import os
import sys
from . import rsa_key_generator as rkg
DEFAULT_BLOCK_SIZE = 128
BYTE_SIZE = 256
def get_blocks_from_text(
message: str, block_size: int = DEFAULT_BLOCK_SIZE
) -> list[int]:
message_bytes = message.encode("ascii")
block_ints = []
for block_start in range(0, len(message_bytes), block_size):
block_int = 0
for i in range(block_start, min(block_start + block_size, len(message_bytes))):
block_int += message_bytes[i] * (BYTE_SIZE ** (i % block_size))
block_ints.append(block_int)
return block_ints
def get_text_from_blocks(
block_ints: list[int], message_length: int, block_size: int = DEFAULT_BLOCK_SIZE
) -> str:
message: list[str] = []
for block_int in block_ints:
block_message: list[str] = []
for i in range(block_size - 1, -1, -1):
if len(message) + i < message_length:
ascii_number = block_int // (BYTE_SIZE**i)
block_int = block_int % (BYTE_SIZE**i)
block_message.insert(0, chr(ascii_number))
message.extend(block_message)
return "".join(message)
def encrypt_message(
message: str, key: tuple[int, int], blockSize: int = DEFAULT_BLOCK_SIZE
) -> list[int]:
encrypted_blocks = []
n, e = key
for block in get_blocks_from_text(message, blockSize):
encrypted_blocks.append(pow(block, e, n))
return encrypted_blocks
def decrypt_message(
encrypted_blocks: list[int],
message_length: int,
key: tuple[int, int],
block_size: int = DEFAULT_BLOCK_SIZE,
) -> str:
decrypted_blocks = []
n, d = key
for block in encrypted_blocks:
decrypted_blocks.append(pow(block, d, n))
return get_text_from_blocks(decrypted_blocks, message_length, block_size)
def read_key_file(key_filename: str) -> tuple[int, int, int]:
with open(key_filename) as fo:
content = fo.read()
key_size, n, EorD = content.split(",")
return (int(key_size), int(n), int(EorD))
def encrypt_and_write_to_file(
message_filename: str,
key_filename: str,
message: str,
block_size: int = DEFAULT_BLOCK_SIZE,
) -> str:
key_size, n, e = read_key_file(key_filename)
if key_size < block_size * 8:
sys.exit(
"ERROR: Block size is %s bits and key size is %s bits. The RSA cipher "
"requires the block size to be equal to or greater than the key size. "
"Either decrease the block size or use different keys."
% (block_size * 8, key_size)
)
encrypted_blocks = [str(i) for i in encrypt_message(message, (n, e), block_size)]
encrypted_content = ",".join(encrypted_blocks)
encrypted_content = f"{len(message)}_{block_size}_{encrypted_content}"
with open(message_filename, "w") as fo:
fo.write(encrypted_content)
return encrypted_content
def read_from_file_and_decrypt(message_filename: str, key_filename: str) -> str:
key_size, n, d = read_key_file(key_filename)
with open(message_filename) as fo:
content = fo.read()
message_length_str, block_size_str, encrypted_message = content.split("_")
message_length = int(message_length_str)
block_size = int(block_size_str)
if key_size < block_size * 8:
sys.exit(
"ERROR: Block size is %s bits and key size is %s bits. The RSA cipher "
"requires the block size to be equal to or greater than the key size. "
"Did you specify the correct key file and encrypted file?"
% (block_size * 8, key_size)
)
encrypted_blocks = []
for block in encrypted_message.split(","):
encrypted_blocks.append(int(block))
return decrypt_message(encrypted_blocks, message_length, (n, d), block_size)
def main() -> None:
filename = "encrypted_file.txt"
response = input(r"Encrypt\Decrypt [e\d]: ")
if response.lower().startswith("e"):
mode = "encrypt"
elif response.lower().startswith("d"):
mode = "decrypt"
if mode == "encrypt":
if not os.path.exists("rsa_pubkey.txt"):
rkg.makeKeyFiles("rsa", 1024)
message = input("\nEnter message: ")
pubkey_filename = "rsa_pubkey.txt"
print("Encrypting and writing to %s..." % (filename))
encryptedText = encrypt_and_write_to_file(filename, pubkey_filename, message)
print("\nEncrypted text:")
print(encryptedText)
elif mode == "decrypt":
privkey_filename = "rsa_privkey.txt"
print("Reading from %s and decrypting..." % (filename))
decrypted_text = read_from_file_and_decrypt(filename, privkey_filename)
print("writing decryption to rsa_decryption.txt...")
with open("rsa_decryption.txt", "w") as dec:
dec.write(decrypted_text)
print("\nDecryption:")
print(decrypted_text)
if __name__ == "__main__":
main()