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2021年8月9日 (月) 17:54時点における版
関連記事
Anbox は GNU/Linux ディストリビューションで Android を実行するための コンテナベース のソフトウェアです。
Prerequisite
You need to run a kernel which comes with the ashmem and binder modules. They are not part of Arch Linux's default kernel (linux), thus you need to install a kernel which ships these modules. You might also need to configure your bootloader to use a different kernel. You have multiple options:
Using Linux-Zen
The linux-zen kernel includes the necessary modules. This might be the most comfortable way, as you do not have to compile the kernel (which takes a long time) and will receive updated versions regularly.
Building a kernel
Alternatively, you can recompile the linux kernel — or other kernel packages (>=5.7) — with the necessary options. Please read Kernel#Compilation and Necessary config options below. You can also build a kernel package that already includes the specific patches from AUR, see AUR search "linux+anbox".
Necessary config options
Modules can either be compiled into the kernel (y
), into modules (m
), or not at all (n
). Also, not all combinations in the config are possible, and some options will require other options.
The config options below will compile ashmem and binder as modules, while the last option specifies that there will be three devices created in the /dev/
directory, when the binder module is loaded.
CONFIG_ASHMEM=m CONFIG_ANDROID=y CONFIG_ANDROID_BINDER_IPC=m CONFIG_ANDROID_BINDERFS=n CONFIG_ANDROID_BINDER_DEVICES="binder,hwbinder,vndbinder"
When building a kernel from the AUR, one can do it with these steps:
- run
makepkg --nobuild
, which will download the sources, verify and extract them and run theprepare()
function. - edit the
.config
file (with the dot in the filename), which is located at the base of the kernel directory. - at the end of the
prepare()
function was probably a command which regenerates the makefiles with information from the config, possiblymake olddefconfig
. Move that to thebuild()
function, or execute it yourself. - run
makepkg --noextract
, which will continue from the place wheremakepkg --nobuild
stopped.
config using binderfs
Not everybody was happy with the binder module in Linux. To address the issues, binderfs was created. One has to choose between the old and the new way when compiling the kernel. With the options below one will use binderfs instead.
With the kernel sources comes also a simple script to set config options. It will not do dependency checks, just like when editing the config by hand. When being in the same directory where the .config
file lies, one can execute the following commands:
scripts/config --module CONFIG_ASHMEM scripts/config --enable CONFIG_ANDROID scripts/config --enable CONFIG_ANDROID_BINDER_IPC scripts/config --enable CONFIG_ANDROID_BINDERFS scripts/config --set-str CONFIG_ANDROID_BINDER_DEVICES ""
This script is handy when building a kernel from the AUR, as it is enough to insert these lines at the right place in the PKGBUILD.
Booting the new kernel
Please refer to the wiki page of your bootloader, to find out, how to boot with the new kernel. Booting into a newer kernel (version) is one of the few occasions when you have to reboot a Linux system. You should do that before starting Anbox.
インストール
Loading the modules
Anbox does not load the modules on demand, starting an app will fail if they are not loaded. Linux-zen kernel provide them built in and you do not need to load.
To load them right now, use:
# modprobe -a binder-linux ashmem-linux
To load them always at boot, one can load them via the systemd-modules-load.service
. To do so, create a file inside /etc/modules-load.d/
, which contains the lines:
/etc/modules-load.d/anbox.conf
ashmem_linux binder_linux
Mounting binderfs
If your kernel uses binderfs, there is one more step to do: Mounting a binder filesystem.
Firstly, you will need a mountpoint. By default, Anbox will look at /dev/binderfs
. You can create that directory now, but it will be removed at boot time.
You can use systemd-tmpfiles to create this directory at boot time. For that, create a file in /etc/tmpfiles.d/
with the content:
/etc/tmpfiles.d/anbox.conf
d! /dev/binderfs 0755 root root
Secondly, you need to mount the binder filesystem. This can be done by
# mount -t binder none /dev/binderfs
To mount it always at boot, add a line in the fstab. Using the option nofail
here will not greet you with a recovery shell when you are booting a kernel without binderfs support (such as the standard kernel).
/etc/fstab
none /dev/binderfs binder nofail 0 0
Install Android Image
Install one of these images:
- anbox-imageAUR (official Anbox image)
- anbox-image-houdiniAUR (includes Houdini)
- anbox-image-houdini-rootedAUR (includes Houdini and SuperSU)
- anbox-image-gappsAUR (includes Houdini and OpenGApps)
- anbox-image-gapps-rootedAUR (includes Houdini, OpenGApps and SuperSU)
- You can find more images in the AUR, search for anbox-image.
Install Anbox
Afterwards. start/enable anbox-container-manager.service
.
You have now all the required steps done to use Anbox! In the menu of your desktop environment, you should find several entries in the category Others
, which can now be launched.
The first call will take longer. Behind the scenes, anbox session-manager
will be launched. For testing purposes, you can also execute anbox session-manager
manually in a terminal. That is very useful if anbox crashes and you want to report or fix the bug. Just launch it, and wait until it crashes (if ever).
There is also a systemd unit for users, which can be used to start the session-manager on bootup. An advantage is that you can use journalctl --user -b -u anbox-session-manager
to find logs about what happened in case of a crash. Keep in mind though, that when it crashes and you start a new app, it will also start the session-manager, but it will be run independently from systemd. To start and enable the unit, run
$ systemctl --user enable --now anbox-session-manager.service
Network
Via NetworkManager
If you are using NetworkManager you can use it to configure the networking. Execute the following command to create the bridge connection:
$ nmcli con add type bridge ifname anbox0 -- connection.id anbox-net ipv4.method shared ipv4.addresses 192.168.250.1/24
ifname anbox0
specifies the bridge interface name, in this caseanbox0
. Do not change this as Anbox will only detect the bridge interface if it is namedanbox0
.connection.id anbox-net
specifies the name of the connection to beanbox-net
when it appears in NetworkManager. You can change this if you wish.ipv4.method shared
instructs NetworkManager to create a NAT network and route outgoing packets according to the system routing rules. For that, the dnsmasq package is required. dnsmasq does not needs to be configured or be started as systemd service, it will be used behind the scenes by NetworkManager — if it is not available, this step will fail silently. You can leave this and theipv4.addresses
parameter out if you wish to attach the Anbox container directly to a specific network, see Network bridge#With NetworkManager. If you choose this option, you must also change the network configuration of the container inanbox-container-manager.service
, see the next bullet point.ipv4.addresses 192.168.250.1/24
specifies the default gateway and subnet of the NAT network. If you wish to change this (e.g. to192.168.42.1/24
) you must also indicate the new subnet to anbox in theanbox-container-manager.service
using:--container-network-address=192.168.42.2/24 --container-network-gateway=192.168.42.1
NetworkManager will automatically setup the bridge every reboot so you only need to execute the command once.
Via systemd-networkd
The package anbox-gitAUR provides configuration files for systemd-networkd
in /usr/lib/systemd/network/
to enable networking in anbox.
Therefore, you can start/enable systemd-networkd
before starting anbox-container-manager.service
.
Via anbox-bridge script
Alternatively you can use the anbox-bridge script used by the project.
You must execute anbox-bridge
every time before starting anbox-container-manager.service
in order to get network working in Anbox. The easiest solution for that is to create a drop-in file for the service.
/etc/systemd/system/anbox-container-manager.service.d/enable-anbox-bridge.conf
[Service] ExecStartPre=/usr/bin/anbox-bridge start ExecStopPost=/usr/bin/anbox-bridge stop
使用方法
anbox 内でネットワークを使えるようにするため anbox
を起動する前に毎回 anbox-bridge
を実行してください。
それから、デスクトップランチャーの Other カテゴリから android アプリケーションを実行できます。
adb を使ってデバッグしたい場合、android-tools をインストールしてください。
$ adb shell
Installing apps
Unless you picked an image with Houdini, Anbox does not have support for ARM applications. So apps must have a x86_64 architecture.
Through adb
To install /path/to/app.apk
$ adb install /path/to/app.apk
To get the list of installed applications
$ adb shell pm list packages
Note that output will be similar to package:app.name
, where app.name
is different from the one displayed in the Anbox container.
To uninstall app.name
$ adb uninstall app.name
If app.name
is a system app
$ adb uninstall --user 0 app.name
Through apps stores
Apps can be easily installed through apps stores. In anbox-image-gappsAUR PlayStore is included.
Sensor data
Via dbus different sensors can be set. Documentation on that can be found at dbus.md.
Temperature data
That is the example from the author (PRs #1522 & #1540):
$ dbus-send --session --dest=org.anbox --print-reply /org/anbox org.freedesktop.DBus.Properties.Set string:org.anbox.Sensors string:Temperature variant:double:25.1
GPS data
(introduced by PR #1606)
GPS sensor data can also be manipulated.
If your PC has a WWAN card, you can use gpsd and the code from the PR to feed Anbox with GPS data. You do not need to have a SIM-Card for GPS.
Otherwise, you can also look at the PR to learn how to feed it fake data with the help of [1].
Root shell
With this script from the Anbox project one can get a root shell inside the Android container.
It is not part of the anbox-gitAUR package, and it also does not use adb.
Tips and tricks
Android developer options
Some extra steps need to be done besides unlocking them the same way you do on an android phone.
When installing the android image, some modifications to products/anbox.xml
are required:
<unavailable-feature name="android.hardware.usb.host" />
is the reason why they are not available.<feature name="android.software.backup" />
will be needed too, to avoid a NullPointerException.
(reference: Github issue #444)
Getting debugging information
Obviously, it is helpful to have debugging symbols in the Anbox build. For that, when compiling Anbox, add options=('!strip')
to the PKGBUILD, as by default they are removed. And, use either -DCMAKE_BUILD_TYPE=RelWithDebInfo
or -DCMAKE_BUILD_TYPE=Debug
in the cmake call.
But there is more to it! Anbox uses backward-cpp. If you do not delete the build files for Anbox, it will print pretty stack traces when crashing, which point out the places in the source code.
Also see the remarks in Install Anbox.
Troubleshooting
If you run into issues, take a look at the official Issue Tracker: [2]
Old CPUs
Anbox requires support for SSE 4.1/4.2 and SSSE 3, because Android wants that too. Some older CPUs do not provide that, so you probably cannot use Anbox, see: Anbox Github Issue 499.
Old kernels
Before the kernel modules were mainlined, they were out of tree modules, which needed to be installed seperately from the kernel (Like it is the case for the nvidia kernel modules). They are not compatible with kernel 5.7 or newer.
It is still possible to use that approach with the linux-lts or other old kernels. The package to install the modules via DKMS is not available in the AUR anymore, but can be retrieved with git clone https://aur.archlinux.org/anbox-modules-dkms
, or resurected from [3].
Secure Boot error
If you get this error message:
modprobe: ERROR: could not insert 'ashmem_linux': Operation not permitted
Secure Boot is likely blocking the module. You can either disable Secure Boot or sign the ashmem module yourself.
More info can be found in the Anbox Github Docs.