#!/usr/bin/env python3 ''' expire_backups.py - this file is part of S3QL. Copyright © 2008 Nikolaus Rath This work can be distributed under the terms of the GNU GPLv3. ''' import sys import os import re import textwrap import shutil import pickle from datetime import datetime, timedelta from collections import defaultdict # We are running from the S3QL source directory, make sure # that we use modules from this directory basedir = os.path.abspath(os.path.join(os.path.dirname(sys.argv[0]), '..')) if (os.path.exists(os.path.join(basedir, 'setup.py')) and os.path.exists(os.path.join(basedir, 'src', 's3ql', '__init__.py'))): sys.path = [os.path.join(basedir, 'src')] + sys.path from s3ql.logging import setup_logging, QuietError, logging from s3ql.common import thaw_basic_mapping, freeze_basic_mapping from s3ql.parse_args import ArgumentParser from s3ql.remove import main as s3qlrm log = logging.getLogger(__name__) def parse_args(args): '''Parse command line''' parser = ArgumentParser( description=textwrap.dedent('''\ ``expire_backups.py`` is a program to intelligently remove old backups that are no longer needed. To define what backups you want to keep for how long, you define a number of *age ranges*. ``expire_backups`` ensures that you will have at least one backup in each age range at all times. It will keep exactly as many backups as are required for that and delete any backups that become redundant. Age ranges are specified by giving a list of range boundaries in terms of backup cycles. Every time you create a new backup, the existing backups age by one cycle. Please refer to the S3QL documentation for details. ''')) parser.add_quiet() parser.add_debug() parser.add_version() parser.add_argument('cycles', nargs='+', type=int, metavar='', help='Age range boundaries in terms of backup cycles') parser.add_argument('--state', metavar='', type=str, default='.expire_backups.dat', # Add quotes around default to prevent groff # from choking on leading . generated by buggy # docutils man page generator. help='File to save state information in (default: "%(default)s")') parser.add_argument("-n", action="store_true", default=False, help="Dry run. Just show which backups would be deleted.") parser.add_argument('--reconstruct-state', action='store_true', default=False, help='Try to reconstruct a missing state file from backup dates.') parser.add_argument("--use-s3qlrm", action="store_true", help="Use `s3qlrm` command to delete backups.") options = parser.parse_args(args) if sorted(options.cycles) != options.cycles: parser.error('Age range boundaries must be in increasing order') return options def main(args=None): if args is None: args = sys.argv[1:] options = parse_args(args) setup_logging(options) # Determine available backups backup_list = set(x for x in os.listdir('.') if re.match(r'^\d{4}-\d\d-\d\d_\d\d:\d\d:\d\d$', x)) if not os.path.exists(options.state) and len(backup_list) > 1: if not options.reconstruct_state: raise QuietError('Found more than one backup but no state file! Aborting.') log.warning('Trying to reconstruct state file..') state = upgrade_to_state(backup_list) if not options.n: log.info('Saving reconstructed state..') with open(options.state, 'wb') as fh: fh.write(freeze_basic_mapping(state)) elif not os.path.exists(options.state): log.warning('Creating state file..') state = dict() else: log.info('Reading state...') with open(options.state, 'rb') as fh: state = thaw_basic_mapping(fh.read()) to_delete = process_backups(backup_list, state, options.cycles) for x in to_delete: log.info('Backup %s is no longer needed, removing...', x) if not options.n: if options.use_s3qlrm: s3qlrm([x]) else: shutil.rmtree(x) if options.n: log.info('Dry run, not saving state.') else: log.info('Saving state..') with open(options.state, 'wb') as fh: fh.write(freeze_basic_mapping(state)) def upgrade_to_state(backup_list): log.info('Several existing backups detected, trying to convert absolute ages to cycles') now = datetime.now() age = dict() for x in sorted(backup_list): age[x] = now - datetime.strptime(x, '%Y-%m-%d_%H:%M:%S') log.info('Backup %s is %s hours old', x, age[x]) deltas = [ abs(x - y) for x in age.values() for y in age.values() if x != y ] step = min(deltas) log.info('Assuming backup interval of %s hours', step) state = dict() for x in sorted(age): state[x] = 0 while age[x] > timedelta(0): state[x] += 1 age[x] -= step log.info('Backup %s is %d cycles old', x, state[x]) log.info('State construction complete.') return state def simulate(args): options = parse_args(args) setup_logging(options) state = dict() backup_list = set() for i in range(50): backup_list.add('backup-%2d' % i) delete = process_backups(backup_list, state, options.cycles) log.info('Deleting %s', delete) backup_list -= delete log.info('Available backups on day %d:', i) for x in sorted(backup_list): log.info(x) def process_backups(backup_list, state, cycles): # New backups new_backups = backup_list - set(state) for x in sorted(new_backups): log.info('Found new backup %s', x) for y in state: state[y] += 1 state[x] = 0 for x in state: log.debug('Backup %s has age %d', x, state[x]) # Missing backups missing_backups = set(state) - backup_list for x in missing_backups: log.warning('backup %s is missing. Did you delete it manually?', x) del state[x] # Ranges ranges = [ (0, cycles[0]) ] for i in range(1, len(cycles)): ranges.append((cycles[i - 1], cycles[i])) # Go forward in time to see what backups need to be kept simstate = dict() keep = set() missing = defaultdict(list) for step in range(max(cycles)): log.debug('Considering situation after %d more backups', step) for x in simstate: simstate[x] += 1 log.debug('Backup x now has simulated age %d', simstate[x]) # Add the hypothetical backup that has been made "just now" if step != 0: simstate[step] = 0 for (min_, max_) in ranges: log.debug('Looking for backup for age range %d to %d', min_, max_) # Look in simstate found = False for (backup, age) in simstate.items(): if min_ <= age < max_: found = True break if found: # backup and age will be defined #pylint: disable=W0631 log.debug('Using backup %s (age %d)', backup, age) continue # Look in state for (backup, age) in state.items(): age += step if min_ <= age < max_: log.info('Keeping backup %s (current age %d) for age range %d to %d%s', backup, state[backup], min_, max_, (' in %d cycles' % step) if step else '') simstate[backup] = age keep.add(backup) break else: if step == 0: log.info('Note: there is currently no backup available ' 'for age range %d to %d', min_, max_) else: missing['%d to %d' % (min_, max_)].append(step) for range_ in sorted(missing): log.info('Note: there will be no backup for age range %s ' 'in (forthcoming) cycle(s): %s', range_, format_list(missing[range_])) to_delete = set(state) - keep for x in to_delete: del state[x] return to_delete def format_list(l): if not l: return '' l = l[:] # Append bogus end element l.append(l[-1] + 2) range_start = l.pop(0) cur = range_start res = list() for n in l: if n == cur + 1: pass elif range_start == cur: res.append('%d' % cur) elif range_start == cur - 1: res.append('%d' % range_start) res.append('%d' % cur) else: res.append('%d-%d' % (range_start, cur)) if n != cur + 1: range_start = n cur = n if len(res) > 1: return ('%s and %s' % (', '.join(res[:-1]), res[-1])) else: return ', '.join(res) if __name__ == '__main__': #simulate(sys.argv[1:]) main(sys.argv[1:])