This repository contains a Dockerfile for the Android Debug Bridge. It gives you access to platform tools such as adb and fastboot.
- 2016-07-02 The image now uses Alpine as the base image, making it way smaller. Furthermore, downloading the platform tools is now done in a more cunning way, further removing almost all dependencies and reducing image size. Only platform-tools are now included.
- 2016-07-02 Due to internal ADB changes our previous start command no longer works in the latest version. The command has been updated, but if you were specifying it yourself, make sure you're using
adb -a -P 5037 server nodaemon. Do NOT use thefork-serverargument anymore. - 2016-07-02 The
.androiddirectory path has been fixed. Thanks to @alexislg2 for spotting it!
- The container needs extended privileges for USB access
- The host's
/dev/bus/usbmust be mounted on the container
The container is preloaded with an RSA key for authentication, so that you won't have to accept a new key on the device every time you run the container (normally the key is generated on-demand by the adb binary). While convenient, it means that your device will be accessible over ADB to others who possess the key. You can supply your own keys by using -v /your/key_folder:/root/.android with docker run.
If you feel like the platform tools are out of date and can't wait for a new image, you can update the platform tools with the following command:
update-platform-tools.shIt's in /usr/local/bin and therefore already in $PATH.
There are various ways to use this image. Some of the possible usage patterns are listed below. It may sometimes be possible to mix them depending on the case. Also, you don't have to limit yourself to the patterns mentioned here. If you can find another way that works for you, go ahead.
This usage pattern shares the ADB server container's network with ADB client containers.
Start the server:
docker run -d --privileged -v /dev/bus/usb:/dev/bus/usb --name adbd sorccu/adb
Then on the same machine:
docker run --rm -ti --net container:adbd sorccu/adb adb devices
docker run --rm -i --net container:adbd ubuntu nc localhost 5037 <<<000chost:devices
Pros:
- No port redirection required
- No need to look up IP addresses
adb forwardworks without any tricks (but forwards will only be accessible to the client containers)
Cons:
- Cannot use bridged (or any other) network on the client container
- Only works if the server and client containers run on the same machine
This usage pattern binds the ADB server directly to the host.
Start the server:
docker run -d --privileged --net host -v /dev/bus/usb:/dev/bus/usb --name adbd sorccu/adb
Then on the same machine:
docker run --rm -ti --net host sorccu/adb adb devices
docker run --rm -i --net host ubuntu nc localhost 5037 <<<000chost:devices
Or on another machine:
docker run --rm -ti sorccu/adb adb -H x.x.x.x -P 5037 devices
Pros:
- No port redirection required
- No need to look up IP addresses
adb forwardworks without any tricks (and forwards are visible from other machines)- No docker network overhead
- ADB server visible from other machines
Cons:
- ADB server visible from other machines unless the startup command is modified
- Client containers must always use host networking or know the machine's IP address
This usage pattern shares the ADB server container's network with ADB client containers.
Start the server:
docker run -d --privileged -v /dev/bus/usb:/dev/bus/usb --name adbd sorccu/adb
Then on the same machine:
docker run --rm -ti --link adbd:adbd sorccu/adb \
sh -c 'adb -H $ADBD_PORT_5037_TCP_ADDR -P 5037 devices'
Pros:
- No port redirection required
- No need to manually look up IP addresses
adb forwardworks without any tricks (but forwards will only be accessible to the client containers over the designated IP)
Cons:
- Need to always pass the server IP to
adbwith-H $ADBD_PORT_5037_TCP_ADDR - Need to be careful when running the container so that variables get replaced inside the container and not in the calling shell
- Only works if the server and client containers run on the same machine
This usage pattern works best when you want to access the ADB server from a remote host.
Start the server:
docker run -d --privileged -v /dev/bus/usb:/dev/bus/usb --name adbd -p 5037:5037 sorccu/adb
Then on the client host:
docker run --rm -ti sorccu/adb adb -H x.x.x.x -P 5037 devices
Where x.x.x.x is the server host machine.
Pros:
- Scales better (can use any number of hosts/clients)
- No network limitations
Cons:
- Need to be aware of IP addresses
- Higher latency
- You'll need to make other ports (e.g. from
adb forward) accessible yourself
Sample systemd units are provided in the systemd/ folder.
| Unit | Role | Purpose |
|---|---|---|
| adb-image.service | Support | Pulls the image from Docker Hub. |
| adbd-container.service | Support | Creates a container for the ADB daemon based on the adb image, but doesn't run it. |
| adbd.service | Primary | Runs the prepared ADB daemon container and makes sure it stays alive. |
This 3-unit configuration, while slightly complex, offers superior benefits such as incredibly fast start time on failure since everything has already been prepared for adbd.service so that it doesn't have to do any extra work. The adb image will only get pulled once at boot time instead of at every launch (or manually by calling systemctl restart adb-image, which will also restart the other units).
Copy the units to /etc/systemd/system/ on your target machine.
Then, enable adbd.service so that it starts automatically after booting the machine:
systemctl enable adbdFinally, either reboot or start the service manually:
systemctl start adbdIf you change the units, don't forget to run systemctl daemon-reload or they won't get updated.
- Jérôme Petazzoni's post on the docker-user forum explaining USB device access
- @sgerrand for sgerrand/alpine-pkg-glibc
- @frol for frol/docker-alpine-glibc
See LICENSE.