329 lines
11 KiB
Groovy
329 lines
11 KiB
Groovy
import org.elasticsearch.gradle.BuildPlugin
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import org.elasticsearch.gradle.LoggedExec
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import javax.net.ssl.HttpsURLConnection
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import javax.net.ssl.KeyManagerFactory
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import javax.net.ssl.SSLContext
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import javax.net.ssl.TrustManagerFactory
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import java.nio.charset.StandardCharsets
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import java.security.KeyStore
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import java.security.SecureRandom
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// Tell the tests we're running with ssl enabled
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integTest.runner {
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systemProperty 'tests.ssl.enabled', 'true'
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}
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// needed to be consistent with ssl host checking
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Object san = new SanEvaluator()
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// location of generated keystores and certificates
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File keystoreDir = new File(project.buildDir, 'keystore')
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// Generate the node's keystore
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File nodeKeystore = file("$keystoreDir/test-node.jks")
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task createNodeKeyStore(type: LoggedExec) {
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doFirst {
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if (nodeKeystore.parentFile.exists() == false) {
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nodeKeystore.parentFile.mkdirs()
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}
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if (nodeKeystore.exists()) {
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delete nodeKeystore
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}
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}
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executable = new File(project.runtimeJavaHome, 'bin/keytool')
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standardInput = new ByteArrayInputStream('FirstName LastName\nUnit\nOrganization\nCity\nState\nNL\nyes\n\n'.getBytes('UTF-8'))
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args '-genkey',
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'-alias', 'test-node',
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'-keystore', nodeKeystore,
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'-keyalg', 'RSA',
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'-keysize', '2048',
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'-validity', '712',
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'-dname', 'CN=smoke-test-plugins-ssl',
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'-keypass', 'keypass',
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'-storepass', 'keypass',
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'-ext', san
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}
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// Generate the client's keystore
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File clientKeyStore = file("$keystoreDir/test-client.jks")
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task createClientKeyStore(type: LoggedExec) {
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doFirst {
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if (clientKeyStore.parentFile.exists() == false) {
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clientKeyStore.parentFile.mkdirs()
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}
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if (clientKeyStore.exists()) {
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delete clientKeyStore
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}
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}
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executable = new File(project.runtimeJavaHome, 'bin/keytool')
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standardInput = new ByteArrayInputStream('FirstName LastName\nUnit\nOrganization\nCity\nState\nNL\nyes\n\n'.getBytes('UTF-8'))
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args '-genkey',
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'-alias', 'test-client',
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'-keystore', clientKeyStore,
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'-keyalg', 'RSA',
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'-keysize', '2048',
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'-validity', '712',
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'-dname', 'CN=smoke-test-plugins-ssl',
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'-keypass', 'keypass',
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'-storepass', 'keypass',
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'-ext', san
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}
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// Export the node's certificate
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File nodeCertificate = file("$keystoreDir/test-node.cert")
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task exportNodeCertificate(type: LoggedExec) {
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dependsOn createNodeKeyStore
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doFirst {
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if (nodeCertificate.parentFile.exists() == false) {
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nodeCertificate.parentFile.mkdirs()
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}
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if (nodeCertificate.exists()) {
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delete nodeCertificate
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}
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}
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executable = new File(project.runtimeJavaHome, 'bin/keytool')
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args '-export',
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'-alias', 'test-node',
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'-keystore', nodeKeystore,
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'-storepass', 'keypass',
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'-file', nodeCertificate
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}
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// Import the node certificate in the client's keystore
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task importNodeCertificateInClientKeyStore(type: LoggedExec) {
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dependsOn createClientKeyStore, exportNodeCertificate
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executable = new File(project.runtimeJavaHome, 'bin/keytool')
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args '-import',
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'-alias', 'test-node',
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'-keystore', clientKeyStore,
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'-storepass', 'keypass',
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'-file', nodeCertificate,
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'-noprompt'
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}
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// Export the client's certificate
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File clientCertificate = file("$keystoreDir/test-client.cert")
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task exportClientCertificate(type: LoggedExec) {
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dependsOn createClientKeyStore
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doFirst {
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if (clientCertificate.parentFile.exists() == false) {
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clientCertificate.parentFile.mkdirs()
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}
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if (clientCertificate.exists()) {
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delete clientCertificate
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}
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}
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executable = new File(project.runtimeJavaHome, 'bin/keytool')
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args '-export',
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'-alias', 'test-client',
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'-keystore', clientKeyStore,
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'-storepass', 'keypass',
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'-file', clientCertificate
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}
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// Import the client certificate in the node's keystore
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task importClientCertificateInNodeKeyStore(type: LoggedExec) {
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dependsOn createNodeKeyStore, exportClientCertificate
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executable = new File(project.runtimeJavaHome, 'bin/keytool')
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args '-import',
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'-alias', 'test-client',
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'-keystore', nodeKeystore,
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'-storepass', 'keypass',
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'-file', clientCertificate,
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'-noprompt'
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}
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forbiddenPatterns {
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exclude '**/*.cert'
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}
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// Add keystores to test classpath: it expects it there
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sourceSets.test.resources.srcDir(keystoreDir)
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processTestResources.dependsOn(importNodeCertificateInClientKeyStore, importClientCertificateInNodeKeyStore)
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integTest.runner {
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dependsOn(importClientCertificateInNodeKeyStore)
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onlyIf {
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// Do not attempt to form a cluster in a FIPS JVM, as doing so with a JKS keystore will fail.
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// TODO Revisit this when SQL CLI client can handle key/certificate instead of only Keystores.
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// https://github.com/elastic/elasticsearch/issues/32306
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project.inFipsJvm == false
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}
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}
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testClusters.integTest {
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// The setup that we actually want
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setting 'xpack.license.self_generated.type', 'trial'
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setting 'xpack.security.http.ssl.enabled', 'true'
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setting 'xpack.security.transport.ssl.enabled', 'true'
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// ceremony to set up ssl
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setting 'xpack.security.transport.ssl.keystore.path', 'test-node.jks'
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setting 'xpack.security.http.ssl.keystore.path', 'test-node.jks'
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keystore 'xpack.security.transport.ssl.keystore.secure_password', 'keypass'
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keystore 'xpack.security.http.ssl.keystore.secure_password', 'keypass'
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// copy keystores into config/
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extraConfigFile nodeKeystore.name, nodeKeystore
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extraConfigFile clientKeyStore.name, clientKeyStore
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}
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/** A lazy evaluator to find the san to use for certificate generation. */
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class SanEvaluator {
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private static String san = null
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String toString() {
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synchronized (SanEvaluator.class) {
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if (san == null) {
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san = getSubjectAlternativeNameString()
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}
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}
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return san
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}
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// Code stolen from NetworkUtils/InetAddresses/NetworkAddress to support SAN
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/** Return all interfaces (and subinterfaces) on the system */
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private static List<NetworkInterface> getInterfaces() throws SocketException {
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List<NetworkInterface> all = new ArrayList<>();
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addAllInterfaces(all, Collections.list(NetworkInterface.getNetworkInterfaces()));
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Collections.sort(all, new Comparator<NetworkInterface>() {
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@Override
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public int compare(NetworkInterface left, NetworkInterface right) {
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return Integer.compare(left.getIndex(), right.getIndex());
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}
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});
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return all;
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}
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/** Helper for getInterfaces, recursively adds subinterfaces to {@code target} */
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private static void addAllInterfaces(List<NetworkInterface> target, List<NetworkInterface> level) {
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if (!level.isEmpty()) {
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target.addAll(level);
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for (NetworkInterface intf : level) {
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addAllInterfaces(target, Collections.list(intf.getSubInterfaces()));
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}
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}
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}
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private static String getSubjectAlternativeNameString() {
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List<InetAddress> list = new ArrayList<>();
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for (NetworkInterface intf : getInterfaces()) {
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if (intf.isUp()) {
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// NOTE: some operating systems (e.g. BSD stack) assign a link local address to the loopback interface
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// while technically not a loopback address, some of these treat them as one (e.g. OS X "localhost") so we must too,
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// otherwise things just won't work out of box. So we include all addresses from loopback interfaces.
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for (InetAddress address : Collections.list(intf.getInetAddresses())) {
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if (intf.isLoopback() || address.isLoopbackAddress()) {
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list.add(address);
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}
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}
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}
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}
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if (list.isEmpty()) {
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throw new IllegalArgumentException("no up-and-running loopback addresses found, got " + getInterfaces());
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}
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StringBuilder builder = new StringBuilder("san=");
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for (int i = 0; i < list.size(); i++) {
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InetAddress address = list.get(i);
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String hostAddress;
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if (address instanceof Inet6Address) {
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hostAddress = compressedIPV6Address((Inet6Address)address);
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} else {
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hostAddress = address.getHostAddress();
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}
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builder.append("ip:").append(hostAddress);
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String hostname = address.getHostName();
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if (hostname.equals(address.getHostAddress()) == false) {
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builder.append(",dns:").append(hostname);
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}
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if (i != (list.size() - 1)) {
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builder.append(",");
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}
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}
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return builder.toString();
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}
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private static String compressedIPV6Address(Inet6Address inet6Address) {
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byte[] bytes = inet6Address.getAddress();
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int[] hextets = new int[8];
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for (int i = 0; i < hextets.length; i++) {
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hextets[i] = (bytes[2 * i] & 255) << 8 | bytes[2 * i + 1] & 255;
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}
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compressLongestRunOfZeroes(hextets);
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return hextetsToIPv6String(hextets);
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}
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/**
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* Identify and mark the longest run of zeroes in an IPv6 address.
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*
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* <p>Only runs of two or more hextets are considered. In case of a tie, the
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* leftmost run wins. If a qualifying run is found, its hextets are replaced
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* by the sentinel value -1.
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*
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* @param hextets {@code int[]} mutable array of eight 16-bit hextets
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*/
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private static void compressLongestRunOfZeroes(int[] hextets) {
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int bestRunStart = -1;
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int bestRunLength = -1;
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int runStart = -1;
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for (int i = 0; i < hextets.length + 1; i++) {
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if (i < hextets.length && hextets[i] == 0) {
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if (runStart < 0) {
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runStart = i;
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}
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} else if (runStart >= 0) {
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int runLength = i - runStart;
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if (runLength > bestRunLength) {
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bestRunStart = runStart;
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bestRunLength = runLength;
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}
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runStart = -1;
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}
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}
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if (bestRunLength >= 2) {
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Arrays.fill(hextets, bestRunStart, bestRunStart + bestRunLength, -1);
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}
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}
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/**
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* Convert a list of hextets into a human-readable IPv6 address.
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*
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* <p>In order for "::" compression to work, the input should contain negative
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* sentinel values in place of the elided zeroes.
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*
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* @param hextets {@code int[]} array of eight 16-bit hextets, or -1s
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*/
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private static String hextetsToIPv6String(int[] hextets) {
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/*
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* While scanning the array, handle these state transitions:
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* start->num => "num" start->gap => "::"
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* num->num => ":num" num->gap => "::"
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* gap->num => "num" gap->gap => ""
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*/
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StringBuilder buf = new StringBuilder(39);
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boolean lastWasNumber = false;
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for (int i = 0; i < hextets.length; i++) {
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boolean thisIsNumber = hextets[i] >= 0;
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if (thisIsNumber) {
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if (lastWasNumber) {
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buf.append(':');
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}
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buf.append(Integer.toHexString(hextets[i]));
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} else {
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if (i == 0 || lastWasNumber) {
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buf.append("::");
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}
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}
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lastWasNumber = thisIsNumber;
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}
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return buf.toString();
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}
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}
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