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p = 3
q = 11
n = 33
phi = 20
e = 7
d = 3

If I want to encrypt the number 123, I would do (123^7) % 33, which equals18. Now if I want to decrypt 18, I do (18^3) % 33, which gives me 24. As you can see, the input number and decrypted number is not the same. Does anyone know why this is? Also does this mean I have to break the number 123 up into single digits and then encrypt 1, 2 and 3 separately?

EDIT: I am aware that due to the value of n, anything I mod by n would be lower than n. Does that mean I have to intially choose very large numbers for p and q?

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If your number to be encrypted is larger than n, you can write in base-n and you encrypt it's (base-n) digits separately. –  ypercube Nov 16 '12 at 11:23

1 Answer 1

From the Wikipedia page for RSA (my emphasis):

Bob then wishes to send message M to Alice.

He first turns M into an integer m, such that 0 <= m < n by using an agreed-upon reversible protocol known as a padding scheme. He then computes the ciphertext c corresponding to

c = m^e (mod n)

Your m (123) is not less than n (33), so it doesn't work. So yes, you would need to start with larger p and q to get a larger n.

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