package se.leap.leapclient;
import java.io.UnsupportedEncodingException;
import java.math.BigInteger;
import java.security.MessageDigest;
import java.security.NoSuchAlgorithmException;
import java.security.SecureRandom;
import java.util.Arrays;
import org.jboss.security.srp.SRPParameters;
/**
* Implements all SRP algorithm logic.
*
* It's derived from JBoss implementation, with adjustments to make it work with LEAP platform.
*
* @author parmegv
*
*/
public class LeapSRPSession {
private SRPParameters params;
private String username;
private String password;
private BigInteger N;
private byte[] N_bytes;
private BigInteger g;
private BigInteger x;
private BigInteger v;
private BigInteger a;
private BigInteger A;
private byte[] K;
private SecureRandom pseudoRng;
/** The M1 = H(H(N) xor H(g) | H(U) | s | A | B | K) hash */
private MessageDigest clientHash;
/** The M2 = H(A | M | K) hash */
private MessageDigest serverHash;
private static int A_LEN;
/** Creates a new SRP server session object from the username, password
verifier,
@param username, the user ID
@param password, the user clear text password
@param params, the SRP parameters for the session
*/
public LeapSRPSession(String username, String password, SRPParameters params)
{
this(username, password, params, null);
}
/** Creates a new SRP server session object from the username, password
verifier,
@param username, the user ID
@param password, the user clear text password
@param params, the SRP parameters for the session
@param abytes, the random exponent used in the A public key
*/
public LeapSRPSession(String username, String password, SRPParameters params,
byte[] abytes) {
this.params = params;
this.g = new BigInteger(1, params.g);
N_bytes = ConfigHelper.trim(params.N);
this.N = new BigInteger(1, N_bytes);
this.username = username;
this.password = password;
try {
pseudoRng = SecureRandom.getInstance("SHA1PRNG");
} catch (NoSuchAlgorithmException e) {
// TODO Auto-generated catch block
e.printStackTrace();
}
if( abytes != null ) {
A_LEN = 8*abytes.length;
/* TODO Why did they put this condition?
if( 8*abytes.length != A_LEN )
throw new IllegalArgumentException("The abytes param must be "
+(A_LEN/8)+" in length, abytes.length="+abytes.length);
*/
this.a = new BigInteger(abytes);
}
else
A_LEN = 64;
serverHash = newDigest();
clientHash = newDigest();
}
/**
* Calculates the parameter x of the SRP-6a algorithm.
* @param username
* @param password
* @param salt the salt of the user
* @return x
*/
public byte[] calculatePasswordHash(String username, String password, byte[] salt)
{
//password = password.replaceAll("\\\\", "\\\\\\\\");
// Calculate x = H(s | H(U | ':' | password))
MessageDigest x_digest = newDigest();
// Try to convert the username to a byte[] using ISO-8859-1
byte[] user = null;
byte[] password_bytes = null;
byte[] colon = {};
String encoding = "ISO-8859-1";
try {
user = ConfigHelper.trim(username.getBytes(encoding));
colon = ConfigHelper.trim(":".getBytes(encoding));
password_bytes = ConfigHelper.trim(password.getBytes(encoding));
}
catch(UnsupportedEncodingException e) {
// Use the default platform encoding
user = ConfigHelper.trim(username.getBytes());
colon = ConfigHelper.trim(":".getBytes());
password_bytes = ConfigHelper.trim(password.getBytes());
}
// Build the hash
x_digest.update(user);
x_digest.update(colon);
x_digest.update(password_bytes);
byte[] h = x_digest.digest();
x_digest.reset();
x_digest.update(salt);
x_digest.update(h);
byte[] x_digest_bytes = x_digest.digest();
return x_digest_bytes;
}
/**
* Calculates the parameter V of the SRP-6a algorithm.
* @param k_string constant k predefined by the SRP server implementation.
* @return the value of V
*/
private BigInteger calculateV(String k_string) {
BigInteger k = new BigInteger(k_string, 16);
BigInteger v = k.multiply(g.modPow(x, N)); // g^x % N
return v;
}
/**
* Calculates the trimmed xor from two BigInteger numbers
* @param b1 the positive source to build first BigInteger
* @param b2 the positive source to build second BigInteger
* @param length
* @return
*/
public byte[] xor(byte[] b1, byte[] b2)
{
//TODO Check if length matters in the order, when b2 is smaller than b1 or viceversa
byte[] xor_digest = new BigInteger(1, b1).xor(new BigInteger(1, b2)).toByteArray();
return ConfigHelper.trim(xor_digest);
}
/**
* @returns The exponential residue (parameter A) to be sent to the server.
*/
public byte[] exponential() {
byte[] Abytes = null;
if(A == null) {
/* If the random component of A has not been specified use a random
number */
if( a == null ) {
BigInteger one = BigInteger.ONE;
do {
a = new BigInteger(A_LEN, pseudoRng);
} while(a.compareTo(one) <= 0);
}
A = g.modPow(a, N);
Abytes = ConfigHelper.trim(A.toByteArray());
}
return Abytes;
}
/**
* Calculates the parameter M1, to be sent to the SRP server.
* It also updates hashes of client and server for further calculations in other methods.
* It uses a predefined k.
* @param salt_bytes
* @param Bbytes the parameter received from the server, in bytes
* @return the parameter M1
* @throws NoSuchAlgorithmException
*/
public byte[] response(byte[] salt_bytes, byte[] Bbytes) throws NoSuchAlgorithmException {
// Calculate x = H(s | H(U | ':' | password))
byte[] xb = calculatePasswordHash(username, password, ConfigHelper.trim(salt_bytes));
this.x = new BigInteger(1, xb);
// Calculate v = kg^x mod N
String k_string = "bf66c44a428916cad64aa7c679f3fd897ad4c375e9bbb4cbf2f5de241d618ef0";
this.v = calculateV(k_string);
// H(N)
byte[] digest_of_n = newDigest().digest(N_bytes);
// H(g)
byte[] digest_of_g = newDigest().digest(params.g);
// clientHash = H(N) xor H(g)
byte[] xor_digest = xor(digest_of_n, digest_of_g);
clientHash.update(xor_digest);
// clientHash = H(N) xor H(g) | H(U)
byte[] username_digest = newDigest().digest(ConfigHelper.trim(username.getBytes()));
username_digest = ConfigHelper.trim(username_digest);
clientHash.update(username_digest);
// clientHash = H(N) xor H(g) | H(U) | s
clientHash.update(ConfigHelper.trim(salt_bytes));
K = null;
// clientHash = H(N) xor H(g) | H(U) | A
byte[] Abytes = ConfigHelper.trim(A.toByteArray());
clientHash.update(Abytes);
// clientHash = H(N) xor H(g) | H(U) | s | A | B
Bbytes = ConfigHelper.trim(Bbytes);
clientHash.update(Bbytes);
// Calculate S = (B - kg^x) ^ (a + u * x) % N
BigInteger S = calculateS(Bbytes);
byte[] S_bytes = ConfigHelper.trim(S.toByteArray());
// K = SessionHash(S)
String hash_algorithm = params.hashAlgorithm;
MessageDigest sessionDigest = MessageDigest.getInstance(hash_algorithm);
K = ConfigHelper.trim(sessionDigest.digest(S_bytes));
// clientHash = H(N) xor H(g) | H(U) | A | B | K
clientHash.update(K);
byte[] M1 = ConfigHelper.trim(clientHash.digest());
// serverHash = Astr + M + K
serverHash.update(Abytes);
serverHash.update(M1);
serverHash.update(K);
return M1;
}
/**
* It calculates the parameter S used by response() to obtain session hash K.
* @param Bbytes the parameter received from the server, in bytes
* @return the parameter S
*/
private BigInteger calculateS(byte[] Bbytes) {
byte[] Abytes = ConfigHelper.trim(A.toByteArray());
Bbytes = ConfigHelper.trim(Bbytes);
byte[] u_bytes = getU(Abytes, Bbytes);
BigInteger B = new BigInteger(1, Bbytes);
BigInteger u = new BigInteger(1, u_bytes);
BigInteger B_minus_v = B.subtract(v);
BigInteger a_ux = a.add(u.multiply(x));
BigInteger S = B_minus_v.modPow(a_ux, N);
return S;
}
/**
* It calculates the parameter u used by calculateS to obtain S.
* @param Abytes the exponential residue sent to the server
* @param Bbytes the parameter received from the server, in bytes
* @return
*/
public byte[] getU(byte[] Abytes, byte[] Bbytes) {
MessageDigest u_digest = newDigest();
u_digest.update(ConfigHelper.trim(Abytes));
u_digest.update(ConfigHelper.trim(Bbytes));
byte[] u_digest_bytes = u_digest.digest();
return ConfigHelper.trim(new BigInteger(1, u_digest_bytes).toByteArray());
}
/**
* @param M2 The server's response to the client's challenge
* @returns True if and only if the server's response was correct.
*/
public boolean verify(byte[] M2)
{
// M2 = H(A | M1 | K)
M2 = ConfigHelper.trim(M2);
byte[] myM2 = ConfigHelper.trim(serverHash.digest());
boolean valid = Arrays.equals(M2, myM2);
return valid;
}
/**
* @return a new SHA-256 digest.
*/
public MessageDigest newDigest()
{
MessageDigest md = null;
try {
md = MessageDigest.getInstance("SHA-256");
} catch (NoSuchAlgorithmException e) {
e.printStackTrace();
}
return md;
}
}