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generate_input.py
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generate_input.py
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#! /usr/bin/env python3
import json
import secrets
from secrets import randbits, randbelow
import sys
# CAUTION: `random` isn't cryptographically secure. In general, prefer to use
# `secrets`. But `secrets` currently lacks a shuffle() function, so we just
# import that specific function from `random`.
from random import shuffle
import hashlib
animals = [
"aardvark",
"butterfly",
"cat",
"dog",
"elephant",
"fox",
"giraffe",
"hippopotamus",
"iguana",
"jaguar",
"kangaroo",
"llama",
"manatee",
"narwhal",
"octopus",
"pig",
"quail",
"rhinoceros",
"sheep",
"turkey",
"unicorn",
"vulture",
"wombat",
"xenoceratops",
"yak",
"zebra",
]
def random_animals(n):
return " ".join(secrets.choice(animals) for _ in range(n))
def random_string(n):
return random_animals(n)[:n]
inputs = {}
### Building Blocks
# Problem 1
inputs["problem1"] = [
[1, 2],
[(2**32) - 1, 1],
# Something random that will overflow.
[(2**31) + randbits(31), (2**31) + randbits(31)],
]
# Problem 2
inputs["problem2"] = [
[2, 1],
[1, 1],
# Avoid generating pathological rotations (0 or 32). Bitshifting by those
# amounts is weird in C/C++/Rust.
[randbits(32), randbelow(31) + 1],
]
### The Message Schedule
# Problem 3
inputs["problem3"] = randbits(32)
# Problem 4
inputs["problem4"] = randbits(32)
# Problem 5
inputs["problem5"] = random_string(64)
### The Round Function
# Problem 6
inputs["problem6"] = randbits(32)
# Problem 7
inputs["problem7"] = randbits(32)
# Problem 8
inputs["problem8"] = [randbits(32), randbits(32), randbits(32)]
# Problem 9
inputs["problem9"] = [randbits(32), randbits(32), randbits(32)]
# Problem 10
state = [randbits(32) for _ in range(8)]
inputs["problem10"] = {
"state": [randbits(32) for _ in range(8)],
"round_constant": 0x428A2F98,
"schedule_word": randbits(32),
}
### The Compression Function
# Problem 11
inputs["problem11"] = {
"state": [randbits(32) for _ in range(8)],
"block": random_string(64),
}
### Padding
# Problem 12
inputs["problem12"] = [
0,
1,
55,
56,
64,
secrets.randbits(61), # not 64, because of the x8 step
]
### The Hash Function
# Problem 13
lyrics = "John Jacob Jingleheimer Schmidt! His name is my name too. Whenever we go out the people always shout there goes John Jacob Jingleheimer Schmidt! Nanananananana..."
inputs["problem13"] = [
"",
"hello world",
random_string(55),
random_string(56),
lyrics,
]
### The Length Extension Attack
# Problem 14
inputs["problem14"] = {
"original_input": random_animals(3),
"chosen_suffix": random_animals(3),
}
# Problem 15
inputs["problem15"] = secrets.token_bytes(32).hex()
# Problem 16
hidden_input = random_animals(10)
inputs["problem16"] = {
"original_hash": hashlib.sha256(hidden_input.encode()).hexdigest(),
"original_len": len(hidden_input),
"chosen_suffix": random_animals(5),
}
json.dump(inputs, sys.stdout, indent=" ")
print()