Install Podman for Running Containers
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Podman is an open source containerization tool. Like Docker, Podman is a solution for creating, running, and managing containers. But Podman goes beyond Docker, using a secure daemonless process to run containers in rootless mode.
For more on what Podman is and how it compares to Docker, you can refer to our guide Podman vs Docker. The guide familiarizes you with the basics of Podman and Docker and compares and contrast the two tools.
In this tutorial, learn everything you need to install and start using Podman on your Linux system. By the end, you can run and manage containers using Podman.
Before You Begin
Familiarize yourself with our Getting Started with Linode guide, and complete the steps for setting your Linode’s hostname and timezone.
This guide uses
sudo
wherever possible. Complete the sections of our How to Secure Your Server guide to create a standard user account, harden SSH access, and remove unnecessary network services.Update your system.
Debian or Ubuntu:
sudo apt update && sudo apt upgrade
AlmaLinux, CentOS Stream, Fedora, or Rocky Linux:
sudo dnf upgrade
sudo
. If you’re not familiar with the sudo
command, see the Users and Groups guide.How to Install Podman
Podman is available through the default package managers on most Linux distributions.
AlmaLinux, CentOS Stream, Fedora, or Rocky Linux:
sudo dnf install podman
Debian or Ubuntu:
sudo apt install podman
Note Podman is only available through the APT package manager for Debian 11 or Ubuntu 20.10 and later.
Afterward, verify your installation by checking the installed Podman version:
podman -v
Your output may vary from what is shown here, but you are just looking to see that Podman installed successfully:
podman version 4.1.1
Configuring Podman for Rootless Usage
Podman operates using root privileges by default - for instance, using the sudo
preface for commands. However, Podman is also capable of running in rootless mode, an appealing feature when you want limited users to execute container actions securely.
Docker can allow you to run commands as a limited user, but the Docker daemon still runs as root. This is a potential security issue with Docker, one that may allow limited users to execute privileged commands through the Docker daemon.
Podman solves this with the option of a completely rootless setup, where containers operate in a non-root environment. Below you can find the steps to set up your Podman instance for rootless usage.
Install the
slirp4netns
andfuse-overlayfs
tools to support your rootless Podman operations.AlmaLinux, CentOS Stream, Fedora, or Rocky Linux:
sudo dnf install slirp4netns fuse-overlayfs
Debian or Ubuntu:
sudo apt install slirp4netns fuse-overlayfs
Add
subuids
andsubgids
ranges for your limited user. This example does so for the userexample-user
. It gives that user a sub-UID and sub-GID of100000
, each with a range of65535
IDs:sudo usermod --add-subuids 100000-165535 --add-subgids 100000-165535 example-user
With Podman installed, everything is ready for you to start running containers with it. These next sections walk you through the major features of Podman for finding container images and running and managing containers.
Getting an Image
Podman offers a few methods for procuring container images, which you can follow along with below. These section also give you a couple of images to start with, and which are used in later sections for further examples.
Searching for Images
Perhaps the most straightforward way to get started with a container is by finding an existing image in a registry. With Podman’s search
command, you can find matching images in any container registries you have set up.
Podman may come with some registries configured by default. However, on some systems, it may first be necessary to configure these registries manually. You can do this by opening the /etc/containers/registries.conf
file with your preferred text editor and adding a line like the following to the end:
unqualified-search-registries=['registry.access.redhat.com', 'registry.fedoraproject.org', 'docker.io', 'quay.io']
You can replace the registries listed here with ones that you would like to look for container images on.
Podman’s GitHub also has a registries.conf
file here that you can use as an initial reference.
This example searches for images matching the term buildah
:
podman search buildah
Keep in mind that your matches may differ depending on the registries your Podman instance is configured with:
NAME DESCRIPTION
registry.access.redhat.com/ubi8/buildah Containerized version of Buildah
registry.access.redhat.com/ubi9/buildah rhcc_registry.access.redhat.com_ubi9/buildah
registry.redhat.io/rhel8/buildah Containerized version of Buildah
registry.redhat.io/rhel9/buildah rhcc_registry.access.redhat.com_rhel9/builda...
[...]
Downloading an Image
After searching the registries, you can use Podman to download, or pull, a particular image. This can be accomplished with Podman’s pull
command followed by the name of the container image:
podman pull buildah
As the search output shows, there may be multiple registries matching a given container image:
Resolved "buildah" as an alias (/etc/containers/registries.conf.d/shortnames.conf)
Trying to pull quay.io/buildah/stable:latest...
Getting image source signatures
[...]
But you can also be more specific. You can specify the entire image name, with the registry path, to pull from a specific location.
For instance, this next example pulls the Buildah image from the docker.io
registry:
podman pull docker.io/buildah/buildah
As you can see, it skipped the part where it resolves the shortname alias and pulls the Buildah image directly from the specified source:
Trying to pull docker.io/buildah/buildah:latest...
Getting image source signatures
[...]
Building an Image
Like Docker, Podman also gives you the ability to create a container image from a file. Typically, this build process uses the Dockerfile format, though Podman supports the Containerfile format as well.
You can learn more about crafting Dockerfiles in our guide How to Use a Dockerfile to Build a Docker Image. This guide also includes links to further tutorials with more in-depth coverage of Dockerfiles.
But for now, as an example to see Podman’s build capabilities in action, you can use the following Dockerfile:
- File: Dockerfile
1 2 3 4 5 6 7 8 9 10 11 12 13
# Base on the most recently released Fedora FROM fedora:latest MAINTAINER ipbabble email buildahboy@redhat.com # not a real email # Install updates and httpd RUN echo "Updating all fedora packages"; dnf -y update; dnf -y clean all RUN echo "Installing httpd"; dnf -y install httpd && dnf -y clean all # Expose the default httpd port 80 EXPOSE 80 # Run the httpd CMD ["/usr/sbin/httpd", "-DFOREGROUND"]
Place these contents in a file named Dockerfile
. Then, working from the same directory the file is stored in, you can use the following Podman command to build an image from the file:
podman build -t fedora-http-server .
The -t
option allows you to give the image a tag, or name - fedora-http-server
in this case. The .
at the end of the command specifies the directory in which the Dockerfile can be found, where a .
represents the current directory.
Keep reading onto the section below titled Running a Container Image to see how you can run a container from an image built as shown above.
Podman’s build
command works much like Docker’s, but is actually a subset of the build functionality within Buildah. In fact, Podman uses a portion of Buildah’s source code to implement its build function.
Buildah offers more features and fine-grained control when it comes to building containers. For that reason, many see Podman and Buildah as complementary tools. Buildah provides a robust tool for crafting container images from both container files (e.g. Dockerfiles) and from scratch. Podman then excels at running and managing the resulting containers.
You can learn more about Buildah, including steps for setup and usage, in our guide How to Use Buildah to Build OCI Container Images.
Listing Local Images
Once you have one or more images locally on your system, you can see them using Podman’s images
command. This gives you a list of images that have been created or downloaded onto your system:
podman images
Following the two sections above — on downloading and then building container images — you could expect an output similar to:
REPOSITORY TAG IMAGE ID CREATED SIZE
localhost/fedora-http-server latest f6f5a66c8a4d 2 hours ago 328 MB
quay.io/buildah/stable latest eef9e8be5fea 2 hours ago 358 MB
registry.fedoraproject.org/fedora latest 3a66698e6040 2 hours ago 169 MB
Running a Container Image
With images either downloaded or created, you can begin using Podman to run containers.
The process can be relatively straightforward with Podman’s run
command, which just takes the name of the image to run a container from.
Here is an example using the Buildah image downloaded above. This example runs the Buildah image, specifically executing the buildah
command on the resulting container:
podman run buildah buildah -v
The -v
option is included to output the version of the application:
buildah version 1.26.2 (image-spec 1.0.2-dev, runtime-spec 1.0.2-dev)
Containers’ operations can get more complicated from there, and Podman has plenty of features to support a wide range of needs when it comes to running containers.
Take the fedora-http-server
example created from a Dockerfile above. This example runs an HTTP server on the container’s port 80
. The following command demonstrates how Podman lets you control how that container operates.
The command runs the container, which automatically starts up an HTTP server. The -p
option given here publishes the container’s port 80
to the local machine’s port 8080
, while the --rm
option automatically stops the container when it finishes running — a fitting solution for a quick test.
podman run -p 8080:80 --rm fedora-http-server
Now, on the machine where the image is running, use a cURL command to verify that the default web page is being served on port 8080
:
curl localhost:8080
You should see the HTML of the Fedora HTTP Server Test Page:
<!doctype html>
<html>
<head>
<meta charset='utf-8'>
<meta name='viewport' content='width=device-width, initial-scale=1'>
<title>Test Page for the HTTP Server on Fedora</title>
<style type="text/css">
/*<![CDATA[*/
html {
height: 100%;
width: 100%;
}
body {
[...]
Managing Containers and Images
Podman prioritizes effectively running and managing containers. As such, it comes with plenty of commands for keeping track of and operating your containers.
These next several sections walk through some of the most useful Podman operations, and can help you get the most out of your containers.
Listing Containers
Often those working with containers may keep a container or two, sometimes several containers, running in the background.
To keep track of these containers, you can use Podman’s ps
command. This lists the currently running containers on your system.
For instance, if you are in the process of running the fedora-http-server
container shown above, you can expect something like:
podman ps
CONTAINER ID IMAGE COMMAND CREATED STATUS PORTS NAMES
daadb647b880 localhost/fedora-http-server:latest /usr/sbin/httpd -... 8 seconds ago Up 8 seconds ago 0.0.0.0:8080->80/tcp suspicious_goodall
And if you want to list all containers, not just the ones that are currently running, you can add the -a
option to the command:
podman ps -a
The output of this command also includes the buildah
command executed using podman run
further above:
CONTAINER ID IMAGE COMMAND CREATED STATUS PORTS NAMES
db71818eda38 quay.io/buildah/stable:latest buildah -v 12 minutes ago Exited (0) 12 minutes ago exciting_kowalevski
daadb647b880 localhost/fedora-http-server:latest /usr/sbin/httpd -... About a minute ago Up About a minute ago 0.0.0.0:8080->80/tcp suspicious_goodall
Starting and Stopping Containers
Podman can individually control when to stop and start containers, using the stop
and start
commands, respectively. Each of these commands takes either the container ID or container name as an argument, both of which you can find using the ps
command, as shown above.
For example, you can stop the fedora-http-server
container above with:
podman stop daadb647b880
Had this container been run without the --rm
option, which automatically removes the container when it has stopped running, you could start the container back up simply with:
podman start daadb647b880
For either command, you could substitute the container name for its ID, as so:
podman stop suspicious_goodall
Removing a Container
You can manually remove a container using Podman’s rm
command, which, like the stop
and start
commands, takes either a container ID or name as an argument.
podman rm daadb647b880
Creating an Image from a Container
Podman can render a container into an image using the commit
command. This can be used to manually create an updated container image after components have been added to, removed from, or modified on a container.
Like other container-related commands, this command takes the container ID or name as an argument. It’s also good practice to include an author name along with the commit, via the --author
option:
podman commit --author "Example User" daadb647b880
As noted in the section above on creating images with Podman, Buildah tends to offer more features and control when it comes to creating container images. But Podman is certainly capable in many cases and may be enough to fit your given needs.
Conclusion
Podman offers not just a simple alternative to Docker, but a powerful containerization tool with the weight of secure, rootless operations. And, with this tutorial, you have what you need to start using Podman for running and managing your containers.
Keep learning about effective tools for working with containers through the links on Podman, Buildah, and Dockerfiles provided in the course of this tutorial. Continue sharpening your Podman knowledge through the links provided at the end of this tutorial.
More Information
You may wish to consult the following resources for additional information on this topic. While these are provided in the hope that they will be useful, please note that we cannot vouch for the accuracy or timeliness of externally hosted materials.
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