Libraries and tools for Rust programming on Android targets:
Name | Description | Badges |
---|---|---|
ndk-sys |
Raw FFI bindings to the NDK | |
ndk |
Safe abstraction of the bindings | |
ndk-glue |
Startup code | |
ndk-build |
Everything for building apk's | |
cargo-apk |
Build tool |
See ndk-examples
for examples using the NDK and the README files of the crates for more details.
android-ndk-rs
aims to support at least the LTS
and Rolling Release
branches of the NDK, as described on their wiki. Additionally the Beta Release
might be supported to prepare for an upcoming release.
As of writing (2021-07-24) the following NDKs are tested:
Branch | Version | Status | Working |
---|---|---|---|
r18 | 18.1.5063045 | Deprecated | ❌ |
r19 | 19.2.5345600 | Deprecated | ✔️ |
r20 | 20.1.5948944 | Deprecated | ✔️ |
r21 | 21.4.7075529 | Deprecated | ✔️ |
r22 | 22.1.7171670 | Deprecated | ✔️ |
r23 | beta 1/2 | Deprecated | ✔️ |
r23 | 23.0.7272597-beta3 | Deprecated | ✔️ Workaround in #189 |
r23 | 23.1.7779620 | LTS | ✔️ Workaround in #189 |
r24 | 24.0.7856742-beta1 | Rolling Release | ✔️ Workaround in #189 |
Quick start for setting up a new project with support for Android. For communication with the Android framework in our native Rust application we require a NativeActivity
. ndk-glue
will do the necessary initialization when calling main
but requires a few adjustments:
Cargo.toml
[lib]
crate-type = ["lib", "cdylib"]
Wraps main
function using attribute macro ndk::glue::main
:
src/lib.rs
#[cfg_attr(target_os = "android", ndk_glue::main(backtrace = "on"))]
pub fn main() {
println!("hello world");
}
src/main.rs
fn main() {
$crate::main();
}
Install cargo apk
for building, running and debugging your application:
$ cargo install cargo-apk
We can now directly execute our Hello World
application on a real connected device or an emulator:
$ cargo apk run
Stdout is redirected to the android log api when using ndk-glue
. Any logger that logs to
stdout, like println!
, should therefore work.
Use can filter the output in logcat
$ adb logcat RustStdoutStderr:D *:S
Android logger can be setup using feature "logger" and attribute macro like so:
src/lib.rs
#[cfg_attr(target_os = "android", ndk_glue::main(logger(level = "debug", tag = "my-tag")))]
pub fn main() {
log!("hello world");
}
Android APKs contain a file called AndroidManifest.xml
, which has things like permission requests and feature declarations, plus configuration of activities, intents, resource folders and more. This file is autogenerated by cargo-apk
. To control what goes in it through Cargo.toml, refer to cargo-apk
's README.
The macro ndk_glue::main
tries to determine crate names from current Cargo.toml.
In cases when it is not possible the default crate names will be used.
You can override this names with specific paths like so:
#[ndk_glue::main(
ndk_glue = "path::to::ndk_glue",
)]
fn main() {}
Java Native Interface (JNI) allows executing Java code in a VM from native applications.
ndk-examples
contains an jni_audio
example which will print out all output audio devices in the log.
jni
, JNI bindings for Rust