Пример #1
0
// Connect to a Wiimote with a known device path.
bool WiimoteWindows::ConnectInternal()
{
  if (IsConnected())
    return true;

  if (!IsNewWiimote(UTF16ToUTF8(m_devicepath)))
    return false;

  auto const open_flags = FILE_SHARE_READ | FILE_SHARE_WRITE;

  m_dev_handle = CreateFile(m_devicepath.c_str(), GENERIC_READ | GENERIC_WRITE, open_flags, nullptr,
                            OPEN_EXISTING, FILE_FLAG_OVERLAPPED, nullptr);

  if (m_dev_handle == INVALID_HANDLE_VALUE)
  {
    m_dev_handle = nullptr;
    return false;
  }

#if 0
	TCHAR name[128] = {};
	pHidD_GetProductString(dev_handle, name, 128);

	//ERROR_LOG(WIIMOTE, "Product string: %s", TStrToUTF8(name).c_str());

	if (!IsValidBluetoothName(TStrToUTF8(name)))
	{
		CloseHandle(dev_handle);
		dev_handle = 0;
		return false;
	}
#endif

#if 0
	HIDD_ATTRIBUTES attr;
	attr.Size = sizeof(attr);
	if (!pHidD_GetAttributes(dev_handle, &attr))
	{
		CloseHandle(dev_handle);
		dev_handle = 0;
		return false;
	}
#endif

  // TODO: thread isn't started here now, do this elsewhere
  // This isn't as drastic as it sounds, since the process in which the threads
  // reside is normal priority. Needed for keeping audio reports at a decent rate
  /*
    if (!SetThreadPriority(m_wiimote_thread.native_handle(), THREAD_PRIORITY_TIME_CRITICAL))
    {
      ERROR_LOG(WIIMOTE, "Failed to set Wiimote thread priority");
    }
  */

  return true;
}
Пример #2
0
void WiimoteScanner::FindWiimotes(std::vector<Wiimote*>& found_wiimotes, Wiimote*& found_board)
{
  // supposedly 1.28 seconds
  int const wait_len = 1;

  int const max_infos = 255;
  inquiry_info scan_infos[max_infos] = {};
  auto* scan_infos_ptr = scan_infos;
  found_board = nullptr;
  // Use Limited Dedicated Inquiry Access Code (LIAC) to query, since third-party Wiimotes
  // cannot be discovered without it.
  const u8 lap[3] = {0x00, 0x8b, 0x9e};

  // Scan for Bluetooth devices
  int const found_devices =
      hci_inquiry(device_id, wait_len, max_infos, lap, &scan_infos_ptr, IREQ_CACHE_FLUSH);
  if (found_devices < 0)
  {
    ERROR_LOG(WIIMOTE, "Error searching for Bluetooth devices.");
    return;
  }

  DEBUG_LOG(WIIMOTE, "Found %i Bluetooth device(s).", found_devices);

  // Display discovered devices
  for (int i = 0; i < found_devices; ++i)
  {
    ERROR_LOG(WIIMOTE, "found a device...");

    // BT names are a maximum of 248 bytes apparently
    char name[255] = {};
    if (hci_read_remote_name(device_sock, &scan_infos[i].bdaddr, sizeof(name), name, 1000) < 0)
    {
      ERROR_LOG(WIIMOTE, "name request failed");
      continue;
    }

    ERROR_LOG(WIIMOTE, "device name %s", name);
    if (IsValidBluetoothName(name))
    {
      bool new_wiimote = true;

      // Determine if this Wiimote has already been found.
      for (int j = 0; j < MAX_BBMOTES && new_wiimote; ++j)
      {
        // compare this address with the stored addresses in our global array
        // static_cast is OK here, since we're only ever going to have this subclass in g_wiimotes
        // on Linux (and likewise, only WiimoteWindows on Windows, etc)
        auto connected_wiimote = static_cast<WiimoteLinux*>(g_wiimotes[j]);
        if (connected_wiimote && bacmp(&scan_infos[i].bdaddr, &connected_wiimote->Address()) == 0)
          new_wiimote = false;
      }

      if (new_wiimote)
      {
        // Found a new device
        char bdaddr_str[18] = {};
        ba2str(&scan_infos[i].bdaddr, bdaddr_str);

        Wiimote* wm = new WiimoteLinux(scan_infos[i].bdaddr);
        if (IsBalanceBoardName(name))
        {
          found_board = wm;
          NOTICE_LOG(WIIMOTE, "Found balance board (%s).", bdaddr_str);
        }
        else
        {
          found_wiimotes.push_back(wm);
          NOTICE_LOG(WIIMOTE, "Found Wiimote (%s).", bdaddr_str);
        }
      }
    }
  }
}
Пример #3
0
// Connect to a Wiimote with a known device path.
bool WiimoteWindows::ConnectInternal()
{
	if (IsConnected())
		return false;

#ifdef SHARE_WRITE_WIIMOTES
	std::lock_guard<std::mutex> lk(g_connected_wiimotes_lock);
	if (g_connected_wiimotes.count(m_devicepath) != 0)
		return false;

	auto const open_flags = FILE_SHARE_READ | FILE_SHARE_WRITE;
#else
	// Having no FILE_SHARE_WRITE disallows us from connecting to the same Wiimote twice.
	// (And disallows using Wiimotes in use by other programs)
	// This is what "WiiYourself" does.
	// Apparently this doesn't work for everyone. It might be their fault.
	auto const open_flags = FILE_SHARE_READ;
#endif

	m_dev_handle = CreateFile(m_devicepath.c_str(),
		GENERIC_READ | GENERIC_WRITE, open_flags,
		nullptr, OPEN_EXISTING, FILE_FLAG_OVERLAPPED, nullptr);

	if (m_dev_handle == INVALID_HANDLE_VALUE)
	{
		m_dev_handle = 0;
		return false;
	}

#if 0
	TCHAR name[128] = {};
	pHidD_GetProductString(dev_handle, name, 128);

	//ERROR_LOG(WIIMOTE, "Product string: %s", TStrToUTF8(name).c_str());

	if (!IsValidBluetoothName(TStrToUTF8(name)))
	{
		CloseHandle(dev_handle);
		dev_handle = 0;
		return false;
	}
#endif

#if 0
	HIDD_ATTRIBUTES attr;
	attr.Size = sizeof(attr);
	if (!pHidD_GetAttributes(dev_handle, &attr))
	{
		CloseHandle(dev_handle);
		dev_handle = 0;
		return false;
	}
#endif

	// TODO: thread isn't started here now, do this elsewhere
	// This isn't as drastic as it sounds, since the process in which the threads
	// reside is normal priority. Needed for keeping audio reports at a decent rate
/*
	if (!SetThreadPriority(m_wiimote_thread.native_handle(), THREAD_PRIORITY_TIME_CRITICAL))
	{
		ERROR_LOG(WIIMOTE, "Failed to set Wiimote thread priority");
	}
*/
#ifdef SHARE_WRITE_WIIMOTES
	g_connected_wiimotes.insert(m_devicepath);
#endif

	return true;
}
Пример #4
0
void ProcessWiimotes(bool new_scan, T& callback)
{
	BLUETOOTH_DEVICE_SEARCH_PARAMS srch;
	srch.dwSize = sizeof(srch);
	srch.fReturnAuthenticated = true;
	srch.fReturnRemembered = true;
	// Does not filter properly somehow, so we need to do an additional check on
	// fConnected BT Devices
	srch.fReturnConnected = true;
	srch.fReturnUnknown = true;
	srch.fIssueInquiry = new_scan;
	// multiple of 1.28 seconds
	srch.cTimeoutMultiplier = 2;

	BLUETOOTH_FIND_RADIO_PARAMS radioParam;
	radioParam.dwSize = sizeof(radioParam);

	HANDLE hRadio;

	// TODO: save radio(s) in the WiimoteScanner constructor?

	// Enumerate BT radios
	HBLUETOOTH_RADIO_FIND hFindRadio = pBluetoothFindFirstRadio(&radioParam, &hRadio);
	while (hFindRadio)
	{
		BLUETOOTH_RADIO_INFO radioInfo;
		radioInfo.dwSize = sizeof(radioInfo);

		auto const rinfo_result = pBluetoothGetRadioInfo(hRadio, &radioInfo);
		if (ERROR_SUCCESS == rinfo_result)
		{
			srch.hRadio = hRadio;

			BLUETOOTH_DEVICE_INFO btdi;
			btdi.dwSize = sizeof(btdi);

			// Enumerate BT devices
			HBLUETOOTH_DEVICE_FIND hFindDevice = pBluetoothFindFirstDevice(&srch, &btdi);
			while (hFindDevice)
			{
				// btdi.szName is sometimes missing it's content - it's a bt feature..
				DEBUG_LOG(WIIMOTE, "Authenticated %i connected %i remembered %i ",
				          btdi.fAuthenticated, btdi.fConnected, btdi.fRemembered);

				if (IsValidBluetoothName(UTF16ToUTF8(btdi.szName)))
				{
					callback(hRadio, radioInfo, btdi);
				}

				if (false == pBluetoothFindNextDevice(hFindDevice, &btdi))
				{
					pBluetoothFindDeviceClose(hFindDevice);
					hFindDevice = nullptr;
				}
			}
		}

		if (false == pBluetoothFindNextRadio(hFindRadio, &hRadio))
		{
			pBluetoothFindRadioClose(hFindRadio);
			hFindRadio = nullptr;
		}
	}
}
Пример #5
0
void WiimoteScanner::FindWiimotes(std::vector<Wiimote*>& found_wiimotes, Wiimote*& found_board)
{
  // supposedly 1.28 seconds
  int const wait_len = 1;

  int const max_infos = 255;
  inquiry_info scan_infos[max_infos] = {};
  auto* scan_infos_ptr = scan_infos;
  found_board = nullptr;

  // Scan for Bluetooth devices
  int const found_devices =
      hci_inquiry(device_id, wait_len, max_infos, nullptr, &scan_infos_ptr, IREQ_CACHE_FLUSH);
  if (found_devices < 0)
  {
    ERROR_LOG(WIIMOTE, "Error searching for Bluetooth devices.");
    return;
  }

  DEBUG_LOG(WIIMOTE, "Found %i Bluetooth device(s).", found_devices);

  // Display discovered devices
  for (int i = 0; i < found_devices; ++i)
  {
    ERROR_LOG(WIIMOTE, "found a device...");

    // BT names are a maximum of 248 bytes apparently
    char name[255] = {};
    if (hci_read_remote_name(device_sock, &scan_infos[i].bdaddr, sizeof(name), name, 1000) < 0)
    {
      ERROR_LOG(WIIMOTE, "name request failed");
      continue;
    }

    ERROR_LOG(WIIMOTE, "device name %s", name);
    if (IsValidBluetoothName(name))
    {
      bool new_wiimote = true;

      // TODO: do this

      // Determine if this Wiimote has already been found.
      // for (int j = 0; j < MAX_WIIMOTES && new_wiimote; ++j)
      //{
      //	if (wm[j] && bacmp(&scan_infos[i].bdaddr,&wm[j]->bdaddr) == 0)
      //		new_wiimote = false;
      //}

      if (new_wiimote)
      {
        // Found a new device
        char bdaddr_str[18] = {};
        ba2str(&scan_infos[i].bdaddr, bdaddr_str);

        Wiimote* wm = new WiimoteLinux(scan_infos[i].bdaddr);
        if (IsBalanceBoardName(name))
        {
          found_board = wm;
          NOTICE_LOG(WIIMOTE, "Found balance board (%s).", bdaddr_str);
        }
        else
        {
          found_wiimotes.push_back(wm);
          NOTICE_LOG(WIIMOTE, "Found Wiimote (%s).", bdaddr_str);
        }
      }
    }
  }
}