This library is a Arduino-friendly version of TinyUSB stack. It is designed with structure and APIs that are easily integrated to an Arduino Core.
Supported device class drivers are:
- Communication (CDC): which is used to implement
Serialmonitor - Human Interface Device (HID): Generic (In & Out), Keyboard, Mouse, Gamepad etc ...
- Mass Storage Class (MSC): with multiple LUNs
- Musical Instrument Digital Interface (MIDI)
- WebUSB with vendor specific class
Host support is still work-in-progress but currently available with rp2040 core thanks to Pico-PIO-USB. Supported class driver are:
- Communication (CDC)
- MassStorage class
There are 2 type of supported cores: with and without built-in support for TinyUSB. Built-in support provide seamless integration but requires extra code added to core's source code. Unfortunately it is not always easy or possible to make those modification.
Following core has TinyUSB as either the primary usb stack or selectable via menu Tools->USB Stack. You only need to include <Adafruit_TinyUSB.h> in your sketch to use.
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ESP32 port relies on Espressif's esp32-hal-tinyusb.c for building usb descriptors which requires all descriptors must be specified in usb objects declaration i.e constructors. Therefore all descriptor-related fields must be part of object declaration and descriptor-related API have no effect afterwards for this port.
Following is cores without built-in support
- mbed_rp2040
It is still possible to use TinyUSB but with some limits such as:
TinyUSB_Device_Init()need to be manually called in setup()TinyUSB_Device_Task()and/orTinyUSB_Device_FlushCDC()may (or not) need to be manually called in loop()- Use
SerialTinyUSBname instead of Serial for serial monitor - And there could be more other issues, using on these cores should be considered as experimental
More document to write ...
To integrate TinyUSB library to a Arduino core, you will need to make changes to the core for built-in support and library for porting the mcu/platform.
If possible, making changes to core will allow it to have built-in which make it almost transparent to user sketch
- Add this repo as submodule (or have local copy) at your ArduioCore/libraries/Adafruit_TinyUSB_Arduino (much like SPI).
- Since Serial as CDC is considered as part of the core, we need to have
#include "Adafruit_USBD_CDC.h"within yourArduino.h. For this to work, yourplatform.txtinclude path need to have"-I{runtime.platform.path}/libraries/Adafruit_TinyUSB_Arduino/src/arduino". - In your
main.cppbefore setup() invoke theTinyUSB_Device_Init(rhport). This will initialize usb device hardware and tinyusb stack and also include Serial as an instance of CDC class. TinyUSB_Device_Task()must be called whenever there is new USB event. Depending on your core and MCU with or without RTOS. There are many ways to run the task. For example:
- Use USB IRQn to set flag then invoke function later on after exiting IRQ.
- Just invoke function after the loop(), within yield(), and delay()
TinyUSB_Device_FlushCDC()should also be called often to send out Serial data as well.- Note: For low power platform that make use of WFI()/WFE(), extra care is required before mcu go into low power mode. Check out my PR to circuipython for reference adafruit/circuitpython#2956
In addition to core changes, library need to be ported to your platform. Don't worry, tinyusb stack has already done most of heavy-lifting. You only need to write a few APIs
TinyUSB_Port_InitDevice()hardware specific (clock, phy) to enable usb hardware then call tud_init(). This API is called as part of TinyUSB_Device_Init() invocation.TinyUSB_Port_EnterDFU()which is called when device need to enter DFU mode, usually by touch1200 featureTinyUSB_Port_GetSerialNumber()which is called to get unique MCU Serial ID to used as Serial string descriptor.