Note: If there‘s anything you want to see done in the NDK, file a bug! Nothing here is set in stone, and if there’s something that we haven‘t thought of that would be of more use, we’d be happy to adjust our plans for that.
Disclaimer: Everything here is subject to change. The further the plans are in the future, the less stable they will be. Things in the upcoming release are fairly certain, and the second release is quite likely. Beyond that, anything written here is what we would like to accomplish in that release assuming things have gone according to plan until then.
Note: For release timing, see our release schedule on our wiki.
Every NDK release aims to include a new toolchain, new headers, and a new version of libc++.
We also maintain GitHub Projects to track the bugs we intend to fix in any given NDK release.
The NDK and the Android OS use the same toolchain. Android's toolchain team is constantly working on updating to the latest upstream LLVM for the OS. It can take a long time to investigate issues when compiling -- or issues that the newer compiler finds in -- OS code or OEM code, for all 4 supported architectures, so these updates usually take a few months.
Even then, a new OS toolchain may not be good enough for the NDK. In the OS, we can work around compiler bugs by changing our code, but for the NDK we want to make compiler updates cause as little disruption as possible. We also don't want to perform a full compiler update late in the NDK release cycle for the sake of stability.
The aim is that each NDK will have a new toolchain that‘s as up to date as feasible without sacrificing stability, but we err on the side of stability when we have to make a choice. If an NDK release doesn’t include a new compiler, or that compiler isn‘t as new as you’d hoped, trust us --- you wouldn't want anything newer that we have just yet!
Most of the team's work is currently focused outside the NDK proper, so while the NDK release notes may seem a bit sparse, there are still plenty of improvements coming for NDK users:
https://github.com/android/ndk/issues/1299
Migration of all the tools involved in an NDK build to be fat binaries will land over the course of a few releases. LLVM was shipped as universal binaries in r23b, and the rest of the tools are expected to move in r24. Further backports to r23 are unclear because they may risk destabilizing the release.
https://github.com/android/ndk/issues/1041
Port thread sanitizer for use with NDK apps, especially in unit/integration tests.
Shipping GTest/GMock prebuilts to Maven as AARs for easy integration into AGP projects. Also shipping GTestJNI to allow exposing native tests to AGP as JUnit tests.
We still need to update libc++ twice: once for the platform, and once for the NDK. We also still have two separate test runners. We're consolidating all of these in one place (the toolchain) so that all LLVM updates include libc++ updates.
We‘re working with the Jetpack team to build the infrastructure needed to start producing C++ Jetpack libraries. Once that’s done we can start using Jetpack to ship helper libraries like libnativehelper, or C++ wrappers for the platform's C APIs. Wrappers for NDK APIs would also be able to, in some cases, backport support for APIs to older releases.
The following projects are listed in order of their current priority.
Note that some of these projects do not actually affect the contents of the NDK package. The samples, documentation, etc are all NDK work but are separate from the NDK package. As such they will not appear in any specific release, but are noted here to show where the team's time is being spent.
The following projects are things we intend to do, but have not yet been scheduled into the sections above.
Before we can take on maintenance for additional packages we need to improve the tooling for ndkports. Automation for package updates, testing, and the release process would make it possible to expand.
We should probably add basic doc comments to the bionic headers:
char*
point to? Who owns it? Are errors -1 (as for most functions) or <errno.h>
values (for pthread_mutex_lock
)?Should these be in the NDK API reference too? If so, how will we keep them from swamping the “real” NDK API?
vim is ready, Android Studio now supports doxygen comments (but seems to have gained a new man page viewer that takes precedence), and Visual Studio Code has nothing but feature requests.
Beyond writing the documentation, we also should invest some time in improving the presentation of the NDK API reference on developer.android.com.
The samples are low-quality and don't necessarily cover interesting/difficult topics.
The NDK has long included gtest
and clang supports various sanitiziers, but there are things we can do to improve the state of testing/code quality:
NDK APIs are C-only for ABI stability reasons.
We should offer C++ wrappers as part of an NDK support library (possibly as part of Jetpack), even if only to offer the benefits of RAII. Examples include Bitmap, ATrace, and ASharedMemory.
Complaints about basic JNI handling are common. We should make libnativehelper available as an AAR.
For serious i18n, icu4c
is too big too bundle, and non-trivial to use the platform. We have a C API wrapper prototype, but we need to make it easily available for NDK users.
iOS developers are used to using weak symbols to refer to function that may be present in their equivalent of targetSdkVersion
but not in their minSdkVersion
. We could potentially do something similar. See issue 1003.
The sysroot in the NDK is currently inherently a part of the NDK because it includes libc++ as well as some versioned artifacts like the CRT objects (with the ELF note identifying the NDK version that produced them) and android/ndk-version.h
. Moving libc++ to the toolchain solves that coupling, and the others are probably tractable.
While we'd always include the latest stable sysroot in the NDK toolchain so that it works out of the box, allowing the sysroot to be provided as a separate SDK package makes it easier for users to get new APIs without getting a new toolchain (via compileSdkVersion
the same way it works for Java) and also easier for us to ship sysroot updates for preview API levels because they would no longer require a full NDK release.
Leak sanitizer has not been ported for use with Android apps but would be helpful to app developers in tracking down memory leaks.
The Linux NDK is currently dependent on the version of glibc it was built with. To keep the NDK compatible with as many distributions as possible we build against a very old version of glibc, but there are still distros that we are incompatible with (especially distros that use an alternative libc!). We could potentially solve this by statically linking all our dependencies and/or by switching from glibc to musl. Not all binaries can be static executables because they require dlopen for plugin interfaces (even if our toolchain doesn't currently attempt to support user-provided compiler plugins, Polly is distributed this way, and we may want to offer such support in the future) so there are still some open questions.
https://rr-project.org/ is a C/C++ debugger that supports replay debugging. We should investigate what is required to support that for Android.
Full history is available, but this section summarizes major changes in recent releases.
Migrated all ABIs from libgcc to the LLVM unwinder and libclang_rt. Finished migration to LLVM binutils from GNU binutils (with the exception of as
, which remains for one more release). Integrated upstream and NDK CMake support.
Updated toolchain and libc++. libc++ now supports std::filesystem
. Make updated to 4.3. LLDB included and usable (via --lldb
) with ndk-gdb. Replaced remaining GNU binutils tools with LLVM tools, deprecated GNU binutils. LLD is now the default.
We shipped Prefab and the accompanying support for the Android Gradle Plugin to support native dependencies. AGP 4.0 includes the support for importing these packages, and 4.1 includes the support for creating AARs that support them.
We also maintain a few packages as part of ndkports. Currently just curl, OpenSSL, and JsonCpp.
Updated Clang, LLD, libc++, make, and GDB. Much better LLD behavior on Windows. 32-bit Windows support removed. Neon by default for all API levels. OpenMP now available as both a static and shared library.
Updated Clang and libc++, added Q APIs. Improved out-of-the-box Clang behavior.
Reorganized the toolchain packaging and modified Clang so that standalone toolchains are now unnecessary. Clang can now be invoked directly from its installed location in the NDK.
C++ compilation defaults to C++14.
Removed GCC and gnustl/stlport. Added lld.
Added compile_commands.json
for better tooling support.
Defaulted to libc++.
Removed ARMv5 (armeabi), MIPS, and MIPS64.
Fixed libandroid_support, libc++ now the recommended STL (but still not the default).
Removed non-unified headers.
Defaulted to unified headers (opt-out).
Removed support for API levels lower than 14 (Android 4.0).
Added unified headers (opt-in).
Added simpleperf.
Removed armeabi-v7a-hard.
Removed support for API levels lower than 9 (Android 2.3).