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uboot: (firmwareOdroidC2/C4) don't invoke patch tool, use patches = [] instead

Browse source 
https://github.com/NixOS/nixpkgs/blob/master/pkgs/stdenv/generic/setup.sh#L948
this can do it nicely.

Signed-off-by: Anton Arapov <anton@deadbeef.mx>
This commit is contained in:
Anton Arapov 2021-04-03 12:58:10 +02:00 committed by Alan Daniels
commit 56de2bcd43
30691 changed files with 3076956 additions and 0 deletions
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10
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{
imports = [
../../profiles/installation-device.nix
./sd-image-aarch64.nix
];
# the installation media is also the installation target,
# so we don't want to provide the installation configuration.nix.
installer.cloneConfig = false;
}

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{
imports = [
../../profiles/installation-device.nix
./sd-image-aarch64-new-kernel.nix
];
# the installation media is also the installation target,
# so we don't want to provide the installation configuration.nix.
installer.cloneConfig = false;
}

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{ pkgs, ... }:
{
imports = [ ./sd-image-aarch64.nix ];
boot.kernelPackages = pkgs.linuxPackages_latest;
}

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# To build, use:
# nix-build nixos -I nixos-config=nixos/modules/installer/sd-card/sd-image-aarch64.nix -A config.system.build.sdImage
{ config, lib, pkgs, ... }:
{
imports = [
../../profiles/base.nix
./sd-image.nix
];
boot.loader.grub.enable = false;
boot.loader.generic-extlinux-compatible.enable = true;
boot.consoleLogLevel = lib.mkDefault 7;
# The serial ports listed here are:
# - ttyS0: for Tegra (Jetson TX1)
# - ttyAMA0: for QEMU's -machine virt
boot.kernelParams = ["console=ttyS0,115200n8" "console=ttyAMA0,115200n8" "console=tty0"];
sdImage = {
populateFirmwareCommands = let
configTxt = pkgs.writeText "config.txt" ''
[pi3]
kernel=u-boot-rpi3.bin
[pi02]
kernel=u-boot-rpi3.bin
[pi4]
kernel=u-boot-rpi4.bin
enable_gic=1
armstub=armstub8-gic.bin
# Otherwise the resolution will be weird in most cases, compared to
# what the pi3 firmware does by default.
disable_overscan=1
# Supported in newer board revisions
arm_boost=1
[cm4]
# Enable host mode on the 2711 built-in XHCI USB controller.
# This line should be removed if the legacy DWC2 controller is required
# (e.g. for USB device mode) or if USB support is not required.
otg_mode=1
[all]
# Boot in 64-bit mode.
arm_64bit=1
# U-Boot needs this to work, regardless of whether UART is actually used or not.
# Look in arch/arm/mach-bcm283x/Kconfig in the U-Boot tree to see if this is still
# a requirement in the future.
enable_uart=1
# Prevent the firmware from smashing the framebuffer setup done by the mainline kernel
# when attempting to show low-voltage or overtemperature warnings.
avoid_warnings=1
'';
in ''
(cd ${pkgs.raspberrypifw}/share/raspberrypi/boot && cp bootcode.bin fixup*.dat start*.elf $NIX_BUILD_TOP/firmware/)
# Add the config
cp ${configTxt} firmware/config.txt
# Add pi3 specific files
cp ${pkgs.ubootRaspberryPi3_64bit}/u-boot.bin firmware/u-boot-rpi3.bin
# Add pi4 specific files
cp ${pkgs.ubootRaspberryPi4_64bit}/u-boot.bin firmware/u-boot-rpi4.bin
cp ${pkgs.raspberrypi-armstubs}/armstub8-gic.bin firmware/armstub8-gic.bin
cp ${pkgs.raspberrypifw}/share/raspberrypi/boot/bcm2711-rpi-4-b.dtb firmware/
cp ${pkgs.raspberrypifw}/share/raspberrypi/boot/bcm2711-rpi-400.dtb firmware/
cp ${pkgs.raspberrypifw}/share/raspberrypi/boot/bcm2711-rpi-cm4.dtb firmware/
cp ${pkgs.raspberrypifw}/share/raspberrypi/boot/bcm2711-rpi-cm4s.dtb firmware/
'';
populateRootCommands = ''
mkdir -p ./files/boot
${config.boot.loader.generic-extlinux-compatible.populateCmd} -c ${config.system.build.toplevel} -d ./files/boot
'';
};
}

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{
imports = [
../../profiles/installation-device.nix
./sd-image-armv7l-multiplatform.nix
];
# the installation media is also the installation target,
# so we don't want to provide the installation configuration.nix.
installer.cloneConfig = false;
}

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# To build, use:
# nix-build nixos -I nixos-config=nixos/modules/installer/sd-card/sd-image-armv7l-multiplatform.nix -A config.system.build.sdImage
{ config, lib, pkgs, ... }:
{
imports = [
../../profiles/base.nix
./sd-image.nix
];
boot.loader.grub.enable = false;
boot.loader.generic-extlinux-compatible.enable = true;
boot.consoleLogLevel = lib.mkDefault 7;
boot.kernelPackages = pkgs.linuxPackages_latest;
# The serial ports listed here are:
# - ttyS0: for Tegra (Jetson TK1)
# - ttymxc0: for i.MX6 (Wandboard)
# - ttyAMA0: for Allwinner (pcDuino3 Nano) and QEMU's -machine virt
# - ttyO0: for OMAP (BeagleBone Black)
# - ttySAC2: for Exynos (ODROID-XU3)
boot.kernelParams = ["console=ttyS0,115200n8" "console=ttymxc0,115200n8" "console=ttyAMA0,115200n8" "console=ttyO0,115200n8" "console=ttySAC2,115200n8" "console=tty0"];
sdImage = {
populateFirmwareCommands = let
configTxt = pkgs.writeText "config.txt" ''
# Prevent the firmware from smashing the framebuffer setup done by the mainline kernel
# when attempting to show low-voltage or overtemperature warnings.
avoid_warnings=1
[pi2]
kernel=u-boot-rpi2.bin
[pi3]
kernel=u-boot-rpi3.bin
# U-Boot used to need this to work, regardless of whether UART is actually used or not.
# TODO: check when/if this can be removed.
enable_uart=1
'';
in ''
(cd ${pkgs.raspberrypifw}/share/raspberrypi/boot && cp bootcode.bin fixup*.dat start*.elf $NIX_BUILD_TOP/firmware/)
cp ${pkgs.ubootRaspberryPi2}/u-boot.bin firmware/u-boot-rpi2.bin
cp ${pkgs.ubootRaspberryPi3_32bit}/u-boot.bin firmware/u-boot-rpi3.bin
cp ${configTxt} firmware/config.txt
'';
populateRootCommands = ''
mkdir -p ./files/boot
${config.boot.loader.generic-extlinux-compatible.populateCmd} -c ${config.system.build.toplevel} -d ./files/boot
'';
};
}

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{
imports = [
../../profiles/installation-device.nix
./sd-image-raspberrypi.nix
];
# the installation media is also the installation target,
# so we don't want to provide the installation configuration.nix.
installer.cloneConfig = false;
}

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# To build, use:
# nix-build nixos -I nixos-config=nixos/modules/installer/sd-card/sd-image-raspberrypi.nix -A config.system.build.sdImage
{ config, lib, pkgs, ... }:
{
imports = [
../../profiles/base.nix
./sd-image.nix
];
boot.loader.grub.enable = false;
boot.loader.generic-extlinux-compatible.enable = true;
boot.consoleLogLevel = lib.mkDefault 7;
boot.kernelPackages = pkgs.linuxKernel.packages.linux_rpi1;
sdImage = {
populateFirmwareCommands = let
configTxt = pkgs.writeText "config.txt" ''
# Prevent the firmware from smashing the framebuffer setup done by the mainline kernel
# when attempting to show low-voltage or overtemperature warnings.
avoid_warnings=1
[pi0]
kernel=u-boot-rpi0.bin
[pi1]
kernel=u-boot-rpi1.bin
'';
in ''
(cd ${pkgs.raspberrypifw}/share/raspberrypi/boot && cp bootcode.bin fixup*.dat start*.elf $NIX_BUILD_TOP/firmware/)
cp ${pkgs.ubootRaspberryPiZero}/u-boot.bin firmware/u-boot-rpi0.bin
cp ${pkgs.ubootRaspberryPi}/u-boot.bin firmware/u-boot-rpi1.bin
cp ${configTxt} firmware/config.txt
'';
populateRootCommands = ''
mkdir -p ./files/boot
${config.boot.loader.generic-extlinux-compatible.populateCmd} -c ${config.system.build.toplevel} -d ./files/boot
'';
};
}

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{
imports = [
../../profiles/installation-device.nix
./sd-image-riscv64-qemu.nix
];
# the installation media is also the installation target,
# so we don't want to provide the installation configuration.nix.
installer.cloneConfig = false;
}

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# To build, use:
# nix-build nixos -I nixos-config=nixos/modules/installer/sd-card/sd-image-riscv64-qemu.nix -A config.system.build.sdImage
{ config, lib, pkgs, ... }:
{
imports = [
../../profiles/base.nix
./sd-image.nix
];
boot.loader = {
grub.enable = false;
generic-extlinux-compatible = {
enable = true;
# Don't even specify FDTDIR - We do not have the correct DT
# The DTB is generated by QEMU at runtime
useGenerationDeviceTree = false;
};
};
boot.consoleLogLevel = lib.mkDefault 7;
boot.kernelParams = [ "console=tty0" "console=ttyS0,115200n8" ];
sdImage = {
populateFirmwareCommands = "";
populateRootCommands = ''
mkdir -p ./files/boot
${config.boot.loader.generic-extlinux-compatible.populateCmd} -c ${config.system.build.toplevel} -d ./files/boot
'';
};
}

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# To build, use:
# nix-build nixos -I nixos-config=nixos/modules/installer/sd-card/sd-image-x86_64.nix -A config.system.build.sdImage
# This image is primarily used in NixOS tests (boot.nix) to test `boot.loader.generic-extlinux-compatible`.
{ config, lib, pkgs, ... }:
{
imports = [
../../profiles/base.nix
./sd-image.nix
];
boot.loader = {
grub.enable = false;
generic-extlinux-compatible.enable = true;
};
boot.consoleLogLevel = lib.mkDefault 7;
sdImage = {
populateFirmwareCommands = "";
populateRootCommands = ''
mkdir -p ./files/boot
${config.boot.loader.generic-extlinux-compatible.populateCmd} -c ${config.system.build.toplevel} -d ./files/boot
'';
};
}

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# This module creates a bootable SD card image containing the given NixOS
# configuration. The generated image is MBR partitioned, with a FAT
# /boot/firmware partition, and ext4 root partition. The generated image
# is sized to fit its contents, and a boot script automatically resizes
# the root partition to fit the device on the first boot.
#
# The firmware partition is built with expectation to hold the Raspberry
# Pi firmware and bootloader, and be removed and replaced with a firmware
# build for the target SoC for other board families.
#
# The derivation for the SD image will be placed in
# config.system.build.sdImage
{ config, lib, pkgs, ... }:
with lib;
let
rootfsImage = pkgs.callPackage ../../../lib/make-ext4-fs.nix ({
inherit (config.sdImage) storePaths;
compressImage = true;
populateImageCommands = config.sdImage.populateRootCommands;
volumeLabel = "NIXOS_SD";
} // optionalAttrs (config.sdImage.rootPartitionUUID != null) {
uuid = config.sdImage.rootPartitionUUID;
});
in
{
imports = [
(mkRemovedOptionModule [ "sdImage" "bootPartitionID" ] "The FAT partition for SD image now only holds the Raspberry Pi firmware files. Use firmwarePartitionID to configure that partition's ID.")
(mkRemovedOptionModule [ "sdImage" "bootSize" ] "The boot files for SD image have been moved to the main ext4 partition. The FAT partition now only holds the Raspberry Pi firmware files. Changing its size may not be required.")
../../profiles/all-hardware.nix
];
options.sdImage = {
imageName = mkOption {
default = "${config.sdImage.imageBaseName}-${config.system.nixos.label}-${pkgs.stdenv.hostPlatform.system}.img";
description = ''
Name of the generated image file.
'';
};
imageBaseName = mkOption {
default = "nixos-sd-image";
description = ''
Prefix of the name of the generated image file.
'';
};
storePaths = mkOption {
type = with types; listOf package;
example = literalExpression "[ pkgs.stdenv ]";
description = ''
Derivations to be included in the Nix store in the generated SD image.
'';
};
firmwarePartitionOffset = mkOption {
type = types.int;
default = 8;
description = ''
Gap in front of the /boot/firmware partition, in mebibytes (1024×1024
bytes).
Can be increased to make more space for boards requiring to dd u-boot
SPL before actual partitions.
Unless you are building your own images pre-configured with an
installed U-Boot, you can instead opt to delete the existing `FIRMWARE`
partition, which is used **only** for the Raspberry Pi family of
hardware.
'';
};
firmwarePartitionID = mkOption {
type = types.str;
default = "0x2178694e";
description = ''
Volume ID for the /boot/firmware partition on the SD card. This value
must be a 32-bit hexadecimal number.
'';
};
firmwarePartitionName = mkOption {
type = types.str;
default = "FIRMWARE";
description = ''
Name of the filesystem which holds the boot firmware.
'';
};
rootPartitionUUID = mkOption {
type = types.nullOr types.str;
default = null;
example = "14e19a7b-0ae0-484d-9d54-43bd6fdc20c7";
description = ''
UUID for the filesystem on the main NixOS partition on the SD card.
'';
};
firmwareSize = mkOption {
type = types.int;
# As of 2019-08-18 the Raspberry pi firmware + u-boot takes ~18MiB
default = 30;
description = ''
Size of the /boot/firmware partition, in megabytes.
'';
};
populateFirmwareCommands = mkOption {
example = literalExpression "'' cp \${pkgs.myBootLoader}/u-boot.bin firmware/ ''";
description = ''
Shell commands to populate the ./firmware directory.
All files in that directory are copied to the
/boot/firmware partition on the SD image.
'';
};
populateRootCommands = mkOption {
example = literalExpression "''\${config.boot.loader.generic-extlinux-compatible.populateCmd} -c \${config.system.build.toplevel} -d ./files/boot''";
description = ''
Shell commands to populate the ./files directory.
All files in that directory are copied to the
root (/) partition on the SD image. Use this to
populate the ./files/boot (/boot) directory.
'';
};
postBuildCommands = mkOption {
example = literalExpression "'' dd if=\${pkgs.myBootLoader}/SPL of=$img bs=1024 seek=1 conv=notrunc ''";
default = "";
description = ''
Shell commands to run after the image is built.
Can be used for boards requiring to dd u-boot SPL before actual partitions.
'';
};
compressImage = mkOption {
type = types.bool;
default = true;
description = ''
Whether the SD image should be compressed using
<command>zstd</command>.
'';
};
expandOnBoot = mkOption {
type = types.bool;
default = true;
description = ''
Whether to configure the sd image to expand it's partition on boot.
'';
};
};
config = {
fileSystems = {
"/boot/firmware" = {
device = "/dev/disk/by-label/${config.sdImage.firmwarePartitionName}";
fsType = "vfat";
# Alternatively, this could be removed from the configuration.
# The filesystem is not needed at runtime, it could be treated
# as an opaque blob instead of a discrete FAT32 filesystem.
options = [ "nofail" "noauto" ];
};
"/" = {
device = "/dev/disk/by-label/NIXOS_SD";
fsType = "ext4";
};
};
sdImage.storePaths = [ config.system.build.toplevel ];
system.build.sdImage = pkgs.callPackage ({ stdenv, dosfstools, e2fsprogs,
mtools, libfaketime, util-linux, zstd }: stdenv.mkDerivation {
name = config.sdImage.imageName;
nativeBuildInputs = [ dosfstools e2fsprogs mtools libfaketime util-linux zstd ];
inherit (config.sdImage) imageName compressImage;
buildCommand = ''
mkdir -p $out/nix-support $out/sd-image
export img=$out/sd-image/${config.sdImage.imageName}
echo "${pkgs.stdenv.buildPlatform.system}" > $out/nix-support/system
if test -n "$compressImage"; then
echo "file sd-image $img.zst" >> $out/nix-support/hydra-build-products
else
echo "file sd-image $img" >> $out/nix-support/hydra-build-products
fi
echo "Decompressing rootfs image"
zstd -d --no-progress "${rootfsImage}" -o ./root-fs.img
# Gap in front of the first partition, in MiB
gap=${toString config.sdImage.firmwarePartitionOffset}
# Create the image file sized to fit /boot/firmware and /, plus slack for the gap.
rootSizeBlocks=$(du -B 512 --apparent-size ./root-fs.img | awk '{ print $1 }')
firmwareSizeBlocks=$((${toString config.sdImage.firmwareSize} * 1024 * 1024 / 512))
imageSize=$((rootSizeBlocks * 512 + firmwareSizeBlocks * 512 + gap * 1024 * 1024))
truncate -s $imageSize $img
# type=b is 'W95 FAT32', type=83 is 'Linux'.
# The "bootable" partition is where u-boot will look file for the bootloader
# information (dtbs, extlinux.conf file).
sfdisk $img <<EOF
label: dos
label-id: ${config.sdImage.firmwarePartitionID}
start=''${gap}M, size=$firmwareSizeBlocks, type=b
start=$((gap + ${toString config.sdImage.firmwareSize}))M, type=83, bootable
EOF
# Copy the rootfs into the SD image
eval $(partx $img -o START,SECTORS --nr 2 --pairs)
dd conv=notrunc if=./root-fs.img of=$img seek=$START count=$SECTORS
# Create a FAT32 /boot/firmware partition of suitable size into firmware_part.img
eval $(partx $img -o START,SECTORS --nr 1 --pairs)
truncate -s $((SECTORS * 512)) firmware_part.img
faketime "1970-01-01 00:00:00" mkfs.vfat -i ${config.sdImage.firmwarePartitionID} -n ${config.sdImage.firmwarePartitionName} firmware_part.img
# Populate the files intended for /boot/firmware
mkdir firmware
${config.sdImage.populateFirmwareCommands}
# Copy the populated /boot/firmware into the SD image
(cd firmware; mcopy -psvm -i ../firmware_part.img ./* ::)
# Verify the FAT partition before copying it.
fsck.vfat -vn firmware_part.img
dd conv=notrunc if=firmware_part.img of=$img seek=$START count=$SECTORS
${config.sdImage.postBuildCommands}
if test -n "$compressImage"; then
zstd -T$NIX_BUILD_CORES --rm $img
fi
'';
}) {};
boot.postBootCommands = lib.mkIf config.sdImage.expandOnBoot ''
# On the first boot do some maintenance tasks
if [ -f /nix-path-registration ]; then
set -euo pipefail
set -x
# Figure out device names for the boot device and root filesystem.
rootPart=$(${pkgs.util-linux}/bin/findmnt -n -o SOURCE /)
bootDevice=$(lsblk -npo PKNAME $rootPart)
partNum=$(lsblk -npo MAJ:MIN $rootPart | ${pkgs.gawk}/bin/awk -F: '{print $2}')
# Resize the root partition and the filesystem to fit the disk
echo ",+," | sfdisk -N$partNum --no-reread $bootDevice
${pkgs.parted}/bin/partprobe
${pkgs.e2fsprogs}/bin/resize2fs $rootPart
# Register the contents of the initial Nix store
${config.nix.package.out}/bin/nix-store --load-db < /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
# Prevents this from running on later boots.
rm -f /nix-path-registration
fi
'';
};
}