unleashed-firmware/documentation/fbt.md
hedger 8d2ea14f06
[FL-3330] fbt: added hooks for build & dist environments; added FW_ORIGIN_* macro for apps & SDK (#2705)
* fbt: added hooks for build & dist environments
* Moved env hooks to an optional file
* Fixed var name
* Added fw origin to device info
* Bumped device info version
* fbt: added FIRMWARE_ORIGIN option. Different implementation for FW_ORIGIN_* C macro.
* api: bumped versions
* fbt: added fbt_options_local.py
* gitignore: cleanup

Co-authored-by: あく <alleteam@gmail.com>
2023-05-30 01:40:56 +09:00

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# Flipper Build Tool
FBT is the entry point for firmware-related commands and utilities.
It is invoked by `./fbt` in the firmware project root directory. Internally, it is a wrapper around [scons](https://scons.org/) build system.
If you don't need all features of `fbt` - like building the whole firmware - and only want to build and debug a single application, you can use [ufbt](https://pypi.org/project/ufbt/).
## Environment
To use `fbt`, you only need `git` installed in your system.
`fbt` by default downloads and unpacks a pre-built toolchain, and then modifies environment variables for itself to use it. It does not contaminate your global system's path with the toolchain.
> However, if you wish to use tools supplied with the toolchain outside `fbt`, you can open an *fbt shell*, with properly configured environment.
> - On Windows, simply run `scripts/toolchain/fbtenv.cmd`.
> - On Linux & MacOS, run `source scripts/toolchain/fbtenv.sh` in a new shell.
> - You can also type ```. `./fbt -s env` ``` in your shell. (Keep the "." at the beginning.)
If your system is not supported by pre-built toolchain variants or you want to use custom versions of dependencies, you can `set FBT_NOENV=1`. `fbt` will skip toolchain & environment configuration and will expect all tools to be available on your system's `PATH`. *(this option is not available on Windows)*
If `FBT_TOOLCHAIN_PATH` variable is set, `fbt` will use that directory to unpack toolchain into. By default, it downloads toolchain into `toolchain` subdirectory repo's root.
If you want to enable extra debug output for `fbt` and toolchain management scripts, you can `set FBT_VERBOSE=1`.
`fbt` always performs `git submodule update --init` on start, unless you set `FBT_NO_SYNC=1` in the environment:
- On Windows, it's `set "FBT_NO_SYNC=1"` in the shell you're running `fbt` from
- On \*nix, it's `$ FBT_NO_SYNC=1 ./fbt ...`
> There are more variables controlling basic `fbt` behavior. See `fbt` & `fbtenv` scripts' sources for details.
## Invoking FBT
To build with FBT, call it and specify configuration options & targets to build. For example:
`./fbt COMPACT=1 DEBUG=0 VERBOSE=1 updater_package copro_dist`
To run cleanup (think of `make clean`) for specified targets, add the `-c` option.
## Build directories
`fbt` builds updater & firmware in separate subdirectories in `build`, and their names depend on optimization settings (`COMPACT` & `DEBUG` options). However, for ease of integration with IDEs, the latest built variant's directory is always linked as `built/latest`. Additionally, `compile_commands.json` is generated in that folder (it is used for code completion support in IDEs).
`build/latest` symlink & compilation database are only updated upon *firmware build targets* - that is, when you're re-building the firmware itself. Running other tasks, like firmware flashing or building update bundles *for a different debug/release configuration or hardware target*, does not update `built/latest` dir to point to that configuration.
## VSCode integration
`fbt` includes basic development environment configuration for VS Code. Run `./fbt vscode_dist` to deploy it. That will copy the initial environment configuration to the `.vscode` folder. After that, you can use that configuration by starting VS Code and choosing the firmware root folder in the "File > Open Folder" menu.
- On the first start, you'll be prompted to install recommended plugins. We highly recommend installing them for the best development experience. _You can find a list of them in `.vscode/extensions.json`._
- Basic build tasks are invoked in the Ctrl+Shift+B menu.
- Debugging requires a supported probe. That includes:
- Wi-Fi devboard with stock firmware (blackmagic).
- ST-Link and compatible devices.
- J-Link for flashing and debugging (in VSCode only). _Note that J-Link tools are not included with our toolchain and you have to [download](https://www.segger.com/downloads/jlink/) them yourself and put them on your system's PATH._
- Without a supported probe, you can install firmware on Flipper using the USB installation method.
## FBT targets
**`fbt`** keeps track of internal dependencies, so you only need to build the highest-level target you need, and **`fbt`** will make sure everything they depend on is up-to-date.
### High-level (what you most likely need)
- `fw_dist` - build & publish firmware to the `dist` folder. This is a default target when no others are specified.
- `fap_dist` - build external plugins & publish to the `dist` folder.
- `updater_package`, `updater_minpackage` - build a self-update package. The minimal version only includes the firmware's DFU file; the full version also includes a radio stack & resources for the SD card.
- `copro_dist` - bundle Core2 FUS+stack binaries for qFlipper.
- `flash` - flash the attached device with OpenOCD over ST-Link.
- `flash_usb`, `flash_usb_full` - build, upload and install the update package to the device over USB. See details on `updater_package` and `updater_minpackage`.
- `debug` - build and flash firmware, then attach with gdb with firmware's .elf loaded.
- `debug_other`, `debug_other_blackmagic` - attach GDB without loading any `.elf`. It will allow you to manually add external `.elf` files with `add-symbol-file` in GDB.
- `updater_debug` - attach GDB with the updater's `.elf` loaded.
- `blackmagic` - debug firmware with Blackmagic probe (WiFi dev board).
- `openocd` - just start OpenOCD.
- `get_blackmagic` - output the blackmagic address in the GDB remote format. Useful for IDE integration.
- `get_stlink` - output serial numbers for attached STLink probes. Used for specifying an adapter with `OPENOCD_ADAPTER_SERIAL=...`.
- `lint`, `format` - run clang-format on the C source code to check and reformat it according to the `.clang-format` specs.
- `lint_py`, `format_py` - run [black](https://black.readthedocs.io/en/stable/index.html) on the Python source code, build system files & application manifests.
- `firmware_pvs` - generate a PVS Studio report for the firmware. Requires PVS Studio to be available on your system's `PATH`.
- `cli` - start a Flipper CLI session over USB.
### Firmware targets
- `faps` - build all external & plugin apps as [`.faps`](./AppsOnSDCard.md#fap-flipper-application-package).
- **`fbt`** also defines per-app targets. For example, for an app with `appid=snake_game` target names are:
- `fap_snake_game`, etc. - build single app as `.fap` by its application ID.
- Check out [`--extra-ext-apps`](#command-line-parameters) for force adding extra apps to external build.
- `fap_snake_game_list`, etc - generate source + assembler listing for app's `.fap`.
- `flash`, `firmware_flash` - flash the current version to the attached device with OpenOCD over ST-Link.
- `jflash` - flash the current version to the attached device with JFlash using a J-Link probe. The JFlash executable must be on your `$PATH`.
- `flash_blackmagic` - flash the current version to the attached device with a Blackmagic probe.
- `firmware_all`, `updater_all` - build a basic set of binaries.
- `firmware_list`, `updater_list` - generate source + assembler listing.
- `firmware_cdb`, `updater_cdb` - generate a `compilation_database.json` file for external tools and IDEs. It can be created without actually building the firmware.
### Assets
- `resources` - build resources and their manifest files
- `dolphin_ext` - process dolphin animations for the SD card
- `icons` - generate `.c+.h` for icons from PNG assets
- `proto` - generate `.pb.c+.pb.h` for `.proto` sources
- `proto_ver` - generate `.h` with a protobuf version
- `dolphin_internal`, `dolphin_blocking` - generate `.c+.h` for corresponding dolphin assets
## Command-line parameters
- `--options optionfile.py` (default value `fbt_options.py`) - load a file with multiple configuration values
- `--extra-int-apps=app1,app2,appN` - force listed apps to be built as internal with the `firmware` target
- `--extra-ext-apps=app1,app2,appN` - force listed apps to be built as external with the `firmware_extapps` target
- `--extra-define=A --extra-define=B=C ` - extra global defines that will be passed to the C/C++ compiler, can be specified multiple times
- `--proxy-env=VAR1,VAR2` - additional environment variables to expose to subprocesses spawned by `fbt`. By default, `fbt` sanitizes the execution environment and doesn't forward all inherited environment variables. You can find the list of variables that are always forwarded in the `environ.scons` file.
## Configuration
Default configuration variables are set in the configuration file: `fbt_options.py`.
Values set in the command line have higher precedence over the configuration file.
You can also create a file called `fbt_options_local.py` that will be evaluated when loading default options file, enabling persisent overriding of default options without modifying default configuration.
You can find out available options with `./fbt -h`.
### Firmware application set
You can create customized firmware builds by modifying the list of applications to be included in the build. Application presets are configured with the `FIRMWARE_APPS` option, which is a `map(configuration_name:str -> application_list:tuple(str))`. To specify an application set to use in the build, set `FIRMWARE_APP_SET` to its name.
For example, to build a firmware image with unit tests, run `./fbt FIRMWARE_APP_SET=unit_tests`.
Check out `fbt_options.py` for details.