#!/usr/bin/env python3
# Handles sync-conflict files
import argparse
import os
import pickle
import re
import sys
import zlib
import coloredlogs
import progressbar
import logging
progressbar.streams.wrap_stderr()
coloredlogs.install(level='INFO', fmt='%(levelname)s %(message)s')
log = logging.getLogger()
# 1) Create file list with conflict files
# 2) Gather file informations (date, owner, size, checksum)
# 3) Propose what to do
def sizeof_fmt(num, suffix='B'):
# Stolen from https://stackoverflow.com/a/1094933
for unit in ['', 'Ki', 'Mi', 'Gi', 'Ti', 'Pi', 'Ei', 'Zi']:
if abs(num) < 1024.0:
return "%3.1f %s%s" % (num, unit, suffix)
num /= 1024.0
return "%.1f %s%s" % (num, 'Yi', suffix)
class Table():
def __init__(self, width, height):
self.width = width
self.height = height
self.data = [['' for _ in range(self.height)]
for _ in range(self.width)]
def set(self, x, y, data):
self.data[x][y] = str(data)
def print(self):
widths = [max([len(cell) for cell in column]) for column in self.data]
for y in range(self.height):
for x in range(self.width):
cell = self.data[x][y]
l = len(cell)
width = widths[x]
if x > 0:
cell = ' | ' + cell
cell = cell + ' ' * (width - l)
print(cell, end='\t')
print()
class Database():
VERSION = 1
CONFLICT_PATTERN = re.compile('\.sync-conflict-\d{8}-\d{6}-\w{7}')
def __init__(self, directory):
self.version = Database.VERSION
self.directory = directory
self.data = dict()
def prune(self):
toPrune = list()
for filepath, databaseFile in self.data.items():
databaseFile.migrate() # TODO Temp dev stuff
databaseFile.prune()
if not databaseFile.isRelevant():
toPrune.append(filepath)
for filepath in toPrune:
del self.data[filepath]
def nbFiles(self):
return sum(databaseFile.nbFiles() for databaseFile in self.data.values())
def totalSize(self):
return sum(databaseFile.totalSize() for databaseFile in self.data.values())
def maxSize(self):
return sum(databaseFile.maxSize() for databaseFile in self.data.values())
def totalChecksumSize(self):
return sum(databaseFile.totalChecksumSize() for databaseFile in self.data.values())
def getList(self):
self.prune()
log.info("Finding conflict files")
widgets = [
progressbar.AnimatedMarker(), ' ',
progressbar.BouncingBar(), ' ',
progressbar.DynamicMessage('conflicts'), ' ',
progressbar.DynamicMessage('files'), ' ',
progressbar.DynamicMessage('dir', width=20, precision=20), ' ',
progressbar.Timer(),
]
bar = progressbar.ProgressBar(widgets=widgets).start()
f = 0
for root, dirs, files in os.walk(self.directory):
for conflictFilename in files:
f += 1
if not Database.CONFLICT_PATTERN.search(conflictFilename):
continue
filename = Database.CONFLICT_PATTERN.sub('', conflictFilename)
key = (root, filename)
if key in self.data:
dataFile = self.data[key]
else:
dataFile = DatabaseFile(root, filename)
self.data[key] = dataFile
if filename in files:
dataFile.addConflict(filename)
dataFile.addConflict(conflictFilename)
bar.update(conflicts=len(self.data), files=f,
dir=root[(len(self.directory)+1):])
bar.finish()
log.info(
f"Found {len(self.data)} conflicts, totalling {self.nbFiles()} conflict files.")
def getStats(self):
log.info("Getting stats from conflict files")
bar = progressbar.ProgressBar(max_value=self.nbFiles()).start()
f = 0
for databaseFile in self.data.values():
databaseFile.getStats()
f += databaseFile.nbFiles()
bar.update(f)
bar.finish()
log.info(
f"Total file size: {sizeof_fmt(self.totalSize())}, possible save: {sizeof_fmt(self.totalSize() - self.maxSize())}")
def getChecksums(self):
log.info("Checksumming conflict files")
widgets = [
progressbar.DataSize(), ' of ', progressbar.DataSize('max_value'),
' (', progressbar.AdaptiveTransferSpeed(), ') ',
progressbar.Bar(), ' ',
progressbar.DynamicMessage('dir', width=20, precision=20), ' ',
progressbar.DynamicMessage('file', width=20, precision=20), ' ',
progressbar.Timer(), ' ',
progressbar.AdaptiveETA(),
]
bar = progressbar.DataTransferBar(
max_value=self.totalChecksumSize(), widgets=widgets).start()
f = 0
for databaseFile in self.data.values():
bar.update(f, dir=databaseFile.root[(
len(self.directory)+1):], file=databaseFile.filename)
f += databaseFile.totalChecksumSize()
try:
databaseFile.getChecksums()
except KeyboardInterrupt:
return
except BaseException as e:
log.error(e, exc_info=True)
pass
bar.finish()
def printDifferences(self):
for databaseFile in self.data.values():
print()
databaseFile.printInfos(diff=True)
def takeAction(self, execute=False, *args, **kwargs):
for databaseFile in self.data.values():
databaseFile.decideAction(*args, **kwargs)
databaseFile.takeAction(execute=execute)
class DatabaseFile():
BLOCK_SIZE = 4096
RELEVANT_STATS = ('st_mode', 'st_uid', 'st_gid', 'st_size', 'st_mtime')
def __init__(self, root, filename):
self.root = root
self.filename = filename
self.stats = []
self.conflicts = []
self.checksums = []
self.action = None
log.debug(f"{self.root}/{self.filename} - new")
def addConflict(self, conflict):
if conflict in self.conflicts:
return
self.conflicts.append(conflict)
self.stats.append(None)
self.checksums.append(None)
log.debug(f"{self.root}/{self.filename} - add: {conflict}")
def migrate(self):
# Temp dev stuff since I don't want to resum that whole 400 GiB dir
if self.stats is None:
self.stats = [None] * len(self.conflicts)
try:
if self.checksums is None:
self.checksums = [None] * len(self.conflicts)
except AttributeError:
self.checksums = [None] * len(self.conflicts)
def removeConflict(self, conflict):
f = self.conflicts.index(conflict)
del self.conflicts[f]
del self.stats[f]
del self.checksums[f]
log.debug(f"{self.root}/{self.filename} - del: {conflict}")
def getPath(self, conflict):
return os.path.join(self.root, conflict)
def getPaths(self):
return [self.getPath(conflict) for conflict in self.conflicts]
def prune(self):
toPrune = list()
for conflict in self.conflicts:
if not os.path.isfile(self.getPath(conflict)):
toPrune.append(conflict)
if len(toPrune):
for conflict in toPrune:
self.removeConflict(conflict)
def isRelevant(self):
if len(self.conflicts) == 1:
if self.conflicts[0] == self.filename:
return False
elif len(self.conflicts) < 1:
return False
else:
return True
def nbFiles(self):
return len(self.conflicts)
def totalSize(self):
return sum((stat.st_size if stat is not None else 0) for stat in self.stats)
def maxSize(self):
return max((stat.st_size if stat is not None else 0) for stat in self.stats)
def totalChecksumSize(self):
size = 0
for f, checksum in enumerate(self.checksums):
if checksum is None:
stat = self.stats[f]
if stat is not None:
size += stat.st_size
return size
def getStats(self):
for f, conflict in enumerate(self.conflicts):
oldStat = self.stats[f]
newStat = os.stat(self.getPath(conflict))
oldChecksum = self.checksums[f]
# If it's been already summed, and we have the same inode and same ctime, don't resum
if oldStat is None or not isinstance(oldChecksum, int) or oldStat.st_size != newStat.st_size or oldStat.st_dev != newStat.st_dev or oldStat.st_ino != newStat.st_ino or oldStat.st_ctime != newStat.st_ctime or oldStat.st_dev != newStat.st_dev:
self.checksums[f] = None
self.stats[f] = newStat
# If all the file are of different size, set as different files
if len(self.stats) == len(set([s.st_size for s in self.stats])):
self.checksums = [False] * len(self.conflicts)
# If all the files are the same inode, set as same files
if len(set([s.st_ino for s in self.stats])) == 1 and len(set([s.st_dev for s in self.stats])) == 1:
self.checksums = [True] * len(self.conflicts)
def getChecksums(self):
# TODO It's not even required to have a sum, this thing is not collision resistant now
# TODO We might use BTRFS feature to know if conflict files are deduplicated between them
filedescs = dict()
for f, conflict in enumerate(self.conflicts):
if self.checksums[f] is not None:
continue
self.checksums[f] = 1
filedescs[f] = open(self.getPath(conflict), 'rb')
while len(filedescs):
toClose = set()
# Compute checksums for next block for all files
for f, filedesc in filedescs.items():
data = filedesc.read(DatabaseFile.BLOCK_SIZE)
self.checksums[f] = zlib.adler32(data, self.checksums[f])
if len(data) < DatabaseFile.BLOCK_SIZE:
toClose.add(f)
# Stop summing as soon as checksum diverge
for f in filedescs.keys():
if self.checksums.count(self.checksums[f]) < 2:
toClose.add(f)
for f in toClose:
filedescs[f].close()
del filedescs[f]
def getFeatures(self):
features = dict()
features['name'] = self.conflicts
features['sum'] = self.checksums
for statName in DatabaseFile.RELEVANT_STATS:
# Rounding beause I Syncthing also rounds
features[statName] = [
int(stat.__getattribute__(statName)) for stat in self.stats]
return features
def getDiffFeatures(self):
features = self.getFeatures()
diffFeatures = dict()
for key, vals in features.items():
if len(set(vals)) > 1:
diffFeatures[key] = vals
return diffFeatures
@staticmethod
def shortConflict(conflict):
match = Database.CONFLICT_PATTERN.search(conflict)
if match:
return match[0][15:]
else:
return '-'
def printInfos(self, diff=True):
print(os.path.join(self.root, self.filename))
if diff:
features = self.getDiffFeatures()
else:
features = self.getFeatures()
features['name'] = [DatabaseFile.shortConflict(
c) for c in self.conflicts]
table = Table(len(features), len(self.conflicts)+1)
for x, featureName in enumerate(features.keys()):
table.set(x, 0, featureName)
for x, featureName in enumerate(features.keys()):
for y in range(len(self.conflicts)):
table.set(x, y+1, features[featureName][y])
table.print()
def decideAction(self, mostRecent=False):
# TODO More arguments for choosing
reason = "undecided"
self.action = None
if len(self.conflicts) == 1:
self.action = 0
reason = "only file"
else:
features = self.getDiffFeatures()
if len(features) == 1:
reason = "same files"
self.action = 0
elif 'st_mtime' in features and mostRecent:
recentTime = features['st_mtime'][0]
recentIndex = 0
for index, time in enumerate(features['st_mtime']):
if time > recentTime:
recentTime = time
recentIndex = 0
self.action = recentIndex
reason = "most recent"
if self.action is None:
log.warning(
f"{self.root}/{self.filename}: skip, cause: {reason}")
else:
log.info(
f"{self.root}/{self.filename}: keep {DatabaseFile.shortConflict(self.conflicts[self.action])}, cause: {reason}")
def takeAction(self, execute=False):
if self.action is None:
return
actionName = self.conflicts[self.action]
if actionName != self.filename:
log.debug(
f"Rename {self.getPath(actionName)} → {self.getPath(self.filename)}")
if execute:
os.rename(self.getPath(actionName), self.getPath(self.filename))
for conflict in self.conflicts:
if conflict is actionName:
continue
log.debug(f"Delete {self.getPath(conflict)}")
if execute:
os.unlink(self.getPath(conflict))
if __name__ == "__main__":
parser = argparse.ArgumentParser(
description="Handle Syncthing's .sync-conflict files ")
# Execution flow
parser.add_argument('directory', metavar='DIRECTORY',
nargs='?', help='Directory to analyse')
parser.add_argument('-d', '--database',
help='Database path for file informations')
parser.add_argument('-r', '--most-recent', action='store_true',
help='Always keep the most recent version')
parser.add_argument('-e', '--execute', action='store_true',
help='Really apply changes')
parser.add_argument('-p', '--print', action='store_true',
help='Only print differences between files')
args = parser.parse_args()
# Argument default values attribution
if args.directory is None:
args.directory = os.curdir
args.directory = os.path.realpath(args.directory)
# Create / load the database
database = None
if args.database:
if os.path.isfile(args.database):
try:
with open(args.database, 'rb') as databaseFile:
database = pickle.load(databaseFile)
assert isinstance(database, Database)
except BaseException as e:
raise ValueError("Not a database file")
assert database.version <= Database.VERSION, "Version of the loaded database is too recent"
assert database.directory == args.directory, "Directory of the loaded database doesn't match"
if database is None:
database = Database(args.directory)
def saveDatabase():
if args.database:
global database
with open(args.database, 'wb') as databaseFile:
pickle.dump(database, databaseFile)
database.getList()
saveDatabase()
database.getStats()
saveDatabase()
database.getChecksums()
saveDatabase()
if args.print:
database.printDifferences()
else:
database.takeAction(mostRecent=args.most_recent, execute=args.execute)