# TinyUSB Agent Instructions TinyUSB is an open-source cross-platform USB Host/Device stack for embedded systems, designed to be memory-safe with no dynamic allocation and thread-safe with all interrupt events deferred to non-ISR task functions. Always reference these instructions first and fallback to search or bash commands only when you encounter unexpected information that does not match the info here. ## Shared Ground Rules - Keep TinyUSB memory-safe: avoid dynamic allocation, defer ISR work to task context, and follow C99 with two-space indentation/no tabs. - Match file organization: core stack under `src`, MCU/BSP support in `hw/{mcu,bsp}`, examples under `examples/{device,host,dual}`, docs in `docs`, tests under `test/{unit-test,fuzz,hil}`. - Use descriptive snake_case for helpers, reserve `tud_`/`tuh_` for public APIs, `TU_` for macros, and keep headers self-contained with `#if CFG_TUSB_MCU` guards where needed. - Prefer `.clang-format` for C/C++ formatting, run `pre-commit run --all-files` before submitting, and document board/HIL coverage when applicable. - Commit in imperative mood, keep changes scoped, and supply PRs with linked issues plus test/build evidence. ## Bootstrap and Build Setup - Install ARM GCC toolchain: `sudo apt-get update && sudo apt-get install -y gcc-arm-none-eabi` - Fetch core dependencies: `python3 tools/get_deps.py` -- takes <1 second. NEVER CANCEL. - For specific board families: `python3 tools/get_deps.py FAMILY_NAME` (e.g., rp2040, stm32f4), or `python3 tools/get_deps.py -b BOARD_NAME` - Dependencies are cached in `lib/` and `hw/mcu/` directories ## Build Examples Choose ONE of these approaches: **Option 1: Individual Example with CMake and Ninja (RECOMMENDED)** ```bash cd examples/device/cdc_msc mkdir -p build && cd build cmake -DBOARD=raspberry_pi_pico -G Ninja -DCMAKE_BUILD_TYPE=MinSizeRel .. cmake --build . ``` -- takes 1-2 seconds. NEVER CANCEL. Set timeout to 5+ minutes. **Option 2: All Examples for a Board** different folder than Option 1 ```bash cd examples/ mkdir -p build && cd build cmake -DBOARD=raspberry_pi_pico -G Ninja -DCMAKE_BUILD_TYPE=MinSizeRel .. cmake --build . ``` -- takes 15-20 seconds, may have some objcopy failures that are non-critical. NEVER CANCEL. Set timeout to 30+ minutes. **Option 3: Individual Example with Make** ```bash cd examples/device/cdc_msc make BOARD=raspberry_pi_pico all ``` -- takes 2-3 seconds. NEVER CANCEL. Set timeout to 5+ minutes. ## Build Options - **Debug build**: - CMake: `-DCMAKE_BUILD_TYPE=Debug` - Make: `DEBUG=1` - **With logging**: - CMake: `-DLOG=2` - Make: `LOG=2` - **With RTT logger**: - CMake: `-DLOG=2 -DLOGGER=rtt` - Make: `LOG=2 LOGGER=rtt` - **RootHub port selection**: - CMake: `-DRHPORT_DEVICE=1` - Make: `RHPORT_DEVICE=1` - **Port speed**: - CMake: `-DRHPORT_DEVICE_SPEED=OPT_MODE_FULL_SPEED` - Make: `RHPORT_DEVICE_SPEED=OPT_MODE_FULL_SPEED` ## Flashing and Deployment - **Flash with JLink**: - CMake: `ninja cdc_msc-jlink` - Make: `make BOARD=raspberry_pi_pico flash-jlink` - **Flash with OpenOCD**: - CMake: `ninja cdc_msc-openocd` - Make: `make BOARD=raspberry_pi_pico flash-openocd` - **Generate UF2**: - CMake: `ninja cdc_msc-uf2` - Make: `make BOARD=raspberry_pi_pico all uf2` - **List all targets** (CMake/Ninja): `ninja -t targets` ## Unit Testing - Install Ceedling: `sudo gem install ceedling` - Run all unit tests: `cd test/unit-test && ceedling` or `cd test/unit-test && ceedling test:all` -- takes 4 seconds. NEVER CANCEL. Set timeout to 10+ minutes. - Run specific test: `cd test/unit-test && ceedling test:test_fifo` - Tests use Unity framework with CMock for mocking ## Hardware-in-the-Loop (HIL) Testing - Run tests on actual hardware, one of following ways: - test a specific board `python test/hil/hil_test.py -b BOARD_NAME -B examples local.json` - test all boards in config `python test/hil/hil_test.py -B examples local.json` - In case of error, enabled verbose mode with `-v` flag for detailed logs. Also try to observe script output, and try to modify hil_test.py (temporarily) to add more debug prints to pinpoint the issue. - Requires pre-built (all) examples for target boards (see Build Examples section 2) take 2-5 minutes. NEVER CANCEL. Set timeout to 20+ minutes. ## Documentation - Install requirements: `pip install -r docs/requirements.txt` - Build docs: `cd docs && sphinx-build -b html . _build` -- takes 2-3 seconds. NEVER CANCEL. Set timeout to 10+ minutes. ## Code Quality and Validation - Format code: `clang-format -i path/to/file.c` (uses `.clang-format` config) - Check spelling: `pip install codespell && codespell` (uses `.codespellrc` config) - Pre-commit hooks validate unit tests and code quality automatically ## Static Analysis with PVS-Studio - **Analyze whole project**: ```bash pvs-studio-analyzer analyze -f examples/cmake-build-raspberry_pi_pico/compile_commands.json -R .PVS-Studio/.pvsconfig -o pvs-report.log -j12 --dump-files --misra-cpp-version 2008 --misra-c-version 2023 --use-old-parser ``` - **Analyze specific source files**: ```bash pvs-studio-analyzer analyze -f examples/cmake-build-raspberry_pi_pico/compile_commands.json -R .PVS-Studio/.pvsconfig -S path/to/file.c -o pvs-report.log -j12 --dump-files --misra-cpp-version 2008 --misra-c-version 2023 --use-old-parser ``` - **Multiple specific files**: ```bash pvs-studio-analyzer analyze -f examples/cmake-build-raspberry_pi_pico/compile_commands.json -R .PVS-Studio/.pvsconfig -S src/file1.c -S src/file2.c -o pvs-report.log -j12 --dump-files --misra-cpp-version 2008 --misra-c-version 2023 --use-old-parser ``` - Requires `compile_commands.json` in the build directory (generated by CMake with `-DCMAKE_EXPORT_COMPILE_COMMANDS=ON`) - Use `-f` option to specify path to `compile_commands.json` - Use `-R .PVS-Studio/.pvsconfig` to specify rule configuration file - Use `-j12` for parallel analysis with 12 threads - `--dump-files` saves preprocessed files for debugging - `--misra-c-version 2023` enables MISRA C:2023 checks - `--misra-cpp-version 2008` enables MISRA C++:2008 checks - `--use-old-parser` uses legacy parser for compatibility - Analysis takes ~10-30 seconds depending on project size. Set timeout to 5+ minutes. - View results: `plog-converter -a GA:1,2 -t errorfile pvs-report.log` or open in PVS-Studio GUI ## Validation Checklist ### ALWAYS Run These After Making Changes 1. **Pre-commit validation** (RECOMMENDED): `pre-commit run --all-files` - Install pre-commit: `pip install pre-commit && pre-commit install` - Runs all quality checks, unit tests, spell checking, and formatting - Takes 10-15 seconds. NEVER CANCEL. Set timeout to 15+ minutes. 2. **Build validation**: Build at least one board with all example that exercises your changes, see Build Examples section (option 2) 3. Run unit tests relevant to touched modules; add fuzz/HIL coverage when modifying parsers or protocol state machines. ### Manual Testing Scenarios - **Device examples**: Cannot be fully tested without real hardware, but must build successfully - **Unit tests**: Exercise core stack functionality - ALL tests must pass - **Build system**: Must be able to build examples for multiple board families ### Board Selection for Testing - **STM32F4**: `stm32f407disco` - no external SDK required, good for testing - **RP2040**: `raspberry_pi_pico` - requires Pico SDK, commonly used - **Other families**: Check `hw/bsp/FAMILY/boards/` for available boards ## Release Instructions **DO NOT commit files automatically - only modify files and let the maintainer review before committing.** 1. Bump the release version variable at the top of `tools/make_release.py`. 2. Execute `python3 tools/make_release.py` to refresh: - `src/tusb_option.h` (version defines) - `repository.yml` (version mapping) - `library.json` (PlatformIO version) - `sonar-project.properties` (SonarQube version) - `docs/reference/boards.rst` (generated board documentation) - `hw/bsp/BoardPresets.json` (CMake presets) 3. Generate release notes for `docs/info/changelog.rst`: - Get commit list: `git log ..HEAD --oneline` - **Visit GitHub PRs** for merged pull requests to understand context and gather details - Use GitHub tools to search/read PRs: `github-mcp-server-list_pull_requests`, `github-mcp-server-pull_request_read` - Extract key changes, API modifications, bug fixes, and new features from PR descriptions - Add new changelog entry following the existing format: - Version heading with equals underline (e.g., `0.20.0` followed by `======`) - Release date in italics (e.g., `*November 19, 2024*`) - Major sections: General, API Changes, Controller Driver (DCD & HCD), Device Stack, Host Stack, Testing - Use bullet lists with descriptive categorization - Reference function names, config macros, and file paths using RST inline code (double backticks) - Include meaningful descriptions, not just commit messages 4. **Validation before commit**: - Run unit tests: `cd test/unit-test && ceedling test:all` - Build at least one example: `cd examples/device/cdc_msc && make BOARD=stm32f407disco all` - Verify changed files look correct: `git diff --stat` 5. **Leave files unstaged** for maintainer to review, modify if needed, and commit with message: `Bump version to X.Y.Z` 6. **After maintainer commits**: Create annotated tag with `git tag -a vX.Y.Z -m "Release X.Y.Z"` 7. Push commit and tag: `git push origin && git push origin vX.Y.Z` 8. Create GitHub release from the tag with changelog content ## Repository Structure Quick Reference ``` ├── src/ # Core TinyUSB stack │ ├── class/ # USB device classes (CDC, HID, MSC, Audio, etc.) │ ├── portable/ # MCU-specific drivers (organized by vendor) │ ├── device/ # USB device stack core │ ├── host/ # USB host stack core │ └── common/ # Shared utilities (FIFO, etc.) ├── examples/ # Example applications │ ├── device/ # Device examples (cdc_msc, hid_generic, etc.) │ ├── host/ # Host examples │ └── dual/ # Dual-role examples ├── hw/bsp/ # Board Support Packages │ └── FAMILY/boards/ # Board-specific configurations ├── test/unit-test/ # Unit tests using Ceedling ├── tools/ # Build and utility scripts └── docs/ # Sphinx documentation ``` #### Build Time Reference - **Dependency fetch**: <1 second - **Single example build**: 1-3 seconds - **Unit tests**: ~4 seconds - **Documentation build**: ~2.5 seconds - **Full board examples**: 15-20 seconds - **Toolchain installation**: 2-5 minutes (one-time) #### Key Files to Know - `tools/get_deps.py`: Manages dependencies for MCU families - `tools/build.py`: Builds multiple examples, supports make/cmake - `src/tusb.h`: Main TinyUSB header file - `src/tusb_config.h`: Configuration template - `examples/device/cdc_msc/`: Most commonly used example for testing - `test/unit-test/project.yml`: Ceedling test configuration #### Debugging Build Issues - **Missing compiler**: Install `gcc-arm-none-eabi` package - **Missing dependencies**: Run `python3 tools/get_deps.py FAMILY` - **Board not found**: Check `hw/bsp/FAMILY/boards/` for valid board names - **objcopy errors**: Often non-critical in full builds, try individual example builds #### Working with USB Device Classes - **CDC (Serial)**: `src/class/cdc/` - Virtual serial port - **HID**: `src/class/hid/` - Human Interface Device (keyboard, mouse, etc.) - **MSC**: `src/class/msc/` - Mass Storage Class (USB drive) - **Audio**: `src/class/audio/` - USB Audio Class - Each class has device (`*_device.c`) and host (`*_host.c`) implementations #### MCU Family Support - **STM32**: Largest support (F0, F1, F2, F3, F4, F7, G0, G4, H7, L4, U5, etc.) - **Raspberry Pi**: RP2040, RP2350 with PIO-USB host support - **NXP**: iMXRT, Kinetis, LPC families - **Microchip**: SAM D/E/G/L families - Check `hw/bsp/` for complete list and `docs/reference/boards.rst` for details ### Code Style Guidelines #### General Coding Standards - Use C99 standard - Memory-safe: no dynamic allocation - Thread-safe: defer all interrupt events to non-ISR task functions - 2-space indentation, no tabs - Use snake_case for variables/functions - Use UPPER_CASE for macros and constants - Follow existing variable naming patterns in files you're modifying - Include proper header comments with MIT license - Add descriptive comments for non-obvious functions #### Best Practices - When including headers, group in order: C stdlib, tusb common, drivers, classes - Always check return values from functions that can fail - Use TU_ASSERT() for error checking with return statements - Follow the existing code patterns in the files you're modifying Remember: TinyUSB is designed for embedded systems - builds are fast, tests are focused, and the codebase is optimized for resource-constrained environments.