8201491: G1 support for java.lang.ref.Reference precleaning
Summary: Implement single-threaded concurrent reference precleaning for G1.
Reviewed-by: sangheki, kbarrett
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*
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* version 2 for more details (a copy is included in the LICENSE file that
* accompanied this code).
*
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* 2 along with this work; if not, write to the Free Software Foundation,
* Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA.
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package gc.concurrent_phase_control;
/*
* Utility class that uses the WhiteBox concurrent GC phase control to
* step through a provided sequence of phases, and verify that the
* phases were actually reached as expected.
*
* To use:
*
* (1) The main test class has a main function which calls this helper
* class's check() function with appropriate arguments for the
* collector being tested.
*
* (2) The test program must provide access to WhiteBox, as it is used
* by this support class.
*
* (4) The main test class should be invoked as a driver. This
* helper class's check() function will run its Executor class in a
* subprocess, in order to capture its output for analysis.
*/
import sun.hotspot.WhiteBox;
import java.util.ArrayList;
import java.util.Collections;
import java.util.List;
import java.util.regex.Matcher;
import java.util.regex.Pattern;
import jdk.test.lib.Platform;
import jdk.test.lib.process.OutputAnalyzer;
import jdk.test.lib.process.ProcessTools;
public final class CheckControl {
// gcName: The name of the GC, logged as "Using <name>" near the
// beginning of the log output.
//
// gcOptions: Command line options for invoking the desired
// collector and logging options to produce output that can be
// matched against the regex patterns in the gcPhaseInfo pairs.
//
// gcPhaseInfo: An array of pairs of strings. Each pair is a
// phase name and a regex pattern for recognizing the associated
// log message. The regex pattern can be null if no log message
// is associated with the named phase. The test will iterate
// through the array, requesting each phase in turn.
public static void check(String gcName,
String[] gcOptions,
String[][] gcPhaseInfo) throws Exception {
String[] stepPhases = new String[gcPhaseInfo.length];
for (int i = 0; i < gcPhaseInfo.length; ++i) {
stepPhases[i] = gcPhaseInfo[i][0];
}
String messages = executeTest(gcName, gcOptions, stepPhases);
checkPhaseControl(messages, gcPhaseInfo);
}
private static void fail(String message) throws Exception {
throw new RuntimeException(message);
}
private static final String requestPrefix = "Requesting concurrent phase: ";
private static final String reachedPrefix = "Reached concurrent phase: ";
private static String executeTest(String gcName,
String[] gcOptions,
String[] gcStepPhases) throws Exception {
System.out.println("\n---------- Testing ---------");
final String[] wb_arguments = {
"-Xbootclasspath/a:.",
"-XX:+UnlockDiagnosticVMOptions",
"-XX:+WhiteBoxAPI"
};
List<String> arglist = new ArrayList<String>();
Collections.addAll(arglist, wb_arguments);
Collections.addAll(arglist, gcOptions);
arglist.add(Executor.class.getName());
Collections.addAll(arglist, gcStepPhases);
String[] arguments = arglist.toArray(new String[arglist.size()]);
ProcessBuilder pb = ProcessTools.createJavaProcessBuilder(arguments);
OutputAnalyzer output = new OutputAnalyzer(pb.start());
String messages = output.getStdout();
System.out.println(messages);
output.shouldHaveExitValue(0);
output.shouldContain("Using " + gcName);
return messages;
}
private static void checkPhaseControl(String messages,
String[][] gcPhaseInfo)
throws Exception
{
// Iterate through the phase sequence for the test, verifying
// output contains appropriate sequences of request message,
// log message for phase, and request reached message. Note
// that a log message for a phase may occur later than the
// associated request reached message, or even the following
// request message.
Pattern nextReqP = Pattern.compile(requestPrefix);
Matcher nextReqM = nextReqP.matcher(messages);
Pattern nextReachP = Pattern.compile(reachedPrefix);
Matcher nextReachM = nextReachP.matcher(messages);
String pendingPhaseMessage = null;
int pendingPhaseMessagePosition = -1;
int position = 0;
for (String[] phase: gcPhaseInfo) {
String phaseName = phase[0];
String phaseMsg = phase[1];
System.out.println("Checking phase " + phaseName);
// Update the "next" matchers to refer to the next
// corresponding pair of request and reached messages.
if (!nextReqM.find()) {
fail("Didn't find next phase request");
} else if ((position != 0) && (nextReqM.start() < nextReachM.end())) {
fail("Next request before previous reached");
} else if (!nextReachM.find()) {
fail("Didn't find next phase reached");
} else if (nextReachM.start() <= nextReqM.end()) {
fail("Next request/reached misordered");
}
// Find the expected request message, and ensure it is the next.
Pattern reqP = Pattern.compile(requestPrefix + phaseName);
Matcher reqM = reqP.matcher(messages);
if (!reqM.find(position)) {
fail("Didn't find request for " + phaseName);
} else if (reqM.start() != nextReqM.start()) {
fail("Request mis-positioned for " + phaseName);
}
// Find the expected reached message, and ensure it is the next.
Pattern reachP = Pattern.compile(reachedPrefix + phaseName);
Matcher reachM = reachP.matcher(messages);
if (!reachM.find(position)) {
fail("Didn't find reached for " + phaseName);
} else if (reachM.start() != nextReachM.start()) {
fail("Reached mis-positioned for " + phaseName);
}
// If there is a pending log message (see below), ensure
// it was before the current reached message.
if (pendingPhaseMessage != null) {
if (pendingPhaseMessagePosition >= reachM.start()) {
fail("Log message after next reached message: " +
pendingPhaseMessage);
}
}
// If the phase has an associated logging message, verify
// such a logging message is present following the
// request, and otherwise positioned appropriately. The
// complication here is that the logging message
// associated with a request might follow the reached
// message, and even the next request message, if there is
// a later request. But it must preceed the next
// logging message and the next reached message.
boolean clearPendingPhaseMessage = true;
if (phaseMsg != null) {
Pattern logP = Pattern.compile("GC\\(\\d+\\)\\s+" + phaseMsg);
Matcher logM = logP.matcher(messages);
if (!logM.find(reqM.end())) {
fail("Didn't find message " + phaseMsg);
}
if (pendingPhaseMessage != null) {
if (pendingPhaseMessagePosition >= logM.start()) {
fail("Log messages out of order: " +
pendingPhaseMessage + " should preceed " +
phaseMsg);
}
}
if (reachM.end() <= logM.start()) {
clearPendingPhaseMessage = false;
pendingPhaseMessage = phaseMsg;
pendingPhaseMessagePosition = logM.end();
}
}
if (clearPendingPhaseMessage) {
pendingPhaseMessage = null;
pendingPhaseMessagePosition = -1;
}
// Update position for start of next phase search.
position = reachM.end();
}
// It's okay for there to be a leftover pending phase message.
// We know it was found before the end of the log.
}
private static final class Executor {
private static final WhiteBox WB = WhiteBox.getWhiteBox();
private static void step(String phase) {
System.out.println(requestPrefix + phase);
WB.requestConcurrentGCPhase(phase);
System.out.println(reachedPrefix + phase);
}
public static void main(String[] phases) throws Exception {
// Iterate through set sequence of phases, reporting each.
for (String phase: phases) {
step(phase);
}
// Wait a little to allow a delayed logging message for
// the final request/reached to be printed before exiting
// the program.
Thread.sleep(250);
}
}
}