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