Пример #1
0
    def open(self, vid, pid):
        retval = False

        # Stores an enumeration of all the connected USB HID devices
        #en = Enumeration(vid=vid, pid=pid)
        en = Enumeration()
        # for d in en.find():
        #     print(d.description())

        # return a list of devices based on the search parameters
        devices = en.find(vid=vid, pid=pid, interface=0)
        if not devices:
            Logger.debug("RawHID: No matching device found")
            return None

        if len(devices) > 1:
            Logger.debug(
                "RawHID: more than one device found: {}".format(devices))
            return None

        # open the device
        self.hid = devices[0]
        self.hid.open()

        Logger.debug("RawHID: Opened: {}".format(self.hid.description()))

        return True
Пример #2
0
    def __init__(self):

        en = Enumeration()
        devices = en.find(vid=1155, pid=22352, serial="EMLTEC0003A1")

        for dev in devices:
            print(dev.serial_number)

        if len(devices) == 0:
            raise Exception("unable to find the board.")
            
        self.dev = devices[0]
        self.dev.open()
Пример #3
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def list_devices():
    """Return a list of the supported devices connected

    Returns:
        A list of string names of the devices supported which were found. Empty if no supported devices found
    """
    devices = []
    hid = Enumeration()
    all_hids = hid.find()

    if all_hids:
        for index, device in enumerate(all_hids):
            for device_name, spec in device_specs.items():
                if (device.vendor_id == spec.hid_id[0]
                        and device.product_id == spec.hid_id[1]):
                    devices.append(device_name)
    return devices
Пример #4
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 def writeReport(self, value):
     # 现在都放到这里来做。打开、写入、关闭。
     # 不要一次打开,多次写入。这样在有设备拔插的时候,健壮性很差。
     try:
         en = Enumeration()
         devices = en.find(vid=VENDOR_ID, pid=PRODUCT_ID)
         dev = devices[0]
         dev.open()
         write_data = bytearray(60)
         write_data[0] = value
         len = dev.send_feature_report(write_data, report_id=0x24)
         # len = dev.write(write_data)
         # print("write len:", len)
         time.sleep(0.05)
         dev.close()
     except:
         print("写入HID数据失败")
         raise
Пример #5
0
    def connectKeyboard(self):
        connected = Enumeration()
        devices = connected.find(product=self.KEYBOARD_NAME,
                                 interface=self.KEYBOARD_INTERFACE)
        if len(devices) == 0:
            raise RuntimeError(
                "Unable to find keyboard with product_id=%s and interface_id=%d"
                % (self.KEYBOARD_NAME, self.KEYBOARD_INTERFACE))
        self.keyboard_ = devices[0]
        self.keyboard_.open()
        print('Keyboard connection established')

        # On the initial connection write our special sequence
        # 1st byte - 1 to indicate a new connection
        # 2nd byte - number of screens available to the keyboard
        self.keyboard_.write(bytearray([1, len(self.screens_)]))
        print('Sent connection string')
        time.sleep(1)
Пример #6
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        print("\tBattery: ")
        print("\t\t(percent)\t"+str(battery_status_int)+" %")
        print("\tGrip Button: ")
        print("\t\t(click)\t"+str(grip_btn))
        print("\tMenu Button: ")
        print("\t\t(click)\t"+str(menu_click))

def lsb_shift_hex_to_int(lsbstring):
    return int(lsbstring[2:4]+lsbstring[0:2],16)


# Stores an enumeration of all the connected USB HID devices
en = Enumeration()

# return a list of devices based on the search parameters
vive_wands = en.find(vid=0x28de, pid=0x2012, interface=2)
vive_wand_0 = False
vive_wand_1 = False

if len(vive_wands) == 1:
    vive_wand_0 = vive_wands[0]
if len(vive_wands) == 2:
    vive_wand_1 = vive_wands[1]


if len(vive_wands) > 0:
    if vive_wand_0:
        vive_wand_0.open()
    if vive_wand_1:
        vive_wand_1.open()
Пример #7
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        # Blank screen on shutdown
        dev.send_feature_report(bytearray([0x61] + [0x00] * 641))
        dev.close()
        print("\n")
        sys.exit(0)
    except:
        sys.exit(0)


# Set up ctrl-c handler
signal.signal(signal.SIGINT, signal_handler)

# Stores an enumeration of all the connected USB HID devices
en = Enumeration()
# Return a list of devices based on the search parameters / Hardcoded to Apex 7
devices = en.find(vid=0x1038, pid=0x1612, interface=1)
if not devices:
    devices = en.find(vid=0x1038, pid=0x1618, interface=1)
if not devices:
    print("No devices found, exiting.")
    sys.exit(0)

# Use first device found with vid/pid
dev = devices[0]

print("Press Ctrl-C to exit.\n")
dev.open()

while (1):
    img = Image.new("RGB", (128, 40), color=(73, 109, 137))
    fnt = ImageFont.truetype(fontPath)
Пример #8
0
#         serial = ffi.new("wchar_t[]", serial)
#     dev = hidapi.hid_open(vendor_id, product_id, serial)
#     if dev:
#         return Device(dev)
#     else:
#         None

if __name__ == "__main__":
    # Examples
    from easyhid import Enumeration

    # Stores an enumertion of all the connected USB HID devices
    en = Enumeration()

    # return a list of devices based on the search parameters
    devices = en.find(manufacturer="Company", product="Widget", interface=3)

    # print a description of the devices found
    for dev in devices:
        print(dev.description())

    # open a device
    dev.open()

    # write some bytes to the device
    dev.write(bytearray([0, 1, 2, 3]))

    # read some bytes
    print(dev.read())

    # close a device
Пример #9
0
        elif mam_pad == bytearray(b'\x00'):
            mam = 'N'
            pad = 'O'
        elif mam_pad == bytearray(b'\x02'):
            mam = 'O'
            pad = 'O'
        pulse = int(str(reponse[i * 32 + 48:i * 32 + 51], 'utf-8'), 16)
        dia = int(int(str(reponse[i * 32 + 51:i * 32 + 54], 'utf-8'), 16) / 4)
        syst = int(str(reponse[i * 32 + 54:i * 32 + 56], 'utf-8'), 16)
        map = int(dia + (syst - dia) / 3)
        print('{} {} {} {} {} {} {} ""'.format(date, pulse, dia, syst, map,
                                               mam, pad))


en = Enumeration()
devices = en.find(vid=0x04b4, pid=0x5500)
if len(devices) != 1:
    print(u'Dispositif non détecté: absent, panne...')
    sys.exit()

dev = devices[0]
dev.open()

try:
    opts, args = getopt.getopt(sys.argv[1:], "rdtngs:")
except getopt.GetoptError as err:
    sys.stderr.write(usage)
    sys.exit(1)

if len(sys.argv) == 1 or len(sys.argv) > 3:
    sys.stderr.write(usage)
Пример #10
0
latestVersion = requests.get(
    "https://api.github.com/repos/KarlHlmgrn/crypto-oled/releases/latest")
if latestVersion.status_code == 200:
    latestVersionJSON = latestVersion.json()
    if ("v" + str(version)) != latestVersionJSON["tag_name"]:
        print(
            "\nThere is a new version of crypto-oled available, get it at https://github.com/KarlHlmgrn/crypto-oled/releases/tag/"
            + str(latestVersionJSON["tag_name"]) + "\n")
    else:
        print("You are running the latest version of crypto-oled!")

signal.signal(signal.SIGINT, signal_handler)

en = Enumeration()

devices = en.find(product="SteelSeries Apex Pro", interface=1)
if not devices:
    devices = en.find(product="SteelSeries Apex Pro TKL", interface=1)
if not devices:
    devices = en.find(product="SteelSeries Apex 7", interface=1)
if not devices:
    devices = en.find(product="SteelSeries Apex 7 TKL", interface=1)
if not devices:
    devices = en.find(product="SteelSeries Apex 5", interface=1)
if not devices:
    print("No devices found, exiting.")
    sys.exit(0)

dev = devices[0]

print("Press Ctrl-C to exit.\n")
Пример #11
0
def open(callback: Callable[[object], None] = None,
         dof_callback: Callable[[object], None] = None,
         dof_callback_arr: List[DofCallback] = None,
         button_callback: Callable[[object, list], None] = None,
         button_callback_arr: List[ButtonCallback] = None,
         set_nonblocking_loop=True,
         device: str = None,
         DeviceNumber=0) -> Union[None, DeviceSpec]:
    """
    Open a 3D space navigator device. Makes this device the current active device, which enables the module-level read() and close()
    calls. For multiple devices, use the read() and close() calls on the returned object instead, and don't use the module-level calls.

    Parameters:
        callback: If callback is provided, it is called only on DoF state changes with a copy of the current state tuple.
        dof_callback: If dof_callback is provided, it is called only on DOF state changes with the argument (state).
        dof_callback_arr: If dof_callback_arr is provided, it is called only on DOF state changes with the argument (state, axis).
        button_callback: If button_callback is provided, it is called only on button state changes with the argument (state, buttons).
        button_callback_arr: If button_callbacks_arr is provided, it is called only on specific button state true with the argument (state, buttons, pressed_buttons).
        set_nonblocking_loop: Disable waiting for input from SpaceMouse. It is required for using callbacks
        device: name of device to open. Must be one of the values in supported_devices. If None, chooses the first supported device found.
        DeviceNumber: use the first (DeviceNumber=0) device you find. (for universal wireless receiver)
    Returns:
        Device object if the device was opened successfully
        None if the device could not be opened
    """
    # only used if the module-level functions are used
    global _active_device

    # if no device name specified, look for any matching device and choose the first
    if device == None:
        all_devices = list_devices()
        if len(all_devices) > 0:
            device = all_devices[0]
        else:
            raise Exception("No device connected/supported!")

    found_devices = []
    hid = Enumeration()
    all_hids = hid.find()
    if all_hids:
        for index, dev in enumerate(all_hids):
            spec = device_specs[device]
            if dev.vendor_id == spec.hid_id[
                    0] and dev.product_id == spec.hid_id[1]:
                found_devices.append({"Spec": spec, "HIDDevice": dev})
                print("%s found" % device)

    else:
        print("No HID devices detected")
        return None

    if len(found_devices) == 0:
        print("No supported devices found")
        return None
    else:
        if len(found_devices) <= DeviceNumber:
            DeviceNumber = 0

        if len(found_devices) > DeviceNumber:
            # Check that the input configuration has the correct components
            # Raise an exception if it encounters incorrect component.
            check_config(callback, dof_callback, dof_callback_arr,
                         button_callback, button_callback_arr)
            # create a copy of the device specification
            spec = found_devices[DeviceNumber]["Spec"]
            dev = found_devices[DeviceNumber]["HIDDevice"]
            new_device = copy.deepcopy(spec)
            new_device.device = dev

            # set the callbacks
            new_device.callback = callback
            new_device.dof_callback = dof_callback
            new_device.dof_callback_arr = dof_callback_arr
            new_device.button_callback = button_callback
            new_device.button_callback_arr = button_callback_arr
            # open the device
            new_device.open()
            # set nonblocking/blocking mode
            new_device.set_nonblocking_loop = set_nonblocking_loop
            dev.set_nonblocking(set_nonblocking_loop)

            _active_device = new_device
            return new_device

    print("Unknown error occured.")
    return None
Пример #12
0
class Keeb(object):
    def __init__(self):
        self._MCU_ADRESS = 65
        self._SERVICE_DATA = [0, 123, 16, self._MCU_ADRESS]
        self._STATIC_MESSAGE = [0, 0, 125]
        self._COMMAND_INFO = [32, 3, 255]
        self._PIDS = [0x8008, 0x8009, 0xa292, 0xa293]
        self._VID = 0x04d9
        self._en = Enumeration()
        self._keeb = None
        _d = self._detect()
        if _d[0] == 1:
            print(_d[1])
            exit()
        else:
            print(_d[1])

    def _detect(self):
        for pid in self._PIDS:
            try:
                devices = self._en.find(vid=self._VID, pid=pid, interface=1)
                self._keeb = devices[0]

                info = (
                    f'\nDevice manufacturer: {self._keeb.manufacturer_string}'
                    f'\n\nProduct: {self._keeb.product_string}\n'
                    f'\nSerial Number: {self._keeb.serial_number}\n')

                return [0, info]
            except:
                pass
        return [1, "\nNo AnnePro2 keeb found\n"]

    def set_all(self, r: int, g: int, b: int):
        """
        Sets all keys to one same color.

        It expects 3 positional arguments to a RGB color.

        Example : set_all(255,255,255)
        """
        try:
            rgb = [r, g, b]
            message = self._SERVICE_DATA + \
                [16] + [7] + self._STATIC_MESSAGE + \
                self._COMMAND_INFO + [1] + rgb
            self._keeb.open()
            self._keeb.write(message)
            self._keeb.close()
        except:
            print(self._warning("ERROR: Verify your RGB format\n"))

    def _generate_multi_color(self, arrayOfRgbValues: list):
        hid_command = []
        real_command_info_length = len(self._COMMAND_INFO) + 1
        maxMessageLength = 55 - real_command_info_length
        messagesToSendAmount = math.ceil(
            len(arrayOfRgbValues) / maxMessageLength)
        val_1 = len(arrayOfRgbValues) % maxMessageLength
        val_2 = maxMessageLength if val_1 == 0 else val_1
        arrayOfRgbValuesCopy = arrayOfRgbValues.copy()
        for i in range(0, messagesToSendAmount):
            rgb = arrayOfRgbValuesCopy[:maxMessageLength]
            arrayOfRgbValuesCopy = arrayOfRgbValuesCopy[maxMessageLength:]
            e = (messagesToSendAmount << 4) + i
            a = (val_2 + real_command_info_length) if messagesToSendAmount - \
                1 == i else (maxMessageLength + real_command_info_length)
            message = self._SERVICE_DATA + \
                [e] + [a] + self._STATIC_MESSAGE + self._COMMAND_INFO + \
                [2] + rgb
            hid_command.append(message)
        return hid_command

    def set_multi(self, rgb: list):
        """
        Receives a bi-dimensional array of sequencial RGB values
        corresponding to keys left to right.

        Example: set_multi([  [255,0,0], [0,100,0], ... [100,100,100] ])
        The fisrt item being ESC key, second being 1 key, last being right control key.
        """

        black = [0, 0, 0]
        rgb_matrix = []
        for key in ANNE_LAYOUT:
            if ANNE_LAYOUT.get(key) is None:
                rgb_matrix += black
            else:
                try:
                    rgb_matrix += rgb[ANNE_LAYOUT.get(key)]
                except:
                    rgb_matrix += black

        hid_command = self._generate_multi_color(rgb_matrix)
        self._keeb.open()
        for command in hid_command:
            self._keeb.write(command)
            sleep(0.05)
        self._keeb.close()

    def _warning(self, str):
        return '\033[91m' + str + '\033[0m'