import os from string import atoi import md5 from random import randint from Products.qPloneCaptchas.data import basic_english from Products.qPloneCaptchas.config import * from DateTime import DateTime import re import math try: import Crypto.Cipher.DES as Crypto except: import Crypto def encrypt1(s): return md5.new(s).hexdigest().upper() def getTransform(x, y, a, p, o): return (math.sin( (y+o[0])*p )*a + x, math.sin( (x+o[1])*p )*a + y) def gen_captcha(**kwargs): """Generate a captcha image""" import ImageFile import Image import ImageFont import ImageDraw import ImageFilter import random from PIL import ImageFile as pyImageFile import sys sys.modules['ImageFile'] = pyImageFile from cStringIO import StringIO text = kwargs.get('text', None) fnt_sz = kwargs.get('size', DEFAULT_IMAGE_SIZE) bkground = kwargs.get('bkground', DEFAULT_BG) font_color = kwargs.get('font_color', DEFAULT_FONT_COLOR) distortion = kwargs.get('distortion', DEFAULT_DISTORTION) period = distortion[0] amplitude = distortion[1] offset = distortion[2] outFile = StringIO() DATA_PATH = os.path.abspath(os.path.dirname(__file__)) + '/data' FONT_PATH = DATA_PATH + '/fonts' #select font for captcha text ALL_FONTS=('Bd', 'It', 'MoBI', 'Mono', 'Se', 'BI', 'MoBd', 'MoIt', 'SeBd', '') rand_font = random.choice(ALL_FONTS) font = ImageFont.truetype(FONT_PATH+'/vera/Vera%s.ttf'%rand_font, fnt_sz) textSize = font.getsize(text) #------------------------------render background1 ----------------------- image = Image.new('RGB', (textSize[0]+7,textSize[1]+7), bkground) image.paste(bkground) #------------------------------render Text2 ------------------------ draw = ImageDraw.Draw(image) alignment = (random.uniform(0,1), random.uniform(0,1)) x = int((image.size[0] - textSize[0]) * alignment[0] + 0.5) y = int((image.size[1] - textSize[1]) * alignment[1] + 0.5) draw.text((x,y), text, font=font, fill=font_color) #------------------------------render Distortion ----------------------- r = 1 xPoints = image.size[0] / r + 2 yPoints = image.size[1] / r + 2 # Create a list of arrays with transformed points xRows = [] yRows = [] for j in xrange(yPoints): xRow = [] yRow = [] for i in xrange(xPoints): x, y = getTransform(i*r, j*r, amplitude, period, offset) # Clamp the edges so we don't get black undefined areas x = max(0, min(image.size[0]-1, x)) y = max(0, min(image.size[1]-1, y)) xRow.append(x) yRow.append(y) xRows.append(xRow) yRows.append(yRow) # Create the mesh list, with a transformation for # each square between points on the grid mesh = [] for j in xrange(yPoints-1): for i in xrange(xPoints-1): mesh.append(( # Destination rectangle (i*r, j*r, (i+1)*r, (j+1)*r), # Source quadrilateral (xRows[j ][i ], yRows[j ][i ], xRows[j+1][i ], yRows[j+1][i ], xRows[j+1][i+1], yRows[j+1][i+1], xRows[j ][i+1], yRows[j ][i+1]), )) img = image.transform(image.size, Image.MESH, mesh, Image.BILINEAR) # save the image to a file img.save(outFile, format='jpeg') outFile.seek(0) src = outFile.read() size = len(src) sys.modules['ImageFile'] = ImageFile return {'src':src, 'size':size} def getWord(index): words = basic_english.words.split() return words[index] def getIndex(word): words = basic_english.words.split() try: res = words.index(word) except ValueError: res = getLen()+1 return res def getCaptchasCount(havePIL): def getLen(): return len(basic_english.words.split()) return havePIL and getLen() or CAPTCHAS_COUNT def formKey(num): def normalize(s): return (not len(s)%8 and s) or normalize(s+str(randint(0, 9))) return normalize('%s_%i_'%(str(DateTime().timeTime()), num)) def encrypt(key, s): return toHex(Crypto.new(key).encrypt(s)) def decrypt(key, s): return Crypto.new(key).decrypt(toStr(s)) def parseKey(s): ps = re.match('^(.+?)_(.+?)_', s) return {'date': ps.group(1), 'key':ps.group(2)} def toHex(s): lst = [] for ch in s: hv = hex(ord(ch)).replace('0x', '') if len(hv) == 1: hv = '0'+hv lst.append(hv) return reduce(lambda x,y:x+y, lst) def toStr(s): return s and chr(atoi(s[:2], base=16)) + toStr(s[2:]) or ''