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package sun.security.krb5;
import java.io.IOException;
import java.util.Arrays;
import javax.security.auth.kerberos.KeyTab;
import sun.security.jgss.krb5.Krb5Util;
import sun.security.krb5.internal.HostAddresses;
import sun.security.krb5.internal.KDCOptions;
import sun.security.krb5.internal.KRBError;
import sun.security.krb5.internal.KerberosTime;
import sun.security.krb5.internal.Krb5;
import sun.security.krb5.internal.PAData;
import sun.security.krb5.internal.crypto.EType;
/**
* A manager class for AS-REQ communications.
*
* This class does:
* 1. Gather information to create AS-REQ
* 2. Create and send AS-REQ
* 3. Receive AS-REP and KRB-ERROR (-KRB_ERR_RESPONSE_TOO_BIG) and parse them
* 4. Emit credentials and secret keys (for JAAS storeKey=true with password)
*
* This class does not:
* 1. Deal with real communications (KdcComm does it, and TGS-REQ)
* a. Name of KDCs for a realm
* b. Server availability, timeout, UDP or TCP
* d. KRB_ERR_RESPONSE_TOO_BIG
* 2. Stores its own copy of password, this means:
* a. Do not change/wipe it before Builder finish
* b. Builder will not wipe it for you
*
* With this class:
* 1. KrbAsReq has only one constructor
* 2. Krb5LoginModule and Kinit call a single builder
* 3. Better handling of sensitive info
*
* @since 1.7
*/
public final class KrbAsReqBuilder {
// Common data for AS-REQ fields
private KDCOptions options;
private PrincipalName cname;
private PrincipalName sname;
private KerberosTime from;
private KerberosTime till;
private KerberosTime rtime;
private HostAddresses addresses;
// Secret source: can't be changed once assigned, only one (of the two
// sources) can be set to non-null
private final char[] password;
private final KeyTab ktab;
// Used to create a ENC-TIMESTAMP in the 2nd AS-REQ
private PAData[] paList; // PA-DATA from both KRB-ERROR and AS-REP.
// Used by getKeys() only.
// Only AS-REP should be enough per RFC,
// combined in case etypes are different.
// The generated and received:
private KrbAsReq req;
private KrbAsRep rep;
private static enum State {
INIT, // Initialized, can still add more initialization info
REQ_OK, // AS-REQ performed
DESTROYED, // Destroyed, not usable anymore
}
private State state;
// Called by other constructors
private void init(PrincipalName cname)
throws KrbException {
this.cname = cname;
state = State.INIT;
}
/**
* Creates a builder to be used by {@code cname} with existing keys.
*
* @param cname the client of the AS-REQ. Must not be null. Might have no
* realm, where default realm will be used. This realm will be the target
* realm for AS-REQ. I believe a client should only get initial TGT from
* its own realm.
* @param keys must not be null. if empty, might be quite useless.
* This argument will neither be modified nor stored by the method.
* @throws KrbException
*/
public KrbAsReqBuilder(PrincipalName cname, KeyTab ktab)
throws KrbException {
init(cname);
this.ktab = ktab;
this.password = null;
}
/**
* Creates a builder to be used by {@code cname} with a known password.
*
* @param cname the client of the AS-REQ. Must not be null. Might have no
* realm, where default realm will be used. This realm will be the target
* realm for AS-REQ. I believe a client should only get initial TGT from
* its own realm.
* @param pass must not be null. This argument will neither be modified
* nor stored by the method.
* @throws KrbException
*/
public KrbAsReqBuilder(PrincipalName cname, char[] pass)
throws KrbException {
init(cname);
this.password = pass.clone();
this.ktab = null;
}
/**
* Retrieves an array of secret keys for the client. This is used when
* the client supplies password but need keys to act as an acceptor. For
* an initiator, it must be called after AS-REQ is performed (state is OK).
* For an acceptor, it can be called when this KrbAsReqBuilder object is
* constructed (state is INIT).
* @param isInitiator if the caller is an initiator
* @return generated keys from password. PA-DATA from server might be used.
* All "default_tkt_enctypes" keys will be generated, Never null.
* @throws IllegalStateException if not constructed from a password
* @throws KrbException
*/
public EncryptionKey[] getKeys(boolean isInitiator) throws KrbException {
checkState(isInitiator?State.REQ_OK:State.INIT, "Cannot get keys");
if (password != null) {
int[] eTypes = EType.getDefaults("default_tkt_enctypes");
EncryptionKey[] result = new EncryptionKey[eTypes.length];
/*
* Returns an array of keys. Before KrbAsReqBuilder, all etypes
* use the same salt which is either the default one or a new salt
* coming from PA-DATA. After KrbAsReqBuilder, each etype uses its
* own new salt from PA-DATA. For an etype with no PA-DATA new salt
* at all, what salt should it use?
*
* Commonly, the stored keys are only to be used by an acceptor to
* decrypt service ticket in AP-REQ. Most impls only allow keys
* from a keytab on acceptor, but unfortunately (?) Java supports
* acceptor using password. In this case, if the service ticket is
* encrypted using an etype which we don't have PA-DATA new salt,
* using the default salt might be wrong (say, case-insensitive
* user name). Instead, we would use the new salt of another etype.
*/
String salt = null; // the saved new salt
try {
for (int i=0; i<eTypes.length; i++) {
// First round, only calculate those have a PA entry
PAData.SaltAndParams snp =
PAData.getSaltAndParams(eTypes[i], paList);
if (snp != null) {
// Never uses a salt for rc4-hmac, it does not use
// a salt at all
if (eTypes[i] != EncryptedData.ETYPE_ARCFOUR_HMAC &&
snp.salt != null) {
salt = snp.salt;
}
result[i] = EncryptionKey.acquireSecretKey(cname,
password,
eTypes[i],
snp);
}
}
// No new salt from PA, maybe empty, maybe only rc4-hmac
if (salt == null) salt = cname.getSalt();
for (int i=0; i<eTypes.length; i++) {
// Second round, calculate those with no PA entry
if (result[i] == null) {
result[i] = EncryptionKey.acquireSecretKey(password,
salt,
eTypes[i],
null);
}
}
} catch (IOException ioe) {
KrbException ke = new KrbException(Krb5.ASN1_PARSE_ERROR);
ke.initCause(ioe);
throw ke;
}
return result;
} else {
throw new IllegalStateException("Required password not provided");
}
}
/**
* Sets or clears options. If cleared, default options will be used
* at creation time.
* @param options
*/
public void setOptions(KDCOptions options) {
checkState(State.INIT, "Cannot specify options");
this.options = options;
}
/**
* Sets or clears target. If cleared, KrbAsReq might choose krbtgt
* for cname realm
* @param sname
*/
public void setTarget(PrincipalName sname) {
checkState(State.INIT, "Cannot specify target");
this.sname = sname;
}
/**
* Adds or clears addresses. KrbAsReq might add some if empty
* field not allowed
* @param addresses
*/
public void setAddresses(HostAddresses addresses) {
checkState(State.INIT, "Cannot specify addresses");
this.addresses = addresses;
}
/**
* Build a KrbAsReq object from all info fed above. Normally this method
* will be called twice: initial AS-REQ and second with pakey
* @param key null (initial AS-REQ) or pakey (with preauth)
* @return the KrbAsReq object
* @throws KrbException
* @throws IOException
*/
private KrbAsReq build(EncryptionKey key) throws KrbException, IOException {
int[] eTypes;
if (password != null) {
eTypes = EType.getDefaults("default_tkt_enctypes");
} else {
EncryptionKey[] ks = Krb5Util.keysFromJavaxKeyTab(ktab, cname);
eTypes = EType.getDefaults("default_tkt_enctypes",
ks);
for (EncryptionKey k: ks) k.destroy();
}
return new KrbAsReq(key,
options,
cname,
sname,
from,
till,
rtime,
eTypes,
addresses);
}
/**
* Parses AS-REP, decrypts enc-part, retrieves ticket and session key
* @throws KrbException
* @throws Asn1Exception
* @throws IOException
*/
private KrbAsReqBuilder resolve()
throws KrbException, Asn1Exception, IOException {
if (ktab != null) {
rep.decryptUsingKeyTab(ktab, req, cname);
} else {
rep.decryptUsingPassword(password, req, cname);
}
if (rep.getPA() != null) {
if (paList == null || paList.length == 0) {
paList = rep.getPA();
} else {
int extraLen = rep.getPA().length;
if (extraLen > 0) {
int oldLen = paList.length;
paList = Arrays.copyOf(paList, paList.length + extraLen);
System.arraycopy(rep.getPA(), 0, paList, oldLen, extraLen);
}
}
}
return this;
}
/**
* Communication until AS-REP or non preauth-related KRB-ERROR received
* @throws KrbException
* @throws IOException
*/
private KrbAsReqBuilder send() throws KrbException, IOException {
boolean preAuthFailedOnce = false;
KdcComm comm = new KdcComm(cname.getRealmAsString());
EncryptionKey pakey = null;
while (true) {
try {
req = build(pakey);
rep = new KrbAsRep(comm.send(req.encoding()));
return this;
} catch (KrbException ke) {
if (!preAuthFailedOnce && (
ke.returnCode() == Krb5.KDC_ERR_PREAUTH_FAILED ||
ke.returnCode() == Krb5.KDC_ERR_PREAUTH_REQUIRED)) {
if (Krb5.DEBUG) {
System.out.println("KrbAsReqBuilder: " +
"PREAUTH FAILED/REQ, re-send AS-REQ");
}
preAuthFailedOnce = true;
KRBError kerr = ke.getError();
int paEType = PAData.getPreferredEType(kerr.getPA(),
EType.getDefaults("default_tkt_enctypes")[0]);
if (password == null) {
EncryptionKey[] ks = Krb5Util.keysFromJavaxKeyTab(ktab, cname);
pakey = EncryptionKey.findKey(paEType, ks);
if (pakey != null) pakey = (EncryptionKey)pakey.clone();
for (EncryptionKey k: ks) k.destroy();
} else {
pakey = EncryptionKey.acquireSecretKey(cname,
password,
paEType,
PAData.getSaltAndParams(
paEType, kerr.getPA()));
}
paList = kerr.getPA(); // Update current paList
} else {
throw ke;
}
}
}
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