| .. _bin-blobs: |
| |
| Binary Blobs |
| ############ |
| |
| In the context of an operating system that supports multiple architectures and |
| many different IC families, some functionality may be unavailable without the |
| help of executable code distributed in binary form. Binary blobs (or blobs for |
| short) are files containing proprietary machine code or data in a binary format, |
| e.g. without corresponding source code released under an OSI approved license. |
| |
| Zephyr supports downloading and using third-party binary blobs via its built-in |
| mechanisms, with some important caveats, described in the following sections. It |
| is important to note that all the information in this section applies only to |
| `upstream (vanilla) Zephyr <https://github.com/zephyrproject-rtos/zephyr>`_. |
| |
| There are no limitations whatsoever (except perhaps license compatibility) in |
| the support for binary blobs in forks or third-party distributions of Zephyr. In |
| fact, Zephyr’s build system supports arbitrary use cases related to blobs. This |
| includes linking against libraries, flashing images to targets, etc. Users are |
| therefore free to create Zephyr-based downstream software which uses binary |
| blobs if they cannot meet the requirements described in this page. |
| |
| Software license |
| **************** |
| |
| Most binary blobs are distributed under proprietary licenses which vary |
| significantly in nature and conditions. It is up to the vendor to specify the |
| license as part of the blob submission process. Blob vendors may impose a |
| click-through or other EULA-like workflow when users fetch and install blobs. |
| |
| Hosting |
| ******* |
| |
| Blobs must be hosted on the Internet and managed by third-party infrastructure. |
| Two potential examples are Git repositories and web servers managed by |
| individual hardware vendors. |
| |
| The Zephyr Project does not host binary blobs in its Git repositories or |
| anywhere else. |
| |
| Fetching blobs |
| ************** |
| |
| Blobs are fetched from official third-party sources by the :ref:`west blobs |
| <west-blobs>` command. |
| |
| The blobs themselves must be specified in the :ref:`module.yml |
| <modules-bin-blobs>` files included in separate Zephyr :ref:`module repositories |
| <modules>` maintained by their respective vendors. This means that in order to |
| include a reference to a binary blob to the upstream Zephyr distribution, a |
| module repository must exist first or be created as part of the submission |
| process. |
| |
| Each blob which may be fetched must be individually identified in the |
| corresponding :file:`module.yml` file. A specification for a blob must contain: |
| |
| - An abstract description of the blob itself |
| - Version information |
| - A reference to vendor-provided documentation |
| - The blob’s :ref:`type <bin-blobs-types>`, which must be one of the allowed types |
| - A checksum for the blob, which ``west blobs`` checks after downloading. |
| This is required for reproducibility and to allow bisecting issues as blobs |
| change using Git and west |
| - License text applicable to the blob or a reference to such text, in SPDX |
| format |
| |
| See the :ref:`corresponding section <modules-bin-blobs>` for a more formal |
| definition of the fields. |
| |
| The :ref:`west blobs <west-blobs>` command can be used to list metadata of |
| available blobs and to fetch blobs from user-selected modules. |
| |
| The ``west blobs`` command only fetches and stores the binary blobs themselves. |
| Any accompanying code, including interface header files for the blobs, must be |
| present in the corresponding module repository. |
| |
| Tainting |
| ******** |
| |
| Inclusion of binary blobs will taint the Zephyr build. The definition of |
| tainting originates in the `Linux kernel |
| <https://www.kernel.org/doc/html/latest/admin-guide/tainted-kernels.html>`_ and, |
| in the context of Zephyr, a tainted image will be one that includes binary blobs |
| in it. |
| |
| Tainting will be communicated to the user in the following manners: |
| |
| - One or more Kconfig options ``TAINT_BLOBS_*`` will be set to ``y`` |
| - The Zephyr build system, during its configuration phase, will issue a warning. |
| It will be possible to disable the warning using Kconfig |
| - The ``west spdx`` command will include the tainted status in its output |
| - The kernel's default fatal error handler will also explicitly print out the |
| kernel's tainted status |
| |
| .. _bin-blobs-types: |
| |
| Allowed types |
| ************* |
| |
| The following binary blob types are acceptable in Zephyr: |
| |
| * Precompiled libraries: Hardware enablement libraries, distributed in |
| precompiled binary form, typically for SoC peripherals. An example could be an |
| enablement library for a wireless peripheral |
| * Firmware images: An image containing the executable code for a secondary |
| processor or CPU. This can be full or partial (typically delta or patch data) |
| and is generally copied into RAM or flash memory by the main CPU. An example |
| could be the firmware for the core running a Bluetooth LE Controller |
| * Miscellaneous binary data files. An example could be pre-trained neural |
| network model data |
| |
| Hardware agnostic features provided via a proprietary library are not |
| acceptable. For example, a proprietary and hardware agnostic TCP/IP stack |
| distributed as a static archive would be rejected. |
| |
| Note that just because a blob has an acceptable type does not imply that it will |
| be unconditionally accepted by the project; any blob may be rejected for other |
| reasons on a case by case basis (see library-specific requirements below). |
| In case of disagreement, the TSC is the arbiter of whether a particular blob |
| fits in one of the above types. |
| |
| Precompiled library-specific requirements |
| ***************************************** |
| |
| This section contains additional requirements specific to precompiled library |
| blobs. |
| |
| Any person who wishes to submit a precompiled library must represent that it |
| meets these requirements. The project may remove a blob from the upstream |
| distribution if it is discovered that the blob fails to meet these requirements |
| later on. |
| |
| Interface header files |
| ====================== |
| |
| The precompiled library must be accompanied by one or more header files, |
| distributed under a non-copyleft OSI approved license, that define the interface |
| to the library. |
| |
| Allowed dependencies |
| ==================== |
| |
| This section defines requirements related to external symbols that a library |
| blob requires the build system to provide. |
| |
| * The blob must not depend on Zephyr APIs directly. In other words, it must have |
| been possible to build the binary without any Zephyr source code present at |
| all. This is required for loose coupling and maintainability, since Zephyr |
| APIs may change and such blobs cannot be modified by all project maintainers |
| * Instead, if the code in the precompiled library requires functionality |
| provided by Zephyr (or an RTOS in general), an implementation of an OS |
| abstraction layer (aka porting layer) can be provided alongside the library. |
| The implementation of this OS abstraction layer must be in source code form, |
| released under an OSI approved license and documented using Doxygen |
| |
| Toolchain requirements |
| ====================== |
| |
| Precompiled library blobs must be in a data format which is compatible with and |
| can be linked by a toolchain supported by the Zephyr Project. This is required |
| for maintainability and usability. Use of such libraries may require special |
| compiler and/or linker flags, however. For example, a porting layer may require |
| special flags, or a static archive may require use of specific linker flags. |
| |
| Limited scope |
| ============= |
| |
| Allowing arbitrary library blobs carries a risk of degrading the degree to |
| which the upstream Zephyr software distribution is open source. As an extreme |
| example, a target with a zephyr kernel clock driver that is just a porting layer |
| around a library blob would not be bootable with open source software. |
| |
| To mitigate this risk, the scope of upstream library blobs is limited. The |
| project maintainers define an open source test suite that an upstream |
| target must be able to pass using only open source software included in the |
| mainline distribution and its modules. The open source test suite currently |
| consists of: |
| |
| - :file:`samples/philosophers` |
| - :file:`tests/kernel` |
| |
| The scope of this test suite may grow over time. The goal is to specify |
| tests for a minimal feature set which must be supported via open source software |
| for any target with upstream Zephyr support. |
| |
| At the discretion of the release team, the project may remove support for a |
| hardware target if it cannot pass this test suite. |
| |
| Support and maintenance |
| *********************** |
| |
| The Zephyr Project is not expected to be responsible for the maintenance and |
| support of contributed binary blobs. As a consequence, at the discretion of the |
| Zephyr Project release team, and on a case-by-case basis: |
| |
| - GitHub issues reported on the zephyr repository tracker that require use of |
| blobs to reproduce may not be treated as bugs |
| - Such issues may be closed as out of scope of the Zephyr project |
| |
| This does not imply that issues which require blobs to reproduce will be closed |
| without investigation. For example, the issue may be exposing a bug in a Zephyr |
| code path that is difficult or impossible to trigger without a blob. Project |
| maintainers may accept and attempt to resolve such issues. |
| |
| However, some flexibility is required because project maintainers may not be |
| able to determine if a given issue is due to a bug in Zephyr or the blob itself, |
| may be unable to reproduce the bug due to lack of hardware, etc. |
| |
| Blobs must have designated maintainers that must be responsive to issue reports |
| from users and provide updates to the blobs to address issues. At the discretion |
| of the Zephyr Project release team, module revisions referencing blobs may be |
| removed from :file:`zephyr/west.yml` at any time due to lack of responsiveness or |
| support from their maintainers. This is required to maintain project control |
| over bit-rot, security issues, etc. |
| |
| The submitter of the proposal to integrate a binary blob must commit to maintain |
| the integration of such blob for the foreseeable future. |
| |
| Regarding Continuous Integration, binary blobs will **not** be fetched in the |
| project's CI infrastructure that builds and optionally executes tests and samples |
| to prevent regressions and issues from entering the codebase. This includes |
| both CI ran when a new GitHub Pull Request is opened as well as any other |
| regularly scheduled execution of the CI infrastructure. |
| |
| .. _blobs-process: |
| |
| Submission and review process |
| ***************************** |
| |
| For references to binary blobs to be included in the project, they must be |
| reviewed and accepted by the Technical Steering Committee (TSC). This process is |
| only required for new binary blobs, updates to binary blobs follow the |
| :ref:`module update procedure <modules_changes>`. |
| |
| A request for integration with binary blobs must be made by creating a new |
| issue in the Zephyr project issue tracking system on GitHub with details |
| about the blobs and the functionality they provide to the project. |
| |
| Follow the steps below to begin the submission process: |
| |
| #. Make sure to read through the :ref:`bin-blobs` section in |
| detail, so that you are informed of the criteria used by the TSC in order to |
| approve or reject a request |
| #. Use the :github:`New Binary Blobs Issue |
| <new?assignees=&labels=RFC&template=008_bin-blobs.md&title=>` to open an issue |
| #. Fill out all required sections, making sure you provide enough detail for the |
| TSC to assess the merit of the request. Additionally you must also create a Pull |
| Request that demonstrates the integration of the binary blobs and then |
| link to it from the issue |
| #. Wait for feedback from the TSC, respond to any additional questions added as |
| GitHub issue comments |
| |
| If, after consideration by the TSC, the submission of the binary blob(s) is |
| approved, the submission process is complete and the binary blob(s) can be |
| integrated. |