661 lines
24 KiB
Python
661 lines
24 KiB
Python
# SPDX-FileCopyrightText: 2014 MicroPython & CircuitPython contributors (https://github.com/adafruit/circuitpython/graphs/contributors)
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#
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# SPDX-License-Identifier: MIT
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import argparse
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import os
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import sys
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sys.path.append("../../tools/usb_descriptor")
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from adafruit_usb_descriptor import audio, audio10, cdc, hid, midi, msc, standard, util
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import hid_report_descriptors
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DEFAULT_INTERFACE_NAME = 'CircuitPython'
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ALL_DEVICES='CDC,MSC,AUDIO,HID'
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ALL_DEVICES_SET=frozenset(ALL_DEVICES.split(','))
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DEFAULT_DEVICES='CDC,MSC,AUDIO,HID'
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ALL_HID_DEVICES='KEYBOARD,MOUSE,CONSUMER,SYS_CONTROL,GAMEPAD,DIGITIZER,XAC_COMPATIBLE_GAMEPAD,RAW'
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ALL_HID_DEVICES_SET=frozenset(ALL_HID_DEVICES.split(','))
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# Digitizer works on Linux but conflicts with mouse, so omit it.
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DEFAULT_HID_DEVICES='KEYBOARD,MOUSE,CONSUMER,GAMEPAD'
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parser = argparse.ArgumentParser(description='Generate USB descriptors.')
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parser.add_argument('--highspeed', default=False, action='store_true',
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help='descriptor for highspeed device')
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parser.add_argument('--manufacturer', type=str,
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help='manufacturer of the device')
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parser.add_argument('--product', type=str,
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help='product name of the device')
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parser.add_argument('--vid', type=lambda x: int(x, 16),
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help='vendor id')
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parser.add_argument('--pid', type=lambda x: int(x, 16),
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help='product id')
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parser.add_argument('--serial_number_length', type=int, default=32,
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help='length needed for the serial number in digits')
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parser.add_argument('--devices', type=lambda l: tuple(l.split(',')), default=DEFAULT_DEVICES,
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help='devices to include in descriptor (AUDIO includes MIDI support)')
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parser.add_argument('--hid_devices', type=lambda l: tuple(l.split(',')), default=DEFAULT_HID_DEVICES,
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help='HID devices to include in HID report descriptor')
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parser.add_argument('--interface_name', type=str,
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help='The name/prefix to use in the interface descriptions',
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default=DEFAULT_INTERFACE_NAME)
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parser.add_argument('--no-renumber_endpoints', dest='renumber_endpoints', action='store_false',
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help='use to not renumber endpoint')
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parser.add_argument('--cdc_ep_num_notification', type=int, default=0,
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help='endpoint number of CDC NOTIFICATION')
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parser.add_argument('--cdc_ep_num_data_out', type=int, default=0,
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help='endpoint number of CDC DATA OUT')
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parser.add_argument('--cdc_ep_num_data_in', type=int, default=0,
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help='endpoint number of CDC DATA IN')
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parser.add_argument('--msc_ep_num_out', type=int, default=0,
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help='endpoint number of MSC OUT')
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parser.add_argument('--msc_ep_num_in', type=int, default=0,
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help='endpoint number of MSC IN')
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parser.add_argument('--hid_ep_num_out', type=int, default=0,
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help='endpoint number of HID OUT')
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parser.add_argument('--hid_ep_num_in', type=int, default=0,
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help='endpoint number of HID IN')
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parser.add_argument('--midi_ep_num_out', type=int, default=0,
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help='endpoint number of MIDI OUT')
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parser.add_argument('--midi_ep_num_in', type=int, default=0,
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help='endpoint number of MIDI IN')
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parser.add_argument('--max_ep', type=int, default=0,
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help='total number of endpoints available')
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parser.add_argument('--output_c_file', type=argparse.FileType('w', encoding='UTF-8'), required=True)
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parser.add_argument('--output_h_file', type=argparse.FileType('w', encoding='UTF-8'), required=True)
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args = parser.parse_args()
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unknown_devices = list(frozenset(args.devices) - ALL_DEVICES_SET)
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if unknown_devices:
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raise ValueError("Unknown device(s)", unknown_devices)
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unknown_hid_devices = list(frozenset(args.hid_devices) - ALL_HID_DEVICES_SET)
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if unknown_hid_devices:
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raise ValueError("Unknown HID devices(s)", unknown_hid_devices)
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if not args.renumber_endpoints:
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if 'CDC' in args.devices:
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if args.cdc_ep_num_notification == 0:
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raise ValueError("CDC notification endpoint number must not be 0")
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elif args.cdc_ep_num_data_out == 0:
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raise ValueError("CDC data OUT endpoint number must not be 0")
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elif args.cdc_ep_num_data_in == 0:
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raise ValueError("CDC data IN endpoint number must not be 0")
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if 'MSC' in args.devices:
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if args.msc_ep_num_out == 0:
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raise ValueError("MSC endpoint OUT number must not be 0")
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elif args.msc_ep_num_in == 0:
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raise ValueError("MSC endpoint IN number must not be 0")
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if 'HID' in args.devices:
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if args.args.hid_ep_num_out == 0:
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raise ValueError("HID endpoint OUT number must not be 0")
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elif args.hid_ep_num_in == 0:
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raise ValueError("HID endpoint IN number must not be 0")
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if 'AUDIO' in args.devices:
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if args.args.midi_ep_num_out == 0:
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raise ValueError("MIDI endpoint OUT number must not be 0")
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elif args.midi_ep_num_in == 0:
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raise ValueError("MIDI endpoint IN number must not be 0")
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class StringIndex:
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"""Assign a monotonically increasing index to each unique string. Start with 0."""
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string_to_index = {}
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index_to_variable = {}
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strings = []
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@classmethod
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def index(cls, string, *, variable_name = None):
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if string in cls.string_to_index:
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idx = cls.string_to_index[string]
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if not cls.index_to_variable[idx]:
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cls.index_to_variable[idx] = variable_name
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return idx
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else:
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idx = len(cls.strings)
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cls.string_to_index[string] = idx
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cls.strings.append(string)
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cls.index_to_variable[idx] = variable_name
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return idx
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@classmethod
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def strings_in_order(cls):
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return cls.strings
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# langid must be the 0th string descriptor
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LANGID_INDEX = StringIndex.index("\u0409", variable_name="language_id")
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assert LANGID_INDEX == 0
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SERIAL_NUMBER_INDEX = StringIndex.index("S" * args.serial_number_length, variable_name="usb_serial_number")
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device = standard.DeviceDescriptor(
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description="top",
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idVendor=args.vid,
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idProduct=args.pid,
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iManufacturer=StringIndex.index(args.manufacturer),
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iProduct=StringIndex.index(args.product),
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iSerialNumber=SERIAL_NUMBER_INDEX)
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# Interface numbers are interface-set local and endpoints are interface local
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# until util.join_interfaces renumbers them.
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cdc_union = cdc.Union(
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description="CDC comm",
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bMasterInterface=0x00, # Adjust this after interfaces are renumbered.
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bSlaveInterface_list=[0x01]) # Adjust this after interfaces are renumbered.
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cdc_call_management = cdc.CallManagement(
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description="CDC comm",
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bmCapabilities=0x01,
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bDataInterface=0x01) # Adjust this after interfaces are renumbered.
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cdc_comm_interface = standard.InterfaceDescriptor(
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description="CDC comm",
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bInterfaceClass=cdc.CDC_CLASS_COMM, # Communications Device Class
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bInterfaceSubClass=cdc.CDC_SUBCLASS_ACM, # Abstract control model
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bInterfaceProtocol=cdc.CDC_PROTOCOL_NONE,
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iInterface=StringIndex.index("{} CDC control".format(args.interface_name)),
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subdescriptors=[
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cdc.Header(
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description="CDC comm",
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bcdCDC=0x0110),
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cdc_call_management,
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cdc.AbstractControlManagement(
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description="CDC comm",
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bmCapabilities=0x02),
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cdc_union,
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standard.EndpointDescriptor(
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description="CDC comm in",
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bEndpointAddress=args.cdc_ep_num_notification | standard.EndpointDescriptor.DIRECTION_IN,
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bmAttributes=standard.EndpointDescriptor.TYPE_INTERRUPT,
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wMaxPacketSize=0x0040,
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bInterval=0x10)
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])
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cdc_data_interface = standard.InterfaceDescriptor(
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description="CDC data",
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bInterfaceClass=cdc.CDC_CLASS_DATA,
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iInterface=StringIndex.index("{} CDC data".format(args.interface_name)),
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subdescriptors=[
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standard.EndpointDescriptor(
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description="CDC data out",
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bEndpointAddress=args.cdc_ep_num_data_out | standard.EndpointDescriptor.DIRECTION_OUT,
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bmAttributes=standard.EndpointDescriptor.TYPE_BULK,
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bInterval=0,
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wMaxPacketSize=512 if args.highspeed else 64),
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standard.EndpointDescriptor(
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description="CDC data in",
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bEndpointAddress=args.cdc_ep_num_data_in | standard.EndpointDescriptor.DIRECTION_IN,
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bmAttributes=standard.EndpointDescriptor.TYPE_BULK,
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bInterval=0,
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wMaxPacketSize=512 if args.highspeed else 64),
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])
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cdc_interfaces = [cdc_comm_interface, cdc_data_interface]
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msc_interfaces = [
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standard.InterfaceDescriptor(
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description="MSC",
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bInterfaceClass=msc.MSC_CLASS,
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bInterfaceSubClass=msc.MSC_SUBCLASS_TRANSPARENT,
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bInterfaceProtocol=msc.MSC_PROTOCOL_BULK,
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iInterface=StringIndex.index("{} Mass Storage".format(args.interface_name)),
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subdescriptors=[
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standard.EndpointDescriptor(
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description="MSC in",
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bEndpointAddress=args.msc_ep_num_in | standard.EndpointDescriptor.DIRECTION_IN,
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bmAttributes=standard.EndpointDescriptor.TYPE_BULK,
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bInterval=0,
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wMaxPacketSize=512 if args.highspeed else 64),
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standard.EndpointDescriptor(
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description="MSC out",
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bEndpointAddress=(args.msc_ep_num_out | standard.EndpointDescriptor.DIRECTION_OUT),
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bmAttributes=standard.EndpointDescriptor.TYPE_BULK,
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bInterval=0,
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wMaxPacketSize=512 if args.highspeed else 64),
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]
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)
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]
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# When there's only one hid_device, it shouldn't have a report id.
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# Otherwise, report ids are assigned sequentially:
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# args.hid_devices[0] has report_id 1
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# args.hid_devices[1] has report_id 2
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# etc.
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report_ids = {}
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if len(args.hid_devices) == 1:
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name = args.hid_devices[0]
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combined_hid_report_descriptor = hid.ReportDescriptor(
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description=name,
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report_descriptor=bytes(hid_report_descriptors.REPORT_DESCRIPTOR_FUNCTIONS[name](0)))
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report_ids[name] = 0
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else:
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report_id = 1
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concatenated_descriptors = bytearray()
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for name in args.hid_devices:
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concatenated_descriptors.extend(
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bytes(hid_report_descriptors.REPORT_DESCRIPTOR_FUNCTIONS[name](report_id)))
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report_ids[name] = report_id
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report_id += 1
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combined_hid_report_descriptor = hid.ReportDescriptor(
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description="MULTIDEVICE",
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report_descriptor=bytes(concatenated_descriptors))
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# ASF4 expects keyboard and generic devices to have both in and out endpoints,
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# and will fail (possibly silently) if both are not supplied.
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hid_endpoint_in_descriptor = standard.EndpointDescriptor(
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description="HID in",
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bEndpointAddress=args.hid_ep_num_in | standard.EndpointDescriptor.DIRECTION_IN,
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bmAttributes=standard.EndpointDescriptor.TYPE_INTERRUPT,
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bInterval=8)
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hid_endpoint_out_descriptor = standard.EndpointDescriptor(
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description="HID out",
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bEndpointAddress=args.hid_ep_num_out | standard.EndpointDescriptor.DIRECTION_OUT,
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bmAttributes=standard.EndpointDescriptor.TYPE_INTERRUPT,
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bInterval=8)
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hid_interfaces = [
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standard.InterfaceDescriptor(
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description="HID Multiple Devices",
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bInterfaceClass=hid.HID_CLASS,
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bInterfaceSubClass=hid.HID_SUBCLASS_NOBOOT,
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bInterfaceProtocol=hid.HID_PROTOCOL_NONE,
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iInterface=StringIndex.index("{} HID".format(args.interface_name)),
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subdescriptors=[
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hid.HIDDescriptor(
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description="HID",
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wDescriptorLength=len(bytes(combined_hid_report_descriptor))),
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hid_endpoint_in_descriptor,
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hid_endpoint_out_descriptor,
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]
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),
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]
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# Audio!
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# In and out here are relative to CircuitPython
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# USB OUT -> midi_in_jack_emb -> midi_out_jack_ext -> CircuitPython
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midi_in_jack_emb = midi.InJackDescriptor(
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description="MIDI PC -> {}".format(args.interface_name),
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bJackType=midi.JACK_TYPE_EMBEDDED,
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iJack=StringIndex.index("{} usb_midi.ports[0]".format(args.interface_name)))
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midi_out_jack_ext = midi.OutJackDescriptor(
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description="MIDI data out to user code.",
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bJackType=midi.JACK_TYPE_EXTERNAL,
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input_pins=[(midi_in_jack_emb, 1)],
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iJack=0)
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# USB IN <- midi_out_jack_emb <- midi_in_jack_ext <- CircuitPython
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midi_in_jack_ext = midi.InJackDescriptor(
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description="MIDI data in from user code.",
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bJackType=midi.JACK_TYPE_EXTERNAL,
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iJack=0)
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midi_out_jack_emb = midi.OutJackDescriptor(
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description="MIDI PC <- {}".format(args.interface_name),
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bJackType=midi.JACK_TYPE_EMBEDDED,
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input_pins=[(midi_in_jack_ext, 1)],
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iJack=StringIndex.index("{} usb_midi.ports[1]".format(args.interface_name)))
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audio_midi_interface = standard.InterfaceDescriptor(
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description="Midi goodness",
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bInterfaceClass=audio.AUDIO_CLASS_DEVICE,
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bInterfaceSubClass=audio.AUDIO_SUBCLASS_MIDI_STREAMING,
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bInterfaceProtocol=audio.AUDIO_PROTOCOL_V1,
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iInterface=StringIndex.index("{} MIDI".format(args.interface_name)),
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subdescriptors=[
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midi.Header(
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jacks_and_elements=[
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midi_in_jack_emb,
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midi_in_jack_ext,
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midi_out_jack_emb,
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midi_out_jack_ext
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],
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),
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standard.EndpointDescriptor(
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description="MIDI data out to {}".format(args.interface_name),
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bEndpointAddress=args.midi_ep_num_out | standard.EndpointDescriptor.DIRECTION_OUT,
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bmAttributes=standard.EndpointDescriptor.TYPE_BULK,
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bInterval=0,
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wMaxPacketSize=512 if args.highspeed else 64),
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midi.DataEndpointDescriptor(baAssocJack=[midi_in_jack_emb]),
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standard.EndpointDescriptor(
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description="MIDI data in from {}".format(args.interface_name),
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bEndpointAddress=args.midi_ep_num_in | standard.EndpointDescriptor.DIRECTION_IN,
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bmAttributes=standard.EndpointDescriptor.TYPE_BULK,
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bInterval = 0x0,
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wMaxPacketSize=512 if args.highspeed else 64),
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midi.DataEndpointDescriptor(baAssocJack=[midi_out_jack_emb]),
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])
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cs_ac_interface = audio10.AudioControlInterface(
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description="Empty audio control",
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audio_streaming_interfaces = [],
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midi_streaming_interfaces = [
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audio_midi_interface
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]
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)
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audio_control_interface = standard.InterfaceDescriptor(
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description="All the audio",
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bInterfaceClass=audio.AUDIO_CLASS_DEVICE,
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bInterfaceSubClass=audio.AUDIO_SUBCLASS_CONTROL,
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bInterfaceProtocol=audio.AUDIO_PROTOCOL_V1,
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iInterface=StringIndex.index("{} Audio".format(args.interface_name)),
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subdescriptors=[
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cs_ac_interface,
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])
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# Audio streaming interfaces must occur before MIDI ones.
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audio_interfaces = [audio_control_interface] + cs_ac_interface.audio_streaming_interfaces + cs_ac_interface.midi_streaming_interfaces
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interfaces_to_join = []
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if 'CDC' in args.devices:
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interfaces_to_join.append(cdc_interfaces)
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if 'MSC' in args.devices:
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interfaces_to_join.append(msc_interfaces)
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if 'HID' in args.devices:
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interfaces_to_join.append(hid_interfaces)
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if 'AUDIO' in args.devices:
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interfaces_to_join.append(audio_interfaces)
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# util.join_interfaces() will renumber the endpoints to make them unique across descriptors,
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# and renumber the interfaces in order. But we still need to fix up certain
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# interface cross-references.
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interfaces = util.join_interfaces(interfaces_to_join, renumber_endpoints=args.renumber_endpoints)
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if args.max_ep != 0:
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for interface in interfaces:
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for subdescriptor in interface.subdescriptors:
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endpoint_address = getattr(subdescriptor, 'bEndpointAddress', 0) & 0x7f
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if endpoint_address >= args.max_ep:
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raise ValueError("Endpoint address %d of %s must be less than %d" % (endpoint_address & 0x7f, interface.description, args.max_ep))
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else:
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print("Unable to check whether maximum number of endpoints is respected", file=sys.stderr)
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# Now adjust the CDC interface cross-references.
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cdc_union.bMasterInterface = cdc_comm_interface.bInterfaceNumber
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cdc_union.bSlaveInterface_list = [cdc_data_interface.bInterfaceNumber]
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cdc_call_management.bDataInterface = cdc_data_interface.bInterfaceNumber
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cdc_iad = standard.InterfaceAssociationDescriptor(
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description="CDC IAD",
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bFirstInterface=cdc_comm_interface.bInterfaceNumber,
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bInterfaceCount=len(cdc_interfaces),
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bFunctionClass=cdc.CDC_CLASS_COMM, # Communications Device Class
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bFunctionSubClass=cdc.CDC_SUBCLASS_ACM, # Abstract control model
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bFunctionProtocol=cdc.CDC_PROTOCOL_NONE)
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descriptor_list = []
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if 'CDC' in args.devices:
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# Put the CDC IAD just before the CDC interfaces.
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# There appears to be a bug in the Windows composite USB driver that requests the
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# HID report descriptor with the wrong interface number if the HID interface is not given
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# first. However, it still fetches the descriptor anyway. We could reorder the interfaces but
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# the Windows 7 Adafruit_usbser.inf file thinks CDC is at Interface 0, so we'll leave it
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# there for backwards compatibility.
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descriptor_list.append(cdc_iad)
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descriptor_list.extend(cdc_interfaces)
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if 'MSC' in args.devices:
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descriptor_list.extend(msc_interfaces)
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if 'HID' in args.devices:
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descriptor_list.extend(hid_interfaces)
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if 'AUDIO' in args.devices:
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# Only add the control interface because other audio interfaces are managed by it to ensure the
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# correct ordering.
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descriptor_list.append(audio_control_interface)
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# Finally, build the composite descriptor.
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configuration = standard.ConfigurationDescriptor(
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description="Composite configuration",
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wTotalLength=(standard.ConfigurationDescriptor.bLength +
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sum([len(bytes(x)) for x in descriptor_list])),
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bNumInterfaces=len(interfaces))
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descriptor_list.insert(0, configuration)
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string_descriptors = [standard.StringDescriptor(string) for string in StringIndex.strings_in_order()]
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serial_number_descriptor = string_descriptors[SERIAL_NUMBER_INDEX]
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c_file = args.output_c_file
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h_file = args.output_h_file
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c_file.write("""\
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#include <stdint.h>
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#include "py/objtuple.h"
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#include "shared-bindings/usb_hid/Device.h"
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#include "{H_FILE_NAME}"
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""".format(H_FILE_NAME=h_file.name))
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c_file.write("""\
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// {DESCRIPTION} : {CLASS}
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""".format(DESCRIPTION=device.description,
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CLASS=device.__class__))
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c_file.write("""\
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const uint8_t usb_desc_dev[] = {
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""")
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for b in bytes(device):
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c_file.write("0x{:02x}, ".format(b))
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|
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c_file.write("""\
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|
};
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|
""")
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|
|
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c_file.write("""\
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const uint8_t usb_desc_cfg[] = {
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|
""")
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|
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# Write out all the regular descriptors as one long array (that's how ASF4 does it).
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|
descriptor_length = 0
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for descriptor in descriptor_list:
|
|
c_file.write("""\
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|
// {DESCRIPTION} : {CLASS}
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|
""".format(DESCRIPTION=descriptor.description,
|
|
CLASS=descriptor.__class__))
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|
|
|
b = bytes(descriptor)
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|
notes = descriptor.notes()
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|
i = 0
|
|
|
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# This prints each subdescriptor on a separate line.
|
|
n = 0
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|
while i < len(b):
|
|
length = b[i]
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for j in range(length):
|
|
c_file.write("0x{:02x}, ".format(b[i + j]))
|
|
c_file.write("// " + notes[n])
|
|
n += 1
|
|
c_file.write("\n")
|
|
i += length
|
|
descriptor_length += len(b)
|
|
|
|
c_file.write("""\
|
|
};
|
|
""")
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|
|
|
pointers_to_strings = []
|
|
|
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for idx, descriptor in enumerate(string_descriptors):
|
|
c_file.write("""\
|
|
// {DESCRIPTION} : {CLASS}
|
|
""".format(DESCRIPTION=descriptor.description,
|
|
CLASS=descriptor.__class__))
|
|
|
|
b = bytes(descriptor)
|
|
notes = descriptor.notes()
|
|
i = 0
|
|
|
|
# This prints each subdescriptor on a separate line.
|
|
variable_name = StringIndex.index_to_variable[idx]
|
|
if not variable_name:
|
|
variable_name = "string_descriptor{}".format(idx)
|
|
|
|
const = "const "
|
|
if variable_name == "usb_serial_number":
|
|
const = ""
|
|
c_file.write("""\
|
|
{const}uint16_t {NAME}[] = {{
|
|
""".format(const=const, NAME=variable_name))
|
|
pointers_to_strings.append("{name}".format(name=variable_name))
|
|
n = 0
|
|
while i < len(b):
|
|
length = b[i]
|
|
for j in range(length // 2):
|
|
c_file.write("0x{:04x}, ".format(b[i + 2*j + 1] << 8 | b[i + 2*j]))
|
|
n += 1
|
|
c_file.write("\n")
|
|
i += length
|
|
c_file.write("""\
|
|
};
|
|
""")
|
|
|
|
c_file.write("""\
|
|
// array of pointer to string descriptors
|
|
uint16_t const * const string_desc_arr [] =
|
|
{
|
|
""")
|
|
c_file.write(""",\
|
|
|
|
""".join(pointers_to_strings))
|
|
|
|
c_file.write("""
|
|
};
|
|
""")
|
|
|
|
c_file.write("\n")
|
|
|
|
hid_descriptor_length = len(bytes(combined_hid_report_descriptor))
|
|
|
|
# Now we values we need for the .h file.
|
|
h_file.write("""\
|
|
#ifndef MICROPY_INCLUDED_AUTOGEN_USB_DESCRIPTOR_H
|
|
#define MICROPY_INCLUDED_AUTOGEN_USB_DESCRIPTOR_H
|
|
|
|
#include <stdint.h>
|
|
|
|
extern const uint8_t usb_desc_dev[{device_length}];
|
|
extern const uint8_t usb_desc_cfg[{configuration_length}];
|
|
extern uint16_t usb_serial_number[{serial_number_length}];
|
|
extern uint16_t const * const string_desc_arr [{string_descriptor_length}];
|
|
|
|
extern const uint8_t hid_report_descriptor[{hid_report_descriptor_length}];
|
|
|
|
#define CFG_TUSB_RHPORT0_MODE ({rhport0_mode})
|
|
|
|
#define USB_HID_NUM_DEVICES {hid_num_devices}
|
|
|
|
// Vendor name included in Inquiry response, max 8 bytes
|
|
#define CFG_TUD_MSC_VENDOR "{msc_vendor}"
|
|
|
|
// Product name included in Inquiry response, max 16 bytes
|
|
#define CFG_TUD_MSC_PRODUCT "{msc_product}"
|
|
|
|
"""
|
|
.format(serial_number_length=len(bytes(serial_number_descriptor)) // 2,
|
|
device_length=len(bytes(device)),
|
|
configuration_length=descriptor_length,
|
|
max_configuration_length=max(hid_descriptor_length, descriptor_length),
|
|
string_descriptor_length=len(pointers_to_strings),
|
|
hid_report_descriptor_length=len(bytes(combined_hid_report_descriptor)),
|
|
rhport0_mode='OPT_MODE_DEVICE | OPT_MODE_HIGH_SPEED' if args.highspeed else 'OPT_MODE_DEVICE',
|
|
hid_num_devices=len(args.hid_devices),
|
|
msc_vendor=args.manufacturer[:8],
|
|
msc_product=args.product[:16]))
|
|
|
|
# Write out the report descriptor and info
|
|
c_file.write("""\
|
|
const uint8_t hid_report_descriptor[{HID_DESCRIPTOR_LENGTH}] = {{
|
|
""".format(HID_DESCRIPTOR_LENGTH=hid_descriptor_length))
|
|
|
|
for b in bytes(combined_hid_report_descriptor):
|
|
c_file.write("0x{:02x}, ".format(b))
|
|
c_file.write("""\
|
|
};
|
|
|
|
""")
|
|
|
|
# Write out USB HID report buffer definitions.
|
|
for name in args.hid_devices:
|
|
c_file.write("""\
|
|
static uint8_t {name}_report_buffer[{report_length}];
|
|
""".format(name=name.lower(), report_length=hid_report_descriptors.HID_DEVICE_DATA[name].report_length))
|
|
|
|
if hid_report_descriptors.HID_DEVICE_DATA[name].out_report_length > 0:
|
|
c_file.write("""\
|
|
static uint8_t {name}_out_report_buffer[{report_length}];
|
|
""".format(name=name.lower(), report_length=hid_report_descriptors.HID_DEVICE_DATA[name].out_report_length))
|
|
|
|
# Write out table of device objects.
|
|
c_file.write("""
|
|
usb_hid_device_obj_t usb_hid_devices[] = {
|
|
""")
|
|
for name in args.hid_devices:
|
|
device_data = hid_report_descriptors.HID_DEVICE_DATA[name]
|
|
out_report_buffer = '{}_out_report_buffer'.format(name.lower()) if device_data.out_report_length > 0 else 'NULL'
|
|
c_file.write("""\
|
|
{{
|
|
.base = {{ .type = &usb_hid_device_type }},
|
|
.report_buffer = {name}_report_buffer,
|
|
.report_id = {report_id},
|
|
.report_length = {report_length},
|
|
.usage_page = {usage_page:#04x},
|
|
.usage = {usage:#04x},
|
|
.out_report_buffer = {out_report_buffer},
|
|
.out_report_length = {out_report_length},
|
|
}},
|
|
""".format(name=name.lower(), report_id=report_ids[name],
|
|
report_length=device_data.report_length,
|
|
usage_page=device_data.usage_page,
|
|
usage=device_data.usage,
|
|
out_report_buffer=out_report_buffer,
|
|
out_report_length=device_data.out_report_length))
|
|
c_file.write("""\
|
|
};
|
|
""")
|
|
|
|
# Write out tuple of device objects.
|
|
c_file.write("""
|
|
mp_obj_tuple_t common_hal_usb_hid_devices = {{
|
|
.base = {{
|
|
.type = &mp_type_tuple,
|
|
}},
|
|
.len = {num_devices},
|
|
.items = {{
|
|
""".format(num_devices=len(args.hid_devices)))
|
|
for idx in range(len(args.hid_devices)):
|
|
c_file.write("""\
|
|
(mp_obj_t) &usb_hid_devices[{idx}],
|
|
""".format(idx=idx))
|
|
c_file.write("""\
|
|
},
|
|
};
|
|
""")
|
|
|
|
h_file.write("""\
|
|
#endif // MICROPY_INCLUDED_AUTOGEN_USB_DESCRIPTOR_H
|
|
""")
|