#include "IHIDDevice.hpp" #include "boo/inputdev/DeviceToken.hpp" #include "boo/inputdev/DeviceBase.hpp" #include #include #include #include #include #include #include #include #include #include #include #include namespace boo { udev* GetUdev(); /* * Reference: http://tali.admingilde.org/linux-docbook/usb/ch07s06.html */ class HIDDeviceUdev final : public IHIDDevice { DeviceToken& m_token; DeviceBase& m_devImp; int m_devFd = 0; unsigned m_usbIntfInPipe = 0; unsigned m_usbIntfOutPipe = 0; bool m_runningTransferLoop = false; const std::string& m_devPath; std::mutex m_initMutex; std::condition_variable m_initCond; std::thread* m_thread; bool _sendUSBInterruptTransfer(const uint8_t* data, size_t length) { if (m_devFd) { usbdevfs_bulktransfer xfer = { m_usbIntfOutPipe | USB_DIR_OUT, (unsigned)length, 30, (void*)data }; int ret = ioctl(m_devFd, USBDEVFS_BULK, &xfer); if (ret != (int)length) return false; return true; } return false; } size_t _receiveUSBInterruptTransfer(uint8_t* data, size_t length) { if (m_devFd) { usbdevfs_bulktransfer xfer = { m_usbIntfInPipe | USB_DIR_IN, (unsigned)length, 30, data }; return ioctl(m_devFd, USBDEVFS_BULK, &xfer); } return 0; } static void _threadProcUSBLL(HIDDeviceUdev* device) { unsigned i; char errStr[256]; std::unique_lock lk(device->m_initMutex); udev_device* udevDev = udev_device_new_from_syspath(GetUdev(), device->m_devPath.c_str()); /* Get device file */ const char* dp = udev_device_get_devnode(udevDev); int fd = open(dp, O_RDWR); if (fd < 0) { snprintf(errStr, 256, "Unable to open %s@%s: %s\n", device->m_token.getProductName().c_str(), dp, strerror(errno)); device->m_devImp.deviceError(errStr); lk.unlock(); device->m_initCond.notify_one(); udev_device_unref(udevDev); return; } device->m_devFd = fd; usb_device_descriptor devDesc = {}; read(fd, &devDesc, 1); read(fd, &devDesc.bDescriptorType, devDesc.bLength-1); if (devDesc.bNumConfigurations) { usb_config_descriptor confDesc = {}; read(fd, &confDesc, 1); read(fd, &confDesc.bDescriptorType, confDesc.bLength-1); if (confDesc.bNumInterfaces) { usb_interface_descriptor intfDesc = {}; read(fd, &intfDesc, 1); read(fd, &intfDesc.bDescriptorType, intfDesc.bLength-1); for (i=0 ; im_usbIntfInPipe = endpDesc.bEndpointAddress & USB_ENDPOINT_NUMBER_MASK; else if ((endpDesc.bEndpointAddress & USB_ENDPOINT_DIR_MASK) == USB_DIR_OUT) device->m_usbIntfOutPipe = endpDesc.bEndpointAddress & USB_ENDPOINT_NUMBER_MASK; } } } } /* Request that kernel disconnects existing driver */ usbdevfs_ioctl disconnectReq = { 0, USBDEVFS_DISCONNECT, NULL }; ioctl(fd, USBDEVFS_IOCTL, &disconnectReq); /* Return control to main thread */ device->m_runningTransferLoop = true; lk.unlock(); device->m_initCond.notify_one(); /* Start transfer loop */ device->m_devImp.initialCycle(); while (device->m_runningTransferLoop) device->m_devImp.transferCycle(); device->m_devImp.finalCycle(); /* Cleanup */ close(fd); device->m_devFd = 0; udev_device_unref(udevDev); } static void _threadProcBTLL(HIDDeviceUdev* device) { std::unique_lock lk(device->m_initMutex); udev_device* udevDev = udev_device_new_from_syspath(GetUdev(), device->m_devPath.c_str()); /* Return control to main thread */ device->m_runningTransferLoop = true; lk.unlock(); device->m_initCond.notify_one(); /* Start transfer loop */ device->m_devImp.initialCycle(); while (device->m_runningTransferLoop) device->m_devImp.transferCycle(); device->m_devImp.finalCycle(); udev_device_unref(udevDev); } static void _threadProcHID(HIDDeviceUdev* device) { std::unique_lock lk(device->m_initMutex); udev_device* udevDev = udev_device_new_from_syspath(GetUdev(), device->m_devPath.c_str()); /* Return control to main thread */ device->m_runningTransferLoop = true; lk.unlock(); device->m_initCond.notify_one(); /* Start transfer loop */ device->m_devImp.initialCycle(); while (device->m_runningTransferLoop) device->m_devImp.transferCycle(); device->m_devImp.finalCycle(); udev_device_unref(udevDev); } void _deviceDisconnected() { m_runningTransferLoop = false; } bool _sendHIDReport(const uint8_t* data, size_t length, uint16_t message) { if (m_devFd) { usbdevfs_ctrltransfer xfer = { USB_DIR_OUT | USB_TYPE_CLASS | USB_RECIP_INTERFACE, 0x09, // HID_SET_REPORT message, 0, (uint16_t)length, 30, (void*)data }; int ret = ioctl(m_devFd, USBDEVFS_CONTROL, &xfer); if (ret != (int)length) return false; return true; } return false; } size_t _recieveReport(const uint8_t *data, size_t length, uint16_t message) { if (m_devFd) { usbdevfs_ctrltransfer xfer = { USB_DIR_IN | USB_TYPE_CLASS | USB_RECIP_INTERFACE, 0x01, // HID_GET_REPORT message, 0, (uint16_t)length, 0, (void*)data }; return ioctl(m_devFd, USBDEVFS_CONTROL, &xfer); } return 0; } public: HIDDeviceUdev(DeviceToken& token, DeviceBase& devImp) : m_token(token), m_devImp(devImp), m_devPath(token.getDevicePath()) { devImp.m_hidDev = this; std::unique_lock lk(m_initMutex); DeviceToken::DeviceType dType = token.getDeviceType(); if (dType == DeviceToken::DeviceType::USB) m_thread = new std::thread(_threadProcUSBLL, this); else if (dType == DeviceToken::DeviceType::Bluetooth) m_thread = new std::thread(_threadProcBTLL, this); else if (dType == DeviceToken::DeviceType::GenericHID) m_thread = new std::thread(_threadProcHID, this); else { fprintf(stderr, "invalid token supplied to device constructor"); abort(); } m_initCond.wait(lk); } ~HIDDeviceUdev() { m_runningTransferLoop = false; m_thread->join(); delete m_thread; } }; IHIDDevice* IHIDDeviceNew(DeviceToken& token, DeviceBase& devImp) { return new HIDDeviceUdev(token, devImp); } }