#!/usr/bin/env python3 # -*- coding: utf-8 -*- # # === This file is part of Calamares - === # # Copyright 2019, Collabora Ltd # # Calamares is free software: you can redistribute it and/or modify # it under the terms of the GNU General Public License as published by # the Free Software Foundation, either version 3 of the License, or # (at your option) any later version. # # Calamares is distributed in the hope that it will be useful, # but WITHOUT ANY WARRANTY; without even the implied warranty of # MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the # GNU General Public License for more details. # # You should have received a copy of the GNU General Public License # along with Calamares. If not, see . import libcalamares import os import stat import subprocess from time import gmtime, strftime, sleep from math import gcd import gettext _ = gettext.translation("calamares-python", localedir=libcalamares.utils.gettext_path(), languages=libcalamares.utils.gettext_languages(), fallback=True).gettext def pretty_name(): return _("Installing data.") def lcm(a, b): """ Computes the Least Common Multiple of 2 numbers """ return a * b / gcd(a, b) def get_device_size(device): """ Returns a filesystem's total size and block size in bytes. For block devices, block size is the device's block size. For other files (fs images), block size is 1 byte. @param device: str Absolute path to the device or filesystem image. @return: tuple(int, int) The filesystem's size and its block size. """ mode = os.stat(device).st_mode if stat.S_ISBLK(mode): basedevice = "" partition = os.path.basename(device) tmp = partition while len(tmp) > 0: tmp = tmp[:-1] if os.path.exists("/sys/block/" + tmp): basedevice = tmp break # Get device block size file = open("/sys/block/" + basedevice + "/queue/hw_sector_size") blocksize = int(file.readline()) file.close() # Get partition size file = open("/sys/block/" + basedevice + "/" + partition + "/size") size = int(file.readline()) * blocksize file.close() else: size = os.path.getsize(device) blocksize = 1 return size, blocksize class RawFSLowSpaceError(Exception): pass class RawFSItem: __slots__ = ['source', 'destination', 'filesystem', 'resize'] def copy(self, current=0, total=1): """ Copies a raw filesystem on a disk partition, and grow it to the full destination partition's size if required. @param current: int The index of the current item in the filesystems list (used for progress reporting) @param total: int The number of items in the filesystems list (used for progress reporting) """ count = 0 libcalamares.utils.debug("Copying {} to {}".format(self.source, self.destination)) srcsize, srcblksize = get_device_size(self.source) destsize, destblksize = get_device_size(self.destination) if destsize < srcsize: raise RawFSLowSpaceError return # Compute transfer block size (100x the LCM of the block sizes seems a good fit) blksize = int(100 * lcm(srcblksize, destblksize)) # Execute copy src = open(self.source, "rb") dest = open(self.destination, "wb") buffer = src.read(blksize) while len(buffer) > 0: dest.write(buffer) count += len(buffer) # Compute job progress progress = ((count / srcsize) + (current)) / total libcalamares.job.setprogress(progress) # Read next data block buffer = src.read(blksize) src.close() dest.close() if self.resize: if "ext" in self.filesystem: libcalamares.utils.debug("Resizing filesystem on {}".format(self.destination)) subprocess.run(["e2fsck", "-f", "-y", self.destination]) subprocess.run(["resize2fs", self.destination]) def __init__(self, config, device, fs): libcalamares.utils.debug("Adding an entry for raw copy of {} to {}".format( config["source"], device)) self.source = os.path.realpath(config["source"]) # If source is a mount point, look for the actual device mounted on it if os.path.ismount(self.source): procmounts = open("/proc/mounts", "r") for line in procmounts: if self.source in line.split(): self.source = line.split()[0] break self.destination = device self.filesystem = fs try: self.resize = bool(config["resize"]) except KeyError: self.resize = False def update_global_storage(item, gs): for partition in gs: if partition["device"] == item.destination: ret = subprocess.run(["blkid", "-s", "UUID", "-o", "value", item.destination], capture_output=True, text=True) if ret.returncode == 0: libcalamares.utils.debug("Setting {} UUID to {}".format(item.destination, ret.stdout.rstrip())) gs[gs.index(partition)]["uuid"] = ret.stdout.rstrip() gs[gs.index(partition)]["source"] = item.source libcalamares.globalstorage.remove("partitions") libcalamares.globalstorage.insert("partitions", gs) def run(): """Raw filesystem copy module""" filesystems = list() partitions = libcalamares.globalstorage.value("partitions") if not partitions: libcalamares.utils.warning("partitions is empty, {!s}".format(partitions)) return (_("Configuration Error"), _("No partitions are defined for
{!s}
to use." ).format("rawfs")) for partition in partitions: if partition["mountPoint"]: for src in libcalamares.job.configuration["targets"]: if src["mountPoint"] == partition["mountPoint"]: filesystems.append(RawFSItem(src, partition["device"], partition["fs"])) for item in filesystems: try: item.copy(filesystems.index(item), len(filesystems)) except RawFSLowSpaceError: return ("Not enough free space", "{} partition is too small to copy {} on it".format(item.destination, item.source)) update_global_storage(item, partitions) return None