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Last pushed: 10 days ago
Short Description
Apache ZooKeeper is an open-source server which enables highly reliable distributed coordination.
Full Description

Supported tags and respective Dockerfile links

(amd64/zookeeper build job)

Quick reference

What is Apache Zookeeper?

Apache ZooKeeper is a software project of the Apache Software Foundation, providing an open source distributed configuration service, synchronization service, and naming registry for large distributed systems. ZooKeeper was a sub-project of Hadoop but is now a top-level project in its own right.

wikipedia.org/wiki/Apache_ZooKeeper

How to use this image

Start a Zookeeper server instance

$ docker run --name some-zookeeper --restart always -d amd64/zookeeper

This image includes EXPOSE 2181 2888 3888 (the zookeeper client port, follower port, election port respectively), so standard container linking will make it automatically available to the linked containers. Since the Zookeeper "fails fast" it's better to always restart it.

Connect to Zookeeper from an application in another Docker container

$ docker run --name some-app --link some-zookeeper:zookeeper -d application-that-uses-zookeeper

Connect to Zookeeper from the Zookeeper command line client

$ docker run -it --rm --link some-zookeeper:zookeeper zookeeper zkCli.sh -server zookeeper

... via docker stack deploy or docker-compose

Example stack.yml for zookeeper:

version: '3.1'

services:
    zoo1:
        image: zookeeper
        restart: always
        hostname: zoo1
        ports:
            - 2181:2181
        environment:
            ZOO_MY_ID: 1
            ZOO_SERVERS: server.1=zoo1:2888:3888 server.2=zoo2:2888:3888 server.3=zoo3:2888:3888

    zoo2:
        image: zookeeper
        restart: always
        hostname: zoo2
        ports:
            - 2182:2181
        environment:
            ZOO_MY_ID: 2
            ZOO_SERVERS: server.1=zoo1:2888:3888 server.2=zoo2:2888:3888 server.3=zoo3:2888:3888

    zoo3:
        image: zookeeper
        restart: always
        hostname: zoo3
        ports:
            - 2183:2181
        environment:
            ZOO_MY_ID: 3
            ZOO_SERVERS: server.1=zoo1:2888:3888 server.2=zoo2:2888:3888 server.3=zoo3:2888:3888

This will start Zookeeper in replicated mode. Run docker stack deploy -c stack.yml zookeeper (or docker-compose -f stack.yml up) and wait for it to initialize completely. Ports 2181-2183 will be exposed.

Please be aware that setting up multiple servers on a single machine will not create any redundancy. If something were to happen which caused the machine to die, all of the zookeeper servers would be offline. Full redundancy requires that each server have its own machine. It must be a completely separate physical server. Multiple virtual machines on the same physical host are still vulnerable to the complete failure of that host.

Consider using Docker Swarm when running Zookeeper in replicated mode.

Configuration

Zookeeper configuration is located in /conf. One way to change it is mounting your config file as a volume:

$ docker run --name some-zookeeper --restart always -d -v $(pwd)/zoo.cfg:/conf/zoo.cfg amd64/zookeeper

Environment variables

ZooKeeper recommended defaults are used if zoo.cfg file is not provided. They can be overridden using the following environment variables.

$ docker run -e "ZOO_INIT_LIMIT=10" --name some-zookeeper --restart always -d 31z4/zookeeper

ZOO_TICK_TIME

Defaults to 2000. ZooKeeper's tickTime

The length of a single tick, which is the basic time unit used by ZooKeeper, as measured in milliseconds. It is used to regulate heartbeats, and timeouts. For example, the minimum session timeout will be two ticks

ZOO_INIT_LIMIT

Defaults to 5. ZooKeeper's initLimit

Amount of time, in ticks (see tickTime), to allow followers to connect and sync to a leader. Increased this value as needed, if the amount of data managed by ZooKeeper is large.

ZOO_SYNC_LIMIT

Defaults to 2. ZooKeeper's syncLimit

Amount of time, in ticks (see tickTime), to allow followers to sync with ZooKeeper. If followers fall too far behind a leader, they will be dropped.

ZOO_MAX_CLIENT_CNXNS

Defaults to 60. ZooKeeper's maxClientCnxns

Limits the number of concurrent connections (at the socket level) that a single client, identified by IP address, may make to a single member of the ZooKeeper ensemble.

ZOO_STANDALONE_ENABLED

Defaults to false. Zookeeper's standaloneEnabled

Prior to 3.5.0, one could run ZooKeeper in Standalone mode or in a Distributed mode. These are separate implementation stacks, and switching between them during run time is not possible. By default (for backward compatibility) standaloneEnabled is set to true. The consequence of using this default is that if started with a single server the ensemble will not be allowed to grow, and if started with more than one server it will not be allowed to shrink to contain fewer than two participants.

Replicated mode

Environment variables below are mandatory if you want to run Zookeeper in replicated mode.

ZOO_MY_ID

The id must be unique within the ensemble and should have a value between 1 and 255. Do note that this variable will not have any effect if you start the container with a /data directory that already contains the myid file.

ZOO_SERVERS

This variable allows you to specify a list of machines of the Zookeeper ensemble. Each entry has the form of server.id=host:port:port. Entries are separated with space. Do note that this variable will not have any effect if you start the container with a /conf directory that already contains the zoo.cfg file.

In 3.5, the syntax of this has changed. Servers should be specified as such: server.id=<address1>:<port1>:<port2>[:role];[<client port address>:]<client port> Zookeeper Dynamic Reconfiguration

Where to store data

This image is configured with volumes at /data and /datalog to hold the Zookeeper in-memory database snapshots and the transaction log of updates to the database, respectively.

Be careful where you put the transaction log. A dedicated transaction log device is key to consistent good performance. Putting the log on a busy device will adversely affect performance.

License

View license information for the software contained in this image.

As with all Docker images, these likely also contain other software which may be under other licenses (such as Bash, etc from the base distribution, along with any direct or indirect dependencies of the primary software being contained).

Some additional license information which was able to be auto-detected might be found in the repo-info repository's zookeeper/ directory.

As for any pre-built image usage, it is the image user's responsibility to ensure that any use of this image complies with any relevant licenses for all software contained within.

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