/* * Copyright (c) 2016, 2019, Oracle and/or its affiliates. All rights reserved. * DO NOT ALTER OR REMOVE COPYRIGHT NOTICES OR THIS FILE HEADER. * * This code is free software; you can redistribute it and/or modify it * under the terms of the GNU General Public License version 2 only, as * published by the Free Software Foundation. * * This code is distributed in the hope that it will be useful, but WITHOUT * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License * version 2 for more details (a copy is included in the LICENSE file that * accompanied this code). * * You should have received a copy of the GNU General Public License version * 2 along with this work; if not, write to the Free Software Foundation, * Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA. * * Please contact Oracle, 500 Oracle Parkway, Redwood Shores, CA 94065 USA * or visit www.oracle.com if you need additional information or have any * questions. */ package requires; import java.io.BufferedInputStream; import java.io.FileInputStream; import java.io.IOException; import java.io.InputStream; import java.nio.file.Files; import java.nio.file.Path; import java.nio.file.Paths; import java.nio.file.StandardOpenOption; import java.util.ArrayList; import java.util.HashMap; import java.util.List; import java.util.Map; import java.util.Properties; import java.util.concurrent.Callable; import java.util.concurrent.TimeUnit; import java.util.function.Supplier; import java.util.regex.Matcher; import java.util.regex.Pattern; import sun.hotspot.code.Compiler; import sun.hotspot.cpuinfo.CPUInfo; import sun.hotspot.gc.GC; import sun.hotspot.WhiteBox; import jdk.test.lib.Platform; /** * The Class to be invoked by jtreg prior Test Suite execution to * collect information about VM. * Do not use any APIs that may not be available in all target VMs. * Properties set by this Class will be available in the @requires expressions. */ public class VMProps implements Callable> { // value known to jtreg as an indicator of error state private static final String ERROR_STATE = "__ERROR__"; private static final WhiteBox WB = WhiteBox.getWhiteBox(); private static class SafeMap { private final Map map = new HashMap<>(); public void put(String key, Supplier s) { String value; try { value = s.get(); } catch (Throwable t) { System.err.println("failed to get value for " + key); t.printStackTrace(System.err); value = ERROR_STATE + t; } map.put(key, value); } } /** * Collects information about VM properties. * This method will be invoked by jtreg. * * @return Map of property-value pairs. */ @Override public Map call() { SafeMap map = new SafeMap(); map.put("vm.flavor", this::vmFlavor); map.put("vm.compMode", this::vmCompMode); map.put("vm.bits", this::vmBits); map.put("vm.flightRecorder", this::vmFlightRecorder); map.put("vm.simpleArch", this::vmArch); map.put("vm.debug", this::vmDebug); map.put("vm.jvmci", this::vmJvmci); map.put("vm.emulatedClient", this::vmEmulatedClient); // vm.hasSA is "true" if the VM contains the serviceability agent // and jhsdb. map.put("vm.hasSA", this::vmHasSA); // vm.hasSAandCanAttach is "true" if the VM contains the serviceability agent // and jhsdb and it can attach to the VM. map.put("vm.hasSAandCanAttach", this::vmHasSAandCanAttach); // vm.hasJFR is "true" if JFR is included in the build of the VM and // so tests can be executed. map.put("vm.hasJFR", this::vmHasJFR); map.put("vm.cpu.features", this::cpuFeatures); map.put("vm.rtm.cpu", this::vmRTMCPU); map.put("vm.rtm.compiler", this::vmRTMCompiler); map.put("vm.aot", this::vmAOT); map.put("vm.aot.enabled", this::vmAotEnabled); // vm.cds is true if the VM is compiled with cds support. map.put("vm.cds", this::vmCDS); map.put("vm.cds.custom.loaders", this::vmCDSForCustomLoaders); map.put("vm.cds.archived.java.heap", this::vmCDSForArchivedJavaHeap); // vm.graal.enabled is true if Graal is used as JIT map.put("vm.graal.enabled", this::isGraalEnabled); map.put("vm.compiler1.enabled", this::isCompiler1Enabled); map.put("vm.compiler2.enabled", this::isCompiler2Enabled); map.put("docker.support", this::dockerSupport); map.put("release.implementor", this::implementor); map.put("test.vm.gc.nvdimm", this::isNvdimmTestEnabled); vmGC(map); // vm.gc.X = true/false vmOptFinalFlags(map); dump(map.map); return map.map; } /** * Print a stack trace before returning error state; * Used by the various helper functions which parse information from * VM properties in the case where they don't find an expected property * or a property doesn't conform to an expected format. * * @return {@link #ERROR_STATE} */ private String errorWithMessage(String message) { new Exception(message).printStackTrace(); return ERROR_STATE + message; } /** * @return vm.simpleArch value of "os.simpleArch" property of tested JDK. */ protected String vmArch() { String arch = System.getProperty("os.arch"); if (arch.equals("x86_64") || arch.equals("amd64")) { return "x64"; } else if (arch.contains("86")) { return "x86"; } else { return arch; } } /** * @return VM type value extracted from the "java.vm.name" property. */ protected String vmFlavor() { // E.g. "Java HotSpot(TM) 64-Bit Server VM" String vmName = System.getProperty("java.vm.name"); if (vmName == null) { return errorWithMessage("Can't get 'java.vm.name' property"); } Pattern startP = Pattern.compile(".* (\\S+) VM"); Matcher m = startP.matcher(vmName); if (m.matches()) { return m.group(1).toLowerCase(); } return errorWithMessage("Can't get VM flavor from 'java.vm.name'"); } /** * @return VM compilation mode extracted from the "java.vm.info" property. */ protected String vmCompMode() { // E.g. "mixed mode" String vmInfo = System.getProperty("java.vm.info"); if (vmInfo == null) { return errorWithMessage("Can't get 'java.vm.info' property"); } vmInfo = vmInfo.toLowerCase(); if (vmInfo.contains("mixed mode")) { return "Xmixed"; } else if (vmInfo.contains("compiled mode")) { return "Xcomp"; } else if (vmInfo.contains("interpreted mode")) { return "Xint"; } else { return errorWithMessage("Can't get compilation mode from 'java.vm.info'"); } } /** * @return VM bitness, the value of the "sun.arch.data.model" property. */ protected String vmBits() { String dataModel = System.getProperty("sun.arch.data.model"); if (dataModel != null) { return dataModel; } else { return errorWithMessage("Can't get 'sun.arch.data.model' property"); } } /** * @return "true" if Flight Recorder is enabled, "false" if is disabled. */ protected String vmFlightRecorder() { Boolean isFlightRecorder = WB.getBooleanVMFlag("FlightRecorder"); String startFROptions = WB.getStringVMFlag("StartFlightRecording"); if (isFlightRecorder != null && isFlightRecorder) { return "true"; } if (startFROptions != null && !startFROptions.isEmpty()) { return "true"; } return "false"; } /** * @return debug level value extracted from the "jdk.debug" property. */ protected String vmDebug() { String debug = System.getProperty("jdk.debug"); if (debug != null) { return "" + debug.contains("debug"); } else { return errorWithMessage("Can't get 'jdk.debug' property"); } } /** * @return true if VM supports JVMCI and false otherwise */ protected String vmJvmci() { // builds with jvmci have this flag return "" + (WB.getBooleanVMFlag("EnableJVMCI") != null); } /** * @return true if VM runs in emulated-client mode and false otherwise. */ protected String vmEmulatedClient() { String vmInfo = System.getProperty("java.vm.info"); if (vmInfo == null) { return errorWithMessage("Can't get 'java.vm.info' property"); } return "" + vmInfo.contains(" emulated-client"); } /** * @return supported CPU features */ protected String cpuFeatures() { return CPUInfo.getFeatures().toString(); } /** * For all existing GC sets vm.gc.X property. * Example vm.gc.G1=true means: * VM supports G1 * User either set G1 explicitely (-XX:+UseG1GC) or did not set any GC * * @param map - property-value pairs */ protected void vmGC(SafeMap map) { for (GC gc: GC.values()) { map.put("vm.gc." + gc.name(), () -> "" + (gc.isSupported() && (gc.isSelected() || GC.isSelectedErgonomically()))); } } /** * Selected final flag. * * @param map - property-value pairs * @param flagName - flag name */ private void vmOptFinalFlag(SafeMap map, String flagName) { map.put("vm.opt.final." + flagName, () -> String.valueOf(WB.getBooleanVMFlag(flagName))); } /** * Selected sets of final flags. * * @param map - property-value pairs */ protected void vmOptFinalFlags(SafeMap map) { vmOptFinalFlag(map, "ClassUnloading"); vmOptFinalFlag(map, "UseCompressedOops"); vmOptFinalFlag(map, "EnableJVMCI"); vmOptFinalFlag(map, "EliminateAllocations"); } /** * @return "true" if VM has a serviceability agent. */ protected String vmHasSA() { return "" + Platform.hasSA(); } /** * @return "true" if VM has a serviceability agent and it can * attach to the VM. */ protected String vmHasSAandCanAttach() { try { return "" + Platform.shouldSAAttach(); } catch (IOException e) { e.printStackTrace(); return errorWithMessage("Checking whether SA can attach to the VM failed.:" + e); } } /** * @return "true" if the VM is compiled with Java Flight Recorder (JFR) * support. */ protected String vmHasJFR() { return "" + WB.isJFRIncludedInVmBuild(); } /** * @return true if compiler in use supports RTM and false otherwise. */ protected String vmRTMCompiler() { boolean isRTMCompiler = false; if (Compiler.isC2Enabled() && (Platform.isX86() || Platform.isX64() || Platform.isPPC())) { isRTMCompiler = true; } return "" + isRTMCompiler; } /** * @return true if VM runs RTM supported CPU and false otherwise. */ protected String vmRTMCPU() { return "" + CPUInfo.hasFeature("rtm"); } /** * @return true if VM supports AOT and false otherwise */ protected String vmAOT() { // builds with aot have jaotc in /bin Path bin = Paths.get(System.getProperty("java.home")) .resolve("bin"); Path jaotc; if (Platform.isWindows()) { jaotc = bin.resolve("jaotc.exe"); } else { jaotc = bin.resolve("jaotc"); } return "" + Files.exists(jaotc); } /* * @return true if there is at least one loaded AOT'ed library. */ protected String vmAotEnabled() { return "" + (WB.aotLibrariesCount() > 0); } /** * Check for CDS support. * * @return true if CDS is supported by the VM to be tested. */ protected String vmCDS() { return "" + WB.isCDSIncludedInVmBuild(); } /** * Check for CDS support for custom loaders. * * @return true if CDS provides support for customer loader in the VM to be tested. */ protected String vmCDSForCustomLoaders() { return "" + ("true".equals(vmCDS()) && Platform.areCustomLoadersSupportedForCDS()); } /** * Check for CDS support for archived Java heap regions. * * @return true if CDS provides support for archive Java heap regions in the VM to be tested. */ protected String vmCDSForArchivedJavaHeap() { return "" + ("true".equals(vmCDS()) && WB.isJavaHeapArchiveSupported()); } /** * Check if Graal is used as JIT compiler. * * @return true if Graal is used as JIT compiler. */ protected String isGraalEnabled() { return "" + Compiler.isGraalEnabled(); } /** * Check if Compiler1 is present. * * @return true if Compiler1 is used as JIT compiler, either alone or as part of the tiered system. */ protected String isCompiler1Enabled() { return "" + Compiler.isC1Enabled(); } /** * Check if Compiler2 is present. * * @return true if Compiler2 is used as JIT compiler, either alone or as part of the tiered system. */ protected String isCompiler2Enabled() { return "" + Compiler.isC2Enabled(); } /** * A simple check for docker support * * @return true if docker is supported in a given environment */ protected String dockerSupport() { boolean isSupported = false; if (Platform.isLinux()) { // currently docker testing is only supported for Linux, // on certain platforms String arch = System.getProperty("os.arch"); if (Platform.isX64()) { isSupported = true; } else if (Platform.isAArch64()) { isSupported = true; } else if (Platform.isS390x()) { isSupported = true; } else if (arch.equals("ppc64le")) { isSupported = true; } } if (isSupported) { try { isSupported = checkDockerSupport(); } catch (Exception e) { isSupported = false; } } return "" + isSupported; } private boolean checkDockerSupport() throws IOException, InterruptedException { ProcessBuilder pb = new ProcessBuilder(Platform.DOCKER_COMMAND, "ps"); Process p = pb.start(); p.waitFor(10, TimeUnit.SECONDS); return (p.exitValue() == 0); } private String implementor() { try (InputStream in = new BufferedInputStream(new FileInputStream( System.getProperty("java.home") + "/release"))) { Properties properties = new Properties(); properties.load(in); String implementorProperty = properties.getProperty("IMPLEMENTOR"); if (implementorProperty != null) { return implementorProperty.replace("\"", ""); } return errorWithMessage("Can't get 'IMPLEMENTOR' property from 'release' file"); } catch (IOException e) { e.printStackTrace(); return errorWithMessage("Failed to read 'release' file " + e); } } private String isNvdimmTestEnabled() { String isEnabled = System.getenv("TEST_VM_GC_NVDIMM"); return "" + "true".equalsIgnoreCase(isEnabled); } /** * Dumps the map to the file if the file name is given as the property. * This functionality could be helpful to know context in the real * execution. * * @param map */ protected static void dump(Map map) { String dumpFileName = System.getProperty("vmprops.dump"); if (dumpFileName == null) { return; } List lines = new ArrayList<>(); map.forEach((k, v) -> lines.add(k + ":" + v)); try { Files.write(Paths.get(dumpFileName), lines, StandardOpenOption.APPEND, StandardOpenOption.CREATE); } catch (IOException e) { throw new RuntimeException("Failed to dump properties into '" + dumpFileName + "'", e); } } /** * This method is for the testing purpose only. * * @param args */ public static void main(String args[]) { Map map = new VMProps().call(); map.forEach((k, v) -> System.out.println(k + ": '" + v + "'")); } }