Jiiiiiin / cryptico

An easy-to-use encryption system utilizing RSA and AES for javascript.

Home Page:http://wwwtyro.github.com/cryptico

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cryptico

Overview

Generating an RSA key pair & public key string

Sam wants to send Matt an encrypted message. In order to do this, he first needs Matt's public key string. A public key pair can be generated for Matt like this:

// The passphrase used to repeatably generate this RSA key.
var PassPhrase = "The Moon is a Harsh Mistress."; 

// The length of the RSA key, in bits.
var Bits = 1024; 

var MattsRSAkey = cryptico.generateRSAKey(PassPhrase, Bits);

Matt's public key string can then be generated like this:

var MattsPublicKeyString = cryptico.publicKeyString(MattsRSAkey);       

and looks like this:

uXjrkGqe5WuS7zsTg6Z9DuS8cXLFz38ue+xrFzxrcQJCXtVccCoUFP2qH/AQ
4qMvxxvqkSYBpRm1R5a4/NdQ5ei8sE8gfZEq7dlcR+gOSv3nnS4/CX1n5Z5m
8bvFPF0lSZnYQ23xlyjXTaNacmV0IuZbqWd4j9LfdAKq5dvDaoE=

Encrypting a message

Matt emails Sam his public key string. Now Sam can encrypt a message for Matt:

var PlainText = "Matt, I need you to help me with my Starcraft strategy.";

var EncryptionResult = cryptico.encrypt(PlainText, MattsPublicKeyString);

EncryptionResult.cipher is the encrypted message, and looks like this:

OOHoAlfm6Viyl7afkUVRoYQv24AfdLnxaay5GjcqpxvEK+dph5kUFZEZIFKo
vVoHoZbtUMekSbMqHQr3wNNpvcNWr4E3DgNLfMZQA1pCAUVmPjNM1ZQmrkKY
HPKvkhmVKaBiYAJGoO/YiFfKnaylLpKOYJZctkZc4wflZcEEqqg=?cJPt71I
HcU5c2LgqGXQKcx2BaAbm25Q2Ku94c933LX5MObL9qbTJEVEv29U0C3gIqcd
qwMV6nl33GtHjyRdHx5fZcon21glUKIbE9P71NwQ=

Decrypting a message

Sam sends his encrypted message to Matt. The message can be decrypted like this:

var CipherText = "OOHoAlfm6Viyl7afkUVRoYQv24AfdLnxaay5GjcqpxvEK+dph5kUFZEZIFKo \
                  vVoHoZbtUMekSbMqHQr3wNNpvcNWr4E3DgNLfMZQA1pCAUVmPjNM1ZQmrkKY \
                  HPKvkhmVKaBiYAJGoO/YiFfKnaylLpKOYJZctkZc4wflZcEEqqg=?cJPt71I \
                  HcU5c2LgqGXQKcx2BaAbm25Q2Ku94c933LX5MObL9qbTJEVEv29U0C3gIqcd \
                  qwMV6nl33GtHjyRdHx5fZcon21glUKIbE9P71NwQ=";

var DecryptionResult = cryptico.decrypt(CipherText, MattsRSAkey);

The decrypted message is in DecryptionResult.plaintext.

Signatures & Public Key IDs

If Sam's RSA key is provided to the cryptico.encrypt function, the message will be signed by him:

var PassPhrase = "There Ain't No Such Thing As A Free Lunch."; 

var SamsRSAkey = cryptico.generateRSAKey(PassPhrase, 1024);

var PlainText = "Matt, I need you to help me with my Starcraft strategy.";

var EncryptionResult = cryptico.encrypt(PlainText, MattsPublicKeyString, SamsRSAkey);

The public key associated with the signature can be used by Matt to make sure that it was sent by Sam, but there are a lot of characters to examine in the key - it would be easy to make a mistake. Instead, the public key string associated with the signature can be processed like this:

var PublicKeyID = cryptico.publicKeyID(EncryptionResult.publickey);

and PublicKeyID would look something like this:

d0bffb0c422dfa3d3d8502040b915248

This shorter key ID can be used to uniquely identify Sam's public key more easily if it must be done manually. Moreover, this key ID can be used by Sam or Matt to make sure they have typed their own passphrases correctly.

API Documentation

RSA Keys

cryptico.generateRSAKey(passphrase, bitlength)

Generates an RSAKey object from a password and bitlength.

passphrase: string from which the RSA key is generated.

bitlength: integer, length of the RSA key (512, 1024, 2048, 4096, 8192).

Returns an RSAKey object.

cryptico.publicKeyString(rsakey)

Returns the public key portion of an RSAKey object in ascii-armored string form, which allows it to be used on websites and in text files without fear of corrupting the public key.

rsakey: An RSAKey object.

Returns an ascii-armored public key string.

cryptico.publicKeyID(publicKeyString)

Returns an MD5 sum of a publicKeyString for easier identification.

publicKeyString: a public key in ascii-armored string form, as generated by the cryptico.publicKeyString function.

Returns an MD5 sum of the public key string.

Encryption

cryptico.encrypt(plaintext, publicKeyString, signingKey)

Encrypts a string with the provided public key. Optionally signs the encrypted string with an RSAKey object.

plaintext: the string to be encrypted.

publicKeyString: The public key string of the recipient.

signingKey: the RSAKey object of the sender.

Returns: status, cipher

status: "success" if encryption succeeded, "failure" if it failed.

cipher: An ascii-armored encrypted message string, optionally signed.

Decryption

cryptico.decrypt(ciphertext, key)

Decrypts an encrypted message with the recipient's RSAKey and verifies the signature, if any.

ciphertext: The encrypted message to be decrypted.

key: The RSAKey object of the recipient.

Returns: status, plaintext, signature, publicKeyString

status: "success" if decryption succeeded, "failure" if it failed. Does not reflect the status of the signature verification.

plaintext: The decrypted message.

signature: "unsigned" if there was no signature, "verified" if it is signed and valid, "forged" if the signature fails verification.

publicKeyString: public key string of the signature (presumably the sender). Returned even if the signature appears to be forged.

Encryption Technical Documentation

Key generation

A hash is generated of the user's passphrase using the SHA256 algorithm found at webtoolkit.info. This hash is used to seed David Bau's seedable random number generator. A (seeded) random RSA key is generated with Tom Wu's RSA key generator with 3 as a hard-coded public exponent.

Encryption

A 32-byte AES key is generated with Tom Wu's random number generator. The plaintext message is converted to a byte string and padded with zeros to 16 bytes round. An initialization vector is created with Tom Wu's random number generator. The AES key is expanded and the plaintext message is encrypted with the Cipher-block chaining mode using the jsaes library. The AES key is encrypted with the recipient's public key using Tom Wu's RSA encryption library.

The encrypted AES key and encrypted message are ascii-armored and concatenated with the "?" character as a delimiter. As an example, here is the result of the phrase "Matt, I need you to help me with my Starcraft strategy." encrypted with the passphrase "The Moon is a Harsh Mistress." used to generate the 1024-bit public key:

EuvU2Ov3gpgM9B1I3VzEgxaAVO/Iy85NARUFZb/h+HrOP72degP0L1fWiHO3
RDm5+kWRaV6oZsn91juJ0L+hrP6BDwlIza9x9DBMEsg3PnOHJENG63RXbu0q
PZd2xDJY70i44sufNqHZ0mui9OdNIeE8FvzEOzMtFGCqDx1Z48s=?K3lOtQC
2w+emoR4W3yvAaslSzTj/ZZIkOu3MNTW8y/OX0OxTKfpsaI6zX6XYrM0MpPr
uw7on1N6VUMpNQO8KUVYl4clquaibKs0marXPFH4=

Signing

When signing the encrypted message, two more pieces of information are attached to the cipher text. The first is the ascii-armored RSA public key of the sender. The second piece of information concatenated with the cipher text is the signature itself, which is generated with the rsa-sign extension by Kenji Urushima, along with the SHA256 algorithm found at webtoolkit.info. These two pieces of code are also used when verifying the signature.

The signature is concatenated with the public key with the string ::52cee64bb3a38f6403386519a39ac91c:: used as the delimiter between the plaintext, the public key of the sender, and the signature:

plaintext
::52cee64bb3a38f6403386519a39ac91c::
public key of sender
::52cee64bb3a38f6403386519a39ac91c::
signature

This concatenated block is then encrypted with CBC AES and concatenated with the encrypted AES key to form the complete encrypted message.

About

An easy-to-use encryption system utilizing RSA and AES for javascript.

http://wwwtyro.github.com/cryptico


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