#! @python3@/bin/python3 -B import argparse import ctypes import datetime import errno import glob import os import os.path import re import shutil import subprocess import sys import warnings import json from typing import NamedTuple, Any, Type from dataclasses import dataclass from pathlib import Path # These values will be replaced with actual values during the package build EFI_SYS_MOUNT_POINT = "@efiSysMountPoint@" BOOT_MOUNT_POINT = "@bootMountPoint@" LOADER_CONF = f"{EFI_SYS_MOUNT_POINT}/loader/loader.conf" # Always stored on the ESP NIXOS_DIR = "@nixosDir@" TIMEOUT = "@timeout@" EDITOR = "@editor@" == "1" # noqa: PLR0133 CONSOLE_MODE = "@consoleMode@" BOOTSPEC_TOOLS = "@bootspecTools@" DISTRO_NAME = "@distroName@" NIX = "@nix@" SYSTEMD = "@systemd@" CONFIGURATION_LIMIT = int("@configurationLimit@") REBOOT_FOR_BITLOCKER = bool("@rebootForBitlocker@") CAN_TOUCH_EFI_VARIABLES = "@canTouchEfiVariables@" GRACEFUL = "@graceful@" COPY_EXTRA_FILES = "@copyExtraFiles@" CHECK_MOUNTPOINTS = "@checkMountpoints@" BOOT_COUNTING_TRIES = "@bootCountingTries@" BOOT_COUNTING = "@bootCounting@" == "True" @dataclass class BootSpec: init: str initrd: str kernel: str kernelParams: list[str] # noqa: N815 label: str system: str toplevel: str specialisations: dict[str, "BootSpec"] sortKey: str # noqa: N815 devicetree: str | None = None # noqa: N815 initrdSecrets: str | None = None # noqa: N815 @dataclass class Entry: profile: str | None generation_number: int specialisation: str | None @classmethod def from_path(cls: Type["Entry"], path: Path) -> "Entry": filename = path.name # Matching nixos-$profile-generation-*.conf rex_profile = re.compile(r"^nixos-(.*)-generation-.*\.conf$") # Matching nixos*-generation-$number*.conf rex_generation = re.compile(r"^nixos.*-generation-([0-9]+).*\.conf$") # Matching nixos*-generation-$number-specialisation-$specialisation_name*.conf rex_specialisation = re.compile(r"^nixos.*-generation-([0-9]+)-specialisation-([a-zA-Z0-9_]+).*\.conf$") profile = rex_profile.sub(r"\1", filename) if rex_profile.match(filename) else None specialisation = rex_specialisation.sub(r"\2", filename) if rex_specialisation.match(filename) else None try: generation_number = int(rex_generation.sub(r"\1", filename)) except ValueError: raise return cls(profile, generation_number, specialisation) @dataclass class DiskEntry: entry: Entry default: bool counters: str | None title: str | None description: str | None kernel: str initrd: str kernel_params: str | None machine_id: str | None sort_key: str devicetree: str | None @classmethod def from_path(cls: Type["DiskEntry"], path: Path) -> "DiskEntry": entry = Entry.from_path(path) data = path.read_text().splitlines() if '' in data: data.remove('') entry_map = dict(lines.split(' ', 1) for lines in data) assert "linux" in entry_map assert "initrd" in entry_map filename = path.name # Matching nixos*-generation-*$counters.conf rex_counters = re.compile(r"^nixos.*-generation-.*(\+\d(-\d)?)\.conf$") counters = rex_counters.sub(r"\1", filename) if rex_counters.match(filename) else None disk_entry = cls( entry=entry, default=(entry_map.get("sort-key") == "default"), counters=counters, title=entry_map.get("title"), description=entry_map.get("version"), kernel=entry_map["linux"], initrd=entry_map["initrd"], kernel_params=entry_map.get("options"), machine_id=entry_map.get("machine-id"), sort_key=entry_map.get("sort_key", "nixos"), devicetree=entry_map.get("devicetree"), ) return disk_entry def write(self, sorted_first: str) -> None: # Compute a sort-key sorted before sorted_first # This will compute something like: nixos -> nixor-default to make sure we come before other nixos entries, # while allowing users users can pre-pend their own entries before. default_sort_key = sorted_first[:-1] + chr(ord(sorted_first[-1])-1) + "-default" tmp_path = self.path.with_suffix(".tmp") with tmp_path.open('w') as f: # We use "sort-key" to sort the default generation first. # The "default" string is sorted before "non-default" (alphabetically) boot_entry = [ f"title {self.title}" if self.title is not None else None, f"version {self.description}" if self.description is not None else None, f"linux {self.kernel}", f"initrd {self.initrd}", f"options {self.kernel_params}" if self.kernel_params is not None else None, f"machine-id {self.machine_id}" if self.machine_id is not None else None, f"sort-key {default_sort_key if self.default else self.sort_key}", f"devicetree {self.devicetree}" if self.devicetree is not None else None, ] f.write("\n".join(filter(None, boot_entry))) f.flush() os.fsync(f.fileno()) tmp_path.rename(self.path) @property def path(self) -> Path: pieces = [ "nixos", self.entry.profile or None, "generation", str(self.entry.generation_number), f"specialisation-{self.entry.specialisation}" if self.entry.specialisation else None, ] prefix = "-".join(p for p in pieces if p) return Path(f"{BOOT_MOUNT_POINT}/loader/entries/{prefix}{self.counters if self.counters else ''}.conf") libc = ctypes.CDLL("libc.so.6") FILE = None | int def run(cmd: list[str], stdout: FILE = None) -> subprocess.CompletedProcess[str]: return subprocess.run(cmd, check=True, text=True, stdout=stdout) class SystemIdentifier(NamedTuple): profile: str | None generation: int specialisation: str | None def copy_if_not_exists(source: str, dest: str) -> None: if not os.path.exists(dest): shutil.copyfile(source, dest) def generation_dir(profile: str | None, generation: int) -> str: if profile: return "/nix/var/nix/profiles/system-profiles/%s-%d-link" % (profile, generation) else: return "/nix/var/nix/profiles/system-%d-link" % (generation) def system_dir(profile: str | None, generation: int, specialisation: str | None) -> str: d = generation_dir(profile, generation) if specialisation: return os.path.join(d, "specialisation", specialisation) else: return d def write_loader_conf(profile: str | None) -> None: with open(f"{EFI_SYS_MOUNT_POINT}/loader/loader.conf.tmp", 'w') as f: f.write(f"timeout {TIMEOUT}\n") if profile: f.write("default nixos-%s-generation-*\n" % profile) else: f.write("default nixos-generation-*\n") if not EDITOR: f.write("editor 0\n") if REBOOT_FOR_BITLOCKER: f.write("reboot-for-bitlocker yes\n"); f.write(f"console-mode {CONSOLE_MODE}\n") f.flush() os.fsync(f.fileno()) os.rename(f"{LOADER_CONF}.tmp", LOADER_CONF) def scan_entries() -> list[DiskEntry]: """ Scan all entries in $ESP/loader/entries/* Does not support Type 2 entries as we do not support them for now. Returns a generator of Entry. """ entries = [] for path in Path(f"{EFI_SYS_MOUNT_POINT}/loader/entries/").glob("nixos*-generation-[1-9]*.conf"): try: entries.append(DiskEntry.from_path(path)) except ValueError: continue return entries def get_bootspec(profile: str | None, generation: int) -> BootSpec: system_directory = system_dir(profile, generation, None) boot_json_path = os.path.realpath("%s/%s" % (system_directory, "boot.json")) if os.path.isfile(boot_json_path): boot_json_f = open(boot_json_path, 'r') bootspec_json = json.load(boot_json_f) else: boot_json_str = run( [ f"{BOOTSPEC_TOOLS}/bin/synthesize", "--version", "1", system_directory, "/dev/stdout", ], stdout=subprocess.PIPE, ).stdout bootspec_json = json.loads(boot_json_str) return bootspec_from_json(bootspec_json) def bootspec_from_json(bootspec_json: dict[str, Any]) -> BootSpec: specialisations = bootspec_json['org.nixos.specialisation.v1'] specialisations = {k: bootspec_from_json(v) for k, v in specialisations.items()} systemdBootExtension = bootspec_json.get('org.nixos.systemd-boot', {}) sortKey = systemdBootExtension.get('sortKey', 'nixos') devicetree = systemdBootExtension.get('devicetree') return BootSpec( **bootspec_json['org.nixos.bootspec.v1'], specialisations=specialisations, sortKey=sortKey, devicetree=devicetree, ) def copy_from_file(file: str, dry_run: bool = False) -> str: store_file_path = os.path.realpath(file) suffix = os.path.basename(store_file_path) store_dir = os.path.basename(os.path.dirname(store_file_path)) efi_file_path = f"{NIXOS_DIR}/{store_dir}-{suffix}.efi" if not dry_run: copy_if_not_exists(store_file_path, f"{BOOT_MOUNT_POINT}{efi_file_path}") return efi_file_path def write_entry(profile: str | None, generation: int, specialisation: str | None, machine_id: str, bootspec: BootSpec, entries: list[DiskEntry], sorted_first: str, current: bool) -> None: if specialisation: bootspec = bootspec.specialisations[specialisation] kernel = copy_from_file(bootspec.kernel) initrd = copy_from_file(bootspec.initrd) devicetree = copy_from_file(bootspec.devicetree) if bootspec.devicetree is not None else None title = "{name}{profile}{specialisation}".format( name=DISTRO_NAME, profile=" [" + profile + "]" if profile else "", specialisation=" (%s)" % specialisation if specialisation else "") try: if bootspec.initrdSecrets is not None: run([bootspec.initrdSecrets, f"{BOOT_MOUNT_POINT}%s" % (initrd)]) except subprocess.CalledProcessError: if current: print("failed to create initrd secrets!", file=sys.stderr) sys.exit(1) else: print("warning: failed to create initrd secrets " f'for "{title} - Configuration {generation}", an older generation', file=sys.stderr) print("note: this is normal after having removed " "or renamed a file in `boot.initrd.secrets`", file=sys.stderr) kernel_params = "init=%s " % bootspec.init kernel_params = kernel_params + " ".join(bootspec.kernelParams) build_time = int(os.path.getctime(system_dir(profile, generation, specialisation))) build_date = datetime.datetime.fromtimestamp(build_time).strftime('%F') counters = f"+{BOOT_COUNTING_TRIES}" if BOOT_COUNTING else "" entry = Entry(profile, generation, specialisation) # We check if the entry we are writing is already on disk # and we update its "default entry" status for entry_on_disk in entries: if entry == entry_on_disk.entry: entry_on_disk.default = current entry_on_disk.write(sorted_first) return DiskEntry( entry=entry, title=title, kernel=kernel, initrd=initrd, counters=counters, kernel_params=kernel_params, machine_id=machine_id, description=f"Generation {generation} {bootspec.label}, built on {build_date}", sort_key=bootspec.sortKey, devicetree=devicetree, default=current ).write(sorted_first) def get_generations(profile: str | None = None) -> list[SystemIdentifier]: gen_list = run( [ f"{NIX}/bin/nix-env", "--list-generations", "-p", "/nix/var/nix/profiles/%s" % ("system-profiles/" + profile if profile else "system"), ], stdout=subprocess.PIPE, ).stdout gen_lines = gen_list.split("\n") gen_lines.pop() configurationLimit = CONFIGURATION_LIMIT configurations = [ SystemIdentifier( profile=profile, generation=int(line.split()[0]), specialisation=None ) for line in gen_lines ] return configurations[-configurationLimit:] def remove_old_entries(gens: list[SystemIdentifier], disk_entries: list[DiskEntry]) -> None: known_paths = [] for gen in gens: bootspec = get_bootspec(gen.profile, gen.generation) known_paths.append(copy_from_file(bootspec.kernel, True)) known_paths.append(copy_from_file(bootspec.initrd, True)) for disk_entry in disk_entries: if (disk_entry.entry.profile, disk_entry.entry.generation_number, None) not in gens: os.unlink(disk_entry.path) for path in glob.iglob(f"{EFI_SYS_MOUNT_POINT}/efi/nixos/*"): if path not in known_paths and not os.path.isdir(path): os.unlink(path) def cleanup_esp() -> None: for path in glob.iglob(f"{EFI_SYS_MOUNT_POINT}/loader/entries/nixos*"): os.unlink(path) if os.path.isdir(f"{EFI_SYS_MOUNT_POINT}/{NIXOS_DIR}"): shutil.rmtree(f"{EFI_SYS_MOUNT_POINT}/{NIXOS_DIR}") def get_profiles() -> list[str]: if os.path.isdir("/nix/var/nix/profiles/system-profiles/"): return [x for x in os.listdir("/nix/var/nix/profiles/system-profiles/") if not x.endswith("-link")] else: return [] def install_bootloader(args: argparse.Namespace) -> None: try: with open("/etc/machine-id") as machine_file: machine_id = machine_file.readlines()[0].strip() except IOError as e: if e.errno != errno.ENOENT: raise # Since systemd version 232 a machine ID is required and it might not # be there on newly installed systems, so let's generate one so that # bootctl can find it and we can also pass it to write_entry() later. cmd = [f"{SYSTEMD}/bin/systemd-machine-id-setup", "--print"] machine_id = run(cmd, stdout=subprocess.PIPE).stdout.rstrip() if os.getenv("NIXOS_INSTALL_GRUB") == "1": warnings.warn("NIXOS_INSTALL_GRUB env var deprecated, use NIXOS_INSTALL_BOOTLOADER", DeprecationWarning) os.environ["NIXOS_INSTALL_BOOTLOADER"] = "1" # flags to pass to bootctl install/update bootctl_flags = [] if BOOT_MOUNT_POINT != EFI_SYS_MOUNT_POINT: bootctl_flags.append(f"--boot-path={BOOT_MOUNT_POINT}") if CAN_TOUCH_EFI_VARIABLES != "1": bootctl_flags.append("--no-variables") if GRACEFUL == "1": bootctl_flags.append("--graceful") if os.getenv("NIXOS_INSTALL_BOOTLOADER") == "1": # bootctl uses fopen() with modes "wxe" and fails if the file exists. if os.path.exists(LOADER_CONF): os.unlink(LOADER_CONF) run( [f"{SYSTEMD}/bin/bootctl", f"--esp-path={EFI_SYS_MOUNT_POINT}"] + bootctl_flags + ["install"] ) else: # Update bootloader to latest if needed available_out = run( [f"{SYSTEMD}/bin/bootctl", "--version"], stdout=subprocess.PIPE ).stdout.split()[2] installed_out = run( [f"{SYSTEMD}/bin/bootctl", f"--esp-path={EFI_SYS_MOUNT_POINT}", "status"], stdout=subprocess.PIPE, ).stdout # See status_binaries() in systemd bootctl.c for code which generates this # Matches # Available Boot Loaders on ESP: # ESP: /boot (/dev/disk/by-partuuid/9b39b4c4-c48b-4ebf-bfea-a56b2395b7e0) # File: └─/EFI/systemd/systemd-bootx64.efi (systemd-boot 255.2) # But also: # Available Boot Loaders on ESP: # ESP: /boot (/dev/disk/by-partuuid/9b39b4c4-c48b-4ebf-bfea-a56b2395b7e0) # File: ├─/EFI/systemd/HashTool.efi # └─/EFI/systemd/systemd-bootx64.efi (systemd-boot 255.2) installed_match = re.search(r"^\W+.*/EFI/(?:BOOT|systemd)/.*\.efi \(systemd-boot ([\d.]+[^)]*)\)$", installed_out, re.IGNORECASE | re.MULTILINE) available_match = re.search(r"^\((.*)\)$", available_out) if installed_match is None: raise Exception("could not find any previously installed systemd-boot") if available_match is None: raise Exception("could not determine systemd-boot version") installed_version = installed_match.group(1) available_version = available_match.group(1) if installed_version < available_version: print("updating systemd-boot from %s to %s" % (installed_version, available_version)) run( [f"{SYSTEMD}/bin/bootctl", f"--esp-path={EFI_SYS_MOUNT_POINT}"] + bootctl_flags + ["update"] ) os.makedirs(f"{BOOT_MOUNT_POINT}/{NIXOS_DIR}", exist_ok=True) os.makedirs(f"{BOOT_MOUNT_POINT}/loader/entries", exist_ok=True) gens = get_generations() for profile in get_profiles(): gens += get_generations(profile) entries = scan_entries() remove_old_entries(gens, entries) # Compute the sort-key that will be sorted first. sorted_first = "" for gen in gens: try: bootspec = get_bootspec(gen.profile, gen.generation) if bootspec.sortKey < sorted_first or sorted_first == "": sorted_first = bootspec.sortKey except OSError as e: # See https://github.com/NixOS/nixpkgs/issues/114552 if e.errno == errno.EINVAL: profile = f"profile '{gen.profile}'" if gen.profile else "default profile" print("ignoring {} in the list of boot entries because of the following error:\n{}".format(profile, e), file=sys.stderr) else: raise e for gen in gens: try: bootspec = get_bootspec(gen.profile, gen.generation) is_default = os.path.dirname(bootspec.init) == args.default_config write_entry(*gen, machine_id, bootspec, entries, sorted_first, current=is_default) for specialisation in bootspec.specialisations.keys(): write_entry(gen.profile, gen.generation, specialisation, machine_id, bootspec, entries, sorted_first, current=(is_default and bootspec.specialisations[specialisation].sortKey == bootspec.sortKey)) if is_default: write_loader_conf(gen.profile) except OSError as e: # See https://github.com/NixOS/nixpkgs/issues/114552 if e.errno == errno.EINVAL: profile = f"profile '{gen.profile}'" if gen.profile else "default profile" print("ignoring {} in the list of boot entries because of the following error:\n{}".format(profile, e), file=sys.stderr) else: raise e if BOOT_MOUNT_POINT != EFI_SYS_MOUNT_POINT: # Cleanup any entries in ESP if xbootldrMountPoint is set. # If the user later unsets xbootldrMountPoint, entries in XBOOTLDR will not be cleaned up # automatically, as we don't have information about the mount point anymore. cleanup_esp() for root, _, files in os.walk(f"{BOOT_MOUNT_POINT}/{NIXOS_DIR}/.extra-files", topdown=False): relative_root = root.removeprefix(f"{BOOT_MOUNT_POINT}/{NIXOS_DIR}/.extra-files").removeprefix("/") actual_root = os.path.join(f"{BOOT_MOUNT_POINT}", relative_root) for file in files: actual_file = os.path.join(actual_root, file) if os.path.exists(actual_file): os.unlink(actual_file) os.unlink(os.path.join(root, file)) if not len(os.listdir(actual_root)): os.rmdir(actual_root) os.rmdir(root) os.makedirs(f"{BOOT_MOUNT_POINT}/{NIXOS_DIR}/.extra-files", exist_ok=True) run([COPY_EXTRA_FILES]) def main() -> None: parser = argparse.ArgumentParser(description=f"Update {DISTRO_NAME}-related systemd-boot files") parser.add_argument('default_config', metavar='DEFAULT-CONFIG', help=f"The default {DISTRO_NAME} config to boot") args = parser.parse_args() run([CHECK_MOUNTPOINTS]) try: install_bootloader(args) finally: # Since fat32 provides little recovery facilities after a crash, # it can leave the system in an unbootable state, when a crash/outage # happens shortly after an update. To decrease the likelihood of this # event sync the efi filesystem after each update. rc = libc.syncfs(os.open(f"{BOOT_MOUNT_POINT}", os.O_RDONLY)) if rc != 0: print(f"could not sync {BOOT_MOUNT_POINT}: {os.strerror(rc)}", file=sys.stderr) if BOOT_MOUNT_POINT != EFI_SYS_MOUNT_POINT: rc = libc.syncfs(os.open(EFI_SYS_MOUNT_POINT, os.O_RDONLY)) if rc != 0: print(f"could not sync {EFI_SYS_MOUNT_POINT}: {os.strerror(rc)}", file=sys.stderr) if __name__ == '__main__': main()