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provision | ||
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CHANGES.md | ||
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README.md |
Albatross: Managing virtual machines
A set of binaries to manage, provision, and deploy virtual machine images. This is very much work in progress, don't expect anything stable.
Please read the blog article for motivation and an overview.
The implementation uses explicit errors (no exceptions), and make mostly use of
the (blocking!) Bos library for operating system commands. A thin layer of Lwt
is used on top to (more gracefully) handle multiple connection, and to have a
watching thread (in waitpid(2)
) for every virtual machine started by vmmd.
To install Albatross, run opam pin add albatross https://github.com/hannesm/albatross
. On FreeBSD, opam pin add solo5-kernel-ukvm --dev
is needed as well.
The following elaborates on how to get the software up and running, following by
provisioning and deploying some unikernels. There is a server (SRV
)
component which needs six binaries: vmm_console, vmm_log, vmm_stats_lwt, vmmd,
ukvm-bin.none, and ukvm-bin.net; a CA
machine (which should be air-gapped, or
at least use some hardware token) for provisioning which needs vmm_sign, and
vmm_gen_ca; and a development (DEV
) machine which has a fully featured OCaml
and MirageOS environment. Each step is prefixed with the machine it is supposed
to be executed on. Of course you can conflate everything into a single
development system or your server, all up to you and your security scenario.
Exact file transfer operations between these machines is not in scope of this
document, but kept abstract as COPY
. Some commands require superuser
privileges (use sudo
, su
, or doas
), I prefixed them with #
.
File endings used in this document:
.db
for CA databases.pem
for (PEM-encoded) signed certificates.key
for (PEM-encoded) private keys.req
for (PEM-encoded) certificate signing requests
Setup a certificate authority
The first step is to setup a certificate authority (private key and CA certificate). The CA private key can sign and revoke everything, you should better keep it in a safe place (air-gapped machine etc.) - not on the server!
CA> vmm_gen_ca ca ca.db [--days 3650] [--server "server"] [--server-days 365]
This generated five files:
ca.key
which is the CA private keycacert.pem
which is the CA certificateca.db
which contains a map between serial number and name of issued certificatesserver.pem
is the server certificateserver.key
is the private key of the server
Server setup
If you have installed this package on your development machine, follow some more steps to produce the remaining required binaries:
CA> COPY cacert.pem server.pem server.key SRV:
DEV> git clone https://github.com/mirage/mirage-skeleton.git
DEV> cd mirage-skeleton/tutorial/hello
DEV> mirage configure -t ukvm
DEV> mirage build
DEV> mv ukvm-bin /tmp/ukvm-bin.none
DEV> cd ../device-usage/network
DEV> mirage configure -t ukvm
DEV> mirage build
DEV> mv ukvm-bin /tmp/ukvm-bin.net
DEV> cd ../../..
DEV> COPY /tmp/ukvm-bin.none /tmp/ukvm-bin.net SRV:
DEV> COPY vmm_console vmm_log vmm_stats_lwt vmmd SRV:
SRV> vmm_console -vv cons.sock &
SRV> vmm_log -vv log.out log.sock &
SRV> vmm_stats_lwt -vv stat.sock & #optional
SRV# vmmd -vv . cacert.pem server.pem server.key
Some setup for network interfaces is needed, depending on your operating system. You can also add NAT to allow your virtual machines to talk to the outside world, or add your external interface to the bridge directly, or just keep your VMs local.
# FreeBSD
SRV# ifconfig bridge create #should output bridge0
SRV# ifconfig bridge0 name ext
SRV# sysctl net.link.tap.up_on_open=1
# Linux
SRV# brctl addbr ext
Provision our first virtual machine
We will delegate some resource to a certificate and key we keep on our development machine.
DEV> vmm_req_delegation dev 2 1024 --cpu 1 --bridge ext/10.0.0.2/10.0.0.5/10.0.0.1/24
DEV> COPY dev.req CA:
This produced two files, dev.req and dev.key. Keep the key in a safe place!
CA> vmm_sign ca.db cacert.pem ca.key dev.req [--days 10]
CA> COPY dev.pem DEV:
Now, our DEV machine can use its delegation certificate for issuing other certificates. We'll create a certificate for interactive use, and one containing the hello unikernel.
DEV> vmm_req_permissions admin --permission all
DEV> vmm_sign dev.db dev.pem dev.key admin.req
This produced in the first step two files, admin.req
and admin.key
, and in
the second step two more files, dev.db
and admin.pem
.
DEV> vmm_req_vm hello mirage-skeleton/tutorial/hello/hello.ukvm 512 1
DEV> vmm_sign dev.db dev.pem dev.key hello.req
This produced three more files, hello.{req,key,pem}
and modified dev.db
.
To actually deploy anything, the server needs the chain (i.e. the vm certificate and the delegation certificate). Our client needs the main CA certificate to authenticate the server itself.
CA> COPY cacert.pem DEV:
DEV> cat admin.pem dev.pem > admin.bundle
DEV> cat hello.pem dev.pem > hello.bundle
And deploying (watch the output of the processes started on the server above!):
DEV> vmm_client cacert.pem hello.bundle hello.key SRV:1025
DEV> vmm_client cacert.pem admin.bundle admin.key SRV:1025 --db dev.db
Commands are at the moment info
, statistics
, destroy
, attach
, detach
,
and log
.