JobScheduler Agent for Docker

Scope

• JobScheduler Agent is operated with a Docker container. 
• Prerequisites
  • Consider to prepare the files indicated with chapter Build.

Build

The following files are required for the build context:

• Dockerfile
• Start Script start_jobscheduler_agent.sh
• JobScheduler Agent tarball is available for download.

Dockerfile

• Download: Dockerfile
  
  

  Dockerfile Expand source

  FROM openjdk:8
  LABEL maintainer="Software- und Organisations-Service GmbH"
  
  # default user id has to match later run-time user
  ARG USER_ID=$UID
  
  # provide build arguments for release information
  ARG JS_MAJOR=1.13
  ARG JS_RELEASE=1.13.3
  
  # setup working directory
  RUN mkdir -p /var/sos-berlin.com
  WORKDIR /var/sos-berlin.com
  
  # add and extract tarball
  ADD https://download.sos-berlin.com/JobScheduler.${JS_MAJOR}/jobscheduler_unix_universal_agent.${JS_RELEASE}.tar.gz /usr/local/src/
  RUN test -e /usr/local/src/jobscheduler_unix_universal_agent.${JS_RELEASE}.tar.gz && \
      tar xfvz /usr/local/src/jobscheduler_unix_universal_agent.${JS_RELEASE}.tar.gz && \
      rm /usr/local/src/jobscheduler_unix_universal_agent.${JS_RELEASE}.tar.gz
  
  # add https keystore and private configuration file
  # COPY private-https.p12 /var/sos-berlin.com/jobscheduler_agent/var_4445/config/private/
  # COPY private.conf /var/sos-berlin.com/jobscheduler_agent/var_4445/config/private/
  #
  # create directories for file watching
  # RUN mkdir -p /var/sos-berlin.com/files/incoming && \
  #     mkdir -p /var/sos-berlin.com/files/success && \
  #     mkdir -p /var/sos-berlin.com/files/error
  
  # make default user the owner of directories
  RUN groupadd --gid ${USER_ID:-1000} jobscheduler && \
      useradd --uid ${USER_ID:-1000} --gid jobscheduler --home-dir /home/jobscheduler --no-create-home --shell /bin/bash jobscheduler && \
      chown -R jobscheduler:jobscheduler /var/sos-berlin.com
  
  # copy and prepare start script
  COPY start_jobscheduler_agent.sh /usr/local/bin/
  RUN chmod +x /usr/local/bin/start_jobscheduler_agent.sh
  
  # expose volume for storage persistence
  VOLUME /var/sos-berlin.com/jobscheduler_agent/var_4445
  # expose volume for file watching
  # VOLUME /var/sos-berlin.com/files
  
  # allow incoming traffic to port
  EXPOSE 4445
  
  # run-time user, can be overwritten when running the container
  USER jobscheduler
  
  CMD ["/usr/local/bin/start_jobscheduler_agent.sh"]

• Explanations
  • Line 1: We start from an Alpine image that includes JDK 8. Newer Java version can be used, see Which Java versions is JobScheduler available for?
  • Line 5: Consider that $UID provides the numeric ID of the account that the JobScheduler Agent installation inside the Docker container is performed for. This numeric ID typically starts above 1000 and should correspond to the account that is used on the Docker host, i.e. the account on the Docker Host and the account inside the container should use the same numeric ID. This mechanism simplifies exposure of the Docker container's file system.
  • Line 8-9: Adjust the JobScheduler release number as required.
  • Line 16-19: The Agent tarball is copied and extracted to the container.
  • Line 22-23: Optionally a keystore file with an SSL private key and public certificate can be provided for use of the Agent with the HTTPS protocol
  • Line 26-28: Optionally directories are created and later on mounted to the Docker host for file watching by the Agent.
  • Line 31-33: An account and group "jobscheduler" is created that is handed over ownership of installed files.
  • Line 36-37: The start script is copied to the container, see below chapter Start Script.
  • Line 40: The Agent's run-time directory is exposed to a volume for later mount to the Docker host.
  • Line 42: Optionally the file watching directory is exposed to a volume for later mount to the Docker host.
  • Line 45: Port 4445 is exposed for later mapping. This port is used for the connection between JobScheduler Master and Agent.
  • Line 48: The account "jobscheduler" that is the owner of the installation is exposed for later mapping. This account should be mapped at run-time to the account in the Docker Host that will mount the exposed volume.
  • Line 50: The start script is executed to launch the JobScheduler Agent daemon.

Start Script

• The start script for Agents comes straightforward:
  
  

  ./build/start_jobscheduler_agent.sh: Start Script Expand source

  #!/bin/sh
  
  JS_HOSTNAME="`hostname`"
  
  /var/sos-berlin.com/jobscheduler_agent/bin/jobscheduler_agent.sh start -http-port=4445 && tail -f /dev/null
  
  # start Agent for http port on localhost interface and for https port on network interface
  # /var/sos-berlin.com/jobscheduler_agent/bin/jobscheduler_agent.sh start -http-port=localhost:4445 -https-port=$JS_HOSTNAME:4445 && tail -f /dev/null

• Explanations
  • Line 5: The standard start script jobscheduler_agent.sh is used. The tail command prevents the start script from terminating in order to keep the container alive.
  • Line 8: Optionally the Agent can be started for use with the HTTPS protocol on a neetwork interface and the HTTP protocol on the localhost interface.

Build Command

There are a number of ways how to write a build command, find the following example:

• A typical build command could look like this:
  
  

  ./build.sh: Build Command Expand source

  #!/bin/sh
  
  set -e
  
  SCRIPT_HOME=$(dirname "$0")
  SCRIPT_HOME="`cd \"${SCRIPT_HOME}\" >/dev/null && pwd`"
  IMAGE_NAME="$(basename "$SCRIPT_HOME")"
  
  docker build --no-cache --rm --tag=$IMAGE_NAME --file=./build/Dockerfile --build-arg="USER_ID=$UID" ./build

• Explanations
  
  • Line 7: The script starts from the naming convention that the name of the current directory represents the image name. 
  • Line 9: The script assumes a sub-folder build to represent the Docker build context. Consider use of the --build-arg that injects the USER_ID environment variable into the image with the numeric ID of the account running the build command. This simplifies later access to the volume that optionally can be exposed by the Dockerfile as the same numeric user ID and group ID inside and outside of the container are used.

Run

There are a number of ways how to write a run command, find the following example:

• A typical run command could look like this:
  
  

  ./run.sh: Run Command Expand source

  #!/bin/sh
  
  set -e
  
  SCRIPT_HOME=$(dirname "$0")
  SCRIPT_HOME="`cd \"${SCRIPT_HOME}\" >/dev/null && pwd`"
  IMAGE_NAME="$(basename "$SCRIPT_HOME")"
  
  RUN_USER_ID="$(id -u $USER):$(id -g $USER)"
  
  docker run -dit --rm --user=$RUN_USER_ID --hostname=$IMAGE_NAME --network=js --publish=5445:4445 --volume=$SCRIPT_HOME/data:/var/sos-berlin.com/jobscheduler_agent/var_4445:Z --name=$IMAGE_NAME $IMAGE_NAME

• Explanations
  • Using a common Docker network with the --network option for JobScheduler components allows direct access to resources such as ports within the Docker network.
  • The RUN_USER_ID variable is populated with the numeric ID of the account and the group that executes the run command. This value is assigned the --user option in order to inject the account information into the container (replacing the account specified with the USE jobscheduler instruction in the Dockerfile.
  • Port 4445 for access to JobScheduler Agent by a Master can optionally be mapped to some outside port. This is not required if a Docker network is used.
  • Specify a data directory to be created that is referenced with the --volume option to expose the run-time directory of the JobScheduler Agent for reading. Avoid to modify files in this directory and to add new files. 

Stop

There are a number of ways to stop an Agent and its container, find the following example:

• A typical stop command could look like this:
  
  

  ./stop.sh: Stop Command Expand source

  #!/bin/sh
  
  set -e
  
  SCRIPT_HOME=$(dirname "$0")
  SCRIPT_HOME="`cd \"${SCRIPT_HOME}\" >/dev/null && pwd`"
  IMAGE_NAME="$(basename "$SCRIPT_HOME")"
  
  JS_ACTION="stop"
  
  for option in "$@"
  do
    case "$option" in
           -kill)   JS_ACTION="kill"
                    ;;
           -abort)  JS_ACTION="abort"
                    ;;
    esac
  done
  
  JS_CONTAINER=$(docker container ps -a -q --filter "ancestor=$IMAGE_NAME")
  
  if [ -z "$JS_CONTAINER" ]
  then
    echo ".. container not running: $IMAGE_NAME"
    exit 0
  fi
  
  for f in "${JS_CONTAINER[@]}"; do
    echo ".. stopping Agent ($JS_ACTION): $f"
    docker container exec $f /bin/sh -c "/var/sos-berlin.com/jobscheduler_agent/bin/jobscheduler_agent.sh $JS_ACTION"
  
    echo ".. stopping container ($JS_ACTION): $f"
    if [ "$JS_ACTION" = "stop" ]
    then
      docker container stop $f
    else
      docker container kill $f
    fi
  done
  

• Explanations
  • Before stopping the container the Agent daemon is terminated by use of its start script. This offers the following modes for termination:
    • stop: terminate Agent normally, wait for any running tasks to complete
    • abort: kill any running tasks and terminate the Agent abnormally
    • kill: kill immediately the Agent process and any running tasks
  • After the Agent daemon is terminated the container can be stopped or killed.