HADOOP-14246. Authentication Tokens should use SecureRandom instead of Random and 256 bit secrets
(Conttributed by Robert Konter via Daniel Templeton)
(cherry picked from commit 4dd6206547
)
This commit is contained in:
parent
1bfb382296
commit
f20aa38a1d
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@ -15,8 +15,9 @@ package org.apache.hadoop.security.authentication.util;
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import com.google.common.annotations.VisibleForTesting;
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import java.nio.charset.Charset;
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import java.security.SecureRandom;
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import java.util.Random;
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import org.apache.hadoop.classification.InterfaceAudience;
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import org.apache.hadoop.classification.InterfaceStability;
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@ -32,7 +33,7 @@ public class RandomSignerSecretProvider extends RolloverSignerSecretProvider {
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public RandomSignerSecretProvider() {
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super();
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rand = new Random();
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rand = new SecureRandom();
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}
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/**
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@ -48,6 +49,8 @@ public class RandomSignerSecretProvider extends RolloverSignerSecretProvider {
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@Override
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protected byte[] generateNewSecret() {
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return Long.toString(rand.nextLong()).getBytes(Charset.forName("UTF-8"));
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byte[] secret = new byte[32]; // 32 bytes = 256 bits
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rand.nextBytes(secret);
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return secret;
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}
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}
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@ -16,6 +16,7 @@ package org.apache.hadoop.security.authentication.util;
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import com.google.common.annotations.VisibleForTesting;
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import java.nio.ByteBuffer;
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import java.nio.charset.Charset;
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import java.security.SecureRandom;
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import java.util.Collections;
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import java.util.HashMap;
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import java.util.List;
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@ -149,7 +150,7 @@ public class ZKSignerSecretProvider extends RolloverSignerSecretProvider {
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public ZKSignerSecretProvider() {
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super();
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rand = new Random();
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rand = new SecureRandom();
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}
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/**
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@ -342,8 +343,11 @@ public class ZKSignerSecretProvider extends RolloverSignerSecretProvider {
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}
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}
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private byte[] generateRandomSecret() {
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return Long.toString(rand.nextLong()).getBytes(Charset.forName("UTF-8"));
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@VisibleForTesting
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protected byte[] generateRandomSecret() {
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byte[] secret = new byte[32]; // 32 bytes = 256 bits
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rand.nextBytes(secret);
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return secret;
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}
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/**
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@ -14,22 +14,37 @@
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package org.apache.hadoop.security.authentication.util;
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import java.util.Random;
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import org.apache.log4j.Level;
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import org.apache.log4j.LogManager;
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import org.junit.Assert;
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import org.junit.Test;
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import static org.mockito.Mockito.spy;
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import static org.mockito.Mockito.timeout;
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import static org.mockito.Mockito.verify;
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public class TestRandomSignerSecretProvider {
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// rollover every 50 msec
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private final int timeout = 100;
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private final long rolloverFrequency = timeout / 2;
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{
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LogManager.getLogger(
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RolloverSignerSecretProvider.LOG.getName()).setLevel(Level.DEBUG);
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}
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@Test
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public void testGetAndRollSecrets() throws Exception {
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long rolloverFrequency = 15 * 1000; // rollover every 15 sec
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// use the same seed so we can predict the RNG
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// Use the same seed and a "plain" Random so we can predict the RNG
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long seed = System.currentTimeMillis();
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Random rand = new Random(seed);
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byte[] secret1 = Long.toString(rand.nextLong()).getBytes();
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byte[] secret2 = Long.toString(rand.nextLong()).getBytes();
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byte[] secret3 = Long.toString(rand.nextLong()).getBytes();
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RandomSignerSecretProvider secretProvider =
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new RandomSignerSecretProvider(seed);
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byte[] secret1 = generateNewSecret(rand);
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byte[] secret2 = generateNewSecret(rand);
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byte[] secret3 = generateNewSecret(rand);
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MockRandomSignerSecretProvider secretProvider =
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spy(new MockRandomSignerSecretProvider(seed));
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try {
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secretProvider.init(null, null, rolloverFrequency);
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@ -39,7 +54,8 @@ public class TestRandomSignerSecretProvider {
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Assert.assertEquals(2, allSecrets.length);
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Assert.assertArrayEquals(secret1, allSecrets[0]);
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Assert.assertNull(allSecrets[1]);
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Thread.sleep(rolloverFrequency + 2000);
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verify(secretProvider, timeout(timeout).atLeastOnce()).rollSecret();
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secretProvider.realRollSecret();
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currentSecret = secretProvider.getCurrentSecret();
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allSecrets = secretProvider.getAllSecrets();
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@ -47,7 +63,8 @@ public class TestRandomSignerSecretProvider {
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Assert.assertEquals(2, allSecrets.length);
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Assert.assertArrayEquals(secret2, allSecrets[0]);
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Assert.assertArrayEquals(secret1, allSecrets[1]);
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Thread.sleep(rolloverFrequency + 2000);
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verify(secretProvider, timeout(timeout).atLeast(2)).rollSecret();
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secretProvider.realRollSecret();
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currentSecret = secretProvider.getCurrentSecret();
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allSecrets = secretProvider.getAllSecrets();
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@ -55,9 +72,40 @@ public class TestRandomSignerSecretProvider {
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Assert.assertEquals(2, allSecrets.length);
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Assert.assertArrayEquals(secret3, allSecrets[0]);
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Assert.assertArrayEquals(secret2, allSecrets[1]);
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Thread.sleep(rolloverFrequency + 2000);
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verify(secretProvider, timeout(timeout).atLeast(3)).rollSecret();
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secretProvider.realRollSecret();
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} finally {
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secretProvider.destroy();
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}
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}
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/**
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* A hack to test RandomSignerSecretProvider.
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* We want to test that RandomSignerSecretProvider.rollSecret() is
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* periodically called at the expected frequency, but we want to exclude the
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* race-condition and not take a long time to run the test.
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*/
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private class MockRandomSignerSecretProvider
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extends RandomSignerSecretProvider {
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MockRandomSignerSecretProvider(long seed) {
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super(seed);
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}
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@Override
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protected synchronized void rollSecret() {
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// this is a no-op: simply used for Mockito to verify that rollSecret()
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// is periodically called at the expected frequency
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}
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public void realRollSecret() {
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// the test code manually calls RandomSignerSecretProvider.rollSecret()
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// to update the state
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super.rollSecret();
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}
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}
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private byte[] generateNewSecret(Random rand) {
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byte[] secret = new byte[32];
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rand.nextBytes(secret);
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return secret;
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}
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}
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@ -13,13 +13,11 @@
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*/
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package org.apache.hadoop.security.authentication.util;
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import java.util.Arrays;
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import java.nio.charset.Charset;
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import java.util.Properties;
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import java.util.Random;
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import javax.servlet.ServletContext;
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import org.apache.commons.logging.Log;
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import org.apache.commons.logging.LogFactory;
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import org.apache.curator.test.TestingServer;
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import org.apache.log4j.Level;
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import org.apache.log4j.LogManager;
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@ -37,13 +35,13 @@ public class TestZKSignerSecretProvider {
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private TestingServer zkServer;
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// rollover every 2 sec
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// rollover every 50 msec
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private final int timeout = 100;
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private final long rolloverFrequency = timeout / 2;
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static final Log LOG = LogFactory.getLog(TestZKSignerSecretProvider.class);
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{
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LogManager.getLogger( RolloverSignerSecretProvider.LOG.getName() ).setLevel(Level.DEBUG);
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LogManager.getLogger(
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RolloverSignerSecretProvider.LOG.getName()).setLevel(Level.DEBUG);
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}
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@Before
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@ -63,12 +61,12 @@ public class TestZKSignerSecretProvider {
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// Test just one ZKSignerSecretProvider to verify that it works in the
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// simplest case
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public void testOne() throws Exception {
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// use the same seed so we can predict the RNG
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// Use the same seed and a "plain" Random so we can predict the RNG
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long seed = System.currentTimeMillis();
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Random rand = new Random(seed);
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byte[] secret2 = Long.toString(rand.nextLong()).getBytes();
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byte[] secret1 = Long.toString(rand.nextLong()).getBytes();
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byte[] secret3 = Long.toString(rand.nextLong()).getBytes();
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byte[] secret2 = generateNewSecret(rand);
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byte[] secret1 = generateNewSecret(rand);
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byte[] secret3 = generateNewSecret(rand);
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MockZKSignerSecretProvider secretProvider =
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spy(new MockZKSignerSecretProvider(seed));
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Properties config = new Properties();
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@ -115,7 +113,7 @@ public class TestZKSignerSecretProvider {
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* A hack to test ZKSignerSecretProvider.
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* We want to test that ZKSignerSecretProvider.rollSecret() is periodically
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* called at the expected frequency, but we want to exclude the
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* race-condition.
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* race-condition and not take a long time to run the test.
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*/
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private class MockZKSignerSecretProvider extends ZKSignerSecretProvider {
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MockZKSignerSecretProvider(long seed) {
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@ -134,6 +132,116 @@ public class TestZKSignerSecretProvider {
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}
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}
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@Test
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// HADOOP-14246 increased the length of the secret from 160 bits to 256 bits.
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// This test verifies that the upgrade goes smoothly.
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public void testUpgradeChangeSecretLength() throws Exception {
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// Use the same seed and a "plain" Random so we can predict the RNG
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long seed = System.currentTimeMillis();
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Random rand = new Random(seed);
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byte[] secret2 = Long.toString(rand.nextLong())
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.getBytes(Charset.forName("UTF-8"));
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byte[] secret1 = Long.toString(rand.nextLong())
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.getBytes(Charset.forName("UTF-8"));
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byte[] secret3 = Long.toString(rand.nextLong())
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.getBytes(Charset.forName("UTF-8"));
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rand = new Random(seed);
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// Secrets 4 and 5 get thrown away by ZK when the new secret provider tries
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// to init
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byte[] secret4 = generateNewSecret(rand);
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byte[] secret5 = generateNewSecret(rand);
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byte[] secret6 = generateNewSecret(rand);
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byte[] secret7 = generateNewSecret(rand);
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// Initialize the znode data with the old secret length
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MockZKSignerSecretProvider oldSecretProvider =
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spy(new OldMockZKSignerSecretProvider(seed));
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Properties config = new Properties();
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config.setProperty(
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ZKSignerSecretProvider.ZOOKEEPER_CONNECTION_STRING,
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zkServer.getConnectString());
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config.setProperty(ZKSignerSecretProvider.ZOOKEEPER_PATH,
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"/secret");
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try {
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oldSecretProvider.init(config, getDummyServletContext(),
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rolloverFrequency);
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byte[] currentSecret = oldSecretProvider.getCurrentSecret();
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byte[][] allSecrets = oldSecretProvider.getAllSecrets();
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Assert.assertArrayEquals(secret1, currentSecret);
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Assert.assertEquals(2, allSecrets.length);
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Assert.assertArrayEquals(secret1, allSecrets[0]);
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Assert.assertNull(allSecrets[1]);
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oldSecretProvider.realRollSecret();
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currentSecret = oldSecretProvider.getCurrentSecret();
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allSecrets = oldSecretProvider.getAllSecrets();
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Assert.assertArrayEquals(secret2, currentSecret);
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Assert.assertEquals(2, allSecrets.length);
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Assert.assertArrayEquals(secret2, allSecrets[0]);
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Assert.assertArrayEquals(secret1, allSecrets[1]);
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} finally {
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oldSecretProvider.destroy();
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}
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// Now use a ZKSignerSecretProvider with the newer length
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MockZKSignerSecretProvider newSecretProvider =
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spy(new MockZKSignerSecretProvider(seed));
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try {
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newSecretProvider.init(config, getDummyServletContext(),
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rolloverFrequency);
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byte[] currentSecret = newSecretProvider.getCurrentSecret();
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byte[][] allSecrets = newSecretProvider.getAllSecrets();
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Assert.assertArrayEquals(secret2, currentSecret);
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Assert.assertEquals(2, allSecrets.length);
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Assert.assertArrayEquals(secret2, allSecrets[0]);
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Assert.assertArrayEquals(secret1, allSecrets[1]);
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newSecretProvider.realRollSecret();
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currentSecret = newSecretProvider.getCurrentSecret();
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allSecrets = newSecretProvider.getAllSecrets();
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Assert.assertArrayEquals(secret3, currentSecret);
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Assert.assertEquals(2, allSecrets.length);
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Assert.assertArrayEquals(secret3, allSecrets[0]);
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Assert.assertArrayEquals(secret2, allSecrets[1]);
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newSecretProvider.realRollSecret();
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currentSecret = newSecretProvider.getCurrentSecret();
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allSecrets = newSecretProvider.getAllSecrets();
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Assert.assertArrayEquals(secret6, currentSecret);
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Assert.assertEquals(2, allSecrets.length);
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Assert.assertArrayEquals(secret6, allSecrets[0]);
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Assert.assertArrayEquals(secret3, allSecrets[1]);
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newSecretProvider.realRollSecret();
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currentSecret = newSecretProvider.getCurrentSecret();
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allSecrets = newSecretProvider.getAllSecrets();
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Assert.assertArrayEquals(secret7, currentSecret);
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Assert.assertEquals(2, allSecrets.length);
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Assert.assertArrayEquals(secret7, allSecrets[0]);
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Assert.assertArrayEquals(secret6, allSecrets[1]);
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} finally {
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newSecretProvider.destroy();
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}
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}
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/**
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* A version of {@link MockZKSignerSecretProvider} that uses the old way of
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* generating secrets (160 bit long).
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*/
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private class OldMockZKSignerSecretProvider
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extends MockZKSignerSecretProvider {
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private Random rand;
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OldMockZKSignerSecretProvider(long seed) {
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super(seed);
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rand = new Random(seed);
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}
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@Override
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protected byte[] generateRandomSecret() {
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return Long.toString(rand.nextLong()).getBytes(Charset.forName("UTF-8"));
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}
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}
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@Test
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public void testMultiple1() throws Exception {
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testMultiple(1);
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@ -151,19 +259,19 @@ public class TestZKSignerSecretProvider {
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* @throws Exception
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*/
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public void testMultiple(int order) throws Exception {
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// Use the same seed and a "plain" Random so we can predict the RNG
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long seedA = System.currentTimeMillis();
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Random rand = new Random(seedA);
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byte[] secretA2 = Long.toString(rand.nextLong()).getBytes();
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byte[] secretA1 = Long.toString(rand.nextLong()).getBytes();
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byte[] secretA3 = Long.toString(rand.nextLong()).getBytes();
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byte[] secretA4 = Long.toString(rand.nextLong()).getBytes();
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// use the same seed so we can predict the RNG
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byte[] secretA2 = generateNewSecret(rand);
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byte[] secretA1 = generateNewSecret(rand);
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byte[] secretA3 = generateNewSecret(rand);
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byte[] secretA4 = generateNewSecret(rand);
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long seedB = System.currentTimeMillis() + rand.nextLong();
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rand = new Random(seedB);
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byte[] secretB2 = Long.toString(rand.nextLong()).getBytes();
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byte[] secretB1 = Long.toString(rand.nextLong()).getBytes();
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byte[] secretB3 = Long.toString(rand.nextLong()).getBytes();
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byte[] secretB4 = Long.toString(rand.nextLong()).getBytes();
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byte[] secretB2 = generateNewSecret(rand);
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byte[] secretB1 = generateNewSecret(rand);
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byte[] secretB3 = generateNewSecret(rand);
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byte[] secretB4 = generateNewSecret(rand);
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MockZKSignerSecretProvider secretProviderA =
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spy(new MockZKSignerSecretProvider(seedA));
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MockZKSignerSecretProvider secretProviderB =
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@ -258,4 +366,10 @@ public class TestZKSignerSecretProvider {
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.thenReturn(null);
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return servletContext;
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}
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private byte[] generateNewSecret(Random rand) {
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byte[] secret = new byte[32];
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rand.nextBytes(secret);
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return secret;
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}
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}
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