# -*- python-mode -*- # -*- coding: UTF-8 -*- ## Copyright (C) 2012-2013 Daniel Pavel ## ## This program is free software; you can redistribute it and/or modify ## it under the terms of the GNU General Public License as published by ## the Free Software Foundation; either version 2 of the License, or ## (at your option) any later version. ## ## This program is distributed in the hope that it will be useful, ## but WITHOUT ANY WARRANTY; without even the implied warranty of ## MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the ## GNU General Public License for more details. ## ## You should have received a copy of the GNU General Public License along ## with this program; if not, write to the Free Software Foundation, Inc., ## 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA. """Generic Human Interface Device API. It is currently a partial pure-Python implementation of the native HID API implemented by signal11 (https://github.com/signal11/hidapi), and requires ``pyudev``. The docstrings are mostly copied from the hidapi API header, with changes where necessary. """ from __future__ import absolute_import, division, print_function, unicode_literals import errno as _errno import os as _os # the tuple object we'll expose when enumerating devices from collections import namedtuple from select import select as _select from time import sleep from pyudev import Context as _Context from pyudev import Device as _Device from pyudev import DeviceNotFoundError from pyudev import Monitor as _Monitor native_implementation = 'udev' DeviceInfo = namedtuple( 'DeviceInfo', [ 'path', 'vendor_id', 'product_id', 'serial', 'release', 'manufacturer', 'product', 'interface', 'driver', ] ) del namedtuple # # exposed API # docstrings mostly copied from hidapi.h # def init(): """This function is a no-op, and exists only to match the native hidapi implementation. :returns: ``True``. """ return True def exit(): """This function is a no-op, and exists only to match the native hidapi implementation. :returns: ``True``. """ return True # The filter is used to determine whether this is a device of interest to Solaar def _match(action, device, filter): vendor_id = filter.get('vendor_id') product_id = filter.get('product_id') interface_number = filter.get('usb_interface') hid_driver = filter.get('hid_driver') usb_device = device.find_parent('usb', 'usb_device') # print ("* parent", action, device, "usb:", usb_device) if not usb_device: return vid = usb_device.get('ID_VENDOR_ID') pid = usb_device.get('ID_MODEL_ID') if vid is None or pid is None: return # there are reports that sometimes the usb_device isn't set up right so be defensive if not ((vendor_id is None or vendor_id == int(vid, 16)) and (product_id is None or product_id == int(pid, 16))): return if action == 'add': hid_device = device.find_parent('hid') if not hid_device: return hid_driver_name = hid_device.get('DRIVER') # print ("** found hid", action, device, "hid:", hid_device, hid_driver_name) if hid_driver: if isinstance(hid_driver, tuple): if hid_driver_name not in hid_driver: return elif hid_driver_name != hid_driver: return intf_device = device.find_parent('usb', 'usb_interface') # print ("*** usb interface", action, device, "usb_interface:", intf_device) if interface_number is None: usb_interface = None if intf_device is None else intf_device.attributes.asint('bInterfaceNumber') else: usb_interface = None if intf_device is None else intf_device.attributes.asint('bInterfaceNumber') if usb_interface is None or interface_number != usb_interface: return attrs = usb_device.attributes d_info = DeviceInfo( path=device.device_node, vendor_id=vid[-4:], product_id=pid[-4:], serial=hid_device.get('HID_UNIQ'), release=attrs.get('bcdDevice'), manufacturer=attrs.get('manufacturer'), product=attrs.get('product'), interface=usb_interface, driver=hid_driver_name ) return d_info elif action == 'remove': # print (dict(device), dict(usb_device)) d_info = DeviceInfo( path=device.device_node, vendor_id=vid[-4:], product_id=pid[-4:], serial=None, release=None, manufacturer=None, product=None, interface=None, driver=None ) return d_info def monitor_glib(callback, *device_filters): from gi.repository import GLib c = _Context() # already existing devices # for device in c.list_devices(subsystem='hidraw'): # # print (device, dict(device), dict(device.attributes)) # for filter in device_filters: # d_info = _match('add', device, *filter) # if d_info: # GLib.idle_add(callback, 'add', d_info) # break m = _Monitor.from_netlink(c) m.filter_by(subsystem='hidraw') def _process_udev_event(monitor, condition, cb, filters): if condition == GLib.IO_IN: event = monitor.receive_device() if event: action, device = event # print ("***", action, device) if action == 'add': for filter in filters: d_info = _match(action, device, filter) if d_info: GLib.idle_add(cb, action, d_info) break elif action == 'remove': # the GLib notification does _not_ match! pass return True try: # io_add_watch_full may not be available... GLib.io_add_watch_full(m, GLib.PRIORITY_LOW, GLib.IO_IN, _process_udev_event, callback, device_filters) # print ("did io_add_watch_full") except AttributeError: try: # and the priority parameter appeared later in the API GLib.io_add_watch(m, GLib.PRIORITY_LOW, GLib.IO_IN, _process_udev_event, callback, device_filters) # print ("did io_add_watch with priority") except Exception: GLib.io_add_watch(m, GLib.IO_IN, _process_udev_event, callback, device_filters) # print ("did io_add_watch") m.start() def enumerate(usb_id): """Enumerate the HID Devices. List all the HID devices attached to the system, optionally filtering by vendor_id, product_id, and/or interface_number. :returns: a list of matching ``DeviceInfo`` tuples. """ for dev in _Context().list_devices(subsystem='hidraw'): dev_info = _match('add', dev, usb_id) if dev_info: yield dev_info def open(vendor_id, product_id, serial=None): """Open a HID device by its Vendor ID, Product ID and optional serial number. If no serial is provided, the first device with the specified IDs is opened. :returns: an opaque device handle, or ``None``. """ for device in enumerate(vendor_id, product_id): if serial is None or serial == device.serial: return open_path(device.path) def open_path(device_path): """Open a HID device by its path name. :param device_path: the path of a ``DeviceInfo`` tuple returned by enumerate(). :returns: an opaque device handle, or ``None``. """ assert device_path assert device_path.startswith('/dev/hidraw') return _os.open(device_path, _os.O_RDWR | _os.O_SYNC) def close(device_handle): """Close a HID device. :param device_handle: a device handle returned by open() or open_path(). """ assert device_handle _os.close(device_handle) def write(device_handle, data): """Write an Output report to a HID device. :param device_handle: a device handle returned by open() or open_path(). :param data: the data bytes to send including the report number as the first byte. The first byte of data[] must contain the Report ID. For devices which only support a single report, this must be set to 0x0. The remaining bytes contain the report data. Since the Report ID is mandatory, calls to hid_write() will always contain one more byte than the report contains. For example, if a hid report is 16 bytes long, 17 bytes must be passed to hid_write(), the Report ID (or 0x0, for devices with a single report), followed by the report data (16 bytes). In this example, the length passed in would be 17. write() will send the data on the first OUT endpoint, if one exists. If it does not, it will send the data through the Control Endpoint (Endpoint 0). """ assert device_handle assert data assert isinstance(data, bytes), (repr(data), type(data)) retrycount = 0 bytes_written = 0 while (retrycount < 3): try: bytes_written = _os.write(device_handle, data) retrycount += 1 except IOError as e: if e.errno == _errno.EPIPE: sleep(0.1) else: break if bytes_written != len(data): raise IOError(_errno.EIO, 'written %d bytes out of expected %d' % (bytes_written, len(data))) def read(device_handle, bytes_count, timeout_ms=-1): """Read an Input report from a HID device. :param device_handle: a device handle returned by open() or open_path(). :param bytes_count: maximum number of bytes to read. :param timeout_ms: can be -1 (default) to wait for data indefinitely, 0 to read whatever is in the device's input buffer, or a positive integer to wait that many milliseconds. Input reports are returned to the host through the INTERRUPT IN endpoint. The first byte will contain the Report number if the device uses numbered reports. :returns: the data packet read, an empty bytes string if a timeout was reached, or None if there was an error while reading. """ assert device_handle timeout = None if timeout_ms < 0 else timeout_ms / 1000.0 rlist, wlist, xlist = _select([device_handle], [], [device_handle], timeout) if xlist: assert xlist == [device_handle] raise IOError(_errno.EIO, 'exception on file descriptor %d' % device_handle) if rlist: assert rlist == [device_handle] data = _os.read(device_handle, bytes_count) assert data is not None assert isinstance(data, bytes), (repr(data), type(data)) return data else: return b'' _DEVICE_STRINGS = { 0: 'manufacturer', 1: 'product', 2: 'serial', } def get_manufacturer(device_handle): """Get the Manufacturer String from a HID device. :param device_handle: a device handle returned by open() or open_path(). """ return get_indexed_string(device_handle, 0) def get_product(device_handle): """Get the Product String from a HID device. :param device_handle: a device handle returned by open() or open_path(). """ return get_indexed_string(device_handle, 1) def get_serial(device_handle): """Get the serial number from a HID device. :param device_handle: a device handle returned by open() or open_path(). """ serial = get_indexed_string(device_handle, 2) if serial is not None: return ''.join(hex(ord(c)) for c in serial) def get_indexed_string(device_handle, index): """Get a string from a HID device, based on its string index. Note: currently not working in the ``hidraw`` native implementation. :param device_handle: a device handle returned by open() or open_path(). :param index: the index of the string to get. :returns: the value corresponding to index, or None if no value found :rtype: bytes or NoneType """ try: key = _DEVICE_STRINGS[index] except KeyError: return None assert device_handle stat = _os.fstat(device_handle) try: dev = _Device.from_device_number(_Context(), 'char', stat.st_rdev) except (DeviceNotFoundError, ValueError): return None hid_dev = dev.find_parent('hid') if hid_dev: assert 'HID_ID' in hid_dev bus, _ignore, _ignore = hid_dev['HID_ID'].split(':') if bus == '0003': # USB usb_dev = dev.find_parent('usb', 'usb_device') assert usb_dev return usb_dev.attributes.get(key) elif bus == '0005': # BLUETOOTH # TODO pass