/* ** i_joystick.cpp ** **--------------------------------------------------------------------------- ** Copyright 2012-2015 Alexey Lysiuk ** All rights reserved. ** ** Redistribution and use in source and binary forms, with or without ** modification, are permitted provided that the following conditions ** are met: ** ** 1. Redistributions of source code must retain the above copyright ** notice, this list of conditions and the following disclaimer. ** 2. Redistributions in binary form must reproduce the above copyright ** notice, this list of conditions and the following disclaimer in the ** documentation and/or other materials provided with the distribution. ** 3. The name of the author may not be used to endorse or promote products ** derived from this software without specific prior written permission. ** ** THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS OR ** IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES ** OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. ** IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY DIRECT, INDIRECT, ** INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT ** NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, ** DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY ** THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT ** (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF ** THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. **--------------------------------------------------------------------------- ** */ #include #include #include #include "d_eventbase.h" #include "i_system.h" #include "m_argv.h" #include "m_joy.h" #include "v_text.h" #include "printf.h" #include "keydef.h" EXTERN_CVAR(Bool, joy_axespolling) namespace { FString ToFString(const CFStringRef string) { if (NULL == string) { return FString(); } const CFIndex stringLength = CFStringGetLength(string); if (0 == stringLength) { return FString(); } const size_t bufferSize = CFStringGetMaximumSizeForEncoding(stringLength, kCFStringEncodingUTF8) + 1; char buffer[bufferSize]; memset(buffer, 0, bufferSize); CFStringGetCString(string, buffer, bufferSize, kCFStringEncodingUTF8); return FString(buffer); } // --------------------------------------------------------------------------- class IOKitJoystick : public IJoystickConfig { public: explicit IOKitJoystick(io_object_t device); virtual ~IOKitJoystick(); virtual FString GetName(); virtual float GetSensitivity(); virtual void SetSensitivity(float scale); virtual int GetNumAxes(); virtual float GetAxisDeadZone(int axis); virtual EJoyAxis GetAxisMap(int axis); virtual const char* GetAxisName(int axis); virtual float GetAxisScale(int axis); virtual void SetAxisDeadZone(int axis, float deadZone); virtual void SetAxisMap(int axis, EJoyAxis gameAxis); virtual void SetAxisScale(int axis, float scale); virtual bool IsSensitivityDefault(); virtual bool IsAxisDeadZoneDefault(int axis); virtual bool IsAxisMapDefault(int axis); virtual bool IsAxisScaleDefault(int axis); virtual void SetDefaultConfig(); virtual FString GetIdentifier(); void AddAxes(float axes[NUM_JOYAXIS]) const; void Update(); void UseAxesPolling(bool axesPolling); io_object_t* GetNotificationPtr(); private: IOHIDDeviceInterface** m_interface; IOHIDQueueInterface** m_queue; FString m_name; FString m_identifier; float m_sensitivity; struct AnalogAxis { IOHIDElementCookie cookie; char name[64]; float value; int32_t minValue; int32_t maxValue; float deadZone; float defaultDeadZone; float sensitivity; float defaultSensitivity; EJoyAxis gameAxis; EJoyAxis defaultGameAxis; AnalogAxis() { memset(this, 0, sizeof *this); } }; TArray m_axes; struct DigitalButton { IOHIDElementCookie cookie; int32_t value; explicit DigitalButton(const IOHIDElementCookie cookie) : cookie(cookie) , value(0) { } }; TArray m_buttons; TArray m_POVs; bool m_useAxesPolling; io_object_t m_notification; static const float DEFAULT_DEADZONE; static const float DEFAULT_SENSITIVITY; void ProcessAxes(); bool ProcessAxis (const IOHIDEventStruct& event); bool ProcessButton(const IOHIDEventStruct& event); bool ProcessPOV (const IOHIDEventStruct& event); void GatherDeviceInfo(io_object_t device, CFDictionaryRef properties); static void GatherElementsHandler(const void* value, void* parameter); void GatherCollectionElements(CFDictionaryRef properties); void AddAxis(CFDictionaryRef element); void AddButton(CFDictionaryRef element); void AddPOV(CFDictionaryRef element); void AddToQueue(IOHIDElementCookie cookie); void RemoveFromQueue(IOHIDElementCookie cookie); }; const float IOKitJoystick::DEFAULT_DEADZONE = 0.25f; const float IOKitJoystick::DEFAULT_SENSITIVITY = 1.0f; IOHIDDeviceInterface** CreateDeviceInterface(const io_object_t device) { IOCFPlugInInterface** plugInInterface = NULL; SInt32 score = 0; const kern_return_t pluginResult = IOCreatePlugInInterfaceForService(device, kIOHIDDeviceUserClientTypeID, kIOCFPlugInInterfaceID, &plugInInterface, &score); IOHIDDeviceInterface** interface = NULL; if (KERN_SUCCESS == pluginResult) { // Call a method of the intermediate plug-in to create the device interface const HRESULT queryResult = (*plugInInterface)->QueryInterface(plugInInterface, CFUUIDGetUUIDBytes(kIOHIDDeviceInterfaceID), reinterpret_cast(&interface)); IODestroyPlugInInterface(plugInInterface); // [?] or maybe (*plugInInterface)->Release(plugInInterface); if (S_OK == queryResult) { const IOReturn openResult = (*interface)->open(interface, 0); if (kIOReturnSuccess != openResult) { (*interface)->Release(interface); Printf(TEXTCOLOR_RED "IOHIDDeviceInterface::open() failed with code 0x%08X\n", openResult); return NULL; } } else { Printf(TEXTCOLOR_RED "IOCFPlugInInterface::QueryInterface() failed with code 0x%08X\n", static_cast(queryResult)); return NULL; } } else { Printf(TEXTCOLOR_RED "IOCreatePlugInInterfaceForService() failed with code %i\n", pluginResult); return NULL; } return interface; } IOHIDQueueInterface** CreateDeviceQueue(IOHIDDeviceInterface** const interface) { if (NULL == interface) { return NULL; } IOHIDQueueInterface** queue = (*interface)->allocQueue(interface); if (NULL == queue) { Printf(TEXTCOLOR_RED "IOHIDDeviceInterface::allocQueue() failed\n"); return NULL; } static const uint32_t QUEUE_FLAGS = 0; static const uint32_t QUEUE_DEPTH = 0; const IOReturn queueResult = (*queue)->create(queue, QUEUE_FLAGS, QUEUE_DEPTH); if (kIOReturnSuccess != queueResult) { (*queue)->Release(queue); Printf(TEXTCOLOR_RED "IOHIDQueueInterface::create() failed with code 0x%08X\n", queueResult); return NULL; } return queue; } IOKitJoystick::IOKitJoystick(const io_object_t device) : m_interface(CreateDeviceInterface(device)) , m_queue(CreateDeviceQueue(m_interface)) , m_sensitivity(DEFAULT_SENSITIVITY) , m_useAxesPolling(true) , m_notification(0) { if (NULL == m_interface || NULL == m_queue) { return; } CFMutableDictionaryRef properties = NULL; const kern_return_t propertiesResult = IORegistryEntryCreateCFProperties(device, &properties, kCFAllocatorDefault, kNilOptions); if (KERN_SUCCESS != propertiesResult || NULL == properties) { Printf(TEXTCOLOR_RED "IORegistryEntryCreateCFProperties() failed with code %i\n", propertiesResult); return; } GatherDeviceInfo(device, properties); GatherCollectionElements(properties); CFRelease(properties); UseAxesPolling(joy_axespolling); (*m_queue)->start(m_queue); SetDefaultConfig(); } IOKitJoystick::~IOKitJoystick() { M_SaveJoystickConfig(this); if (0 != m_notification) { IOObjectRelease(m_notification); } if (NULL != m_queue) { (*m_queue)->stop(m_queue); (*m_queue)->dispose(m_queue); (*m_queue)->Release(m_queue); } if (NULL != m_interface) { (*m_interface)->close(m_interface); (*m_interface)->Release(m_interface); } } FString IOKitJoystick::GetName() { return m_name; } float IOKitJoystick::GetSensitivity() { return m_sensitivity; } void IOKitJoystick::SetSensitivity(float scale) { m_sensitivity = scale; } int IOKitJoystick::GetNumAxes() { return static_cast(m_axes.Size()); } #define IS_AXIS_VALID (static_cast(axis) < m_axes.Size()) float IOKitJoystick::GetAxisDeadZone(int axis) { return IS_AXIS_VALID ? m_axes[axis].deadZone : 0.0f; } EJoyAxis IOKitJoystick::GetAxisMap(int axis) { return IS_AXIS_VALID ? m_axes[axis].gameAxis : JOYAXIS_None; } const char* IOKitJoystick::GetAxisName(int axis) { return IS_AXIS_VALID ? m_axes[axis].name : "Invalid"; } float IOKitJoystick::GetAxisScale(int axis) { return IS_AXIS_VALID ? m_axes[axis].sensitivity : 0.0f; } void IOKitJoystick::SetAxisDeadZone(int axis, float deadZone) { if (IS_AXIS_VALID) { m_axes[axis].deadZone = clamp(deadZone, 0.0f, 1.0f); } } void IOKitJoystick::SetAxisMap(int axis, EJoyAxis gameAxis) { if (IS_AXIS_VALID) { m_axes[axis].gameAxis = (gameAxis> JOYAXIS_None && gameAxis = 3) { m_axes[0].gameAxis = JOYAXIS_Side; m_axes[1].gameAxis = JOYAXIS_Forward; m_axes[2].gameAxis = JOYAXIS_Yaw; // Four axes? First two are movement, last two are looking around. if (axisCount >= 4) { m_axes[3].gameAxis = JOYAXIS_Pitch; // ??? m_axes[3].sensitivity = 0.75f; // Five axes? Use the fifth one for moving up and down. if (axisCount >= 5) { m_axes[4].gameAxis = JOYAXIS_Up; } } } // If there is only one axis, then we make no assumptions about how // the user might want to use it. // Preserve defaults for config saving. for (size_t i = 0; i < axisCount; ++i) { m_axes[i].defaultDeadZone = m_axes[i].deadZone; m_axes[i].defaultSensitivity = m_axes[i].sensitivity; m_axes[i].defaultGameAxis = m_axes[i].gameAxis; } } FString IOKitJoystick::GetIdentifier() { return m_identifier; } void IOKitJoystick::AddAxes(float axes[NUM_JOYAXIS]) const { for (size_t i = 0, count = m_axes.Size(); i < count; ++i) { const EJoyAxis axis = m_axes[i].gameAxis; if (JOYAXIS_None == axis) { continue; } axes[axis] -= m_axes[i].value; } } void IOKitJoystick::UseAxesPolling(const bool axesPolling) { m_useAxesPolling = axesPolling; for (size_t i = 0, count = m_axes.Size(); i < count; ++i) { AnalogAxis& axis = m_axes[i]; if (m_useAxesPolling) { RemoveFromQueue(axis.cookie); } else { AddToQueue(axis.cookie); } } } void IOKitJoystick::Update() { if (NULL == m_queue) { return; } IOHIDEventStruct event = { }; AbsoluteTime zeroTime = { }; const IOReturn eventResult = (*m_queue)->getNextEvent(m_queue, &event, zeroTime, 0); if (kIOReturnSuccess == eventResult) { if (use_joystick) { ProcessAxis(event) || ProcessButton(event) || ProcessPOV(event); } } else if (kIOReturnUnderrun != eventResult) { Printf(TEXTCOLOR_RED "IOHIDQueueInterface::getNextEvent() failed with code 0x%08X\n", eventResult); } ProcessAxes(); } void IOKitJoystick::ProcessAxes() { if (NULL == m_interface || !m_useAxesPolling) { return; } for (size_t i = 0, count = m_axes.Size(); i < count; ++i) { AnalogAxis& axis = m_axes[i]; static const double scaledMin = -1; static const double scaledMax = 1; IOHIDEventStruct event; if (kIOReturnSuccess == (*m_interface)->getElementValue(m_interface, axis.cookie, &event)) { const double scaledValue = scaledMin + (event.value - axis.minValue) * (scaledMax - scaledMin) / (axis.maxValue - axis.minValue); const double filteredValue = Joy_RemoveDeadZone(scaledValue, axis.deadZone, NULL); axis.value = static_cast(filteredValue * m_sensitivity * axis.sensitivity); } else { axis.value = 0.0f; } } } bool IOKitJoystick::ProcessAxis(const IOHIDEventStruct& event) { if (m_useAxesPolling) { return false; } for (size_t i = 0, count = m_axes.Size(); i < count; ++i) { if (event.elementCookie != m_axes[i].cookie) { continue; } AnalogAxis& axis = m_axes[i]; static const double scaledMin = -1; static const double scaledMax = 1; const double scaledValue = scaledMin + (event.value - axis.minValue) * (scaledMax - scaledMin) / (axis.maxValue - axis.minValue); const double filteredValue = Joy_RemoveDeadZone(scaledValue, axis.deadZone, NULL); axis.value = static_cast(filteredValue * m_sensitivity * axis.sensitivity); return true; } return false; } bool IOKitJoystick::ProcessButton(const IOHIDEventStruct& event) { for (size_t i = 0, count = m_buttons.Size(); i < count; ++i) { if (event.elementCookie != m_buttons[i].cookie) { continue; } int32_t& current = m_buttons[i].value; const int32_t previous = current; current = event.value; Joy_GenerateButtonEvents(previous, current, 1, static_cast(KEY_FIRSTJOYBUTTON + i)); return true; } return false; } bool IOKitJoystick::ProcessPOV(const IOHIDEventStruct& event) { for (size_t i = 0, count = m_POVs.Size(); i ( CFDictionaryGetValue(properties, CFSTR(kIOHIDManufacturerKey))); CFStringRef productRef = static_cast( CFDictionaryGetValue(properties, CFSTR(kIOHIDProductKey))); CFNumberRef vendorIDRef = static_cast( CFDictionaryGetValue(properties, CFSTR(kIOHIDVendorIDKey))); CFNumberRef productIDRef = static_cast( CFDictionaryGetValue(properties, CFSTR(kIOHIDProductIDKey))); CFMutableDictionaryRef usbProperties = NULL; if ( NULL == vendorRef || NULL == productRef || NULL == vendorIDRef || NULL == productIDRef) { // OS X is not mirroring all USB properties to HID page, so need to look at USB device page also // Step up two levels and get dictionary of USB properties io_registry_entry_t parent1; kern_return_t ioResult = IORegistryEntryGetParentEntry(device, kIOServicePlane, &parent1); if (KERN_SUCCESS == ioResult) { io_registry_entry_t parent2; ioResult = IORegistryEntryGetParentEntry(device, kIOServicePlane, &parent2); if (KERN_SUCCESS == ioResult) { ioResult = IORegistryEntryCreateCFProperties(parent2, &usbProperties, kCFAllocatorDefault, kNilOptions); if (KERN_SUCCESS != ioResult) { Printf(TEXTCOLOR_RED "IORegistryEntryCreateCFProperties() failed with code %i\n", ioResult); } IOObjectRelease(parent2); } else { Printf(TEXTCOLOR_RED "IORegistryEntryGetParentEntry(2) failed with code %i\n", ioResult); } IOObjectRelease(parent1); } else { Printf(TEXTCOLOR_RED "IORegistryEntryGetParentEntry(1) failed with code %i\n", ioResult); } } if (NULL != usbProperties) { if (NULL == vendorRef) { vendorRef = static_cast( CFDictionaryGetValue(usbProperties, CFSTR("USB Vendor Name"))); } if (NULL == productRef) { productRef = static_cast( CFDictionaryGetValue(usbProperties, CFSTR("USB Product Name"))); } if (NULL == vendorIDRef) { vendorIDRef = static_cast( CFDictionaryGetValue(usbProperties, CFSTR("idVendor"))); } if (NULL == productIDRef) { productIDRef = static_cast( CFDictionaryGetValue(usbProperties, CFSTR("idProduct"))); } } m_name += ToFString(vendorRef); m_name += " "; m_name += ToFString(productRef); int vendorID = 0, productID = 0; if (NULL != vendorIDRef) { CFNumberGetValue(vendorIDRef, kCFNumberIntType, &vendorID); } if (NULL != productIDRef) { CFNumberGetValue(productIDRef, kCFNumberIntType, &productID); } m_identifier.AppendFormat("VID_%04x_PID_%04x", vendorID, productID); if (NULL != usbProperties) { CFRelease(usbProperties); } } long GetElementValue(const CFDictionaryRef element, const CFStringRef key) { const CFNumberRef number = static_cast(CFDictionaryGetValue(element, key)); long result = 0; if (NULL != number && CFGetTypeID(number) == CFNumberGetTypeID()) { CFNumberGetValue(number, kCFNumberLongType, &result); } return result; } void IOKitJoystick::GatherElementsHandler(const void* value, void* parameter) { assert(NULL != value); assert(NULL != parameter); const CFDictionaryRef element = static_cast(value); IOKitJoystick* thisPtr = static_cast(parameter); if (CFGetTypeID(element) != CFDictionaryGetTypeID()) { Printf(TEXTCOLOR_RED "IOKitJoystick: Encountered wrong element type\n"); return; } const long type = GetElementValue(element, CFSTR(kIOHIDElementTypeKey)); if (kIOHIDElementTypeCollection == type) { thisPtr->GatherCollectionElements(element); } else if (0 != type) { const long usagePage = GetElementValue(element, CFSTR(kIOHIDElementUsagePageKey)); if (kHIDPage_GenericDesktop == usagePage) { const long usage = GetElementValue(element, CFSTR(kIOHIDElementUsageKey)); if ( kHIDUsage_GD_Slider == usage || kHIDUsage_GD_X == usage || kHIDUsage_GD_Y == usage || kHIDUsage_GD_Z == usage || kHIDUsage_GD_Rx == usage || kHIDUsage_GD_Ry == usage || kHIDUsage_GD_Rz == usage) { thisPtr->AddAxis(element); } else if (kHIDUsage_GD_Hatswitch == usage && thisPtr->m_POVs.Size() < 4) { thisPtr->AddPOV(element); } } else if (kHIDPage_Button == usagePage) { thisPtr->AddButton(element); } } } void IOKitJoystick::GatherCollectionElements(const CFDictionaryRef properties) { const CFArrayRef topElement = static_cast( CFDictionaryGetValue(properties, CFSTR(kIOHIDElementKey))); if (NULL == topElement || CFGetTypeID(topElement) != CFArrayGetTypeID()) { Printf(TEXTCOLOR_RED "GatherCollectionElements: invalid properties dictionary\n"); return; } const CFRange range = { 0, CFArrayGetCount(topElement) }; CFArrayApplyFunction(topElement, range, GatherElementsHandler, this); } IOHIDElementCookie GetElementCookie(const CFDictionaryRef element) { // Use C-style cast to avoid 32/64-bit IOHIDElementCookie type issue return (IOHIDElementCookie)GetElementValue(element, CFSTR(kIOHIDElementCookieKey)); } void IOKitJoystick::AddAxis(const CFDictionaryRef element) { AnalogAxis axis; axis.cookie = GetElementCookie(element); axis.minValue = GetElementValue(element, CFSTR(kIOHIDElementMinKey)); axis.maxValue = GetElementValue(element, CFSTR(kIOHIDElementMaxKey)); const CFStringRef nameRef = static_cast( CFDictionaryGetValue(element, CFSTR(kIOHIDElementNameKey))); if (NULL != nameRef && CFStringGetTypeID() == CFGetTypeID(nameRef)) { CFStringGetCString(nameRef, axis.name, sizeof(axis.name) - 1, kCFStringEncodingUTF8); } else { snprintf(axis.name, sizeof(axis.name), "Axis %i", m_axes.Size() + 1); } m_axes.Push(axis); } void IOKitJoystick::AddButton(CFDictionaryRef element) { const DigitalButton button(GetElementCookie(element)); m_buttons.Push(button); AddToQueue(button.cookie); } void IOKitJoystick::AddPOV(CFDictionaryRef element) { const DigitalButton pov(GetElementCookie(element)); m_POVs.Push(pov); AddToQueue(pov.cookie); } void IOKitJoystick::AddToQueue(const IOHIDElementCookie cookie) { if (NULL == m_queue) { return; } if (!(*m_queue)->hasElement(m_queue, cookie)) { (*m_queue)->addElement(m_queue, cookie, 0); } } void IOKitJoystick::RemoveFromQueue(const IOHIDElementCookie cookie) { if (NULL == m_queue) { return; } if ((*m_queue)->hasElement(m_queue, cookie)) { (*m_queue)->removeElement(m_queue, cookie); } } io_object_t* IOKitJoystick::GetNotificationPtr() { return &m_notification; } // --------------------------------------------------------------------------- class IOKitJoystickManager { public: IOKitJoystickManager(); ~IOKitJoystickManager(); void GetJoysticks(TArray& joysticks) const; void AddAxes(float axes[NUM_JOYAXIS]) const; // Updates axes/buttons states void Update(); void UseAxesPolling(bool axesPolling); private: typedef TDeletingArray JoystickList; JoystickList m_joysticks; static const size_t NOTIFICATION_PORT_COUNT = 2; IONotificationPortRef m_notificationPorts[NOTIFICATION_PORT_COUNT]; io_iterator_t m_notifications [NOTIFICATION_PORT_COUNT]; // Rebuilds device list void Rescan(int usagePage, int usage, size_t notificationPortIndex); void AddDevices(IONotificationPortRef notificationPort, const io_iterator_t iterator); static void OnDeviceAttached(void* refcon, io_iterator_t iterator); static void OnDeviceRemoved(void* refcon, io_service_t service, natural_t messageType, void* messageArgument); }; IOKitJoystickManager* s_joystickManager; IOKitJoystickManager::IOKitJoystickManager() { memset(m_notifications, 0, sizeof m_notifications); for (size_t i = 0; i < NOTIFICATION_PORT_COUNT; ++i) { m_notificationPorts[i] = IONotificationPortCreate(kIOMasterPortDefault); if (NULL == m_notificationPorts[i]) { Printf(TEXTCOLOR_RED "IONotificationPortCreate(%zu) failed\n", i); return; } CFRunLoopAddSource(CFRunLoopGetCurrent(), IONotificationPortGetRunLoopSource(m_notificationPorts[i]), kCFRunLoopDefaultMode); } Rescan(kHIDPage_GenericDesktop, kHIDUsage_GD_Joystick, 0); Rescan(kHIDPage_GenericDesktop, kHIDUsage_GD_GamePad, 1); } IOKitJoystickManager::~IOKitJoystickManager() { for (size_t i = 0; i < NOTIFICATION_PORT_COUNT; ++i) { IONotificationPortRef& port = m_notificationPorts[i]; if (NULL != port) { CFRunLoopRemoveSource(CFRunLoopGetCurrent(), IONotificationPortGetRunLoopSource(port), kCFRunLoopDefaultMode); IONotificationPortDestroy(port); port = NULL; } io_iterator_t& notification = m_notifications[i]; if (0 != notification) { IOObjectRelease(notification); notification = 0; } } } void IOKitJoystickManager::GetJoysticks(TArray& joysticks) const { const size_t joystickCount = m_joysticks.Size(); joysticks.Resize(joystickCount); for (size_t i = 0; i < joystickCount; ++i) { M_LoadJoystickConfig(m_joysticks[i]); joysticks[i] = m_joysticks[i]; } } void IOKitJoystickManager::AddAxes(float axes[NUM_JOYAXIS]) const { for (size_t i = 0, count = m_joysticks.Size(); i < count; ++i) { m_joysticks[i]->AddAxes(axes); } } void IOKitJoystickManager::Update() { for (size_t i = 0, count = m_joysticks.Size(); i < count; ++i) { m_joysticks[i]->Update(); } } void IOKitJoystickManager::UseAxesPolling(const bool axesPolling) { for (size_t i = 0, count = m_joysticks.Size(); i < count; ++i) { m_joysticks[i]->UseAxesPolling(axesPolling); } } void PostDeviceChangeEvent() { event_t event = { EV_DeviceChange }; D_PostEvent(&event); } void IOKitJoystickManager::Rescan(const int usagePage, const int usage, const size_t notificationPortIndex) { CFMutableDictionaryRef deviceMatching = IOServiceMatching(kIOHIDDeviceKey); if (NULL == deviceMatching) { Printf(TEXTCOLOR_RED "IOServiceMatching() returned NULL\n"); return; } const CFNumberRef usagePageRef = CFNumberCreate(kCFAllocatorDefault, kCFNumberIntType, &usagePage); CFDictionarySetValue(deviceMatching, CFSTR(kIOHIDPrimaryUsagePageKey), usagePageRef); const CFNumberRef usageRef = CFNumberCreate(kCFAllocatorDefault, kCFNumberIntType, &usage); CFDictionarySetValue(deviceMatching, CFSTR(kIOHIDPrimaryUsageKey), usageRef); assert(notificationPortIndex < NOTIFICATION_PORT_COUNT); io_iterator_t* iteratorPtr = &m_notifications[notificationPortIndex]; const IONotificationPortRef notificationPort = m_notificationPorts[notificationPortIndex]; assert(NULL != notificationPort); const kern_return_t notificationResult = IOServiceAddMatchingNotification(notificationPort, kIOFirstMatchNotification, deviceMatching, OnDeviceAttached, notificationPort, iteratorPtr); // IOServiceAddMatchingNotification() consumes one reference of matching dictionary // Thus CFRelease(deviceMatching) is not needed CFRelease(usageRef); CFRelease(usagePageRef); if (KERN_SUCCESS != notificationResult) { Printf(TEXTCOLOR_RED "IOServiceAddMatchingNotification() failed with code %i\n", notificationResult); } AddDevices(notificationPort, *iteratorPtr); } void IOKitJoystickManager::AddDevices(const IONotificationPortRef notificationPort, const io_iterator_t iterator) { while (io_object_t device = IOIteratorNext(iterator)) { IOKitJoystick* joystick = new IOKitJoystick(device); m_joysticks.Push(joystick); const kern_return_t notificationResult = IOServiceAddInterestNotification(notificationPort, device, kIOGeneralInterest, OnDeviceRemoved, joystick, joystick->GetNotificationPtr()); if (KERN_SUCCESS != notificationResult) { Printf(TEXTCOLOR_RED "IOServiceAddInterestNotification() failed with code %i\n", notificationResult); } IOObjectRelease(device); PostDeviceChangeEvent(); } } void IOKitJoystickManager::OnDeviceAttached(void* const refcon, const io_iterator_t iterator) { assert(NULL != refcon); const IONotificationPortRef notificationPort = static_cast(refcon); assert(NULL != s_joystickManager); s_joystickManager->AddDevices(notificationPort, iterator); } void IOKitJoystickManager::OnDeviceRemoved(void* const refcon, io_service_t, const natural_t messageType, void*) { if (messageType != kIOMessageServiceIsTerminated) { return; } assert(NULL != refcon); IOKitJoystick* const joystick = static_cast(refcon); assert(NULL != s_joystickManager); JoystickList& joysticks = s_joystickManager->m_joysticks; for (unsigned int i = 0, count = joysticks.Size(); i < count; ++i) { if (joystick == joysticks[i]) { joysticks.Delete(i); break; } } delete joystick; PostDeviceChangeEvent(); } } // unnamed namespace // --------------------------------------------------------------------------- void I_ShutdownInput() { delete s_joystickManager; s_joystickManager = NULL; } void I_GetJoysticks(TArray& sticks) { // Instances of IOKitJoystick depend on GameConfig object. // M_SaveDefaultsFinal() must be called after destruction of IOKitJoystickManager. // To ensure this, its initialization is moved here. // As M_LoadDefaults() was already called at this moment, // the order of atterm's functions will be correct if (NULL == s_joystickManager && !Args->CheckParm("-nojoy")) { s_joystickManager = new IOKitJoystickManager; } if (NULL != s_joystickManager) { s_joystickManager->GetJoysticks(sticks); } } void I_GetAxes(float axes[NUM_JOYAXIS]) { memset(axes, 0, sizeof(float) * NUM_JOYAXIS); if (use_joystick && NULL != s_joystickManager) { s_joystickManager->AddAxes(axes); } } IJoystickConfig* I_UpdateDeviceList() { // Does nothing, device list is always kept up-to-date return NULL; } // --------------------------------------------------------------------------- void I_ProcessJoysticks() { if (NULL != s_joystickManager) { s_joystickManager->Update(); } } // --------------------------------------------------------------------------- CUSTOM_CVAR(Bool, joy_axespolling, true, CVAR_ARCHIVE | CVAR_GLOBALCONFIG | CVAR_NOINITCALL) { if (NULL != s_joystickManager) { s_joystickManager->UseAxesPolling(self); } }