/* * This file is part of the MicroPython project, http://micropython.org/ * * The MIT License (MIT) * * Copyright (c) 2021 Dan Halbert for Adafruit Industries * * Permission is hereby granted, free of charge, to any person obtaining a copy * of this software and associated documentation files (the "Software"), to deal * in the Software without restriction, including without limitation the rights * to use, copy, modify, merge, publish, distribute, sublicense, and/or sell * copies of the Software, and to permit persons to whom the Software is * furnished to do so, subject to the following conditions: * * The above copyright notice and this permission notice shall be included in * all copies or substantial portions of the Software. * * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR * IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, * FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE * AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER * LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, * OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN * THE SOFTWARE. */ #include "py/gc.h" #include "py/obj.h" #include "py/mphal.h" #include "py/runtime.h" #include "py/objtuple.h" #include "shared-bindings/usb_cdc/__init__.h" #include "shared-bindings/usb_cdc/Serial.h" #include "tusb.h" #if CFG_TUD_CDC != 2 #error CFG_TUD_CDC must be exactly 2 #endif bool usb_cdc_repl_enabled; bool usb_cdc_data_enabled; static const uint8_t usb_cdc_descriptor_template[] = { // CDC IAD Descriptor 0x08, // 0 bLength 0x0B, // 1 bDescriptorType: IAD Descriptor 0xFF, // 2 bFirstInterface [SET AT RUNTIME] #define CDC_FIRST_INTERFACE_INDEX 2 0x02, // 3 bInterfaceCount: 2 0x02, // 4 bFunctionClass: COMM 0x02, // 5 bFunctionSubclass: ACM 0x00, // 6 bFunctionProtocol: NONE 0x00, // 7 iFunction // CDC Comm Interface Descriptor 0x09, // 8 bLength 0x04, // 9 bDescriptorType (Interface) 0xFF, // 10 bInterfaceNumber [SET AT RUNTIME] #define CDC_COMM_INTERFACE_INDEX 10 0x00, // 11 bAlternateSetting 0x01, // 12 bNumEndpoints 1 0x02, // 13 bInterfaceClass: COMM 0x02, // 14 bInterfaceSubClass: ACM 0x00, // 15 bInterfaceProtocol: NONE 0xFF, // 16 iInterface (String Index) #define CDC_COMM_INTERFACE_STRING_INDEX 16 // CDC Header Descriptor 0x05, // 17 bLength 0x24, // 18 bDescriptorType: CLASS SPECIFIC INTERFACE 0x00, // 19 bDescriptorSubtype: NONE 0x10, 0x01, // 20,21 bcdCDC: 1.10 // CDC Call Management Descriptor 0x05, // 22 bLength 0x24, // 23 bDescriptorType: CLASS SPECIFIC INTERFACE 0x01, // 24 bDescriptorSubtype: CALL MANAGEMENT 0x01, // 25 bmCapabilities 0xFF, // 26 bDataInterface [SET AT RUNTIME] #define CDC_CALL_MANAGEMENT_DATA_INTERFACE_INDEX 26 // CDC Abstract Control Management Descriptor 0x04, // 27 bLength 0x24, // 28 bDescriptorType: CLASS SPECIFIC INTERFACE 0x02, // 29 bDescriptorSubtype: ABSTRACT CONTROL MANAGEMENT 0x02, // 30 bmCapabilities // CDC Union Descriptor 0x05, // 31 bLength 0x24, // 32 bDescriptorType: CLASS SPECIFIC INTERFACE 0x06, // 33 bDescriptorSubtype: CDC 0xFF, // 34 bMasterInterface [SET AT RUNTIME] #define CDC_UNION_MASTER_INTERFACE_INDEX 34 0xFF, // 35 bSlaveInterface_list (1 item) #define CDC_UNION_SLAVE_INTERFACE_INDEX 35 // CDC Control IN Endpoint Descriptor 0x07, // 36 bLength 0x05, // 37 bDescriptorType (Endpoint) 0xFF, // 38 bEndpointAddress (IN/D2H) [SET AT RUNTIME: 0x8 | number] #define CDC_CONTROL_IN_ENDPOINT_INDEX 38 0x03, // 39 bmAttributes (Interrupt) 0x40, 0x00, // 40, 41 wMaxPacketSize 64 0x10, // 42 bInterval 16 (unit depends on device speed) // CDC Data Interface 0x09, // 43 bLength 0x04, // 44 bDescriptorType (Interface) 0xFF, // 45 bInterfaceNumber [SET AT RUNTIME] #define CDC_DATA_INTERFACE_INDEX 45 0x00, // 46 bAlternateSetting 0x02, // 47 bNumEndpoints 2 0x0A, // 48 bInterfaceClass: DATA 0x00, // 49 bInterfaceSubClass: NONE 0x00, // 50 bInterfaceProtocol 0x05, // 51 iInterface (String Index) #define CDC_DATA_INTERFACE_STRING_INDEX 51 // CDC Data OUT Endpoint Descriptor 0x07, // 52 bLength 0x05, // 53 bDescriptorType (Endpoint) 0xFF, // 54 bEndpointAddress (OUT/H2D) [SET AT RUNTIME] #define CDC_DATA_OUT_ENDPOINT_INDEX 54 0x02, // 55 bmAttributes (Bulk) 0x40, 0x00, // 56,57 wMaxPacketSize 64 0x00, // 58 bInterval 0 (unit depends on device speed) // CDC Data IN Endpoint Descriptor 0x07, // 59 bLength 0x05, // 60 bDescriptorType (Endpoint) 0xFF, // 61 bEndpointAddress (IN/D2H) [SET AT RUNTIME: 0x8 | number] #define CDC_DATA_IN_ENDPOINT_INDEX 61 0x02, // 62 bmAttributes (Bulk) 0x40, 0x00, // 63,64 wMaxPacketSize 64 0x00, // 65 bInterval 0 (unit depends on device speed) }; size_t usb_cdc_descriptor_length(void) { return sizeof(usb_cdc_descriptor_template); } static const char[] repl_cdc_comm_interface_name = USB_INTERFACE_NAME " CDC control"; static const char[] data_cdc_comm_interface_name = USB_INTERFACE_NAME " CDC2 control"; static const char[] repl_cdc_data_interface_name = USB_INTERFACE_NAME " CDC data"; static const char[] data_cdc_data_interface_name = USB_INTERFACE_NAME " CDC2 data"; size_t usb_cdc_add_descriptor(uint8_t *descriptor_buf, uint8_t *current_interface, uint8_t *current_endpoint, uint8_t* current_interface_string, bool repl) { memcpy(descriptor_buf, usb_midi_descriptor_template, sizeof(usb_midi_descriptor_template)); // Store comm interface number. descriptor_buf[CDC_FIRST_INTERFACE_INDEX] = *current_interface; descriptor_buf[CDC_COMM_INTERFACE_INDEX] = *current_interface; descriptor_buf[CDC_UNION_MASTER_INTERFACE_INDEX] = *current_interface; (*current_interface)++; // Now store data interface number. descriptor_buf[CDC_CALL_MANAGEMENT_DATA_INTERFACE_INDEX] = *current_interface; descriptor_buf[CDC_UNION_SLAVE_INTERFACE_INDEX] = *current_interface; descriptor_buf[CDC_DATA_INTERFACE_INDEX] = *current_interface; descriptor_buf[CDC_CONTROL_IN_ENDPOINT_INDEX] = repl ? (USB_CDC_EP_NUM_NOTIFICATION ? USB_CDC_EP_NUM_NOTIFICATION : *current_endpoint) : (USB_CDC2_EP_NUM_NOTIFICATION ? USB_CDC2_EP_NUM_NOTIFICATION : *current_endpoint); (*current_endpoint)++; descriptor_buf[CDC_DATA_OUT_ENDPOINT_INDEX] = repl ? (USB_CDC_EP_NUM_DATA_OUT ? USB_CDC_EP_NUM_DATA_OUT : *current_endpoint) : (USB_CDC2_EP_NUM_DATA_OUT ? USB_CDC2_EP_NUM_DATA_OUT : *current_endpoint); descriptor_buf[CDC_DATA_IN_ENDPOINT_INDEX] = repl ? (USB_CDC_EP_NUM_DATA_IN ? USB_CDC_EP_NUM_DATA_IN : *current_endpoint) : (USB_CDC2_EP_NUM_DATA_IN ? USB_CDC2_EP_NUM_DATA_IN : *current_endpoint); (*current_endpoint)++; usb_add_interface_string(*current_interface_string, repl ? repl_cdc_comm_interface_name : data_cdc_comm_interface_name); descriptor_buf[CDC_COMM_INTERFACE_STRING_INDEX] = *current_interface_string; (*current_interface_string)++; usb_add_interface_string(*current_interface_string, repl ? repl_cdc_data_interface_name : data_cdc_data_interface_name); descriptor_buf[CDC_DATA_INTERFACE_STRING_INDEX] = *current_interface_string; (*current_interface_string)++; return sizeof(usb_midi_descriptor_template); } static usb_cdc_serial_obj_t usb_cdc_repl_obj = { .base.type = &usb_cdc_serial_type, .timeout = -1.0f, .write_timeout = -1.0f, .idx = 0, }; static usb_cdc_serial_obj_t usb_cdc_data_obj = { .base.type = &usb_cdc_serial_type, .timeout = -1.0f, .write_timeout = -1.0f, .idx = 1, }; void usb_cdc_init(void) { usb_cdc_repl_enabled = true; usb_cdc_data_enabled = false; } bool common_hal_usb_cdc_configure_usb(bool repl_enabled, bool data_enabled) { // We can't change the descriptors once we're connected. if (tud_connected()) { return false; } usb_cdc_repl_enabled = repl_enabled; usb_cdc_set_repl(repl_enabled ? MP_OBJ_FROM_PTR(&usb_cdc_repl_obj) : mp_const_none); usb_cdc_data_enabled = data_enabled; usb_cdc_set_data(data_enabled ? MP_OBJ_FROM_PTR(&usb_cdc_data_obj) : mp_const_none); return true; }