250 lines
9.5 KiB
Python
Executable File
250 lines
9.5 KiB
Python
Executable File
#!/usr/bin/python3
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# This script performs a backup of all user data:
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# 1) System services are stopped while a copy of user data is made.
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# 2) An incremental encrypted backup is made using duplicity into the
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# directory STORAGE_ROOT/backup/encrypted. The password used for
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# encryption is stored in backup/secret_key.txt.
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# 3) The stopped services are restarted.
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# 5) STORAGE_ROOT/backup/after-backup is executd if it exists.
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import os, os.path, shutil, glob, re, datetime
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import dateutil.parser, dateutil.relativedelta, dateutil.tz
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from utils import exclusive_process, load_environment, shell
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# Destroy backups when the most recent increment in the chain
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# that depends on it is this many days old.
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keep_backups_for_days = 3
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def backup_status(env):
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# What is the current status of backups?
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# Loop through all of the files in STORAGE_ROOT/backup/encrypted to
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# get a list of all of the backups taken and sum up file sizes to
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# see how large the storage is.
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now = datetime.datetime.now(dateutil.tz.tzlocal())
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def reldate(date, ref, clip):
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if ref < date: return clip
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rd = dateutil.relativedelta.relativedelta(ref, date)
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if rd.months > 1: return "%d months, %d days" % (rd.months, rd.days)
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if rd.months == 1: return "%d month, %d days" % (rd.months, rd.days)
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if rd.days >= 7: return "%d days" % rd.days
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if rd.days > 1: return "%d days, %d hours" % (rd.days, rd.hours)
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if rd.days == 1: return "%d day, %d hours" % (rd.days, rd.hours)
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return "%d hours, %d minutes" % (rd.hours, rd.minutes)
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backups = { }
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backup_dir = os.path.join(env["STORAGE_ROOT"], 'backup')
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backup_encrypted_dir = os.path.join(backup_dir, 'encrypted')
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os.makedirs(backup_encrypted_dir, exist_ok=True) # os.listdir fails if directory does not exist
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for fn in os.listdir(backup_encrypted_dir):
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m = re.match(r"duplicity-(full|full-signatures|(inc|new-signatures)\.(?P<incbase>\d+T\d+Z)\.to)\.(?P<date>\d+T\d+Z)\.", fn)
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if not m: raise ValueError(fn)
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key = m.group("date")
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if key not in backups:
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date = dateutil.parser.parse(m.group("date"))
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backups[key] = {
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"date": m.group("date"),
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"date_str": date.strftime("%x %X"),
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"date_delta": reldate(date, now, "the future?"),
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"full": m.group("incbase") is None,
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"previous": m.group("incbase"),
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"size": 0,
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}
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backups[key]["size"] += os.path.getsize(os.path.join(backup_encrypted_dir, fn))
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# Ensure the rows are sorted reverse chronologically.
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# This is relied on by should_force_full() and the next step.
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backups = sorted(backups.values(), key = lambda b : b["date"], reverse=True)
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# Get the average size of incremental backups and the size of the
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# most recent full backup.
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incremental_count = 0
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incremental_size = 0
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first_full_size = None
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for bak in backups:
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if bak["full"]:
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first_full_size = bak["size"]
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break
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incremental_count += 1
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incremental_size += bak["size"]
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# Predict how many more increments until the next full backup,
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# and add to that the time we hold onto backups, to predict
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# how long the most recent full backup+increments will be held
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# onto. Round up since the backup occurs on the night following
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# when the threshold is met.
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deleted_in = None
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if incremental_count > 0 and first_full_size is not None:
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deleted_in = "approx. %d days" % round(keep_backups_for_days + (.5 * first_full_size - incremental_size) / (incremental_size/incremental_count) + .5)
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# When will a backup be deleted?
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saw_full = False
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days_ago = now - datetime.timedelta(days=keep_backups_for_days)
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for bak in backups:
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if deleted_in:
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# Subsequent backups are deleted when the most recent increment
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# in the chain would be deleted.
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bak["deleted_in"] = deleted_in
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if bak["full"]:
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# Reset when we get to a full backup. A new chain start next.
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saw_full = True
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deleted_in = None
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elif saw_full and not deleted_in:
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# Mark deleted_in only on the first increment after a full backup.
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deleted_in = reldate(days_ago, dateutil.parser.parse(bak["date"]), "on next daily backup")
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bak["deleted_in"] = deleted_in
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return {
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"directory": backup_encrypted_dir,
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"encpwfile": os.path.join(backup_dir, 'secret_key.txt'),
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"tz": now.tzname(),
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"backups": backups,
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}
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def should_force_full(env):
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# Force a full backup when the total size of the increments
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# since the last full backup is greater than half the size
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# of that full backup.
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inc_size = 0
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for bak in backup_status(env)["backups"]:
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if not bak["full"]:
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# Scan through the incremental backups cumulating
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# size...
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inc_size += bak["size"]
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else:
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# ...until we reach the most recent full backup.
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# Return if we should to a full backup.
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return inc_size > .5*bak["size"]
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else:
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# If we got here there are no (full) backups, so make one.
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# (I love for/else blocks. Here it's just to show off.)
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return True
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def perform_backup(full_backup):
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env = load_environment()
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exclusive_process("backup")
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backup_dir = os.path.join(env["STORAGE_ROOT"], 'backup')
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backup_encrypted_dir = os.path.join(backup_dir, 'encrypted')
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# In an older version of this script, duplicity was called
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# such that it did not encrypt the backups it created (in
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# backup/duplicity), and instead openssl was called separately
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# after each backup run, creating AES256 encrypted copies of
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# each file created by duplicity in backup/encrypted.
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#
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# We detect the transition by the presence of backup/duplicity
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# and handle it by 'dupliception': we move all the old *un*encrypted
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# duplicity files up out of the backup/duplicity directory (as
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# backup/ is excluded from duplicity runs) in order that it is
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# included in the next run, and we delete backup/encrypted (which
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# duplicity will output files directly to, post-transition).
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#
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# This achieves two things:
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# 1. It preserves the pre-transition unencrypted backup files
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# within the encrypted backups we will immediately create, so
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# that they are kept until the next full backup is triggered.
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# (it is because those backups will be encrypted that we take
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# the old *un*encrypted backups, not the duplicates encrypted
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# with openssl).
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# 2. It results in backup_status() being called on a non-existant
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# backup/encrypted directory, which will trigger a full backup
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# (though duplicity ought to do one anyway as it ought not
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# recognise the old openssl encrypted .enc files, if we *had*
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# left them there). More to the point it clears out those .enc
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# files which are now redundant, thereby gaining disk space and
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# preventing backup_status() getting terribly confused by their
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# presence.
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#
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# A note about disk use:
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# At no point in the transition will we use more disk space than
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# was used pre-transition, because by deleting the openssl
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# encrypted duplicates we decrease by more* than half the disk
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# space used, while the addition by 'dupliception' of the old
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# *un*encrypted backups takes less space than we gained from
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# dropping the openssl encrypted duplicates.
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#
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# A note about the status page post-upgrade but pre-transition:
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# Between the point that the new code is deployed and when the first
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# daily backup is run, there will be a subtle change in the
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# behaviour of the web control panel's backup status page, in that
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# it will only sum the size of the encrypted backups when reporting
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# the total size on disk i.e. it will not consider the unencrypted
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# originals.
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#
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# *the openssl encrypted duplicates were base64 encrypted, hence
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# accounting for more than half of the space used.
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backup_duplicity_dir = os.path.join(backup_dir, 'duplicity')
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migrated_unencrypted_backup_dir = os.path.join(env["STORAGE_ROOT"], "migrated_unencrypted_backup")
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if os.path.isdir(backup_duplicity_dir):
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shutil.rmtree(backup_encrypted_dir)
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shutil.move(backup_duplicity_dir, migrated_unencrypted_backup_dir)
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# On the first run, always do a full backup. Incremental
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# will fail. Otherwise do a full backup when the size of
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# the increments since the most recent full backup are
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# large.
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full_backup = full_backup or should_force_full(env)
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# Stop services.
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shell('check_call', ["/usr/sbin/service", "dovecot", "stop"])
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shell('check_call', ["/usr/sbin/service", "postfix", "stop"])
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# Update the backup mirror directory which mirrors the current
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# STORAGE_ROOT (but excluding the backups themselves!).
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try:
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shell('check_call', [
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"/usr/bin/duplicity",
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"full" if full_backup else "incr",
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"--exclude", backup_dir,
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"--volsize", "250",
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env["STORAGE_ROOT"],
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"file://" + backup_encrypted_dir
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],
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env={ "PASSPHRASE" : open(
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os.path.join(backup_dir, 'secret_key.txt')
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).read() }
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)
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finally:
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# Start services again.
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shell('check_call', ["/usr/sbin/service", "dovecot", "start"])
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shell('check_call', ["/usr/sbin/service", "postfix", "start"])
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if os.path.isdir(migrated_unencrypted_backup_dir):
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shutil.rmtree(migrated_unencrypted_backup_dir)
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# Remove old backups. This deletes all backup data no longer needed
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# from more than 3 days ago.
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shell('check_call', [
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"/usr/bin/duplicity",
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"remove-older-than",
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"%dD" % keep_backups_for_days,
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"--force",
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"file://" + backup_encrypted_dir
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])
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shell('check_call', [
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"/usr/bin/duplicity",
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"cleanup",
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"--force",
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"file://" + backup_encrypted_dir
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])
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# Execute a post-backup script that does the copying to a remote server.
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# Run as the STORAGE_USER user, not as root. Pass our settings in
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# environment variables so the script has access to STORAGE_ROOT.
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post_script = os.path.join(backup_dir, 'after-backup')
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if os.path.exists(post_script):
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shell('check_call',
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['su', env['STORAGE_USER'], '-c', post_script],
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env=env)
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if __name__ == "__main__":
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import sys
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full_backup = "--full" in sys.argv
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perform_backup(full_backup)
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