View file File name : __init__.py Content :# Copyright 2020 Red Hat, Inc. Jake Hunsaker <jhunsake@redhat.com> # This file is part of the sos project: https://github.com/sosreport/sos # # This copyrighted material is made available to anyone wishing to use, # modify, copy, or redistribute it subject to the terms and conditions of # version 2 of the GNU General Public License. # # See the LICENSE file in the source distribution for further information. import hashlib import json import logging import os import shutil import tempfile import fnmatch from concurrent.futures import ThreadPoolExecutor from datetime import datetime from pwd import getpwuid from textwrap import fill import sos.cleaner.preppers from sos import __version__ from sos.component import SoSComponent from sos.cleaner.parsers.ip_parser import SoSIPParser from sos.cleaner.parsers.mac_parser import SoSMacParser from sos.cleaner.parsers.hostname_parser import SoSHostnameParser from sos.cleaner.parsers.keyword_parser import SoSKeywordParser from sos.cleaner.parsers.username_parser import SoSUsernameParser from sos.cleaner.parsers.ipv6_parser import SoSIPv6Parser from sos.cleaner.archives.sos import (SoSReportArchive, SoSReportDirectory, SoSCollectorArchive, SoSCollectorDirectory) from sos.cleaner.archives.generic import DataDirArchive, TarballArchive from sos.cleaner.archives.insights import InsightsArchive from sos.utilities import get_human_readable, import_module, ImporterHelper class SoSCleaner(SoSComponent): """ This function is designed to obfuscate potentially sensitive information from an sos report archive in a consistent and reproducible manner. It may either be invoked during the creation of a report by using the --clean option in the report command, or may be used on an already existing archive by way of 'sos clean'. The target of obfuscation are items such as IP addresses, MAC addresses, hostnames, usernames, and also keywords provided by users via the --keywords and/or --keyword-file options. For every collection made in a report the collection is parsed for such items, and when items are found SoS will generate an obfuscated replacement for it, and in all places that item is found replace the text with the obfuscated replacement mapped to it. These mappings are saved locally so that future iterations will maintain the same consistent obfuscation pairing. In the case of IP addresses, support is for IPv4 and IPv6 - effort is made to keep network topology intact so that later analysis is as accurate and easily understandable as possible. If an IP address is encountered that we cannot determine the netmask for, a random IP address is used instead. For IPv6, note that IPv4-mapped addresses, e.g. ::ffff:10.11.12.13, are NOT supported currently, and will remain unobfuscated. For hostnames, domains are obfuscated as whole units, leaving the TLD in place. For instance, 'example.com' may be obfuscated to 'obfuscateddomain0.com' and 'foo.example.com' may end up being 'obfuscateddomain1.com'. Users will be notified of a 'mapping' file that records all items and the obfuscated counterpart mapped to them for ease of reference later on. This file should be kept private. """ desc = "Obfuscate sensitive networking information in a report" arg_defaults = { 'archive_type': 'auto', 'domains': [], 'disable_parsers': [], 'skip_cleaning_files': [], 'jobs': 4, 'keywords': [], 'keyword_file': None, 'map_file': '/etc/sos/cleaner/default_mapping', 'no_update': False, 'keep_binary_files': False, 'target': '', 'usernames': [] } def __init__(self, parser=None, args=None, cmdline=None, in_place=False, hook_commons=None): if not in_place: # we are running `sos clean` directly super().__init__(parser, args, cmdline) self.from_cmdline = True else: # we are being hooked by either SoSReport or SoSCollector, don't # re-init everything as that will cause issues, but instead load # the needed bits from the calling component self.opts = hook_commons['options'] self.tmpdir = hook_commons['tmpdir'] self.sys_tmp = hook_commons['sys_tmp'] self.policy = hook_commons['policy'] self.manifest = hook_commons['manifest'] self.from_cmdline = False if not hasattr(self.opts, 'jobs'): self.opts.jobs = 4 self.opts.archive_type = 'auto' self.soslog = logging.getLogger('sos') self.ui_log = logging.getLogger('sos_ui') # create the tmp subdir here to avoid a potential race condition # when obfuscating a SoSCollector run during archive extraction os.makedirs(os.path.join(self.tmpdir, 'cleaner'), exist_ok=True) self.review_parser_values() self.cleaner_mapping = self.load_map_file() os.umask(0o77) self.in_place = in_place self.hash_name = self.policy.get_preferred_hash_name() self.cleaner_md = self.manifest.components.add_section('cleaner') skip_cleaning_files = self.opts.skip_cleaning_files self.parsers = [ SoSHostnameParser(self.cleaner_mapping, skip_cleaning_files), SoSIPParser(self.cleaner_mapping, skip_cleaning_files), SoSIPv6Parser(self.cleaner_mapping, skip_cleaning_files), SoSMacParser(self.cleaner_mapping, skip_cleaning_files), SoSKeywordParser(self.cleaner_mapping, skip_cleaning_files), SoSUsernameParser(self.cleaner_mapping, skip_cleaning_files) ] for _parser in self.opts.disable_parsers: for _loaded in self.parsers: _loaded_name = _loaded.name.lower().split('parser')[0].strip() if _parser.lower().strip() == _loaded_name: self.log_info(f"Disabling parser: {_loaded_name}") self.ui_log.warning( f"Disabling the '{_parser}' parser. Be aware that this" " may leave sensitive plain-text data in the archive." ) self.parsers.remove(_loaded) self.archive_types = [ SoSReportDirectory, SoSReportArchive, SoSCollectorDirectory, SoSCollectorArchive, InsightsArchive, # make sure these two are always last as they are fallbacks DataDirArchive, TarballArchive ] self.nested_archive = None self.log_info( f"Cleaner initialized. From cmdline: {self.from_cmdline}") def _fmt_log_msg(self, msg, caller=None): return f"[cleaner{f':{caller}' if caller else ''}] {msg}" def log_debug(self, msg, caller=None): self.soslog.debug(self._fmt_log_msg(msg, caller)) def log_info(self, msg, caller=None): self.soslog.info(self._fmt_log_msg(msg, caller)) def log_error(self, msg, caller=None): self.soslog.error(self._fmt_log_msg(msg, caller)) def _fmt_msg(self, msg): width = 80 _fmt = '' for line in msg.splitlines(): _fmt = _fmt + fill(line, width, replace_whitespace=False) + '\n' return _fmt @classmethod def display_help(cls, section): section.set_title("SoS Cleaner Detailed Help") section.add_text(cls.__doc__) def load_map_file(self): """Verifies that the map file exists and has usable content. If the provided map file does not exist, or it is empty, we will print a warning and continue on with cleaning building a fresh map """ _conf = {} default_map = '/etc/sos/cleaner/default_mapping' if os.path.isdir(self.opts.map_file): raise Exception(f"Requested map file {self.opts.map_file} is a " "directory") if not os.path.exists(self.opts.map_file): if self.opts.map_file != default_map: self.log_error( f"ERROR: map file {self.opts.map_file} does not exist, " "will not load any obfuscation matches") else: with open(self.opts.map_file, 'r') as mf: try: _conf = json.load(mf) except json.JSONDecodeError: self.log_error("ERROR: Unable to parse map file, json is " "malformed. Will not load any mappings.") except Exception as err: self.log_error("ERROR: Could not load " f"'{self.opts.map_file}': {err}") return _conf def print_disclaimer(self): """When we are directly running `sos clean`, rather than hooking into SoSCleaner via report or collect, print a disclaimer banner """ msg = self._fmt_msg("""\ This command will attempt to obfuscate information that is generally \ considered to be potentially sensitive. Such information includes IP \ addresses, MAC addresses, domain names, and any user-provided keywords. Note that this utility provides a best-effort approach to data obfuscation, \ but it does not guarantee that such obfuscation provides complete coverage of \ all such data in the archive, or that any obfuscation is provided to data that\ does not fit the description above. Users should review any resulting data and/or archives generated or processed \ by this utility for remaining sensitive content before being passed to a \ third party. """) self.ui_log.info(f"\nsos clean (version {__version__})\n") self.ui_log.info(msg) if not self.opts.batch: try: input("\nPress ENTER to continue, or CTRL-C to quit.\n") except KeyboardInterrupt: self.ui_log.info("\nExiting on user cancel") self._exit(130) except Exception as e: self._exit(1, e) @classmethod def add_parser_options(cls, parser): parser.usage = 'sos clean|mask TARGET [options]' clean_grp = parser.add_argument_group( 'Cleaner/Masking Options', 'These options control how data obfuscation is performed' ) clean_grp.add_argument('target', metavar='TARGET', help='The directory or archive to obfuscate') clean_grp.add_argument('--archive-type', default='auto', choices=['auto', 'report', 'collect', 'insights', 'data-dir', 'tarball'], help=('Specify what kind of archive the target ' 'was generated as')) clean_grp.add_argument('--domains', action='extend', default=[], help='List of domain names to obfuscate') clean_grp.add_argument('--disable-parsers', action='extend', default=[], dest='disable_parsers', help=('Disable specific parsers, so that those ' 'elements are not obfuscated')) clean_grp.add_argument('--skip-cleaning-files', '--skip-masking-files', action='extend', default=[], dest='skip_cleaning_files', help=('List of files to skip/ignore during ' 'cleaning. Globs are supported.')) clean_grp.add_argument('-j', '--jobs', default=4, type=int, help='Number of concurrent archives to clean') clean_grp.add_argument('--keywords', action='extend', default=[], dest='keywords', help='List of keywords to obfuscate') clean_grp.add_argument('--keyword-file', default=None, dest='keyword_file', help='Provide a file a keywords to obfuscate') clean_grp.add_argument('--map-file', dest='map_file', default='/etc/sos/cleaner/default_mapping', help=('Provide a previously generated mapping ' 'file for obfuscation')) clean_grp.add_argument('--no-update', dest='no_update', default=False, action='store_true', help='Do not update the --map-file with new ' 'mappings from this run') clean_grp.add_argument('--keep-binary-files', default=False, action='store_true', dest='keep_binary_files', help='Keep unprocessable binary files in the ' 'archive instead of removing them') clean_grp.add_argument('--usernames', dest='usernames', default=[], action='extend', help='List of usernames to obfuscate') def set_target_path(self, path): """For use by report and collect to set the TARGET option appropriately so that execute() can be called just as if we were running `sos clean` directly from the cmdline. """ self.opts.target = path def inspect_target_archive(self): """The target path is not a directory, so inspect it for being an archive or an archive of archives. In the event the target path is not an archive, abort. """ _arc = None if self.opts.archive_type != 'auto': check_type = self.opts.archive_type.replace('-', '_') for archive in self.archive_types: if archive.type_name == check_type: _arc = archive(self.opts.target, self.tmpdir) else: for arc in self.archive_types: if arc.check_is_type(self.opts.target): _arc = arc(self.opts.target, self.tmpdir) break if not _arc: return self.report_paths.append(_arc) if _arc.is_nested: self.report_paths.extend(_arc.get_nested_archives()) # We need to preserve the top level archive until all # nested archives are processed self.report_paths.remove(_arc) self.nested_archive = _arc if self.nested_archive: self.nested_archive.ui_name = self.nested_archive.description def review_parser_values(self): """Check any values passed to the parsers via the commandline: - For the --domains option, ensure that they are valid for the parser in question. - Convert --skip-cleaning-files from globs to regular expressions. """ for _dom in self.opts.domains: if len(_dom.split('.')) < 2: raise Exception( f"Invalid value '{_dom}' given: --domains values must be " "actual domains" ) self.opts.skip_cleaning_files = [fnmatch.translate(p) for p in self.opts.skip_cleaning_files] def execute(self): """SoSCleaner will begin by inspecting the TARGET option to determine if it is a directory, archive, or archive of archives. In the case of a directory, the default behavior will be to edit the data in place. For an archive will we unpack the archive, iterate over the contents, and then repack the archive. In the case of an archive of archives, such as one from SoSCollector, each archive will be unpacked, cleaned, and repacked and the final top-level archive will then be repacked as well. """ self.arc_name = self.opts.target.split('/')[-1].split('.tar')[0] if self.from_cmdline: self.print_disclaimer() self.report_paths = [] if not os.path.exists(self.opts.target): self.ui_log.error("Invalid target: no such file or directory " f"{self.opts.target}") self._exit(1) self.inspect_target_archive() if not self.report_paths: self.ui_log.error("No valid archives or directories found\n") self._exit(1) # we have at least one valid target to obfuscate self.completed_reports = [] # TODO: as we separate mappings and parsers further, do this in a less # janky manner for parser in self.parsers: if parser.name == 'Hostname Parser': parser.mapping.set_initial_counts() self.preload_all_archives_into_maps() self.generate_parser_item_regexes() self.obfuscate_report_paths() if not self.completed_reports: if self.in_place: return None self.ui_log.info("No reports obfuscated, aborting...\n") self._exit(1) self.ui_log.info("\nSuccessfully obfuscated " f"{len(self.completed_reports)} report(s)\n") _map = self.compile_mapping_dict() map_path = self.write_map_for_archive(_map) self.write_map_for_config(_map) self.write_stats_to_manifest() if self.in_place: arc_paths = [a.final_archive_path for a in self.completed_reports] return map_path, arc_paths final_path = None if len(self.completed_reports) > 1: arc_path = self.rebuild_nested_archive() else: arc = self.completed_reports[0] arc_path = arc.final_archive_path checksum = self.get_new_checksum(arc.final_archive_path) if checksum is not None: chksum_name = self.obfuscate_string( f"{arc_path.split('/')[-1]}.{self.hash_name}" ) with open(os.path.join(self.sys_tmp, chksum_name), 'w') as cf: cf.write(checksum) self.write_cleaner_log() final_path = os.path.join( self.sys_tmp, self.obfuscate_string(arc_path.split('/')[-1]) ) shutil.move(arc_path, final_path) arcstat = os.stat(final_path) # while these messages won't be included in the log file in the archive # some facilities, such as our avocado test suite, will sometimes not # capture print() output, so leverage the ui_log to print to console self.ui_log.info( f"A mapping of obfuscated elements is available at\n\t{map_path}" ) self.ui_log.info( f"\nThe obfuscated archive is available at\n\t{final_path}\n" ) self.ui_log.info(f"\tSize\t{get_human_readable(arcstat.st_size)}") self.ui_log.info(f"\tOwner\t{getpwuid(arcstat.st_uid).pw_name}\n") self.ui_log.info("Please send the obfuscated archive to your support " "representative and keep the mapping file private") self.cleanup() return None def rebuild_nested_archive(self): """Handles repacking the nested tarball, now containing only obfuscated copies of the reports, log files, manifest, etc... """ # we have an archive of archives, so repack the obfuscated tarball arc_name = self.arc_name + '-obfuscated' self.setup_archive(name=arc_name) for archive in self.completed_reports: arc_dest = archive.final_archive_path.split('/')[-1] checksum = self.get_new_checksum(archive.final_archive_path) if checksum is not None: dname = f"checksums/{arc_dest}.{self.hash_name}" self.archive.add_string(checksum, dest=dname) for dirn, dirs, files in os.walk(self.nested_archive.extracted_path): for filename in files: fname = os.path.join(dirn, filename) dname = fname.split(self.nested_archive.extracted_path)[-1] dname = dname.lstrip('/') self.archive.add_file(fname, dest=dname) # remove it now so we don't balloon our fs space needs os.remove(fname) self.write_cleaner_log(archive=True) return self.archive.finalize(self.opts.compression_type) def compile_mapping_dict(self): """Build a dict that contains each parser's map as a key, with the contents as that key's value. This will then be written to disk in the same directory as the obfuscated report so that sysadmins have a way to 'decode' the obfuscation locally """ _map = {} for parser in self.parsers: _map[parser.map_file_key] = {} _map[parser.map_file_key].update(parser.get_map_contents()) return _map def write_map_to_file(self, _map, path): """Write the mapping to a file on disk that is in the same location as the final archive(s). """ with open(path, 'w') as mf: mf.write(json.dumps(_map, indent=4)) return path def write_map_for_archive(self, _map): try: map_path = os.path.join( self.sys_tmp, self.obfuscate_string(f"{self.arc_name}-private_map") ) return self.write_map_to_file(_map, map_path) except Exception as err: self.log_error(f"Could not write private map file: {err}") return None def write_map_for_config(self, _map): """Write the mapping to the config file so that subsequent runs are able to provide the same consistent mapping """ if self.opts.map_file and not self.opts.no_update: cleaner_dir = os.path.dirname(self.opts.map_file) """ Attempt to create the directory /etc/sos/cleaner just in case it didn't exist previously """ try: os.makedirs(cleaner_dir, exist_ok=True) self.write_map_to_file(_map, self.opts.map_file) self.log_debug(f"Wrote mapping to {self.opts.map_file}") except Exception as err: self.log_error(f"Could not update mapping config file: {err}") def write_cleaner_log(self, archive=False): """When invoked via the command line, the logging from SoSCleaner will not be added to the archive(s) it processes, so we need to write it separately to disk """ log_name = os.path.join( self.sys_tmp, f"{self.arc_name}-obfuscation.log" ) with open(log_name, 'w') as logfile: self.sos_log_file.seek(0) for line in self.sos_log_file.readlines(): logfile.write(line) if archive: self.obfuscate_file(log_name) self.archive.add_file(log_name, dest="sos_logs/cleaner.log") def get_new_checksum(self, archive_path): """Calculate a new checksum for the obfuscated archive, as the previous checksum will no longer be valid """ try: hash_size = 1024**2 # Hash 1MiB of content at a time. with open(archive_path, 'rb') as archive_fp: digest = hashlib.new(self.hash_name) while True: hashdata = archive_fp.read(hash_size) if not hashdata: break digest.update(hashdata) return digest.hexdigest() + '\n' except Exception as err: self.log_debug(f"Could not generate new checksum: {err}") return None def obfuscate_report_paths(self): """Perform the obfuscation for each archive or sos directory discovered during setup. Each archive is handled in a separate thread, up to self.opts.jobs will be obfuscated concurrently. """ try: msg = ( f"Found {len(self.report_paths)} total reports to obfuscate, " f"processing up to {self.opts.jobs} concurrently\n" ) self.ui_log.info(msg) if self.opts.keep_binary_files: self.ui_log.warning( "WARNING: binary files that potentially contain sensitive " "information will NOT be removed from the final archive\n" ) pool = ThreadPoolExecutor(self.opts.jobs) pool.map(self.obfuscate_report, self.report_paths, chunksize=1) pool.shutdown(wait=True) # finally, obfuscate the nested archive if one exists if self.nested_archive: self._replace_obfuscated_archives() self.obfuscate_report(self.nested_archive) except KeyboardInterrupt: self.ui_log.info("Exiting on user cancel") os._exit(130) def _replace_obfuscated_archives(self): """When we have a nested archive, we need to rebuild the original archive, which entails replacing the existing archives with their obfuscated counterparts """ for archive in self.completed_reports: os.remove(archive.archive_path) dest = self.nested_archive.extracted_path tarball = archive.final_archive_path.split('/')[-1] dest_name = os.path.join(dest, tarball) shutil.move(archive.final_archive_path, dest) archive.final_archive_path = dest_name def generate_parser_item_regexes(self): """For the parsers that use prebuilt lists of items, generate those regexes now since all the parsers should be preloaded by the archive(s) as well as being handed cmdline options and mapping file configuration. """ for parser in self.parsers: parser.generate_item_regexes() def _prepare_archive_with_prepper(self, archive, prepper): """ For each archive we've determined we need to operate on, pass it to each prepper so that we can extract necessary files and/or items for direct regex replacement. Preppers define these methods per parser, so it is possible that a single prepper will read the same file for different parsers/mappings. This is preferable to the alternative of building up monolithic lists of file paths, as we'd still need to manipulate these on a per-archive basis. :param archive: The archive we are currently using to prepare our mappings with :type archive: ``SoSObfuscationArchive`` subclass :param prepper: The individual prepper we're using to source items :type prepper: ``SoSPrepper`` subclass """ for _parser in self.parsers: pname = _parser.name.lower().split()[0].strip() for _file in prepper.get_parser_file_list(pname, archive): content = archive.get_file_content(_file) if not content: continue self.log_debug(f"Prepping {pname} parser with file {_file} " f"from {archive.ui_name}") for line in content.splitlines(): try: _parser.parse_line(line) except Exception as err: self.log_debug( f"Failed to prep {pname} map from {_file}: {err}" ) map_items = prepper.get_items_for_map(pname, archive) if map_items: self.log_debug(f"Prepping {pname} mapping with items from " f"{archive.ui_name}") for item in map_items: _parser.mapping.add(item) for ritem in prepper.regex_items[pname]: _parser.mapping.add_regex_item(ritem) def get_preppers(self): """ Discover all locally available preppers so that we can prepare the mappings with obfuscation matches in a controlled manner :returns: All preppers that can be leveraged locally :rtype: A generator of `SoSPrepper` items """ helper = ImporterHelper(sos.cleaner.preppers) preps = [] for _prep in helper.get_modules(): preps.extend(import_module(f"sos.cleaner.preppers.{_prep}")) for prepper in sorted(preps, key=lambda x: x.priority): yield prepper(options=self.opts) def preload_all_archives_into_maps(self): """Before doing the actual obfuscation, if we have multiple archives to obfuscate then we need to preload each of them into the mappings to ensure that node1 is obfuscated in node2 as well as node2 being obfuscated in node1's archive. """ self.log_info("Pre-loading all archives into obfuscation maps") for prepper in self.get_preppers(): for archive in self.report_paths: self._prepare_archive_with_prepper(archive, prepper) def obfuscate_report(self, archive): # pylint: disable=too-many-branches """Individually handle each archive or directory we've discovered by running through each file therein. Positional arguments: :param report str: Filepath to the directory or archive """ try: arc_md = self.cleaner_md.add_section(archive.archive_name) start_time = datetime.now() arc_md.add_field('start_time', start_time) # don't double extract nested archives if not archive.is_extracted: archive.extract() archive.report_msg("Beginning obfuscation...") for fname in archive.get_file_list(): short_name = fname.split(archive.archive_name + '/')[1] if archive.should_skip_file(short_name): continue if (not self.opts.keep_binary_files and archive.should_remove_file(short_name)): archive.remove_file(short_name) continue try: count = self.obfuscate_file(fname, short_name, archive.archive_name) if count: archive.update_sub_count(short_name, count) except Exception as err: self.log_debug(f"Unable to parse file {short_name}: {err}") try: self.obfuscate_directory_names(archive) except Exception as err: self.log_info(f"Failed to obfuscate directories: {err}", caller=archive.archive_name) try: self.obfuscate_symlinks(archive) except Exception as err: self.log_info(f"Failed to obfuscate symlinks: {err}", caller=archive.archive_name) # if the archive was already a tarball, repack it if not archive.is_nested: method = archive.get_compression() if method: archive.report_msg("Re-compressing...") try: archive.rename_top_dir( self.obfuscate_string(archive.archive_name) ) archive.compress(method) except Exception as err: self.log_debug(f"Archive {archive.archive_name} failed" f" to compress: {err}") archive.report_msg( f"Failed to re-compress archive: {err}") return self.completed_reports.append(archive) end_time = datetime.now() arc_md.add_field('end_time', end_time) arc_md.add_field('run_time', end_time - start_time) arc_md.add_field('files_obfuscated', len(archive.file_sub_list)) arc_md.add_field('total_substitutions', archive.total_sub_count) rmsg = '' if archive.removed_file_count: rmsg = " [removed %s unprocessable files]" rmsg = rmsg % archive.removed_file_count archive.report_msg(f"Obfuscation completed{rmsg}") except Exception as err: self.ui_log.info("Exception while processing " f"{archive.archive_name}: {err}") def obfuscate_file(self, filename, short_name=None, arc_name=None): # pylint: disable=too-many-locals """Obfuscate and individual file, line by line. Lines processed, even if no substitutions occur, are then written to a temp file without our own tmpdir. Once the file has been completely iterated through, if there have been substitutions then the temp file overwrites the original file. If there are no substitutions, then the original file is left in place. Positional arguments: :param filename str: Filename relative to the extracted archive root """ if not filename: # the requested file doesn't exist in the archive return None subs = 0 if not short_name: short_name = filename.split('/')[-1] if not os.path.islink(filename): # don't run the obfuscation on the link, but on the actual file # at some other point. _parsers = [ _p for _p in self.parsers if not any( _skip.match(short_name) for _skip in _p.skip_patterns ) ] if not _parsers: self.log_debug( f"Skipping obfuscation of {short_name or filename} due to " f"matching file skip pattern" ) return 0 self.log_debug(f"Obfuscating {short_name or filename}", caller=arc_name) tfile = tempfile.NamedTemporaryFile(mode='w', dir=self.tmpdir) with open(filename, 'r', errors='replace') as fname: for line in fname: try: line, count = self.obfuscate_line(line, _parsers) subs += count tfile.write(line) except Exception as err: self.log_debug(f"Unable to obfuscate {short_name}: " f"{err}", caller=arc_name) tfile.seek(0) if subs: shutil.copyfile(tfile.name, filename) tfile.close() _ob_short_name = self.obfuscate_string(short_name.split('/')[-1]) _ob_filename = short_name.replace(short_name.split('/')[-1], _ob_short_name) if _ob_filename != short_name: arc_path = filename.split(short_name)[0] _ob_path = os.path.join(arc_path, _ob_filename) # ensure that any plugin subdirs that contain obfuscated strings # get created with obfuscated counterparts if not os.path.islink(filename): os.rename(filename, _ob_path) else: # generate the obfuscated name of the link target _target_ob = self.obfuscate_string(os.readlink(filename)) # remove the unobfuscated original symlink first, in case the # symlink name hasn't changed but the target has os.remove(filename) # create the newly obfuscated symlink, pointing to the # obfuscated target name, which may not exist just yet, but # when the actual file is obfuscated, will be created os.symlink(_target_ob, _ob_path) return subs def obfuscate_symlinks(self, archive): """Iterate over symlinks in the archive and obfuscate their names. The content of the link target will have already been cleaned, and this second pass over just the names of the links is to ensure we avoid a possible race condition dependent on the order in which the link or the target get obfuscated. :param archive: The archive being obfuscated :type archive: ``SoSObfuscationArchive`` """ self.log_info("Obfuscating symlink names", caller=archive.archive_name) for symlink in archive.get_symlinks(): try: # relative name of the symlink in the archive _sym = symlink.split(archive.extracted_path)[1].lstrip('/') # don't obfuscate symlinks for files that we skipped the first # obfuscation of, as that would create broken links _parsers = [ _p for _p in self.parsers if not any(_skip.match(_sym) for _skip in _p.skip_patterns) ] if not _parsers: self.log_debug( f"Skipping obfuscation of symlink {_sym} due to skip " f"pattern match" ) continue self.log_debug(f"Obfuscating symlink {_sym}", caller=archive.archive_name) # current target of symlink, again relative to the archive _target = os.readlink(symlink) # get the potentially renamed symlink name, this time the full # path as it exists on disk _ob_sym_name = os.path.join(archive.extracted_path, self.obfuscate_string(_sym)) # get the potentially renamed relative target filename _ob_target = self.obfuscate_string(_target) # if either the symlink name or the target name has changed, # recreate the symlink if (_ob_sym_name != symlink) or (_ob_target != _target): os.remove(symlink) os.symlink(_ob_target, _ob_sym_name) except Exception as err: self.log_info(f"Error obfuscating symlink '{symlink}': {err}") def obfuscate_directory_names(self, archive): """For all directories that exist within the archive, obfuscate the directory name if it contains sensitive strings found during execution """ self.log_info("Obfuscating directory names in archive " f"{archive.archive_name}") for dirpath in sorted(archive.get_directory_list(), reverse=True): for _name in os.listdir(dirpath): _dirname = os.path.join(dirpath, _name) _arc_dir = _dirname.split(archive.extracted_path)[-1] if os.path.isdir(_dirname): _ob_dirname = self.obfuscate_string(_name) if _ob_dirname != _name: _ob_arc_dir = _arc_dir.rstrip(_name) _ob_arc_dir = os.path.join( archive.extracted_path, _ob_arc_dir.lstrip('/'), _ob_dirname ) os.rename(_dirname, _ob_arc_dir) def obfuscate_string(self, string_data): for parser in self.parsers: try: string_data = parser.parse_string_for_keys(string_data) except Exception as err: self.log_info(f"Error obfuscating string data: {err}") return string_data def obfuscate_line(self, line, parsers=None): """Run a line through each of the obfuscation parsers, keeping a cumulative total of substitutions done on that particular line. Positional arguments: :param line str: The raw line as read from the file being processed :param parsers: A list of parser objects to obfuscate with. If None, use all. Returns the fully obfuscated line and the number of substitutions made """ # don't iterate over blank lines, but still write them to the tempfile # to maintain the same structure when we write a scrubbed file back count = 0 if not line.strip(): return line, count if parsers is None: parsers = self.parsers for parser in parsers: try: line, _count = parser.parse_line(line) count += _count except Exception as err: self.log_debug(f"failed to parse line: {err}", parser.name) return line, count def write_stats_to_manifest(self): """Write some cleaner-level, non-report-specific stats to the manifest """ parse_sec = self.cleaner_md.add_section('parsers') for parser in self.parsers: _sec = parse_sec.add_section(parser.name.replace(' ', '_').lower()) _sec.add_field('entries', len(parser.mapping.dataset.keys())) # vim: set et ts=4 sw=4 :