#define _CRT_SECURE_NO_WARNINGS 1 /* STFU MSVC */ #include "IHIDDevice.hpp" #include "boo/inputdev/DeviceToken.hpp" #include "boo/inputdev/DeviceBase.hpp" #include #include #include #include #include #include #ifndef WIN32_LEAN_AND_MEAN #define WIN32_LEAN_AND_MEAN 1 #endif #include #include #include #include #include #undef min #undef max namespace boo { class HIDDeviceWinUSB final : public IHIDDevice { DeviceToken& m_token; DeviceBase& m_devImp; HANDLE m_devHandle = 0; HANDLE m_hidHandle = 0; WINUSB_INTERFACE_HANDLE m_usbHandle = nullptr; 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_usbHandle) { ULONG lengthTransferred = 0; if (!WinUsb_WritePipe(m_usbHandle, m_usbIntfOutPipe, (PUCHAR)data, (ULONG)length, &lengthTransferred, NULL) || lengthTransferred != length) return false; return true; } return false; } size_t _receiveUSBInterruptTransfer(uint8_t* data, size_t length) { if (m_usbHandle) { ULONG lengthTransferred = 0; if (!WinUsb_ReadPipe(m_usbHandle, m_usbIntfInPipe, (PUCHAR)data, (ULONG)length, &lengthTransferred, NULL)) return 0; return lengthTransferred; } return 0; } static void _threadProcUSBLL(HIDDeviceWinUSB* device) { unsigned i; char errStr[256]; std::unique_lock lk(device->m_initMutex); /* POSIX.. who needs it?? -MS */ device->m_devHandle = CreateFileA(device->m_devPath.c_str(), GENERIC_WRITE | GENERIC_READ, FILE_SHARE_WRITE | FILE_SHARE_READ, NULL, OPEN_EXISTING, FILE_ATTRIBUTE_NORMAL | FILE_FLAG_OVERLAPPED, NULL); if (INVALID_HANDLE_VALUE == device->m_devHandle) { _snprintf(errStr, 256, "Unable to open %s@%s: %d\n", device->m_token.getProductName().c_str(), device->m_devPath.c_str(), GetLastError()); device->m_devImp.deviceError(errStr); lk.unlock(); device->m_initCond.notify_one(); return; } if (!WinUsb_Initialize(device->m_devHandle, &device->m_usbHandle)) { _snprintf(errStr, 256, "Unable to open %s@%s: %d\n", device->m_token.getProductName().c_str(), device->m_devPath.c_str(), GetLastError()); device->m_devImp.deviceError(errStr); lk.unlock(); device->m_initCond.notify_one(); CloseHandle(device->m_devHandle); return; } /* Enumerate device pipes */ USB_INTERFACE_DESCRIPTOR ifDesc = {0}; if (!WinUsb_QueryInterfaceSettings(device->m_usbHandle, 0, &ifDesc)) { _snprintf(errStr, 256, "Unable to open %s@%s: %d\n", device->m_token.getProductName().c_str(), device->m_devPath.c_str(), GetLastError()); device->m_devImp.deviceError(errStr); lk.unlock(); device->m_initCond.notify_one(); CloseHandle(device->m_devHandle); return; } for (i=0 ; im_usbHandle, 0, i, &pipeDesc); if (pipeDesc.PipeType == UsbdPipeTypeInterrupt) { if (USB_ENDPOINT_DIRECTION_IN(pipeDesc.PipeId)) device->m_usbIntfInPipe = pipeDesc.PipeId; else device->m_usbIntfOutPipe = pipeDesc.PipeId; } } /* 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 */ WinUsb_Free(device->m_usbHandle); CloseHandle(device->m_devHandle); device->m_devHandle = 0; } static void _threadProcBTLL(HIDDeviceWinUSB* device) { std::unique_lock lk(device->m_initMutex); /* 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(); } size_t m_minFeatureSz = 0; size_t m_minInputSz = 0; size_t m_minOutputSz = 0; static void _threadProcHID(HIDDeviceWinUSB* device) { char errStr[256]; std::unique_lock lk(device->m_initMutex); /* POSIX.. who needs it?? -MS */ device->m_overlapped.hEvent = CreateEvent(nullptr, TRUE, FALSE, nullptr); device->m_hidHandle = CreateFileA(device->m_devPath.c_str(), GENERIC_WRITE | GENERIC_READ, FILE_SHARE_WRITE | FILE_SHARE_READ, NULL, OPEN_EXISTING, FILE_ATTRIBUTE_NORMAL | FILE_FLAG_OVERLAPPED, NULL); if (INVALID_HANDLE_VALUE == device->m_hidHandle) { _snprintf(errStr, 256, "Unable to open %s@%s: %d\n", device->m_token.getProductName().c_str(), device->m_devPath.c_str(), GetLastError()); device->m_devImp.deviceError(errStr); lk.unlock(); device->m_initCond.notify_one(); return; } PHIDP_PREPARSED_DATA preparsedData; if (!HidD_GetPreparsedData(device->m_hidHandle, &preparsedData)) { _snprintf(errStr, 256, "Unable get preparsed data of %s@%s: %d\n", device->m_token.getProductName().c_str(), device->m_devPath.c_str(), GetLastError()); device->m_devImp.deviceError(errStr); lk.unlock(); device->m_initCond.notify_one(); return; } HIDP_CAPS caps; HidP_GetCaps(preparsedData, &caps); device->m_minFeatureSz = caps.FeatureReportByteLength; device->m_minInputSz = caps.InputReportByteLength; device->m_minOutputSz = caps.OutputReportByteLength; HidD_FreePreparsedData(preparsedData); /* Return control to main thread */ device->m_runningTransferLoop = true; lk.unlock(); device->m_initCond.notify_one(); /* Allocate read buffer */ size_t inBufferSz = std::max(device->m_minInputSz, device->m_devImp.getInputBufferSize()); std::unique_ptr readBuf(new uint8_t[inBufferSz]); /* Start transfer loop */ device->m_devImp.initialCycle(); while (device->m_runningTransferLoop) { device->ReadCycle(readBuf.get(), inBufferSz); device->m_devImp.transferCycle(); } device->m_devImp.finalCycle(); /* Cleanup */ CloseHandle(device->m_overlapped.hEvent); CloseHandle(device->m_hidHandle); device->m_hidHandle = nullptr; } void _deviceDisconnected() { m_runningTransferLoop = false; } std::vector m_sendBuf; std::vector m_recvBuf; bool _sendHIDReport(const uint8_t* data, size_t length, HIDReportType tp, uint32_t message) { size_t maxOut = std::max(m_minFeatureSz, std::max(m_minOutputSz, length)); if (m_sendBuf.size() < maxOut) m_sendBuf.resize(maxOut); if (maxOut > length) memset(m_sendBuf.data() + length, 0, maxOut - length); memmove(m_sendBuf.data(), data, length); if (tp == HIDReportType::Output) { DWORD useLength = DWORD(std::max(length, m_minOutputSz)); DWORD BytesWritten; OVERLAPPED Overlapped; ZeroMemory(&Overlapped, sizeof(Overlapped)); BOOL Result = WriteFile(m_hidHandle, m_sendBuf.data(), useLength, &BytesWritten, &Overlapped); if (!Result) { DWORD Error = GetLastError(); if (Error == ERROR_INVALID_USER_BUFFER) { //std::cout << "Falling back to SetOutputReport" << std::endl; if (!HidD_SetOutputReport(m_hidHandle, (PVOID)m_sendBuf.data(), useLength)) return false; } if (Error != ERROR_IO_PENDING) { fprintf(stderr, "Write Failed %08X\n", Error); return false; } } if (!GetOverlappedResult(m_hidHandle, &Overlapped, &BytesWritten, TRUE)) { DWORD Error = GetLastError(); fprintf(stderr, "Write Failed %08X\n", Error); return false; } } else if (tp == HIDReportType::Feature) { DWORD useLength = DWORD(std::max(length, m_minFeatureSz)); if (!HidD_SetFeature(m_hidHandle, (PVOID)m_sendBuf.data(), useLength)) { int error = GetLastError(); return false; } } return true; } size_t _receiveHIDReport(uint8_t* data, size_t length, HIDReportType tp, uint32_t message) { size_t maxIn = std::max(m_minFeatureSz, std::max(m_minInputSz, length)); if (m_recvBuf.size() < maxIn) m_recvBuf.resize(maxIn); memset(m_recvBuf.data(), 0, length); m_recvBuf[0] = message; if (tp == HIDReportType::Input) { if (!HidD_GetInputReport(m_hidHandle, m_recvBuf.data(), ULONG(std::max(m_minInputSz, length)))) return 0; } else if (tp == HIDReportType::Feature) { if (!HidD_GetFeature(m_hidHandle, m_recvBuf.data(), ULONG(std::max(m_minFeatureSz, length)))) return 0; } memmove(data, m_recvBuf.data(), length); return length; } public: HIDDeviceWinUSB(DeviceToken& token, DeviceBase& devImp) : m_token(token), m_devImp(devImp), m_devPath(token.getDevicePath()) { } void _startThread() { std::unique_lock lk(m_initMutex); DeviceType dType = m_token.getDeviceType(); if (dType == DeviceType::USB) m_thread = std::thread(_threadProcUSBLL, this); else if (dType == DeviceType::Bluetooth) m_thread = std::thread(_threadProcBTLL, this); else if (dType == DeviceType::HID) m_thread = std::thread(_threadProcHID, this); else throw std::runtime_error("invalid token supplied to device constructor"); m_initCond.wait(lk); } ~HIDDeviceWinUSB() { m_runningTransferLoop = false; m_thread.join(); } OVERLAPPED m_overlapped = {}; void ReadCycle(uint8_t* inBuffer, size_t inBufferSz) { ResetEvent(m_overlapped.hEvent); ZeroMemory(inBuffer, inBufferSz); DWORD BytesRead = 0; BOOL Result = ReadFile(m_hidHandle, inBuffer, DWORD(inBufferSz), &BytesRead, &m_overlapped); if (!Result) { DWORD Error = GetLastError(); if (Error != ERROR_IO_PENDING) { fprintf(stderr, "Read Failed: %08X\n", Error); return; } else if (!GetOverlappedResultEx(m_hidHandle, &m_overlapped, &BytesRead, 10, TRUE)) { return; } } m_devImp.receivedHIDReport(inBuffer, BytesRead, HIDReportType::Input, inBuffer[0]); } }; std::unique_ptr IHIDDeviceNew(DeviceToken& token, DeviceBase& devImp) { return std::make_unique(token, devImp); } }