def init_captcha():
    dice = SystemRandom()
    normalset, oddballset = dice.sample(current_app.captcha_data, 2)
    normals = dice.sample(normalset, NORMALS)
    oddballs = dice.sample(oddballset - normalset, ODDBALLS)
    united = normals + oddballs
    dice.shuffle(united)
    challenge = ' '.join(united)
    expiry = datetime.today() + AUTHENTICATION_TIME
    session['captcha-answer'] = map(lambda s: s.lower(), oddballs)
    session['captcha-expires'] = expiry
    if 'captcha-quarantine' in session:
        del session['captcha-quarantine']
        session.modified = True
    return {'captcha_expires': str(expiry), 'captcha_challenge': challenge}
Beispiel #2
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	def new_password(self, user, passhash):
		"""
		Return new random password
		"""
		chars = '23456qwertasdfgzxcvbQWERTASDFGZXCVB789yuiophjknmYUIPHJKLNM'
		r = SystemRandom()
		return ''.join(r.sample(chars, 8))
Beispiel #3
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 def __init__(self, length=16):
     rand = SystemRandom()
     rand_chars = rand.sample(RandomString.charsets,length)
     self.generated_string = "".join(rand_chars)
     
     m = hashlib.md5()
     m.update(self.generated_string)
     self.md5 = m.digest()
Beispiel #4
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def generate_password(wordcount, words):
    """Takes a dictionary of words, and selects a password.
    The password has the number of words equal to 'wordcount'.
    The words are separated by spaces."""

    from random import SystemRandom
    rand = SystemRandom()

    return reduce(lambda a, b: a + " " + b,
                  map(lambda key: words[key],
                      rand.sample(words, wordcount)))
    def __init__(self, secret, parts, subset_parts):
        if subset_parts >= parts:
            raise ValueError('Subset parts must be less or equal'
                             'than all parts count')

        rand = SystemRandom()
        parameters = rand.sample(list(range(1, secret)), subset_parts - 1)

        polynom = lambda x: secret + sum(c * (x**(i + 1))
                                         for i, c in enumerate(parameters))

        self.__subset_parts = subset_parts
        self.__points = [(x, polynom(x)) for x in range(1, parts + 1)]
def simple_dice(xs, ys):
    r = SystemRandom()

    x = remove_outliers(np.array(xs), 0, np.max(xs))
    y = remove_outliers(np.array(ys), 0, np.max(ys))

    x.sort()
    y.sort()

    nx = len(x)
    ny = len(y)

    darray = np.zeros(50)
    for i in xrange(0, 50):
        if nx < ny:
            xprime = x
            yprime = r.sample(y, nx)
            n = float(nx)
        else:
            xprime = r.sample(x, ny)
            yprime = y
            n = float(ny)
        xprime.sort()
        yprime.sort()
        darray[i] = kumar_hassebrook(xprime, yprime)

    mu = np.mean(darray)
    sigma = np.std(darray)

    conf_level = 0.99
    alpha = 1 - conf_level
    alpha = 1.0 - conf_level
    z_alpha_2 = norm.ppf(1 - (alpha / 2.0))

    e = z_alpha_2 * sigma / math.sqrt(len(darray))

    return mu + e
def simple_dice(xs, ys):
	r = SystemRandom()

	x = remove_outliers(np.array(xs), 0, np.max(xs))
	y = remove_outliers(np.array(ys), 0, np.max(ys))

	x.sort()
	y.sort()

	nx = len(x)
	ny = len(y)
	
	darray = np.zeros(50)
	for i in xrange(0,50):
		if nx < ny:
			xprime = x
			yprime = r.sample(y, nx)
			n = float(nx)
		else:
			xprime = r.sample(x, ny)
			yprime = y
			n = float(ny)
		xprime.sort()
		yprime.sort()
		darray[i] = kumar_hassebrook(xprime,yprime)
	
	mu = np.mean(darray)
	sigma = np.std(darray)

	conf_level = 0.99
	alpha = 1-conf_level
	alpha = 1.0 - conf_level
	z_alpha_2 = norm.ppf(1-(alpha/2.0))

	e = z_alpha_2 * sigma/math.sqrt(len(darray))

	return mu+e
Beispiel #8
0
def corrupt(source, dest, number=200):
    random = SystemRandom()
    sbuf = source.getbuffer()
    length = len(source.getvalue().decode('utf8',
                                          errors='replace').split('\n'))
    waitlist = set()
    for i in range(0, number):
        f = '/'.join([dest, '%03d.kif' % i])
        lines = set()
        for j in range(0, random.randint(0, int(length / 1000))):
            line = random.randint(1, length - j)
            lines.add('%dd' % line)
        deletes = ';'.join(lines)
        args = ['sed', deletes]
        popen = subprocess.Popen(args,
                                 stdin=subprocess.PIPE,
                                 stdout=subprocess.PIPE)
        stdout, _ = popen.communicate(sbuf)
        popen.wait()
        with open(f, 'w+b') as cur:
            cur.write(sbuf)
            cur.flush()
        if random.choice([True, False]):
            count = random.randint(1, 6)
            src = ''.join(random.sample(ALPHABET, count))
            dst = ''.join(random.sample(ALPHABET, count))
            args = ['sed', 'y/%s/%s/' % (src, dst)]
            cur = open(f, 'w+b')
            waitlist.add(
                (subprocess.Popen(args,
                                  stdin=subprocess.PIPE,
                                  stdout=subprocess.PIPE), cur, stdout))
        else:
            with open(f, 'w+b') as cur:
                cur.write(stdout)
                cur.flush()
    for proc, cur, content in waitlist:
        stdout, _ = proc.communicate(content)
        proc.wait()
        cur.write(stdout)
        cur.flush()
        cur.close()
Beispiel #9
0
 def __generate(self):
     random = SystemRandom()
     b, i, n, g, o = \
         [random.sample(list(range(x, (x * 15) + 1)), 5) for x in range(1, 6)]
     result = []
     for x in range(1, 26):
         if x == 13:  # free spot
             result.append(0)  # zero means 'opened'
             continue
         y = x % 5
         if y == 1:
             result.append(b.pop())
         elif y == 2:
             result.append(i.pop())
         elif y == 3:
             result.append(n.pop())
         elif y == 4:
             result.append(g.pop())
         elif y == 0:
             result.append(o.pop())
     return result
Beispiel #10
0
def simexp(nvars):
    nvar1 = nvars[0]
    nvar2 = nvars[1]

    r = SystemRandom()
    npr.seed(r.randint(0, 1e15))
    x = npr.exponential(30, nvar1)
    npr.seed(r.randint(0, 1e15))
    y = npr.exponential(35, nvar2)

    if False:
        x.sort()
        y.sort()

        darray = np.zeros(100)
        for i in xrange(0, 100):
            yprime = r.sample(y, len(x))
            yprime.sort()
            darray[i] = util.dice(x, yprime)
            return max_conf_est(darray, 0.99)

    return new_similarity_invcdf(x, y)
Beispiel #11
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class chall:
    def __init__(self, size, bits):
        self.rnd = SystemRandom()
        self.bits = bits
        self.size = size
        self.exp = self.rnd.sample(range(32, size - 1), bits)

    def get_rand_int(self):
        res = 2**(self.size - 1)

        for i in range(self.bits):
            if self.rnd.randint(0, 1) == 1:
                res += 2**self.exp[i]

        return res

    def get_prime(self):
        return int(next_prime(self.get_rand_int()))

    def get_key(self):
        p = self.get_prime()
        q = self.get_prime()
        e = 0x10001
        n = p * q
        phi = (p - 1) * (q - 1)
        d = inverse(e, phi)

        pubkey = (n, e)
        privkey = (n, e, d, p, q)

        return (pubkey, privkey)

    def encrypt(self, pt, pubkey):
        n, e = pubkey
        return pow(pt, e, n)

    def decrypt(self, ct, privkey):
        n, e, d, p, q = privkey
        return pow(ct, d, n)
Beispiel #12
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def simpareto(nvars):
    nvar1 = nvars[0]
    nvar2 = nvars[1]

    p1 = Pareto(2000.0, 2.0)
    p2 = Pareto(2000.0, 1.0)

    x = p1.rnd(nvar1)
    y = p2.rnd(nvar2)

    x.sort()
    y.sort()

    if False:
        r = SystemRandom()

        darray = np.zeros(100)
        for i in xrange(0, 100):
            yprime = r.sample(y, len(x))
            darray[i] = util.dice(x, yprime)
            return max_conf_est(darray, 0.99)

    return new_similarity_invcdf(x, y)
Beispiel #13
0
def simexp(nvars):
	nvar1 = nvars[0]
	nvar2 = nvars[1]

	r = SystemRandom()
	npr.seed(r.randint(0,1e15))
	x = npr.exponential(30, nvar1)
	npr.seed(r.randint(0,1e15))
	y = npr.exponential(35,nvar2)
	
	if False:
		x.sort()
		y.sort()
	
		darray = np.zeros(100)
		for i in xrange(0,100):
			yprime = r.sample(y, len(x))
			yprime.sort()
			darray[i] = util.dice(x,yprime)
			return max_conf_est(darray, 0.99)


	return new_similarity_invcdf(x,y)
Beispiel #14
0
def simpareto(nvars):
	nvar1 = nvars[0]
	nvar2 = nvars[1]

	p1 = Pareto(2000.0, 2.0)
	p2 = Pareto(2000.0, 1.0)

	x = p1.rnd(nvar1)
	y = p2.rnd(nvar2)

	x.sort()
	y.sort()
	
	if False:
		r = SystemRandom()

		darray = np.zeros(100)
		for i in xrange(0,100):
			yprime = r.sample(y, len(x))
			darray[i] = util.dice(x,yprime)
			return max_conf_est(darray, 0.99)

	return new_similarity_invcdf(x, y)
Beispiel #15
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def random_digit_string(length):
    cryptorandom = SystemRandom()
    randomlist = cryptorandom.sample(range(0, 9), length)

    return ''.join(str(x) for x in randomlist)
#!/bin/env python3

from string import ascii_uppercase as UC
from random import SystemRandom
from enigma.machine import EnigmaMachine
from secretstuff import FLAG, PLUGBOARD_SETTINGS

assert FLAG.isupper() # Without pbcft{...}
random = SystemRandom()

for _ in range(50):
    ROTORS = [random.choice(("I","II","III","IV","V","VI","VII","VIII")) for _ in range(3)]
    REFLECTOR = random.choice(("B", "C", "B-Thin", "C-Thin"))
    RING_SETTINGS = [random.randrange(26) for _ in range(3)]

    machine = EnigmaMachine.from_key_sheet(
           rotors=ROTORS,
           reflector=REFLECTOR,
           ring_settings=RING_SETTINGS,
           plugboard_settings=PLUGBOARD_SETTINGS)

    machine.set_display(''.join(random.sample(UC, 3)))

    ciphertext = machine.process_text(FLAG)

    print(ciphertext)
Beispiel #17
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def _generate_seed(count=15, allow_dups=True):
    wordList = (
        'abandon', 'ability', 'able', 'about', 'above', 'absent', 'absorb',
        'abstract', 'absurd', 'abuse', 'access', 'accident', 'account',
        'accuse', 'achieve', 'acid', 'acoustic', 'acquire', 'across', 'act',
        'action', 'actor', 'actress', 'actual', 'adapt', 'add', 'addict',
        'address', 'adjust', 'admit', 'adult', 'advance', 'advice', 'aerobic',
        'affair', 'afford', 'afraid', 'again', 'age', 'agent', 'agree',
        'ahead', 'aim', 'air', 'airport', 'aisle', 'alarm', 'album', 'alcohol',
        'alert', 'alien', 'all', 'alley', 'allow', 'almost', 'alone', 'alpha',
        'already', 'also', 'alter', 'always', 'amateur', 'amazing', 'among',
        'amount', 'amused', 'analyst', 'anchor', 'ancient', 'anger', 'angle',
        'angry', 'animal', 'ankle', 'announce', 'annual', 'another', 'answer',
        'antenna', 'antique', 'anxiety', 'any', 'apart', 'apology', 'appear',
        'apple', 'approve', 'april', 'arch', 'arctic', 'area', 'arena',
        'argue', 'arm', 'armed', 'armor', 'army', 'around', 'arrange',
        'arrest', 'arrive', 'arrow', 'art', 'artefact', 'artist', 'artwork',
        'ask', 'aspect', 'assault', 'asset', 'assist', 'assume', 'asthma',
        'athlete', 'atom', 'attack', 'attend', 'attitude', 'attract',
        'auction', 'audit', 'august', 'aunt', 'author', 'auto', 'autumn',
        'average', 'avocado', 'avoid', 'awake', 'aware', 'away', 'awesome',
        'awful', 'awkward', 'axis', 'baby', 'bachelor', 'bacon', 'badge',
        'bag', 'balance', 'balcony', 'ball', 'bamboo', 'banana', 'banner',
        'bar', 'barely', 'bargain', 'barrel', 'base', 'basic', 'basket',
        'battle', 'beach', 'bean', 'beauty', 'because', 'become', 'beef',
        'before', 'begin', 'behave', 'behind', 'believe', 'below', 'belt',
        'bench', 'benefit', 'best', 'betray', 'better', 'between', 'beyond',
        'bicycle', 'bid', 'bike', 'bind', 'biology', 'bird', 'birth', 'bitter',
        'black', 'blade', 'blame', 'blanket', 'blast', 'bleak', 'bless',
        'blind', 'blood', 'blossom', 'blouse', 'blue', 'blur', 'blush',
        'board', 'boat', 'body', 'boil', 'bomb', 'bone', 'bonus', 'book',
        'boost', 'border', 'boring', 'borrow', 'boss', 'bottom', 'bounce',
        'box', 'boy', 'bracket', 'brain', 'brand', 'brass', 'brave', 'bread',
        'breeze', 'brick', 'bridge', 'brief', 'bright', 'bring', 'brisk',
        'broccoli', 'broken', 'bronze', 'broom', 'brother', 'brown', 'brush',
        'bubble', 'buddy', 'budget', 'buffalo', 'build', 'bulb', 'bulk',
        'bullet', 'bundle', 'bunker', 'burden', 'burger', 'burst', 'bus',
        'business', 'busy', 'butter', 'buyer', 'buzz', 'cabbage', 'cabin',
        'cable', 'cactus', 'cage', 'cake', 'call', 'calm', 'camera', 'camp',
        'can', 'canal', 'cancel', 'candy', 'cannon', 'canoe', 'canvas',
        'canyon', 'capable', 'capital', 'captain', 'car', 'carbon', 'card',
        'cargo', 'carpet', 'carry', 'cart', 'case', 'cash', 'casino', 'castle',
        'casual', 'cat', 'catalog', 'catch', 'category', 'cattle', 'caught',
        'cause', 'caution', 'cave', 'ceiling', 'celery', 'cement', 'census',
        'century', 'cereal', 'certain', 'chair', 'chalk', 'champion', 'change',
        'chaos', 'chapter', 'charge', 'chase', 'chat', 'cheap', 'check',
        'cheese', 'chef', 'cherry', 'chest', 'chicken', 'chief', 'child',
        'chimney', 'choice', 'choose', 'chronic', 'chuckle', 'chunk', 'churn',
        'cigar', 'cinnamon', 'circle', 'citizen', 'city', 'civil', 'claim',
        'clap', 'clarify', 'claw', 'clay', 'clean', 'clerk', 'clever', 'click',
        'client', 'cliff', 'climb', 'clinic', 'clip', 'clock', 'clog', 'close',
        'cloth', 'cloud', 'clown', 'club', 'clump', 'cluster', 'clutch',
        'coach', 'coast', 'coconut', 'code', 'coffee', 'coil', 'coin',
        'collect', 'color', 'column', 'combine', 'come', 'comfort', 'comic',
        'common', 'company', 'concert', 'conduct', 'confirm', 'congress',
        'connect', 'consider', 'control', 'convince', 'cook', 'cool', 'copper',
        'copy', 'coral', 'core', 'corn', 'correct', 'cost', 'cotton', 'couch',
        'country', 'couple', 'course', 'cousin', 'cover', 'coyote', 'crack',
        'cradle', 'craft', 'cram', 'crane', 'crash', 'crater', 'crawl',
        'crazy', 'cream', 'credit', 'creek', 'crew', 'cricket', 'crime',
        'crisp', 'critic', 'crop', 'cross', 'crouch', 'crowd', 'crucial',
        'cruel', 'cruise', 'crumble', 'crunch', 'crush', 'cry', 'crystal',
        'cube', 'culture', 'cup', 'cupboard', 'curious', 'current', 'curtain',
        'curve', 'cushion', 'custom', 'cute', 'cycle', 'dad', 'damage', 'damp',
        'dance', 'danger', 'daring', 'dash', 'daughter', 'dawn', 'day', 'deal',
        'debate', 'debris', 'decade', 'december', 'decide', 'decline',
        'decorate', 'decrease', 'deer', 'defense', 'define', 'defy', 'degree',
        'delay', 'deliver', 'demand', 'demise', 'denial', 'dentist', 'deny',
        'depart', 'depend', 'deposit', 'depth', 'deputy', 'derive', 'describe',
        'desert', 'design', 'desk', 'despair', 'destroy', 'detail', 'detect',
        'develop', 'device', 'devote', 'diagram', 'dial', 'diamond', 'diary',
        'dice', 'diesel', 'diet', 'differ', 'digital', 'dignity', 'dilemma',
        'dinner', 'dinosaur', 'direct', 'dirt', 'disagree', 'discover',
        'disease', 'dish', 'dismiss', 'disorder', 'display', 'distance',
        'divert', 'divide', 'divorce', 'dizzy', 'doctor', 'document', 'dog',
        'doll', 'dolphin', 'domain', 'donate', 'donkey', 'donor', 'door',
        'dose', 'double', 'dove', 'draft', 'dragon', 'drama', 'drastic',
        'draw', 'dream', 'dress', 'drift', 'drill', 'drink', 'drip', 'drive',
        'drop', 'drum', 'dry', 'duck', 'dumb', 'dune', 'during', 'dust',
        'dutch', 'duty', 'dwarf', 'dynamic', 'eager', 'eagle', 'early', 'earn',
        'earth', 'easily', 'east', 'easy', 'echo', 'ecology', 'economy',
        'edge', 'edit', 'educate', 'effort', 'egg', 'eight', 'either', 'elbow',
        'elder', 'electric', 'elegant', 'element', 'elephant', 'elevator',
        'elite', 'else', 'embark', 'embody', 'embrace', 'emerge', 'emotion',
        'employ', 'empower', 'empty', 'enable', 'enact', 'end', 'endless',
        'endorse', 'enemy', 'energy', 'enforce', 'engage', 'engine', 'enhance',
        'enjoy', 'enlist', 'enough', 'enrich', 'enroll', 'ensure', 'enter',
        'entire', 'entry', 'envelope', 'episode', 'equal', 'equip', 'era',
        'erase', 'erode', 'erosion', 'error', 'erupt', 'escape', 'essay',
        'essence', 'estate', 'eternal', 'ethics', 'evidence', 'evil', 'evoke',
        'evolve', 'exact', 'example', 'excess', 'exchange', 'excite',
        'exclude', 'excuse', 'execute', 'exercise', 'exhaust', 'exhibit',
        'exile', 'exist', 'exit', 'exotic', 'expand', 'expect', 'expire',
        'explain', 'expose', 'express', 'extend', 'extra', 'eye', 'eyebrow',
        'fabric', 'face', 'faculty', 'fade', 'faint', 'faith', 'fall', 'false',
        'fame', 'family', 'famous', 'fan', 'fancy', 'fantasy', 'farm',
        'fashion', 'fat', 'fatal', 'father', 'fatigue', 'fault', 'favorite',
        'feature', 'february', 'federal', 'fee', 'feed', 'feel', 'female',
        'fence', 'festival', 'fetch', 'fever', 'few', 'fiber', 'fiction',
        'field', 'figure', 'file', 'film', 'filter', 'final', 'find', 'fine',
        'finger', 'finish', 'fire', 'firm', 'first', 'fiscal', 'fish', 'fit',
        'fitness', 'fix', 'flag', 'flame', 'flash', 'flat', 'flavor', 'flee',
        'flight', 'flip', 'float', 'flock', 'floor', 'flower', 'fluid',
        'flush', 'fly', 'foam', 'focus', 'fog', 'foil', 'fold', 'follow',
        'food', 'foot', 'force', 'forest', 'forget', 'fork', 'fortune',
        'forum', 'forward', 'fossil', 'foster', 'found', 'fox', 'fragile',
        'frame', 'frequent', 'fresh', 'friend', 'fringe', 'frog', 'front',
        'frost', 'frown', 'frozen', 'fruit', 'fuel', 'fun', 'funny', 'furnace',
        'fury', 'future', 'gadget', 'gain', 'galaxy', 'gallery', 'game', 'gap',
        'garage', 'garbage', 'garden', 'garlic', 'garment', 'gas', 'gasp',
        'gate', 'gather', 'gauge', 'gaze', 'general', 'genius', 'genre',
        'gentle', 'genuine', 'gesture', 'ghost', 'giant', 'gift', 'giggle',
        'ginger', 'giraffe', 'girl', 'give', 'glad', 'glance', 'glare',
        'glass', 'glide', 'glimpse', 'globe', 'gloom', 'glory', 'glove',
        'glow', 'glue', 'goat', 'goddess', 'gold', 'good', 'goose', 'gorilla',
        'gospel', 'gossip', 'govern', 'gown', 'grab', 'grace', 'grain',
        'grant', 'grape', 'grass', 'gravity', 'great', 'green', 'grid',
        'grief', 'grit', 'grocery', 'group', 'grow', 'grunt', 'guard', 'guess',
        'guide', 'guilt', 'guitar', 'gun', 'gym', 'habit', 'hair', 'half',
        'hammer', 'hamster', 'hand', 'happy', 'harbor', 'hard', 'harsh',
        'harvest', 'hat', 'have', 'hawk', 'hazard', 'head', 'health', 'heart',
        'heavy', 'hedgehog', 'height', 'hello', 'helmet', 'help', 'hen',
        'hero', 'hidden', 'high', 'hill', 'hint', 'hip', 'hire', 'history',
        'hobby', 'hockey', 'hold', 'hole', 'holiday', 'hollow', 'home',
        'honey', 'hood', 'hope', 'horn', 'horror', 'horse', 'hospital', 'host',
        'hotel', 'hour', 'hover', 'hub', 'huge', 'human', 'humble', 'humor',
        'hundred', 'hungry', 'hunt', 'hurdle', 'hurry', 'hurt', 'husband',
        'hybrid', 'ice', 'icon', 'idea', 'identify', 'idle', 'ignore', 'ill',
        'illegal', 'illness', 'image', 'imitate', 'immense', 'immune',
        'impact', 'impose', 'improve', 'impulse', 'inch', 'include', 'income',
        'increase', 'index', 'indicate', 'indoor', 'industry', 'infant',
        'inflict', 'inform', 'inhale', 'inherit', 'initial', 'inject',
        'injury', 'inmate', 'inner', 'innocent', 'input', 'inquiry', 'insane',
        'insect', 'inside', 'inspire', 'install', 'intact', 'interest', 'into',
        'invest', 'invite', 'involve', 'iron', 'island', 'isolate', 'issue',
        'item', 'ivory', 'jacket', 'jaguar', 'jar', 'jazz', 'jealous', 'jeans',
        'jelly', 'jewel', 'job', 'join', 'joke', 'journey', 'joy', 'judge',
        'juice', 'jump', 'jungle', 'junior', 'junk', 'just', 'kangaroo',
        'keen', 'keep', 'ketchup', 'key', 'kick', 'kid', 'kidney', 'kind',
        'kingdom', 'kiss', 'kit', 'kitchen', 'kite', 'kitten', 'kiwi', 'knee',
        'knife', 'knock', 'know', 'lab', 'label', 'labor', 'ladder', 'lady',
        'lake', 'lamp', 'language', 'laptop', 'large', 'later', 'latin',
        'laugh', 'laundry', 'lava', 'law', 'lawn', 'lawsuit', 'layer', 'lazy',
        'leader', 'leaf', 'learn', 'leave', 'lecture', 'left', 'leg', 'legal',
        'legend', 'leisure', 'lemon', 'lend', 'length', 'lens', 'leopard',
        'lesson', 'letter', 'level', 'liar', 'liberty', 'library', 'license',
        'life', 'lift', 'light', 'like', 'limb', 'limit', 'link', 'lion',
        'liquid', 'list', 'little', 'live', 'lizard', 'load', 'loan',
        'lobster', 'local', 'lock', 'logic', 'lonely', 'long', 'loop',
        'lottery', 'loud', 'lounge', 'love', 'loyal', 'lucky', 'luggage',
        'lumber', 'lunar', 'lunch', 'luxury', 'lyrics', 'machine', 'mad',
        'magic', 'magnet', 'maid', 'mail', 'main', 'major', 'make', 'mammal',
        'man', 'manage', 'mandate', 'mango', 'mansion', 'manual', 'maple',
        'marble', 'march', 'margin', 'marine', 'market', 'marriage', 'mask',
        'mass', 'master', 'match', 'material', 'math', 'matrix', 'matter',
        'maximum', 'maze', 'meadow', 'mean', 'measure', 'meat', 'mechanic',
        'medal', 'media', 'melody', 'melt', 'member', 'memory', 'mention',
        'menu', 'mercy', 'merge', 'merit', 'merry', 'mesh', 'message', 'metal',
        'method', 'middle', 'midnight', 'milk', 'million', 'mimic', 'mind',
        'minimum', 'minor', 'minute', 'miracle', 'mirror', 'misery', 'miss',
        'mistake', 'mix', 'mixed', 'mixture', 'mobile', 'model', 'modify',
        'mom', 'moment', 'monitor', 'monkey', 'monster', 'month', 'moon',
        'moral', 'more', 'morning', 'mosquito', 'mother', 'motion', 'motor',
        'mountain', 'mouse', 'move', 'movie', 'much', 'muffin', 'mule',
        'multiply', 'muscle', 'museum', 'mushroom', 'music', 'must', 'mutual',
        'myself', 'mystery', 'myth', 'naive', 'name', 'napkin', 'narrow',
        'nasty', 'nation', 'nature', 'near', 'neck', 'need', 'negative',
        'neglect', 'neither', 'nephew', 'nerve', 'nest', 'net', 'network',
        'neutral', 'never', 'news', 'next', 'nice', 'night', 'noble', 'noise',
        'nominee', 'noodle', 'normal', 'north', 'nose', 'notable', 'note',
        'nothing', 'notice', 'novel', 'now', 'nuclear', 'number', 'nurse',
        'nut', 'oak', 'obey', 'object', 'oblige', 'obscure', 'observe',
        'obtain', 'obvious', 'occur', 'ocean', 'october', 'odor', 'off',
        'offer', 'office', 'often', 'oil', 'okay', 'old', 'olive', 'olympic',
        'omit', 'once', 'one', 'onion', 'online', 'only', 'open', 'opera',
        'opinion', 'oppose', 'option', 'orange', 'orbit', 'orchard', 'order',
        'ordinary', 'organ', 'orient', 'original', 'orphan', 'ostrich',
        'other', 'outdoor', 'outer', 'output', 'outside', 'oval', 'oven',
        'over', 'own', 'owner', 'oxygen', 'oyster', 'ozone', 'pact', 'paddle',
        'page', 'pair', 'palace', 'palm', 'panda', 'panel', 'panic', 'panther',
        'paper', 'parade', 'parent', 'park', 'parrot', 'party', 'pass',
        'patch', 'path', 'patient', 'patrol', 'pattern', 'pause', 'pave',
        'payment', 'peace', 'peanut', 'pear', 'peasant', 'pelican', 'pen',
        'penalty', 'pencil', 'people', 'pepper', 'perfect', 'permit', 'person',
        'pet', 'phone', 'photo', 'phrase', 'physical', 'piano', 'picnic',
        'picture', 'piece', 'pig', 'pigeon', 'pill', 'pilot', 'pink',
        'pioneer', 'pipe', 'pistol', 'pitch', 'pizza', 'place', 'planet',
        'plastic', 'plate', 'play', 'please', 'pledge', 'pluck', 'plug',
        'plunge', 'poem', 'poet', 'point', 'polar', 'pole', 'police', 'pond',
        'pony', 'pool', 'popular', 'portion', 'position', 'possible', 'post',
        'potato', 'pottery', 'poverty', 'powder', 'power', 'practice',
        'praise', 'predict', 'prefer', 'prepare', 'present', 'pretty',
        'prevent', 'price', 'pride', 'primary', 'print', 'priority', 'prison',
        'private', 'prize', 'problem', 'process', 'produce', 'profit',
        'program', 'project', 'promote', 'proof', 'property', 'prosper',
        'protect', 'proud', 'provide', 'public', 'pudding', 'pull', 'pulp',
        'pulse', 'pumpkin', 'punch', 'pupil', 'puppy', 'purchase', 'purity',
        'purpose', 'purse', 'push', 'put', 'puzzle', 'pyramid', 'quality',
        'quantum', 'quarter', 'question', 'quick', 'quit', 'quiz', 'quote',
        'rabbit', 'raccoon', 'race', 'rack', 'radar', 'radio', 'rail', 'rain',
        'raise', 'rally', 'ramp', 'ranch', 'random', 'range', 'rapid', 'rare',
        'rate', 'rather', 'raven', 'raw', 'razor', 'ready', 'real', 'reason',
        'rebel', 'rebuild', 'recall', 'receive', 'recipe', 'record', 'recycle',
        'reduce', 'reflect', 'reform', 'refuse', 'region', 'regret', 'regular',
        'reject', 'relax', 'release', 'relief', 'rely', 'remain', 'remember',
        'remind', 'remove', 'render', 'renew', 'rent', 'reopen', 'repair',
        'repeat', 'replace', 'report', 'require', 'rescue', 'resemble',
        'resist', 'resource', 'response', 'result', 'retire', 'retreat',
        'return', 'reunion', 'reveal', 'review', 'reward', 'rhythm', 'rib',
        'ribbon', 'rice', 'rich', 'ride', 'ridge', 'rifle', 'right', 'rigid',
        'ring', 'riot', 'ripple', 'risk', 'ritual', 'rival', 'river', 'road',
        'roast', 'robot', 'robust', 'rocket', 'romance', 'roof', 'rookie',
        'room', 'rose', 'rotate', 'rough', 'round', 'route', 'royal', 'rubber',
        'rude', 'rug', 'rule', 'run', 'runway', 'rural', 'sad', 'saddle',
        'sadness', 'safe', 'sail', 'salad', 'salmon', 'salon', 'salt',
        'salute', 'same', 'sample', 'sand', 'satisfy', 'satoshi', 'sauce',
        'sausage', 'save', 'say', 'scale', 'scan', 'scare', 'scatter', 'scene',
        'scheme', 'school', 'science', 'scissors', 'scorpion', 'scout',
        'scrap', 'screen', 'script', 'scrub', 'sea', 'search', 'season',
        'seat', 'second', 'secret', 'section', 'security', 'seed', 'seek',
        'segment', 'select', 'sell', 'seminar', 'senior', 'sense', 'sentence',
        'series', 'service', 'session', 'settle', 'setup', 'seven', 'shadow',
        'shaft', 'shallow', 'share', 'shed', 'shell', 'sheriff', 'shield',
        'shift', 'shine', 'ship', 'shiver', 'shock', 'shoe', 'shoot', 'shop',
        'short', 'shoulder', 'shove', 'shrimp', 'shrug', 'shuffle', 'shy',
        'sibling', 'sick', 'side', 'siege', 'sight', 'sign', 'silent', 'silk',
        'silly', 'silver', 'similar', 'simple', 'since', 'sing', 'siren',
        'sister', 'situate', 'six', 'size', 'skate', 'sketch', 'ski', 'skill',
        'skin', 'skirt', 'skull', 'slab', 'slam', 'sleep', 'slender', 'slice',
        'slide', 'slight', 'slim', 'slogan', 'slot', 'slow', 'slush', 'small',
        'smart', 'smile', 'smoke', 'smooth', 'snack', 'snake', 'snap', 'sniff',
        'snow', 'soap', 'soccer', 'social', 'sock', 'soda', 'soft', 'solar',
        'soldier', 'solid', 'solution', 'solve', 'someone', 'song', 'soon',
        'sorry', 'sort', 'soul', 'sound', 'soup', 'source', 'south', 'space',
        'spare', 'spatial', 'spawn', 'speak', 'special', 'speed', 'spell',
        'spend', 'sphere', 'spice', 'spider', 'spike', 'spin', 'spirit',
        'split', 'spoil', 'sponsor', 'spoon', 'sport', 'spot', 'spray',
        'spread', 'spring', 'spy', 'square', 'squeeze', 'squirrel', 'stable',
        'stadium', 'staff', 'stage', 'stairs', 'stamp', 'stand', 'start',
        'state', 'stay', 'steak', 'steel', 'stem', 'step', 'stereo', 'stick',
        'still', 'sting', 'stock', 'stomach', 'stone', 'stool', 'story',
        'stove', 'strategy', 'street', 'strike', 'strong', 'struggle',
        'student', 'stuff', 'stumble', 'style', 'subject', 'submit', 'subway',
        'success', 'such', 'sudden', 'suffer', 'sugar', 'suggest', 'suit',
        'summer', 'sun', 'sunny', 'sunset', 'super', 'supply', 'supreme',
        'sure', 'surface', 'surge', 'surprise', 'surround', 'survey',
        'suspect', 'sustain', 'swallow', 'swamp', 'swap', 'swarm', 'swear',
        'sweet', 'swift', 'swim', 'swing', 'switch', 'sword', 'symbol',
        'symptom', 'syrup', 'system', 'table', 'tackle', 'tag', 'tail',
        'talent', 'talk', 'tank', 'tape', 'target', 'task', 'taste', 'tattoo',
        'taxi', 'teach', 'team', 'tell', 'ten', 'tenant', 'tennis', 'tent',
        'term', 'test', 'text', 'thank', 'that', 'theme', 'then', 'theory',
        'there', 'they', 'thing', 'this', 'thought', 'three', 'thrive',
        'throw', 'thumb', 'thunder', 'ticket', 'tide', 'tiger', 'tilt',
        'timber', 'time', 'tiny', 'tip', 'tired', 'tissue', 'title', 'toast',
        'tobacco', 'today', 'toddler', 'toe', 'together', 'toilet', 'token',
        'tomato', 'tomorrow', 'tone', 'tongue', 'tonight', 'tool', 'tooth',
        'top', 'topic', 'topple', 'torch', 'tornado', 'tortoise', 'toss',
        'total', 'tourist', 'toward', 'tower', 'town', 'toy', 'track', 'trade',
        'traffic', 'tragic', 'train', 'transfer', 'trap', 'trash', 'travel',
        'tray', 'treat', 'tree', 'trend', 'trial', 'tribe', 'trick', 'trigger',
        'trim', 'trip', 'trophy', 'trouble', 'truck', 'true', 'truly',
        'trumpet', 'trust', 'truth', 'try', 'tube', 'tuition', 'tumble',
        'tuna', 'tunnel', 'turkey', 'turn', 'turtle', 'twelve', 'twenty',
        'twice', 'twin', 'twist', 'two', 'type', 'typical', 'ugly', 'umbrella',
        'unable', 'unaware', 'uncle', 'uncover', 'under', 'undo', 'unfair',
        'unfold', 'unhappy', 'uniform', 'unique', 'unit', 'universe',
        'unknown', 'unlock', 'until', 'unusual', 'unveil', 'update', 'upgrade',
        'uphold', 'upon', 'upper', 'upset', 'urban', 'urge', 'usage', 'use',
        'used', 'useful', 'useless', 'usual', 'utility', 'vacant', 'vacuum',
        'vague', 'valid', 'valley', 'valve', 'van', 'vanish', 'vapor',
        'various', 'vast', 'vault', 'vehicle', 'velvet', 'vendor', 'venture',
        'venue', 'verb', 'verify', 'version', 'very', 'vessel', 'veteran',
        'viable', 'vibrant', 'vicious', 'victory', 'video', 'view', 'village',
        'vintage', 'violin', 'virtual', 'virus', 'visa', 'visit', 'visual',
        'vital', 'vivid', 'vocal', 'voice', 'void', 'volcano', 'volume',
        'vote', 'voyage', 'wage', 'wagon', 'wait', 'walk', 'wall', 'walnut',
        'want', 'warfare', 'warm', 'warrior', 'wash', 'wasp', 'waste', 'water',
        'wave', 'way', 'wealth', 'weapon', 'wear', 'weasel', 'weather', 'web',
        'wedding', 'weekend', 'weird', 'welcome', 'west', 'wet', 'whale',
        'what', 'wheat', 'wheel', 'when', 'where', 'whip', 'whisper', 'wide',
        'width', 'wife', 'wild', 'will', 'win', 'window', 'wine', 'wing',
        'wink', 'winner', 'winter', 'wire', 'wisdom', 'wise', 'wish',
        'witness', 'wolf', 'woman', 'wonder', 'wood', 'wool', 'word', 'work',
        'world', 'worry', 'worth', 'wrap', 'wreck', 'wrestle', 'wrist',
        'write', 'wrong', 'yard', 'year', 'yellow', 'you', 'young', 'youth',
        'zebra', 'zero', 'zone', 'zoo')

    from random import SystemRandom
    sysrandom = SystemRandom()
    if not allow_dups:
        return sysrandom.sample(wordList, count)
    try:
        return sysrandom.choices(wordList, count)  # available from python3.6
    except:
        pass
    return [sysrandom.choice(wordList) for i in range(count)]
class DHTSpyder(UDPServer):
    def __init__(self,
                 bootstrap_nodes,
                 node_id=None,
                 miner_interval=0.001,
                 **kwargs):
        super(DHTSpyder, self).__init__(**kwargs)

        self.bootstrap_nodes = bootstrap_nodes
        self.node_id = node_id or generate_node_id()
        self.miner_interval = miner_interval

        self.routing_table = [set() for _ in range(160)]
        self.candidates = set()

        self.searchers = {}
        self.searchers_seq = 0

        self.random = SystemRandom()

    def connection_made(self):
        # Bootstrap
        for node in self.bootstrap_nodes:
            self.find_node(node, self.node_id)

        # Start miner
        asyncio.ensure_future(self._dig_periodically(), loop=self.loop)
        asyncio.ensure_future(self._update_searchers_periodically(),
                              loop=self.loop)

    async def datagram_received(self, data, addr):
        try:
            msg = bdecode(data, decoder=decode_bkeys)
        except BTFailure:
            # TODO: Log error
            pass
        else:
            self.handle_message(msg, addr)

    def _fetch_random_candidates(self, k):
        result = self.random.sample(self.candidates, k)

        for item in result:
            self.candidates.remove(item)

        return result

    def _new_event(self, handler):
        asyncio.ensure_future(handler, loop=self.loop)

    async def _dig_periodically(self):
        while True:
            target_id = generate_node_id()

            nodes = [
                *self.get_closest_nodes(target_id),
                *self._fetch_random_candidates(min(len(self.candidates), 7))
            ]

            for _, host, port in nodes:
                self.find_node((host, port), target_id)

            await asyncio.sleep(self.miner_interval)

    async def _update_searchers_periodically(self):
        while True:
            now = datetime.now()
            for t, item in self.searchers.copy().items():
                if (now - item.timestamp).seconds >= 120:
                    if item.values:
                        self._new_event(
                            self.peers_values_received(item.info_hash,
                                                       item.values))

                    self.searchers.pop(t)

            await asyncio.sleep(1)

    def send_message(self, data, addr):
        self.send(bencode(data), addr)

    def find_node(self, addr, target=None):
        self.send_message(
            {
                "t": generate_id(),
                "y": "q",
                "q": "find_node",
                "a": {
                    "id": generate_node_id(),
                    "target": target or generate_node_id()
                }
            }, addr)

    def get_peers(self, addr, info_hash, t=None):
        self.send_message(
            {
                "t": t or generate_id(),
                "y": "q",
                "q": "get_peers",
                "a": {
                    "id": generate_node_id(),
                    "info_hash": info_hash
                }
            }, addr)

    def get_closest_nodes(self, target_id, k_value=8):
        closest_l = set()
        closest_r = set()

        r_table_idx = get_routing_table_index(xor(self.node_id, target_id))

        idx = r_table_idx
        while idx >= 0 and len(closest_l) < k_value:
            closest_l |= set(
                fetch_k_closest_nodes(self.routing_table[idx], target_id,
                                      k_value))
            idx -= 1

        idx = r_table_idx + 1
        while idx < 160 and len(closest_r) < k_value:
            closest_r |= set(
                fetch_k_closest_nodes(self.routing_table[idx], target_id,
                                      k_value))
            idx += 1

        return fetch_k_closest_nodes(closest_l | closest_r, target_id, k_value)

    def add_node(self, node):
        r_table_index = get_routing_table_index(xor(node.id, self.node_id))
        rt = self.routing_table[r_table_index]

        if len(rt) < 1600:
            rt.add(node)
        elif get_rand_bool() and node not in rt:
            rt.remove(self.random.sample(rt, 1)[0])
        else:
            self.find_node((node.host, node.port))

    def search_peers(self, info_hash):
        if self.searchers_seq >= 2**32 - 1:
            self.searchers_seq = 0
        else:
            self.searchers_seq += 1

        t = self.searchers_seq.to_bytes(4, "big")
        self.searchers[t] = Searcher(info_hash, set(), set(), 8,
                                     datetime.now())

        for node in self.get_closest_nodes(info_hash, 16):
            self.get_peers((node.host, node.port), info_hash, t)

    def update_peers_searcher(self, t, nodes, values):
        info_hash, old_nodes, old_values, attempts_count, timestamp = self.searchers.pop(
            t)

        # "nodes" and "values" must be instance of "set" type
        new_nodes = old_nodes | nodes
        new_values = old_values | values

        # If new_closest contains same data as old_closest, we decrease attempt counter
        new_closest, old_closest = (set(fetch_k_closest_nodes(
            n, info_hash, 16)) for n in (new_nodes, old_nodes))
        if new_closest == old_closest:
            attempts_count -= 1

        if attempts_count > 0:
            self.searchers[t] = Searcher(info_hash, new_nodes, new_values,
                                         attempts_count, timestamp)

            for node in new_closest:
                self.get_peers((node.host, node.port), info_hash, t)
        elif new_values:
            self._new_event(self.peers_values_received(info_hash, new_values))

    def handle_message(self, msg, addr):
        try:
            msg_type = str(msg.get("y", b""), "utf-8")

            if msg_type == "r":
                self.handle_response(msg, addr)
            elif msg_type == "q":
                self.handle_query(msg, addr)
        except:
            self.send_message(
                {
                    "y": "e",
                    "e": [202, "Server Error"],
                    "t": msg.get("t", "")
                }, addr)

            raise

    def handle_response(self, msg, addr):
        args = msg["r"]
        t = msg["t"]
        node_id = args["id"]

        nodes = set(decode_nodes(args.get("nodes", b"")))
        values = set(decode_values(args.get("values", [])))

        if t in self.searchers:
            self.update_peers_searcher(t, nodes, values)
        else:
            new_candidates = self.random.sample(nodes, min(len(nodes), 8))

            if len(self.candidates) > 160000:
                self._fetch_random_candidates(len(self.candidates) - 160000)

            self.candidates.update(new_candidates)

        self.add_node(Node(node_id, addr[0], addr[1]))

    def handle_query(self, msg, addr):
        args = msg["a"]
        node_id = args["id"]
        query_type = str(msg["q"], "utf-8")

        response_id = self.node_id

        if query_type == "ping":
            self.send_message(
                {
                    "t": msg["t"],
                    "y": "r",
                    "r": {
                        "id": response_id
                    }
                }, addr)

            self._new_event(self.ping_received(node_id, addr))

        elif query_type == "find_node":
            target_node_id = args["target"]

            self.send_message(
                {
                    "t": msg["t"],
                    "y": "r",
                    "r": {
                        "id":
                        response_id,
                        "nodes":
                        encode_nodes(self.get_closest_nodes(target_node_id))
                    }
                }, addr)

            self._new_event(
                self.find_node_received(node_id, target_node_id, addr))

        elif query_type == "get_peers":
            info_hash = args["info_hash"]
            token = generate_node_id()

            self.send_message(
                {
                    "t": msg["t"],
                    "y": "r",
                    "r": {
                        "id": response_id,
                        "nodes": encode_nodes(
                            self.get_closest_nodes(info_hash)),
                        "token": token
                    }
                }, addr)

            self._new_event(self.get_peers_received(node_id, info_hash, addr))

        elif query_type == "announce_peer":
            info_hash = args["info_hash"]
            port = args.get("port", None)

            self.send_message(
                {
                    "t": msg["t"],
                    "y": "r",
                    "r": {
                        "id": response_id
                    }
                }, addr)

            self._new_event(
                self.announce_peer_received(node_id, info_hash, port, addr))

        self.add_node(Node(node_id, addr[0], addr[1]))

    async def ping_received(self, node_id, addr):
        pass

    async def find_node_received(self, node_id, target, addr):
        pass

    async def get_peers_received(self, node_id, info_hash, addr):
        pass

    async def announce_peer_received(self, node_id, info_hash, port, addr):
        pass

    async def peers_values_received(self, info_hash, peers):
        pass
Beispiel #19
0
class DHTCrawler(asyncio.DatagramProtocol):
    def __init__(self, bootstrap_nodes, node_id=None, loop=None, interval=0.001):
        self.node_id = node_id or generate_node_id()
        self.loop = loop or asyncio.get_event_loop()
        self.bootstrap_nodes = bootstrap_nodes
        self.interval = interval

        self.routing_table = [set() for _ in range(160)]
        self.candidates = []

        self.searchers = {}
        self.searchers_seq = 0

        self.transport = None
        self.__running = False

        self.random = SystemRandom()

    def connection_made(self, transport):
        self.transport = transport

    def connection_lost(self, exc):
        self.stop()
        self.transport.close()

    def datagram_received(self, data, addr):
        try:
            msg = bdecode(data)
            asyncio.ensure_future(self.handle_message(msg, addr), loop=self.loop)
        except BTFailure:
            pass

    def run(self, host, port):
        coro = self.loop.create_datagram_endpoint(lambda: self, local_addr=(host, port))
        self.loop.run_until_complete(coro)

        # Bootstrap
        for node in self.bootstrap_nodes:
            self.find_node(node, self.node_id)

        asyncio.ensure_future(self.auto_find_nodes(), loop=self.loop)
        self.loop.run_forever()
        self.loop.close()

    def stop(self):
        self.__running = False
        self.loop.call_later(self.interval, self.loop.stop)

    def send_message(self, data, addr):
        self.transport.sendto(bencode(data), addr)

    def find_node(self, addr, target=None):
        self.send_message({
            "t": generate_id(),
            "y": "q",
            "q": "find_node",
            "a": {
                "id": generate_node_id(),
                "target": target or generate_node_id()
            }
        }, addr)

    def get_peers(self, addr, info_hash, t=None):
        self.send_message({
            "t": t or generate_id(),
            "y": "q",
            "q": "get_peers",
            "a": {
                "id": generate_node_id(),
                "info_hash": info_hash
            }
        }, addr)

    def get_closest_nodes(self, target_id, k_value=8):
        closest_l = set()
        closest_r = set()

        r_table_idx = get_routing_table_index(xor(self.node_id, target_id))

        idx = r_table_idx
        while idx >= 0 and len(closest_l) < k_value:
            closest_l |= set(fetch_k_closest_nodes(self.routing_table[idx], target_id, k_value))
            idx -= 1

        idx = r_table_idx + 1
        while idx < 160 and len(closest_r) < k_value:
            closest_r |= set(fetch_k_closest_nodes(self.routing_table[idx], target_id, k_value))
            idx += 1

        return fetch_k_closest_nodes(closest_l | closest_r, target_id, k_value)

    def add_node(self, node):
        r_table_index = get_routing_table_index(xor(node.id, self.node_id))
        rt = self.routing_table[r_table_index]

        if len(rt) < 1600:
            rt.add(node)
        elif get_rand_bool() and node not in rt:
            rt.remove(self.random.sample(rt, 1)[0])
        else:
            self.find_node((node.host, node.port))

        self.routing_table[r_table_index] = rt  # ???

    async def search_peers(self, info_hash):
        if self.searchers_seq >= 2 ** 32 - 1:
            self.searchers_seq = 0
        else:
            self.searchers_seq += 1

        t = self.searchers_seq.to_bytes(4, "big")
        self.searchers[t] = Searcher(info_hash, set(), set(), 8, datetime.now())

        for node in self.get_closest_nodes(info_hash, 16):
            self.get_peers((node.host, node.port), info_hash, t)

    async def update_peers_searcher(self, t, nodes, values):
        searcher = self.searchers.pop(t, None)
        if not searcher:
            return

        info_hash, old_nodes, old_values, attempts_count, timestamp = searcher

        # "nodes" and "values" must be instance of "set" type
        new_nodes = old_nodes | nodes
        new_values = old_values | values

        # If new_closest contains same data as old_closest, we decrease attempt counter
        new_closest, old_closest = (set(fetch_k_closest_nodes(n, info_hash, 16)) for n in (new_nodes, old_nodes))
        if new_closest == old_closest:
            attempts_count -= 1

        if attempts_count > 0:
            self.searchers[t] = Searcher(info_hash, new_nodes, new_values, attempts_count, timestamp)

            for node in new_closest:
                self.get_peers((node.host, node.port), info_hash, t)
        else:
            await self.peers_values_received(info_hash, new_values)

    async def handle_message(self, msg, addr):
        try:
            msg_type = str(msg.get("y", b""), "utf-8")

            if msg_type == "r":
                await self.handle_response(msg, addr)
            elif msg_type == "q":
                await self.handle_query(msg, addr)
        except:
            self.send_message({
                "y": "e",
                "e": [202, "Server Error"],
                "t": msg.get("t", "")
            }, addr)

            raise

    async def handle_response(self, msg, addr):
        args = msg["r"]
        t = msg["t"]
        node_id = args["id"]

        nodes = set(decode_nodes(args.get("nodes", b"")))
        values = set(decode_values(args.get("values", [])))

        if t in self.searchers:
            await self.update_peers_searcher(t, nodes, values)
        else:
            if len(self.candidates) >= 16000:
                self.candidates.pop(self.random.randrange(len(self.candidates)))

            self.candidates.append(self.random.sample(nodes, min(len(nodes), 8)))

        self.add_node(Node(node_id, addr[0], addr[1]))
        await asyncio.sleep(self.interval)

    async def handle_query(self, msg, addr):
        args = msg["a"]
        node_id = args["id"]
        query_type = str(msg["q"], "utf-8")

        response_id = self.node_id

        if query_type == "ping":
            self.send_message({
                "t": msg["t"],
                "y": "r",
                "r": {
                    "id": response_id
                }
            }, addr)

            await self.ping_received(node_id, addr)

        elif query_type == "find_node":
            target_node_id = args["target"]

            self.send_message({
                "t": msg["t"],
                "y": "r",
                "r": {
                    "id": response_id,
                    "nodes": encode_nodes(self.get_closest_nodes(target_node_id))
                }
            }, addr)

            await self.find_node_received(node_id, target_node_id, addr)

        elif query_type == "get_peers":
            info_hash = args["info_hash"]
            token = generate_node_id()

            self.send_message({
                "t": msg["t"],
                "y": "r",
                "r": {
                    "id": response_id,
                    "nodes": encode_nodes(self.get_closest_nodes(info_hash)),
                    "token": token
                }
            }, addr)

            await self.get_peers_received(node_id, info_hash, addr)

        elif query_type == "announce_peer":
            info_hash = args["info_hash"]
            port = args.get("port", None)

            self.send_message({
                "t": msg["t"],
                "y": "r",
                "r": {
                    "id": response_id
                }
            }, addr)

            await self.announce_peer_received(node_id, info_hash, port, addr)

        self.add_node(Node(node_id, addr[0], addr[1]))
        await asyncio.sleep(self.interval)

    async def auto_find_nodes(self):
        self.__running = True

        while self.__running:
            await asyncio.sleep(self.interval)

            target_id = generate_node_id()

            nodes = self.get_closest_nodes(target_id)
            for _ in range(min(len(self.candidates), 7)):
                nodes.extend(self.candidates.pop(self.random.randrange(len(self.candidates))))

            for _, host, port in nodes:
                self.find_node((host, port), target_id)

            now = datetime.now()
            for t, item in self.searchers.copy().items():
                if (now - item.timestamp).seconds >= 60:
                    await self.peers_values_received(item.info_hash, item.values)
                    self.searchers.pop(t)

    async def ping_received(self, node_id, addr):
        pass

    async def find_node_received(self, node_id, target, addr):
        pass

    async def get_peers_received(self, node_id, info_hash, addr):
        pass

    async def announce_peer_received(self, node_id, info_hash, port, addr):
        pass

    async def peers_values_received(self, info_hash, peers):
        pass
Beispiel #20
0
class FruitMachine:
    """A Fruit Machine bot."""

    random: SystemRandom

    def __init__(self, resources: Optional[Resources] = None):
        """Initialise FruitMachine."""
        if not resources:
            self.res = Resources()
        else:
            self.res = resources

        self.random = SystemRandom()

    def get_random_machine(self):
        """Get a random Machine style."""
        return self.random.choice(self.res.get_machines())

    def get_random_reel_symbols(self, count=3) -> SpunReels:
        """Get a random set of 'count' symbols for each reel."""
        reels: MutableSequence[SpunReel] = []

        for reel in self.res.get_reels():
            spun_reel = []
            for symbol in self.random.sample(reel.symbols, count):
                selected_image = self.random.choice(symbol.image_files)
                selected = ConcreteReelSymbol(description=symbol.description,
                                              image_file=selected_image)
                spun_reel.append(selected)

            reels.append(tuple(spun_reel))

        return tuple(reels)

    def randomize_machine(self) -> Tuple[MachineStyle, SpunReels, str, str]:
        """Generate a machine and its messages."""
        machine = self.get_random_machine()
        reels = self.get_random_reel_symbols(count=len(machine.positions[0]))

        payline = [r[1].description for r in reels]
        description = f"A {machine.description} Fruit Machine with the " \
            f"centre payline showing a combination of {payline[0]}, " \
            f"{payline[1]}, and {payline[2]}."

        status_message = PhraseGenerator(self.res.get_status_templates()) \
            .generate_phrase(machine=machine, reels=reels)

        return machine, reels, description, status_message

    def generate_image(self, machine: MachineStyle, reels: SpunReels,
                       fp: BinaryIO):
        """Generate and write the Fruit Machine image to a file pointer."""
        img = Image.open(machine.background).convert(mode='RGBA')
        for reel, reel_pos in zip(reels, machine.positions):
            for symbol, position in zip(reel, reel_pos):
                im_symb = Image.new(mode='RGBA', size=img.size)
                im_symb.paste(Image.open(symbol.image_file), position)
                img = Image.alpha_composite(img, im_symb)

        im_fg = Image.open(machine.foreground).convert(mode='RGBA')
        img = Image.alpha_composite(img, im_fg)

        img.save(fp, format='PNG')

    def generate(self, image_fp: BinaryIO) -> Tuple[str, str]:
        """Generate a random fruit machine image, description and status."""
        machine, reels, description, status_message = self.randomize_machine()

        self.generate_image(machine=machine, reels=reels, fp=image_fp)

        return description, status_message
class DataStore(ABC):
    """
    A data store of names of people who can save Eorzea.

    This base class provides in memory storage, and has two abstract functions
    of `_write_append` for incremental updates and `_write_list` for full
    rebuilds of a backing store, of which one of which SHOULD have a complete
    implementation.
    """

    known: Optional[Dict[str, Record]]
    rand: SystemRandom = SystemRandom()
    seen: Set[str]

    def __init__(self, values: Optional[List[Record]] = None):
        """Sets up the data store, with the initial set of data that was
        loaded out of the data store"""
        super().__init__()

        # store the initial set of values.
        self.known = {r.name: r for r in values} if values else None
        self.seen = set()
        self.rand = SystemRandom()

    def add(self, value: str, added_by: str, added_from: str) -> bool:
        """Adds a value to the DataStore.

        If this value is already in the store, this function is a no-op that
        will always return true.

        Otherwise, this function will return true if the data is successfully
        written to both the in-memory storage and to the backing store."""
        if self.known and value in self.known:
            return True

        record = Record(value, added_by, added_from)

        # Function succeeds iff the backing store if updated,
        # _or_ if this DataStore does not support incremental
        # updates.
        if self._write_append(record) in [False]:
            return False

        if self.known:
            self.known[record.name] = record

        return True

    def random(self) -> Record:
        """Selects a random element from this store."""

        if not self.known:
            raise Exception("Empty storage")

        record = self.rand.sample(list(self.known.values()), 1)[0]
        self.seen.add(record.name)

        return record

    @abstractmethod
    def _write_append(self, record: Record) -> Optional[bool]:
        """Append a value to the underlying data store this type implements.

        This function may be a no-op method, in which case it MUST return None.
        Otherwise, it should return if the write succeeded.

        Values passed to this function SHOULD NOT exist in the store already,
        so the implement does not need to consider de-duplication.
        """

    @abstractmethod
    def _write_list(self, record: List[Record]) -> Optional[bool]:
        """Writes an entire list to the backing store, replacing any existing
        list.

        This function may be a no-op, in which case it must always return None.
        Otherwise, it should return whether or not the operation succeeded."""

    def __len__(self) -> int:
        if not self.known:
            raise Exception("Empty storage")

        return len(self.known)

    def __enter__(self) -> DataStore:
        return self

    def __exit__(self, exception_type: RaiseType, message: Any,
                 traceback: Any) -> Optional[bool]:
        if self.known:
            if self._write_list(list(self.known.values())) in [False]:
                raise Exception("Error writing list to DataStore")

        return exception_type is None
Beispiel #22
0
class zulilyLogin(object):
    """.. :py:class:: zulilyLogin
        login, check whether login, fetch page.
    """
    def __init__(self):
        """.. :py:method::
            variables need to be used
        """
        self.login_url = 'https://www.zulily.com/auth'
        self.badpage_url = re.compile('.*zulily.com/z/.*html')
        self.rd = SystemRandom()
        self.conf = ConfigParser.ConfigParser()
        self.data = {
            'login[username]': get_login_email('zulily'),
            'login[password]': login_passwd
        }
        self.current_email = self.data['login[username]']
        # self.reg_check = re.compile(r'https://www.zulily.com/auth/create.*') # need to authentication
        self._signin = {}

    def create_new_account(self):
        regist_url = 'https://www.zulily.com/auth/create/'
        regist_data = {
            'firstname': 'first',
            'lastname': 'last',
            'email': ''.join( self.rd.sample(alphabet, 10) ) + '@gmail.com',
            'password': login_passwd,
            'confirmation': login_passwd,
        }
        ret = req.post(regist_url, data=regist_data)
        return ret.url, regist_data['email']

    def change_username(self):
        """
        Already signed up.
        https://www.zulily.com/auth/?email=abcd1234%40gmail.com&firstname=first&lastname=last


        Could not process your sign up. Please try again.
        https://www.zulily.com/auth/create/?email=tty1tty1%40gmail.com&firstname=first&lastname=last
        """
        returl, email = self.create_new_account()
        times = 0
        while returl.startswith('https://www.zulily.com/auth/'):
            returl, email = self.create_new_account()
            times += 1
            if times >= 3:
                time.sleep(600)
                times = 0

        self.conf.read( os.path.join(os.path.dirname(__file__), '../common/username.ini') )
        self.conf.set('username', DB, email)
        self.conf.write(open(os.path.join(os.path.dirname(__file__), '../common/username.ini'), 'w'))
        return email


    def whether_itis_badpage(self, url):
        if self.badpage_url.match(url):
            self.logout_account()
            email = self.change_username()
            self.current_email = email
            self.login_account()
            return True
        else: return False

    def login_account(self):
        """.. :py:method::
            use post method to login
        """
        self.data['login[username]'] = self.current_email
        req.post(self.login_url, data=self.data)
        self._signin[self.current_email] = True

    def logout_account(self):
        req.get('https://www.zulily.com/auth/logout/')

    def check_signin(self, username=''):
        """.. :py:method::
            check whether the account is login
        """
        if username == '':
            self.logout_account()
            self.login_account()
        elif username not in self._signin:
            self.current_email = username
            self.logout_account()
            self.login_account()
        else:
            self.current_email = username

    def fetch_page(self, url):
        """.. :py:method::
            fetch page.
            check whether the account is login, if not, login and fetch again
        """
        ret = req.get(url)
        time.sleep(SLEEP)

        if self.whether_itis_badpage(ret.url):
            ret = req.get(url)

        if ret.url == u'http://www.zulily.com/oops-event':
            return -404
        if ret.url == 'http://www.zulily.com/?tab=new-today':
            self.logout_account()
            self.login_account()
            ret = req.get(url)
        if ret.ok: return ret.content
        return ret.status_code

    def fetch_listing_page(self, url):
        """.. :py:method::
            fetch page.
            check whether the account is login, if not, login and fetch again
        """
        ret = req.get(url)
        time.sleep(SLEEP)

        if self.whether_itis_badpage(ret.url):
            ret = req.get(url)

        if ret.url == u'http://www.zulily.com/oops-event':
            return -404
        if ret.url == u'http://www.zulily.com/' or 'http://www.zulily.com/brand/' in ret.url:
            return -302
        if ret.url == 'http://www.zulily.com/?tab=new-today':
            self.logout_account()
            self.login_account()
            ret = req.get(url)
        if ret.ok: return ret.content
        return ret.status_code
Beispiel #23
0
    22, 23, 24, 25, 26, 27, 28, 29, 30, 31, 32, 33, 34, 35, 36, 37, 38, 39, 40,
    41, 42, 43, 44, 45, 46, 47, 48, 49, 50, 51, 52, 53, 54, 55, 56, 57, 58, 59,
    60, 61, 62, 63, 64, 65, 66, 67, 68, 69, 70
])

red_balls = set([
    1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18, 19, 20, 21,
    22, 23, 24, 25
])

print("Adding entropy to seeder.")
seeder = SystemRandom()

# Create quick pick ticket
print("Selecting quick pick for odds test.")
qp_numbers = seeder.sample(white_balls, 5)
qp_meganumber = seeder.sample(red_balls, 1)
# Sort quick pick
qp_numbers.sort()
# Show quick pick
print("[QP Test]:", str(qp_numbers), str(qp_meganumber))

# Test odds
# TODO: see if using numpy, set, compare, etc is more efficient.
# TODO: Add check for duplicate drawings (from previous)
print("Performing odds test...")
draw_count = 0
loss = 0
zero_and_mega = 0
one_and_mega = 0
two_and_mega = 0
Beispiel #24
0
DRY_RUN = True

url = "smtp.gmail.com"
port = 465
username = "******"
password = "******"

pseudo_id = namedtuple('pseudo_id', ['pseudonym', 'code', 'cryptonym'])

voter_list = voters_in_text.strip().splitlines()
word_list = unique_words.strip().splitlines()

random = SystemRandom()

random_words = random.sample(word_list, len(voter_list))
random_keys = random.sample(code_range, len(voter_list))

print("There are %d voters in upcoming election:\n" % len(voter_list))

for voter in voter_list:
    print(voter)

random.shuffle(voter_list)

print()

print("Distributing pseudonyms...\n")

pseudo = []
Beispiel #25
0
    ROLL_OF_TITLECASE,
    GENERAL_CASE,
)

WORD_FILE = "./eff_large_wordlist.txt"
WORD_DICT = {}

NO_DICE_WORD_FILE = "./diceware8k.txt"
NO_DICE_WORD_LIST = []

nums = tuple(map(str, (0, 1, 2, 3, 4, 5, 6, 7, 8, 9)))
syms = ('&', '.', '-', '$', '_', '@', '!')

mapper = {
    ROLL_OF_NUMBER:
    lambda x: ''.join(sys_rand.sample(nums, sys_rand.randint(2, 7))),
    ROLL_OF_TITLECASE:
    lambda x: x.title(),
    GENERAL_CASE:
    lambda x: x
}

WORDS_TO_GENERATE = 7
PASSPHRASES_TO_GENERATE = 20

map_target_list = []
for i in range(100):
    for k in VALID_CASES_WORD_CHAOS:
        if i <= k:
            map_target_list.append(k)
            break
Beispiel #26
0
            words.add(l)
        wf.close()

    len_words = len(words)
    def count_choices(len_words, word_count):
        if word_count == 1: return len_words
        assert word_count > 1
        return len_words * count_choices(len_words - 1, word_count - 1)

    choices = count_choices(len_words, word_count)
    choices_desc = '%2d*[%d words (%d-%d letters) from %s]' % (
        word_count, len_words, min_word_len, max_word_len,
        ':'.join(words_paths), )
    entropies.append((choices, choices_desc, ))
    if len(entropies) > 1:
        print 'Bit Entropy comparisons'
    entropies.sort()
    for (n, d, ) in entropies:
        print '%5.1f bits - %s' % (math.log(n, 2), d, )

    random = SystemRandom()
    words = random.sample(words, word_count)
    for word in words:
        print word

    print word_separator.join(words)


if __name__ == '__main__':
    main()
Beispiel #27
0
from json import dump
from random import SystemRandom

random = SystemRandom()

k, n, d = 20, 120, 0.8

B = 2**(n / d)
A = [random.randint(1, B) for _ in range(n)]
s = sum(A[index] for index in random.sample(range(n), k))

dump((s, A), open("data", "w"))