This repository is a collection of tutorial code referred to from the Mirage website, example code for using specific devices like filesystems and networks, and higher-level applications like DHCP, DNS, and Web servers.
tutorial/
contains the tutorial content.device-usage/
contains examples showing specific devices.applications/
contains the higher-level examples, which may use several different devices.
-
Install latest OPAM (at least 1.2.2), following instructions at https://opam.ocaml.org/
-
Install the
mirage
package with OPAM, updating your package first if necessary:
$ opam update -u
$ opam install mirage
$ eval `opam config env`
- Please ensure that your Mirage command-line version is at least 3.0.0 before proceeding:
$ mirage --version
3.0.5
You can check that your build environment is working and get a feel for
the normal workflow by trying to compile the noop
application.
$ cd tutorials/noop
$ mirage configure -t unix # initial setup for UNIX backend
$ make depend # install dependencies
$ make # build the program
$ ./noop # run the program
Note that in the general case, you may need to specify more options at
the mirage configure
stage. You can find out about them with
mirage configure --help
. For example, you may need to specify what networking
method should be used, with, e.g., --net socket
or --net direct
at
the mirage configure
stage.
Each unikernel lives in its own directory, and can be configured, built, and run from that location. For example:
$ cd applications/static_website_tls
$ mirage configure -t unix # initial setup for UNIX backend
$ make depend # install dependencies
$ make # build the program
$ ./https # run the program
If you want to clean up mirage
's artifacts after building, mirage clean
will do the trick:
$ cd applications/static_website_tls
$ mirage clean
There is also a top-level Makefile
at the root of this repository with
convenience functions for configuring, building, and running all of the examples
in one step.
$ make all ## equivalent to ...
$ make configure build
$ make clean
The Makefile
simply invokes sample-specific sample/Makefile
. Each of those
invokes the mirage
command-line tool to configure, build and run the sample,
passing flags and environment as directed. The mirage
command-line tool
assumes that the OPAM package manager is present and
is used to manage installation of an OCaml dependencies.
The mirage
command-line tool supports four commands, each of which either
uses config.ml
in the current directory or supports passing a config.ml
directly.
$ mirage configure -t [ukvm|kvm|qubes|macosx|unix|xen]
The boot target is selected via the -t
flag. The default target is unix
.
Depending on what devices are present in config.ml
, there may be additional
configuration options for the unikernel. To list the options,
$ mirage help configure
and see the section labeled UNIKERNEL PARAMETERS
.
After running mirage configure
:
$ make depend
to install the list of dependencies discovered in the mirage configure
phase.
$ make
The output will be created next to the config.ml
file used.
The mechanics of running the generated artifact will be dependent on the backend used. For details, see solo5's readme for Ukvm and Virtio, the qubes-test-mirage repository's readme for Qubes, or the MirageOS website instructions on booting Xen unikernels.
For the Macosx
and Unix
backends, running as a normal process should suffice.
For summaries by backend that assume the hello
example, see below:
Unix:
$ cd hello
$ mirage configure -t unix
$ make depend
$ make
$ ./hello
Xen:
$ cd hello
$ mirage configure -t xen
$ make depend
$ make
$ sudo xl create xen.xl -c
Ukvm:
$ cd hello
$ mirage configure -t ukvm
$ make depend
$ make
$ ./ukvm-bin hello.ukvm
Virtio:
$ cd hello
$ mirage configure -t virtio
$ make depend
$ make
$ solo5-run-virtio ./https.virtio
Macosx:
$ cd hello
$ mirage configure -t macosx
$ make depend
$ make
$ ./hello
Qubes:
Some specific setup in the QubesOS manager is necessary to be able to easily run MirageOS unikernels -- please see the qubes-test-mirage readme for details.
$ cd hello
$ mirage configure -t qubes
$ make depend
$ make
$ ~/test-unikernel hello.xen unikernel-test-vm
$ make clean