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TiDB docker-compose

Build Status

WARNING: This is for testing only, DO NOT USE IN PRODUCTION!

Requirements

  • Docker >= 17.03
  • Docker Compose >= 1.6.0

Note: Legacy Docker Toolbox users must migrate to Docker for Mac, since it is tested that tidb-docker-compose cannot be started on Docker Toolbox and Docker Machine. Note: It is recommended to disable SELinux.

Quick start

$ git clone https://github.com/pingcap/tidb-docker-compose.git
$ cd tidb-docker-compose && docker-compose pull # Get the latest Docker images
$ sudo setenforce 0 # Only on Linux
$ docker-compose up -d
$ mysql -h 127.0.0.1 -P 4000 -u root

Docker Swarm

You can also use Docker Swarm to deploy a TiDB Platform cluster, and then you can scale the service using docker stack commands.

$ docker swarm init # if your docker daemon is not already part of a swarm
$ mkdir -p data logs
$ docker stack deploy tidb -c docker-swarm.yml
$ mysql -h 127.0.0.1 -P 4000 -u root

After deploying the stack, you can scale the number of TiDB Server instances in the cluster like this:

$ docker service scale tidb_tidb=2

Docker Swarm automatically load-balances across the containers that implement a scaled service, which you can see if you execute select @@hostname several times:

$ mysql -h 127.0.0.1 -P 4000 -u root -te 'select @@hostname'
+--------------+
| @@hostname   |
+--------------+
| 340092e0ec9e |
+--------------+
$ mysql -h 127.0.0.1 -P 4000 -u root -te 'select @@hostname'
+--------------+
| @@hostname   |
+--------------+
| e6f05ffe6274 |
+--------------+
$ mysql -h 127.0.0.1 -P 4000 -u root -te 'select @@hostname'
+--------------+
| @@hostname   |
+--------------+
| 340092e0ec9e |
+--------------+

If you want to connect to specific backend instances, for example to test concurrency by ensuring that you are connecting to distinct instances of tidb-server, you can use the docker service ps command to assemble a hostname for each container:

$ docker service ps --no-trunc --format '{{.Name}}.{{.ID}}' tidb_tidb
tidb_tidb.1.x3sc2sd66a88phsj103ohr6qq
tidb_tidb.2.lk53apndq394cega46at853zw

To be able to resolve those hostnames, it's easiest to run the MySQL client in a container that has access to the swarm network:

$ docker run --rm --network=tidb_default arey/mysql-client -h tidb_tidb.1.x3sc2sd66a88phsj103ohr6qq -P 4000 -u root -t -e 'select @@version'
+-----------------------------------------+
| @@version                               |
+-----------------------------------------+
| 5.7.25-TiDB-v3.0.0-beta.1-40-g873d9514b |
+-----------------------------------------+

To loop through all instances of TiDB Server, you can use a bash loop like this:

for host in $(docker service ps --no-trunc --format '{{.Name}}.{{.ID}}' tidb_tidb)
    do docker run --rm --network tidb_default arey/mysql-client \
        -h "$host" -P 4000 -u root -te "select @@hostname"
done

To stop all services and remove all containers in the TiDB stack, execute docker stack rm tidb.

Customize TiDB Cluster

Configuration

If you find these configuration files outdated or mismatch with TiDB version, you can copy these files from their upstream repos and change their metrics addr with pushgateway:9091. Also max-open-files are configured to 1024 in tikv.toml to simplify quick start on Linux, because setting up ulimit on Linux with docker is quite tedious.

And config/*-dashboard.json are copied from TiDB-Ansible repo

You can customize TiDB cluster configuration by editing docker-compose.yml and the above config files if you know what you're doing.

But edit these files manually is tedious and error-prone, a template engine is strongly recommended. See the following steps

Install Helm

Helm is used as a template render engine

curl https://raw.githubusercontent.com/kubernetes/helm/master/scripts/get | bash

Or if you use Mac, you can use homebrew to install Helm by brew install kubernetes-helm

Bring up TiDB cluster

$ git clone https://github.com/pingcap/tidb-docker-compose.git
$ cd tidb-docker-compose
$ vi compose/values.yaml # custom cluster size, docker image, port mapping etc
$ helm template compose > generated-docker-compose.yaml
$ docker-compose -f generated-docker-compose.yaml pull # Get the latest Docker images
$ docker-compose -f generated-docker-compose.yaml up -d

# If you want to Bring up TiDB cluster with Binlog support
$ vi compose/values.yaml # set tidb.enableBinlog to true
$ helm template compose > generated-docker-compose-binlog.yaml
$ docker-compose -f generated-docker-compose-binlog.yaml up -d  # or you can use 'docker-compose-binlog.yml' file directly

# Note: If the value of drainer.destDBType is "kafka" and 
# you want to consume the kafka messages outside the docker containers,
# please update the kafka.advertisedHostName with your docker host IP in compose/values.yaml and 
# regenerate the 'generated-docker-compose-binlog.yaml' file

You can build docker image yourself for development test.

  • Build from binary

    For pd, tikv, tidb, pump and drainer comment their image and buildPath fields out. And then copy their binary files to pd/bin/pd-server, tikv/bin/tikv-server, tidb/bin/tidb-server, tidb-binlog/bin/pump and tidb-binlog/bin/drainer.

    These binary files can be built locally or downloaded from https://download.pingcap.org/tidb-latest-linux-amd64.tar.gz

    For tidbVision, comment its image and buildPath fields out. And then copy tidb-vision repo to tidb-vision/tidb-vision.

  • Build from source

    Leave pd, tikv, tidb and tidbVision image field empty and set their buildPath field to their source directory.

    For example, if your local tikv source directory is $GOPATH/src/github.com/pingcap/tikv, just set tikv buildPath to $GOPATH/src/github.com/pingcap/tikv

    Note: Compiling tikv from source consumes lots of memory, memory of Docker for Mac needs to be adjusted to greater than 6GB

tidb-vision is a visiualization page of TiDB Cluster, it's WIP project and can be disabled by commenting tidbVision out.

TiSpark is a thin layer built for running Apache Spark on top of TiDB/TiKV to answer the complex OLAP queries.

Host network mode (Linux)

Note: Docker for Mac uses a Linux virtual machine, host network mode will not expose any services to host machine. So it's useless to use this mode.

When using TiKV directly without TiDB, host network mode must be enabled. This way all services use host network without isolation. So you can access all services on the host machine.

You can enable this mode by setting networkMode: host in compose/values.yaml and regenerate docker-compose.yml. When in this mode, prometheus address in configuration files should be changed from prometheus:9090 to 127.0.0.1:9090, and pushgateway address should be changed from pushgateway:9091 to 127.0.0.1:9091.

These modification can be done by:

# Note: this only needed when networkMode is `host`
sed -i 's/pushgateway:9091/127.0.0.1:9091/g' config/*
sed -i 's/prometheus:9090/127.0.0.1:9090/g' config/*

After all the above is done, you can start tidb-cluster as usual by docker-compose -f generated-docker-compose.yml up -d

Debug TiDB/TiKV/PD instances

Prerequisites:

Pprof: This is a tool for visualization and analysis of profiling data. Follow these instructions to install pprof.

Graphviz: http://www.graphviz.org/, used to generate graphic visualizations of profiles.

  • debug TiDB or PD instances
### Use the following command to starts a web server for graphic visualizations of golang program profiles
$ ./tool/container_debug -s pd0 -p /pd-server -w

The above command will produce graphic visualizations of profiles of pd0 that can be accessed through the browser.

  • debug TiKV instances
### step 1: select a tikv instance(here is tikv0) and specify the binary path in container to enter debug container
$ ./tool/container_debug -s tikv0 -p /tikv-server

### after step 1, we can generate flame graph for tikv0 in debug container
$ ./run_flamegraph.sh 1  # 1 is the tikv0's process id

### also can fetch tikv0's stack informations with GDB in debug container
$ gdb /tikv-server 1 -batch -ex "thread apply all bt" -ex "info threads"

Access TiDB cluster

TiDB uses ports: 4000(mysql) and 10080(status) by default

$ mysql -h 127.0.0.1 -P 4000 -u root --comments

And Grafana uses port 3000 by default, so open your browser at http://localhost:3000 to view monitor dashboard

If you enabled tidb-vision, you can view it at http://localhost:8010

Access Spark shell and load TiSpark

Insert some sample data to the TiDB cluster:

$ docker-compose exec tispark-master bash
$ cd /opt/spark/data/tispark-sample-data
$ mysql --local-infile=1 -h tidb -P 4000 -u root --comments < dss.ddl

After the sample data is loaded into the TiDB cluster, you can access Spark Shell by docker-compose exec tispark-master /opt/spark/bin/spark-shell.

$ docker-compose exec tispark-master /opt/spark/bin/spark-shell
...
Spark context available as 'sc' (master = local[*], app id = local-1527045927617).
Spark session available as 'spark'.
Welcome to
      ____              __
     / __/__  ___ _____/ /__
    _\ \/ _ \/ _ `/ __/  '_/
   /___/ .__/\_,_/_/ /_/\_\   version 2.1.1
      /_/

Using Scala version 2.11.8 (Java HotSpot(TM) 64-Bit Server VM, Java 1.8.0_172)
Type in expressions to have them evaluated.
Type :help for more information.

scala> import org.apache.spark.sql.TiContext
...
scala> val ti = new TiContext(spark)
...
scala> ti.tidbMapDatabase("TPCH_001")
...
scala> spark.sql("select count(*) from lineitem").show
+--------+
|count(1)|
+--------+
|   60175|
+--------+

You can also access Spark with Python or R using the following commands:

docker-compose exec tispark-master /opt/spark/bin/pyspark
docker-compose exec tispark-master /opt/spark/bin/sparkR

More documents about TiSpark can be found here.

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