mirror of
https://github.com/bisq-network/bisq.git
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Remove random ports and static ID
This commit is contained in:
Manfred Karrer
parent
05a86f251f
commit
865fe73bfb
1 changed files with 55 additions and 51 deletions
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@ -26,12 +26,12 @@ import java.io.IOException;
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import java.net.UnknownHostException;
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import java.util.Random;
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import java.util.concurrent.CountDownLatch;
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import java.util.concurrent.TimeUnit;
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import net.tomp2p.connection.Bindings;
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import net.tomp2p.connection.ChannelClientConfiguration;
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import net.tomp2p.connection.Ports;
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import net.tomp2p.connection.StandardProtocolFamily;
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import net.tomp2p.dht.FutureGet;
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import net.tomp2p.dht.FuturePut;
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@ -84,7 +84,7 @@ public class TomP2PTests {
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}
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// If you want to test in one specific connection mode define it directly, otherwise use UNKNOWN
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private static final ConnectionType FORCED_CONNECTION_TYPE = ConnectionType.NAT;
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private static final ConnectionType FORCED_CONNECTION_TYPE = ConnectionType.DIRECT;
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// Typically you run the seed node in localhost to test direct connection.
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// If you have a setup where you are not behind a router you can also use a WAN side seed node.
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@ -107,6 +107,7 @@ public class TomP2PTests {
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// Use to stress tests by repeating them
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private static final int STRESS_TEST_COUNT = 1;
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private Peer peer;
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private PeerDHT peer1DHT;
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private PeerDHT peer2DHT;
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private int client1Port;
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@ -116,52 +117,66 @@ public class TomP2PTests {
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@Before
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public void setUp() {
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client1Port = getNewRandomPort();
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client2Port = getNewRandomPort();
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client1Port = 7777;
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client2Port = 7778;
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}
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@After
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public void tearDown() {
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if (peer1DHT != null) {
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peer1DHT.shutdown().awaitUninterruptibly();
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peer1DHT.shutdown().awaitListenersUninterruptibly();
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}
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if (peer2DHT != null) {
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peer2DHT.shutdown().awaitUninterruptibly();
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peer2DHT.shutdown().awaitListenersUninterruptibly();
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}
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if (peer != null) {
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peer.shutdown().awaitUninterruptibly();
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peer.shutdown().awaitListenersUninterruptibly();
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}
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}
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@Test
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@Repeat(STRESS_TEST_COUNT)
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public void bootstrapInUnknownMode() throws Exception {
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if (FORCED_CONNECTION_TYPE == ConnectionType.UNKNOWN)
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assertNotNull(bootstrapInUnknownMode("node_1", client1Port));
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if (FORCED_CONNECTION_TYPE == ConnectionType.UNKNOWN) {
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peer = bootstrapInUnknownMode(client1Port);
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assertNotNull(peer);
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}
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}
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@Test
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@Repeat(STRESS_TEST_COUNT)
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public void testBootstrapDirectConnection() throws Exception {
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if (FORCED_CONNECTION_TYPE == ConnectionType.DIRECT)
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assertNotNull(bootstrapDirectConnection("node_1", client1Port));
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if (FORCED_CONNECTION_TYPE == ConnectionType.DIRECT) {
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peer = bootstrapDirectConnection(client1Port);
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assertNotNull(peer);
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}
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}
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@Test
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@Repeat(STRESS_TEST_COUNT)
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public void testBootstrapWithPortForwarding() throws Exception {
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if (FORCED_CONNECTION_TYPE == ConnectionType.NAT)
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assertNotNull(bootstrapWithPortForwarding("node_1", client1Port));
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if (FORCED_CONNECTION_TYPE == ConnectionType.NAT) {
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peer = bootstrapWithPortForwarding(client1Port);
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assertNotNull(peer);
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}
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}
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@Test
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@Repeat(STRESS_TEST_COUNT)
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public void testBootstrapInRelayMode() throws Exception {
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if (FORCED_CONNECTION_TYPE == ConnectionType.RELAY)
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assertNotNull(bootstrapInRelayMode("node_1", client1Port));
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if (FORCED_CONNECTION_TYPE == ConnectionType.RELAY) {
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peer = bootstrapInRelayMode(client1Port);
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assertNotNull(peer);
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}
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}
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@Test
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@Repeat(STRESS_TEST_COUNT)
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public void testPut() throws Exception {
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peer1DHT = getDHTPeer("node_1", client1Port);
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peer1DHT = getDHTPeer(client1Port);
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FuturePut futurePut = peer1DHT.put(Number160.createHash("key")).data(new Data("hallo")).start();
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futurePut.awaitUninterruptibly();
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assertTrue(futurePut.isSuccess());
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@ -170,12 +185,12 @@ public class TomP2PTests {
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@Test
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@Repeat(STRESS_TEST_COUNT)
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public void testPutGet() throws Exception {
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peer1DHT = getDHTPeer("node_1", client1Port);
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peer1DHT = getDHTPeer(client1Port);
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FuturePut futurePut = peer1DHT.put(Number160.createHash("key")).data(new Data("hallo")).start();
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futurePut.awaitUninterruptibly();
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assertTrue(futurePut.isSuccess());
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peer2DHT = getDHTPeer("node_2", client2Port);
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peer2DHT = getDHTPeer(client2Port);
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FutureGet futureGet = peer2DHT.get(Number160.createHash("key")).start();
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futureGet.awaitUninterruptibly();
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assertTrue(futureGet.isSuccess());
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@ -185,7 +200,7 @@ public class TomP2PTests {
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@Test
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@Repeat(STRESS_TEST_COUNT)
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public void testAdd() throws Exception {
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peer1DHT = getDHTPeer("node_1", client1Port);
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peer1DHT = getDHTPeer(client1Port);
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FuturePut futurePut1 = peer1DHT.add(Number160.createHash("locationKey")).data(new Data("hallo1")).start();
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futurePut1.awaitUninterruptibly();
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assertTrue(futurePut1.isSuccess());
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@ -194,7 +209,7 @@ public class TomP2PTests {
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@Test
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@Repeat(STRESS_TEST_COUNT)
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public void testAddGet() throws Exception {
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peer1DHT = getDHTPeer("node_1", client1Port);
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peer1DHT = getDHTPeer(client1Port);
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FuturePut futurePut1 = peer1DHT.add(Number160.createHash("locationKey")).data(new Data("hallo1"))
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.start();
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futurePut1.awaitUninterruptibly();
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@ -206,7 +221,7 @@ public class TomP2PTests {
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assertTrue(futurePut2.isSuccess());
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peer2DHT = getDHTPeer("node_2", client2Port);
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peer2DHT = getDHTPeer(client2Port);
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FutureGet futureGet = peer2DHT.get(Number160.createHash("locationKey")).all().start();
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futureGet.awaitUninterruptibly();
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assertTrue(futureGet.isSuccess());
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@ -219,7 +234,7 @@ public class TomP2PTests {
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@Test
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@Repeat(STRESS_TEST_COUNT)
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public void testAddRemove() throws Exception {
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peer1DHT = getDHTPeer("node_1", client1Port);
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peer1DHT = getDHTPeer(client1Port);
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FuturePut futurePut1 = peer1DHT.add(Number160.createHash("locationKey")).data(new Data("hallo1")).start();
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futurePut1.awaitUninterruptibly();
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futurePut1.awaitListenersUninterruptibly();
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@ -231,7 +246,7 @@ public class TomP2PTests {
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assertTrue(futurePut2.isSuccess());
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peer2DHT = getDHTPeer("node_2", client2Port);
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peer2DHT = getDHTPeer(client2Port);
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Number160 contentKey = new Data("hallo1").hash();
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FutureRemove futureRemove = peer2DHT.remove(Number160.createHash("locationKey")).contentKey(contentKey).start();
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futureRemove.awaitUninterruptibly();
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@ -262,8 +277,8 @@ public class TomP2PTests {
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@Repeat(STRESS_TEST_COUNT)
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public void testSendDirectBetweenLocalPeers() throws Exception {
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if (FORCED_CONNECTION_TYPE != ConnectionType.NAT && resolvedConnectionType != ConnectionType.RELAY) {
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peer1DHT = getDHTPeer("node_1", client1Port);
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peer2DHT = getDHTPeer("node_2", client2Port);
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peer1DHT = getDHTPeer(client1Port);
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peer2DHT = getDHTPeer(client2Port);
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final CountDownLatch countDownLatch = new CountDownLatch(1);
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@ -295,7 +310,7 @@ public class TomP2PTests {
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@Test
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@Repeat(STRESS_TEST_COUNT)
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public void testSendDirectToSeedNode() throws Exception {
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peer1DHT = getDHTPeer("node_1", client1Port);
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peer1DHT = getDHTPeer(client1Port);
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FuturePeerConnection futurePeerConnection =
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peer1DHT.peer().createPeerConnection(BOOTSTRAP_NODE_ADDRESS, 500);
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FutureDirect futureDirect = peer1DHT.peer().sendDirect(futurePeerConnection).object("hallo").start();
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@ -304,11 +319,10 @@ public class TomP2PTests {
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assertEquals("pong", futureDirect.object());
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}
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private Peer bootstrapDirectConnection(String clientId, int clientPort) {
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final String id = clientId + clientPort;
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private Peer bootstrapDirectConnection(int clientPort) {
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Peer peer = null;
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try {
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Number160 peerId = Number160.createHash(clientId);
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Number160 peerId = new Number160(new Random(43L));
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PeerMapConfiguration pmc = new PeerMapConfiguration(peerId).peerNoVerification();
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PeerMap pm = new PeerMap(pmc);
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ChannelClientConfiguration cc = PeerBuilder.createDefaultChannelClientConfiguration();
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@ -347,11 +361,11 @@ public class TomP2PTests {
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}
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}
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private Peer bootstrapWithPortForwarding(String clientId, int clientPort) {
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final String id = clientId + clientPort;
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private Peer bootstrapWithPortForwarding(int clientPort) {
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Number160 peerId = new Number160(new Random(43L));
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Peer peer = null;
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try {
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peer = new PeerBuilder(Number160.createHash(clientId)).bindings(getBindings()).behindFirewall()
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peer = new PeerBuilder(peerId).bindings(getBindings()).behindFirewall()
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.ports(clientPort).start();
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PeerNAT peerNAT = new PeerBuilderNAT(peer).start();
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@ -401,12 +415,11 @@ public class TomP2PTests {
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}
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}
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private Peer bootstrapInRelayMode(String clientId, int clientPort) {
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final String id = clientId + clientPort;
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private Peer bootstrapInRelayMode(int clientPort) {
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Number160 peerId = new Number160(new Random(43L));
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Peer peer = null;
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try {
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peer = new PeerBuilder(Number160.createHash(clientId)).bindings(getBindings()).behindFirewall()
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peer = new PeerBuilder(peerId).bindings(getBindings()).behindFirewall()
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.ports(clientPort).start();
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PeerNAT peerNAT = new PeerBuilderNAT(peer).start();
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@ -444,19 +457,19 @@ public class TomP2PTests {
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}
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}
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private Peer bootstrapInUnknownMode(String clientId, int clientPort) {
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private Peer bootstrapInUnknownMode(int clientPort) {
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resolvedConnectionType = ConnectionType.DIRECT;
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Peer peer = bootstrapDirectConnection(clientId, clientPort);
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Peer peer = bootstrapDirectConnection(clientPort);
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if (peer != null)
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return peer;
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resolvedConnectionType = ConnectionType.NAT;
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peer = bootstrapWithPortForwarding(clientId, clientPort);
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peer = bootstrapWithPortForwarding(clientPort);
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if (peer != null)
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return peer;
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resolvedConnectionType = ConnectionType.RELAY;
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peer = bootstrapInRelayMode(clientId, clientPort);
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peer = bootstrapInRelayMode(clientPort);
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if (peer != null)
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return peer;
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else
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@ -466,19 +479,19 @@ public class TomP2PTests {
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return peer;
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}
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private PeerDHT getDHTPeer(String clientId, int clientPort) {
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private PeerDHT getDHTPeer(int clientPort) {
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Peer peer;
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if (FORCED_CONNECTION_TYPE == ConnectionType.DIRECT) {
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peer = bootstrapDirectConnection(clientId, clientPort);
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peer = bootstrapDirectConnection(clientPort);
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}
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else if (FORCED_CONNECTION_TYPE == ConnectionType.NAT) {
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peer = bootstrapWithPortForwarding(clientId, clientPort);
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peer = bootstrapWithPortForwarding(clientPort);
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}
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else if (FORCED_CONNECTION_TYPE == ConnectionType.RELAY) {
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peer = bootstrapInRelayMode(clientId, clientPort);
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peer = bootstrapInRelayMode(clientPort);
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}
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else {
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peer = bootstrapInUnknownMode(clientId, clientPort);
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peer = bootstrapInUnknownMode(clientPort);
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}
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if (peer == null)
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@ -490,15 +503,6 @@ public class TomP2PTests {
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return new PeerBuilderDHT(peer).start();
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}
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private int getNewRandomPort() {
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// new Ports().tcpPort() returns a random port
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int newPort = new Ports().tcpPort();
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while (newPort == client1Port || newPort == client2Port)
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newPort = new Ports().tcpPort();
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return newPort;
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}
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private Bindings getBindings() {
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Bindings bindings = new Bindings();
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bindings.addProtocol(StandardProtocolFamily.INET);
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