #endif bool any_axes_data = false; #ifdef SDL_JOYSTICK_RAWINPUT_MATCH_AXES /* SHORT state->match_axes[4] = { (match_state & 0x000F0000) >> 4, (match_state & 0x00F00000) >> 8, (match_state & 0x0F000000) >> 12, (match_state & 0xF0000000) >> 16, }; */ for (ii = 0; ii < 4; ii++) { state->match_axes[ii] = (SHORT)((match_state & (0x000F0000ull << (ii * 4))) >> (4 + ii * 4)); any_axes_data |= ((Uint32)(state->match_axes[ii] + 0x1000) > 0x2000); // match_state bit is not 0xF, 0x1, or 0x2 } #endif // SDL_JOYSTICK_RAWINPUT_MATCH_AXES #ifdef SDL_JOYSTICK_RAWINPUT_MATCH_TRIGGERS for (; ii < SDL_JOYSTICK_RAWINPUT_MATCH_COUNT; ii++) { state->match_axes[ii] = (SHORT)((match_state & (0x000F0000ull << (ii * 4))) >> (4 + ii * 4)); any_axes_data |= (state->match_axes[ii] != SDL_MIN_SINT16); } #endif // SDL_JOYSTICK_RAWINPUT_MATCH_TRIGGERS state->any_data = any_axes_data; #ifdef SDL_JOYSTICK_RAWINPUT_XINPUT // Match axes by checking if the distance between the high 4 bits of axis and the 4 bits from match_state is 1 or less #define XInputAxesMatch(gamepad) ( \ (Uint32)(gamepad.sThumbLX - state->match_axes[0] + 0x1000) <= 0x2fff && \ (Uint32)(~gamepad.sThumbLY - state->match_axes[1] + 0x1000) <= 0x2fff && \ (Uint32)(gamepad.sThumbRX - state->match_axes[2] + 0x1000) <= 0x2fff && \ (Uint32)(~gamepad.sThumbRY - state->match_axes[3] + 0x1000) <= 0x2fff) /* Explicit #define XInputAxesMatch(gamepad) (\ SDL_abs((Sint8)((gamepad.sThumbLX & 0xF000) >> 8) - ((match_state & 0x000F0000) >> 12)) <= 0x10 && \ SDL_abs((Sint8)((~gamepad.sThumbLY & 0xF000) >> 8) - ((match_state & 0x00F00000) >> 16)) <= 0x10 && \ SDL_abs((Sint8)((gamepad.sThumbRX & 0xF000) >> 8) - ((match_state & 0x0F000000) >> 20)) <= 0x10 && \ SDL_abs((Sint8)((~gamepad.sThumbRY & 0xF000) >> 8) - ((match_state & 0xF0000000) >> 24)) <= 0x10) */ // Can only match trigger values if a single trigger has a value. #define XInputTriggersMatch(gamepad) ( \ ((state->match_axes[4] == SDL_MIN_SINT16) && (state->match_axes[5] == SDL_MIN_SINT16)) || \ ((gamepad.bLeftTrigger != 0) && (gamepad.bRightTrigger != 0)) || \ ((Uint32)((((int)gamepad.bLeftTrigger * 257) - 32768) - state->match_axes[4]) <= 0x2fff) || \ ((Uint32)((((int)gamepad.bRightTrigger * 257) - 32768) - state->match_axes[5]) <= 0x2fff)) state->xinput_buttons = // Bitwise map .RLDUWVQTS.KYXBA -> YXBA..WVQTKSRLDU (WORD)(match_state << 12 | (match_state & 0x0780) >> 1 | (match_state & 0x0010) << 1 | (match_state & 0x0040) >> 2 | (match_state & 0x7800) >> 11); /* Explicit ((match_state & (1<xinput_buttons) { state->any_data = true; } #endif #ifdef SDL_JOYSTICK_RAWINPUT_WGI // Match axes by checking if the distance between the high 4 bits of axis and the 4 bits from match_state is 1 or less #define WindowsGamingInputAxesMatch(gamepad) ( \ (Uint16)(((Sint16)(gamepad.LeftThumbstickX * SDL_MAX_SINT16) & 0xF000) - state->match_axes[0] + 0x1000) <= 0x2fff && \ (Uint16)((~(Sint16)(gamepad.LeftThumbstickY * SDL_MAX_SINT16) & 0xF000) - state->match_axes[1] + 0x1000) <= 0x2fff && \ (Uint16)(((Sint16)(gamepad.RightThumbstickX * SDL_MAX_SINT16) & 0xF000) - state->match_axes[2] + 0x1000) <= 0x2fff && \ (Uint16)((~(Sint16)(gamepad.RightThumbstickY * SDL_MAX_SINT16) & 0xF000) - state->match_axes[3] + 0x1000) <= 0x2fff) #define WindowsGamingInputTriggersMatch(gamepad) ( \ ((state->match_axes[4] == SDL_MIN_SINT16) && (state->match_axes[5] == SDL_MIN_SINT16)) || \ ((gamepad.LeftTrigger == 0.0f) && (gamepad.RightTrigger == 0.0f)) || \ ((Uint16)((((int)(gamepad.LeftTrigger * SDL_MAX_UINT16)) - 32768) - state->match_axes[4]) <= 0x2fff) || \ ((Uint16)((((int)(gamepad.RightTrigger * SDL_MAX_UINT16)) - 32768) - state->match_axes[5]) <= 0x2fff)) state->wgi_buttons = // Bitwise map .RLD UWVQ TS.K YXBA -> ..QT WVRL DUYX BAKS // RStick/LStick (QT) RShould/LShould (WV) DPad R/L/D/U YXBA bac(K) (S)tart (match_state & 0x0180) << 5 | (match_state & 0x0600) << 1 | (match_state & 0x7800) >> 5 | (match_state & 0x000F) << 2 | (match_state & 0x0010) >> 3 | (match_state & 0x0040) >> 6; /* Explicit ((match_state & (1<wgi_buttons) { state->any_data = true; } #endif } #endif // SDL_JOYSTICK_RAWINPUT_MATCHING #ifdef SDL_JOYSTICK_RAWINPUT_XINPUT static struct { XINPUT_STATE state; XINPUT_BATTERY_INFORMATION_EX battery; bool connected; // Currently has an active XInput device bool used; // Is currently mapped to an SDL device Uint8 correlation_id; } xinput_state[XUSER_MAX_COUNT]; static bool xinput_device_change = true; static bool xinput_state_dirty = true; static void RAWINPUT_UpdateXInput(void) { DWORD user_index; if (xinput_device_change) { for (user_index = 0; user_index < XUSER_MAX_COUNT; user_index++) { XINPUT_CAPABILITIES capabilities; xinput_state[user_index].connected = (XINPUTGETCAPABILITIES(user_index, XINPUT_FLAG_GAMEPAD, &capabilities) == ERROR_SUCCESS); } xinput_device_change = false; xinput_state_dirty = true; } if (xinput_state_dirty) { xinput_state_dirty = false; for (user_index = 0; user_index < SDL_arraysize(xinput_state); ++user_index) { if (xinput_state[user_index].connected) { if (XINPUTGETSTATE(user_index, &xinput_state[user_index].state) != ERROR_SUCCESS) { xinput_state[user_index].connected = false; } xinput_state[user_index].battery.BatteryType = BATTERY_TYPE_UNKNOWN; if (XINPUTGETBATTERYINFORMATION) { XINPUTGETBATTERYINFORMATION(user_index, BATTERY_DEVTYPE_GAMEPAD, &xinput_state[user_index].battery); } } } } } static void RAWINPUT_MarkXInputSlotUsed(Uint8 xinput_slot) { if (xinput_slot != XUSER_INDEX_ANY) { xinput_state[xinput_slot].used = true; } } static void RAWINPUT_MarkXInputSlotFree(Uint8 xinput_slot) { if (xinput_slot != XUSER_INDEX_ANY) { xinput_state[xinput_slot].used = false; } } static bool RAWINPUT_MissingXInputSlot(void) { int ii; for (ii = 0; ii < SDL_arraysize(xinput_state); ii++) { if (xinput_state[ii].connected && !xinput_state[ii].used) { return true; } } return false; } static bool RAWINPUT_XInputSlotMatches(const WindowsMatchState *state, Uint8 slot_idx) { if (xinput_state[slot_idx].connected) { WORD xinput_buttons = xinput_state[slot_idx].state.Gamepad.wButtons; if ((xinput_buttons & ~XINPUT_GAMEPAD_GUIDE) == state->xinput_buttons #ifdef SDL_JOYSTICK_RAWINPUT_MATCH_AXES && XInputAxesMatch(xinput_state[slot_idx].state.Gamepad) #endif #ifdef SDL_JOYSTICK_RAWINPUT_MATCH_TRIGGERS && XInputTriggersMatch(xinput_state[slot_idx].state.Gamepad) #endif ) { return true; } } return false; } static bool RAWINPUT_GuessXInputSlot(const WindowsMatchState *state, Uint8 *correlation_id, Uint8 *slot_idx) { Uint8 user_index; int match_count; /* If there is only one available slot, let's use that * That will be right most of the time, and uncorrelation will fix any bad guesses */ match_count = 0; for (user_index = 0; user_index < XUSER_MAX_COUNT; ++user_index) { if (xinput_state[user_index].connected && !xinput_state[user_index].used) { *slot_idx = user_index; ++match_count; } } if (match_count == 1) { *correlation_id = ++xinput_state[*slot_idx].correlation_id; return true; } *slot_idx = 0; match_count = 0; for (user_index = 0; user_index < XUSER_MAX_COUNT; ++user_index) { if (!xinput_state[user_index].used && RAWINPUT_XInputSlotMatches(state, user_index)) { ++match_count; *slot_idx = user_index; // Incrementing correlation_id for any match, as negative evidence for others being correlated *correlation_id = ++xinput_state[user_index].correlation_id; } } /* Only return a match if we match exactly one, and we have some non-zero data (buttons or axes) that matched. Note that we're still invalidating *other* potential correlations if we have more than one match or we have no data. */ if (match_count == 1 && state->any_data) { return true; } return false; } #endif // SDL_JOYSTICK_RAWINPUT_XINPUT #ifdef SDL_JOYSTICK_RAWINPUT_WGI typedef struct WindowsGamingInputGamepadState { __x_ABI_CWindows_CGaming_CInput_CIGamepad *gamepad; struct __x_ABI_CWindows_CGaming_CInput_CGamepadReading state; RAWINPUT_DeviceContext *correlated_context; bool used; // Is currently mapped to an SDL device bool connected; // Just used during update to track disconnected Uint8 correlation_id; struct __x_ABI_CWindows_CGaming_CInput_CGamepadVibration vibration; } WindowsGamingInputGamepadState; static struct { WindowsGamingInputGamepadState **per_gamepad; int per_gamepad_count; bool initialized; bool dirty; bool need_device_list_update; int ref_count; __x_ABI_CWindows_CGaming_CInput_CIGamepadStatics *gamepad_statics; EventRegistrationToken gamepad_added_token; EventRegistrationToken gamepad_removed_token; } wgi_state; typedef struct GamepadDelegate { __FIEventHandler_1_Windows__CGaming__CInput__CGamepad iface; SDL_AtomicInt refcount; } GamepadDelegate; static const IID IID_IEventHandler_Gamepad = { 0x8a7639ee, 0x624a, 0x501a, { 0xbb, 0x53, 0x56, 0x2d, 0x1e, 0xc1, 0x1b, 0x52 } }; static HRESULT STDMETHODCALLTYPE IEventHandler_CGamepadVtbl_QueryInterface(__FIEventHandler_1_Windows__CGaming__CInput__CGamepad *This, REFIID riid, void **ppvObject) { if (!ppvObject) { return E_INVALIDARG; } *ppvObject = NULL; if (WIN_IsEqualIID(riid, &IID_IUnknown) || WIN_IsEqualIID(riid, &IID_IAgileObject) || WIN_IsEqualIID(riid, &IID_IEventHandler_Gamepad)) { *ppvObject = This; __FIEventHandler_1_Windows__CGaming__CInput__CGamepad_AddRef(This); return S_OK; } else if (WIN_IsEqualIID(riid, &IID_IMarshal)) { // This seems complicated. Let's hope it doesn't happen. return E_OUTOFMEMORY; } else { return E_NOINTERFACE; } } static ULONG STDMETHODCALLTYPE IEventHandler_CGamepadVtbl_AddRef(__FIEventHandler_1_Windows__CGaming__CInput__CGamepad *This) { GamepadDelegate *self = (GamepadDelegate *)This; return SDL_AddAtomicInt(&self->refcount, 1) + 1UL; } static ULONG STDMETHODCALLTYPE IEventHandler_CGamepadVtbl_Release(__FIEventHandler_1_Windows__CGaming__CInput__CGamepad *This) { GamepadDelegate *self = (GamepadDelegate *)This; int rc = SDL_AddAtomicInt(&self->refcount, -1) - 1; // Should never free the static delegate objects SDL_assert(rc > 0); return rc; } static HRESULT STDMETHODCALLTYPE IEventHandler_CGamepadVtbl_InvokeAdded(__FIEventHandler_1_Windows__CGaming__CInput__CGamepad *This, IInspectable *sender, __x_ABI_CWindows_CGaming_CInput_CIGamepad *e) { wgi_state.need_device_list_update = true; return S_OK; } static HRESULT STDMETHODCALLTYPE IEventHandler_CGamepadVtbl_InvokeRemoved(__FIEventHandler_1_Windows__CGaming__CInput__CGamepad *This, IInspectable *sender, __x_ABI_CWindows_CGaming_CInput_CIGamepad *e) { wgi_state.need_device_list_update = true; return S_OK; } #ifdef _MSC_VER #pragma warning(push) #pragma warning(disable : 4028) // formal parameter 3 different from declaration, when using older buggy WGI headers #pragma warning(disable : 4113) // X differs in parameter lists from Y, when using older buggy WGI headers #endif static __FIEventHandler_1_Windows__CGaming__CInput__CGamepadVtbl gamepad_added_vtbl = { IEventHandler_CGamepadVtbl_QueryInterface, IEventHandler_CGamepadVtbl_AddRef, IEventHandler_CGamepadVtbl_Release, IEventHandler_CGamepadVtbl_InvokeAdded }; static GamepadDelegate gamepad_added = { { &gamepad_added_vtbl }, { 1 } }; static __FIEventHandler_1_Windows__CGaming__CInput__CGamepadVtbl gamepad_removed_vtbl = { IEventHandler_CGamepadVtbl_QueryInterface, IEventHandler_CGamepadVtbl_AddRef, IEventHandler_CGamepadVtbl_Release, IEventHandler_CGamepadVtbl_InvokeRemoved }; static GamepadDelegate gamepad_removed = { { &gamepad_removed_vtbl }, { 1 } }; #ifdef _MSC_VER #pragma warning(pop) #endif static void RAWINPUT_MarkWindowsGamingInputSlotUsed(WindowsGamingInputGamepadState *wgi_slot, RAWINPUT_DeviceContext *ctx) { wgi_slot->used = true; wgi_slot->correlated_context = ctx; } static void RAWINPUT_MarkWindowsGamingInputSlotFree(WindowsGamingInputGamepadState *wgi_slot) { wgi_slot->used = false; wgi_slot->correlated_context = NULL; } static bool RAWINPUT_MissingWindowsGamingInputSlot(void) { int ii; for (ii = 0; ii < wgi_state.per_gamepad_count; ii++) { if (!wgi_state.per_gamepad[ii]->used) { return true; } } return false; } static bool RAWINPUT_UpdateWindowsGamingInput(void) { int ii; if (!wgi_state.gamepad_statics) { return true; } if (!wgi_state.dirty) { return true; } wgi_state.dirty = false; if (wgi_state.need_device_list_update) { HRESULT hr; __FIVectorView_1_Windows__CGaming__CInput__CGamepad *gamepads; wgi_state.need_device_list_update = false; for (ii = 0; ii < wgi_state.per_gamepad_count; ii++) { wgi_state.per_gamepad[ii]->connected = false; } hr = __x_ABI_CWindows_CGaming_CInput_CIGamepadStatics_get_Gamepads(wgi_state.gamepad_statics, &gamepads); if (SUCCEEDED(hr)) { unsigned int num_gamepads; hr = __FIVectorView_1_Windows__CGaming__CInput__CGamepad_get_Size(gamepads, &num_gamepads); if (SUCCEEDED(hr)) { unsigned int i; for (i = 0; i < num_gamepads; ++i) { __x_ABI_CWindows_CGaming_CInput_CIGamepad *gamepad; hr = __FIVectorView_1_Windows__CGaming__CInput__CGamepad_GetAt(gamepads, i, &gamepad); if (SUCCEEDED(hr)) { bool found = false; int jj; for (jj = 0; jj < wgi_state.per_gamepad_count; jj++) { if (wgi_state.per_gamepad[jj]->gamepad == gamepad) { found = true; wgi_state.per_gamepad[jj]->connected = true; break; } } if (!found) { // New device, add it WindowsGamingInputGamepadState *gamepad_state; WindowsGamingInputGamepadState **new_per_gamepad; gamepad_state = SDL_calloc(1, sizeof(*gamepad_state)); if (!gamepad_state) { return false; } new_per_gamepad = SDL_realloc(wgi_state.per_gamepad, sizeof(wgi_state.per_gamepad[0]) * (wgi_state.per_gamepad_count + 1)); if (!new_per_gamepad) { SDL_free(gamepad_state); return false; } wgi_state.per_gamepad = new_per_gamepad; wgi_state.per_gamepad_count++; wgi_state.per_gamepad[wgi_state.per_gamepad_count - 1] = gamepad_state; gamepad_state->gamepad = gamepad; gamepad_state->connected = true; } else { // Already tracked __x_ABI_CWindows_CGaming_CInput_CIGamepad_Release(gamepad); } } } for (ii = wgi_state.per_gamepad_count - 1; ii >= 0; ii--) { WindowsGamingInputGamepadState *gamepad_state = wgi_state.per_gamepad[ii]; if (!gamepad_state->connected) { // Device missing, must be disconnected if (gamepad_state->correlated_context) { gamepad_state->correlated_context->wgi_correlated = false; gamepad_state->correlated_context->wgi_slot = NULL; } __x_ABI_CWindows_CGaming_CInput_CIGamepad_Release(gamepad_state->gamepad); SDL_free(gamepad_state); wgi_state.per_gamepad[ii] = wgi_state.per_gamepad[wgi_state.per_gamepad_count - 1]; --wgi_state.per_gamepad_count; } } } __FIVectorView_1_Windows__CGaming__CInput__CGamepad_Release(gamepads); } } // need_device_list_update for (ii = 0; ii < wgi_state.per_gamepad_count; ii++) { HRESULT hr = __x_ABI_CWindows_CGaming_CInput_CIGamepad_GetCurrentReading(wgi_state.per_gamepad[ii]->gamepad, &wgi_state.per_gamepad[ii]->state); if (!SUCCEEDED(hr)) { wgi_state.per_gamepad[ii]->connected = false; // Not used by anything, currently } } return true; } static void RAWINPUT_InitWindowsGamingInput(RAWINPUT_DeviceContext *ctx) { if (!SDL_GetHintBoolean(SDL_HINT_JOYSTICK_WGI, true)) { return; } wgi_state.ref_count++; if (!wgi_state.initialized) { static const IID SDL_IID_IGamepadStatics = { 0x8BBCE529, 0xD49C, 0x39E9, { 0x95, 0x60, 0xE4, 0x7D, 0xDE, 0x96, 0xB7, 0xC8 } }; HRESULT hr; if (FAILED(WIN_RoInitialize())) { return; } wgi_state.initialized = true; wgi_state.dirty = true; { typedef HRESULT(WINAPI * WindowsCreateStringReference_t)(PCWSTR sourceString, UINT32 length, HSTRING_HEADER * hstringHeader, HSTRING * string); typedef HRESULT(WINAPI * RoGetActivationFactory_t)(HSTRING activatableClassId, REFIID iid, void **factory); WindowsCreateStringReference_t WindowsCreateStringReferenceFunc = (WindowsCreateStringReference_t)WIN_LoadComBaseFunction("WindowsCreateStringReference"); RoGetActivationFactory_t RoGetActivationFactoryFunc = (RoGetActivationFactory_t)WIN_LoadComBaseFunction("RoGetActivationFactory"); if (WindowsCreateStringReferenceFunc && RoGetActivationFactoryFunc) { PCWSTR pNamespace = L"Windows.Gaming.Input.Gamepad"; HSTRING_HEADER hNamespaceStringHeader; HSTRING hNamespaceString; hr = WindowsCreateStringReferenceFunc(pNamespace, (UINT32)SDL_wcslen(pNamespace), &hNamespaceStringHeader, &hNamespaceString); if (SUCCEEDED(hr)) { RoGetActivationFactoryFunc(hNamespaceString, &SDL_IID_IGamepadStatics, (void **)&wgi_state.gamepad_statics); } if (wgi_state.gamepad_statics) { wgi_state.need_device_list_update = true; hr = __x_ABI_CWindows_CGaming_CInput_CIGamepadStatics_add_GamepadAdded(wgi_state.gamepad_statics, &gamepad_added.iface, &wgi_state.gamepad_added_token); if (!SUCCEEDED(hr)) { SDL_SetError("add_GamepadAdded() failed: 0x%lx\n", hr); } hr = __x_ABI_CWindows_CGaming_CInput_CIGamepadStatics_add_GamepadRemoved(wgi_state.gamepad_statics, &gamepad_removed.iface, &wgi_state.gamepad_removed_token); if (!SUCCEEDED(hr)) { SDL_SetError("add_GamepadRemoved() failed: 0x%lx\n", hr); } } } } } } static bool RAWINPUT_WindowsGamingInputSlotMatches(const WindowsMatchState *state, WindowsGamingInputGamepadState *slot, bool xinput_correlated) { Uint32 wgi_buttons = slot->state.Buttons; if ((wgi_buttons & 0x3FFF) == state->wgi_buttons #ifdef SDL_JOYSTICK_RAWINPUT_MATCH_AXES && WindowsGamingInputAxesMatch(slot->state) #endif #ifdef SDL_JOYSTICK_RAWINPUT_MATCH_TRIGGERS // Don't try to match WGI triggers if getting values from XInput && (xinput_correlated || WindowsGamingInputTriggersMatch(slot->state)) #endif ) { return true; } return false; } static bool RAWINPUT_GuessWindowsGamingInputSlot(const WindowsMatchState *state, Uint8 *correlation_id, WindowsGamingInputGamepadState **slot, bool xinput_correlated) { int match_count, user_index; WindowsGamingInputGamepadState *gamepad_state = NULL; /* If there is only one available slot, let's use that * That will be right most of the time, and uncorrelation will fix any bad guesses */ match_count = 0; for (user_index = 0; user_index < wgi_state.per_gamepad_count; ++user_index) { gamepad_state = wgi_state.per_gamepad[user_index]; if (gamepad_state->connected && !gamepad_state->used) { *slot = gamepad_state; ++match_count; } } if (match_count == 1) { *correlation_id = ++gamepad_state->correlation_id; return true; } match_count = 0; for (user_index = 0; user_index < wgi_state.per_gamepad_count; ++user_index) { gamepad_state = wgi_state.per_gamepad[user_index]; if (RAWINPUT_WindowsGamingInputSlotMatches(state, gamepad_state, xinput_correlated)) { ++match_count; *slot = gamepad_state; // Incrementing correlation_id for any match, as negative evidence for others being correlated *correlation_id = ++gamepad_state->correlation_id; } } /* Only return a match if we match exactly one, and we have some non-zero data (buttons or axes) that matched. Note that we're still invalidating *other* potential correlations if we have more than one match or we have no data. */ if (match_count == 1 && state->any_data) { return true; } return false; } static void RAWINPUT_QuitWindowsGamingInput(RAWINPUT_DeviceContext *ctx) { --wgi_state.ref_count; if (!wgi_state.ref_count && wgi_state.initialized) { int ii; for (ii = 0; ii < wgi_state.per_gamepad_count; ii++) { __x_ABI_CWindows_CGaming_CInput_CIGamepad_Release(wgi_state.per_gamepad[ii]->gamepad); } if (wgi_state.per_gamepad) { SDL_free(wgi_state.per_gamepad); wgi_state.per_gamepad = NULL; } wgi_state.per_gamepad_count = 0; if (wgi_state.gamepad_statics) { __x_ABI_CWindows_CGaming_CInput_CIGamepadStatics_remove_GamepadAdded(wgi_state.gamepad_statics, wgi_state.gamepad_added_token); __x_ABI_CWindows_CGaming_CInput_CIGamepadStatics_remove_GamepadRemoved(wgi_state.gamepad_statics, wgi_state.gamepad_removed_token); __x_ABI_CWindows_CGaming_CInput_CIGamepadStatics_Release(wgi_state.gamepad_statics); wgi_state.gamepad_statics = NULL; } WIN_RoUninitialize(); wgi_state.initialized = false; } } #endif // SDL_JOYSTICK_RAWINPUT_WGI static SDL_RAWINPUT_Device *RAWINPUT_AcquireDevice(SDL_RAWINPUT_Device *device) { SDL_AtomicIncRef(&device->refcount); return device; } static void RAWINPUT_ReleaseDevice(SDL_RAWINPUT_Device *device) { #ifdef SDL_JOYSTICK_RAWINPUT_XINPUT if (device->joystick) { RAWINPUT_DeviceContext *ctx = device->joystick->hwdata; if (ctx->xinput_enabled && ctx->xinput_correlated) { RAWINPUT_MarkXInputSlotFree(ctx->xinput_slot); ctx->xinput_correlated = false; } } #endif // SDL_JOYSTICK_RAWINPUT_XINPUT if (SDL_AtomicDecRef(&device->refcount)) { SDL_free(device->preparsed_data); SDL_free(device->name); SDL_free(device->path); SDL_free(device); } } static SDL_RAWINPUT_Device *RAWINPUT_DeviceFromHandle(HANDLE hDevice) { SDL_RAWINPUT_Device *curr; for (curr = SDL_RAWINPUT_devices; curr; curr = curr->next) { if (curr->hDevice == hDevice) { return curr; } } return NULL; } static int GetSteamVirtualGamepadSlot(Uint16 vendor_id, Uint16 product_id, const char *device_path) { int slot = -1; // The format for the raw input device path is documented here: // https://partner.steamgames.com/doc/features/steam_controller/steam_input_gamepad_emulation_bestpractices if (vendor_id == USB_VENDOR_VALVE && product_id == USB_PRODUCT_STEAM_VIRTUAL_GAMEPAD) { (void)SDL_sscanf(device_path, "\\\\.\\pipe\\HID#VID_045E&PID_028E&IG_00#%*X&%*X&%*X#%d#%*u", &slot); } return slot; } static void RAWINPUT_AddDevice(HANDLE hDevice) { #define CHECK(expression) \ { \ if (!(expression)) \ goto err; \ } SDL_RAWINPUT_Device *device = NULL; SDL_RAWINPUT_Device *curr, *last; RID_DEVICE_INFO rdi; UINT size; char dev_name[MAX_PATH] = { 0 }; HANDLE hFile = INVALID_HANDLE_VALUE; // Make sure we're not trying to add the same device twice if (RAWINPUT_DeviceFromHandle(hDevice)) { return; } // Figure out what kind of device it is size = sizeof(rdi); SDL_zero(rdi); CHECK(GetRawInputDeviceInfoA(hDevice, RIDI_DEVICEINFO, &rdi, &size) != (UINT)-1); CHECK(rdi.dwType == RIM_TYPEHID); // Get the device "name" (HID Path) size = SDL_arraysize(dev_name); CHECK(GetRawInputDeviceInfoA(hDevice, RIDI_DEVICENAME, dev_name, &size) != (UINT)-1); // Only take XInput-capable devices CHECK(SDL_strstr(dev_name, "IG_") != NULL); CHECK(!SDL_JoystickHandledByAnotherDriver(&SDL_RAWINPUT_JoystickDriver, (Uint16)rdi.hid.dwVendorId, (Uint16)rdi.hid.dwProductId, (Uint16)rdi.hid.dwVersionNumber, "")); device = (SDL_RAWINPUT_Device *)SDL_calloc(1, sizeof(SDL_RAWINPUT_Device)); CHECK(device); device->hDevice = hDevice; device->vendor_id = (Uint16)rdi.hid.dwVendorId; device->product_id = (Uint16)rdi.hid.dwProductId; device->version = (Uint16)rdi.hid.dwVersionNumber; device->is_xinput = true; device->is_xboxone = SDL_IsJoystickXboxOne(device->vendor_id, device->product_id); device->steam_virtual_gamepad_slot = GetSteamVirtualGamepadSlot(device->vendor_id, device->product_id, dev_name); // Get HID Top-Level Collection Preparsed Data size = 0; CHECK(GetRawInputDeviceInfoA(hDevice, RIDI_PREPARSEDDATA, NULL, &size) != (UINT)-1); device->preparsed_data = (PHIDP_PREPARSED_DATA)SDL_calloc(size, sizeof(BYTE)); CHECK(device->preparsed_data); CHECK(GetRawInputDeviceInfoA(hDevice, RIDI_PREPARSEDDATA, device->preparsed_data, &size) != (UINT)-1); hFile = CreateFileA(dev_name, GENERIC_READ, FILE_SHARE_READ | FILE_SHARE_WRITE, NULL, OPEN_EXISTING, 0, NULL); CHECK(hFile != INVALID_HANDLE_VALUE); { char *manufacturer_string = NULL; char *product_string = NULL; WCHAR string[128]; if (SDL_HidD_GetManufacturerString(hFile, string, sizeof(string))) { manufacturer_string = WIN_StringToUTF8W(string); } if (SDL_HidD_GetProductString(hFile, string, sizeof(string))) { product_string = WIN_StringToUTF8W(string); } device->name = SDL_CreateJoystickName(device->vendor_id, device->product_id, manufacturer_string, product_string); device->guid = SDL_CreateJoystickGUID(SDL_HARDWARE_BUS_USB, device->vendor_id, device->product_id, device->version, manufacturer_string, product_string, 'r', 0); if (manufacturer_string) { SDL_free(manufacturer_string); } if (product_string) { SDL_free(product_string); } } device->path = SDL_strdup(dev_name); CloseHandle(hFile); hFile = INVALID_HANDLE_VALUE; device->joystick_id = SDL_GetNextObjectID(); #ifdef DEBUG_RAWINPUT SDL_Log("Adding RAWINPUT device '%s' VID 0x%.4x, PID 0x%.4x, version %d, handle 0x%.8x\n", device->name, device->vendor_id, device->product_id, device->version, device->hDevice); #endif // Add it to the list RAWINPUT_AcquireDevice(device); for (curr = SDL_RAWINPUT_devices, last = NULL; curr; last = curr, curr = curr->next) { } if (last) { last->next = device; } else { SDL_RAWINPUT_devices = device; } ++SDL_RAWINPUT_numjoysticks; SDL_PrivateJoystickAdded(device->joystick_id); return; err: if (hFile != INVALID_HANDLE_VALUE) { CloseHandle(hFile); } if (device) { if (device->name) { SDL_free(device->name); } if (device->path) { SDL_free(device->path); } SDL_free(device); } #undef CHECK } static void RAWINPUT_DelDevice(SDL_RAWINPUT_Device *device, bool send_event) { SDL_RAWINPUT_Device *curr, *last; for (curr = SDL_RAWINPUT_devices, last = NULL; curr; last = curr, curr = curr->next) { if (curr == device) { if (last) { last->next = curr->next; } else { SDL_RAWINPUT_devices = curr->next; } --SDL_RAWINPUT_numjoysticks; SDL_PrivateJoystickRemoved(device->joystick_id); #ifdef DEBUG_RAWINPUT SDL_Log("Removing RAWINPUT device '%s' VID 0x%.4x, PID 0x%.4x, version %d, handle %p\n", device->name, device->vendor_id, device->product_id, device->version, device->hDevice); #endif RAWINPUT_ReleaseDevice(device); return; } } } static void RAWINPUT_DetectDevices(void) { UINT device_count = 0; if ((GetRawInputDeviceList(NULL, &device_count, sizeof(RAWINPUTDEVICELIST)) != -1) && device_count > 0) { PRAWINPUTDEVICELIST devices = NULL; UINT i; devices = (PRAWINPUTDEVICELIST)SDL_malloc(sizeof(RAWINPUTDEVICELIST) * device_count); if (devices) { device_count = GetRawInputDeviceList(devices, &device_count, sizeof(RAWINPUTDEVICELIST)); if (device_count != (UINT)-1) { for (i = 0; i < device_count; ++i) { RAWINPUT_AddDevice(devices[i].hDevice); } } SDL_free(devices); } } } static void RAWINPUT_RemoveDevices(void) { while (SDL_RAWINPUT_devices) { RAWINPUT_DelDevice(SDL_RAWINPUT_devices, false); } SDL_assert(SDL_RAWINPUT_numjoysticks == 0); } static bool RAWINPUT_JoystickInit(void) { SDL_assert(!SDL_RAWINPUT_inited); if (!SDL_GetHintBoolean(SDL_HINT_JOYSTICK_RAWINPUT, true)) { return true; } if (!WIN_IsWindowsVistaOrGreater()) { // According to bug 6400, this doesn't work on Windows XP return false; } if (!WIN_LoadHIDDLL()) { return false; } SDL_RAWINPUT_inited = true; RAWINPUT_DetectDevices(); return true; } static int RAWINPUT_JoystickGetCount(void) { return SDL_RAWINPUT_numjoysticks; } bool RAWINPUT_IsEnabled(void) { return SDL_RAWINPUT_inited && !SDL_RAWINPUT_remote_desktop; } static void RAWINPUT_PostUpdate(void) { #ifdef SDL_JOYSTICK_RAWINPUT_MATCHING bool unmapped_guide_pressed = false; #ifdef SDL_JOYSTICK_RAWINPUT_WGI if (!wgi_state.dirty) { int ii; for (ii = 0; ii < wgi_state.per_gamepad_count; ii++) { WindowsGamingInputGamepadState *gamepad_state = wgi_state.per_gamepad[ii]; if (!gamepad_state->used && (gamepad_state->state.Buttons & GamepadButtons_GUIDE)) { unmapped_guide_pressed = true; break; } } } wgi_state.dirty = true; #endif #ifdef SDL_JOYSTICK_RAWINPUT_XINPUT if (!xinput_state_dirty) { int ii; for (ii = 0; ii < SDL_arraysize(xinput_state); ii++) { if (xinput_state[ii].connected && !xinput_state[ii].used && (xinput_state[ii].state.Gamepad.wButtons & XINPUT_GAMEPAD_GUIDE)) { unmapped_guide_pressed = true; break; } } } xinput_state_dirty = true; #endif if (unmapped_guide_pressed) { if (guide_button_candidate.joystick && !guide_button_candidate.last_joystick) { SDL_Joystick *joystick = guide_button_candidate.joystick; RAWINPUT_DeviceContext *ctx = joystick->hwdata; if (ctx->guide_hack) { int guide_button = joystick->nbuttons - 1; SDL_SendJoystickButton(SDL_GetTicksNS(), guide_button_candidate.joystick, (Uint8)guide_button, true); } guide_button_candidate.last_joystick = guide_button_candidate.joystick; } } else if (guide_button_candidate.last_joystick) { SDL_Joystick *joystick = guide_button_candidate.last_joystick; RAWINPUT_DeviceContext *ctx = joystick->hwdata; if (ctx->guide_hack) { int guide_button = joystick->nbuttons - 1; SDL_SendJoystickButton(SDL_GetTicksNS(), joystick, (Uint8)guide_button, false); } guide_button_candidate.last_joystick = NULL; } guide_button_candidate.joystick = NULL; #endif // SDL_JOYSTICK_RAWINPUT_MATCHING } static void RAWINPUT_JoystickDetect(void) { bool remote_desktop; if (!SDL_RAWINPUT_inited) { return; } remote_desktop = GetSystemMetrics(SM_REMOTESESSION) ? true : false; if (remote_desktop != SDL_RAWINPUT_remote_desktop) { SDL_RAWINPUT_remote_desktop = remote_desktop; WINDOWS_RAWINPUTEnabledChanged(); if (remote_desktop) { RAWINPUT_RemoveDevices(); WINDOWS_JoystickDetect(); } else { WINDOWS_JoystickDetect(); RAWINPUT_DetectDevices(); } } RAWINPUT_PostUpdate(); } static bool RAWINPUT_JoystickIsDevicePresent(Uint16 vendor_id, Uint16 product_id, Uint16 version, const char *name) { SDL_RAWINPUT_Device *device; // If we're being asked about a device, that means another API just detected one, so rescan #ifdef SDL_JOYSTICK_RAWINPUT_XINPUT xinput_device_change = true; #endif device = SDL_RAWINPUT_devices; while (device) { if (vendor_id == device->vendor_id && product_id == device->product_id) { return true; } /* The Xbox 360 wireless controller shows up as product 0 in WGI. Try to match it to a Raw Input device via name or known product ID. */ if (vendor_id == device->vendor_id && product_id == 0 && ((name && SDL_strstr(device->name, name) != NULL) || (device->vendor_id == USB_VENDOR_MICROSOFT && device->product_id == USB_PRODUCT_XBOX360_XUSB_CONTROLLER))) { return true; } // The Xbox One controller shows up as a hardcoded raw input VID/PID if (name && SDL_strcmp(name, "Xbox One Game Controller") == 0 && device->vendor_id == USB_VENDOR_MICROSOFT && device->product_id == USB_PRODUCT_XBOX_ONE_XBOXGIP_CONTROLLER) { return true; } device = device->next; } return false; } static SDL_RAWINPUT_Device *RAWINPUT_GetDeviceByIndex(int device_index) { SDL_RAWINPUT_Device *device = SDL_RAWINPUT_devices; while (device) { if (device_index == 0) { break; } --device_index; device = device->next; } return device; } static const char *RAWINPUT_JoystickGetDeviceName(int device_index) { return RAWINPUT_GetDeviceByIndex(device_index)->name; } static const char *RAWINPUT_JoystickGetDevicePath(int device_index) { return RAWINPUT_GetDeviceByIndex(device_index)->path; } static int RAWINPUT_JoystickGetDeviceSteamVirtualGamepadSlot(int device_index) { return RAWINPUT_GetDeviceByIndex(device_index)->steam_virtual_gamepad_slot; } static int RAWINPUT_JoystickGetDevicePlayerIndex(int device_index) { return false; } static void RAWINPUT_JoystickSetDevicePlayerIndex(int device_index, int player_index) { } static SDL_GUID RAWINPUT_JoystickGetDeviceGUID(int device_index) { return RAWINPUT_GetDeviceByIndex(device_index)->guid; } static SDL_JoystickID RAWINPUT_JoystickGetDeviceInstanceID(int device_index) { return RAWINPUT_GetDeviceByIndex(device_index)->joystick_id; } static int SDLCALL RAWINPUT_SortValueCaps(const void *A, const void *B) { HIDP_VALUE_CAPS *capsA = (HIDP_VALUE_CAPS *)A; HIDP_VALUE_CAPS *capsB = (HIDP_VALUE_CAPS *)B; // Sort by Usage for single values, or UsageMax for range of values return (int)capsA->NotRange.Usage - capsB->NotRange.Usage; } static bool RAWINPUT_JoystickOpen(SDL_Joystick *joystick, int device_index) { SDL_RAWINPUT_Device *device = RAWINPUT_GetDeviceByIndex(device_index); RAWINPUT_DeviceContext *ctx; HIDP_CAPS caps; HIDP_BUTTON_CAPS *button_caps; HIDP_VALUE_CAPS *value_caps; ULONG i; ctx = (RAWINPUT_DeviceContext *)SDL_calloc(1, sizeof(RAWINPUT_DeviceContext)); if (!ctx) { return false; } joystick->hwdata = ctx; ctx->device = RAWINPUT_AcquireDevice(device); device->joystick = joystick; if (device->is_xinput) { // We'll try to get guide button and trigger axes from XInput #ifdef SDL_JOYSTICK_RAWINPUT_XINPUT xinput_device_change = true; ctx->xinput_enabled = SDL_GetHintBoolean(SDL_HINT_JOYSTICK_RAWINPUT_CORRELATE_XINPUT, true); if (ctx->xinput_enabled && (!WIN_LoadXInputDLL() || !XINPUTGETSTATE)) { ctx->xinput_enabled = false; } ctx->xinput_slot = XUSER_INDEX_ANY; #endif #ifdef SDL_JOYSTICK_RAWINPUT_WGI RAWINPUT_InitWindowsGamingInput(ctx); #endif } ctx->is_xinput = device->is_xinput; ctx->is_xboxone = device->is_xboxone; #ifdef SDL_JOYSTICK_RAWINPUT_MATCHING ctx->match_state = 0x0000008800000000ULL; // Trigger axes at rest #endif ctx->preparsed_data = device->preparsed_data; ctx->max_data_length = SDL_HidP_MaxDataListLength(HidP_Input, ctx->preparsed_data); ctx->data = (HIDP_DATA *)SDL_malloc(ctx->max_data_length * sizeof(*ctx->data)); if (!ctx->data) { RAWINPUT_JoystickClose(joystick); return false; } if (SDL_HidP_GetCaps(ctx->preparsed_data, &caps) != HIDP_STATUS_SUCCESS) { RAWINPUT_JoystickClose(joystick); return SDL_SetError("Couldn't get device capabilities"); } button_caps = SDL_stack_alloc(HIDP_BUTTON_CAPS, caps.NumberInputButtonCaps); if (SDL_HidP_GetButtonCaps(HidP_Input, button_caps, &caps.NumberInputButtonCaps, ctx->preparsed_data) != HIDP_STATUS_SUCCESS) { RAWINPUT_JoystickClose(joystick); return SDL_SetError("Couldn't get device button capabilities"); } value_caps = SDL_stack_alloc(HIDP_VALUE_CAPS, caps.NumberInputValueCaps); if (SDL_HidP_GetValueCaps(HidP_Input, value_caps, &caps.NumberInputValueCaps, ctx->preparsed_data) != HIDP_STATUS_SUCCESS) { RAWINPUT_JoystickClose(joystick); SDL_stack_free(button_caps); return SDL_SetError("Couldn't get device value capabilities"); } // Sort the axes by usage, so X comes before Y, etc. SDL_qsort(value_caps, caps.NumberInputValueCaps, sizeof(*value_caps), RAWINPUT_SortValueCaps); for (i = 0; i < caps.NumberInputButtonCaps; ++i) { HIDP_BUTTON_CAPS *cap = &button_caps[i]; if (cap->UsagePage == USB_USAGEPAGE_BUTTON) { int count; if (cap->IsRange) { count = 1 + (cap->Range.DataIndexMax - cap->Range.DataIndexMin); } else { count = 1; } joystick->nbuttons += count; } } if (joystick->nbuttons > 0) { int button_index = 0; ctx->button_indices = (USHORT *)SDL_malloc(joystick->nbuttons * sizeof(*ctx->button_indices)); if (!ctx->button_indices) { RAWINPUT_JoystickClose(joystick); SDL_stack_free(value_caps); SDL_stack_free(button_caps); return false; } for (i = 0; i < caps.NumberInputButtonCaps; ++i) { HIDP_BUTTON_CAPS *cap = &button_caps[i]; if (cap->UsagePage == USB_USAGEPAGE_BUTTON) { if (cap->IsRange) { int j, count = 1 + (cap->Range.DataIndexMax - cap->Range.DataIndexMin); for (j = 0; j < count; ++j) { ctx->button_indices[button_index++] = (USHORT)(cap->Range.DataIndexMin + j); } } else { ctx->button_indices[button_index++] = cap->NotRange.DataIndex; } } } } if (ctx->is_xinput && joystick->nbuttons == 10) { ctx->guide_hack = true; joystick->nbuttons += 1; } SDL_stack_free(button_caps); for (i = 0; i < caps.NumberInputValueCaps; ++i) { HIDP_VALUE_CAPS *cap = &value_caps[i]; if (cap->IsRange) { continue; } if (ctx->trigger_hack && cap->NotRange.Usage == USB_USAGE_GENERIC_Z) { continue; } if (cap->NotRange.Usage == USB_USAGE_GENERIC_HAT) { joystick->nhats += 1; continue; } if (ctx->is_xinput && cap->NotRange.Usage == USB_USAGE_GENERIC_Z) { continue; } joystick->naxes += 1; } if (joystick->naxes > 0) { int axis_index = 0; ctx->axis_indices = (USHORT *)SDL_malloc(joystick->naxes * sizeof(*ctx->axis_indices)); if (!ctx->axis_indices) { RAWINPUT_JoystickClose(joystick); SDL_stack_free(value_caps); return false; } for (i = 0; i < caps.NumberInputValueCaps; ++i) { HIDP_VALUE_CAPS *cap = &value_caps[i]; if (cap->IsRange) { continue; } if (cap->NotRange.Usage == USB_USAGE_GENERIC_HAT) { continue; } if (ctx->is_xinput && cap->NotRange.Usage == USB_USAGE_GENERIC_Z) { ctx->trigger_hack = true; ctx->trigger_hack_index = cap->NotRange.DataIndex; continue; } ctx->axis_indices[axis_index++] = cap->NotRange.DataIndex; } } if (ctx->trigger_hack) { joystick->naxes += 2; } if (joystick->nhats > 0) { int hat_index = 0; ctx->hat_indices = (USHORT *)SDL_malloc(joystick->nhats * sizeof(*ctx->hat_indices)); if (!ctx->hat_indices) { RAWINPUT_JoystickClose(joystick); SDL_stack_free(value_caps); return false; } for (i = 0; i < caps.NumberInputValueCaps; ++i) { HIDP_VALUE_CAPS *cap = &value_caps[i]; if (cap->IsRange) { continue; } if (cap->NotRange.Usage != USB_USAGE_GENERIC_HAT) { continue; } ctx->hat_indices[hat_index++] = cap->NotRange.DataIndex; } } SDL_stack_free(value_caps); #ifdef SDL_JOYSTICK_RAWINPUT_XINPUT if (ctx->is_xinput) { SDL_SetBooleanProperty(SDL_GetJoystickProperties(joystick), SDL_PROP_JOYSTICK_CAP_RUMBLE_BOOLEAN, true); } #endif #ifdef SDL_JOYSTICK_RAWINPUT_WGI if (ctx->is_xinput) { SDL_SetBooleanProperty(SDL_GetJoystickProperties(joystick), SDL_PROP_JOYSTICK_CAP_RUMBLE_BOOLEAN, true); if (ctx->is_xboxone) { SDL_SetBooleanProperty(SDL_GetJoystickProperties(joystick), SDL_PROP_JOYSTICK_CAP_TRIGGER_RUMBLE_BOOLEAN, true); } } #endif return true; } static bool RAWINPUT_JoystickRumble(SDL_Joystick *joystick, Uint16 low_frequency_rumble, Uint16 high_frequency_rumble) { #if defined(SDL_JOYSTICK_RAWINPUT_WGI) || defined(SDL_JOYSTICK_RAWINPUT_XINPUT) RAWINPUT_DeviceContext *ctx = joystick->hwdata; #endif bool rumbled = false; #ifdef SDL_JOYSTICK_RAWINPUT_XINPUT // Prefer XInput over WGI because it allows rumble in the background if (!rumbled && ctx->xinput_correlated) { XINPUT_VIBRATION XVibration; if (!XINPUTSETSTATE) { return SDL_Unsupported(); } XVibration.wLeftMotorSpeed = low_frequency_rumble; XVibration.wRightMotorSpeed = high_frequency_rumble; if (XINPUTSETSTATE(ctx->xinput_slot, &XVibration) == ERROR_SUCCESS) { rumbled = true; } else { return SDL_SetError("XInputSetState() failed"); } } #endif // SDL_JOYSTICK_RAWINPUT_XINPUT #ifdef SDL_JOYSTICK_RAWINPUT_WGI if (!rumbled && ctx->wgi_correlated) { WindowsGamingInputGamepadState *gamepad_state = ctx->wgi_slot; HRESULT hr; gamepad_state->vibration.LeftMotor = (DOUBLE)low_frequency_rumble / SDL_MAX_UINT16; gamepad_state->vibration.RightMotor = (DOUBLE)high_frequency_rumble / SDL_MAX_UINT16; hr = __x_ABI_CWindows_CGaming_CInput_CIGamepad_put_Vibration(gamepad_state->gamepad, gamepad_state->vibration); if (SUCCEEDED(hr)) { rumbled = true; } } #endif if (!rumbled) { #if defined(SDL_JOYSTICK_RAWINPUT_WGI) || defined(SDL_JOYSTICK_RAWINPUT_XINPUT) return SDL_SetError("Controller isn't correlated yet, try hitting a button first"); #else return SDL_Unsupported(); #endif } return true; } static bool RAWINPUT_JoystickRumbleTriggers(SDL_Joystick *joystick, Uint16 left_rumble, Uint16 right_rumble) { #ifdef SDL_JOYSTICK_RAWINPUT_WGI RAWINPUT_DeviceContext *ctx = joystick->hwdata; if (ctx->wgi_correlated) { WindowsGamingInputGamepadState *gamepad_state = ctx->wgi_slot; HRESULT hr; gamepad_state->vibration.LeftTrigger = (DOUBLE)left_rumble / SDL_MAX_UINT16; gamepad_state->vibration.RightTrigger = (DOUBLE)right_rumble / SDL_MAX_UINT16; hr = __x_ABI_CWindows_CGaming_CInput_CIGamepad_put_Vibration(gamepad_state->gamepad, gamepad_state->vibration); if (!SUCCEEDED(hr)) { return SDL_SetError("Setting vibration failed: 0x%lx\n", hr); } return true; } else { return SDL_SetError("Controller isn't correlated yet, try hitting a button first"); } #else return SDL_Unsupported(); #endif } static bool RAWINPUT_JoystickSetLED(SDL_Joystick *joystick, Uint8 red, Uint8 green, Uint8 blue) { return SDL_Unsupported(); } static bool RAWINPUT_JoystickSendEffect(SDL_Joystick *joystick, const void *data, int size) { return SDL_Unsupported(); } static bool RAWINPUT_JoystickSetSensorsEnabled(SDL_Joystick *joystick, bool enabled) { return SDL_Unsupported(); } static HIDP_DATA *GetData(USHORT index, HIDP_DATA *data, ULONG length) { ULONG i; // Check to see if the data is at the expected offset if (index < length && data[index].DataIndex == index) { return &data[index]; } // Loop through the data to find it for (i = 0; i < length; ++i) { if (data[i].DataIndex == index) { return &data[i]; } } return NULL; } /* This is the packet format for Xbox 360 and Xbox One controllers on Windows, however with this interface there is no rumble support, no guide button, and the left and right triggers are tied together as a single axis. We use XInput and Windows.Gaming.Input to make up for these shortcomings. */ static void RAWINPUT_HandleStatePacket(SDL_Joystick *joystick, Uint8 *data, int size) { RAWINPUT_DeviceContext *ctx = joystick->hwdata; #ifdef SDL_JOYSTICK_RAWINPUT_MATCHING // Map new buttons and axes into game controller controls static const int button_map[] = { SDL_GAMEPAD_BUTTON_SOUTH, SDL_GAMEPAD_BUTTON_EAST, SDL_GAMEPAD_BUTTON_WEST, SDL_GAMEPAD_BUTTON_NORTH, SDL_GAMEPAD_BUTTON_LEFT_SHOULDER, SDL_GAMEPAD_BUTTON_RIGHT_SHOULDER, SDL_GAMEPAD_BUTTON_BACK, SDL_GAMEPAD_BUTTON_START, SDL_GAMEPAD_BUTTON_LEFT_STICK, SDL_GAMEPAD_BUTTON_RIGHT_STICK }; #define HAT_MASK ((1 << SDL_GAMEPAD_BUTTON_DPAD_UP) | (1 << SDL_GAMEPAD_BUTTON_DPAD_DOWN) | (1 << SDL_GAMEPAD_BUTTON_DPAD_LEFT) | (1 << SDL_GAMEPAD_BUTTON_DPAD_RIGHT)) static const int hat_map[] = { 0, (1 << SDL_GAMEPAD_BUTTON_DPAD_UP), (1 << SDL_GAMEPAD_BUTTON_DPAD_UP) | (1 << SDL_GAMEPAD_BUTTON_DPAD_RIGHT), (1 << SDL_GAMEPAD_BUTTON_DPAD_RIGHT), (1 << SDL_GAMEPAD_BUTTON_DPAD_DOWN) | (1 << SDL_GAMEPAD_BUTTON_DPAD_RIGHT), (1 << SDL_GAMEPAD_BUTTON_DPAD_DOWN), (1 << SDL_GAMEPAD_BUTTON_DPAD_DOWN) | (1 << SDL_GAMEPAD_BUTTON_DPAD_LEFT), (1 << SDL_GAMEPAD_BUTTON_DPAD_LEFT), (1 << SDL_GAMEPAD_BUTTON_DPAD_UP) | (1 << SDL_GAMEPAD_BUTTON_DPAD_LEFT), 0, }; Uint64 match_state = ctx->match_state; // Update match_state with button bit, then fall through #define SDL_SendJoystickButton(timestamp, joystick, button, down) \ if (button < SDL_arraysize(button_map)) { \ Uint64 button_bit = 1ull << button_map[button]; \ match_state = (match_state & ~button_bit) | (button_bit * (down)); \ } \ SDL_SendJoystickButton(timestamp, joystick, button, down) #ifdef SDL_JOYSTICK_RAWINPUT_MATCH_AXES // Grab high 4 bits of value, then fall through #define AddAxisToMatchState(axis, value) \ { \ match_state = (match_state & ~(0xFull << (4 * axis + 16))) | ((value)&0xF000ull) << (4 * axis + 4); \ } #define SDL_SendJoystickAxis(timestamp, joystick, axis, value) \ if (axis < 4) \ AddAxisToMatchState(axis, value); \ SDL_SendJoystickAxis(timestamp, joystick, axis, value) #endif #endif // SDL_JOYSTICK_RAWINPUT_MATCHING ULONG data_length = ctx->max_data_length; int i; int nbuttons = joystick->nbuttons - (ctx->guide_hack * 1); int naxes = joystick->naxes - (ctx->trigger_hack * 2); int nhats = joystick->nhats; Uint32 button_mask = 0; Uint64 timestamp = SDL_GetTicksNS(); if (SDL_HidP_GetData(HidP_Input, ctx->data, &data_length, ctx->preparsed_data, (PCHAR)data, size) != HIDP_STATUS_SUCCESS) { return; } for (i = 0; i < nbuttons; ++i) { HIDP_DATA *item = GetData(ctx->button_indices[i], ctx->data, data_length); if (item && item->On) { button_mask |= (1 << i); } } for (i = 0; i < nbuttons; ++i) { SDL_SendJoystickButton(timestamp, joystick, (Uint8)i, ((button_mask & (1 << i)) != 0)); } for (i = 0; i < naxes; ++i) { HIDP_DATA *item = GetData(ctx->axis_indices[i], ctx->data, data_length); if (item) { Sint16 axis = (int)(Uint16)item->RawValue - 0x8000; SDL_SendJoystickAxis(timestamp, joystick, (Uint8)i, axis); } } for (i = 0; i < nhats; ++i) { HIDP_DATA *item = GetData(ctx->hat_indices[i], ctx->data, data_length); if (item) { Uint8 hat = SDL_HAT_CENTERED; const Uint8 hat_states[] = { SDL_HAT_CENTERED, SDL_HAT_UP, SDL_HAT_UP | SDL_HAT_RIGHT, SDL_HAT_RIGHT, SDL_HAT_DOWN | SDL_HAT_RIGHT, SDL_HAT_DOWN, SDL_HAT_DOWN | SDL_HAT_LEFT, SDL_HAT_LEFT, SDL_HAT_UP | SDL_HAT_LEFT, SDL_HAT_CENTERED, }; ULONG state = item->RawValue; if (state < SDL_arraysize(hat_states)) { #ifdef SDL_JOYSTICK_RAWINPUT_MATCHING match_state = (match_state & ~HAT_MASK) | hat_map[state]; #endif hat = hat_states[state]; } SDL_SendJoystickHat(timestamp, joystick, (Uint8)i, hat); } } #ifdef SDL_SendJoystickButton #undef SDL_SendJoystickButton #endif #ifdef SDL_SendJoystickAxis #undef SDL_SendJoystickAxis #endif #ifdef SDL_JOYSTICK_RAWINPUT_MATCH_TRIGGERS #define AddTriggerToMatchState(axis, value) \ { \ int match_axis = axis + SDL_JOYSTICK_RAWINPUT_MATCH_COUNT - joystick->naxes; \ AddAxisToMatchState(match_axis, value); \ } #endif // SDL_JOYSTICK_RAWINPUT_MATCH_TRIGGERS if (ctx->trigger_hack) { bool has_trigger_data = false; int left_trigger = joystick->naxes - 2; int right_trigger = joystick->naxes - 1; #ifdef SDL_JOYSTICK_RAWINPUT_XINPUT // Prefer XInput over WindowsGamingInput, it continues to provide data in the background if (!has_trigger_data && ctx->xinput_enabled && ctx->xinput_correlated) { has_trigger_data = true; } #endif // SDL_JOYSTICK_RAWINPUT_XINPUT #ifdef SDL_JOYSTICK_RAWINPUT_WGI if (!has_trigger_data && ctx->wgi_correlated) { has_trigger_data = true; } #endif // SDL_JOYSTICK_RAWINPUT_WGI #ifndef SDL_JOYSTICK_RAWINPUT_MATCH_TRIGGERS if (!has_trigger_data) #endif { HIDP_DATA *item = GetData(ctx->trigger_hack_index, ctx->data, data_length); if (item) { Sint16 value = (int)(Uint16)item->RawValue - 0x8000; Sint16 left_value = (value > 0) ? (value * 2 - 32767) : SDL_MIN_SINT16; Sint16 right_value = (value < 0) ? (-value * 2 - 32769) : SDL_MIN_SINT16; #ifdef SDL_JOYSTICK_RAWINPUT_MATCH_TRIGGERS AddTriggerToMatchState(left_trigger, left_value); AddTriggerToMatchState(right_trigger, right_value); if (!has_trigger_data) #endif // SDL_JOYSTICK_RAWINPUT_MATCH_TRIGGERS { SDL_SendJoystickAxis(timestamp, joystick, (Uint8)left_trigger, left_value); SDL_SendJoystickAxis(timestamp, joystick, (Uint8)right_trigger, right_value); } } } } #ifdef AddAxisToMatchState #undef AddAxisToMatchState #endif #ifdef AddTriggerToMatchState #undef AddTriggerToMatchState #endif #ifdef SDL_JOYSTICK_RAWINPUT_MATCHING if (ctx->is_xinput) { ctx->match_state = match_state; ctx->last_state_packet = SDL_GetTicks(); } #endif } static void RAWINPUT_UpdateOtherAPIs(SDL_Joystick *joystick) { #ifdef SDL_JOYSTICK_RAWINPUT_MATCHING RAWINPUT_DeviceContext *ctx = joystick->hwdata; bool has_trigger_data = false; bool correlated = false; WindowsMatchState match_state_xinput; int guide_button = joystick->nbuttons - 1; int left_trigger = joystick->naxes - 2; int right_trigger = joystick->naxes - 1; #ifdef SDL_JOYSTICK_RAWINPUT_WGI bool xinput_correlated; #endif RAWINPUT_FillMatchState(&match_state_xinput, ctx->match_state); #ifdef SDL_JOYSTICK_RAWINPUT_WGI #ifdef SDL_JOYSTICK_RAWINPUT_XINPUT xinput_correlated = ctx->xinput_correlated; #else xinput_correlated = false; #endif // Parallel logic to WINDOWS_XINPUT below RAWINPUT_UpdateWindowsGamingInput(); if (ctx->wgi_correlated && !joystick->low_frequency_rumble && !joystick->high_frequency_rumble && !joystick->left_trigger_rumble && !joystick->right_trigger_rumble) { // We have been previously correlated, ensure we are still matching, see comments in XINPUT section if (RAWINPUT_WindowsGamingInputSlotMatches(&match_state_xinput, ctx->wgi_slot, xinput_correlated)) { ctx->wgi_uncorrelate_count = 0; } else { ++ctx->wgi_uncorrelate_count; /* Only un-correlate if this is consistent over multiple Update() calls - the timing of polling/event pumping can easily cause this to uncorrelate for a frame. 2 seemed reliable in my testing, but let's set it to 5 to be safe. An incorrect un-correlation will simply result in lower precision triggers for a frame. */ if (ctx->wgi_uncorrelate_count >= 5) { #ifdef DEBUG_RAWINPUT SDL_Log("UN-Correlated joystick %d to WindowsGamingInput device #%d\n", joystick->instance_id, ctx->wgi_slot); #endif RAWINPUT_MarkWindowsGamingInputSlotFree(ctx->wgi_slot); ctx->wgi_correlated = false; ctx->wgi_correlation_count = 0; // Force release of Guide button, it can't possibly be down on this device now. /* It gets left down if we were actually correlated incorrectly and it was released on the WindowsGamingInput device but we didn't get a state packet. */ if (ctx->guide_hack) { SDL_SendJoystickButton(0, joystick, (Uint8)guide_button, false); } } } } if (!ctx->wgi_correlated) { Uint8 new_correlation_count = 0; if (RAWINPUT_MissingWindowsGamingInputSlot()) { Uint8 correlation_id = 0; WindowsGamingInputGamepadState *slot_idx = NULL; if (RAWINPUT_GuessWindowsGamingInputSlot(&match_state_xinput, &correlation_id, &slot_idx, xinput_correlated)) { // we match exactly one WindowsGamingInput device /* Probably can do without wgi_correlation_count, just check and clear wgi_slot to NULL, unless we need even more frames to be sure. */ if (ctx->wgi_correlation_count && ctx->wgi_slot == slot_idx) { // was correlated previously, and still the same device if (ctx->wgi_correlation_id + 1 == correlation_id) { // no one else was correlated in the meantime new_correlation_count = ctx->wgi_correlation_count + 1; if (new_correlation_count == 2) { // correlation stayed steady and uncontested across multiple frames, guaranteed match ctx->wgi_correlated = true; #ifdef DEBUG_RAWINPUT SDL_Log("Correlated joystick %d to WindowsGamingInput device #%d\n", joystick->instance_id, slot_idx); #endif correlated = true; RAWINPUT_MarkWindowsGamingInputSlotUsed(ctx->wgi_slot, ctx); // If the generalized Guide button was using us, it doesn't need to anymore if (guide_button_candidate.joystick == joystick) { guide_button_candidate.joystick = NULL; } if (guide_button_candidate.last_joystick == joystick) { guide_button_candidate.last_joystick = NULL; } } } else { // someone else also possibly correlated to this device, start over new_correlation_count = 1; } } else { // new possible correlation new_correlation_count = 1; ctx->wgi_slot = slot_idx; } ctx->wgi_correlation_id = correlation_id; } else { // Match multiple WindowsGamingInput devices, or none (possibly due to no buttons pressed) } } ctx->wgi_correlation_count = new_correlation_count; } else { correlated = true; } #endif // SDL_JOYSTICK_RAWINPUT_WGI #ifdef SDL_JOYSTICK_RAWINPUT_XINPUT // Parallel logic to WINDOWS_GAMING_INPUT above if (ctx->xinput_enabled) { RAWINPUT_UpdateXInput(); if (ctx->xinput_correlated && !joystick->low_frequency_rumble && !joystick->high_frequency_rumble) { // We have been previously correlated, ensure we are still matching /* This is required to deal with two (mostly) un-preventable mis-correlation situations: A) Since the HID data stream does not provide an initial state (but polling XInput does), if we open 5 controllers (#1-4 XInput mapped, #5 is not), and controller 1 had the A button down (and we don't know), and the user presses A on controller #5, we'll see exactly 1 controller with A down (#5) and exactly 1 XInput device with A down (#1), and incorrectly correlate. This code will then un-correlate when A is released from either controller #1 or #5. B) Since the app may not open all controllers, we could have a similar situation where only controller #5 is opened, and the user holds A on controllers #1 and #5 simultaneously - again we see only 1 controller with A down and 1 XInput device with A down, and incorrectly correlate. This should be very unusual (only when apps do not open all controllers, yet are listening to Guide button presses, yet for some reason want to ignore guide button presses on the un-opened controllers, yet users are pressing buttons on the unopened controllers), and will resolve itself when either button is released and we un-correlate. We could prevent this by processing the state packets for *all* controllers, even un-opened ones, as that would allow more precise correlation. */ if (RAWINPUT_XInputSlotMatches(&match_state_xinput, ctx->xinput_slot)) { ctx->xinput_uncorrelate_count = 0; } else { ++ctx->xinput_uncorrelate_count; /* Only un-correlate if this is consistent over multiple Update() calls - the timing of polling/event pumping can easily cause this to uncorrelate for a frame. 2 seemed reliable in my testing, but let's set it to 5 to be safe. An incorrect un-correlation will simply result in lower precision triggers for a frame. */ if (ctx->xinput_uncorrelate_count >= 5) { #ifdef DEBUG_RAWINPUT SDL_Log("UN-Correlated joystick %d to XInput device #%d\n", joystick->instance_id, ctx->xinput_slot); #endif RAWINPUT_MarkXInputSlotFree(ctx->xinput_slot); ctx->xinput_correlated = false; ctx->xinput_correlation_count = 0; // Force release of Guide button, it can't possibly be down on this device now. /* It gets left down if we were actually correlated incorrectly and it was released on the XInput device but we didn't get a state packet. */ if (ctx->guide_hack) { SDL_SendJoystickButton(0, joystick, (Uint8)guide_button, false); } } } } if (!ctx->xinput_correlated) { Uint8 new_correlation_count = 0; if (RAWINPUT_MissingXInputSlot()) { Uint8 correlation_id = 0; Uint8 slot_idx = 0; if (RAWINPUT_GuessXInputSlot(&match_state_xinput, &correlation_id, &slot_idx)) { // we match exactly one XInput device /* Probably can do without xinput_correlation_count, just check and clear xinput_slot to ANY, unless we need even more frames to be sure */ if (ctx->xinput_correlation_count && ctx->xinput_slot == slot_idx) { // was correlated previously, and still the same device if (ctx->xinput_correlation_id + 1 == correlation_id) { // no one else was correlated in the meantime new_correlation_count = ctx->xinput_correlation_count + 1; if (new_correlation_count == 2) { // correlation stayed steady and uncontested across multiple frames, guaranteed match ctx->xinput_correlated = true; #ifdef DEBUG_RAWINPUT SDL_Log("Correlated joystick %d to XInput device #%d\n", joystick->instance_id, slot_idx); #endif correlated = true; RAWINPUT_MarkXInputSlotUsed(ctx->xinput_slot); // If the generalized Guide button was using us, it doesn't need to anymore if (guide_button_candidate.joystick == joystick) { guide_button_candidate.joystick = NULL; } if (guide_button_candidate.last_joystick == joystick) { guide_button_candidate.last_joystick = NULL; } } } else { // someone else also possibly correlated to this device, start over new_correlation_count = 1; } } else { // new possible correlation new_correlation_count = 1; ctx->xinput_slot = slot_idx; } ctx->xinput_correlation_id = correlation_id; } else { // Match multiple XInput devices, or none (possibly due to no buttons pressed) } } ctx->xinput_correlation_count = new_correlation_count; } else { correlated = true; } } #endif // SDL_JOYSTICK_RAWINPUT_XINPUT // Poll for trigger data once (not per-state-packet) #ifdef SDL_JOYSTICK_RAWINPUT_XINPUT // Prefer XInput over WindowsGamingInput, it continues to provide data in the background if (!has_trigger_data && ctx->xinput_enabled && ctx->xinput_correlated) { RAWINPUT_UpdateXInput(); if (xinput_state[ctx->xinput_slot].connected) { XINPUT_BATTERY_INFORMATION_EX *battery_info = &xinput_state[ctx->xinput_slot].battery; Uint64 timestamp; if (ctx->guide_hack || ctx->trigger_hack) { timestamp = SDL_GetTicksNS(); } else { // timestamp won't be used timestamp = 0; } if (ctx->guide_hack) { bool down = ((xinput_state[ctx->xinput_slot].state.Gamepad.wButtons & XINPUT_GAMEPAD_GUIDE) != 0); SDL_SendJoystickButton(timestamp, joystick, (Uint8)guide_button, down); } if (ctx->trigger_hack) { SDL_SendJoystickAxis(timestamp, joystick, (Uint8)left_trigger, ((int)xinput_state[ctx->xinput_slot].state.Gamepad.bLeftTrigger * 257) - 32768); SDL_SendJoystickAxis(timestamp, joystick, (Uint8)right_trigger, ((int)xinput_state[ctx->xinput_slot].state.Gamepad.bRightTrigger * 257) - 32768); } has_trigger_data = true; SDL_PowerState state; int percent; switch (battery_info->BatteryType) { case BATTERY_TYPE_WIRED: state = SDL_POWERSTATE_CHARGING; break; case BATTERY_TYPE_UNKNOWN: case BATTERY_TYPE_DISCONNECTED: state = SDL_POWERSTATE_UNKNOWN; break; default: state = SDL_POWERSTATE_ON_BATTERY; break; } switch (battery_info->BatteryLevel) { case BATTERY_LEVEL_EMPTY: percent = 10; break; case BATTERY_LEVEL_LOW: percent = 40; break; case BATTERY_LEVEL_MEDIUM: percent = 70; break; default: case BATTERY_LEVEL_FULL: percent = 100; break; } SDL_SendJoystickPowerInfo(joystick, state, percent); } } #endif // SDL_JOYSTICK_RAWINPUT_XINPUT #ifdef SDL_JOYSTICK_RAWINPUT_WGI if (!has_trigger_data && ctx->wgi_correlated) { RAWINPUT_UpdateWindowsGamingInput(); // May detect disconnect / cause uncorrelation if (ctx->wgi_correlated) { // Still connected struct __x_ABI_CWindows_CGaming_CInput_CGamepadReading *state = &ctx->wgi_slot->state; Uint64 timestamp; if (ctx->guide_hack || ctx->trigger_hack) { timestamp = SDL_GetTicksNS(); } else { // timestamp won't be used timestamp = 0; } if (ctx->guide_hack) { bool down = ((state->Buttons & GamepadButtons_GUIDE) != 0); SDL_SendJoystickButton(timestamp, joystick, (Uint8)guide_button, down); } if (ctx->trigger_hack) { SDL_SendJoystickAxis(timestamp, joystick, (Uint8)left_trigger, (Sint16)(((int)(state->LeftTrigger * SDL_MAX_UINT16)) - 32768)); SDL_SendJoystickAxis(timestamp, joystick, (Uint8)right_trigger, (Sint16)(((int)(state->RightTrigger * SDL_MAX_UINT16)) - 32768)); } has_trigger_data = true; } } #endif // SDL_JOYSTICK_RAWINPUT_WGI if (!correlated) { if (!guide_button_candidate.joystick || (ctx->last_state_packet && (!guide_button_candidate.last_state_packet || ctx->last_state_packet >= guide_button_candidate.last_state_packet))) { guide_button_candidate.joystick = joystick; guide_button_candidate.last_state_packet = ctx->last_state_packet; } } #endif // SDL_JOYSTICK_RAWINPUT_MATCHING } static void RAWINPUT_JoystickUpdate(SDL_Joystick *joystick) { RAWINPUT_UpdateOtherAPIs(joystick); } static void RAWINPUT_JoystickClose(SDL_Joystick *joystick) { RAWINPUT_DeviceContext *ctx = joystick->hwdata; #ifdef SDL_JOYSTICK_RAWINPUT_MATCHING if (guide_button_candidate.joystick == joystick) { guide_button_candidate.joystick = NULL; } if (guide_button_candidate.last_joystick == joystick) { guide_button_candidate.last_joystick = NULL; } #endif if (ctx) { SDL_RAWINPUT_Device *device; #ifdef SDL_JOYSTICK_RAWINPUT_XINPUT xinput_device_change = true; if (ctx->xinput_enabled) { if (ctx->xinput_correlated) { RAWINPUT_MarkXInputSlotFree(ctx->xinput_slot); } WIN_UnloadXInputDLL(); } #endif #ifdef SDL_JOYSTICK_RAWINPUT_WGI RAWINPUT_QuitWindowsGamingInput(ctx); #endif device = ctx->device; if (device) { SDL_assert(device->joystick == joystick); device->joystick = NULL; RAWINPUT_ReleaseDevice(device); } SDL_free(ctx->data); SDL_free(ctx->button_indices); SDL_free(ctx->axis_indices); SDL_free(ctx->hat_indices); SDL_free(ctx); joystick->hwdata = NULL; } } bool RAWINPUT_RegisterNotifications(HWND hWnd) { int i; RAWINPUTDEVICE rid[SDL_arraysize(subscribed_devices)]; if (!SDL_RAWINPUT_inited) { return true; } for (i = 0; i < SDL_arraysize(subscribed_devices); i++) { rid[i].usUsagePage = USB_USAGEPAGE_GENERIC_DESKTOP; rid[i].usUsage = subscribed_devices[i]; rid[i].dwFlags = RIDEV_DEVNOTIFY | RIDEV_INPUTSINK; // Receive messages when in background, including device add/remove rid[i].hwndTarget = hWnd; } if (!RegisterRawInputDevices(rid, SDL_arraysize(rid), sizeof(RAWINPUTDEVICE))) { return SDL_SetError("Couldn't register for raw input events"); } return true; } bool RAWINPUT_UnregisterNotifications(void) { int i; RAWINPUTDEVICE rid[SDL_arraysize(subscribed_devices)]; if (!SDL_RAWINPUT_inited) { return true; } for (i = 0; i < SDL_arraysize(subscribed_devices); i++) { rid[i].usUsagePage = USB_USAGEPAGE_GENERIC_DESKTOP; rid[i].usUsage = subscribed_devices[i]; rid[i].dwFlags = RIDEV_REMOVE; rid[i].hwndTarget = NULL; } if (!RegisterRawInputDevices(rid, SDL_arraysize(rid), sizeof(RAWINPUTDEVICE))) { return SDL_SetError("Couldn't unregister for raw input events"); } return true; } LRESULT CALLBACK RAWINPUT_WindowProc(HWND hWnd, UINT msg, WPARAM wParam, LPARAM lParam) { LRESULT result = -1; if (SDL_RAWINPUT_inited) { SDL_LockJoysticks(); switch (msg) { case WM_INPUT_DEVICE_CHANGE: { HANDLE hDevice = (HANDLE)lParam; switch (wParam) { case GIDC_ARRIVAL: RAWINPUT_AddDevice(hDevice); break; case GIDC_REMOVAL: { SDL_RAWINPUT_Device *device; device = RAWINPUT_DeviceFromHandle(hDevice); if (device) { RAWINPUT_DelDevice(device, true); } break; } default: break; } } result = 0; break; case WM_INPUT: { Uint8 data[sizeof(RAWINPUTHEADER) + sizeof(RAWHID) + USB_PACKET_LENGTH]; UINT buffer_size = SDL_arraysize(data); if ((int)GetRawInputData((HRAWINPUT)lParam, RID_INPUT, data, &buffer_size, sizeof(RAWINPUTHEADER)) > 0) { PRAWINPUT raw_input = (PRAWINPUT)data; SDL_RAWINPUT_Device *device = RAWINPUT_DeviceFromHandle(raw_input->header.hDevice); if (device) { SDL_Joystick *joystick = device->joystick; if (joystick) { RAWINPUT_HandleStatePacket(joystick, raw_input->data.hid.bRawData, raw_input->data.hid.dwSizeHid); } } } } result = 0; break; } SDL_UnlockJoysticks(); } if (result >= 0) { return result; } return CallWindowProc(DefWindowProc, hWnd, msg, wParam, lParam); } static void RAWINPUT_JoystickQuit(void) { if (!SDL_RAWINPUT_inited) { return; } RAWINPUT_RemoveDevices(); WIN_UnloadHIDDLL(); SDL_RAWINPUT_inited = false; } static bool RAWINPUT_JoystickGetGamepadMapping(int device_index, SDL_GamepadMapping *out) { return false; } SDL_JoystickDriver SDL_RAWINPUT_JoystickDriver = { RAWINPUT_JoystickInit, RAWINPUT_JoystickGetCount, RAWINPUT_JoystickDetect, RAWINPUT_JoystickIsDevicePresent, RAWINPUT_JoystickGetDeviceName, RAWINPUT_JoystickGetDevicePath, RAWINPUT_JoystickGetDeviceSteamVirtualGamepadSlot, RAWINPUT_JoystickGetDevicePlayerIndex, RAWINPUT_JoystickSetDevicePlayerIndex, RAWINPUT_JoystickGetDeviceGUID, RAWINPUT_JoystickGetDeviceInstanceID, RAWINPUT_JoystickOpen, RAWINPUT_JoystickRumble, RAWINPUT_JoystickRumbleTriggers, RAWINPUT_JoystickSetLED, RAWINPUT_JoystickSendEffect, RAWINPUT_JoystickSetSensorsEnabled, RAWINPUT_JoystickUpdate, RAWINPUT_JoystickClose, RAWINPUT_JoystickQuit, RAWINPUT_JoystickGetGamepadMapping }; #endif // SDL_JOYSTICK_RAWINPUT