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This repository is no longer maintained. For a more up-to-date way to manage microVMs, please take a look at Flintlock.

Weave Ignite

<img width="300" align="right" alt="Ignite Logo" src="https://raw.githubusercontent.com/weaveworks/ignite/master/docs/logo.png">

Weave Ignite is an open source Virtual Machine (VM) manager with a container UX and built-in GitOps management.

Ignite is fast and secure because of Firecracker. Firecracker is an open source KVM implementation from AWS that is optimised for high security, isolation, speed and low resource consumption. AWS uses it as the foundation for their serverless offerings (AWS Lambda and Fargate) that need to load nearly instantly while also keeping users isolated (multitenancy). Firecracker has proven to be able to run 4000 micro-VMs on the same host!

What is Ignite?

Read the announcement blog post here: https://www.weave.works/blog/fire-up-your-vms-with-weave-ignite

Ignite makes Firecracker easy to use by adopting its developer experience from containers. With Ignite, you pick an OCI-compliant image (Docker image) that you want to run as a VM, and then just execute ignite run instead of docker run. There’s no need to use VM-specific tools to build .vdi, .vmdk, or .qcow2 images, just do a docker build from any base image you want (e.g. ubuntu:18.04 from Docker Hub), and add your preferred contents.

When you run your OCI image using ignite run, Firecracker will boot a new VM in about 125 milliseconds (!) for you using a default 4.19 Linux kernel. If you want to use some other kernel, just specify the --kernel-image flag, pointing to another OCI image containing a kernel at /boot/vmlinux, and optionally your preferred modules. Next, the kernel executes /sbin/init in the VM, and it all starts up. After this, Ignite connects the VMs to any CNI network, integrating with e.g. Weave Net.

Ignite is a declarative Firecracker microVM administration tool, similar to how Docker manages runC containers. Ignite runs VM from OCI images, spins VMs up/down at lightning speed, and can manage fleets of VMs efficiently using GitOps.

The idea is that Ignite makes Firecracker VMs look like Docker containers. Now we can deploy and manage full-blown VM systems just like e.g. Kubernetes workloads. The images used are OCI/Docker images, but instead of running them as containers, it executes their contents as a real VM with a dedicated kernel and /sbin/init as PID 1.

Networking is set up automatically, the VM gets the same IP as any container on the host would.

And Firecracker is fast! Building and starting VMs takes just some fraction of a second, or at most some seconds. With Ignite you can get started with Firecracker in no time!

Use-cases

With Ignite, Firecracker is now much more accessible for end users, which means the ecosystem can achieve a next level of momentum due to the easy onboarding path thanks to the docker-like UX.

Although Firecracker was designed with serverless workloads in mind, it can equally well boot a normal Linux OS, like Ubuntu, Debian or CentOS, running an init system like systemd.

Having a super-fast way of spinning up a new VM, with a kernel of choice, running an init system like systemd allows running system-level applications like the kubelet, which need to “own” the full system.

Example use-cases:

And - potentially - we can run a cloud of VMs ‘anywhere’ using Kubernetes for orchestration, Ignite for virtualization, GitOps for management, and supporting cloud native tools and APIs.

Scope

Ignite is different from Kata Containers or gVisor. They don’t let you run real VMs, but only wrap a container in a VM layer providing some kind of security boundary (or sandbox).

Ignite on the other hand lets you run a full-blown VM, easily and super-fast, but with the familiar container UX. This means you can “move down one layer” and start managing your fleet of VMs powering e.g. a Kubernetes cluster, but still package your VMs like containers.

Installing

Please check out the Releases Page.

How to install Ignite is covered in docs/installation.md or on Read the Docs.

Guidance on Cloud Providers' instances that can run Ignite is covered in docs/cloudprovider.md.

Getting Started

WARNING: In it's v0.X series, Ignite is in alpha, which means that it might change in backwards-incompatible ways.

asciicast

Note: At the moment ignite and ignited need root privileges on the host to operate due to certain operations (e.g. mount). This will change in the future.

# Let's run the weaveworks/ignite-ubuntu OCI image as a VM
# Use 2 vCPUs and 1GB of RAM, enable automatic SSH access and name it my-vm
ignite run weaveworks/ignite-ubuntu \
    --cpus 2 \
    --memory 1GB \
    --ssh \
    --name my-vm

# List running VMs
ignite ps

# List Docker (OCI) and kernel images imported into Ignite
ignite images
ignite kernels

# Get the boot logs of the VM
ignite logs my-vm

# SSH into the VM
ignite ssh my-vm

# Inside the VM you can check that the kernel version is different, and the IP address came from the container
# Also the memory is limited to what you specify, as well as the vCPUs
> uname -a
> ip addr
> free -m
> cat /proc/cpuinfo

# Rebooting the VM tells Firecracker to shut it down
> reboot

# Cleanup
ignite rm my-vm

For a walkthrough of how to use Ignite, go to docs/usage.md.

Getting Started the GitOps way

Ignite is a “GitOps-first” project, GitOps is supported out of the box using the ignited gitops command. Previously this was integrated as ignite gitops, but this functionality has now moved to ignited, Ignite's upcoming daemon binary.

In Git you declaratively store the desired state of a set of VMs you want to manage. ignited gitops reconciles the state from Git, and applies the desired changes as state is updated in the repo. It also commits and pushes any local changes/additions to the managed VMs back to the repository.

This can then be automated, tracked for correctness, and managed at scale - just some of the benefits of GitOps.

The workflow is simply this:

See it in action! (Note: The screencast is from an older version which differs somewhat)

asciicast

For the complete guide, see docs/gitops.md.

Awesome Ignite

Want to see how awesome Ignite is?

Take a look at the awesome-ignite page!

Documentation

Please refer to the following documents powered by Read the Docs:

Frequently Asked Questions

See the FAQ.md document.

Architecture

docs/architecture.png

Want to know how Ignite really works under the hood? Check out this TGIK session from Joe Beda about it:

TGIK 082

Base images and kernels

A base image is an OCI-compliant image containing some operating system (e.g. Ubuntu). You can follow normal docker build patterns for customizing your VM's rootfs.

A kernel image is an OCI-compliant image containing a /boot/vmlinux (an uncompressed kernel) executable (can be a symlink). You can also put supporting kernel modules in /lib/modules if needed. You can mix and match any kernel and any base image to create a VM.

As the upstream centos:7 and ubuntu:18.04 images from Docker Hub don't have all the utilities and packages you'd expect in a VM (e.g. an init system), we have packaged some reference base images and a sample kernel image to get started quickly.

You can use the following pre-built images with Ignite. They are built on the normal Docker Hub images, but add systemd, openssh, and similar utilities.

Base Images

These prebuilt images can be given to ignite run directly.

Kernel Images

Tutorials

Contributing

Please see CONTRIBUTING.md and our Code Of Conduct.

Other interesting resources include:

Getting Help

If you have any questions about, feedback for or problems with ignite:

Your feedback is always welcome!

Maintainers

License

Apache 2.0