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randomness_choice.py
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randomness_choice.py
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#!/usr/bin/python3
import sys
from randomness_mixer import get_random_bytes
from randomness_mixer import get_hash
global_accumulator = list()
global_use_mouse = True
def use_mouse(b):
assert type(b) == bool
global global_use_mouse
global_use_mouse = b
def refill_global_accumulator():
global global_accumulator
global global_use_mouse
print("Refilling the random numbers accumulator - refill_global_accumulator() called.")
this_hash = b''
#this_hash = get_hash()
#from hashlib import sha512
#this_hash = sha512(get_random_bytes(256)).digest()
this_hash = get_hash(use_mouse=global_use_mouse)
assert this_hash != b''
assert isinstance(global_accumulator, list)
global_accumulator += list(this_hash)
assert isinstance(global_accumulator, list)
def get_random_bytes_from_global_accumulator(howmany):
assert isinstance(howmany, int)
assert howmany > 0
global global_accumulator
while len(global_accumulator) < howmany:
refill_global_accumulator()
result = bytearray()
for c in range(howmany):
result += bytes(global_accumulator.pop(0).to_bytes(1, 'big'))
assert len(result) == howmany
return result
def how_many_bytes_are_needed(n):
if n < 0:
raise ValueError("The number should not be negative.")
i = 0
while(n > 0):
n = n >> 8;
i += 1;
return i
def get_integer_from_accumulator(size):
assert size > 0
assert isinstance(size, int)
return int.from_bytes(get_random_bytes_from_global_accumulator(size), 'big')
# get random integer from [0, exclusive_upper_bound)
def random_below(exclusive_upper_bound):
if not (isinstance(exclusive_upper_bound, int) and (exclusive_upper_bound > 0)):
raise ValueError("Upper bound must be positive integer.")
if (exclusive_upper_bound == 1):
return 0
inclusive_upper_bound = exclusive_upper_bound - 1
# Intentionally adding one more byte to reduce the cycles
how_many_bytes = 1 + how_many_bytes_are_needed(inclusive_upper_bound)
source_exclusive_upper_bound = 256 ** how_many_bytes
source_inclusive_upper_bound = source_exclusive_upper_bound - 1
assert source_exclusive_upper_bound >= exclusive_upper_bound
# floor division is used
buckets = source_inclusive_upper_bound // exclusive_upper_bound
assert isinstance(buckets, int)
assert buckets > 0
while (True):
r = get_integer_from_accumulator(how_many_bytes) // buckets
if r < ( exclusive_upper_bound):
return r
def main():
global global_use_mouse
if len(sys.argv) > 2:
print("Too many arguments.")
quit()
elif len(sys.argv) == 2:
if (sys.argv[1] == "nomouse") or (sys.argv[1] == "nomice"):
print("The mouse will not be used as randomness source.")
use_mouse(False)
else:
print("Invalid argument.")
quit()
while True:
try:
exclusive_range = int(input("Exclusive range: "))
except ValueError as detail:
print(" Wrong input.", detail)
continue
if exclusive_range < 1:
print ("Invalid number, it should be positive.")
elif exclusive_range < 2:
print ("It does not make senese to ask for a random number between 0 and 0.")
else:
break
while True:
try:
how_many = int(input("How many random numbers you need: "))
except ValueError as detail:
print(" Wrong input.", detail)
continue
if how_many < 1:
print ("It does not make senese to ask for a less than 1 random number.")
else:
break
list_of_random_numbers = list()
for c in range(how_many):
list_of_random_numbers.append(random_below(exclusive_range))
print (how_many, "random numbers between 0 and", exclusive_range - 1, ":")
print (list_of_random_numbers)
if __name__ == "__main__":
main()