Skip to content

Latest commit

 

History

History
518 lines (384 loc) · 18.3 KB

README.md

File metadata and controls

518 lines (384 loc) · 18.3 KB

Tarantool Docker images

What is Tarantool

Tarantool is an in-memory computing platform that combines a Lua application server and a database management system. Read more about Tarantool at tarantool.io.

Quick start

To try out Tarantool, run this command:

$ docker run --rm -t -i tarantool/tarantool

It will create a one-off Tarantool instance and open an interactive console. From there, you can either type tutorial() in the console or follow the documentation.

What's on board

The tarantool/tarantool images contain the Tarantool executable and a combination of Lua modules and utilities often used in production. Designed as a building block for modern services, these modules and utilities are based on a few design choices that set them apart from the systemd-controlled Tarantool. We check all these extensions for compatibility with the Tarantool version included in the image.

The Docker images come in three flavors, based on three different images: alpine:3.15, centos:7 and ubuntu:20.04. Check them out:

$ docker run --rm -t -i tarantool/tarantool:2.10.0
$ docker run --rm -t -i tarantool/tarantool:2.10.0-centos7
$ docker run --rm -t -i tarantool/tarantool:2.10.0-ubuntu

The entrypoint script in each of these images uses environment variables to set various configuration options, such as replication sources, memory limits, and so on. If specified, the environment variables override the settings provided in your code. This way, you can set options using docker compose or other orchestration and deployment tools.

There are also a few convenience tools that make use of the fact that there is only one Tarantool instance running in the container.

Included modules

The following Lua modules are included in the build:

  • avro-schema: Apache Avro scheme for your data.
  • connpool: Keep a pool of connections to other Tarantool instances.
  • curl: HTTP client based on libcurl.
  • expirationd: Automatically delete tuples based on expiration time.
  • gis: Store and query geospatial data.
  • gperftools: Collect a CPU profile to find bottlenecks in your code.
  • http: Embedded HTTP server with Flask-style routing support.
  • memcached: Access Tarantool as if it was a memcached instance.
  • metrics: Metric collection library for Tarantool.
  • mqtt: Client for MQTT message brokers.
  • mysql: Query MySQL right from Tarantool.
  • pg: Query PostgreSQL right from Tarantool.
  • prometheus: Instrument code and export metrics to Prometheus monitoring.
  • queue: Priority queues with TTL and confirmations.
  • vshard: Automatically distribute data across multiple instances.

If the module you need is not listed here, there is a good chance we can add it. Open an issue on our GitHub.

Data directories

Mount these directories as volumes:

  • /var/lib/tarantool contains operational data (snapshots, xlogs and vinyl runs).

  • /opt/tarantool is the directory for Lua application code.

Convenience tools

  • console: Execute without arguments to open an administrative console to a running Tarantool instance.

  • tarantool_is_up: Returns 0 if Tarantool has been initialized and is operating normally.

  • tarantool_set_config.lua: Allows you to dynamically change certain settings without the need to recreate containers.

Versions, tags, and release policy

The images are built and published on Docker Hub for each Tarantool release as well as for some beta and release candidate versions.

There are three variants built from different base images:

  • Alpine 3.15, the "default" build with tags having no mention of base image, like latest, 1, 2, 1.10,1.10.z, 2.y, 2.y.z and others.
  • CentOS 7 with tags like 1-centos7, 2-centos7, and so on.
  • Ubuntu 20.04 with tags like 1-ubuntu22.04, 2-ubuntu22.04, and so on.

How to use these images

Start a Tarantool instance

$ docker run \
  --name mytarantool \
  -p 3301:3301 -d \
  tarantool/tarantool

This will start an instance of Tarantool and expose it on port 3301. Note that by default there is no password protection, so don't expose this instance to the outside world.

In this case, as there is no Lua code provided, the entrypoint script initializes the database using a reasonable set of defaults. Some of them can be tweaked with environment variables (see below).

Start a secure Tarantool instance

$ docker run \
  --name mytarantool \
  -p 3301:3301 \
  -e TARANTOOL_USER_NAME=myusername \
  -e TARANTOOL_USER_PASSWORD=mysecretpassword -d \
  tarantool/tarantool

This starts an instance of Tarantool, disables guest login, and creates a user named myusername with admin privileges and the password mysecretpassword.

As in the previous example, the database is initialized automatically.

Connect to a running Tarantool instance

$ docker exec -t -i mytarantool console

This will open an interactive admin console on the running instance named mytarantool. You can safely detach from it anytime, the server will continue running.

This console doesn't require authentication, because it uses a local Unix socket in the container to connect to Tarantool. However, it requires you to have direct access to the container.

If you need to access a remote console via TCP/IP, use the tt utility as explained here.

Start a master-master replica set

You can start a replica set with Docker alone, but it's more convenient to use docker-compose. Here's a simplified docker-compose.yml for starting a master-master replica set:

version: '2'

services:
  tarantool1:
    image: tarantool/tarantool:latest
    environment:
      TARANTOOL_REPLICATION: "tarantool1,tarantool2"
    networks:
      - mynet
    ports:
      - "3301:3301"

  tarantool2:
    image: tarantool/tarantool:latest
    environment:
      TARANTOOL_REPLICATION: "tarantool1,tarantool2"
    networks:
      - mynet
    ports:
      - "3302:3301"

networks:
  mynet:
    driver: bridge

Start it like this:

$ docker compose up

Add application code with a volume mount

The simplest way to provide application code is to mount your code directory to /opt/tarantool:

$ docker run \
  --name mytarantool \
  -p 3301:3301 -d \
  -v /path/to/my/app:/opt/tarantool \
  tarantool/tarantool \
  tarantool /opt/tarantool/app.lua

Here, /path/to/my/app is the host directory containing Lua code and app.lua is the entry point of your application. Note that for your code to run, you must execute the main script explicitly, which is done in the last line.

Build your own images

To pack and distribute an image with your code, create your own Dockerfile:

FROM tarantool/tarantool:2.10.0
COPY app.lua /opt/tarantool
CMD ["tarantool", "/opt/tarantool/app.lua"]

Then build it with:

$ docker build -t company/appname:tag .

Please pay attention to the format of CMD. Unless it is specified in square brackets, the wrapper entrypoint that our Docker image provides will not be called. In this case, you will not be able to configure your instance using environment variables.

We recommend building from an image with a precise tag, that is, 2.10.0 or 2.10.0-centos7, not 2.10 or latest. This way you will have more control over the updates of Tarantool and other dependencies of your application.

Environment variables

When you run this image, you can adjust some of Tarantool settings. Most of them either control memory/disk limits or specify external connectivity parameters.

If you need to fine-tune specific settings not described here, you can always inherit this container and call box.cfg{} yourself. See the documentation on box.cfg for details.

TARANTOOL_USER_NAME

Setting this variable allows you to pick the name of the user that is utilized for remote connections. By default, it is guest. Please note that since the guest user in Tarantool can't have a password, it is highly recommended that you change it.

TARANTOOL_USER_PASSWORD

For security reasons, it is recommended that you never leave this variable unset. This environment variable sets the user's password for Tarantool. In the above example, it is set to mysecretpassword.

TARANTOOL_PORT

Optional. Specifying this variable will tell Tarantool to listen for incoming connections on a specific port. Default is 3301.

TARANTOOL_PROMETHEUS_DEFAULT_METRICS_PORT

Optional. If specified, Tarantool will start an HTTP server on the provided port and expose the Prometheus metrics endpoint with common metrics (fibers, memory, network, replication, etc.).

TARANTOOL_REPLICATION

Optional. Comma-separated list of URIs to treat as replication sources. Upon start, Tarantool will attempt to connect to those instances, fetch the data snapshot, and start replicating transaction logs. In other words, it will become a slave. For a multi-master configuration, other participating instances of Tarantool should be started with the same TARANTOOL_REPLICATION. (NB: Applicable only to versions later than 1.7.)

Example:

user1:pass@host1:3301,user2:pass@host2:3301

TARANTOOL_MEMTX_MEMORY

Optional. Specifies how much memory Tarantool allocates to actually store tuples, in bytes. When the limit is reached, INSERT or UPDATE requests begin failing. Default is 268435456 (256 megabytes).

TARANTOOL_SLAB_ALLOC_FACTOR

Optional. Used as the multiplier for computing the sizes of memory chunks that tuples are stored in. A lower value may result in less wasted memory, depending on the total amount of memory available and the distribution of item sizes. Default is 1.05.

TARANTOOL_MEMTX_MAX_TUPLE_SIZE

Optional. Size of the largest allocation unit in bytes. It can be increased if it is necessary to store large tuples. Default is 1048576.

TARANTOOL_MEMTX_MIN_TUPLE_SIZE

Optional. Size of the smallest allocation unit, in bytes. It can be decreased if most of the tuples are very small. Default is 16.

TARANTOOL_CHECKPOINT_INTERVAL

Optional. Specifies how often snapshots are made, in seconds. Default is 3600 (every 1 hour).

TARANTOOL_FORCE_RECOVERY

Optional. When set to true, Tarantool tries to continue if there is an error while reading a snapshot file or a write-ahead log file. Skips invalid records, reads as much data as possible, print a warning in console and start the database.

TARANTOOL_LOG_FORMAT

Optional. There are two possible log formats:

  • 'plain' — the default one.
  • 'json' — with more details and with JSON labels.

More details can be found in the log module reference.

TARANTOOL_LOG_LEVEL

Optional. Default value is 5 (that means INFO). More details can be found in log level configuration.

Contributing

Reporting problems and getting help

You can report problems and request features on our GitHub.

Alternatively, you may get help on our Telegram channel.

How to contribute

Open a pull request to the master branch. A maintainer is responsible for merging the PR.

How to check

Say, we have updated 'dockerfiles/alpine_3.9' and want to check it:

$ TAG=2 OS=alpine DIST=3.9 VER=2.x PORT=5200 make -f .github.mk build
$ docker run -it tarantool/tarantool:2
...perform a test...

Build pipelines

Fixed release versions:

Docker tag FROM Dockerfile
2.10.0 alpine:3.15 dockerfile/alpine_3.15
2.10.0-centos7 centos:7 dockerfile/centos_7
2.10.0-ubuntu20.04 ubuntu:20.04 dockerfile/ubuntu_20.04
2.10.0-rc1 alpine:3.9 dockerfile/alpine_3.9
2.10.0-beta2 alpine:3.9 dockerfile/alpine_3.9
2.10.0-beta1 alpine:3.9 dockerfile/alpine_3.9
2.8.0 .. 2.8.4 alpine:3.9 dockerfile/alpine_3.9
2.7.0 .. 2.7.3 alpine:3.9 dockerfile/alpine_3.9
2.6.0 .. 2.6.3 alpine:3.9 dockerfile/alpine_3.9
2.5.0 .. 2.5.3 alpine:3.9 dockerfile/alpine_3.9
2.4.0 .. 2.4.3 alpine:3.9 dockerfile/alpine_3.9
2.3.1 .. 2.3.3 alpine:3.9 dockerfile/alpine_3.9
2.3.0 alpine:3.5 dockerfile/alpine_3.5
2.2.2 .. 2.2.3 alpine:3.9 dockerfile/alpine_3.9
2.2.0 .. 2.2.1 alpine:3.5 dockerfile/alpine_3.5
2.1.3 alpine:3.9 dockerfile/alpine_3.9
2.1.0 .. 2.1.2 alpine:3.9 dockerfile/alpine_3.5
1.10.13 alpine:3.9 dockerfile/alpine_3.9
1.10.4 .. 1.10.12 alpine:3.9 dockerfile/alpine_3.9
1.10.0 .. 1.10.3 alpine:3.5 dockerfile/alpine_3.5

Rolling versions:

Docker tag Dockerfile
2, latest dockerfile/alpine_3.15
2-centos7 dockerfile/centos_7
1 dockerfile/alpine_3.15
1 dockerfile/alpine_3.15
2.1 .. 2.8 dockerfile/alpine_3.9
2.1 .. 2.8 dockerfile/alpine_3.9

Special builds:

Docker tag Dockerfile
2.10.0-centos7 dockerfile/centos_7
2.10.0-ubuntu dockerfile/ubuntu_20.04
1.x-centos7 dockerfile/centos_7
2.x-centos7 dockerfile/centos_7

Release policy

All images are pushed to Docker Hub.

Fixed version tags (x.y.z) are frozen: we never update them.

Example of versions timeline for Tarantool since 2.10 (see the release policy):

  • 2.10.0-beta1 — Beta
    • 2.10.0-rc1 — Release candidate
      • 2.10.0 — Release (stable)

Example of minor versions timeline for Tarantool up to 2.8:

  • x.y.0 - Alpha
    • x.y.1 - Beta
      • x.y.2 - Stable
        • x.y.3 - Stable

Rolling versions are updated to the latest release (stable) versions:

  • x.y == x.y.latest-z (== means 'points to the same image')
  • 1 == 1.10.latest-z
  • 2 == 2.latest-y.z
  • latest == 2

Special stable builds (CentOS) are updated with the same policy as rolling versions:

  • 1.x-centos7 image offers a last 1.<last-y>.2 release
  • 2.x-centos7 image offers a last 2.<last-y>.2 release

Exceptional cases

As an exception we can deliver an important update for the existing tarantool release within x.y.z-r1, x.y.z-r2, ... tags.

When x.y.z-r<N> is released, the corresponding rolling releases (x.y, x and latest if x == 2) should be updated to point to the same image.

There is no strict policy, which updates should be considered important. Let's decide on demand and define the policy later.

TBD: How to notify users about the exceptional updates?

How to build and push an image

Example:

$ export TAG=2
$ export OS=alpine DIST=3.9 VER=2.x  # double check the values!
$ PORT=5200 make -f .github.mk build
$ docker push tarantool/tarantool:${TAG}