#!/usr/bin/python # hardlink - Goes through a directory structure and creates hardlinks for # files which are identical. # # Copyright (C) 2003 - 2010 John L. Villalovos, Hillsboro, Oregon # # This program is free software; you can redistribute it and/or modify it under # the terms of the GNU General Public License as published by the Free Software # Foundation; either version 2 of the License, or (at your option) any later # version. # # This program is distributed in the hope that it will be useful, but WITHOUT # ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or # FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for # more details. # # You should have received a copy of the GNU General Public License along # with this program; if not, write to the Free Software Foundation, Inc., 59 # Temple Place, Suite 330, Boston, MA 02111-1307, USA. # # # ------------------------------------------------------------------------ # John Villalovos # email: john@sodarock.com # http://www.sodarock.com/ # # Inspiration for this program came from the hardlink.c code. I liked what it # did but did not like the code itself, to me it was very unmaintainable. So I # rewrote in C++ and then I rewrote it in python. In reality this code is # nothing like the original hardlink.c, since I do things quite differently. # Even though this code is written in python the performance of the python # version is much faster than the hardlink.c code, in my limited testing. This # is mainly due to use of different algorithms. # # Original inspirational hardlink.c code was written by: Jakub Jelinek # # # ------------------------------------------------------------------------ # # TODO: # * Thinking it might make sense to walk the entire tree first and collect # up all the file information before starting to do comparisons. Thought # here is we could find all the files which are hardlinked to each other # and then do a comparison. If they are identical then hardlink # everything at once. import os import re import stat import sys import time from optparse import OptionParser # Hash functions # Create a hash from a file's size and time values def hash_size_time(size, time): return (size ^ time) & (MAX_HASHES - 1); def hash_size(size): return (size) & (MAX_HASHES - 1); def hash_value(size, time, notimestamp): if notimestamp: return hash_size(size) else: return hash_size_time(size,time) # If two files have the same inode and are on the same device then they are # already hardlinked. def is_already_hardlinked( st1, # first file's status st2 ): # second file's status result = ( (st1[stat.ST_INO] == st2[stat.ST_INO]) and # Inodes equal (st1[stat.ST_DEV] == st2[stat.ST_DEV]) # Devices equal ); return result # Determine if a file is eligibile for hardlinking. Files will only be # considered for hardlinking if this function returns true. def eligible_for_hardlink( st1, # first file's status st2, # second file's status options): result = ( # Must meet the following # criteria: (not is_already_hardlinked(st1, st2)) and # NOT already hard linked (st1[stat.ST_SIZE] == st2[stat.ST_SIZE]) and # size is the same (st1[stat.ST_SIZE] != 0 ) and # size is not zero ((st1[stat.ST_MODE] == st2[stat.ST_MODE]) or (options.contentonly)) and # file mode is the same ((st1[stat.ST_UID] == st2[stat.ST_UID]) or # owner user id is the same (options.contentonly)) and # OR we are comparing content only ((st1[stat.ST_GID] == st2[stat.ST_GID]) or # owner group id is the same (options.contentonly)) and # OR we are comparing content only ((st1[stat.ST_MTIME] == st2[stat.ST_MTIME]) or # modified time is the same (options.notimestamp) or # OR date hashing is off (options.contentonly)) and # OR we are comparing content only (st1[stat.ST_DEV] == st2[stat.ST_DEV]) # device is the same ) if None: # if not result: print "\n***\n", st1 print st2 print "Already hardlinked: %s" % (not is_already_hardlinked(st1, st2)) print "Modes:", st1[stat.ST_MODE], st2[stat.ST_MODE] print "UIDs:", st1[stat.ST_UID], st2[stat.ST_UID] print "GIDs:", st1[stat.ST_GID], st2[stat.ST_GID] print "SIZE:", st1[stat.ST_SIZE], st2[stat.ST_SIZE] print "MTIME:", st1[stat.ST_MTIME], st2[stat.ST_MTIME] print "Ignore date:", options.notimestamp print "Device:", st1[stat.ST_DEV], st2[stat.ST_DEV] return result def are_file_contents_equal(filename1, filename2, options): """Determine if the contents of two files are equal. **!! This function assumes that the file sizes of the two files are equal.""" # Open our two files file1 = open(filename1,'rb') file2 = open(filename2,'rb') # Make sure open succeeded if not (file1 and file2): print "Error opening file in are_file_contents_equal" print "Was attempting to open:" print "file1: %s" % filename1 print "file2: %s" % filename2 result = False else: if options.verbose >= 1: print "Comparing: %s" % filename1 print " to : %s" % filename2 buffer_size = 1024*1024 while 1: buffer1 = file1.read(buffer_size) buffer2 = file2.read(buffer_size) if buffer1 != buffer2: result = False break if not buffer1: result = True break gStats.did_comparison() return result # Determines if two files should be hard linked together. def are_files_hardlinkable(file_info_1, file_info_2, options): filename1 = file_info_1[0] stat_info_1 = file_info_1[1] filename2 = file_info_2[0] stat_info_2 = file_info_2[1] # See if the files are eligible for hardlinking if eligible_for_hardlink(stat_info_1, stat_info_2, options): # Now see if the contents of the file are the same. If they are then # these two files should be hardlinked. if not options.samename: # By default we don't care if the filenames are equal result = are_file_contents_equal(filename1, filename2, options) else: # Make sure the filenames are the same, if so then compare content basename1 = os.path.basename(filename1) basename2 = os.path.basename(filename2) if basename1 == basename2: result = are_file_contents_equal(filename1, filename2, options) else: result = False else: result = False return result # Hardlink two files together def hardlink_files(sourcefile, destfile, stat_info, options): # rename the destination file to save it temp_name = destfile + ".$$$___cleanit___$$$" try: if not options.dryrun: os.rename(destfile, temp_name) except OSError, error: print "Failed to rename: %s to %s" % (destfile, temp_name) print error result = False else: # Now link the sourcefile to the destination file try: if not options.dryrun: os.link(sourcefile, destfile) except: print "Failed to hardlink: %s to %s" % (sourcefile, destfile) # Try to recover try: os.rename(temp_name, destfile) except: print "BAD BAD - failed to rename back %s to %s" (temp_name, destfile) result = False else: # hard link succeeded # Delete the renamed version since we don't need it. if not options.dryrun: os.unlink ( temp_name) # Update timestamp touch(sourcefile) # update our stats gStats.did_hardlink(sourcefile, destfile, stat_info) if options.verbose >= 1: if options.dryrun: print "Did NOT link. Dry run" size = stat_info[stat.ST_SIZE] print "Linked: %s" % sourcefile print" to: %s, saved %s" % (destfile, size) result = True return result def hardlink_identical_files(directories, filename, options): """ The purpose of this function is to hardlink files together if the files are the same. To be considered the same they must be equal in the following criteria: * file size * file contents * file mode (default) * owner user id (default) * owner group id (default) * modified time (default) Also, files will only be hardlinked if they are on the same device. This is because hardlink does not allow you to hardlink across file systems. The basic idea on how this is done is as follows: Walk the directory tree building up a list of the files. For each file, generate a simple hash based on the size and modified time. For any other files which share this hash make sure that they are not identical to this file. If they are identical then hardlink the files. Add the file info to the list of files that have the same hash value.""" for exclude in options.excludes: if re.search(exclude, filename): return try: stat_info = os.stat(filename) except OSError: # Python 1.5.2 doesn't handle 2GB+ files well :( print "Unable to get stat info for: %s" % filename print "If running Python 1.5 this could be because the file is greater than 2 Gibibytes" return if not stat_info: # We didn't get the file status info :( return # Is it a directory? if stat.S_ISDIR(stat_info[stat.ST_MODE]): # If it is a directory then add it to the list of directories. directories.append(filename) # Is it a regular file? elif stat.S_ISREG(stat_info[stat.ST_MODE]): # Create the hash for the file. file_hash = hash_value(stat_info[stat.ST_SIZE], stat_info[stat.ST_MTIME], options.notimestamp or options.contentonly) # Bump statistics count of regular files found. gStats.found_regular_file() if options.verbose >= 2: print "File: %s" % filename work_file_info = (filename, stat_info) if file_hashes.has_key(file_hash): # We have file(s) that have the same hash as our current file. # Let's go through the list of files with the same hash and see if # we are already hardlinked to any of them. for (temp_filename,temp_stat_info) in file_hashes[file_hash]: if is_already_hardlinked(stat_info,temp_stat_info): gStats.found_hardlink(temp_filename,filename, temp_stat_info) break else: # We did not find this file as hardlinked to any other file # yet. So now lets see if our file should be hardlinked to any # of the other files with the same hash. for (temp_filename,temp_stat_info) in file_hashes[file_hash]: if are_files_hardlinkable(work_file_info, (temp_filename, temp_stat_info), options): hardlink_files(temp_filename, filename, temp_stat_info, options) break else: # The file should NOT be hardlinked to any of the other # files with the same hash. So we will add it to the list # of files. file_hashes[file_hash].append(work_file_info) else: # There weren't any other files with the same hash value so we will # create a new entry and store our file. file_hashes[file_hash] = [work_file_info] class cStatistics: def __init__(self): self.dircount = 0L # how many directories we find self.regularfiles = 0L # how many regular files we find self.comparisons = 0L # how many file content comparisons self.hardlinked_thisrun = 0L # hardlinks done this run self.hardlinked_previously = 0L; # hardlinks that are already existing self.bytes_saved_thisrun = 0L # bytes saved by hardlinking this run self.bytes_saved_previously = 0L # bytes saved by previous hardlinks self.hardlinkstats = [] # list of files hardlinked this run self.starttime = time.time() # track how long it takes self.previouslyhardlinked = {} # list of files hardlinked previously def found_directory(self): self.dircount = self.dircount + 1 def found_regular_file(self): self.regularfiles = self.regularfiles + 1 def did_comparison(self): self.comparisons = self.comparisons + 1 def found_hardlink(self,sourcefile, destfile, stat_info): filesize = stat_info[stat.ST_SIZE] self.hardlinked_previously = self.hardlinked_previously + 1 self.bytes_saved_previously = self.bytes_saved_previously + filesize if not self.previouslyhardlinked.has_key(sourcefile): self.previouslyhardlinked[sourcefile] = (stat_info,[destfile]) else: self.previouslyhardlinked[sourcefile][1].append(destfile) def did_hardlink(self,sourcefile,destfile,stat_info): filesize = stat_info[stat.ST_SIZE] self.hardlinked_thisrun = self.hardlinked_thisrun + 1 self.bytes_saved_thisrun = self.bytes_saved_thisrun + filesize self.hardlinkstats.append((sourcefile, destfile)) def print_stats(self, options): print "\n" print "Hard linking Statistics:" # Print out the stats for the files we hardlinked, if any if self.previouslyhardlinked and options.printprevious: keys = self.previouslyhardlinked.keys() keys.sort() print "Files Previously Hardlinked:" for key in keys: stat_info, file_list = self.previouslyhardlinked[key] size = stat_info[stat.ST_SIZE] print "Hardlinked together: %s" % key for filename in file_list: print " : %s" % filename print "Size per file: %s Total saved: %s" % (size, size * len(file_list)) print if self.hardlinkstats: if options.dryrun: print "Statistics reflect what would have happened if not a dry run" print "Files Hardlinked this run:" for (source,dest) in self.hardlinkstats: print"Hardlinked: %s" % source print" to: %s" % dest print print "Directories : %s" % self.dircount print "Regular files : %s" % self.regularfiles print "Comparisons : %s" % self.comparisons print "Hardlinked this run : %s" % self.hardlinked_thisrun print "Total hardlinks : %s" % (self.hardlinked_previously + self.hardlinked_thisrun) print "Bytes saved this run : %s (%s)" % (self.bytes_saved_thisrun, humanize_number(self.bytes_saved_thisrun)) totalbytes = self.bytes_saved_thisrun + self.bytes_saved_previously; print "Total bytes saved : %s (%s)" % (totalbytes, humanize_number(totalbytes)) print "Total run time : %s seconds" % (time.time() - self.starttime) def humanize_number( number ): if number > 1024 ** 3: return ("%.3f gibibytes" % (number / (1024.0 ** 3))) if number > 1024 ** 2: return ("%.3f mebibytes" % (number / (1024.0 ** 2))) if number > 1024: return ("%.3f kibibytes" % (number / 1024.0)) return ("%d bytes" % number) def touch(fname, times = None): fhandle = file(fname, 'a') try: os.utime(fname, times) finally: fhandle.close() def printversion(self): print "hardlink.py, Version %s" % VERSION print "Copyright (C) 2003 - 2010 John L. Villalovos." print "email: software@sodarock.com" print "web: http://www.sodarock.com/" print """ This program is free software; you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation; version 2 of the License. This program is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for more details. You should have received a copy of the GNU General Public License along with this program; if not, write to the Free Software Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307, USA. """ def parse_command_line(): usage = "usage: %prog [options] directory [ directory ... ]" version = "%prog: " + VERSION parser = OptionParser(usage=usage, version=version) parser.add_option("-f", "--filenames-equal", help="Filenames have to be identical", action="store_true", dest="samename", default=False,) parser.add_option("-n", "--dry-run", help="Do NOT actually hardlink files", action="store_true", dest="dryrun", default=False,) parser.add_option("-p", "--print-previous", help="Print previously created hardlinks", action="store_true", dest="printprevious", default=False,) parser.add_option("-q", "--no-stats", help="Do not print the statistics", action="store_false", dest="printstats", default=True,) parser.add_option("-t", "--timestamp-ignore", help="File modification times do NOT have to be identical", action="store_true", dest="notimestamp", default=False,) parser.add_option("-c", "--content-only", help="Only file contents have to match", action="store_true", dest="contentonly", default=False,) parser.add_option("-v", "--verbose", help="Verbosity level (default: %default)", metavar="LEVEL", action="store", dest="verbose", type="int", default=1,) parser.add_option("-x", "--exclude", help="Regular expression used to exclude files/dirs (may specify multiple times)", metavar="REGEX", action="append", dest="excludes", default=[],) (options, args) = parser.parse_args() if not args: parser.print_help() print print "Error: Must supply one or more directories" sys.exit(1) args = [os.path.abspath(os.path.expanduser(dirname)) for dirname in args] for dirname in args: if not os.path.isdir(dirname): parser.print_help() print print "Error: %s is NOT a directory" % dirname sys.exit(1) return options, args # Start of global declarations debug = None debug1 = None MAX_HASHES = 128 * 1024 gStats = cStatistics() file_hashes = {} VERSION = "0.05 - 2010-01-07 (07-Jan-2010)" def main(): # Parse our argument list and get our list of directories options, directories = parse_command_line() # Compile up our regexes ahead of time MIRROR_PL_REGEX = re.compile(r'^\.in\.') RSYNC_TEMP_REGEX = re.compile((r'^\..*\.\?{6,6}$')) # Now go through all the directories that have been added. # NOTE: hardlink_identical_files() will add more directories to the # directories list as it finds them. while directories: # Get the last directory in the list directory = directories[-1] + '/' del directories[-1] if not os.path.isdir(directory): print "%s is NOT a directory!" % directory else: gStats.found_directory() # Loop through all the files in the directory try: dir_entries = os.listdir(directory) except OSError: print "Error: Unable to do an os.listdir on: %s Skipping..." % directory continue for entry in dir_entries: pathname = os.path.normpath(os.path.join(directory,entry)) # Look at files/dirs beginning with "." if entry[0] == ".": # Ignore any mirror.pl files. These are the files that # start with ".in." if MIRROR_PL_REGEX.match(entry): continue # Ignore any RSYNC files. These are files that have the # format .FILENAME.?????? if RSYNC_TEMP_REGEX.match(entry): continue if os.path.islink(pathname): if debug1: print "%s: is a symbolic link, ignoring" % pathname continue if debug1 and os.path.isdir(pathname): print "%s is a directory!" % pathname hardlink_identical_files(directories, pathname, options) if options.printstats: gStats.print_stats(options) if __name__ == '__main__': main()