# 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.isoImage. { config, lib, pkgs, ... }: with lib; let /** * Given a list of `options`, concats the result of mapping each options * to a menuentry for use in grub. * * * defaults: {name, image, params, initrd} * * options: [ option... ] * * option: {name, params, class} */ menuBuilderGrub2 = defaults: options: lib.concatStrings ( map (option: '' menuentry '${defaults.name} ${ # Name appended to menuentry defaults to params if no specific name given. option.name or (if option ? params then "(${option.params})" else "") }' ${if option ? class then " --class ${option.class}" else ""} { linux ${defaults.image} \''${isoboot} ${defaults.params} ${ option.params or "" } initrd ${defaults.initrd} } '') options ) ; /** * Builds the default options. */ buildMenuGrub2 = buildMenuAdditionalParamsGrub2 ""; targetArch = if config.boot.loader.grub.forcei686 then "ia32" else pkgs.stdenv.hostPlatform.efiArch; /** * Given params to add to `params`, build a set of default options. * Use this one when creating a variant (e.g. hidpi) */ buildMenuAdditionalParamsGrub2 = additional: let finalCfg = { name = "NixOS ${config.system.nixos.label}${config.isoImage.appendToMenuLabel}"; params = "init=${config.system.build.toplevel}/init ${additional} ${toString config.boot.kernelParams}"; image = "/boot/${config.system.boot.loader.kernelFile}"; initrd = "/boot/initrd"; }; in menuBuilderGrub2 finalCfg [ { class = "installer"; } { class = "nomodeset"; params = "nomodeset"; } { class = "copytoram"; params = "copytoram"; } { class = "debug"; params = "debug"; } ] ; # Timeout in syslinux is in units of 1/10 of a second. # 0 is used to disable timeouts. syslinuxTimeout = if config.boot.loader.timeout == null then 0 else max (config.boot.loader.timeout * 10) 1; max = x: y: if x > y then x else y; # The configuration file for syslinux. # Notes on syslinux configuration and UNetbootin compatiblity: # * Do not use '/syslinux/syslinux.cfg' as the path for this # configuration. UNetbootin will not parse the file and use it as-is. # This results in a broken configuration if the partition label does # not match the specified config.isoImage.volumeID. For this reason # we're using '/isolinux/isolinux.cfg'. # * Use APPEND instead of adding command-line arguments directly after # the LINUX entries. # * COM32 entries (chainload, reboot, poweroff) are not recognized. They # result in incorrect boot entries. baseIsolinuxCfg = '' SERIAL 0 115200 TIMEOUT ${builtins.toString syslinuxTimeout} UI vesamenu.c32 MENU BACKGROUND /isolinux/background.png ${config.isoImage.syslinuxTheme} DEFAULT boot LABEL boot MENU LABEL NixOS ${config.system.nixos.label}${config.isoImage.appendToMenuLabel} LINUX /boot/${config.system.boot.loader.kernelFile} APPEND init=${config.system.build.toplevel}/init ${toString config.boot.kernelParams} INITRD /boot/${config.system.boot.loader.initrdFile} # A variant to boot with 'nomodeset' LABEL boot-nomodeset MENU LABEL NixOS ${config.system.nixos.label}${config.isoImage.appendToMenuLabel} (nomodeset) LINUX /boot/${config.system.boot.loader.kernelFile} APPEND init=${config.system.build.toplevel}/init ${toString config.boot.kernelParams} nomodeset INITRD /boot/${config.system.boot.loader.initrdFile} # A variant to boot with 'copytoram' LABEL boot-copytoram MENU LABEL NixOS ${config.system.nixos.label}${config.isoImage.appendToMenuLabel} (copytoram) LINUX /boot/${config.system.boot.loader.kernelFile} APPEND init=${config.system.build.toplevel}/init ${toString config.boot.kernelParams} copytoram INITRD /boot/${config.system.boot.loader.initrdFile} # A variant to boot with verbose logging to the console LABEL boot-debug MENU LABEL NixOS ${config.system.nixos.label}${config.isoImage.appendToMenuLabel} (debug) LINUX /boot/${config.system.boot.loader.kernelFile} APPEND init=${config.system.build.toplevel}/init ${toString config.boot.kernelParams} loglevel=7 INITRD /boot/${config.system.boot.loader.initrdFile} # A variant to boot with a serial console enabled LABEL boot-serial MENU LABEL NixOS ${config.system.nixos.label}${config.isoImage.appendToMenuLabel} (serial console=ttyS0,115200n8) LINUX /boot/${config.system.boot.loader.kernelFile} APPEND init=${config.system.build.toplevel}/init ${toString config.boot.kernelParams} console=ttyS0,115200n8 INITRD /boot/${config.system.boot.loader.initrdFile} ''; isolinuxMemtest86Entry = '' LABEL memtest MENU LABEL Memtest86+ LINUX /boot/memtest.bin APPEND ${toString config.boot.loader.grub.memtest86.params} ''; isolinuxCfg = concatStringsSep "\n" ([ baseIsolinuxCfg ] ++ optional config.boot.loader.grub.memtest86.enable isolinuxMemtest86Entry); refindBinary = if targetArch == "x64" || targetArch == "aa64" then "refind_${targetArch}.efi" else null; # Setup instructions for rEFInd. refind = if refindBinary != null then '' # Adds rEFInd to the ISO. cp -v ${pkgs.refind}/share/refind/${refindBinary} $out/EFI/boot/ '' else "# No refind for ${targetArch}" ; grubPkgs = if config.boot.loader.grub.forcei686 then pkgs.pkgsi686Linux else pkgs; grubMenuCfg = '' # # Menu configuration # # Search using a "marker file" search --set=root --file /EFI/nixos-installer-image insmod gfxterm insmod png set gfxpayload=keep set gfxmode=${concatStringsSep "," [ # GRUB will use the first valid mode listed here. # `auto` will sometimes choose the smallest valid mode it detects. # So instead we'll list a lot of possibly valid modes :/ #"3840x2160" #"2560x1440" "1920x1080" "1366x768" "1280x720" "1024x768" "800x600" "auto" ]} # Fonts can be loaded? # (This font is assumed to always be provided as a fallback by NixOS) if loadfont (\$root)/EFI/boot/unicode.pf2; then set with_fonts=true fi if [ "\$textmode" != "true" -a "\$with_fonts" == "true" ]; then # Use graphical term, it can be either with background image or a theme. # input is "console", while output is "gfxterm". # This enables "serial" input and output only when possible. # Otherwise the failure mode is to not even enable gfxterm. if test "\$with_serial" == "yes"; then terminal_output gfxterm serial terminal_input console serial else terminal_output gfxterm terminal_input console fi else # Sets colors for the non-graphical term. set menu_color_normal=cyan/blue set menu_color_highlight=white/blue fi ${ # When there is a theme configured, use it, otherwise use the background image. if config.isoImage.grubTheme != null then '' # Sets theme. set theme=(\$root)/EFI/boot/grub-theme/theme.txt # Load theme fonts $(find ${config.isoImage.grubTheme} -iname '*.pf2' -printf "loadfont (\$root)/EFI/boot/grub-theme/%P\n") '' else '' if background_image (\$root)/EFI/boot/efi-background.png; then # Black background means transparent background when there # is a background image set... This seems undocumented :( set color_normal=black/black set color_highlight=white/blue else # Falls back again to proper colors. set menu_color_normal=cyan/blue set menu_color_highlight=white/blue fi ''} ''; # The EFI boot image. # Notes about grub: # * Yes, the grubMenuCfg has to be repeated in all submenus. Otherwise you # will get white-on-black console-like text on sub-menus. *sigh* efiDir = pkgs.runCommand "efi-directory" { nativeBuildInputs = [ pkgs.buildPackages.grub2_efi ]; strictDeps = true; } '' mkdir -p $out/EFI/boot/ # Add a marker so GRUB can find the filesystem. touch $out/EFI/nixos-installer-image # ALWAYS required modules. MODULES="fat iso9660 part_gpt part_msdos \ normal boot linux configfile loopback chain halt \ efifwsetup efi_gop \ ls search search_label search_fs_uuid search_fs_file \ gfxmenu gfxterm gfxterm_background gfxterm_menu test all_video loadenv \ exfat ext2 ntfs btrfs hfsplus udf \ videoinfo png \ echo serial \ " echo "Building GRUB with modules:" for mod in $MODULES; do echo " - $mod" done # Modules that may or may not be available per-platform. echo "Adding additional modules:" for mod in efi_uga; do if [ -f ${grubPkgs.grub2_efi}/lib/grub/${grubPkgs.grub2_efi.grubTarget}/$mod.mod ]; then echo " - $mod" MODULES+=" $mod" fi done # Make our own efi program, we can't rely on "grub-install" since it seems to # probe for devices, even with --skip-fs-probe. grub-mkimage --directory=${grubPkgs.grub2_efi}/lib/grub/${grubPkgs.grub2_efi.grubTarget} -o $out/EFI/boot/boot${targetArch}.efi -p /EFI/boot -O ${grubPkgs.grub2_efi.grubTarget} \ $MODULES cp ${grubPkgs.grub2_efi}/share/grub/unicode.pf2 $out/EFI/boot/ cat < $out/EFI/boot/grub.cfg set with_fonts=false set textmode=false # If you want to use serial for "terminal_*" commands, you need to set one up: # Example manual configuration: # → serial --unit=0 --speed=115200 --word=8 --parity=no --stop=1 # This uses the defaults, and makes the serial terminal available. set with_serial=no if serial; then set with_serial=yes ;fi export with_serial clear set timeout=10 # This message will only be viewable when "gfxterm" is not used. echo "" echo "Loading graphical boot menu..." echo "" echo "Press 't' to use the text boot menu on this console..." echo "" ${grubMenuCfg} hiddenentry 'Text mode' --hotkey 't' { loadfont (\$root)/EFI/boot/unicode.pf2 set textmode=true terminal_output gfxterm console } hiddenentry 'GUI mode' --hotkey 'g' { $(find ${config.isoImage.grubTheme} -iname '*.pf2' -printf "loadfont (\$root)/EFI/boot/grub-theme/%P\n") set textmode=false terminal_output gfxterm } # If the parameter iso_path is set, append the findiso parameter to the kernel # line. We need this to allow the nixos iso to be booted from grub directly. if [ \''${iso_path} ] ; then set isoboot="findiso=\''${iso_path}" fi # # Menu entries # ${buildMenuGrub2} submenu "HiDPI, Quirks and Accessibility" --class hidpi --class submenu { ${grubMenuCfg} submenu "Suggests resolution @720p" --class hidpi-720p { ${grubMenuCfg} ${buildMenuAdditionalParamsGrub2 "video=1280x720@60"} } submenu "Suggests resolution @1080p" --class hidpi-1080p { ${grubMenuCfg} ${buildMenuAdditionalParamsGrub2 "video=1920x1080@60"} } # If we boot into a graphical environment where X is autoran # and always crashes, it makes the media unusable. Allow the user # to disable this. submenu "Disable display-manager" --class quirk-disable-displaymanager { ${grubMenuCfg} ${buildMenuAdditionalParamsGrub2 "systemd.mask=display-manager.service"} } # Some laptop and convertibles have the panel installed in an # inconvenient way, rotated away from the keyboard. # Those entries makes it easier to use the installer. submenu "" {return} submenu "Rotate framebuffer Clockwise" --class rotate-90cw { ${grubMenuCfg} ${buildMenuAdditionalParamsGrub2 "fbcon=rotate:1"} } submenu "Rotate framebuffer Upside-Down" --class rotate-180 { ${grubMenuCfg} ${buildMenuAdditionalParamsGrub2 "fbcon=rotate:2"} } submenu "Rotate framebuffer Counter-Clockwise" --class rotate-90ccw { ${grubMenuCfg} ${buildMenuAdditionalParamsGrub2 "fbcon=rotate:3"} } # As a proof of concept, mainly. (Not sure it has accessibility merits.) submenu "" {return} submenu "Use black on white" --class accessibility-blakconwhite { ${grubMenuCfg} ${buildMenuAdditionalParamsGrub2 "vt.default_red=0xFF,0xBC,0x4F,0xB4,0x56,0xBC,0x4F,0x00,0xA1,0xCF,0x84,0xCA,0x8D,0xB4,0x84,0x68 vt.default_grn=0xFF,0x55,0xBA,0xBA,0x4D,0x4D,0xB3,0x00,0xA0,0x8F,0xB3,0xCA,0x88,0x93,0xA4,0x68 vt.default_blu=0xFF,0x58,0x5F,0x58,0xC5,0xBD,0xC5,0x00,0xA8,0xBB,0xAB,0x97,0xBD,0xC7,0xC5,0x68"} } # Serial access is a must! submenu "" {return} submenu "Serial console=ttyS0,115200n8" --class serial { ${grubMenuCfg} ${buildMenuAdditionalParamsGrub2 "console=ttyS0,115200n8"} } } ${lib.optionalString (refindBinary != null) '' # GRUB apparently cannot do "chainloader" operations on "CD". if [ "\$root" != "cd0" ]; then menuentry 'rEFInd' --class refind { # Force root to be the FAT partition # Otherwise it breaks rEFInd's boot search --set=root --no-floppy --fs-uuid 1234-5678 chainloader (\$root)/EFI/boot/${refindBinary} } fi ''} menuentry 'Firmware Setup' --class settings { fwsetup clear echo "" echo "If you see this message, your EFI system doesn't support this feature." echo "" } menuentry 'Shutdown' --class shutdown { halt } EOF ${refind} ''; efiImg = pkgs.runCommand "efi-image_eltorito" { nativeBuildInputs = [ pkgs.buildPackages.mtools pkgs.buildPackages.libfaketime pkgs.buildPackages.dosfstools ]; strictDeps = true; } # Be careful about determinism: du --apparent-size, # dates (cp -p, touch, mcopy -m, faketime for label), IDs (mkfs.vfat -i) '' mkdir ./contents && cd ./contents mkdir -p ./EFI/boot cp -rp "${efiDir}"/EFI/boot/{grub.cfg,*.efi} ./EFI/boot # Rewrite dates for everything in the FS find . -exec touch --date=2000-01-01 {} + # Round up to the nearest multiple of 1MB, for more deterministic du output usage_size=$(( $(du -s --block-size=1M --apparent-size . | tr -cd '[:digit:]') * 1024 * 1024 )) # Make the image 110% as big as the files need to make up for FAT overhead image_size=$(( ($usage_size * 110) / 100 )) # Make the image fit blocks of 1M block_size=$((1024*1024)) image_size=$(( ($image_size / $block_size + 1) * $block_size )) echo "Usage size: $usage_size" echo "Image size: $image_size" truncate --size=$image_size "$out" mkfs.vfat --invariant -i 12345678 -n EFIBOOT "$out" # Force a fixed order in mcopy for better determinism, and avoid file globbing for d in $(find EFI -type d | sort); do faketime "2000-01-01 00:00:00" mmd -i "$out" "::/$d" done for f in $(find EFI -type f | sort); do mcopy -pvm -i "$out" "$f" "::/$f" done # Verify the FAT partition. fsck.vfat -vn "$out" ''; # */ # Syslinux (and isolinux) only supports x86-based architectures. canx86BiosBoot = pkgs.stdenv.hostPlatform.isx86; in { options = { isoImage.isoName = mkOption { default = "${config.isoImage.isoBaseName}.iso"; description = lib.mdDoc '' Name of the generated ISO image file. ''; }; isoImage.isoBaseName = mkOption { default = "nixos"; description = lib.mdDoc '' Prefix of the name of the generated ISO image file. ''; }; isoImage.compressImage = mkOption { default = false; description = lib.mdDoc '' Whether the ISO image should be compressed using {command}`zstd`. ''; }; isoImage.squashfsCompression = mkOption { default = with pkgs.stdenv.targetPlatform; "xz -Xdict-size 100% " + lib.optionalString isx86 "-Xbcj x86" # Untested but should also reduce size for these platforms + lib.optionalString isAarch "-Xbcj arm" + lib.optionalString (isPower && is32bit && isBigEndian) "-Xbcj powerpc" + lib.optionalString (isSparc) "-Xbcj sparc"; description = lib.mdDoc '' Compression settings to use for the squashfs nix store. ''; example = "zstd -Xcompression-level 6"; }; isoImage.edition = mkOption { default = ""; description = lib.mdDoc '' Specifies which edition string to use in the volume ID of the generated ISO image. ''; }; isoImage.volumeID = mkOption { # nixos-$EDITION-$RELEASE-$ARCH default = "nixos${optionalString (config.isoImage.edition != "") "-${config.isoImage.edition}"}-${config.system.nixos.release}-${pkgs.stdenv.hostPlatform.uname.processor}"; description = lib.mdDoc '' Specifies the label or volume ID of the generated ISO image. Note that the label is used by stage 1 of the boot process to mount the CD, so it should be reasonably distinctive. ''; }; isoImage.contents = mkOption { example = literalExpression '' [ { source = pkgs.memtest86 + "/memtest.bin"; target = "boot/memtest.bin"; } ] ''; description = lib.mdDoc '' This option lists files to be copied to fixed locations in the generated ISO image. ''; }; isoImage.storeContents = mkOption { example = literalExpression "[ pkgs.stdenv ]"; description = lib.mdDoc '' This option lists additional derivations to be included in the Nix store in the generated ISO image. ''; }; isoImage.includeSystemBuildDependencies = mkOption { default = false; description = lib.mdDoc '' Set this option to include all the needed sources etc in the image. It significantly increases image size. Use that when you want to be able to keep all the sources needed to build your system or when you are going to install the system on a computer with slow or non-existent network connection. ''; }; isoImage.makeEfiBootable = mkOption { default = false; description = lib.mdDoc '' Whether the ISO image should be an efi-bootable volume. ''; }; isoImage.makeUsbBootable = mkOption { default = false; description = lib.mdDoc '' Whether the ISO image should be bootable from CD as well as USB. ''; }; isoImage.efiSplashImage = mkOption { default = pkgs.fetchurl { url = "https://raw.githubusercontent.com/NixOS/nixos-artwork/a9e05d7deb38a8e005a2b52575a3f59a63a4dba0/bootloader/efi-background.png"; sha256 = "18lfwmp8yq923322nlb9gxrh5qikj1wsk6g5qvdh31c4h5b1538x"; }; description = lib.mdDoc '' The splash image to use in the EFI bootloader. ''; }; isoImage.splashImage = mkOption { default = pkgs.fetchurl { url = "https://raw.githubusercontent.com/NixOS/nixos-artwork/a9e05d7deb38a8e005a2b52575a3f59a63a4dba0/bootloader/isolinux/bios-boot.png"; sha256 = "1wp822zrhbg4fgfbwkr7cbkr4labx477209agzc0hr6k62fr6rxd"; }; description = lib.mdDoc '' The splash image to use in the legacy-boot bootloader. ''; }; isoImage.grubTheme = mkOption { default = pkgs.nixos-grub2-theme; type = types.nullOr (types.either types.path types.package); description = lib.mdDoc '' The grub2 theme used for UEFI boot. ''; }; isoImage.syslinuxTheme = mkOption { default = '' MENU TITLE NixOS MENU RESOLUTION 800 600 MENU CLEAR MENU ROWS 6 MENU CMDLINEROW -4 MENU TIMEOUTROW -3 MENU TABMSGROW -2 MENU HELPMSGROW -1 MENU HELPMSGENDROW -1 MENU MARGIN 0 # FG:AARRGGBB BG:AARRGGBB shadow MENU COLOR BORDER 30;44 #00000000 #00000000 none MENU COLOR SCREEN 37;40 #FF000000 #00E2E8FF none MENU COLOR TABMSG 31;40 #80000000 #00000000 none MENU COLOR TIMEOUT 1;37;40 #FF000000 #00000000 none MENU COLOR TIMEOUT_MSG 37;40 #FF000000 #00000000 none MENU COLOR CMDMARK 1;36;40 #FF000000 #00000000 none MENU COLOR CMDLINE 37;40 #FF000000 #00000000 none MENU COLOR TITLE 1;36;44 #00000000 #00000000 none MENU COLOR UNSEL 37;44 #FF000000 #00000000 none MENU COLOR SEL 7;37;40 #FFFFFFFF #FF5277C3 std ''; type = types.str; description = lib.mdDoc '' The syslinux theme used for BIOS boot. ''; }; isoImage.appendToMenuLabel = mkOption { default = " Installer"; example = " Live System"; description = lib.mdDoc '' The string to append after the menu label for the NixOS system. This will be directly appended (without whitespace) to the NixOS version string, like for example if it is set to `XXX`: `NixOS 99.99-pre666XXX` ''; }; }; # store them in lib so we can mkImageMediaOverride the # entire file system layout in installation media (only) config.lib.isoFileSystems = { "/" = mkImageMediaOverride { fsType = "tmpfs"; options = [ "mode=0755" ]; }; # Note that /dev/root is a symlink to the actual root device # specified on the kernel command line, created in the stage 1 # init script. "/iso" = mkImageMediaOverride { device = "/dev/root"; neededForBoot = true; noCheck = true; }; # In stage 1, mount a tmpfs on top of /nix/store (the squashfs # image) to make this a live CD. "/nix/.ro-store" = mkImageMediaOverride { fsType = "squashfs"; device = "/iso/nix-store.squashfs"; options = [ "loop" ]; neededForBoot = true; }; "/nix/.rw-store" = mkImageMediaOverride { fsType = "tmpfs"; options = [ "mode=0755" ]; neededForBoot = true; }; "/nix/store" = mkImageMediaOverride { fsType = "overlay"; device = "overlay"; options = [ "lowerdir=/nix/.ro-store" "upperdir=/nix/.rw-store/store" "workdir=/nix/.rw-store/work" ]; depends = [ "/nix/.ro-store" "/nix/.rw-store/store" "/nix/.rw-store/work" ]; }; }; config = { assertions = [ { assertion = !(stringLength config.isoImage.volumeID > 32); # https://wiki.osdev.org/ISO_9660#The_Primary_Volume_Descriptor # Volume Identifier can only be 32 bytes message = let length = stringLength config.isoImage.volumeID; howmany = toString length; toomany = toString (length - 32); in "isoImage.volumeID ${config.isoImage.volumeID} is ${howmany} characters. That is ${toomany} characters longer than the limit of 32."; } ]; boot.loader.grub.version = 2; # Don't build the GRUB menu builder script, since we don't need it # here and it causes a cyclic dependency. boot.loader.grub.enable = false; environment.systemPackages = [ grubPkgs.grub2 grubPkgs.grub2_efi ] ++ optional canx86BiosBoot pkgs.syslinux ; # In stage 1 of the boot, mount the CD as the root FS by label so # that we don't need to know its device. We pass the label of the # root filesystem on the kernel command line, rather than in # `fileSystems' below. This allows CD-to-USB converters such as # UNetbootin to rewrite the kernel command line to pass the label or # UUID of the USB stick. It would be nicer to write # `root=/dev/disk/by-label/...' here, but UNetbootin doesn't # recognise that. boot.kernelParams = [ "root=LABEL=${config.isoImage.volumeID}" "boot.shell_on_fail" ]; fileSystems = config.lib.isoFileSystems; boot.initrd.availableKernelModules = [ "squashfs" "iso9660" "uas" "overlay" ]; boot.initrd.kernelModules = [ "loop" "overlay" ]; # Closures to be copied to the Nix store on the CD, namely the init # script and the top-level system configuration directory. isoImage.storeContents = [ config.system.build.toplevel ] ++ optional config.isoImage.includeSystemBuildDependencies config.system.build.toplevel.drvPath; # Create the squashfs image that contains the Nix store. system.build.squashfsStore = pkgs.callPackage ../../../lib/make-squashfs.nix { storeContents = config.isoImage.storeContents; comp = config.isoImage.squashfsCompression; }; # Individual files to be included on the CD, outside of the Nix # store on the CD. isoImage.contents = [ { source = config.boot.kernelPackages.kernel + "/" + config.system.boot.loader.kernelFile; target = "/boot/" + config.system.boot.loader.kernelFile; } { source = config.system.build.initialRamdisk + "/" + config.system.boot.loader.initrdFile; target = "/boot/" + config.system.boot.loader.initrdFile; } { source = config.system.build.squashfsStore; target = "/nix-store.squashfs"; } { source = pkgs.writeText "version" config.system.nixos.label; target = "/version.txt"; } ] ++ optionals canx86BiosBoot [ { source = config.isoImage.splashImage; target = "/isolinux/background.png"; } { source = pkgs.substituteAll { name = "isolinux.cfg"; src = pkgs.writeText "isolinux.cfg-in" isolinuxCfg; bootRoot = "/boot"; }; target = "/isolinux/isolinux.cfg"; } { source = "${pkgs.syslinux}/share/syslinux"; target = "/isolinux"; } ] ++ optionals config.isoImage.makeEfiBootable [ { source = efiImg; target = "/boot/efi.img"; } { source = "${efiDir}/EFI"; target = "/EFI"; } { source = (pkgs.writeTextDir "grub/loopback.cfg" "source /EFI/boot/grub.cfg") + "/grub"; target = "/boot/grub"; } { source = config.isoImage.efiSplashImage; target = "/EFI/boot/efi-background.png"; } ] ++ optionals (config.boot.loader.grub.memtest86.enable && canx86BiosBoot) [ { source = "${pkgs.memtest86plus}/memtest.bin"; target = "/boot/memtest.bin"; } ] ++ optionals (config.isoImage.grubTheme != null) [ { source = config.isoImage.grubTheme; target = "/EFI/boot/grub-theme"; } ]; boot.loader.timeout = 10; # Create the ISO image. system.build.isoImage = pkgs.callPackage ../../../lib/make-iso9660-image.nix ({ inherit (config.isoImage) isoName compressImage volumeID contents; bootable = canx86BiosBoot; bootImage = "/isolinux/isolinux.bin"; syslinux = if canx86BiosBoot then pkgs.syslinux else null; } // optionalAttrs (config.isoImage.makeUsbBootable && canx86BiosBoot) { usbBootable = true; isohybridMbrImage = "${pkgs.syslinux}/share/syslinux/isohdpfx.bin"; } // optionalAttrs config.isoImage.makeEfiBootable { efiBootable = true; efiBootImage = "boot/efi.img"; }); boot.postBootCommands = '' # After booting, register the contents of the Nix store on the # CD in the Nix database in the tmpfs. ${config.nix.package.out}/bin/nix-store --load-db < /nix/store/nix-path-registration # 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 ''; # Add vfat support to the initrd to enable people to copy the # contents of the CD to a bootable USB stick. boot.initrd.supportedFilesystems = [ "vfat" ]; }; }