nixos: remove unused "system tarball" modules

This has all been commented in nixos/release.nix since at least 2015,
so it's not doing us any good to keep it around.

5 files changed, 0 insertions, 677 deletions

diff --git a/nixos/modules/installer/cd-dvd/system-tarball-fuloong2f.nix b/nixos/modules/installer/cd-dvd/system-tarball-fuloong2f.nix
deleted file mode 100644
index 054c8c74a76b1..0000000000000
--- a/nixos/modules/installer/cd-dvd/system-tarball-fuloong2f.nix
+++ /dev/null
@@ -1,160 +0,0 @@
-{ config, lib, pkgs, ... }:
-
-with lib;
-
-let
-
-  # A dummy /etc/nixos/configuration.nix in the booted CD that
-  # rebuilds the CD's configuration (and allows the configuration to
-  # be modified, of course, providing a true live CD).  Problem is
-  # that we don't really know how the CD was built - the Nix
-  # expression language doesn't allow us to query the expression being
-  # evaluated.  So we'll just hope for the best.
-  dummyConfiguration = pkgs.writeText "configuration.nix"
-    ''
-      { config, pkgs, ... }:
-
-      { # Add your own options below, e.g.:
-        #   services.openssh.enable = true;
-        nixpkgs.config.platform = pkgs.platforms.fuloong2f_n32;
-      }
-    '';
-
-
-  pkgs2storeContents = l : map (x: { object = x; symlink = "none"; }) l;
-
-  # A clue for the kernel loading
-  kernelParams = pkgs.writeText "kernel-params.txt" ''
-    Kernel Parameters:
-      init=/boot/init ${toString config.boot.kernelParams}
-  '';
-
-  # System wide nixpkgs config
-  nixpkgsUserConfig = pkgs.writeText "config.nix" ''
-    pkgs:
-    {
-      platform = pkgs.platforms.fuloong2f_n32;
-    }
-  '';
-
-in
-
-{
-  imports = [ ./system-tarball.nix ];
-
-  # Disable some other stuff we don't need.
-  security.sudo.enable = false;
-
-  # Include only the en_US locale.  This saves 75 MiB or so compared to
-  # the full glibcLocales package.
-  i18n.supportedLocales = ["en_US.UTF-8/UTF-8" "en_US/ISO-8859-1"];
-
-  # Include some utilities that are useful for installing or repairing
-  # the system.
-  environment.systemPackages =
-    [ pkgs.w3m # needed for the manual anyway
-      pkgs.testdisk # useful for repairing boot problems
-      pkgs.ms-sys # for writing Microsoft boot sectors / MBRs
-      pkgs.parted
-      pkgs.ddrescue
-      pkgs.ccrypt
-      pkgs.cryptsetup # needed for dm-crypt volumes
-
-      # Some networking tools.
-      pkgs.sshfs-fuse
-      pkgs.socat
-      pkgs.screen
-      pkgs.wpa_supplicant # !!! should use the wpa module
-
-      # Hardware-related tools.
-      pkgs.sdparm
-      pkgs.hdparm
-      pkgs.dmraid
-
-      # Tools to create / manipulate filesystems.
-      pkgs.ntfsprogs # for resizing NTFS partitions
-      pkgs.btrfs-progs
-      pkgs.jfsutils
-
-      # Some compression/archiver tools.
-      pkgs.unzip
-      pkgs.zip
-      pkgs.xz
-      pkgs.dar # disk archiver
-
-      # Some editors.
-      pkgs.nvi
-      pkgs.bvi # binary editor
-      pkgs.joe
-    ];
-
-  # The initrd has to contain any module that might be necessary for
-  # mounting the CD/DVD.
-  boot.initrd.availableKernelModules =
-    [ "vfat" "reiserfs" ];
-
-  boot.kernelPackages = pkgs.linuxKernel.packages.linux_3_10;
-  boot.kernelParams = [ "console=tty1" ];
-
-  boot.postBootCommands =
-    ''
-      mkdir -p /mnt
-
-      cp ${dummyConfiguration} /etc/nixos/configuration.nix
-    '';
-
-  # Some more help text.
-  services.getty.helpLine =
-    ''
-
-      Log in as "root" with an empty password.  ${
-        if config.services.xserver.enable then
-          "Type `start xserver' to start\nthe graphical user interface."
-        else ""
-      }
-    '';
-
-  # Include the firmware for various wireless cards.
-  networking.enableRalinkFirmware = true;
-  networking.enableIntel2200BGFirmware = true;
-
-  # To speed up further installation of packages, include the complete stdenv
-  # in the Nix store of the tarball.
-  tarball.storeContents = pkgs2storeContents [ pkgs.stdenv ]
-    ++ [
-      {
-        object = config.system.build.bootStage2;
-        symlink = "/boot/init";
-      }
-      {
-        object = config.system.build.toplevel;
-        symlink = "/boot/system";
-      }
-    ];
-
-  tarball.contents = [
-    { source = kernelParams;
-      target = "/kernelparams.txt";
-    }
-    { source = config.boot.kernelPackages.kernel + "/" + config.system.boot.loader.kernelFile;
-      target = "/boot/" + config.system.boot.loader.kernelFile;
-    }
-    { source = nixpkgsUserConfig;
-      target = "/root/.nixpkgs/config.nix";
-    }
-  ];
-
-  # Allow sshd to be started manually through "start sshd".  It should
-  # not be started by default on the installation CD because the
-  # default root password is empty.
-  services.openssh.enable = true;
-  systemd.services.openssh.wantedBy = lib.mkOverride 50 [];
-
-  boot.loader.grub.enable = false;
-  boot.loader.generationsDir.enable = false;
-  system.boot.loader.kernelFile = "vmlinux";
-
-  nixpkgs.config = {
-    platform = pkgs.platforms.fuloong2f_n32;
-  };
-}
diff --git a/nixos/modules/installer/cd-dvd/system-tarball-pc-readme.txt b/nixos/modules/installer/cd-dvd/system-tarball-pc-readme.txt
deleted file mode 100644
index 887bf60d0fbe4..0000000000000
--- a/nixos/modules/installer/cd-dvd/system-tarball-pc-readme.txt
+++ /dev/null
@@ -1,89 +0,0 @@
-Let all the files in the system tarball sit in a directory served by NFS (the
-NFS root) like this in exportfs:
-  /home/pcroot    192.168.1.0/24(rw,no_root_squash,no_all_squash)
-
-Run "exportfs -a" after editing /etc/exportfs, for the nfs server to be aware
-of the changes.
-
-Use a tftp server serving the root of boot/ (from the system tarball).
-
-In order to have PXE boot, use the boot/dhcpd.conf-example file for your dhcpd
-server, as it will point your PXE clients to pxelinux.0 from the tftp server.
-Adapt the configuration to your network.
-
-Adapt the pxelinux configuration (boot/pxelinux.cfg/default) to set the path to
-your nfrroot. If you use ip=dhcp in the kernel, the nfs server ip will be taken
-from dhcp and so you don't have to specify it.
-
-The linux in bzImage includes network drivers for some usual cards.
-
-
-QEMU Testing
----------------
-
-You can test qemu pxe boot without having a DHCP server adapted, but having
-nfsroot, like this:
-  qemu-system-x86_64 -tftp /home/pcroot/boot -net nic -net user,bootfile=pxelinux.0 -boot n
-
-I don't know how to use NFS through the qemu '-net user' though.
-
-
-QEMU Testing with NFS root and bridged network
--------------------------------------------------
-
-This allows testing with qemu as any other host in your LAN.
-
-Testing with the real dhcpd server requires setting up a bridge and having a
-tap device.
-  tunctl -t tap0
-  brctl addbr br0
-  brctl addif br0 eth0
-  brctl addif tap0 eth0
-  ifconfig eth0 0.0.0.0 up
-  ifconfig tap0 0.0.0.0 up
-  ifconfig br0 up # With your ip configuration
-
-Then you can run qemu:
-  qemu-system-x86_64 -boot n -net tap,ifname=tap0,script=no -net nic,model=e1000
-
-
-Using the system-tarball-pc in a chroot
---------------------------------------------------
-
-Installation:
-  mkdir nixos-chroot && cd nixos-chroot
-  tar xf your-system-tarball.tar.xz
-  mkdir sys dev proc tmp root var run
-  mount --bind /sys sys
-  mount --bind /dev dev
-  mount --bind /proc proc
-
-Activate the system: look for a directory in nix/store similar to:
-    "/nix/store/y0d1lcj9fppli0hl3x0m0ba5g1ndjv2j-nixos-feb97bx-53f008"
-Having found it, activate that nixos system *twice*:
-  chroot . /nix/store/SOMETHING-nixos-SOMETHING/activate
-  chroot . /nix/store/SOMETHING-nixos-SOMETHING/activate
-
-This runs a 'hostname' command. Restore your old hostname with:
-  hostname OLDHOSTNAME
-
-Copy your system resolv.conf to the /etc/resolv.conf inside the chroot:
-  cp /etc/resolv.conf etc
-
-Then you can get an interactive shell in the nixos chroot. '*' means
-to run inside the chroot interactive shell
-  chroot . /bin/sh
-*  source /etc/profile
-
-Populate the nix database: that should be done in the init script if you
-had booted this nixos. Run:
-*  `grep local-cmds run/current-system/init`
-
-Then you can proceed normally subscribing to a nixos channel:
-  nix-channel --add https://nixos.org/channels/nixos-unstable
-  nix-channel --update
-
-Testing:
-  nix-env -i hello
-  which hello
-  hello
diff --git a/nixos/modules/installer/cd-dvd/system-tarball-pc.nix b/nixos/modules/installer/cd-dvd/system-tarball-pc.nix
deleted file mode 100644
index 674fb6c8a33c5..0000000000000
--- a/nixos/modules/installer/cd-dvd/system-tarball-pc.nix
+++ /dev/null
@@ -1,163 +0,0 @@
-# This module contains the basic configuration for building a NixOS
-# tarball, that can directly boot, maybe using PXE or unpacking on a fs.
-
-{ config, lib, pkgs, ... }:
-
-with lib;
-
-let
-
-  pkgs2storeContents = l : map (x: { object = x; symlink = "none"; }) l;
-
-  # For PXE kernel loading
-  pxeconfig = pkgs.writeText "pxeconfig-default" ''
-    default menu.c32
-    prompt 0
-
-    label bootlocal
-      menu default
-      localboot 0
-      timeout 80
-      TOTALTIMEOUT 9000
-
-    label nixos
-      MENU LABEL ^NixOS using nfsroot
-      KERNEL bzImage
-      append ip=dhcp nfsroot=/home/pcroot init=${config.system.build.toplevel}/init rw
-
-    # I don't know how to make this boot with nfsroot (using the initrd)
-    label nixos_initrd
-      MENU LABEL NixOS booting the poor ^initrd.
-      KERNEL bzImage
-      append initrd=initrd ip=dhcp nfsroot=/home/pcroot init=${config.system.build.toplevel}/init rw
-
-    label memtest
-      MENU LABEL ^${pkgs.memtest86.name}
-      KERNEL memtest
-  '';
-
-  dhcpdExampleConfig = pkgs.writeText "dhcpd.conf-example" ''
-    # Example configuration for booting PXE.
-    allow booting;
-    allow bootp;
-
-    # Adapt this to your network configuration.
-    option domain-name "local";
-    option subnet-mask 255.255.255.0;
-    option broadcast-address 192.168.1.255;
-    option domain-name-servers 192.168.1.1;
-    option routers 192.168.1.1;
-
-    # PXE-specific configuration directives...
-    # Some BIOS don't accept slashes for paths inside the tftp servers,
-    # and will report Access Violation if they see slashes.
-    filename "pxelinux.0";
-    # For the TFTP and NFS root server. Set the IP of your server.
-    next-server 192.168.1.34;
-
-    subnet 192.168.1.0 netmask 255.255.255.0 {
-      range 192.168.1.50 192.168.1.55;
-    }
-  '';
-
-  readme = ./system-tarball-pc-readme.txt;
-
-in
-
-{
-  imports =
-    [ ./system-tarball.nix
-
-      # Profiles of this basic installation.
-      ../../profiles/all-hardware.nix
-      ../../profiles/base.nix
-      ../../profiles/installation-device.nix
-    ];
-
-  # To speed up further installation of packages, include the complete stdenv
-  # in the Nix store of the tarball.
-  tarball.storeContents = pkgs2storeContents [ pkgs.stdenv ];
-
-  tarball.contents =
-    [ { source = config.boot.kernelPackages.kernel + "/" + config.system.boot.loader.kernelFile;
-        target = "/boot/" + config.system.boot.loader.kernelFile;
-      }
-      { source = "${pkgs.syslinux}/share/syslinux/pxelinux.0";
-        target = "/boot/pxelinux.0";
-      }
-      { source = "${pkgs.syslinux}/share/syslinux/menu.c32";
-        target = "/boot/menu.c32";
-      }
-      { source = pxeconfig;
-        target = "/boot/pxelinux.cfg/default";
-      }
-      { source = readme;
-        target = "/readme.txt";
-      }
-      { source = dhcpdExampleConfig;
-        target = "/boot/dhcpd.conf-example";
-      }
-      { source = "${pkgs.memtest86}/memtest.bin";
-        # We can't leave '.bin', because pxelinux interprets this specially,
-        # and it would not load the image fine.
-        # http://forum.canardpc.com/threads/46464-0104-when-launched-via-pxe
-        target = "/boot/memtest";
-      }
-    ];
-
-  # Allow sshd to be started manually through "start sshd".  It should
-  # not be started by default on the installation CD because the
-  # default root password is empty.
-  services.openssh.enable = true;
-  systemd.services.openssh.wantedBy = lib.mkOverride 50 [];
-
-  # To be able to use the systemTarball to catch troubles.
-  boot.crashDump = {
-    enable = true;
-    kernelPackages = pkgs.linuxKernel.packages.linux_3_4;
-  };
-
-  # No grub for the tarball.
-  boot.loader.grub.enable = false;
-
-  /* fake entry, just to have a happy stage-1. Users
-     may boot without having stage-1 though */
-  fileSystems.fake =
-    { mountPoint = "/";
-      device = "/dev/something";
-    };
-
-  nixpkgs.config = {
-    packageOverrides = p: {
-      linux_3_4 = p.linux_3_4.override {
-        extraConfig = ''
-          # Enable drivers in kernel for most NICs.
-          E1000 y
-          # E1000E y
-          # ATH5K y
-          8139TOO y
-          NE2K_PCI y
-          ATL1 y
-          ATL1E y
-          ATL1C y
-          VORTEX y
-          VIA_RHINE y
-          R8169 y
-
-          # Enable nfs root boot
-          UNIX y # http://www.linux-mips.org/archives/linux-mips/2006-11/msg00113.html
-          IP_PNP y
-          IP_PNP_DHCP y
-          FSCACHE y
-          NFS_FS y
-          NFS_FSCACHE y
-          ROOT_NFS y
-
-          # Enable devtmpfs
-          DEVTMPFS y
-          DEVTMPFS_MOUNT y
-        '';
-      };
-    };
-  };
-}
diff --git a/nixos/modules/installer/cd-dvd/system-tarball-sheevaplug.nix b/nixos/modules/installer/cd-dvd/system-tarball-sheevaplug.nix
deleted file mode 100644
index 329bd329dc15f..0000000000000
--- a/nixos/modules/installer/cd-dvd/system-tarball-sheevaplug.nix
+++ /dev/null
@@ -1,172 +0,0 @@
-# This module contains the basic configuration for building a NixOS
-# tarball for the sheevaplug.
-
-{ config, lib, pkgs, ... }:
-
-with lib;
-
-let
-
-  # A dummy /etc/nixos/configuration.nix in the booted CD that
-  # rebuilds the CD's configuration (and allows the configuration to
-  # be modified, of course, providing a true live CD).  Problem is
-  # that we don't really know how the CD was built - the Nix
-  # expression language doesn't allow us to query the expression being
-  # evaluated.  So we'll just hope for the best.
-  dummyConfiguration = pkgs.writeText "configuration.nix"
-    ''
-      { config, pkgs, ... }:
-
-      {
-        # Add your own options below and run "nixos-rebuild switch".
-        # E.g.,
-        #   services.openssh.enable = true;
-      }
-    '';
-
-
-  pkgs2storeContents = l : map (x: { object = x; symlink = "none"; }) l;
-
-  # A clue for the kernel loading
-  kernelParams = pkgs.writeText "kernel-params.txt" ''
-    Kernel Parameters:
-      init=${config.system.build.toplevel}/init ${toString config.boot.kernelParams}
-  '';
-
-
-in
-
-{
-  imports = [ ./system-tarball.nix ];
-
-  # Disable some other stuff we don't need.
-  security.sudo.enable = false;
-
-  # Include only the en_US locale.  This saves 75 MiB or so compared to
-  # the full glibcLocales package.
-  i18n.supportedLocales = ["en_US.UTF-8/UTF-8" "en_US/ISO-8859-1"];
-
-  # Include some utilities that are useful for installing or repairing
-  # the system.
-  environment.systemPackages =
-    [ pkgs.w3m # needed for the manual anyway
-      pkgs.ddrescue
-      pkgs.ccrypt
-      pkgs.cryptsetup # needed for dm-crypt volumes
-
-      # Some networking tools.
-      pkgs.sshfs-fuse
-      pkgs.socat
-      pkgs.screen
-      pkgs.wpa_supplicant # !!! should use the wpa module
-
-      # Hardware-related tools.
-      pkgs.sdparm
-      pkgs.hdparm
-      pkgs.dmraid
-
-      # Tools to create / manipulate filesystems.
-      pkgs.btrfs-progs
-
-      # Some compression/archiver tools.
-      pkgs.unzip
-      pkgs.zip
-      pkgs.xz
-      pkgs.dar # disk archiver
-
-      # Some editors.
-      pkgs.nvi
-      pkgs.bvi # binary editor
-      pkgs.joe
-    ];
-
-  boot.loader.grub.enable = false;
-  boot.loader.generationsDir.enable = false;
-  system.boot.loader.kernelFile = "uImage";
-
-  boot.initrd.availableKernelModules =
-    [ "mvsdio" "reiserfs" "ext3" "ums-cypress" "rtc_mv" "ext4" ];
-
-  boot.postBootCommands = lib.mkIf (!boot.initrd.systemd.enable)
-    ''
-      mkdir -p /mnt
-
-      cp ${dummyConfiguration} /etc/nixos/configuration.nix
-    '';
-
-  boot.initrd.extraUtilsCommands = lib.mkIf (!boot.initrd.systemd.enable)
-    ''
-      copy_bin_and_libs ${pkgs.util-linux}/sbin/hwclock
-    '';
-
-  boot.initrd.postDeviceCommands = lib.mkIf (!boot.initrd.systemd.enable)
-    ''
-      hwclock -s
-    '';
-
-  boot.kernelParams =
-    [
-      "selinux=0"
-      "console=tty1"
-      # "console=ttyS0,115200n8"  # serial console
-    ];
-
-  boot.kernelPackages = pkgs.linuxKernel.packages.linux_3_4;
-
-  boot.supportedFilesystems = [ "reiserfs" ];
-
-  /* fake entry, just to have a happy stage-1. Users
-     may boot without having stage-1 though */
-  fileSystems.fake =
-    { mountPoint = "/";
-      device = "/dev/something";
-    };
-
-  services.getty = {
-    # Some more help text.
-    helpLine = ''
-      Log in as "root" with an empty password.  ${
-        if config.services.xserver.enable then
-          "Type `start xserver' to start\nthe graphical user interface."
-        else ""
-      }
-    '';
-  };
-
-  # Setting vesa, we don't get the nvidia driver, which can't work in arm.
-  services.xserver.videoDrivers = [ "vesa" ];
-
-  documentation.nixos.enable = false;
-
-  # Include the firmware for various wireless cards.
-  networking.enableRalinkFirmware = true;
-  networking.enableIntel2200BGFirmware = true;
-
-  # To speed up further installation of packages, include the complete stdenv
-  # in the Nix store of the tarball.
-  tarball.storeContents = pkgs2storeContents [ pkgs.stdenv ];
-  tarball.contents = [
-    { source = kernelParams;
-      target = "/kernelparams.txt";
-    }
-    { source = config.boot.kernelPackages.kernel + "/" + config.system.boot.loader.kernelFile;
-      target = "/boot/" + config.system.boot.loader.kernelFile;
-    }
-    { source = pkgs.ubootSheevaplug;
-      target = "/boot/uboot";
-    }
-  ];
-
-  # Allow sshd to be started manually through "start sshd".  It should
-  # not be started by default on the installation CD because the
-  # default root password is empty.
-  services.openssh.enable = true;
-  systemd.services.openssh.wantedBy = lib.mkOverride 50 [];
-
-  # cpufrequtils fails to build on non-pc
-  powerManagement.enable = false;
-
-  nixpkgs.config = {
-    platform = pkgs.platforms.sheevaplug;
-  };
-}
diff --git a/nixos/modules/installer/cd-dvd/system-tarball.nix b/nixos/modules/installer/cd-dvd/system-tarball.nix
deleted file mode 100644
index 362c555cc53e8..0000000000000
--- a/nixos/modules/installer/cd-dvd/system-tarball.nix
+++ /dev/null
@@ -1,93 +0,0 @@
-# This module creates a bootable ISO image containing the given NixOS
-# configuration.  The derivation for the ISO image will be placed in
-# config.system.build.tarball.
-
-{ config, lib, pkgs, ... }:
-
-with lib;
-
-let
-
-  versionFile = pkgs.writeText "nixos-label" config.system.nixos.label;
-
-in
-
-{
-  options = {
-    tarball.contents = mkOption {
-      example = literalExpression ''
-        [ { source = pkgs.memtest86 + "/memtest.bin";
-            target = "boot/memtest.bin";
-          }
-        ]
-      '';
-      description = ''
-        This option lists files to be copied to fixed locations in the
-        generated ISO image.
-      '';
-    };
-
-    tarball.storeContents = mkOption {
-      example = literalExpression "[ pkgs.stdenv ]";
-      description = ''
-        This option lists additional derivations to be included in the
-        Nix store in the generated ISO image.
-      '';
-    };
-
-  };
-
-  config = {
-
-    # In stage 1 of the boot, mount the CD/DVD as the root FS by label
-    # so that we don't need to know its device.
-    fileSystems = { };
-
-    # boot.initrd.availableKernelModules = [ "mvsdio" "reiserfs" "ext3" "ext4" ];
-
-    # boot.initrd.kernelModules = [ "rtc_mv" ];
-
-    # Closures to be copied to the Nix store on the CD, namely the init
-    # script and the top-level system configuration directory.
-    tarball.storeContents =
-      [ { object = config.system.build.toplevel;
-          symlink = "/run/current-system";
-        }
-      ];
-
-    # Individual files to be included on the CD, outside of the Nix
-    # store on the CD.
-    tarball.contents =
-      [ { source = config.system.build.initialRamdisk + "/" + config.system.boot.loader.initrdFile;
-          target = "/boot/" + config.system.boot.loader.initrdFile;
-        }
-        { source = versionFile;
-          target = "/nixos-version.txt";
-        }
-      ];
-
-    # Create the tarball
-    system.build.tarball = import ../../../lib/make-system-tarball.nix {
-      inherit (pkgs) stdenv closureInfo pixz;
-
-      inherit (config.tarball) contents storeContents;
-    };
-
-    boot.postBootCommands =
-      ''
-        # After booting, register the contents of the Nix store on the
-        # CD in the Nix database in the tmpfs.
-        if [ -f /nix-path-registration ]; then
-          ${config.nix.package.out}/bin/nix-store --load-db < /nix-path-registration &&
-          rm /nix-path-registration
-        fi
-
-        # nixos-rebuild also requires a "system" profile and an
-        # /etc/NIXOS tag.
-        touch /etc/NIXOS
-        ${config.nix.package.out}/bin/nix-env -p /nix/var/nix/profiles/system --set /run/current-system
-      '';
-
-  };
-
-}