src/jdk.internal.vm.compiler/share/classes/org.graalvm.compiler.hotspot/src/org/graalvm/compiler/hotspot/HotSpotBackend.java
/*
* Copyright (c) 2012, 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 org.graalvm.compiler.hotspot;
import static org.graalvm.compiler.replacements.arraycopy.ArrayCopyForeignCalls.UNSAFE_ARRAYCOPY;
import java.util.EnumSet;
import jdk.internal.vm.compiler.collections.EconomicMap;
import jdk.internal.vm.compiler.collections.EconomicSet;
import jdk.internal.vm.compiler.collections.Equivalence;
import jdk.internal.vm.compiler.collections.MapCursor;
import org.graalvm.compiler.code.CompilationResult;
import org.graalvm.compiler.core.common.CompilationIdentifier;
import org.graalvm.compiler.core.common.cfg.AbstractBlockBase;
import org.graalvm.compiler.core.common.spi.ForeignCallDescriptor;
import org.graalvm.compiler.core.common.spi.ForeignCallLinkage;
import org.graalvm.compiler.core.target.Backend;
import org.graalvm.compiler.graph.Node.ConstantNodeParameter;
import org.graalvm.compiler.graph.Node.NodeIntrinsic;
import org.graalvm.compiler.hotspot.meta.HotSpotProviders;
import org.graalvm.compiler.hotspot.nodes.VMErrorNode;
import org.graalvm.compiler.hotspot.nodes.aot.ResolveConstantStubCall;
import org.graalvm.compiler.hotspot.replacements.AESCryptSubstitutions;
import org.graalvm.compiler.hotspot.replacements.BigIntegerSubstitutions;
import org.graalvm.compiler.hotspot.replacements.CipherBlockChainingSubstitutions;
import org.graalvm.compiler.hotspot.replacements.DigestBaseSubstitutions;
import org.graalvm.compiler.hotspot.replacements.SHA2Substitutions;
import org.graalvm.compiler.hotspot.replacements.SHA5Substitutions;
import org.graalvm.compiler.hotspot.replacements.SHASubstitutions;
import org.graalvm.compiler.hotspot.stubs.ExceptionHandlerStub;
import org.graalvm.compiler.hotspot.stubs.Stub;
import org.graalvm.compiler.hotspot.stubs.UnwindExceptionToCallerStub;
import org.graalvm.compiler.hotspot.word.KlassPointer;
import org.graalvm.compiler.hotspot.word.MethodCountersPointer;
import org.graalvm.compiler.lir.LIR;
import org.graalvm.compiler.lir.LIRFrameState;
import org.graalvm.compiler.lir.LIRInstruction;
import org.graalvm.compiler.lir.LIRInstruction.OperandFlag;
import org.graalvm.compiler.lir.LIRInstruction.OperandMode;
import org.graalvm.compiler.lir.StandardOp.LabelOp;
import org.graalvm.compiler.lir.StandardOp.RestoreRegistersOp;
import org.graalvm.compiler.lir.StandardOp.SaveRegistersOp;
import org.graalvm.compiler.lir.ValueConsumer;
import org.graalvm.compiler.lir.asm.CompilationResultBuilder;
import org.graalvm.compiler.lir.framemap.FrameMap;
import org.graalvm.compiler.nodes.UnwindNode;
import org.graalvm.compiler.nodes.extended.ForeignCallNode;
import org.graalvm.compiler.options.Option;
import org.graalvm.compiler.options.OptionKey;
import org.graalvm.compiler.options.OptionType;
import org.graalvm.compiler.options.OptionValues;
import org.graalvm.compiler.phases.tiers.SuitesProvider;
import org.graalvm.compiler.serviceprovider.JavaVersionUtil;
import org.graalvm.compiler.word.Word;
import jdk.internal.vm.compiler.word.Pointer;
import jdk.vm.ci.code.CallingConvention;
import jdk.vm.ci.code.CompilationRequest;
import jdk.vm.ci.code.CompiledCode;
import jdk.vm.ci.code.Register;
import jdk.vm.ci.code.StackSlot;
import jdk.vm.ci.code.ValueUtil;
import jdk.vm.ci.hotspot.HotSpotCompilationRequest;
import jdk.vm.ci.hotspot.HotSpotJVMCIRuntime;
import jdk.vm.ci.hotspot.HotSpotResolvedJavaMethod;
import jdk.vm.ci.meta.AllocatableValue;
import jdk.vm.ci.meta.ResolvedJavaMethod;
import jdk.vm.ci.meta.Value;
import jdk.vm.ci.runtime.JVMCICompiler;
/**
* HotSpot specific backend.
*/
public abstract class HotSpotBackend extends Backend implements FrameMap.ReferenceMapBuilderFactory {
public static class Options {
// @formatter:off
@Option(help = "Use Graal arithmetic stubs instead of HotSpot stubs where possible")
public static final OptionKey<Boolean> GraalArithmeticStubs = new OptionKey<>(JavaVersionUtil.JAVA_SPEC >= 9);
@Option(help = "Enables instruction profiling on assembler level. Valid values are a comma separated list of supported instructions." +
" Compare with subclasses of Assembler.InstructionCounter.", type = OptionType.Debug)
public static final OptionKey<String> ASMInstructionProfiling = new OptionKey<>(null);
// @formatter:on
}
/**
* Descriptor for {@link ExceptionHandlerStub}. This stub is called by the
* {@linkplain GraalHotSpotVMConfig#MARKID_EXCEPTION_HANDLER_ENTRY exception handler} in a
* compiled method.
*/
public static final ForeignCallDescriptor EXCEPTION_HANDLER = new ForeignCallDescriptor("exceptionHandler", void.class, Object.class, Word.class);
/**
* Descriptor for SharedRuntime::get_ic_miss_stub().
*/
public static final ForeignCallDescriptor IC_MISS_HANDLER = new ForeignCallDescriptor("icMissHandler", void.class);
/**
* Descriptor for SharedRuntime::get_handle_wrong_method_stub().
*/
public static final ForeignCallDescriptor WRONG_METHOD_HANDLER = new ForeignCallDescriptor("wrongMethodHandler", void.class);
/**
* Descriptor for {@link UnwindExceptionToCallerStub}. This stub is called by code generated
* from {@link UnwindNode}.
*/
public static final ForeignCallDescriptor UNWIND_EXCEPTION_TO_CALLER = new ForeignCallDescriptor("unwindExceptionToCaller", void.class, Object.class, Word.class);
/**
* Descriptor for the arguments when unwinding to an exception handler in a caller.
*/
public static final ForeignCallDescriptor EXCEPTION_HANDLER_IN_CALLER = new ForeignCallDescriptor("exceptionHandlerInCaller", void.class, Object.class, Word.class);
private final HotSpotGraalRuntimeProvider runtime;
/**
* @see AESCryptSubstitutions#encryptBlockStub(ForeignCallDescriptor, Word, Word, Pointer)
*/
public static final ForeignCallDescriptor ENCRYPT_BLOCK = new ForeignCallDescriptor("encrypt_block", void.class, Word.class, Word.class, Pointer.class);
/**
* @see AESCryptSubstitutions#decryptBlockStub(ForeignCallDescriptor, Word, Word, Pointer)
*/
public static final ForeignCallDescriptor DECRYPT_BLOCK = new ForeignCallDescriptor("decrypt_block", void.class, Word.class, Word.class, Pointer.class);
/**
* @see AESCryptSubstitutions#decryptBlockStub(ForeignCallDescriptor, Word, Word, Pointer)
*/
public static final ForeignCallDescriptor DECRYPT_BLOCK_WITH_ORIGINAL_KEY = new ForeignCallDescriptor("decrypt_block_with_original_key", void.class, Word.class, Word.class, Pointer.class,
Pointer.class);
/**
* @see CipherBlockChainingSubstitutions#crypt
*/
public static final ForeignCallDescriptor ENCRYPT = new ForeignCallDescriptor("encrypt", void.class, Word.class, Word.class, Pointer.class, Pointer.class, int.class);
/**
* @see CipherBlockChainingSubstitutions#crypt
*/
public static final ForeignCallDescriptor DECRYPT = new ForeignCallDescriptor("decrypt", void.class, Word.class, Word.class, Pointer.class, Pointer.class, int.class);
/**
* @see CipherBlockChainingSubstitutions#crypt
*/
public static final ForeignCallDescriptor DECRYPT_WITH_ORIGINAL_KEY = new ForeignCallDescriptor("decrypt_with_original_key", void.class, Word.class, Word.class, Pointer.class, Pointer.class,
int.class, Pointer.class);
/**
* @see BigIntegerSubstitutions#multiplyToLen
*/
public static final ForeignCallDescriptor MULTIPLY_TO_LEN = new ForeignCallDescriptor("multiplyToLen", void.class, Word.class, int.class, Word.class, int.class, Word.class, int.class);
public static void multiplyToLenStub(Word xAddr, int xlen, Word yAddr, int ylen, Word zAddr, int zLen) {
multiplyToLenStub(HotSpotBackend.MULTIPLY_TO_LEN, xAddr, xlen, yAddr, ylen, zAddr, zLen);
}
@NodeIntrinsic(ForeignCallNode.class)
private static native void multiplyToLenStub(@ConstantNodeParameter ForeignCallDescriptor descriptor, Word xIn, int xLen, Word yIn, int yLen, Word zIn, int zLen);
/**
* @see BigIntegerSubstitutions#mulAdd
*/
public static final ForeignCallDescriptor MUL_ADD = new ForeignCallDescriptor("mulAdd", int.class, Word.class, Word.class, int.class, int.class, int.class);
public static int mulAddStub(Word inAddr, Word outAddr, int newOffset, int len, int k) {
return mulAddStub(HotSpotBackend.MUL_ADD, inAddr, outAddr, newOffset, len, k);
}
@NodeIntrinsic(ForeignCallNode.class)
private static native int mulAddStub(@ConstantNodeParameter ForeignCallDescriptor descriptor, Word inAddr, Word outAddr, int newOffset, int len, int k);
/**
* @see BigIntegerSubstitutions#implMontgomeryMultiply
*/
public static final ForeignCallDescriptor MONTGOMERY_MULTIPLY = new ForeignCallDescriptor("implMontgomeryMultiply", void.class, Word.class, Word.class, Word.class, int.class, long.class,
Word.class);
public static void implMontgomeryMultiply(Word aAddr, Word bAddr, Word nAddr, int len, long inv, Word productAddr) {
implMontgomeryMultiply(HotSpotBackend.MONTGOMERY_MULTIPLY, aAddr, bAddr, nAddr, len, inv, productAddr);
}
@NodeIntrinsic(ForeignCallNode.class)
private static native void implMontgomeryMultiply(@ConstantNodeParameter ForeignCallDescriptor descriptor, Word aAddr, Word bAddr, Word nAddr, int len, long inv, Word productAddr);
/**
* @see BigIntegerSubstitutions#implMontgomerySquare
*/
public static final ForeignCallDescriptor MONTGOMERY_SQUARE = new ForeignCallDescriptor("implMontgomerySquare", void.class, Word.class, Word.class, int.class, long.class, Word.class);
public static void implMontgomerySquare(Word aAddr, Word nAddr, int len, long inv, Word productAddr) {
implMontgomerySquare(HotSpotBackend.MONTGOMERY_SQUARE, aAddr, nAddr, len, inv, productAddr);
}
@NodeIntrinsic(ForeignCallNode.class)
private static native void implMontgomerySquare(@ConstantNodeParameter ForeignCallDescriptor descriptor, Word aAddr, Word nAddr, int len, long inv, Word productAddr);
/**
* @see BigIntegerSubstitutions#implSquareToLen
*/
public static final ForeignCallDescriptor SQUARE_TO_LEN = new ForeignCallDescriptor("implSquareToLen", void.class, Word.class, int.class, Word.class, int.class);
public static void implSquareToLen(Word xAddr, int len, Word zAddr, int zLen) {
implSquareToLen(SQUARE_TO_LEN, xAddr, len, zAddr, zLen);
}
@NodeIntrinsic(ForeignCallNode.class)
private static native void implSquareToLen(@ConstantNodeParameter ForeignCallDescriptor descriptor, Word xAddr, int len, Word zAddr, int zLen);
/**
* @see SHASubstitutions#implCompress0
*/
public static final ForeignCallDescriptor SHA_IMPL_COMPRESS = new ForeignCallDescriptor("shaImplCompress", void.class, Word.class, Object.class);
public static void shaImplCompressStub(Word bufAddr, Object state) {
shaImplCompressStub(HotSpotBackend.SHA_IMPL_COMPRESS, bufAddr, state);
}
@NodeIntrinsic(ForeignCallNode.class)
private static native void shaImplCompressStub(@ConstantNodeParameter ForeignCallDescriptor descriptor, Word bufAddr, Object state);
/**
* @see SHA2Substitutions#implCompress0
*/
public static final ForeignCallDescriptor SHA2_IMPL_COMPRESS = new ForeignCallDescriptor("sha2ImplCompress", void.class, Word.class, Object.class);
public static void sha2ImplCompressStub(Word bufAddr, Object state) {
sha2ImplCompressStub(HotSpotBackend.SHA2_IMPL_COMPRESS, bufAddr, state);
}
@NodeIntrinsic(ForeignCallNode.class)
private static native void sha2ImplCompressStub(@ConstantNodeParameter ForeignCallDescriptor descriptor, Word bufAddr, Object state);
/**
* @see SHA5Substitutions#implCompress0
*/
public static final ForeignCallDescriptor SHA5_IMPL_COMPRESS = new ForeignCallDescriptor("sha5ImplCompress", void.class, Word.class, Object.class);
public static void sha5ImplCompressStub(Word bufAddr, Object state) {
sha5ImplCompressStub(HotSpotBackend.SHA5_IMPL_COMPRESS, bufAddr, state);
}
@NodeIntrinsic(ForeignCallNode.class)
private static native void sha5ImplCompressStub(@ConstantNodeParameter ForeignCallDescriptor descriptor, Word bufAddr, Object state);
/**
* @see DigestBaseSubstitutions#implCompressMultiBlock0
*/
public static final ForeignCallDescriptor SHA_IMPL_COMPRESS_MB = new ForeignCallDescriptor("shaImplCompressMB", int.class, Word.class, Object.class, int.class, int.class);
public static int shaImplCompressMBStub(Word bufAddr, Object stateAddr, int ofs, int limit) {
return shaImplCompressMBStub(HotSpotBackend.SHA_IMPL_COMPRESS_MB, bufAddr, stateAddr, ofs, limit);
}
@NodeIntrinsic(ForeignCallNode.class)
private static native int shaImplCompressMBStub(@ConstantNodeParameter ForeignCallDescriptor descriptor, Word bufAddr, Object state, int ofs, int limit);
public static final ForeignCallDescriptor SHA2_IMPL_COMPRESS_MB = new ForeignCallDescriptor("sha2ImplCompressMB", int.class, Word.class, Object.class, int.class, int.class);
public static int sha2ImplCompressMBStub(Word bufAddr, Object stateAddr, int ofs, int limit) {
return sha2ImplCompressMBStub(HotSpotBackend.SHA2_IMPL_COMPRESS_MB, bufAddr, stateAddr, ofs, limit);
}
@NodeIntrinsic(ForeignCallNode.class)
private static native int sha2ImplCompressMBStub(@ConstantNodeParameter ForeignCallDescriptor descriptor, Word bufAddr, Object state, int ofs, int limit);
public static final ForeignCallDescriptor SHA5_IMPL_COMPRESS_MB = new ForeignCallDescriptor("sha5ImplCompressMB", int.class, Word.class, Object.class, int.class, int.class);
public static int sha5ImplCompressMBStub(Word bufAddr, Object stateAddr, int ofs, int limit) {
return sha5ImplCompressMBStub(HotSpotBackend.SHA5_IMPL_COMPRESS_MB, bufAddr, stateAddr, ofs, limit);
}
@NodeIntrinsic(ForeignCallNode.class)
private static native int sha5ImplCompressMBStub(@ConstantNodeParameter ForeignCallDescriptor descriptor, Word bufAddr, Object state, int ofs, int limit);
public static void unsafeArraycopy(Word srcAddr, Word dstAddr, Word size) {
unsafeArraycopyStub(UNSAFE_ARRAYCOPY, srcAddr, dstAddr, size);
}
@NodeIntrinsic(ForeignCallNode.class)
private static native void unsafeArraycopyStub(@ConstantNodeParameter ForeignCallDescriptor descriptor, Word srcAddr, Word dstAddr, Word size);
/**
* Descriptor for {@code StubRoutines::_ghash_processBlocks}.
*/
public static final ForeignCallDescriptor GHASH_PROCESS_BLOCKS = new ForeignCallDescriptor("ghashProcessBlocks", void.class, Word.class, Word.class, Word.class, int.class);
/**
* Descriptor for {@code StubRoutines::_base64_encodeBlock}.
*/
public static final ForeignCallDescriptor BASE64_ENCODE_BLOCK = new ForeignCallDescriptor("base64EncodeBlock", void.class, Word.class, int.class, int.class, Word.class, int.class, boolean.class);
/**
* Descriptor for {@code StubRoutines::_counterMode_AESCrypt}.
*/
public static final ForeignCallDescriptor COUNTERMODE_IMPL_CRYPT = new ForeignCallDescriptor("counterModeAESCrypt", int.class, Word.class, Word.class, Word.class, Word.class, int.class,
Word.class, Word.class);
public static int counterModeAESCrypt(Word srcAddr, Word dstAddr, Word kPtr, Word cntPtr, int len, Word encCntPtr, Word used) {
return counterModeAESCrypt(COUNTERMODE_IMPL_CRYPT, srcAddr, dstAddr, kPtr, cntPtr, len, encCntPtr, used);
}
@NodeIntrinsic(ForeignCallNode.class)
private static native int counterModeAESCrypt(@ConstantNodeParameter ForeignCallDescriptor descriptor, Word srcAddr, Word dstAddr, Word kPtr, Word cntPtr, int len, Word encCntPtr,
Word used);
/**
* Descriptor for {@code StubRoutines::_vectorizedMismatch}.
*/
public static final ForeignCallDescriptor VECTORIZED_MISMATCHED = new ForeignCallDescriptor("vectorizedMismatch", int.class, Word.class, Word.class, int.class, int.class);
public static int vectorizedMismatch(Word aAddr, Word bAddr, int length, int log2ArrayIndexScale) {
return vectorizedMismatchStub(VECTORIZED_MISMATCHED, aAddr, bAddr, length, log2ArrayIndexScale);
}
@NodeIntrinsic(ForeignCallNode.class)
private static native int vectorizedMismatchStub(@ConstantNodeParameter ForeignCallDescriptor descriptor, Word aAddr, Word bAddr, int length, int log2ArrayIndexScale);
/**
* @see VMErrorNode
*/
public static final ForeignCallDescriptor VM_ERROR = new ForeignCallDescriptor("vm_error", void.class, Object.class, Object.class, long.class);
/**
* New multi array stub that throws an {@link OutOfMemoryError} on allocation failure.
*/
public static final ForeignCallDescriptor NEW_MULTI_ARRAY = new ForeignCallDescriptor("new_multi_array", Object.class, KlassPointer.class, int.class, Word.class);
/**
* New multi array stub that will return null on allocation failure.
*/
public static final ForeignCallDescriptor NEW_MULTI_ARRAY_OR_NULL = new ForeignCallDescriptor("new_multi_array_or_null", Object.class, KlassPointer.class, int.class, Word.class);
/**
* New array stub that throws an {@link OutOfMemoryError} on allocation failure.
*/
public static final ForeignCallDescriptor NEW_ARRAY = new ForeignCallDescriptor("new_array", Object.class, KlassPointer.class, int.class);
/**
* New array stub that will return null on allocation failure.
*/
public static final ForeignCallDescriptor NEW_ARRAY_OR_NULL = new ForeignCallDescriptor("new_array_or_null", Object.class, KlassPointer.class, int.class);
/**
* New instance stub that throws an {@link OutOfMemoryError} on allocation failure.
*/
public static final ForeignCallDescriptor NEW_INSTANCE = new ForeignCallDescriptor("new_instance", Object.class, KlassPointer.class);
/**
* New instance stub that will return null on allocation failure.
*/
public static final ForeignCallDescriptor NEW_INSTANCE_OR_NULL = new ForeignCallDescriptor("new_instance_or_null", Object.class, KlassPointer.class);
/**
* @see ResolveConstantStubCall
*/
public static final ForeignCallDescriptor RESOLVE_STRING_BY_SYMBOL = new ForeignCallDescriptor("resolve_string_by_symbol", Object.class, Word.class, Word.class);
/**
* @see ResolveConstantStubCall
*/
public static final ForeignCallDescriptor RESOLVE_DYNAMIC_INVOKE = new ForeignCallDescriptor("resolve_dynamic_invoke", Object.class, Word.class);
/**
* @see ResolveConstantStubCall
*/
public static final ForeignCallDescriptor RESOLVE_KLASS_BY_SYMBOL = new ForeignCallDescriptor("resolve_klass_by_symbol", Word.class, Word.class, Word.class);
/**
* @see ResolveConstantStubCall
*/
public static final ForeignCallDescriptor INITIALIZE_KLASS_BY_SYMBOL = new ForeignCallDescriptor("initialize_klass_by_symbol", Word.class, Word.class, Word.class);
/**
* @see ResolveConstantStubCall
*/
public static final ForeignCallDescriptor RESOLVE_METHOD_BY_SYMBOL_AND_LOAD_COUNTERS = new ForeignCallDescriptor("resolve_method_by_symbol_and_load_counters", Word.class, Word.class, Word.class,
Word.class);
/**
* Tiered support.
*/
public static final ForeignCallDescriptor INVOCATION_EVENT = new ForeignCallDescriptor("invocation_event", void.class, MethodCountersPointer.class);
public static final ForeignCallDescriptor BACKEDGE_EVENT = new ForeignCallDescriptor("backedge_event", void.class, MethodCountersPointer.class, int.class, int.class);
public HotSpotBackend(HotSpotGraalRuntimeProvider runtime, HotSpotProviders providers) {
super(providers);
this.runtime = runtime;
}
public HotSpotGraalRuntimeProvider getRuntime() {
return runtime;
}
/**
* Performs any remaining initialization that was deferred until the {@linkplain #getRuntime()
* runtime} object was initialized and this backend was registered with it.
*
* @param jvmciRuntime
* @param options
*/
public void completeInitialization(HotSpotJVMCIRuntime jvmciRuntime, OptionValues options) {
}
/**
* Finds all the registers that are defined by some given LIR.
*
* @param gen the result to examine
* @return the registers that are defined by or used as temps for any instruction in {@code lir}
*/
private EconomicSet<Register> gatherDestroyedCallerRegisters(HotSpotLIRGenerationResult gen) {
LIR lir = gen.getLIR();
final EconomicSet<Register> preservedRegisters = EconomicSet.create(Equivalence.IDENTITY);
final EconomicSet<Register> destroyedRegisters = EconomicSet.create(Equivalence.IDENTITY);
ValueConsumer defConsumer = new ValueConsumer() {
@Override
public void visitValue(Value value, OperandMode mode, EnumSet<OperandFlag> flags) {
if (ValueUtil.isRegister(value)) {
final Register reg = ValueUtil.asRegister(value);
if (!preservedRegisters.contains(reg)) {
destroyedRegisters.add(reg);
}
}
}
};
boolean sawSaveRegisters = false;
for (AbstractBlockBase<?> block : lir.codeEmittingOrder()) {
if (block == null) {
continue;
}
// Ignore the effects of instructions bracketed by save/restore
SaveRegistersOp save = null;
for (LIRInstruction op : lir.getLIRforBlock(block)) {
if (op instanceof LabelOp) {
// Don't consider this as a definition
} else if (op instanceof SaveRegistersOp) {
save = (SaveRegistersOp) op;
sawSaveRegisters = true;
preservedRegisters.addAll(save.getSaveableRegisters());
} else if (op instanceof RestoreRegistersOp) {
save = null;
preservedRegisters.clear();
} else {
op.visitEachTemp(defConsumer);
op.visitEachOutput(defConsumer);
}
}
assert save == null : "missing RestoreRegistersOp";
}
if (sawSaveRegisters) {
// The return value must be killed so it can be propagated out
CallingConvention cc = gen.getCallingConvention();
AllocatableValue returnValue = cc.getReturn();
if (returnValue != null) {
if (ValueUtil.isRegister(returnValue)) {
destroyedRegisters.add(ValueUtil.asRegister(returnValue));
}
}
}
return translateToCallerRegisters(destroyedRegisters);
}
/**
* Translates a set of registers from the callee's perspective to the caller's perspective. This
* is needed for architectures where input/output registers are renamed during a call (e.g.
* register windows on SPARC). Registers which are not visible by the caller are removed.
*/
protected abstract EconomicSet<Register> translateToCallerRegisters(EconomicSet<Register> calleeRegisters);
/**
* Updates a given stub with respect to the registers it destroys by
* {@link #gatherDestroyedCallerRegisters(HotSpotLIRGenerationResult) computing the destroyed
* registers} and removing those registers from the {@linkplain SaveRegistersOp SaveRegistersOp}
* as these registers are declared as temporaries in the stub's {@linkplain ForeignCallLinkage
* linkage} (and thus will be saved by the stub's caller).
*
* @param stub the stub to update
* @param gen the HotSpotLIRGenerationResult being emitted
* @param frameMap used to {@linkplain FrameMap#offsetForStackSlot(StackSlot) convert} a virtual
*/
protected void updateStub(Stub stub, HotSpotLIRGenerationResult gen, FrameMap frameMap) {
EconomicSet<Register> destroyedRegisters = gatherDestroyedCallerRegisters(gen);
EconomicMap<LIRFrameState, SaveRegistersOp> calleeSaveInfo = gen.getCalleeSaveInfo();
if (stub.getLinkage().needsDebugInfo() && calleeSaveInfo.isEmpty()) {
// This call is a safepoint but no register saving was done so we must ensure that all
// registers appear to be killed. The Native ABI may allow caller save registers but
// for HotSpot they must be described in a RegisterMap so they are accessible.
for (Register r : frameMap.getRegisterConfig().getCallerSaveRegisters()) {
destroyedRegisters.add(r);
}
}
stub.initDestroyedCallerRegisters(destroyedRegisters);
MapCursor<LIRFrameState, SaveRegistersOp> cursor = calleeSaveInfo.getEntries();
while (cursor.advance()) {
SaveRegistersOp save = cursor.getValue();
save.remove(destroyedRegisters);
if (cursor.getKey() != LIRFrameState.NO_STATE) {
cursor.getKey().debugInfo().setCalleeSaveInfo(save.getMap(frameMap));
}
}
}
@Override
public HotSpotProviders getProviders() {
return (HotSpotProviders) super.getProviders();
}
@Override
public SuitesProvider getSuites() {
return getProviders().getSuites();
}
protected void profileInstructions(LIR lir, CompilationResultBuilder crb) {
if (HotSpotBackend.Options.ASMInstructionProfiling.getValue(lir.getOptions()) != null) {
HotSpotInstructionProfiling.countInstructions(lir, crb.asm);
}
}
@Override
public CompiledCode createCompiledCode(ResolvedJavaMethod method,
CompilationRequest compilationRequest,
CompilationResult compResult,
boolean isDefault,
OptionValues options) {
assert !isDefault || compResult.getName() == null : "a default nmethod should have a null name since it is associated with a Method*";
HotSpotCompilationRequest compRequest = compilationRequest instanceof HotSpotCompilationRequest ? (HotSpotCompilationRequest) compilationRequest : null;
return HotSpotCompiledCodeBuilder.createCompiledCode(getCodeCache(), method, compRequest, compResult, options);
}
@Override
public CompilationIdentifier getCompilationIdentifier(ResolvedJavaMethod resolvedJavaMethod) {
if (resolvedJavaMethod instanceof HotSpotResolvedJavaMethod) {
HotSpotCompilationRequest request = new HotSpotCompilationRequest((HotSpotResolvedJavaMethod) resolvedJavaMethod, JVMCICompiler.INVOCATION_ENTRY_BCI, 0L);
return new HotSpotCompilationIdentifier(request);
}
return super.getCompilationIdentifier(resolvedJavaMethod);
}
}