336 lines
12 KiB
ReStructuredText
336 lines
12 KiB
ReStructuredText
Development
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###########
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As a developer working on Liminix, or implementing a service or
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module, you probably want to test your changes more conveniently
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than by building and flashing a new image every time. This section
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documents various affordances for iteration and experiments.
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In general, packages and tools that run on the "build" machine are
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available in the ``buildEnv`` derivation and can most easily
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be added to your environment by running :command:`nix-shell`.
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Emulated devices
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****************
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Liminix has a ``qemu`` device, which generates images suitable for
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running on your build machine using the free `QEMU machine emulator <http://www.qemu.org>`_.
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This is useful for developing userland without needing to keep
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flashing or messing with U-Boot: it also enables testing against
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emulated network peers using `QEMU socket networking <https://wiki.qemu.org/Documentation/Networking#Socket>`_,
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which may be preferable to letting Liminix loose on your actual LAN.
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To build it,
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.. code-block:: console
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nix-build -I liminix-config=path/to/your/configuration.nix --arg device "import ./devices/qemu" -A outputs.default
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In a ``buildEnv`` nix-shell, you can use the :command:`mips-vm` command
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to run Qemu with appropriate options. It connects the Liminix
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serial console and the `QEMU monitor <https://www.qemu.org/docs/master/system/monitor.html>`_ to stdin/stdout. Use ^P (not ^A) to switch to the monitor.
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.. code-block:: console
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nix-shell --run "mips-vm result/vmlinux result/squashfs"
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If you run with ``--background /path/to/some/directory`` as the first
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parameter, it will fork into the background and open Unix sockets in
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that directory for console and monitor. Use :command:`connect-vm`
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(also in the ``buildEnv`` environment) to connect to either of these
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sockets, and ^O to disconnect.
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Networking
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==========
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VMs can network with each other using QEMU
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socket networking. We observe these conventions, so that we can run
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multiple emulated instances and have them wired up to each other in
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the right way:
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* multicast 230.0.0.1:1234 : access (interconnect between router and "isp")
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* multicast 230.0.0.1:1235 : lan
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* multicast 230.0.0.1:1236 : world (the internet)
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A VM started with :command:`mips-vm` is connected to "lan" and "access", and
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the emulated border network gateway (see below) runs PPPoE and is
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connected to "access" and "world".
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Border Network Gateway
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----------------------
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In pkgs/routeros there is a derivation to install and configure
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`Mikrotik RouterOS <https://mikrotik.com/software>`_ as a PPPoE access
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concentrator connected to the ``access`` and ``world`` networks, so that
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Liminix PPPoE client support can be tested without actual hardware.
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This is made available as the :command:`routeros` command in
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``buildEnv``, so you can do something like::
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mkdir ros-sockets
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nix-shell
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nix-shell$ routeros ros-sockets
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nix-shell$ connect-vm ./ros-sockets/console
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to start it and connect to it. Note that by default it runs in the
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background. It is connected to "access" and "world" virtual networks
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and runs a PPPoE service on "access" - so a Liminix VM with a
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PPPOE client can connect to it and thus reach the virtual internet.
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[ check, but pretty sure this is not the actual internet ]
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`Liminix does not provide RouterOS licences and it is your own
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responsibility if you use this to ensure you're compliant with the
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terms of Mikrotik's licencing. It may be supplemented or replaced in
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time with configurations for RP-PPPoE and/or Accel PPP.`
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Hardware devices
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****************
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How you get your image onto hardware will vary according to the
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device, but is likely to involve taking it apart to add wires to
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serial console pads/headers, then using U-Boot to fetch images over
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TFTP. The OpenWrt documentation has a `good explanation <https://openwrt.org/docs/techref/hardware/port.serial>`_ of what you may expect to find on
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the device.
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There is a rudimentary TFTP server bundled with the system which runs
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from the command line, has an allowlist for client connections, and
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follows symlinks, so you can have your device download images direct
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from the :file:`./result` directory without exposing :file:`/nix/store/` to the
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internet or mucking about copying files to :file:`/tftproot`. If the
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permitted device is to be given the IP address 192.168.8.251 you might
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do something like this:
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.. code-block:: console
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nix-shell --run "tufted -a 192.168.8.251 result"
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Now add the device and server IP addresses to your configuration:
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.. code-block:: nix
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boot.tftp = {
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serverip = "192.168.8.111";
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ipaddr = "192.168.8.251";
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};
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and then build the derivation for ``outputs.default`` or
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``outputs.flashimage`` (for which it will be an alias on any device
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where this is applicable). You should find it has created
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* :file:`result/firmware.bin` which is the file you are going to flash
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* :file:`result/flash.scr` which is a set of instructions to U-Boot to
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download the image and write it to flash after erasing the appropriate
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flash partition.
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.. NOTE::
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TTL serial connections typically have no form of flow control and
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so don't always like having massive chunks of text pasted into
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them - and U-Boot may drop characters while it's busy. So don't
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necessarily expect to copy-paste the whole of :file:`boot.scr` into
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a terminal emulator and have it work just like that. You may need
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to paste each line one at a time, or even retype it.
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For a faster edit-compile-test cycle, you can build a TFTP-bootable
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image instead of flashing. In your device configuration add
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.. code-block:: nix
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imports = [
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./modules/tftpboot.nix
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];
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and then build ``outputs.tftpboot``. This creates a file in
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``result/`` called ``boot.scr``, which you can copy and paste into
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U-Boot to transfer the kernel and filesystem over TFTP and boot the
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kernel from RAM.
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Networking
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==========
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You probably don't want to be testing a device that might serve DHCP,
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DNS and routing protocols on the same LAN as you (or your colleagues,
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employees, or family) are using for anything else, because it will
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interfere. You also might want to test the device against an
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"upstream" connection without having to unplug your regular home
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router from the internet so you can borrow the cable/fibre/DSL.
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``bordervm`` is included for this purpose. You will need
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* a Linux machine with a spare (PCI or USB) ethernet device which you can dedicate to Liminix
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* an L2TP service such as https://www.aa.net.uk/broadband/l2tp-service/
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You need to "hide" the Ethernet device from the host - for PCI this
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means configuring it for VFIO passthru; for USB you need to unload the
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module(s) it uses. I have this segment in configuration.nix which you
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may be able to adapt:
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.. code-block:: nix
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boot = {
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kernelParams = [ "intel_iommu=on" ];
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kernelModules = [
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"kvm-intel" "vfio_virqfd" "vfio_pci" "vfio_iommu_type1" "vfio"
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];
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postBootCommands = ''
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# modprobe -i vfio-pci
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# echo vfio-pci > /sys/bus/pci/devices/0000:01:00.0/driver_override
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'';
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blacklistedKernelModules = [
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"r8153_ecm" "cdc_ether"
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];
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};
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services.udev.extraRules = ''
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SUBSYSTEM=="usb", ATTRS{idVendor}=="0bda", ATTRS{idProduct}=="8153", OWNER="dan"
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'';
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Then
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you can execute :command:`run-border-vm` in a ``buildEnv`` shell,
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which starts up QEMU using the NixOS configuration in
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:file:`bordervm-configuration.nix`.
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In this VM
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* your Liminix checkout is mounted under :file:`/home/liminix/liminix`
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* TFTP is listening on the ethernet device and serving
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:file:`/home/liminix/liminix`. The server IP address is 10.0.0.1
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* a PPPOE-L2TP relay is running on the same ethernet card. When the
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connected Liminix device makes PPPoE requests, the relay spawns
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L2TPv2 Access Concentrator sessions to your specified L2TP LNS.
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Note that authentication is expected at the PPP layer not the L2TP
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layer, so the PAP/CHAP credentials provided by your L2TP service can
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be configured into your test device - bordervm doesn't need to know
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about them.
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To configure bordervm, you need a file called :file:`bordervm.conf.nix`
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which you can create by copying and appropriately editing :file:`bordervm.conf-example.nix`
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.. note::
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If you make changes to the bordervm configuration after executing
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:command:`run-border-vm`, you need to remove the :file:`border.qcow2` disk
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image file otherwise the changes won't get picked up.
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Running tests
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*************
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You can run all of the tests by evaluating :file:`ci.nix`, which is the
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input I use in Hydra. Note that it expects Nixpkgs stable `and` unstable
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as inputs, because it builds the qemu device against both.
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.. code-block:: console
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nix-build --argstr liminix `pwd` --arg nixpkgs "<nixpkgs>" \
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--argstr unstable `pwd`/../unstable-nixpkgs/ ci.nix
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To run a single named test, use the ``-A`` flag. For example, ``-A pppoe``
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Troubleshooting
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***************
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Diagnosing unexpectedly large images
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====================================
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Sometimes you can add a package and it causes the image size to balloon
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because it has dependencies on other things you didn't know about. Build the
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``outputs.manifest`` attribute, which is a JSON representation of the
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filesystem, and you can run :command:`nix-store --query` on it.
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.. code-block:: console
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nix-build -I liminix-config=path/to/your/configuration.nix \
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--arg device "import ./devices/qemu" -A outputs.manifest \
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-o manifest
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nix-store -q --tree manifest
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Contributing
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************
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Contributions are welcome, though in these early days there may be a
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bit of back and forth involved before patches are merged:
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Please get in touch somehow `before` you invest a lot of time into a
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code contribution I haven't asked for. Just so I know it's expected
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and you're not wasting time doing something I won't accept or have
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already started on.
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Nix language style
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==================
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This section describes some Nix language style points that we
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attempt to adhere to in this repo.
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* favour ``callPackage`` over raw ``import`` for calling derivations
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or any function that may generate one - any code that might need
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``pkgs`` or parts of it.
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* prefer ``let inherit (quark) up down strange charm`` over
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``with quark``, in any context where the scope is more than a single
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expression or there is more than one reference to ``up``, ``down``
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etc. ``with pkgs; [ foo bar baz]`` is OK,
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``with lib; stdenv.mkDerivation { ... }`` is usually not.
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* ``<liminix>`` is defined only when running tests, so don't refer to it
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in "application" code
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* the parameters to a derivation are sorted alphabetically, except for
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``lib``, ``stdenv`` and maybe other non-package "special cases"
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* indentation is whatever emacs nix-mode says it is.
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* where a ``let`` form defines multiple names, put a newline after the
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token ``let``, and indent each name two characters
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* to decide whether some code should be a package or a module?
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Packages are self-contained - they live in ``/nix/store/eeeeeee-name``
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and don't directly change system behaviour by their presence or
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absense. modules can add to
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``/etc`` or ``/bin`` or other global state, create services, all that
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side-effecty stuff. Generally it should be a package unless it
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can't be.
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Copyright
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=========
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The Nix code in Liminix is MIT-licenced (same as Nixpkgs), but the
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code it combines from other places (e.g. Linux, OpenWrt) may have a
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variety of licences. I have no intention of asking for copyright
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assignment: just like when submitting to the Linux kernel you retain
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the copyright on the code you contribute.
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Code of Conduct
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===============
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Please govern yourself in Liminix project venues according to the
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`Code of Conduct <https://gti.telent.net/dan/liminix/src/commit/7bcf6b15c3fdddafeda13f65b3cd4a422dc52cd3/CODE-OF-CONDUCT.md>`_
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Where to send patches
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=====================
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Liminix' primary repo is https://gti.telent.net/dan/liminix but you
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can't send code there directly because it doesn't have open registrations.
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* There's a `mirror on Github <https://github.com/telent/liminix>`_ for
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convenience and visibility: you can open PRs against that
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* or, you can send me your patch by email using `git send-email <https://git-send-email.io/>`_
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* or in the future, some day, we will have federated Gitea using
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ActivityPub.
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