HADOOP-13565. KerberosAuthenticationHandler#authenticate should not rebuild SPN based on client request. Contributed by Xiaoyu Yao.

This commit is contained in:
Xiaoyu Yao 2016-12-09 21:27:04 -08:00
parent 92a8917ca5
commit 4c38f11cec

View File

@ -18,6 +18,7 @@
import org.apache.commons.codec.binary.Base64;
import org.apache.hadoop.security.authentication.util.KerberosName;
import org.apache.hadoop.security.authentication.util.KerberosUtil;
import org.ietf.jgss.GSSException;
import org.ietf.jgss.GSSContext;
import org.ietf.jgss.GSSCredential;
import org.ietf.jgss.GSSManager;
@ -48,25 +49,32 @@
import java.util.Set;
import java.util.regex.Pattern;
import com.google.common.collect.HashMultimap;
import static org.apache.hadoop.util.PlatformName.IBM_JAVA;
/**
* The {@link KerberosAuthenticationHandler} implements the Kerberos SPNEGO authentication mechanism for HTTP.
* The {@link KerberosAuthenticationHandler} implements the Kerberos SPNEGO
* authentication mechanism for HTTP.
* <p>
* The supported configuration properties are:
* <ul>
* <li>kerberos.principal: the Kerberos principal to used by the server. As stated by the Kerberos SPNEGO
* specification, it should be <code>HTTP/${HOSTNAME}@{REALM}</code>. The realm can be omitted from the
* principal as the JDK GSS libraries will use the realm name of the configured default realm.
* <li>kerberos.principal: the Kerberos principal to used by the server. As
* stated by the Kerberos SPNEGO specification, it should be
* <code>HTTP/${HOSTNAME}@{REALM}</code>. The realm can be omitted from the
* principal as the JDK GSS libraries will use the realm name of the configured
* default realm.
* It does not have a default value.</li>
* <li>kerberos.keytab: the keytab file containing the credentials for the Kerberos principal.
* <li>kerberos.keytab: the keytab file containing the credentials for the
* Kerberos principal.
* It does not have a default value.</li>
* <li>kerberos.name.rules: kerberos names rules to resolve principal names, see
* {@link KerberosName#setRules(String)}</li>
* </ul>
*/
public class KerberosAuthenticationHandler implements AuthenticationHandler {
private static Logger LOG = LoggerFactory.getLogger(KerberosAuthenticationHandler.class);
private static final Logger LOG = LoggerFactory.getLogger(
KerberosAuthenticationHandler.class);
/**
* Kerberos context configuration for the JDK GSS library.
@ -118,7 +126,7 @@ public AppConfigurationEntry[] getAppConfigurationEntry(String name) {
return new AppConfigurationEntry[]{
new AppConfigurationEntry(KerberosUtil.getKrb5LoginModuleName(),
AppConfigurationEntry.LoginModuleControlFlag.REQUIRED,
options),};
options), };
}
}
@ -128,12 +136,14 @@ public AppConfigurationEntry[] getAppConfigurationEntry(String name) {
public static final String TYPE = "kerberos";
/**
* Constant for the configuration property that indicates the kerberos principal.
* Constant for the configuration property that indicates the kerberos
* principal.
*/
public static final String PRINCIPAL = TYPE + ".principal";
/**
* Constant for the configuration property that indicates the keytab file path.
* Constant for the configuration property that indicates the keytab
* file path.
*/
public static final String KEYTAB = TYPE + ".keytab";
@ -148,6 +158,42 @@ public AppConfigurationEntry[] getAppConfigurationEntry(String name) {
private GSSManager gssManager;
private Subject serverSubject = new Subject();
private List<LoginContext> loginContexts = new ArrayList<LoginContext>();
/**
* HADOOP-10158 added support of running HTTP with multiple SPNs
* but implicit requirements is that they must come from the SAME local realm.
*
* This is a regression for use cases where HTTP service needs to run with
* with SPN from foreign realm, which is not supported after HADOOP-10158.
*
* HADOOP-13565 brings back support of SPNs from foreign realms
* without dependency on specific Kerberos domain_realm mapping mechanism.
*
* There are several reasons for not using native Kerberos domain_realm
* mapping:
* 1. As commented in KerberosUtil#getDomainRealm(), JDK's
* domain_realm mapping routines are private to the security.krb5
* package. As a result, KerberosUtil#getDomainRealm() always return local
* realm.
*
* 2. Server krb5.conf is not the only place that contains the domain_realm
* mapping in real deployment. Based on MIT KDC document here:
* https://web.mit.edu/kerberos/krb5-1.13/doc/admin/realm_config.html, the
* Kerberos domain_realm mapping can be implemented in one of the three
* mechanisms:
* 1) Server host-based krb5.conf on HTTP server
* 2) KDC-based krb5.conf on KDC server
* 3) DNS-based with TXT record with _kerberos prefix to the hostname.
*
* We choose to maintain domain_realm mapping based on HTTP principals
* from keytab. The mapping is built at login time with HTTP principals
* key-ed by server name and is used later to
* looked up SPNs based on server name from request for authentication.
* The multi-map implementation allows SPNs of same server from
* different realms.
*
*/
private HashMultimap<String, String> serverPrincipalMap =
HashMultimap.create();
/**
* Creates a Kerberos SPNEGO authentication handler with the default
@ -170,7 +216,8 @@ public KerberosAuthenticationHandler(String type) {
/**
* Initializes the authentication handler instance.
* <p>
* It creates a Kerberos context using the principal and keytab specified in the configuration.
* It creates a Kerberos context using the principal and keytab specified in
* the configuration.
* <p>
* This method is invoked by the {@link AuthenticationFilter#init} method.
*
@ -225,10 +272,22 @@ public void init(Properties config) throws ServletException {
throw new AuthenticationException(le);
}
loginContexts.add(loginContext);
KerberosName kerbName = new KerberosName(spnegoPrincipal);
if (kerbName.getHostName() != null
&& kerbName.getRealm() != null
&& kerbName.getServiceName() != null
&& kerbName.getServiceName().equals("HTTP")) {
LOG.trace("Map server: {} to principal: {}", kerbName.getHostName(),
spnegoPrincipal);
serverPrincipalMap.put(kerbName.getHostName(), spnegoPrincipal);
} else {
LOG.warn("HTTP principal: {} is invalid for SPNEGO!",
spnegoPrincipal);
}
}
try {
gssManager = Subject.doAs(serverSubject, new PrivilegedExceptionAction<GSSManager>() {
gssManager = Subject.doAs(serverSubject,
new PrivilegedExceptionAction<GSSManager>() {
@Override
public GSSManager run() throws Exception {
return GSSManager.getInstance();
@ -312,63 +371,116 @@ public boolean managementOperation(AuthenticationToken token,
}
/**
* It enforces the the Kerberos SPNEGO authentication sequence returning an {@link AuthenticationToken} only
* after the Kerberos SPNEGO sequence has completed successfully.
* It enforces the the Kerberos SPNEGO authentication sequence returning an
* {@link AuthenticationToken} only after the Kerberos SPNEGO sequence has
* completed successfully.
*
* @param request the HTTP client request.
* @param response the HTTP client response.
*
* @return an authentication token if the Kerberos SPNEGO sequence is complete and valid,
* <code>null</code> if it is in progress (in this case the handler handles the response to the client).
* @return an authentication token if the Kerberos SPNEGO sequence is complete
* and valid, <code>null</code> if it is in progress (in this case the handler
* handles the response to the client).
*
* @throws IOException thrown if an IO error occurred.
* @throws AuthenticationException thrown if Kerberos SPNEGO sequence failed.
*/
@Override
public AuthenticationToken authenticate(HttpServletRequest request, final HttpServletResponse response)
public AuthenticationToken authenticate(HttpServletRequest request,
final HttpServletResponse response)
throws IOException, AuthenticationException {
AuthenticationToken token = null;
String authorization = request.getHeader(KerberosAuthenticator.AUTHORIZATION);
String authorization = request.getHeader(
KerberosAuthenticator.AUTHORIZATION);
if (authorization == null || !authorization.startsWith(KerberosAuthenticator.NEGOTIATE)) {
if (authorization == null
|| !authorization.startsWith(KerberosAuthenticator.NEGOTIATE)) {
response.setHeader(WWW_AUTHENTICATE, KerberosAuthenticator.NEGOTIATE);
response.setStatus(HttpServletResponse.SC_UNAUTHORIZED);
if (authorization == null) {
LOG.trace("SPNEGO starting");
LOG.trace("SPNEGO starting for url: {}", request.getRequestURL());
} else {
LOG.warn("'" + KerberosAuthenticator.AUTHORIZATION + "' does not start with '" +
LOG.warn("'" + KerberosAuthenticator.AUTHORIZATION +
"' does not start with '" +
KerberosAuthenticator.NEGOTIATE + "' : {}", authorization);
}
} else {
authorization = authorization.substring(KerberosAuthenticator.NEGOTIATE.length()).trim();
authorization = authorization.substring(
KerberosAuthenticator.NEGOTIATE.length()).trim();
final Base64 base64 = new Base64(0);
final byte[] clientToken = base64.decode(authorization);
final String serverName = InetAddress.getByName(request.getServerName())
.getCanonicalHostName();
try {
token = Subject.doAs(serverSubject, new PrivilegedExceptionAction<AuthenticationToken>() {
token = Subject.doAs(serverSubject,
new PrivilegedExceptionAction<AuthenticationToken>() {
private Set<String> serverPrincipals =
serverPrincipalMap.get(serverName);
@Override
public AuthenticationToken run() throws Exception {
if (LOG.isTraceEnabled()) {
LOG.trace("SPNEGO with principals: {}",
serverPrincipals.toString());
}
AuthenticationToken token = null;
Exception lastException = null;
for (String serverPrincipal : serverPrincipals) {
try {
token = runWithPrincipal(serverPrincipal, clientToken,
base64, response);
} catch (Exception ex) {
lastException = ex;
LOG.trace("Auth {} failed with {}", serverPrincipal, ex);
} finally {
if (token != null) {
LOG.trace("Auth {} successfully", serverPrincipal);
break;
}
}
}
if (token != null) {
return token;
} else {
throw new AuthenticationException(lastException);
}
}
});
} catch (PrivilegedActionException ex) {
if (ex.getException() instanceof IOException) {
throw (IOException) ex.getException();
} else {
throw new AuthenticationException(ex.getException());
}
}
}
return token;
}
private AuthenticationToken runWithPrincipal(String serverPrincipal,
byte[] clientToken, Base64 base64, HttpServletResponse response) throws
IOException, AuthenticationException, ClassNotFoundException,
GSSException, IllegalAccessException, NoSuchFieldException {
GSSContext gssContext = null;
GSSCredential gssCreds = null;
AuthenticationToken token = null;
try {
gssCreds = gssManager.createCredential(
gssManager.createName(
KerberosUtil.getServicePrincipal("HTTP", serverName),
LOG.trace("SPNEGO initiated with principal {}", serverPrincipal);
gssCreds = this.gssManager.createCredential(
this.gssManager.createName(serverPrincipal,
KerberosUtil.getOidInstance("NT_GSS_KRB5_PRINCIPAL")),
GSSCredential.INDEFINITE_LIFETIME,
new Oid[]{
KerberosUtil.getOidInstance("GSS_SPNEGO_MECH_OID"),
KerberosUtil.getOidInstance("GSS_KRB5_MECH_OID")},
GSSCredential.ACCEPT_ONLY);
gssContext = gssManager.createContext(gssCreds);
byte[] serverToken = gssContext.acceptSecContext(clientToken, 0, clientToken.length);
gssContext = this.gssManager.createContext(gssCreds);
byte[] serverToken = gssContext.acceptSecContext(clientToken, 0,
clientToken.length);
if (serverToken != null && serverToken.length > 0) {
String authenticate = base64.encodeToString(serverToken);
response.setHeader(KerberosAuthenticator.WWW_AUTHENTICATE,
KerberosAuthenticator.NEGOTIATE + " " + authenticate);
KerberosAuthenticator.NEGOTIATE + " " +
authenticate);
}
if (!gssContext.isEstablished()) {
response.setStatus(HttpServletResponse.SC_UNAUTHORIZED);
@ -391,17 +503,4 @@ public AuthenticationToken run() throws Exception {
}
return token;
}
});
} catch (PrivilegedActionException ex) {
if (ex.getException() instanceof IOException) {
throw (IOException) ex.getException();
}
else {
throw new AuthenticationException(ex.getException());
}
}
}
return token;
}
}