page_title: Process Management with CFEngine page_description: Managing containerized processes with CFEngine page_keywords: cfengine, process, management, usage, docker, documentation # Process Management with CFEngine Create Docker containers with managed processes. Docker monitors one process in each running container and the container lives or dies with that process. By introducing CFEngine inside Docker containers, we can alleviate a few of the issues that may arise: - It is possible to easily start multiple processes within a container, all of which will be managed automatically, with the normal `docker run` command. - If a managed process dies or crashes, CFEngine will start it again within 1 minute. - The container itself will live as long as the CFEngine scheduling daemon (cf-execd) lives. With CFEngine, we are able to decouple the life of the container from the uptime of the service it provides. ## How it works CFEngine, together with the cfe-docker integration policies, are installed as part of the Dockerfile. This builds CFEngine into our Docker image. The Dockerfile's `ENTRYPOINT` takes an arbitrary amount of commands (with any desired arguments) as parameters. When we run the Docker container these parameters get written to CFEngine policies and CFEngine takes over to ensure that the desired processes are running in the container. CFEngine scans the process table for the `basename` of the commands given to the `ENTRYPOINT` and runs the command to start the process if the `basename` is not found. For example, if we start the container with `docker run "/path/to/my/application parameters"`, CFEngine will look for a process named `application` and run the command. If an entry for `application` is not found in the process table at any point in time, CFEngine will execute `/path/to/my/application parameters` to start the application once again. The check on the process table happens every minute. Note that it is therefore important that the command to start your application leaves a process with the basename of the command. This can be made more flexible by making some minor adjustments to the CFEngine policies, if desired. ## Usage This example assumes you have Docker installed and working. We will install and manage `apache2` and `sshd` in a single container. There are three steps: 1. Install CFEngine into the container. 2. Copy the CFEngine Docker process management policy into the containerized CFEngine installation. 3. Start your application processes as part of the `docker run` command. ### Building the image The first two steps can be done as part of a Dockerfile, as follows. FROM ubuntu MAINTAINER Eystein Måløy Stenberg RUN apt-get -y install wget lsb-release unzip ca-certificates # install latest CFEngine RUN wget -qO- http://cfengine.com/pub/gpg.key | apt-key add - RUN echo "deb http://cfengine.com/pub/apt $(lsb_release -cs) main" > /etc/apt/sources.list.d/cfengine-community.list RUN apt-get update RUN apt-get install cfengine-community # install cfe-docker process management policy RUN wget https://github.com/estenberg/cfe-docker/archive/master.zip -P /tmp/ && unzip /tmp/master.zip -d /tmp/ RUN cp /tmp/cfe-docker-master/cfengine/bin/* /var/cfengine/bin/ RUN cp /tmp/cfe-docker-master/cfengine/inputs/* /var/cfengine/inputs/ RUN rm -rf /tmp/cfe-docker-master /tmp/master.zip # apache2 and openssh are just for testing purposes, install your own apps here RUN apt-get -y install openssh-server apache2 RUN mkdir -p /var/run/sshd RUN echo "root:password" | chpasswd # need a password for ssh ENTRYPOINT ["/var/cfengine/bin/docker_processes_run.sh"] By saving this file as Dockerfile to a working directory, you can then build your image with the docker build command, e.g., `docker build -t managed_image`. ### Testing the container Start the container with `apache2` and `sshd` running and managed, forwarding a port to our SSH instance: $ docker run -p 127.0.0.1:222:22 -d managed_image "/usr/sbin/sshd" "/etc/init.d/apache2 start" We now clearly see one of the benefits of the cfe-docker integration: it allows to start several processes as part of a normal `docker run` command. We can now log in to our new container and see that both `apache2` and `sshd` are running. We have set the root password to "password" in the Dockerfile above and can use that to log in with ssh: ssh -p222 root@127.0.0.1 ps -ef UID PID PPID C STIME TTY TIME CMD root 1 0 0 07:48 ? 00:00:00 /bin/bash /var/cfengine/bin/docker_processes_run.sh /usr/sbin/sshd /etc/init.d/apache2 start root 18 1 0 07:48 ? 00:00:00 /var/cfengine/bin/cf-execd -F root 20 1 0 07:48 ? 00:00:00 /usr/sbin/sshd root 32 1 0 07:48 ? 00:00:00 /usr/sbin/apache2 -k start www-data 34 32 0 07:48 ? 00:00:00 /usr/sbin/apache2 -k start www-data 35 32 0 07:48 ? 00:00:00 /usr/sbin/apache2 -k start www-data 36 32 0 07:48 ? 00:00:00 /usr/sbin/apache2 -k start root 93 20 0 07:48 ? 00:00:00 sshd: root@pts/0 root 105 93 0 07:48 pts/0 00:00:00 -bash root 112 105 0 07:49 pts/0 00:00:00 ps -ef If we stop apache2, it will be started again within a minute by CFEngine. service apache2 status Apache2 is running (pid 32). service apache2 stop * Stopping web server apache2 ... waiting [ OK ] service apache2 status Apache2 is NOT running. # ... wait up to 1 minute... service apache2 status Apache2 is running (pid 173). ## Adapting to your applications To make sure your applications get managed in the same manner, there are just two things you need to adjust from the above example: - In the Dockerfile used above, install your applications instead of `apache2` and `sshd`. - When you start the container with `docker run`, specify the command line arguments to your applications rather than `apache2` and `sshd`.