Protocol Encryption

From wiki.vg
Revision as of 08:38, 14 June 2013 by Drainedsoul (talk | contribs) (Server ID string details (own experimentation/protocol analysis))
(diff) ← Older revision | Latest revision (diff) | Newer revision → (diff)
Jump to navigation Jump to search

As of 12w17a, minecraft implements SSL-like encryption.

Overview

  1. Client connects to server
  2. C->S 0x02 handshake
  3. S->C 0xFD encryption request - server sends its server id string, public key, and 4 random bytes
  4. Client generates symmetric key (shared secret)
  5. Client authenticates via session.minecraft.net.
  6. Client encrypts these 4 bytes with the servers public key.
  7. C->S 0xFC encryption response - client encrypts shared secret with server's public key and sends along with encrypted 4 bytes
  8. Server checks that the encrypted bytes match
  9. Server decrypts shared secret with its private key
  10. Server checks player authenticity via session.minecraft.net
  11. S->C 0xFC encryption response - empty payload meaning two zero length byte arrays and two zero shorts
  12. Server enables AES/CFB8 stream encryption
  13. Client enables AES/CFB8 stream encryption
  14. C->S 0xCD - Payload of 0 (byte)
  15. S->C 0x01 login
  16. see Protocol FAQ to get information about what happens next.

Server ID String

The server ID string is a randomly-generated string of characters with a maximum length of 20 code points (the client disconnects with an exception if the length is longer than 20).

The client appears to arrive at incorrect hashes if the server ID string contains certain unprintable characters, so for consistent results only characters with code points in the range U+0021-U+007E (inclusive) should be sent. This range corresponds to all of ASCII with the exception of the space character (U+0020) and all control characters (U+0000-U+001F, U+007F).

The client appears to arrive at incorrect hashes if the server ID string is too short. 15 to 20 (inclusive) length strings have been observed from the Notchian server and confirmed to work as of 1.5.2.

Key Exchange

The server generates a 1024-bit RSA keypair on startup. The key, when packed into a 0xFD packet, is in ASN.1 format as defined by x.509. The ASN.1 structure looks as follows

SubjectPublicKeyInfo ::= SEQUENCE {
  algorithm SEQUENCE {
    algorithm         OBJECT IDENTIFIER
    parameters        ANY OPTIONAL
  }
  subjectPublicKey  BITSTRING
}

SubjectPublicKey ::= SEQUENCE {
  modulus           INTEGER
  publicExponent    INTEGER
}

If you're struggling to import this using a crypto library, you can convert it to common PEM by base64-encoding and wrapping in '-----BEGIN PUBLIC KEY-----' and '-----END PUBLIC KEY-----'.

Symmetric Encryption

On receipt of a 0xFD from the server, the client will generate a 16-byte shared secret, to be used with the AES/CFB8 stream cipher. It then encrypts it with the server's public key (PKCS#1 v1.5 padded), and also encrypts the token received in the 0xFD packet in the same way, then sends both to the server in a 0xFC packet.

The server decrypts the shared secret and token using its private key, and checks if the token is the same. It then sends a 0xFC to the client with an empty payload, and enables AES/CFB8 encryption. For the Initial Vector (IV) and AES setup, both sides use the secret key. Similarly, the client will also enable encryption upon receipt of the empty 0xFC. From this point forward, everything is encrypted.

Authentication

Both server and client need to make a request to session.minecraft.net if the server is in online-mode.

Client

After generating the shared secret, the client generates the following hash:

sha1 := Sha1()
sha1.update(ASCII encoding of the server id string from 0xFD) 
sha1.update(shared secret) 
sha1.update(server's encoded public key from 0xFD) 
hash := sha1.hexdigest()  # String of hex characters

:!: Note that the Sha1.hexdigest() method used by minecraft removes leading zeros and uses the two's-complement of negative numbers prefixed with a minus sign:

sha1(Notch) :  4ed1f46bbe04bc756bcb17c0c7ce3e4632f06a48
sha1(jeb_)  : -7c9d5b0044c130109a5d7b5fb5c317c02b4e28c1
sha1(simon) :  88e16a1019277b15d58faf0541e11910eb756f6

The resulting hash is then sent via an HTTP GET request to

http://session.minecraft.net/game/joinserver.jsp?user=username&sessionId=user_session&serverId=hash

If it returns OK then continue, otherwise stop

Server

After decrypting the shared secret in the second 0xFC, the server generates the login hash as above and sends it to

http://session.minecraft.net/game/checkserver.jsp?user=username&serverId=hash

If the response is YES then the client is authenticated and allowed to join. Otherwise the client will/should be kicked (unencrypted) with "Failed to verify username!"

Sample Code

Examples of generating Java-style hex digests:

Additional Links

Encrypt shared secret using OpenSSL

Generate RSA-Keys and building the ASN.1v8 structure of the x.509 certificate using Crypto++

Decrypt shared secret using Crypto++

De/Encrypt data via AES using Crypto++

C# AES/CFB support with bouncy castle on Mono