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TinyUSB Project

TinyUSB

TinyUSB is an open-source cross-platform USB Host/Device stack for embedded system, designed to be memory-safe with no dynamic allocation and thread-safe with all interrupt events are deferred then handled in the non-ISR task function. Check out the online documentation for more details.

stackup
.
├── docs            # Documentation
├── examples        # Examples with make and cmake build system
├── hw
│   ├── bsp         # Supported boards source files
│   └── mcu         # Low level mcu core & peripheral drivers
├── lib             # Sources from 3rd party such as freeRTOS, fatfs ...
├── src             # All sources files for TinyUSB stack itself.
├── test            # Tests: unit test, fuzzing, hardware test
└── tools           # Files used internally

Getting started

See the online documentation for information about using TinyUSB and how it is implemented.

Check out Getting Started guide for adding TinyUSB to your project or building the examples. If you are new to TinyUSB, we recommend starting with the cdc_msc example. There is a handful of Supported Boards that should work out of the box.

We use GitHub Discussions as our forum. It is a great place to ask questions and advice from the community or to discuss your TinyUSB-based projects.

For bugs and feature requests, please raise an issue and follow the templates there.

See Porting guide for adding support for new MCUs and boards.

Device Stack

Supports multiple device configurations by dynamically changing USB descriptors, low power functions such like suspend, resume, and remote wakeup. The following device classes are supported:

  • Audio Class 2.0 (UAC2)

  • Bluetooth Host Controller Interface (BTH HCI)

  • Communication Device Class (CDC)

  • Device Firmware Update (DFU): DFU mode (WIP) and Runtime

  • Human Interface Device (HID): Generic (In & Out), Keyboard, Mouse, Gamepad etc …

  • Mass Storage Class (MSC): with multiple LUNs

  • Musical Instrument Digital Interface (MIDI)

  • Network with RNDIS, Ethernet Control Model (ECM), Network Control Model (NCM)

  • Test and Measurement Class (USBTMC)

  • Video class 1.5 (UVC): work in progress

  • Vendor-specific class support with generic In & Out endpoints. Can be used with MS OS 2.0 compatible descriptor to load winUSB driver without INF file.

  • WebUSB with vendor-specific class

If you have a special requirement, usbd_app_driver_get_cb() can be used to write your own class driver without modifying the stack. Here is how the RPi team added their reset interface raspberrypi/pico-sdk#197

Host Stack

  • Human Interface Device (HID): Keyboard, Mouse, Generic

  • Mass Storage Class (MSC)

  • Communication Device Class: CDC-ACM

  • Vendor serial over USB: FTDI, CP210x, CH34x

  • Hub with multiple-level support

Similar to the Device Stack, if you have a special requirement, usbh_app_driver_get_cb() can be used to write your own class driver without modifying the stack.

Power Delivery Stack

  • Power Delivery 3.0 (PD3.0) with USB Type-C support (WIP)

  • Super early stage, only for testing purpose

  • Only support STM32 G4

OS Abstraction layer

TinyUSB is completely thread-safe by pushing all Interrupt Service Request (ISR) events into a central queue, then processing them later in the non-ISR context task function. It also uses semaphore/mutex to access shared resources such as Communication Device Class (CDC) FIFO. Therefore the stack needs to use some of the OS’s basic APIs. Following OSes are already supported out of the box.

  • No OS

  • FreeRTOS

  • RT-Thread: repo

  • Mynewt Due to the newt package build system, Mynewt examples are better to be on its own repo

Supported CPUs

Manufacturer

Family

Device

Host

Highspeed

Driver

Note

Allwinner

F1C100s/F1C200s

sunxi

musb variant

Analog

MAX3421E

max3421

via SPI

MAX32 650, 666, 690, MAX78002

musb

1-dir ep

Brigetek

FT90x

ft9xx

1-dir ep

Broadcom

BCM2711, BCM2837

dwc2

Dialog

DA1469x

da146xx

Espressif

ESP32

S2, S3

dwc2 or esp32sx

P4

dwc2

GigaDevice

GD32VF103

dwc2

Infineon

XMC4500

dwc2

MicroChip

SAM

D11, D21, L21, L22

samd

D51, E5x

samd

G55

samg

1-dir ep

E70,S70,V70,V71

samx7x

1-dir ep

PIC

24

pic

ci_fs variant

32 mm, mk, mx

pic

ci_fs variant

dsPIC33

pic

ci_fs variant

32mz

pic32mz

musb variant

Mind Montion

mm32

mm32f327x_otg

ci_fs variant

NordicSemi

nRF 52833, 52840, 5340

nrf5x

only ep8 is ISO

Nuvoton

NUC120

nuc120

NUC121/NUC125

nuc121

NUC126

nuc121

NUC505

nuc505

NXP

iMXRT

RT 10xx, 11xx

ci_hs

Kinetis

KL

ci_fs, khci

K32L2

khci

ci_fs variant

LPC

11u, 13, 15

lpc_ip3511

17, 40

lpc17_40

18, 43

ci_hs

51u

lpc_ip3511

54, 55

lpc_ip3511

MCX

N9, A15

ci_fs, ci_hs

Raspberry Pi

RP2040, RP2350

rp2040, pio_usb

Renesas

RX

63N, 65N, 72N

rusb2

RA

4M1, 4M3, 6M1

rusb2

6M5

rusb2

Silabs

EFM32GG12

dwc2

Sony

CXD56

cxd56

ST STM32

F0

stm32_fsdev

F1

102, 103

stm32_fsdev

105, 107

dwc2

F2, F4, F7, H7

dwc2

F3

stm32_fsdev

C0, G0, H5

stm32_fsdev

G4

stm32_fsdev

L0, L1

stm32_fsdev

L4

4x2, 4x3

stm32_fsdev

4x5, 4x6

dwc2

L4+

dwc2

L5

stm32_fsdev

U5

535, 545

stm32_fsdev

575, 585

dwc2

59x,5Ax,5Fx,5Gx

dwc2

WBx5

stm32_fsdev

TI

MSP430

msp430x5xx

MSP432E4

musb

TM4C123

musb

ValentyUSB

eptri

eptri

WCH

CH32F20x

ch32_usbhs

CH32V20x

stm32_fsdev/ch32_usbfs

CH32V307

ch32_usbfs/hs

Table Legend

Supported

Partial support

Not supported by hardware

[empty]

Unknown