hesham-rsa/rsa.py

#!/usr/bin/python3

#program to generate rsa key pair using methods in EE-305
# Hesham Banafa 

import math
import os
import sys

def main():
    
    if sys.argv[1] == "gen" and len(sys.argv) == 4: ##rsa gen <keysize> <keyname>
        n ,e ,d = generateKeys(int(sys.argv[2]))
        key = (n, e, d)
        keyFileName = sys.argv[3]
        try:
            saveKeyFile(key, keyFileName)
        except IOError:
            print("could not write file")
            exit(1)
        except Exception as ex:
            print(ex)
            exit(1)
    if len(sys.argv) == 4:
        if sys.argv[1] == "encrypt": ##rsa encrypt <message> <key>
            msg = sys.argv[2]
            keyName = sys.argv[3]
            key = readKeyFile(keyName)
            key_public = (key[0], key[1])
            msg_encrypted = encrypt(msg, key_public)
            print("Encrypted msg: ", msg_encrypted)
        if sys.argv[1] == "decrypt": ##rsa decrypt <cipher> <key>
            cipher = int(sys.argv[2])
            key = readKeyFile(sys.argv[3])
            #with open(fileName, "r") as cipherFile:
            #    cipher = int(cipherFile.readline()) ##one line may make problems later with padding
            msg = decrypt(cipher, key[2],key[0])
            print("Decrypted message: ", msg)


def generateKeys(bits=64):
    #Primes of size 32 bit random
    #resulting in a 64-bit key mod
    p = getPrime(int(bits/2))
    q = getPrime(int(bits/2))
    n = p*q
    #print("n: ", n)
    print("%d bit key" % n.bit_length())

    #lamda(n) = LCM(p-1, q-1)
    #Since LCM(a,b) = ab/GCD(a,b)
    #gcd = math.gcd(p-1, q-1)
    #print("GCD: ", gcd)
    #lcm = abs((p-1) * (q-1)) / gcd
    #print("LCM: ", lcm)
    phi = (p-1)*(q-1)
    #print("phi: ", phi)
    #e exponant should be 1 < e < lamda(n) and GCD(e, lamda(n)) = 1 (coprime)
    # recommended value is 65,537
    e = 65537
    d = pow(e,-1,phi)
    #print("d: ", d)
    print("---------------------------------")
    print("public key (%s/%s)" % (hex(n),hex(e)))
    return n, e, d

def encrypt(message, publicKey):
    msg_text = message
    n = publicKey[0]
    e = publicKey[1]
    print("using n: {0}, e: {1}".format(n, e))

    msg_number_form = int.from_bytes(msg_text.encode(),"little")
    print("Message: %s or %d" % (msg_text, msg_number_form))

    msg_encrypted_number_form = pow(msg_number_form, e, n) # c = msg^e mod n
    return msg_encrypted_number_form

def decrypt(cipher, privateKey, n):
    msg_encrypted_number_form = cipher
    d = privateKey
    msg_decrypted_number_form = pow(msg_encrypted_number_form, d, n) # msg = c^d mod n
    msg_decrypted = int(msg_decrypted_number_form)
    try:
        msg_decrypted = str(msg_decrypted.to_bytes(msg_decrypted.bit_length(), "little").decode()).strip()
    except UnicodeDecodeError:
        print("Cant decrypt properly")
    return msg_decrypted

def getPrime(bits):
    while True:
        #Byte order "little" or "big" does not matter here since we want a random number from os.urandom()
        x = int.from_bytes(os.urandom(int(bits/8)),"little")
        print("trying: ", x)
        if isPrime(x):
            return x


def isPrime(number):
    if number == 2:
        return True

    #if 2 devides number then num is not prime. pg.21
    if number % 2 == 0 or number == 1:
        return False

    #largest integer less than or equal square root of number (K)
    rootOfNum = math.sqrt(number)
    K = math.floor(rootOfNum)

    #Take odd D such that 1 < D <= K
    #If D devides number then number is not prime. otherwise prime.
    for D in range(1, K, 2):
        if D % 2 == 0 or D == 1:
            pass
        else:
            if number % D == 0 or number % 5 == 0:
                return False
    return True

def readKeyFile(keyName):
    key = tuple()
    with open(keyName, "r") as keyFile:
        tempkey = keyFile.readlines()
        key = (int(tempkey[0].strip(), 16), int(tempkey[1].strip(), 16), int(tempkey[2].strip(), 16))
    return key
    

def saveKeyFile(key, fileName):
    with open(fileName, "w") as keyFile:
        keyFile.write("{0}\n{1}\n{2}\n".format(hex(key[0]), hex(key[1]), hex(key[2])))

if __name__ == "__main__":
    main()
init commit 2020-04-15 23:05:03 +02:00			`#!/usr/bin/python3`

			`#program to generate rsa key pair using methods in EE-305`
			`# Hesham Banafa`

isPrime() method working with good accuracy. needs more testing. 2020-04-16 04:07:52 +02:00			`import math`
getPrime() method working. gets random prime based on bit size. 2020-04-16 04:54:36 +02:00			`import os`
Interfacing changes: - Split into methods. - Added a cli interface with commands 'gen <filename>' to generate keys and 'encrypt <message> <publicKey>' to encrypt a message to the passed key. - Read and save keys. 2020-04-16 11:35:42 +02:00			`import sys`
init commit 2020-04-15 23:05:03 +02:00
			`def main():`
Interfacing changes: - Split into methods. - Added a cli interface with commands 'gen <filename>' to generate keys and 'encrypt <message> <publicKey>' to encrypt a message to the passed key. - Read and save keys. 2020-04-16 11:35:42 +02:00
improved interface - Accept key generation size. (not practical above 64-bit) - Decrypt from command args only for now - Catch Unicode Decode Error cuased by wong key or size. 2020-04-16 17:56:04 +02:00			`if sys.argv[1] == "gen" and len(sys.argv) == 4: ##rsa gen <keysize> <keyname>`
			`n ,e ,d = generateKeys(int(sys.argv[2]))`
Interfacing changes: - Split into methods. - Added a cli interface with commands 'gen <filename>' to generate keys and 'encrypt <message> <publicKey>' to encrypt a message to the passed key. - Read and save keys. 2020-04-16 11:35:42 +02:00			`key = (n, e, d)`
improved interface - Accept key generation size. (not practical above 64-bit) - Decrypt from command args only for now - Catch Unicode Decode Error cuased by wong key or size. 2020-04-16 17:56:04 +02:00			`keyFileName = sys.argv[3]`
Interfacing changes: - Split into methods. - Added a cli interface with commands 'gen <filename>' to generate keys and 'encrypt <message> <publicKey>' to encrypt a message to the passed key. - Read and save keys. 2020-04-16 11:35:42 +02:00			`try:`
			`saveKeyFile(key, keyFileName)`
			`except IOError:`
			`print("could not write file")`
			`exit(1)`
			`except Exception as ex:`
			`print(ex)`
			`exit(1)`
Working interface. - Encrypt a signle word message. for now - Decrypt only with target private key - Runtime errors when using wrong key to decrypt or message too long. 2020-04-16 13:33:24 +02:00			`if len(sys.argv) == 4:`
			`if sys.argv[1] == "encrypt": ##rsa encrypt <message> <key>`
			`msg = sys.argv[2]`
			`keyName = sys.argv[3]`
			`key = readKeyFile(keyName)`
			`key_public = (key[0], key[1])`
			`msg_encrypted = encrypt(msg, key_public)`
			`print("Encrypted msg: ", msg_encrypted)`
			`if sys.argv[1] == "decrypt": ##rsa decrypt <cipher> <key>`
improved interface - Accept key generation size. (not practical above 64-bit) - Decrypt from command args only for now - Catch Unicode Decode Error cuased by wong key or size. 2020-04-16 17:56:04 +02:00			`cipher = int(sys.argv[2])`
Working interface. - Encrypt a signle word message. for now - Decrypt only with target private key - Runtime errors when using wrong key to decrypt or message too long. 2020-04-16 13:33:24 +02:00			`key = readKeyFile(sys.argv[3])`
improved interface - Accept key generation size. (not practical above 64-bit) - Decrypt from command args only for now - Catch Unicode Decode Error cuased by wong key or size. 2020-04-16 17:56:04 +02:00			`#with open(fileName, "r") as cipherFile:`
			`# cipher = int(cipherFile.readline()) ##one line may make problems later with padding`
Working interface. - Encrypt a signle word message. for now - Decrypt only with target private key - Runtime errors when using wrong key to decrypt or message too long. 2020-04-16 13:33:24 +02:00			`msg = decrypt(cipher, key[2],key[0])`
			`print("Decrypted message: ", msg)`



isPrime() method working with good accuracy. needs more testing. 2020-04-16 04:07:52 +02:00
Interfacing changes: - Split into methods. - Added a cli interface with commands 'gen <filename>' to generate keys and 'encrypt <message> <publicKey>' to encrypt a message to the passed key. - Read and save keys. 2020-04-16 11:35:42 +02:00			`def generateKeys(bits=64):`
Working key pair generation, encryption and decryption TODO: - Clean up - Split into methods - Save a key pair in a file (interactivly)? 2020-04-16 08:48:31 +02:00			`#Primes of size 32 bit random`
			`#resulting in a 64-bit key mod`
Interfacing changes: - Split into methods. - Added a cli interface with commands 'gen <filename>' to generate keys and 'encrypt <message> <publicKey>' to encrypt a message to the passed key. - Read and save keys. 2020-04-16 11:35:42 +02:00			`p = getPrime(int(bits/2))`
			`q = getPrime(int(bits/2))`
Working key pair generation, encryption and decryption TODO: - Clean up - Split into methods - Save a key pair in a file (interactivly)? 2020-04-16 08:48:31 +02:00			`n = p*q`
Interfacing changes: - Split into methods. - Added a cli interface with commands 'gen <filename>' to generate keys and 'encrypt <message> <publicKey>' to encrypt a message to the passed key. - Read and save keys. 2020-04-16 11:35:42 +02:00			`#print("n: ", n)`
Working key pair generation, encryption and decryption TODO: - Clean up - Split into methods - Save a key pair in a file (interactivly)? 2020-04-16 08:48:31 +02:00			`print("%d bit key" % n.bit_length())`

			`#lamda(n) = LCM(p-1, q-1)`
			`#Since LCM(a,b) = ab/GCD(a,b)`
			`#gcd = math.gcd(p-1, q-1)`
			`#print("GCD: ", gcd)`
			`#lcm = abs((p-1) * (q-1)) / gcd`
			`#print("LCM: ", lcm)`
			`phi = (p-1)*(q-1)`
Interfacing changes: - Split into methods. - Added a cli interface with commands 'gen <filename>' to generate keys and 'encrypt <message> <publicKey>' to encrypt a message to the passed key. - Read and save keys. 2020-04-16 11:35:42 +02:00			`#print("phi: ", phi)`
Working key pair generation, encryption and decryption TODO: - Clean up - Split into methods - Save a key pair in a file (interactivly)? 2020-04-16 08:48:31 +02:00			`#e exponant should be 1 < e < lamda(n) and GCD(e, lamda(n)) = 1 (coprime)`
			`# recommended value is 65,537`
			`e = 65537`
			`d = pow(e,-1,phi)`
Interfacing changes: - Split into methods. - Added a cli interface with commands 'gen <filename>' to generate keys and 'encrypt <message> <publicKey>' to encrypt a message to the passed key. - Read and save keys. 2020-04-16 11:35:42 +02:00			`#print("d: ", d)`
			`print("---------------------------------")`
Changed key representation to hex r-16. Signed-off-by: HeshamTB <hishaminv@gmail.com> 2020-04-17 03:38:09 +02:00			`print("public key (%s/%s)" % (hex(n),hex(e)))`
Interfacing changes: - Split into methods. - Added a cli interface with commands 'gen <filename>' to generate keys and 'encrypt <message> <publicKey>' to encrypt a message to the passed key. - Read and save keys. 2020-04-16 11:35:42 +02:00			`return n, e, d`
Working key pair generation, encryption and decryption TODO: - Clean up - Split into methods - Save a key pair in a file (interactivly)? 2020-04-16 08:48:31 +02:00
Interfacing changes: - Split into methods. - Added a cli interface with commands 'gen <filename>' to generate keys and 'encrypt <message> <publicKey>' to encrypt a message to the passed key. - Read and save keys. 2020-04-16 11:35:42 +02:00			`def encrypt(message, publicKey):`
Working interface. - Encrypt a signle word message. for now - Decrypt only with target private key - Runtime errors when using wrong key to decrypt or message too long. 2020-04-16 13:33:24 +02:00			`msg_text = message`
			`n = publicKey[0]`
			`e = publicKey[1]`
			`print("using n: {0}, e: {1}".format(n, e))`

			`msg_number_form = int.from_bytes(msg_text.encode(),"little")`
			`print("Message: %s or %d" % (msg_text, msg_number_form))`

			`msg_encrypted_number_form = pow(msg_number_form, e, n) # c = msg^e mod n`
			`return msg_encrypted_number_form`
Working key pair generation, encryption and decryption TODO: - Clean up - Split into methods - Save a key pair in a file (interactivly)? 2020-04-16 08:48:31 +02:00
Interfacing changes: - Split into methods. - Added a cli interface with commands 'gen <filename>' to generate keys and 'encrypt <message> <publicKey>' to encrypt a message to the passed key. - Read and save keys. 2020-04-16 11:35:42 +02:00			`def decrypt(cipher, privateKey, n):`
Working interface. - Encrypt a signle word message. for now - Decrypt only with target private key - Runtime errors when using wrong key to decrypt or message too long. 2020-04-16 13:33:24 +02:00			`msg_encrypted_number_form = cipher`
			`d = privateKey`
Changed key representation to hex r-16. Signed-off-by: HeshamTB <hishaminv@gmail.com> 2020-04-17 03:38:09 +02:00			`msg_decrypted_number_form = pow(msg_encrypted_number_form, d, n) # msg = c^d mod n`
Working interface. - Encrypt a signle word message. for now - Decrypt only with target private key - Runtime errors when using wrong key to decrypt or message too long. 2020-04-16 13:33:24 +02:00			`msg_decrypted = int(msg_decrypted_number_form)`
improved interface - Accept key generation size. (not practical above 64-bit) - Decrypt from command args only for now - Catch Unicode Decode Error cuased by wong key or size. 2020-04-16 17:56:04 +02:00			`try:`
			`msg_decrypted = str(msg_decrypted.to_bytes(msg_decrypted.bit_length(), "little").decode()).strip()`
			`except UnicodeDecodeError:`
			`print("Cant decrypt properly")`
Working interface. - Encrypt a signle word message. for now - Decrypt only with target private key - Runtime errors when using wrong key to decrypt or message too long. 2020-04-16 13:33:24 +02:00			`return msg_decrypted`
init commit 2020-04-15 23:05:03 +02:00
			`def getPrime(bits):`
getPrime() method working. gets random prime based on bit size. 2020-04-16 04:54:36 +02:00			`while True:`
Working key pair generation, encryption and decryption TODO: - Clean up - Split into methods - Save a key pair in a file (interactivly)? 2020-04-16 08:48:31 +02:00			`#Byte order "little" or "big" does not matter here since we want a random number from os.urandom()`
getPrime() method working. gets random prime based on bit size. 2020-04-16 04:54:36 +02:00			`x = int.from_bytes(os.urandom(int(bits/8)),"little")`
improved interface - Accept key generation size. (not practical above 64-bit) - Decrypt from command args only for now - Catch Unicode Decode Error cuased by wong key or size. 2020-04-16 17:56:04 +02:00			`print("trying: ", x)`
getPrime() method working. gets random prime based on bit size. 2020-04-16 04:54:36 +02:00			`if isPrime(x):`
			`return x`

init commit 2020-04-15 23:05:03 +02:00
			`def isPrime(number):`
isPrime() method working with good accuracy. needs more testing. 2020-04-16 04:07:52 +02:00			`if number == 2:`
			`return True`

			`#if 2 devides number then num is not prime. pg.21`
			`if number % 2 == 0 or number == 1:`
			`return False`

			`#largest integer less than or equal square root of number (K)`
			`rootOfNum = math.sqrt(number)`
			`K = math.floor(rootOfNum)`

			`#Take odd D such that 1 < D <= K`
			`#If D devides number then number is not prime. otherwise prime.`
isPrime() function/algo optimization: insted of taking all integers from 2 to K, take only odds since we know that the even prime is 2. This should in theory reduce the time to check primilaty to half. 2020-04-16 20:51:36 +02:00			`for D in range(1, K, 2):`
			`if D % 2 == 0 or D == 1:`
isPrime() method working with good accuracy. needs more testing. 2020-04-16 04:07:52 +02:00			`pass`
			`else:`
			`if number % D == 0 or number % 5 == 0:`
			`return False`
			`return True`
init commit 2020-04-15 23:05:03 +02:00
Interfacing changes: - Split into methods. - Added a cli interface with commands 'gen <filename>' to generate keys and 'encrypt <message> <publicKey>' to encrypt a message to the passed key. - Read and save keys. 2020-04-16 11:35:42 +02:00			`def readKeyFile(keyName):`
			`key = tuple()`
Changed key representation to hex r-16. Signed-off-by: HeshamTB <hishaminv@gmail.com> 2020-04-17 03:38:09 +02:00			`with open(keyName, "r") as keyFile:`
Interfacing changes: - Split into methods. - Added a cli interface with commands 'gen <filename>' to generate keys and 'encrypt <message> <publicKey>' to encrypt a message to the passed key. - Read and save keys. 2020-04-16 11:35:42 +02:00			`tempkey = keyFile.readlines()`
Changed key representation to hex r-16. Signed-off-by: HeshamTB <hishaminv@gmail.com> 2020-04-17 03:38:09 +02:00			`key = (int(tempkey[0].strip(), 16), int(tempkey[1].strip(), 16), int(tempkey[2].strip(), 16))`
Interfacing changes: - Split into methods. - Added a cli interface with commands 'gen <filename>' to generate keys and 'encrypt <message> <publicKey>' to encrypt a message to the passed key. - Read and save keys. 2020-04-16 11:35:42 +02:00			`return key`


			`def saveKeyFile(key, fileName):`
			`with open(fileName, "w") as keyFile:`
Changed key representation to hex r-16. Signed-off-by: HeshamTB <hishaminv@gmail.com> 2020-04-17 03:38:09 +02:00			`keyFile.write("{0}\n{1}\n{2}\n".format(hex(key[0]), hex(key[1]), hex(key[2])))`
init commit 2020-04-15 23:05:03 +02:00
			`if __name__ == "__main__":`
			`main()`