mirror of
https://gerrit.wikimedia.org/r/mediawiki/extensions/ConfirmEdit
synced 2024-11-23 15:56:50 +00:00
db06ec876b
Bug: T277936 Change-Id: I8e758023b38a4d450a0bf02b3bfc0b5033959be7
300 lines
10 KiB
Python
300 lines
10 KiB
Python
#!/usr/bin/python3
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#
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# Script to generate distorted text images for a captcha system.
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#
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# Copyright (C) 2005 Neil Harris
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#
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# This program is free software; you can redistribute it and/or modify
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# it under the terms of the GNU General Public License as published by
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# the Free Software Foundation; either version 2 of the License, or
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# (at your option) any later version.
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#
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# This program is distributed in the hope that it will be useful,
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# but WITHOUT ANY WARRANTY; without even the implied warranty of
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# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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# GNU General Public License for more details.
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#
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# You should have received a copy of the GNU General Public License along
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# with this program; if not, write to the Free Software Foundation, Inc.,
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# 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA.
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# http://www.gnu.org/copyleft/gpl.html
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#
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# Further tweaks by Brion Vibber <brion@pobox.com>:
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# 2006-01-26: Add command-line options for the various parameters
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# 2007-02-19: Add --dirs param for hash subdirectory splits
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# Tweaks by Greg Sabino Mullane <greg@turnstep.com>:
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# 2008-01-06: Add regex check to skip words containing other than a-z
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import random
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import math
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import hashlib
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from optparse import OptionParser
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import os
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import sys
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import re
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import multiprocessing
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import time
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try:
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from PIL import Image
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from PIL import ImageFont
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from PIL import ImageDraw
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from PIL import ImageEnhance
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from PIL import ImageOps
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from PIL import ImageMath
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except:
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sys.exit("This script requires the Python Imaging Library - http://www.pythonware.com/products/pil/")
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nonalpha = re.compile('[^a-z]') # regex to test for suitability of words
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# Does X-axis wobbly copy, sandwiched between two rotates
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def wobbly_copy(src, wob, col, scale, ang):
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x, y = src.size
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f = random.uniform(4*scale, 5*scale)
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p = random.uniform(0, math.pi*2)
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rr = ang+random.uniform(-10, 10) # vary, but not too much
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int_d = Image.new('RGB', src.size, 0) # a black rectangle
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rot = src.rotate(rr, Image.BILINEAR)
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# Do a cheap bounding-box op here to try to limit work below
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bbx = rot.getbbox()
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if bbx == None:
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return src
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else:
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l, t, r, b= bbx
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# and only do lines with content on
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for i in range(t, b+1):
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# Drop a scan line in
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xoff = int(math.sin(p+(i*f/y))*wob)
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xoff += int(random.uniform(-wob*0.5, wob*0.5))
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int_d.paste(rot.crop((0, i, x, i+1)), (xoff, i))
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# try to stop blurring from building up
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int_d = int_d.rotate(-rr, Image.BILINEAR)
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enh = ImageEnhance.Sharpness(int_d)
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return enh.enhance(2)
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def gen_captcha(text, fontname, fontsize, file_name):
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"""Generate a captcha image"""
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# white text on a black background
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bgcolor = 0x0
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fgcolor = 0xffffff
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# create a font object
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font = ImageFont.truetype(fontname,fontsize)
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# determine dimensions of the text
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dim = font.getsize(text)
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# create a new image significantly larger that the text
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edge = max(dim[0], dim[1]) + 2*min(dim[0], dim[1])
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im = Image.new('RGB', (edge, edge), bgcolor)
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d = ImageDraw.Draw(im)
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x, y = im.size
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# add the text to the image
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d.text((x/2-dim[0]/2, y/2-dim[1]/2), text, font=font, fill=fgcolor)
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k = 2
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wob = 0.09*dim[1]
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rot = 45
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# Apply lots of small stirring operations, rather than a few large ones
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# in order to get some uniformity of treatment, whilst
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# maintaining randomness
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for i in range(k):
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im = wobbly_copy(im, wob, bgcolor, i*2+3, rot+0)
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im = wobbly_copy(im, wob, bgcolor, i*2+1, rot+45)
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im = wobbly_copy(im, wob, bgcolor, i*2+2, rot+90)
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rot += 30
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# now get the bounding box of the nonzero parts of the image
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bbox = im.getbbox()
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bord = min(dim[0], dim[1])/4 # a bit of a border
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im = im.crop((bbox[0]-bord, bbox[1]-bord, bbox[2]+bord, bbox[3]+bord))
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# Create noise
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nblock = 4
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nsize = (im.size[0] // nblock, im.size[1] // nblock)
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noise = Image.new('L', nsize, bgcolor)
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data = noise.load()
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for x in range(nsize[0]):
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for y in range(nsize[1]):
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r = random.randint(0, 65)
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gradient = 70 * x // nsize[0]
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data[x, y] = r + gradient
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# Turn speckles into blobs
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noise = noise.resize(im.size, Image.BILINEAR)
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# Add to the image
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im = ImageMath.eval('convert(convert(a, "L") / 3 + b, "RGB")', a=im, b=noise)
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# and turn into black on white
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im = ImageOps.invert(im)
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# save the image, in format determined from filename
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im.save(file_name)
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def gen_subdir(basedir, md5hash, levels):
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"""Generate a subdirectory path out of the first _levels_
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characters of _hash_, and ensure the directories exist
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under _basedir_."""
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subdir = None
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for i in range(0, levels):
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char = md5hash[i]
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if subdir:
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subdir = os.path.join(subdir, char)
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else:
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subdir = char
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fulldir = os.path.join(basedir, subdir)
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if not os.path.exists(fulldir):
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os.mkdir(fulldir)
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return subdir
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def try_pick_word(words, badwordlist, verbose, nwords, min_length, max_length):
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if words is not None:
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word = words[random.randint(0,len(words)-1)]
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while nwords > 1:
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word2 = words[random.randint(0,len(words)-1)]
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word = word + word2
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nwords = nwords - 1
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else:
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word = ''
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max_length = max_length if max_length > 0 else 10
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for i in range(0, random.randint(min_length, max_length)):
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word = word + chr(97 + random.randint(0,25))
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if verbose:
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print("word is %s" % word)
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if len(word) < min_length:
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if verbose:
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print("skipping word pair '%s' because it has fewer than %d characters" % (word, min_length))
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return None
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if max_length > 0 and len(word) > max_length:
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if verbose:
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print("skipping word pair '%s' because it has more than %d characters" % (word, max_length))
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return None
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if nonalpha.search(word):
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if verbose:
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print("skipping word pair '%s' because it contains non-alphabetic characters" % word)
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return None
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for naughty in badwordlist:
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if naughty in word:
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if verbose:
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print("skipping word pair '%s' because it contains word '%s'" % (word, naughty))
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return None
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return word
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def pick_word(words, badwordlist, verbose, nwords, min_length, max_length):
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for x in range(1000): # If we can't find a valid combination in 1000 tries, just give up
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word = try_pick_word(words, badwordlist, verbose, nwords, min_length, max_length)
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if word:
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return word
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sys.exit("Unable to find valid word combinations")
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def read_wordlist(filename):
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f = open(filename)
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words = [x.strip().lower() for x in f.readlines()]
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f.close()
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return words
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def run_in_thread(object):
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count = object[0];
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words = object[1]
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badwordlist = object[2]
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opts = object[3]
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font = object[4]
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fontsize = object[5]
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for i in range(count):
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word = pick_word(words, badwordlist, verbose, opts.number_words, opts.min_length, opts.max_length)
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salt = "%08x" % random.randrange(2**32)
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# 64 bits of hash is plenty for this purpose
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md5hash = hashlib.md5((key+salt+word+key+salt).encode('utf-8')).hexdigest()[:16]
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filename = "image_%s_%s.png" % (salt, md5hash)
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if dirs:
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subdir = gen_subdir(output, md5hash, dirs)
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filename = os.path.join(subdir, filename)
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if verbose:
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print(filename)
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gen_captcha(word, font, fontsize, os.path.join(output, filename))
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if __name__ == '__main__':
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"""This grabs random words from the dictionary 'words' (one
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word per line) and generates a captcha image for each one,
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with a keyed salted hash of the correct answer in the filename.
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To check a reply, hash it in the same way with the same salt and
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secret key, then compare with the hash value given.
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"""
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script_dir = os.path.dirname(os.path.realpath(__file__))
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parser = OptionParser()
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parser.add_option("--wordlist", help="A list of words (required)", metavar="WORDS.txt")
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parser.add_option("--random", help="Use random characters instead of a wordlist", action="store_true")
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parser.add_option("--key", help="The passphrase set as $wgCaptchaSecret (required)", metavar="KEY")
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parser.add_option("--output", help="The directory to put the images in - $wgCaptchaDirectory (required)", metavar="DIR")
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parser.add_option("--font", help="The font to use (required)", metavar="FONT.ttf")
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parser.add_option("--font-size", help="The font size (default 40)", metavar="N", type='int', default=40)
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parser.add_option("--count", help="The maximum number of images to make (default 20)", metavar="N", type='int', default=20)
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parser.add_option("--badwordlist", help="A list of words that should not be used", metavar="FILE", default=os.path.join(script_dir, "badwordlist"))
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parser.add_option("--blacklist", help="DEPRECATED: list of words that should not be used", metavar="FILE", default=os.path.join(script_dir, "blacklist"))
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parser.add_option("--fill", help="Fill the output directory to contain N files, overrides count, cannot be used with --dirs", metavar="N", type='int')
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parser.add_option("--dirs", help="Put the images into subdirectories N levels deep - $wgCaptchaDirectoryLevels", metavar="N", type='int')
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parser.add_option("--verbose", "-v", help="Show debugging information", action='store_true')
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parser.add_option("--number-words", help="Number of words from the wordlist which make a captcha challenge (default 2)", type='int', default=2)
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parser.add_option("--min-length", help="Minimum length for a captcha challenge", type='int', default=1)
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parser.add_option("--max-length", help="Maximum length for a captcha challenge", type='int', default=-1)
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parser.add_option("--threads", help="Maximum number of threads to be used to generate captchas.", type='int', default=1)
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opts, args = parser.parse_args()
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if opts.wordlist:
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wordlist = opts.wordlist
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elif opts.random:
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wordlist = None
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else:
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sys.exit("Need to specify a wordlist")
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if opts.key:
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key = opts.key
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else:
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sys.exit("Need to specify a key")
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if opts.output:
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output = opts.output
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else:
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sys.exit("Need to specify an output directory")
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if opts.font and os.path.exists(opts.font):
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font = opts.font
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else:
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sys.exit("Need to specify the location of a font")
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badwordlist = read_wordlist(opts.blacklist) + read_wordlist(opts.badwordlist)
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count = opts.count
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fill = opts.fill
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dirs = opts.dirs
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verbose = opts.verbose
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fontsize = opts.font_size
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threads = opts.threads
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if fill:
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count = max(0, fill - len(os.listdir(output)))
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words = None
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if wordlist:
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words = read_wordlist(wordlist)
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words = [x for x in words
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if len(x) in (4,5) and x[0] != "f"
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and x[0] != x[1] and x[-1] != x[-2]]
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if count == 0:
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sys.exit("No need to generate CAPTCHA images.")
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if count < threads:
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chunks = 1
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threads = 1
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else:
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chunks = (count // threads)
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p = multiprocessing.Pool(threads);
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data = []
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print("Generating %s CAPTCHA images separated in %s image(s) per chunk run by %s threads..." % (count, chunks, threads))
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for i in range(0, threads):
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data.append([chunks, words, badwordlist, opts, font, fontsize])
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p.map(run_in_thread, data)
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