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Announcing the 1.0 release of Mirage OS

We’re very pleased to announce the release of Mirage OS 1.0. This is the first major release of Mirage OS and represents several years of development, testing and community building. You can get started by following the install instructions and creating your own webserver to host a static website! Also check out the release notes and download page.

What is Mirage OS and why is it important?

Most applications that run in the cloud are not optimized to do so. They inherently carry assumptions about the underlying operating system with them, including vulnerabilities and bloat.

Compartmentalization of large servers into smaller ‘virtual machines’ has enabled many new businesses to get started and achieve scale. This has been great for new services but many of those virtual machines are single-purpose and yet they contain largely complete operating systems which typically run single applications like web-servers, load balancers, databases, mail servers and similar services. This means a large part of the footprint is unused and unnecessary, which is both costly due to resource usage (RAM, disk space etc) and a security risk due to the increased complexity of the system and the larger attack surface.

Cloud OS Diagram

On the left, you see a typical application stack run in the cloud today. Cloud Operating systems such as MirageOS remove the Operating System and replace it with a Language Runtime that is designed to cooperate with the Hypervisor.

Mirage OS is a Cloud Operating System which represents an approach where only the necessary components of the operating system are included and compiled along with the application into a ‘unikernel’. This results in highly efficient and extremely lean ‘appliances’, with the same or better functionality but a much smaller footprint and attack surface. These appliances can be deployed directly to the cloud and embedded devices, with the benefits of reduced costs and increased security and scalability.

Some example use cases for Mirage OS include: (1) A lean webserver, for example the openmirage.org, website is about 1MB including all content, boots in about 1 second and is hosted on Amazon EC2. (2) Middle-box applications such as small OpenFlow switches for tenants in a cloud-provider. (3) Easy reuse of the same code and toolchain that create cloud appliances to target the space and memory constrained ARM devices.

How does Mirage OS work?

Mirage OS works by treating the Xen hypervisor as a stable hardware platform and using libraries to provide the services and protocols we expect from a typical operating system, e.g. a networking stack. Application code is developed in a high-level functional programming language OCaml on a desktop OS such as Linux or Mac OSX, and compiled into a fully-standalone, specialized unikernel. These unikernels run directly on Xen hypervisor APIs. Since Xen powers most public clouds such as Amazon EC2, Rackspace Cloud, and many others, Mirage OS lets your servers run more cheaply, securely and faster on those services.

Mirage OS is implemented in the OCaml language, with 50+ libraries which map directly to operating system constructs when being compiled for production deployment. The goal is to make it as easy as possible to create Mirage OS appliances and ensure that all the things found in a typical operating system stack are still available to the developer. Mirage OS includes clean-slate functional implementations of protocols ranging from TCP/IP, DNS, SSH, OpenFlow (switch/controller), HTTP, XMPP and Xen Project inter-VM transports. Since everything is written in a single high-level language, it is easier to work with those libraries directly. This approach guarantees the best possible performance of Mirage OS on the Xen Hypervisor without needing to support the thousands of device drivers found in a traditional OS.

Bind 9 vs. Mirage OS throughput comparison

Performance comparison of Bind 9 vs. a DNS server written in Mirage OS.

An example of a Mirage OS appliance is a DNS server and below is a comparison with one of the most widely deployed DNS servers on the internet, BIND 9. As you can see, the Mirage OS appliance outperforms BIND 9 but in addition, the Mirage OS VM is less than 200kB in size compared to over 450MB for the BIND VM. Moreover, the traditional VM contains 4-5 times more lines of code than the Mirage implementation, and lines of code are often considered correlated with attack surface. More detail about this comparison and others can be found in the associated ASPLOS paper.

For the DNS appliance above, the application code was written using OCaml and compiled with the relevant Mirage OS libraries. To take full advantage of Mirage OS it is necessary to design and construct applications using OCaml, which provides a number of additional benefits such as type-safety. For those new to OCaml, there are some excellent resources to get started with the language, including a new book from O’Reilly and a range of tutorials on the revamped OCaml website.

We look forward to the exciting wave of innovation that Mirage OS will unleash including more resilient and lean software as well as increased developer productivity.


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Continuing the Discussion

  1. cloudcomputing.info | The Xen Project releases version 1.0 of its Mirage Operating System linked to this post on June 4, 2014

    [...] under the GNU Public License (GPLv) and which is now part of the Linux foundation yesterday announced the release of version 1.0 of the Mirage Operating [...]

  2. Mirage OS v2.0: The new features – blog.xen.org linked to this post on July 22, 2014

    [...] first release of Mirage OS back in December 2013 introduced the prototype of the unikernel concept, which [...]

  3. Mirage OS v2.0: The new features | linux.malyblog.cba.pl linked to this post on July 23, 2014

    [...] The first release of Mirage OS back in December 2013 introduced the prototype of the unikernel concept, which [...]

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