liminix-fork/doc/new.rst
2023-09-17 17:03:56 +01:00

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Getting Started
###############
Liminix is very configurable, which can make it initially quite
daunting, especially if you're learning Nix or Linux or networking
concepts at the same time. In this section we build some "worked
example" Liminix images to introduce the concepts. If you follow the
examples exactly, they should work. If you change things as you go
along, they may work differently or not at all, but the experience
should be educational either way.
.. warning:: The first example we will look at runs under emulation,
so there is no danger of bricking your hardware
device. For the second example you may (if you have
appropriate hardware and choose to do so) flash the
configuration onto an actual router. There is always a
risk of rendering the device unbootable when you do this,
and various ways to recover depending on what went wrong.
We'll write more about that at the appropriate point
Requirements
************
You will need a reasonably powerful computer running Nix. Target
devices for Liminix are unlikely to have the CPU power and disk space
to be able to build it in situ, so the build process is based around
"cross-compilation" from another computer. The build machine can be
any reasonably powerful desktop/laptop/server PC running NixOS.
Standalone Nixpkgs installations on other Linux distributions - or on
MacOS, or even in a Docker container - also ought to work but are
untested.
Running in Qemu
***************
You can try out Liminix without even having a router to play with.
Clone the Liminix git repository and change into its directory
.. code-block:: console
git clone https://gti.telent.net/dan/liminix
cd liminix
Now build Liminix
.. code-block:: console
nix-build -I liminix-config=./examples/hello-from-qemu.nix \
--arg device "import ./devices/qemu" -A outputs.default
In this command ``liminix-config`` points to the desired software
configuration (e.g. services, users, filesystem, secrets) and
``device`` describes the hardware (or emulated hardware) to run it on.
``outputs.default`` tells Liminix that we want the default image
output for flashing to the device: for the Qemu "hardware" it's an
alias for ``outputs.vmbuild``, which creates a directory containing a
root filesystem image and a kernel.
.. tip:: The first time you run this it may take several hours,
because it builds all of the dependencies including a full
MIPS gcc and library toolchain. Once those intermediate build
products are in the nix store, subsequent builds will be much
faster - practically instant, if nothing has changed.
Now you can try it:
.. code-block:: console
nix-shell --run "mips-vm ./result/vmlinux ./result/rootfs"
This starts the Qemu emulator with a bunch of useful options, to run
the Liminix configuration you just built. It connects the emulated
device's serial console and the `QEMU monitor
<https://www.qemu.org/docs/master/system/monitor.html>`_ to
stdin/stdout.
You should now see Linux boot messages and after a few seconds be
presented with a login prompt. You can login on the console as
``root`` (password is "secret") and poke around to see what processes are
running. To kill the emulator, press ^P (Control P) then c to enter the
"QEMU Monitor", then type ``quit`` at the ``(qemu)`` prompt.
To see that it's running network services we need to connect to its
emulated network. Start the machine again, if you had stopped it, and
open up a second terminal on your build machine. We're going to run
another virtual machine attached to the virtual network, which will
request an IP address from our Liminix system and give you a shell you
can run ssh from.
We use `System Rescue <https://www.system-rescue.org/>`_ in tty
mode (no graphical output) for this example, but if you have some
other favourite Linux Live CD ISO - or, for that matter, any other OS
image that QEMU can boot - adjust the command to suit.
Download the System Rescue ISO:
.. code-block:: console
curl https://fastly-cdn.system-rescue.org/releases/10.01/systemrescue-10.01-amd64.iso -O
and run it
.. code-block:: console
nix-shell -p qemu --run " \
qemu-system-x86_64 \
-echr 16 \
-m 1024 \
-cdrom systemrescue-10.01-amd64.iso \
-netdev socket,mcast=230.0.0.1:1235,localaddr=127.0.0.1,id=lan \
-device virtio-net,disable-legacy=on,disable-modern=off,netdev=lan,mac=ba:ad:3d:ea:21:01 \
-display none -serial mon:stdio"
System Rescue displays a boot menu at which you should select the
"serial console" option, then after a few moments it boots to a root
prompt. You can now try things out:
* run :command:`ip a` and see that it's been allocated an IP address in the range 10.3.0.0/16.
* run :command:`ping 10.3.0.1` to see that the Liminix VM responds
* run :command:`ssh root@10.3.0.1` to try logging into it.
Congratulations! You have installed your first Liminix system - albeit
it has no practical use and it's not even real. The next step is to try
running it on hardware.
- using modules
- link to module reference
- creating custom services
- longrun or oneshot
- dependencies
- outputs
- creating your own modules
- hacking on Liminix itself
- contributing
- external links and resources
- module reference
- hardware device reference