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 * DO NOT ALTER OR REMOVE COPYRIGHT NOTICES OR THIS FILE HEADER.
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 * 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
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package org.graalvm.compiler.hotspot.aarch64;

import static org.graalvm.compiler.core.common.GraalOptions.GeneratePIC;
import static org.graalvm.compiler.hotspot.HotSpotBackend.INITIALIZE_KLASS_BY_SYMBOL;
import static org.graalvm.compiler.hotspot.HotSpotBackend.RESOLVE_DYNAMIC_INVOKE;
import static org.graalvm.compiler.hotspot.HotSpotBackend.RESOLVE_KLASS_BY_SYMBOL;
import static org.graalvm.compiler.hotspot.HotSpotBackend.RESOLVE_METHOD_BY_SYMBOL_AND_LOAD_COUNTERS;
import static org.graalvm.compiler.hotspot.HotSpotBackend.RESOLVE_STRING_BY_SYMBOL;
import static org.graalvm.compiler.hotspot.meta.HotSpotConstantLoadAction.INITIALIZE;
import static org.graalvm.compiler.hotspot.meta.HotSpotConstantLoadAction.LOAD_COUNTERS;
import static org.graalvm.compiler.hotspot.meta.HotSpotConstantLoadAction.RESOLVE;
import static org.graalvm.compiler.lir.LIRValueUtil.asConstant;
import static org.graalvm.compiler.lir.LIRValueUtil.isConstantValue;

import java.util.EnumSet;
import java.util.function.Function;

import org.graalvm.compiler.asm.Label;
import org.graalvm.compiler.asm.aarch64.AArch64Address.AddressingMode;
import org.graalvm.compiler.asm.aarch64.AArch64Assembler.ConditionFlag;
import org.graalvm.compiler.asm.aarch64.AArch64Assembler.PrefetchMode;
import org.graalvm.compiler.core.aarch64.AArch64ArithmeticLIRGenerator;
import org.graalvm.compiler.core.aarch64.AArch64LIRGenerator;
import org.graalvm.compiler.core.aarch64.AArch64LIRKindTool;
import org.graalvm.compiler.core.common.CompressEncoding;
import org.graalvm.compiler.core.common.GraalOptions;
import org.graalvm.compiler.core.common.LIRKind;
import org.graalvm.compiler.core.common.calc.Condition;
import org.graalvm.compiler.core.common.spi.ForeignCallDescriptor;
import org.graalvm.compiler.core.common.spi.ForeignCallLinkage;
import org.graalvm.compiler.core.common.spi.LIRKindTool;
import org.graalvm.compiler.debug.GraalError;
import org.graalvm.compiler.hotspot.GraalHotSpotVMConfig;
import org.graalvm.compiler.hotspot.HotSpotBackend;
import org.graalvm.compiler.hotspot.HotSpotDebugInfoBuilder;
import org.graalvm.compiler.hotspot.HotSpotForeignCallLinkage;
import org.graalvm.compiler.hotspot.HotSpotLIRGenerationResult;
import org.graalvm.compiler.hotspot.HotSpotLIRGenerator;
import org.graalvm.compiler.hotspot.HotSpotLockStack;
import org.graalvm.compiler.hotspot.HotSpotMarkId;
import org.graalvm.compiler.hotspot.meta.HotSpotConstantLoadAction;
import org.graalvm.compiler.hotspot.meta.HotSpotProviders;
import org.graalvm.compiler.hotspot.meta.HotSpotRegistersProvider;
import org.graalvm.compiler.hotspot.stubs.Stub;
import org.graalvm.compiler.lir.LIRFrameState;
import org.graalvm.compiler.lir.LIRInstruction;
import org.graalvm.compiler.lir.LabelRef;
import org.graalvm.compiler.lir.StandardOp.ZapRegistersOp;
import org.graalvm.compiler.lir.SwitchStrategy;
import org.graalvm.compiler.lir.Variable;
import org.graalvm.compiler.lir.VirtualStackSlot;
import org.graalvm.compiler.lir.aarch64.AArch64AddressValue;
import org.graalvm.compiler.lir.aarch64.AArch64CCall;
import org.graalvm.compiler.lir.aarch64.AArch64Call;
import org.graalvm.compiler.lir.aarch64.AArch64ControlFlow.StrategySwitchOp;
import org.graalvm.compiler.lir.aarch64.AArch64FrameMapBuilder;
import org.graalvm.compiler.lir.aarch64.AArch64Move;
import org.graalvm.compiler.lir.aarch64.AArch64Move.StoreOp;
import org.graalvm.compiler.lir.aarch64.AArch64PrefetchOp;
import org.graalvm.compiler.lir.aarch64.AArch64RestoreRegistersOp;
import org.graalvm.compiler.lir.aarch64.AArch64SaveRegistersOp;
import org.graalvm.compiler.lir.gen.LIRGenerationResult;
import org.graalvm.compiler.options.OptionValues;

import jdk.vm.ci.aarch64.AArch64;
import jdk.vm.ci.aarch64.AArch64Kind;
import jdk.vm.ci.code.CallingConvention;
import jdk.vm.ci.code.Register;
import jdk.vm.ci.code.RegisterValue;
import jdk.vm.ci.code.StackSlot;
import jdk.vm.ci.hotspot.HotSpotCompressedNullConstant;
import jdk.vm.ci.hotspot.HotSpotMetaspaceConstant;
import jdk.vm.ci.hotspot.HotSpotObjectConstant;
import jdk.vm.ci.meta.AllocatableValue;
import jdk.vm.ci.meta.Constant;
import jdk.vm.ci.meta.DeoptimizationAction;
import jdk.vm.ci.meta.DeoptimizationReason;
import jdk.vm.ci.meta.JavaConstant;
import jdk.vm.ci.meta.JavaKind;
import jdk.vm.ci.meta.PlatformKind;
import jdk.vm.ci.meta.SpeculationLog;
import jdk.vm.ci.meta.Value;

LIR generator specialized for AArch64 HotSpot.
/** * LIR generator specialized for AArch64 HotSpot. */
public class AArch64HotSpotLIRGenerator extends AArch64LIRGenerator implements HotSpotLIRGenerator { final GraalHotSpotVMConfig config; private HotSpotDebugInfoBuilder debugInfoBuilder; protected AArch64HotSpotLIRGenerator(HotSpotProviders providers, GraalHotSpotVMConfig config, LIRGenerationResult lirGenRes) { this(new AArch64LIRKindTool(), new AArch64ArithmeticLIRGenerator(null), new AArch64HotSpotMoveFactory(), providers, config, lirGenRes); } protected AArch64HotSpotLIRGenerator(LIRKindTool lirKindTool, AArch64ArithmeticLIRGenerator arithmeticLIRGen, MoveFactory moveFactory, HotSpotProviders providers, GraalHotSpotVMConfig config, LIRGenerationResult lirGenRes) { super(lirKindTool, arithmeticLIRGen, moveFactory, providers, lirGenRes); this.config = config; } @Override public HotSpotProviders getProviders() { return (HotSpotProviders) super.getProviders(); } @Override public boolean needOnlyOopMaps() { // Stubs only need oop maps return getResult().getStub() != null; } private LIRFrameState currentRuntimeCallInfo; @Override protected void emitForeignCallOp(ForeignCallLinkage linkage, Value result, Value[] arguments, Value[] temps, LIRFrameState info) { currentRuntimeCallInfo = info; if (AArch64Call.isNearCall(linkage)) { append(new AArch64Call.DirectNearForeignCallOp(linkage, result, arguments, temps, info, label)); } else { append(new AArch64Call.DirectFarForeignCallOp(linkage, result, arguments, temps, info, label)); } } @Override public void emitTailcall(Value[] args, Value address) { throw GraalError.unimplemented(); } @Override public void emitCCall(long address, CallingConvention nativeCallingConvention, Value[] args) { Value[] argLocations = new Value[args.length]; getResult().getFrameMapBuilder().callsMethod(nativeCallingConvention); for (int i = 0; i < args.length; i++) { Value arg = args[i]; AllocatableValue loc = nativeCallingConvention.getArgument(i); emitMove(loc, arg); argLocations[i] = loc; } Value ptr = emitLoadConstant(LIRKind.value(AArch64Kind.QWORD), JavaConstant.forLong(address)); append(new AArch64CCall(nativeCallingConvention.getReturn(), ptr, argLocations)); }
Params:
  • savedRegisters – the registers saved by this operation which may be subject to pruning
  • savedRegisterLocations – the slots to which the registers are saved
/** * @param savedRegisters the registers saved by this operation which may be subject to pruning * @param savedRegisterLocations the slots to which the registers are saved */
protected AArch64SaveRegistersOp emitSaveRegisters(Register[] savedRegisters, AllocatableValue[] savedRegisterLocations) { AArch64SaveRegistersOp save = new AArch64SaveRegistersOp(savedRegisters, savedRegisterLocations); append(save); return save; }
Allocate a stack slot for saving a register.
/** * Allocate a stack slot for saving a register. */
protected VirtualStackSlot allocateSaveRegisterLocation(Register register) { PlatformKind kind = target().arch.getLargestStorableKind(register.getRegisterCategory()); if (kind.getVectorLength() > 1) { // we don't use vector registers, so there is no need to save them kind = AArch64Kind.DOUBLE; } return getResult().getFrameMapBuilder().allocateSpillSlot(LIRKind.value(kind)); }
Adds a node to the graph that saves all allocatable registers to the stack.
Returns:the register save node
/** * Adds a node to the graph that saves all allocatable registers to the stack. * * @return the register save node */
private AArch64SaveRegistersOp emitSaveAllRegisters(Register[] savedRegisters) { AllocatableValue[] savedRegisterLocations = new AllocatableValue[savedRegisters.length]; for (int i = 0; i < savedRegisters.length; i++) { savedRegisterLocations[i] = allocateSaveRegisterLocation(savedRegisters[i]); } return emitSaveRegisters(savedRegisters, savedRegisterLocations); } protected void emitRestoreRegisters(AArch64SaveRegistersOp save) { append(new AArch64RestoreRegistersOp(save.getSlots().clone(), save)); } @Override public VirtualStackSlot getLockSlot(int lockDepth) { return getLockStack().makeLockSlot(lockDepth); } private HotSpotLockStack getLockStack() { assert debugInfoBuilder != null && debugInfoBuilder.lockStack() != null; return debugInfoBuilder.lockStack(); } @Override public void emitCompareBranch(PlatformKind cmpKind, Value x, Value y, Condition cond, boolean unorderedIsTrue, LabelRef trueDestination, LabelRef falseDestination, double trueDestinationProbability) { Value localX = x; Value localY = y; if (localX instanceof HotSpotObjectConstant) { localX = load(localX); } if (localY instanceof HotSpotObjectConstant) { localY = load(localY); } super.emitCompareBranch(cmpKind, localX, localY, cond, unorderedIsTrue, trueDestination, falseDestination, trueDestinationProbability); } @Override protected boolean emitCompare(PlatformKind cmpKind, Value a, Value b, Condition condition, boolean unorderedIsTrue) { Value localA = a; Value localB = b; if (isConstantValue(a)) { Constant c = asConstant(a); if (HotSpotCompressedNullConstant.COMPRESSED_NULL.equals(c)) { localA = AArch64.zr.asValue(LIRKind.value(AArch64Kind.DWORD)); } else if (c instanceof HotSpotObjectConstant) { localA = load(localA); } } if (isConstantValue(b)) { Constant c = asConstant(b); if (HotSpotCompressedNullConstant.COMPRESSED_NULL.equals(c)) { localB = AArch64.zr.asValue(LIRKind.value(AArch64Kind.DWORD)); } else if (c instanceof HotSpotObjectConstant) { localB = load(localB); } } return super.emitCompare(cmpKind, localA, localB, condition, unorderedIsTrue); } @Override public Value emitCompress(Value pointer, CompressEncoding encoding, boolean nonNull) { LIRKind inputKind = pointer.getValueKind(LIRKind.class); LIRKindTool lirKindTool = getLIRKindTool(); assert inputKind.getPlatformKind() == AArch64Kind.QWORD; if (inputKind.isReference(0)) { // oop Variable result = newVariable(LIRKind.compressedReference(AArch64Kind.DWORD)); append(new AArch64HotSpotMove.CompressPointer(result, asAllocatable(pointer), getProviders().getRegisters().getHeapBaseRegister().asValue(), encoding, nonNull)); return result; } else { // metaspace pointer Variable result = newVariable(LIRKind.value(AArch64Kind.DWORD)); AllocatableValue base = Value.ILLEGAL; OptionValues options = getResult().getLIR().getOptions(); if (encoding.hasBase() || GeneratePIC.getValue(options)) { if (GeneratePIC.getValue(options)) { Variable baseAddress = newVariable(lirKindTool.getWordKind()); AArch64HotSpotMove.BaseMove move = new AArch64HotSpotMove.BaseMove(baseAddress); append(move); base = baseAddress; } else { base = emitLoadConstant(LIRKind.value(AArch64Kind.QWORD), JavaConstant.forLong(encoding.getBase())); } } append(new AArch64HotSpotMove.CompressPointer(result, asAllocatable(pointer), base, encoding, nonNull)); return result; } } @Override public Value emitUncompress(Value pointer, CompressEncoding encoding, boolean nonNull) { LIRKind inputKind = pointer.getValueKind(LIRKind.class); assert inputKind.getPlatformKind() == AArch64Kind.DWORD; if (inputKind.isReference(0)) { // oop Variable result = newVariable(LIRKind.reference(AArch64Kind.QWORD)); append(new AArch64HotSpotMove.UncompressPointer(result, asAllocatable(pointer), getProviders().getRegisters().getHeapBaseRegister().asValue(), encoding, nonNull)); return result; } else { // metaspace pointer Variable result = newVariable(LIRKind.value(AArch64Kind.QWORD)); AllocatableValue base = Value.ILLEGAL; OptionValues options = getResult().getLIR().getOptions(); if (encoding.hasBase() || GeneratePIC.getValue(options)) { if (GeneratePIC.getValue(options)) { Variable baseAddress = newVariable(LIRKind.value(AArch64Kind.QWORD)); AArch64HotSpotMove.BaseMove move = new AArch64HotSpotMove.BaseMove(baseAddress); append(move); base = baseAddress; } else { base = emitLoadConstant(LIRKind.value(AArch64Kind.QWORD), JavaConstant.forLong(encoding.getBase())); } } append(new AArch64HotSpotMove.UncompressPointer(result, asAllocatable(pointer), base, encoding, nonNull)); return result; } } @Override public void emitNullCheck(Value address, LIRFrameState state) { if (address.getValueKind().getPlatformKind() == AArch64Kind.DWORD) { CompressEncoding encoding = config.getOopEncoding(); Value uncompressed = emitUncompress(address, encoding, false); append(new AArch64Move.NullCheckOp(asAddressValue(uncompressed), state)); } else { super.emitNullCheck(address, state); } } @Override public void emitPrefetchAllocate(Value address) { append(new AArch64PrefetchOp(asAddressValue(address), PrefetchMode.PSTL1KEEP)); } @Override public void beforeRegisterAllocation() { super.beforeRegisterAllocation(); boolean hasDebugInfo = getResult().getLIR().hasDebugInfo(); if (hasDebugInfo) { getResult().setDeoptimizationRescueSlot(((AArch64FrameMapBuilder) getResult().getFrameMapBuilder()).allocateDeoptimizationRescueSlot()); } getResult().setMaxInterpreterFrameSize(debugInfoBuilder.maxInterpreterFrameSize()); } private Label label; @Override public Variable emitForeignCall(ForeignCallLinkage linkage, LIRFrameState state, Value... args) { HotSpotForeignCallLinkage hotspotLinkage = (HotSpotForeignCallLinkage) linkage; boolean destroysRegisters = hotspotLinkage.destroysRegisters(); AArch64SaveRegistersOp save = null; Stub stub = getStub(); if (destroysRegisters && stub != null && stub.shouldSaveRegistersAroundCalls()) { Register[] savedRegisters = getRegisterConfig().getAllocatableRegisters().toArray(); save = emitSaveAllRegisters(savedRegisters); } Variable result; LIRFrameState debugInfo = null; if (hotspotLinkage.needsDebugInfo()) { debugInfo = state; assert debugInfo != null || getStub() != null; } if (destroysRegisters || hotspotLinkage.needsJavaFrameAnchor()) { HotSpotRegistersProvider registers = getProviders().getRegisters(); Register thread = registers.getThreadRegister(); Variable scratch = newVariable(LIRKind.value(target().arch.getWordKind())); // We need a label for the return address. label = new Label(); append(new AArch64HotSpotCRuntimeCallPrologueOp(config.threadLastJavaSpOffset(), config.threadLastJavaPcOffset(), thread, scratch, label)); result = super.emitForeignCall(hotspotLinkage, debugInfo, args); append(new AArch64HotSpotCRuntimeCallEpilogueOp(config.threadLastJavaSpOffset(), config.threadLastJavaPcOffset(), thread, label)); // Clear it out so it's not being reused later. label = null; } else { result = super.emitForeignCall(hotspotLinkage, debugInfo, args); } if (save != null) { HotSpotLIRGenerationResult generationResult = getResult(); LIRFrameState key = currentRuntimeCallInfo; if (key == null) { key = LIRFrameState.NO_STATE; } assert !generationResult.getCalleeSaveInfo().containsKey(key); generationResult.getCalleeSaveInfo().put(key, save); emitRestoreRegisters(save); } return result; } @Override public void emitDeoptimizeCaller(DeoptimizationAction action, DeoptimizationReason reason) { Value actionAndReason = emitJavaConstant(getMetaAccess().encodeDeoptActionAndReason(action, reason, 0)); Value speculation = emitJavaConstant(getMetaAccess().encodeSpeculation(SpeculationLog.NO_SPECULATION)); moveDeoptValuesToThread(actionAndReason, speculation); append(new AArch64HotSpotDeoptimizeCallerOp(config)); } @Override public void emitDeoptimizeWithExceptionInCaller(Value exception) { Register thread = getProviders().getRegisters().getThreadRegister(); append(new AArch64HotSpotDeoptimizeWithExceptionCallerOp(config, exception, thread)); } @Override public void emitDeoptimize(Value actionAndReason, Value failedSpeculation, LIRFrameState state) { moveDeoptValuesToThread(actionAndReason, failedSpeculation); append(new AArch64HotSpotDeoptimizeOp(state)); } private void moveDeoptValuesToThread(Value actionAndReason, Value speculation) { moveValueToThread(actionAndReason, config.pendingDeoptimizationOffset); moveValueToThread(speculation, config.pendingFailedSpeculationOffset); } private void moveValueToThread(Value value, int offset) { LIRKind wordKind = LIRKind.value(target().arch.getWordKind()); RegisterValue thread = getProviders().getRegisters().getThreadRegister().asValue(wordKind); final int transferSize = value.getValueKind().getPlatformKind().getSizeInBytes(); AArch64AddressValue address = new AArch64AddressValue(value.getValueKind(), thread, Value.ILLEGAL, offset, transferSize, AddressingMode.IMMEDIATE_SCALED); append(new StoreOp((AArch64Kind) value.getPlatformKind(), address, loadReg(value), null)); } @Override public void emitUnwind(Value exception) { ForeignCallLinkage linkage = getForeignCalls().lookupForeignCall(HotSpotBackend.UNWIND_EXCEPTION_TO_CALLER); CallingConvention outgoingCc = linkage.getOutgoingCallingConvention(); assert outgoingCc.getArgumentCount() == 2; RegisterValue exceptionParameter = (RegisterValue) outgoingCc.getArgument(0); emitMove(exceptionParameter, exception); append(new AArch64HotSpotUnwindOp(config, exceptionParameter)); } @Override public Value emitLoadObjectAddress(Constant constant) { HotSpotObjectConstant objectConstant = (HotSpotObjectConstant) constant; LIRKind kind = objectConstant.isCompressed() ? getLIRKindTool().getNarrowOopKind() : getLIRKindTool().getObjectKind(); Variable result = newVariable(kind); append(new AArch64HotSpotLoadAddressOp(result, constant, HotSpotConstantLoadAction.RESOLVE)); return result; } @Override public Value emitLoadMetaspaceAddress(Constant constant, HotSpotConstantLoadAction action) { HotSpotMetaspaceConstant metaspaceConstant = (HotSpotMetaspaceConstant) constant; LIRKind kind = metaspaceConstant.isCompressed() ? getLIRKindTool().getNarrowPointerKind() : getLIRKindTool().getWordKind(); Variable result = newVariable(kind); append(new AArch64HotSpotLoadAddressOp(result, constant, action)); return result; } private Value emitConstantRetrieval(ForeignCallDescriptor foreignCall, Object[] notes, Constant[] constants, AllocatableValue[] constantDescriptions, LIRFrameState frameState) { ForeignCallLinkage linkage = getForeignCalls().lookupForeignCall(foreignCall); append(new AArch64HotSpotConstantRetrievalOp(constants, constantDescriptions, frameState, linkage, notes)); AllocatableValue result = linkage.getOutgoingCallingConvention().getReturn(); return emitMove(result); } private Value emitConstantRetrieval(ForeignCallDescriptor foreignCall, HotSpotConstantLoadAction action, Constant constant, AllocatableValue[] constantDescriptions, LIRFrameState frameState) { Constant[] constants = new Constant[]{constant}; Object[] notes = new Object[]{action}; return emitConstantRetrieval(foreignCall, notes, constants, constantDescriptions, frameState); } @Override public Value emitResolveDynamicInvoke(Constant appendix, LIRFrameState frameState) { AllocatableValue[] constantDescriptions = new AllocatableValue[0]; return emitConstantRetrieval(RESOLVE_DYNAMIC_INVOKE, INITIALIZE, appendix, constantDescriptions, frameState); } @Override public Value emitLoadConfigValue(HotSpotMarkId markId, LIRKind kind) { Variable result = newVariable(kind); append(new AArch64HotSpotLoadConfigValueOp(markId, result)); return result; } private Value emitConstantRetrieval(ForeignCallDescriptor foreignCall, HotSpotConstantLoadAction action, Constant constant, Value constantDescription, LIRFrameState frameState) { AllocatableValue[] constantDescriptions = new AllocatableValue[]{asAllocatable(constantDescription)}; return emitConstantRetrieval(foreignCall, action, constant, constantDescriptions, frameState); } @Override public Value emitObjectConstantRetrieval(Constant constant, Value constantDescription, LIRFrameState frameState) { return emitConstantRetrieval(RESOLVE_STRING_BY_SYMBOL, RESOLVE, constant, constantDescription, frameState); } @Override public Value emitMetaspaceConstantRetrieval(Constant constant, Value constantDescription, LIRFrameState frameState) { return emitConstantRetrieval(RESOLVE_KLASS_BY_SYMBOL, RESOLVE, constant, constantDescription, frameState); } @Override public void emitReturn(JavaKind kind, Value input) { AllocatableValue operand = Value.ILLEGAL; if (input != null) { operand = resultOperandFor(kind, input.getValueKind()); emitMove(operand, input); } Register thread = getProviders().getRegisters().getThreadRegister(); append(new AArch64HotSpotReturnOp(operand, getStub() != null, config, thread, getResult().requiresReservedStackAccessCheck())); } @Override public Value emitKlassInitializationAndRetrieval(Constant constant, Value constantDescription, LIRFrameState frameState) { return emitConstantRetrieval(INITIALIZE_KLASS_BY_SYMBOL, INITIALIZE, constant, constantDescription, frameState); } @Override public Value emitResolveMethodAndLoadCounters(Constant method, Value klassHint, Value methodDescription, LIRFrameState frameState) { AllocatableValue[] constantDescriptions = new AllocatableValue[]{asAllocatable(klassHint), asAllocatable(methodDescription)}; return emitConstantRetrieval(RESOLVE_METHOD_BY_SYMBOL_AND_LOAD_COUNTERS, LOAD_COUNTERS, method, constantDescriptions, frameState); }
Gets the Stub this generator is generating code for or null if a stub is not being generated.
/** * Gets the {@link Stub} this generator is generating code for or {@code null} if a stub is not * being generated. */
public Stub getStub() { return getResult().getStub(); } @Override public HotSpotLIRGenerationResult getResult() { return ((HotSpotLIRGenerationResult) super.getResult()); } @Override protected StrategySwitchOp createStrategySwitchOp(SwitchStrategy strategy, LabelRef[] keyTargets, LabelRef defaultTarget, Variable key, AllocatableValue scratchValue, Function<Condition, ConditionFlag> converter) { return new AArch64HotSpotStrategySwitchOp(strategy, keyTargets, defaultTarget, key, scratchValue, converter); } public void setDebugInfoBuilder(HotSpotDebugInfoBuilder debugInfoBuilder) { this.debugInfoBuilder = debugInfoBuilder; } @Override public ZapRegistersOp createZapRegisters(Register[] zappedRegisters, JavaConstant[] zapValues) { throw GraalError.unimplemented(); } @Override public LIRInstruction createZapArgumentSpace(StackSlot[] zappedStack, JavaConstant[] zapValues) { throw GraalError.unimplemented(); } @Override public void emitZeroMemory(Value address, Value length, boolean isAligned) { final EnumSet<AArch64.Flag> flags = ((AArch64) target().arch).getFlags(); boolean isDcZvaProhibited = true; int zvaLength = 0; if (GraalHotSpotVMConfig.JDK >= 16) { zvaLength = config.zvaLength; isDcZvaProhibited = 0 == config.zvaLength; } else { int dczidValue = config.psrInfoDczidValue; // ARMv8-A architecture reference manual D12.2.35 Data Cache Zero ID register says: // * BS, bits [3:0] indicate log2 of the DC ZVA block size in (4-byte) words. // * DZP, bit [4] of indicates whether use of DC ZVA instruction is prohibited. zvaLength = 4 << (dczidValue & 0xF); isDcZvaProhibited = ((dczidValue & 0x10) != 0); } // Use DC ZVA if it's not prohibited and AArch64 HotSpot flag UseBlockZeroing is on. boolean useDcZva = !isDcZvaProhibited && flags.contains(AArch64.Flag.UseBlockZeroing); // Set zva length negative (unknown at compile-time) for AOT compilation, since the value // could be different on different AArch64 CPU implementations. if (GraalOptions.ImmutableCode.getValue(getResult().getLIR().getOptions())) { useDcZva = false; } emitZeroMemory(address, length, isAligned, useDcZva, zvaLength); } }