.. _module-pw_bluetooth_sapphire: ===================== pw_bluetooth_sapphire ===================== .. pigweed-module:: :name: pw_bluetooth_sapphire .. attention:: This module is still under construction. There is no public API yet. Please contact the Pigweed team if you are interested in using this module. The ``pw_bluetooth_sapphire`` module provides a dual-mode Bluetooth Host stack that will implement the :ref:`module-pw_bluetooth` APIs. Sapphire originated as the Fuchsia operating system's Bluetooth stack and is used in production. The Sapphire Host stack has been migrated into the Pigweed project for use in embedded projects. However, as it was not written in an embedded context, there is a lot of work to be done to optimize memory usage. Why use Sapphire? * **Open source**, unlike vendor Bluetooth stacks. This makes debugging and fixing issues much easier! * **Integrated with Pigweed**. Logs, asserts, randomness, time, async, strings, and more are all using Pigweed modules. * **Excellent test coverage**, unlike most Bluetooth stacks. This means fewer bugs and greater maintainability. * **Certified**. Sapphire was certified by the Bluetooth SIG after passing all conformance tests. * **A great API**. Coming 2025. See :ref:`module-pw_bluetooth`. ------------ Architecture ------------ Sapphire is composed of multiple libraries that implement different protocols in the Core specification. These libraries include: HCI: Host-Controller Interface Processes data (ACL), command, and event packets exchanged between the host and the controller. Note that HCI is currently split into ``hci``, ``transport``, and ``hci-spec`` libraries. L2CAP: Logical Link Control and Adaptation Layer Protocol Multiplexes a single ACL connection into multiple channels and manages channel configuration and flow control. SDP: Service Discovery Protocol Serves the BR/EDR service database and searches peers for BR/EDR services. SM: Security Manager Implements LE security, including pairing. ATT: Attribute Protocol Implements the ATT protocol PDUs, flow control, and database. GATT: Generic Attribute Profile Implements the GATT server and client. GAP: Generic Access Profile Responsible for device discovery and connection functionality. SCO: Synchronous Connection Oriented link Used for audio data by the Hands-Free Profile. ISO: Isochronous Channels Used for audio data in LE Audio. These libraries build on top of each other as shown in the following diagram. HCI is the foundation, L2CAP builds on top of HCI, ATT builds on top of L2CAP, etc. .. mermaid:: :alt: Sapphire architecture flowchart TB subgraph HCI["HCI"] TRA["Transport"] HCI2["HCI"] SPEC["HCI-Spec"] CONT["Controllers"] end subgraph Host["Host"] COM["Common"] GATT["GATT"] ISO["ISO"] SCO["SCO"] SM["SM"] L2CAP["L2CAP"] SDP["SDP"] GAP["GAP"] ATT["ATT"] HCI end GAP --> GATT & ISO & SCO & SM & L2CAP & SDP & HCI2 GATT --> ATT ATT --> L2CAP L2CAP --> TRA SCO --> HCI2 & TRA SM --> L2CAP SDP --> L2CAP ISO --> TRA HCI2 --> TRA TRA --> CONT CONT -- UART/USB --> Controller["Controller"] ------------- Certification ------------- The Sapphire Host stack was certified as implementing the Bluetooth Core Specification 5.0 by the Bluetooth SIG in 2020 as "Google Sapphire 1.0 Bluetooth Core Host Solution". You can find its public listing and add it to your product certification at the `Qualification Workspace `_. ------------------------- Products running Sapphire ------------------------- Sapphire is running on millions of the following devices: * Google Nest Hub (1st Gen) * Google Nest Hub (2nd Gen) * Google Nest Hub Max ------------------ Supported features ------------------ GAP === .. include:: host/gap/docs.rst :start-after: .. supported-features-start :end-before: .. supported-features-end L2CAP ===== .. include:: host/l2cap/docs.rst :start-after: .. supported-features-start :end-before: .. supported-features-end ATT === .. include:: host/att/docs.rst :start-after: .. supported-features-start :end-before: .. supported-features-end ------------ Contributing ------------ .. _module-pw_bluetooth_sapphire-building: Building ======== The following commands will build test binaries for the host platform. The tests use GoogleTest so they are not supported by the default build configuration. .. tab-set:: .. tab-item:: Bazel .. code-block:: console bazelisk build --config googletest //pw_bluetooth_sapphire/host/... .. tab-item:: GN First, install the boringssl, emboss, and googletest packages with ``pw package``. .. code-block:: console pw package install boringssl pw package install emboss pw package install googletest Next, configure the GN args for all of the packages and backends that Sapphire uses. For example: .. code-block:: console gn args out .. code-block:: console dir_pw_third_party_boringssl = "/path/to/pigweed/.environment/packages/boringssl" dir_pw_third_party_emboss = "/path/to/pigweed/.environment/packages/emboss" dir_pw_third_party_googletest = "/path/to/pigweed/.environment/packages/googletest" pw_bluetooth_sapphire_ENABLED = true pw_unit_test_MAIN = "//third_party/googletest:gmock_main" pw_unit_test_BACKEND = "//pw_unit_test:googletest" pw_function_CONFIG = "//pw_function:enable_dynamic_allocation" pw_chrono_SYSTEM_CLOCK_BACKEND = "//pw_chrono_stl:system_clock" pw_chrono_SYSTEM_TIMER_BACKEND = "//pw_chrono_stl:system_timer" pw_async_TASK_BACKEND = "//pw_async_basic:task" pw_async_FAKE_DISPATCHER_BACKEND = "//pw_async_basic:fake_dispatcher" Finally, build with ``pw watch``. Running tests ============= .. tab-set:: .. tab-item:: Bazel Run all tests: .. code-block:: console bazelisk test --config googletest //pw_bluetooth_sapphire/host/... Run l2cap tests with a test filter, logs, and log level filter: .. code-block:: console bazelisk test --config googletest //pw_bluetooth_sapphire/host/l2cap:l2cap_test \ --test_arg=--gtest_filter="*InboundChannelFailure" \ --test_output=all \ --copt=-DPW_LOG_LEVEL_DEFAULT=PW_LOG_LEVEL_ERROR .. tab-item:: GN The easiest way to run GN tests is with ``pw presubmit``, which will install dependencies and set GN args correctly. .. code-block:: console $ pw presubmit --step gn_chre_googletest_nanopb_sapphire_build You can also use ``pw watch`` if you install required packages and set your GN args as described in the :ref:`Building ` section. Clangd support ============== In order to use :ref:`module-pw_ide` to generate a compilation database for Clangd, you must first configure your GN args as described in the :ref:`Building ` GN tab. ------- Roadmap ------- * Support CMake * Implement :ref:`module-pw_bluetooth` APIs * Optimize memory footprint * Add metrics * Add configuration options (LE only, Classic only, etc.) * Add CLI for controlling stack over RPC .. toctree:: :maxdepth: 1 fuchsia size_report reference .. _fuchsia/prebuilt/bt-host: https://chrome-infra-packages.appspot.com/p/fuchsia/prebuilt/bt-host .. _fuchsia/prebuilt/bt-hci-virtual: https://chrome-infra-packages.appspot.com/p/fuchsia/prebuilt/bt-hci-virtual .. _pigweed-linux-bazel-bthost: https://ci.chromium.org/ui/p/pigweed/builders/pigweed.ci/pigweed-linux-bazel-bthost .. _GN presubmit step: https://cs.opensource.google/pigweed/pigweed/+/main:pw_presubmit/py/pw_presubmit/pigweed_presubmit.py?q=gn_chre_googletest_nanopb_sapphire_build