7158090: (launcher) newly added ToolsOpts.java fails on openjdk builds
Reviewed-by: darcy
/*
* Copyright (c) 2011, 2012, 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.
*/
/*
* @test
* @bug 7029048
* @summary Checks for LD_LIBRARY_PATH on *nixes
* @compile -XDignore.symbol.file ExecutionEnvironment.java Test7029048.java
* @run main Test7029048
*/
/*
* 7029048: test for LD_LIBRARY_PATH set to different paths pointing which may
* contain a libjvm.so and may not, but we test to ensure that the launcher
* behaves correctly in all cases.
*/
import java.io.File;
import java.io.IOException;
import java.nio.file.Files;
import java.util.ArrayList;
import java.util.HashMap;
import java.util.List;
import java.util.Map;
public class Test7029048 extends TestHelper {
static int passes = 0;
static int errors = 0;
private static final String LIBJVM = ExecutionEnvironment.LIBJVM;
private static final String LD_LIBRARY_PATH =
ExecutionEnvironment.LD_LIBRARY_PATH;
private static final String LD_LIBRARY_PATH_32 =
ExecutionEnvironment.LD_LIBRARY_PATH_32;
private static final String LD_LIBRARY_PATH_64 =
ExecutionEnvironment.LD_LIBRARY_PATH_64;
private static final File libDir =
new File(System.getProperty("sun.boot.library.path"));
private static final File srcServerDir = new File(libDir, "server");
private static final File srcLibjvmSo = new File(srcServerDir, LIBJVM);
private static final File dstLibDir = new File("lib");
private static final File dstLibArchDir =
new File(dstLibDir, getJreArch());
private static final File dstServerDir = new File(dstLibArchDir, "server");
private static final File dstServerLibjvm = new File(dstServerDir, LIBJVM);
private static final File dstClientDir = new File(dstLibArchDir, "client");
private static final File dstClientLibjvm = new File(dstClientDir, LIBJVM);
// used primarily to test the solaris variants in dual mode
private static final File dstOtherArchDir;
private static final File dstOtherServerDir;
private static final File dstOtherServerLibjvm;
private static final Map<String, String> env = new HashMap<>();
static {
if (isDualMode) {
dstOtherArchDir = new File(dstLibDir, getComplementaryJreArch());
dstOtherServerDir = new File(dstOtherArchDir, "server");
dstOtherServerLibjvm = new File(dstOtherServerDir, LIBJVM);
} else {
dstOtherArchDir = null;
dstOtherServerDir = null;
dstOtherServerLibjvm = null;
}
}
static String getValue(String name, List<String> in) {
for (String x : in) {
String[] s = x.split("=");
if (name.equals(s[0].trim())) {
return s[1].trim();
}
}
return null;
}
static void run(boolean want32, String dflag, Map<String, String> env,
int nLLPComponents, String caseID) {
final boolean want64 = want32 == false;
env.put(ExecutionEnvironment.JLDEBUG_KEY, "true");
List<String> cmdsList = new ArrayList<>();
// only for a dual-mode system
if (want64 && isDualMode) {
cmdsList.add(java64Cmd);
} else {
cmdsList.add(javaCmd); // a 32-bit java command for all
}
/*
* empty or null strings can confuse the ProcessBuilder. A null flag
* indicates that the appropriate data model is enforced on the chosen
* launcher variant.
*/
if (dflag != null) {
cmdsList.add(dflag);
} else {
cmdsList.add(want32 ? "-d32" : "-d64");
}
cmdsList.add("-server");
cmdsList.add("-jar");
cmdsList.add(ExecutionEnvironment.testJarFile.getAbsolutePath());
String[] cmds = new String[cmdsList.size()];
TestResult tr = doExec(env, cmdsList.toArray(cmds));
analyze(tr, nLLPComponents, caseID);
}
// no cross launch, ie. no change to the data model.
static void run(Map<String, String> env, int nLLPComponents, String caseID)
throws IOException {
boolean want32 = is32Bit;
run(want32, null, env, nLLPComponents, caseID);
}
static void analyze(TestResult tr, int nLLPComponents, String caseID) {
String envValue = getValue(LD_LIBRARY_PATH, tr.testOutput);
/*
* the envValue can never be null, since the test code should always
* print a "null" string.
*/
if (envValue == null) {
System.out.println(tr);
throw new RuntimeException("NPE, likely a program crash ??");
}
String values[] = envValue.split(File.pathSeparator);
if (values.length == nLLPComponents) {
System.out.println(caseID + " :OK");
passes++;
} else {
System.out.println("FAIL: test7029048, " + caseID);
System.out.println(" expected " + nLLPComponents
+ " but got " + values.length);
System.out.println(envValue);
System.out.println(tr);
errors++;
}
}
/*
* A crucial piece, specifies what we should expect, given the conditions.
* That is for a given enum type, the value indicates how many absolute
* environment variables that can be expected. This value is used to base
* the actual expected values by adding the set environment variable usually
* it is 1, but it could be more if the test wishes to set more paths in
* the future.
*/
private static enum LLP_VAR {
LLP_SET_NON_EXISTENT_PATH(0), // env set, but the path does not exist
LLP_SET_EMPTY_PATH(0), // env set, with a path but no libjvm.so
LLP_SET_WITH_JVM(3); // env set, with a libjvm.so
private final int value;
LLP_VAR(int i) {
this.value = i;
}
}
/*
* test for 7029048
*/
static void test7029048() throws IOException {
String desc = null;
for (LLP_VAR v : LLP_VAR.values()) {
switch (v) {
case LLP_SET_WITH_JVM:
// copy the files into the directory structures
copyFile(srcLibjvmSo, dstServerLibjvm);
// does not matter if it is client or a server
copyFile(srcLibjvmSo, dstClientLibjvm);
// does not matter if the arch do not match either
if (isDualMode) {
copyFile(srcLibjvmSo, dstOtherServerLibjvm);
}
desc = "LD_LIBRARY_PATH should be set";
break;
case LLP_SET_EMPTY_PATH:
if (!dstClientDir.exists()) {
Files.createDirectories(dstClientDir.toPath());
} else {
Files.deleteIfExists(dstClientLibjvm.toPath());
}
if (!dstServerDir.exists()) {
Files.createDirectories(dstServerDir.toPath());
} else {
Files.deleteIfExists(dstServerLibjvm.toPath());
}
if (isDualMode) {
if (!dstOtherServerDir.exists()) {
Files.createDirectories(dstOtherServerDir.toPath());
} else {
Files.deleteIfExists(dstOtherServerLibjvm.toPath());
}
}
desc = "LD_LIBRARY_PATH should not be set";
break;
case LLP_SET_NON_EXISTENT_PATH:
if (dstLibDir.exists()) {
recursiveDelete(dstLibDir);
}
desc = "LD_LIBRARY_PATH should not be set";
break;
default:
throw new RuntimeException("unknown case");
}
/*
* Case 1: set the server path
*/
env.clear();
env.put(LD_LIBRARY_PATH, dstServerDir.getAbsolutePath());
run(env, v.value + 1, "Case 1: " + desc);
/*
* Case 2: repeat with client path
*/
env.clear();
env.put(LD_LIBRARY_PATH, dstClientDir.getAbsolutePath());
run(env, v.value + 1, "Case 2: " + desc);
if (!isDualMode) {
continue; // nothing more to do for Linux
}
// Tests applicable only to solaris.
// initialize test variables for dual mode operations
final File dst32ServerDir = is32Bit
? dstServerDir
: dstOtherServerDir;
final File dst64ServerDir = is64Bit
? dstServerDir
: dstOtherServerDir;
/*
* Case 3: set the appropriate LLP_XX flag,
* java32 -d32, LLP_32 is relevant, LLP_64 is ignored
* java64 -d64, LLP_64 is relevant, LLP_32 is ignored
*/
env.clear();
env.put(LD_LIBRARY_PATH_32, dst32ServerDir.getAbsolutePath());
env.put(LD_LIBRARY_PATH_64, dst64ServerDir.getAbsolutePath());
run(is32Bit, null, env, v.value + 1, "Case 3: " + desc);
/*
* Case 4: we are in dual mode environment, running 64-bit then
* we have the following scenarios:
* java32 -d64, LLP_64 is relevant, LLP_32 is ignored
* java64 -d32, LLP_32 is relevant, LLP_64 is ignored
*/
if (dualModePresent()) {
run(true, "-d64", env, v.value + 1, "Case 4A: " + desc);
run(false,"-d32", env, v.value + 1, "Case 4B: " + desc);
}
}
return;
}
public static void main(String... args) throws Exception {
if (TestHelper.isWindows || TestHelper.isMacOSX) {
System.out.println("Note: applicable on neither Windows nor MacOSX");
return;
}
// create our test jar first
ExecutionEnvironment.createTestJar();
// run the tests
test7029048();
if (errors > 0) {
throw new Exception("Test7029048: FAIL: with "
+ errors + " errors and passes " + passes);
} else if (dualModePresent() && passes < 15) {
throw new Exception("Test7029048: FAIL: " +
"all tests did not run, expected " + 15 + " got " + passes);
} else if (isSolaris && passes < 9) {
throw new Exception("Test7029048: FAIL: " +
"all tests did not run, expected " + 9 + " got " + passes);
} else if (isLinux && passes < 6) {
throw new Exception("Test7029048: FAIL: " +
"all tests did not run, expected " + 6 + " got " + passes);
} else {
System.out.println("Test7029048: PASS " + passes);
}
}
}