commit | def6edb5e2eab4442bd2591795a83e74ac626931 | [log] [tgz] |
---|---|---|
author | Anthony Stange <stange@google.com> | Tue Apr 13 21:53:42 2021 +0000 |
committer | Anthony Stange <stange@google.com> | Tue Apr 20 17:38:27 2021 +0000 |
tree | 41076ff63eeb9f473973ee892f051f37a52dc544 | |
parent | 8a61a45a6ae61fb695f42c86d4969bc5e91c4109 [diff] |
Support targeting events to specific groups of apps Up until this point, events could only be targeted to a single nanoapp or all nanoapps that are registered for a given event type. With this CL, events can now be targeted to a subset of nanoapps registered for a given event type. This can be used to allow events that cause different power usages depending on the receipient nanoapp to be further targeted to only a subset of nanoapps that need to actually consume that event type at that moment. As a concrete example, this can be used to replace big-image sensor types in SLPI and the same sensor type can be reused for (e.g. accel), but under the hood, the sensor driver can split requests for accel between big-image and micro-image and deliver accel data events to the right subset of nanoapps. Bug: 177324066 Test: Load CHRE and verify apps continue to work with noone using the new targeting yet Change-Id: I4ee3801ea04d0840f8208aa49e9a113d88fcf552
This project contains the AOSP reference implementation of the Context Hub Runtime Environment (CHRE), which is Android’s platform for developing always-on applications, called nanoapps. CHRE runs in a vendor-specific processor that is independent of the main applications processor that runs Android. This enables CHRE and its nanoapps to be more power-efficient for use cases that require frequent background processing of contextual data, like sensor inputs. Nanoapps are written to the CHRE API, which is standardized across all platforms, enabling them to be code-compatible across different devices.
The CHRE reference implementation (“CHRE framework”) is designed to be portable across hardware and software platforms. While Android does not require a particular implementation (only compliance to the contracts given in the CHRE API) using the reference implementation helps to reduce the work needed to support CHRE, while also ensuring more consistent behavior for scenarios that can be difficult to enforce via testing.
Use the navigation bar at the top and/or the links below to move through the documentation. Raw files can also be found in the /doc
folder.
The CHRE API and PAL API are also extensively documented using Doxygen syntax. Run doxygen
in the same folder as Doxyfile
to generate a browseable HTML version of the documentation.
This repository (system/chre) contains an assortment of code, structured as follows:
apps/
: Public nanoapp source code, including sample nanoapps intended to showcase how to use the CHRE APIs, and test nanoapps used to validate API functionalitybuild/
: Files related to CHRE’s Makefile-based build system, which supports building the CHRE framework and nanoapps using a configurable toolchainchpp/
: Context Hub Peripheral Protocol (CHPP) source code - see the nested README and associated documentation for detailschre_api/
: Contains the official definition of the CHRE API (current and past versions), which all CHRE implementations must adhere tocore/
: Common CHRE framework code, which is applicable to every platform (contrast to platform/
)doc/
: Contains documentation for the CHRE framework and associated topicsexternal/
: Code developed primarily outside of AOSP which (can be) leveraged by CHRE, and is potentially customized for CHRE (e.g. flatbuffers)host/
: Reference code which supports the CHRE implementation, but runs on the applications processor (“host”), for example the Context Hub HALjava/
: Java test code used in conjunction with test nanoappspal/
: The binary-stable Platform Abstraction Layer (PAL) C API definitions and tests (these PALs may optionally be used by the platform implementation)platform/
: Code related to the implementation of CHRE on a particular platform/device (compare to core/
), divided into sub-folders as follows:platform/include
: The interface between common code in core/
and platform-specific code implemented elsewhere in platform/
platform/shared
: Code that may apply to multiple platforms, but is not necessarily applicable to all platforms (as in core/
). For example, multiple platforms may choose to use the binary-stable PAL interface - this folder contains source files translating from the C++ platform abstractions to the C PAL APIs.platform/<platform_name>
: Code specific to the platform indicated by platform_name
util/
: Utility code that is not platform-specific, but not part of the core framework implementation. Includes code that is usable by nanoapps.variant/
: Code/configuration that is specific to a particular device (more detail on variants can be found below). For example, multiple generations of a given chip may use the same platform code, but the code may be configured on a per-device basis in the build via variant.mk
.Code related to CHRE also exists in other parts of the Android tree, including:
hardware/interfaces/contexthub/
: The Context Hub HAL definitionframeworks/base/core/java/android/hardware/location/ContextHub*.java
: The APIs used by privileged apps to interact with CHRE and nanoappsframeworks/base/services/core/java/com/android/server/location/ContextHub*.java
: The Context Hub service implementation in system serverIf you’re unable to find the answers you’re looking for in CHRE documentation or are looking for specific guidance for your platform, device, or nanoapp, please reach out to the CHRE team via your TAM or through the Google Issue Tracker.