# Copyright 2016 Andreas Florath (andreas@florath.net) # # Licensed under the Apache License, Version 2.0 (the "License"); you may # not use this file except in compliance with the License. You may obtain # a copy of the License at # # http://www.apache.org/licenses/LICENSE-2.0 # # Unless required by applicable law or agreed to in writing, software # distributed under the License is distributed on an "AS IS" BASIS, WITHOUT # WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. See the # License for the specific language governing permissions and limitations # under the License. import logging import re import subprocess logger = logging.getLogger(__name__) SIZE_UNIT_SPECS = [ ["TiB", 1024**4], ["GiB", 1024**3], ["MiB", 1024**2], ["KiB", 1024**1], ["TB", 1000**4], ["GB", 1000**3], ["MB", 1000**2], ["KB", 1000**1], ["T", 1000**4], ["G", 1000**3], ["M", 1000**2], ["K", 1000**1], ["B", 1], ["", 1], # No unit -> size is given in bytes ] # Basic RE to check and split floats (without exponent) # and a given unit specification (which must be non-numerical). size_unit_spec_re = re.compile("^([\d\.]*) ?([a-zA-Z0-9_]*)$") def _split_size_unit_spec(size_unit_spec): """Helper function to split unit specification into parts. The first part is the numeric part - the second one is the unit. """ match = size_unit_spec_re.match(size_unit_spec) if match is None: raise RuntimeError("Invalid size unit spec [%s]" % size_unit_spec) return match.group(1), match.group(2) def _get_unit_factor(unit_str): """Helper function to get the unit factor. The given unit_str needs to be a string of the SIZE_UNIT_SPECS table. If the unit is not found, a runtime error is raised. """ for spec_key, spec_value in SIZE_UNIT_SPECS: if unit_str == spec_key: return spec_value raise RuntimeError("unit_str [%s] not known" % unit_str) def parse_abs_size_spec(size_spec): size_cnt_str, size_unit_str = _split_size_unit_spec(size_spec) unit_factor = _get_unit_factor(size_unit_str) return int(unit_factor * ( float(size_cnt_str) if len(size_cnt_str) > 0 else 1)) def parse_rel_size_spec(size_spec, abs_size): """Parses size specifications - can be relative like 50% In addition to the absolute parsing also a relative parsing is done. If the size specification ends in '%', then the relative size of the given 'abs_size' is returned. """ if size_spec[-1] == '%': percent = float(size_spec[:-1]) return True, int(abs_size * percent / 100.0) return False, parse_abs_size_spec(size_spec) def exec_sudo(cmd): """Run a command under sudo Run command under sudo, with debug trace of output. This is like subprocess.check_call() but sudo wrapped and with output tracing at debug levels. Arguments: :param cmd: str command list; for Popen() :return: nothing :raises: subprocess.CalledProcessError if return code != 0 """ assert isinstance(cmd, list) sudo_cmd = ["sudo"] sudo_cmd.extend(cmd) try: logger.info("Calling [%s]", " ".join(sudo_cmd)) except TypeError: # Popen actually doesn't care, but we've managed to get mixed # str and bytes in argument lists which causes errors logging # commands. Give a clue as to what's going on. logger.exception("Ensure all arguments are str type!") raise proc = subprocess.Popen(sudo_cmd, stdout=subprocess.PIPE, stderr=subprocess.STDOUT) for line in iter(proc.stdout.readline, b""): logger.debug("exec_sudo: %s", line.rstrip()) proc.wait() if proc.returncode != 0: raise subprocess.CalledProcessError(proc.returncode, ' '.join(sudo_cmd)) def sort_mount_points(mount_points): logger.debug("sort_mount_points called [%s]", mount_points) def insert_sorted(mp, sorted_mount_points): if len(sorted_mount_points) == 0: sorted_mount_points.append(mp) return for idx in range(0, len(sorted_mount_points)): if sorted_mount_points[idx].startswith(mp): sorted_mount_points.insert(idx, mp) return sorted_mount_points.append(mp) sorted_mount_points = [] for mp in mount_points: insert_sorted(mp, sorted_mount_points) logger.debug("sort_mount_points result [%s]", sorted_mount_points) return sorted_mount_points