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Automate the installation and running of the Android developer tools on Windows, macOS, and Linux. Create Android emulators.
Automate the installation and running of the Android developer tools on Windows, macOS, and Linux. Create Android emulators.
Andromatic is a Node.js module that automates the installation and usage of the Android development tools that are distributed as part of the Android SDK, such as adb
, emulator
, dexdump
, aapt
, cmake
, etc. on Windows, macOS, and Linux. It automatically downloads and manages the required packages for you on demand using sdkmanager
, and provides functions to get the path or run any tool with a given version. It also automatically downloads a suitable version of Java if it isn't installed already. This is especially useful if you are writing a library that depends on (some of) these tools but don't want your users to have to install them manually.
In particular, andromatic can install and run the tools from the following SDK packages for you:
In addition, you can also install any other packages supported by sdkmanager
, such as the NDK and system images, but there is no special additional handling for these.
Andromatic automatically creates and manages an $ANDROID_HOME
directory for you in your operating system's default cache directory. If you already have another Android SDK installation, andromatic will not use or interfere with that.
A few things to keep in mind:
plugdev
group (sudo usermod -aG plugdev <username>
) and have udev
rules for your device (sudo apt install android-sdk-platform-tools-common
). For other distributions, see android-udev-rules.sdkmanager
, it downloads the packages from https://dl.google.com
. If no Java installation was found, it downloads binaries from the Adoptium project. Be aware of the privacy implications.Finally, andromatic can also create and manage Android emulators for you using avdmanager
. It will automatically install the necessary packages for the system image you specified and create the emulator for you.
You can install andromatic using yarn or npm:
yarn add andromatic
# or `npm i andromatic`
A full API reference can be found in the docs
folder.
You can run tools through the runAndroidDevTool()
function. The first time you use a new tool, it will be downloaded and installed automatically. This might take a moment. Subsequent uses will be much faster, as the tool will already be installed.
Here is how you would run adb devices
and print the output:
import { runAndroidDevTool } from 'andromatic';
(async () => {
const { stdout } = await runAndroidDevTool('adb', ['devices']);
console.log(stdout);
})();
Note how we didn't specify a version. In this case, andromatic will automatically use either the latest installed version of the tool (if it was installed already) or download the latest available version otherwise.
runAndroidDevTool()
is a wrapper around execa
. As such, it also takes optional array of arguments to pass to the tool (we passed devices
here), and an optional object of options to pass to execa. It returns a promise that resolves to the result from execa
, which contains properties such as stdout
, stderr
, exitCode
, etc.
If you want, you can also use a particular version of a tool. For this, pass an object with the tool's name and the package version you want to use instead of just a string:
import { runAndroidDevTool } from 'andromatic';
(async () => {
const { stdout } = await runAndroidDevTool(
{ tool: 'aapt', packageVersion: '32.0.0' },
['dump', 'badging', 'app.apk']
);
console.log(stdout);
})();
As before, if you didn't have version 32.0.0 of the build tools (which aapt
is part of) installed already, andromatic will automatically download and install it for you. Note that the version we specified was not the version of aapt
itself, but the version of the build tools package that contains it.
Some packages in the Android SDK (like the platform tools) are unversioned. For these, you cannot specify an explicit version. Andromatic will always use the installed version if available, or download the latest version otherwise. If you want to update your installed packages, you can use the updatePackages()
function:
import { updatePackages } from 'andromatic';
(async () => {
await updatePackages();
})();
If you want, you can also install packages and tools manually without running them. This is especially useful if you want to prepare your environment to ensure that tools load quickly when you actually want to use them (if you depend on andromatic in your own library, you could for example do this in a postinstall
script). For this, you have two options:
import { installAndroidDevTool, installPackages } from 'andromatic';
(async () => {
// You can either specify individual tools to install using the
// `installAndroidDevTool()` function, which will automatically
// figure out which packages to install for you…
// Install `adb` by downloading the latest available platform tools.
// If you already have have them installed, they will not be updated.
await installAndroidDevTool('adb');
// Install `dexdump` from version 31.0.0 of the build tools.
await installAndroidDevTool(
{ tool: 'dexdump', packageVersion: '31.0.0' }
);
// …or you can use the `installPackages()` function to specify the
// specific `sdkmanager` packages you want to install.
// Install version 9.0 of the commandline tools, and version
// 3.6.4111459 of cmake.
await installPackages('cmdline-tools;9.0', 'cmake;3.6.4111459');
})();
Finally, andromatic provides the following more advanced functions:
listPackages()
gives you an array of available packages that can be installed by sdkmanager
, each with their path, version, and description.getAndroidDevToolPath()
returns the path to a tool's executable (and optionally installs it if necessary) without running it.You can also create emulators through the createEmulator()
function. The first time you create an emulator with a new system image, it will be downloaded and installed automatically. This might take some time. Subsequent creations will be much faster, as the system image will already be installed.
Here is how you would create an emulator named test
with Android 13, Google APIs and the Play Store, emulating a Pixel 2 device with 16 GB of storage:
import { createEmulator } from 'andromatic';
(async () => {
await createEmulator('test', {
apiLevel: 33,
variant: 'google_apis_playstore',
architecture: 'x86_64',
device: 'pixel_2',
partitionSize: 16384,
});
})();
Note how we specified the system image using the apiLevel
, variant
and architecture
properties. Alternatively, you can also manually specify the system image using the package
property, which should match the path used by sdkmanager
. For example, to create an emulator with the same system image as before, you could also do:
import { createEmulator } from 'andromatic';
(async () => {
await createEmulator('test', {
package: 'system-images;android-33;google_apis_playstore;x86_64',
device: 'pixel_2',
});
})();
To run the emulator you created, you can use the runAndroidDevTool
, for example:
import { runAndroidDevTool } from 'andromatic';
(async () => {
await runAndroidDevTool('emulator', ['-avd', 'test']);
})();
Andromatic also provides a command-line tool that you can use to install packages and tools without writing any code. Support for running tools is planned for the future.
You can use the andromatic-install
command to install packages and tools.
In package mode, you can specify one or more paths to Android SDK packages that you want to install using the -p
or --package
option. The paths should match the ones used by sdkmanager
. For example, to install the latest version of the command-line tools and version 29.0.1 of the build tools, you would run:
andromatic-install -p "cmdline-tools;latest" -p "build-tools;29.0.1"
In tool mode, you can specify the name of a tool from the Android SDK that you want to install using the -t
or --tool
option. Andromatic will automatically figure out which package contains the tool and install it for you. You can optionally specify a version of the package to install the tool from using the -v
or --package-version
option. For example, to install the dexdump
tool from version 31.0.0 of the build tools, you can run:
andromatic-install -t dexdump -v 31.0.0
For more details and options, run andromatic-install --help
:
andromatic-install [command]
Commands:
andromatic-install autocomplete generate completion script
Install `sdkmanager` packages:
-p, --package Path(s) to Android SDK package(s) to install. [array]
Install an individual tool:
-t, --tool Tool from the Android SDK to install. [string]
-v, --package-version Version of the package to install the tool from.
[string]
Options:
--help Show help [boolean]
--version Show version number [boolean]
Examples:
andromatic-install Install two `sdkmanager`
-p "system-images;android-33;google_apis;x86_64" packages.
-p "platforms;android-33"
andromatic-install -t aapt Install the latest version
of the `aapt` tool.
andromatic-install -t aapt -v 30.0.3 Install the `aapt` tool from
the `build-tools;30.0.3`
package.
This code is licensed under the MIT license, see the LICENSE
file for details.
Issues and pull requests are welcome! Please be aware that by contributing, you agree for your work to be licensed under an MIT license.
FAQs
Automate the installation and running of the Android developer tools on Windows, macOS, and Linux. Create Android emulators.
The npm package andromatic receives a total of 0 weekly downloads. As such, andromatic popularity was classified as not popular.
We found that andromatic demonstrated a healthy version release cadence and project activity because the last version was released less than a year ago. It has 0 open source maintainers collaborating on the project.
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