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 * DO NOT ALTER OR REMOVE COPYRIGHT NOTICES OR THIS FILE HEADER.
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 * This code is free software; you can redistribute it and/or modify it
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 *
 * 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.
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package org.graalvm.compiler.hotspot.stubs;

import static jdk.vm.ci.meta.DeoptimizationReason.RuntimeConstraint;
import static org.graalvm.compiler.hotspot.GraalHotSpotVMConfigBase.INJECTED_VMCONFIG;
import static org.graalvm.compiler.hotspot.replacements.HotSpotReplacementsUtil.clearPendingException;
import static org.graalvm.compiler.hotspot.replacements.HotSpotReplacementsUtil.getAndClearObjectResult;
import static org.graalvm.compiler.hotspot.replacements.HotSpotReplacementsUtil.loadHubIntrinsic;
import static org.graalvm.compiler.hotspot.replacements.HotSpotReplacementsUtil.verifyOops;
import static org.graalvm.compiler.replacements.nodes.CStringConstant.cstring;

import java.lang.reflect.Method;
import java.lang.reflect.Modifier;
import java.util.Arrays;
import java.util.List;

import org.graalvm.compiler.api.replacements.Fold;
import org.graalvm.compiler.api.replacements.Fold.InjectedParameter;
import org.graalvm.compiler.core.common.spi.ForeignCallDescriptor;
import org.graalvm.compiler.graph.Node.ConstantNodeParameter;
import org.graalvm.compiler.graph.Node.NodeIntrinsic;
import org.graalvm.compiler.hotspot.GraalHotSpotVMConfig;
import org.graalvm.compiler.hotspot.nodes.DeoptimizeCallerNode;
import org.graalvm.compiler.hotspot.nodes.StubForeignCallNode;
import org.graalvm.compiler.hotspot.nodes.VMErrorNode;
import org.graalvm.compiler.hotspot.word.KlassPointer;
import org.graalvm.compiler.nodes.PiNode;
import org.graalvm.compiler.nodes.SnippetAnchorNode;
import org.graalvm.compiler.nodes.extended.GuardingNode;
import org.graalvm.compiler.replacements.Log;
import org.graalvm.compiler.word.Word;
import jdk.internal.vm.compiler.word.Pointer;
import jdk.internal.vm.compiler.word.WordFactory;

import jdk.vm.ci.meta.DeoptimizationAction;

//JaCoCo Exclude

A collection of methods used in Stubs.
/** * A collection of methods used in {@link Stub}s. */
public class StubUtil { public static final ForeignCallDescriptor VM_MESSAGE_C = newDescriptor(StubUtil.class, "vmMessageC", void.class, boolean.class, Word.class, long.class, long.class, long.class); public static ForeignCallDescriptor newDescriptor(Class<?> stubClass, String name, Class<?> resultType, Class<?>... argumentTypes) { ForeignCallDescriptor d = new ForeignCallDescriptor(name, resultType, argumentTypes); assert descriptorFor(stubClass, name).equals(d) : descriptorFor(stubClass, name) + " != " + d; return d; }
Looks for a StubForeignCallNode node intrinsic named name in stubClass and returns a ForeignCallDescriptor based on its signature and the value of hasSideEffect.
/** * Looks for a {@link StubForeignCallNode} node intrinsic named {@code name} in * {@code stubClass} and returns a {@link ForeignCallDescriptor} based on its signature and the * value of {@code hasSideEffect}. */
private static ForeignCallDescriptor descriptorFor(Class<?> stubClass, String name) { Method found = null; for (Method method : stubClass.getDeclaredMethods()) { if (Modifier.isStatic(method.getModifiers()) && method.getAnnotation(NodeIntrinsic.class) != null && method.getName().equals(name)) { if (method.getAnnotation(NodeIntrinsic.class).value().equals(StubForeignCallNode.class)) { assert found == null : "found more than one foreign call named " + name + " in " + stubClass; assert method.getParameterTypes().length != 0 && method.getParameterTypes()[0] == ForeignCallDescriptor.class : "first parameter of foreign call '" + name + "' in " + stubClass + " must be of type " + ForeignCallDescriptor.class.getSimpleName(); found = method; } } } assert found != null : "could not find foreign call named " + name + " in " + stubClass; List<Class<?>> paramList = Arrays.asList(found.getParameterTypes()); Class<?>[] cCallTypes = paramList.subList(1, paramList.size()).toArray(new Class<?>[paramList.size() - 1]); return new ForeignCallDescriptor(name, found.getReturnType(), cCallTypes); } public static void handlePendingException(Word thread, boolean isObjectResult) { if (clearPendingException(thread) != null) { if (isObjectResult) { getAndClearObjectResult(thread); } DeoptimizeCallerNode.deopt(DeoptimizationAction.None, RuntimeConstraint); } }
Determines if this is a HotSpot build where the ASSERT mechanism is enabled.
/** * Determines if this is a HotSpot build where the ASSERT mechanism is enabled. */
@Fold public static boolean cAssertionsEnabled(@InjectedParameter GraalHotSpotVMConfig config) { return config.cAssertions; } @NodeIntrinsic(StubForeignCallNode.class) private static native void vmMessageC(@ConstantNodeParameter ForeignCallDescriptor stubPrintfC, boolean vmError, Word format, long v1, long v2, long v3);
Prints a message to the log stream.

Stubs must use this instead of Log.printf(String, long) to avoid an object constant in a RuntimeStub.

Params:
  • message – a message string
/** * Prints a message to the log stream. * <p> * <b>Stubs must use this instead of {@link Log#printf(String, long)} to avoid an object * constant in a RuntimeStub.</b> * * @param message a message string */
public static void printf(String message) { vmMessageC(VM_MESSAGE_C, false, cstring(message), 0L, 0L, 0L); }
Prints a message to the log stream.

Stubs must use this instead of Log.printf(String, long) to avoid an object constant in a RuntimeStub.

Params:
  • format – a C style printf format value
  • value – the value associated with the first conversion specifier in format
/** * Prints a message to the log stream. * <p> * <b>Stubs must use this instead of {@link Log#printf(String, long)} to avoid an object * constant in a RuntimeStub.</b> * * @param format a C style printf format value * @param value the value associated with the first conversion specifier in {@code format} */
public static void printf(String format, long value) { vmMessageC(VM_MESSAGE_C, false, cstring(format), value, 0L, 0L); }
Prints a message to the log stream.

Stubs must use this instead of Log.printf(String, long, long) to avoid an object constant in a RuntimeStub.

Params:
  • format – a C style printf format value
  • v1 – the value associated with the first conversion specifier in format
  • v2 – the value associated with the second conversion specifier in format
/** * Prints a message to the log stream. * <p> * <b>Stubs must use this instead of {@link Log#printf(String, long, long)} to avoid an object * constant in a RuntimeStub.</b> * * @param format a C style printf format value * @param v1 the value associated with the first conversion specifier in {@code format} * @param v2 the value associated with the second conversion specifier in {@code format} */
public static void printf(String format, long v1, long v2) { vmMessageC(VM_MESSAGE_C, false, cstring(format), v1, v2, 0L); }
Prints a message to the log stream.

Stubs must use this instead of Log.printf(String, long, long, long) to avoid an object constant in a RuntimeStub.

Params:
  • format – a C style printf format value
  • v1 – the value associated with the first conversion specifier in format
  • v2 – the value associated with the second conversion specifier in format
  • v3 – the value associated with the third conversion specifier in format
/** * Prints a message to the log stream. * <p> * <b>Stubs must use this instead of {@link Log#printf(String, long, long, long)} to avoid an * object constant in a RuntimeStub.</b> * * @param format a C style printf format value * @param v1 the value associated with the first conversion specifier in {@code format} * @param v2 the value associated with the second conversion specifier in {@code format} * @param v3 the value associated with the third conversion specifier in {@code format} */
public static void printf(String format, long v1, long v2, long v3) { vmMessageC(VM_MESSAGE_C, false, cstring(format), v1, v2, v3); }
Analyzes a given value and prints information about it to the log stream.
/** * Analyzes a given value and prints information about it to the log stream. */
public static void decipher(long value) { vmMessageC(VM_MESSAGE_C, false, WordFactory.zero(), value, 0L, 0L); }
Exits the VM with a given error message.

Stubs must use this instead of VMErrorNode.vmError(String, long) to avoid an object constant in a RuntimeStub.

Params:
  • message – an error message
/** * Exits the VM with a given error message. * <p> * <b>Stubs must use this instead of {@link VMErrorNode#vmError(String, long)} to avoid an * object constant in a RuntimeStub.</b> * * @param message an error message */
public static void fatal(String message) { vmMessageC(VM_MESSAGE_C, true, cstring(message), 0L, 0L, 0L); }
Exits the VM with a given error message.

Stubs must use this instead of Log.printf(String, long, long, long) to avoid an object constant in a RuntimeStub.

Params:
  • format – a C style printf format value
  • value – the value associated with the first conversion specifier in format
/** * Exits the VM with a given error message. * <p> * <b>Stubs must use this instead of {@link Log#printf(String, long, long, long)} to avoid an * object constant in a RuntimeStub.</b> * * @param format a C style printf format value * @param value the value associated with the first conversion specifier in {@code format} */
public static void fatal(String format, long value) { vmMessageC(VM_MESSAGE_C, true, cstring(format), value, 0L, 0L); }
Exits the VM with a given error message.

Stubs must use this instead of Log.printf(String, long, long, long) to avoid an object constant in a RuntimeStub.

Params:
  • format – a C style printf format value
  • v1 – the value associated with the first conversion specifier in format
  • v2 – the value associated with the second conversion specifier in format
/** * Exits the VM with a given error message. * <p> * <b>Stubs must use this instead of {@link Log#printf(String, long, long, long)} to avoid an * object constant in a RuntimeStub.</b> * * @param format a C style printf format value * @param v1 the value associated with the first conversion specifier in {@code format} * @param v2 the value associated with the second conversion specifier in {@code format} */
public static void fatal(String format, long v1, long v2) { vmMessageC(VM_MESSAGE_C, true, cstring(format), v1, v2, 0L); }
Exits the VM with a given error message.

Stubs must use this instead of Log.printf(String, long, long, long) to avoid an object constant in a RuntimeStub.

Params:
  • format – a C style printf format value
  • v1 – the value associated with the first conversion specifier in format
  • v2 – the value associated with the second conversion specifier in format
  • v3 – the value associated with the third conversion specifier in format
/** * Exits the VM with a given error message. * <p> * <b>Stubs must use this instead of {@link Log#printf(String, long, long, long)} to avoid an * object constant in a RuntimeStub.</b> * * @param format a C style printf format value * @param v1 the value associated with the first conversion specifier in {@code format} * @param v2 the value associated with the second conversion specifier in {@code format} * @param v3 the value associated with the third conversion specifier in {@code format} */
public static void fatal(String format, long v1, long v2, long v3) { vmMessageC(VM_MESSAGE_C, true, cstring(format), v1, v2, v3); }
Verifies that a given object value is well formed if -XX:+VerifyOops is enabled.
/** * Verifies that a given object value is well formed if {@code -XX:+VerifyOops} is enabled. */
public static Object verifyObject(Object object) { if (verifyOops(INJECTED_VMCONFIG)) { Word verifyOopCounter = WordFactory.unsigned(verifyOopCounterAddress(INJECTED_VMCONFIG)); verifyOopCounter.writeInt(0, verifyOopCounter.readInt(0) + 1); Pointer oop = Word.objectToTrackedPointer(object); if (object != null) { GuardingNode anchorNode = SnippetAnchorNode.anchor(); // make sure object is 'reasonable' if (!oop.and(WordFactory.unsigned(verifyOopMask(INJECTED_VMCONFIG))).equal(WordFactory.unsigned(verifyOopBits(INJECTED_VMCONFIG)))) { fatal("oop not in heap: %p", oop.rawValue()); } KlassPointer klass = loadHubIntrinsic(PiNode.piCastNonNull(object, anchorNode)); if (klass.isNull()) { fatal("klass for oop %p is null", oop.rawValue()); } } } return object; } @Fold static long verifyOopCounterAddress(@InjectedParameter GraalHotSpotVMConfig config) { return config.verifyOopCounterAddress; } @Fold static long verifyOopMask(@InjectedParameter GraalHotSpotVMConfig config) { return config.verifyOopMask; } @Fold static long verifyOopBits(@InjectedParameter GraalHotSpotVMConfig config) { return config.verifyOopBits; } @Fold static int hubOffset(@InjectedParameter GraalHotSpotVMConfig config) { return config.hubOffset; }
Print number as decimal string to buffer.
Params:
  • buffer –
  • number –
Returns:A pointer pointing one byte right after the last printed digit in buffer.
/** * Print {@code number} as decimal string to {@code buffer}. * * @param buffer * @param number * @return A pointer pointing one byte right after the last printed digit in {@code buffer}. */
public static Word printNumber(Word buffer, long number) { long tmpNumber = number; int offset; if (tmpNumber <= 0) { tmpNumber = -tmpNumber; offset = 1; } else { offset = 0; } while (tmpNumber > 0) { tmpNumber /= 10; offset++; } tmpNumber = number < 0 ? -number : number; Word ptr = buffer.add(offset); do { long digit = tmpNumber % 10; tmpNumber /= 10; ptr = ptr.subtract(1); ptr.writeByte(0, (byte) ('0' + digit)); } while (tmpNumber > 0); if (number < 0) { ptr = ptr.subtract(1); ptr.writeByte(0, (byte) '-'); } return buffer.add(offset); }
Copy javaString bytes to the memory location ptr.
Params:
  • buffer –
  • javaString –
Returns:A pointer pointing one byte right after the last byte copied from javaString to ptr
/** * Copy {@code javaString} bytes to the memory location {@code ptr}. * * @param buffer * @param javaString * @return A pointer pointing one byte right after the last byte copied from {@code javaString} * to {@code ptr} */
public static Word printString(Word buffer, String javaString) { Word string = cstring(javaString); int i = 0; byte b; while ((b = string.readByte(i)) != 0) { buffer.writeByte(i, b); i++; } return buffer.add(i); } }