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Example 26 with MetaAccessProvider

use of jdk.vm.ci.meta.MetaAccessProvider in project graal by oracle.

the class LoadHubNode method canonical.

@Override
public ValueNode canonical(CanonicalizerTool tool) {
    if (!GeneratePIC.getValue(tool.getOptions())) {
        NodeView view = NodeView.from(tool);
        MetaAccessProvider metaAccess = tool.getMetaAccess();
        ValueNode curValue = getValue();
        ValueNode newNode = findSynonym(curValue, stamp(view), metaAccess, tool.getConstantReflection());
        if (newNode != null) {
            return newNode;
        }
    }
    return this;
}
Also used : ValueNode(org.graalvm.compiler.nodes.ValueNode) NodeView(org.graalvm.compiler.nodes.NodeView) MetaAccessProvider(jdk.vm.ci.meta.MetaAccessProvider)

Example 27 with MetaAccessProvider

use of jdk.vm.ci.meta.MetaAccessProvider in project graal by oracle.

the class GeneratedInvocationPlugin method checkInjectedArgument.

protected boolean checkInjectedArgument(GraphBuilderContext b, ValueNode arg, ResolvedJavaMethod foldAnnotatedMethod) {
    if (arg.isNullConstant()) {
        return true;
    }
    MetaAccessProvider metaAccess = b.getMetaAccess();
    ResolvedJavaMethod executeMethod = metaAccess.lookupJavaMethod(getExecuteMethod());
    ResolvedJavaType thisClass = metaAccess.lookupJavaType(getClass());
    ResolvedJavaMethod thisExecuteMethod = thisClass.resolveConcreteMethod(executeMethod, thisClass);
    if (b.getMethod().equals(thisExecuteMethod)) {
        // the injected argument of the call to the @Fold annotated method will be non-null.
        return true;
    }
    throw new AssertionError("must pass null to injected argument of " + foldAnnotatedMethod.format("%H.%n(%p)") + ", not " + arg);
}
Also used : MetaAccessProvider(jdk.vm.ci.meta.MetaAccessProvider) ResolvedJavaMethod(jdk.vm.ci.meta.ResolvedJavaMethod) ResolvedJavaType(jdk.vm.ci.meta.ResolvedJavaType)

Example 28 with MetaAccessProvider

use of jdk.vm.ci.meta.MetaAccessProvider in project graal by oracle.

the class NativeImageGenerator method doRun.

@SuppressWarnings("try")
private void doRun(Map<Method, CEntryPointData> entryPoints, Method mainEntryPoint, JavaMainSupport javaMainSupport, String imageName, AbstractBootImage.NativeImageKind k, SubstitutionProcessor harnessSubstitutions, ForkJoinPool compilationExecutor, ForkJoinPool analysisExecutor) {
    List<HostedMethod> hostedEntryPoints = new ArrayList<>();
    NativeLibraries nativeLibs;
    SVMHost svmHost;
    AnalysisMetaAccess aMetaAccess;
    SnippetReflectionProvider aSnippetReflection;
    HostedProviders aProviders;
    Throwable error = null;
    OptionValues options = HostedOptionValues.singleton();
    SnippetReflectionProvider originalSnippetReflection = GraalAccess.getOriginalSnippetReflection();
    try (DebugContext debug = DebugContext.create(options, new GraalDebugHandlersFactory(originalSnippetReflection))) {
        try (Indent indent = debug.logAndIndent("start analysis pass")) {
            try (StopTimer t = new Timer("setup").start()) {
                // TODO Make customizable via command line parameter.
                Platform platform = defaultPlatform();
                TargetDescription target = createTarget(platform);
                OSInterface osInterface = createOSInterface(loader);
                ObjectLayout objectLayout = new ObjectLayout(target, SubstrateAMD64Backend.getDeoptScatchSpace());
                CompressEncoding compressEncoding = new CompressEncoding(SubstrateOptions.UseHeapBaseRegister.getValue() ? 1 : 0, 0);
                ImageSingletons.add(Platform.class, platform);
                ImageSingletons.add(TargetDescription.class, target);
                ImageSingletons.add(OSInterface.class, osInterface);
                ImageSingletons.add(ObjectLayout.class, objectLayout);
                ImageSingletons.add(CompressEncoding.class, compressEncoding);
                if (javaMainSupport != null) {
                    ImageSingletons.add(JavaMainSupport.class, javaMainSupport);
                }
                Providers originalProviders = GraalAccess.getOriginalProviders();
                MetaAccessProvider originalMetaAccess = originalProviders.getMetaAccess();
                AnalysisPolicy analysisPolicy;
                if (PointstoOptions.AllocationSiteSensitiveHeap.getValue(options)) {
                    // context sensitive analysis
                    analysisPolicy = new SVMBytecodeAnalysisPolicy(options);
                } else {
                    // context insensitive analysis
                    analysisPolicy = new SVMDefaultAnalysisPolicy(options);
                }
                svmHost = new SVMHost(options, platform, analysisPolicy, loader.getClassLoader());
                featureHandler.registerFeatures(loader);
                AfterRegistrationAccessImpl access = new AfterRegistrationAccessImpl(featureHandler, loader, originalMetaAccess);
                featureHandler.forEachFeature(feature -> feature.afterRegistration(access));
                registerEntryPoints(entryPoints);
                /*
                     * Check if any configuration factory class was registered. If not, register the
                     * basic one.
                     */
                HostedConfiguration.setDefaultIfEmpty();
                GraalConfiguration.setDefaultIfEmpty();
                registerEntryPoints(entryPoints);
                CFunctionSubstitutionProcessor cfunctionSubstitutions = new CFunctionSubstitutionProcessor();
                AnnotationSubstitutionProcessor annotationSubstitutions = new DeclarativeSubstitutionProcessor(loader, originalMetaAccess);
                ImageSingletons.add(AnnotationSubstitutionProcessor.class, annotationSubstitutions);
                annotationSubstitutions.init();
                UnsafeAutomaticSubstitutionProcessor automaticSubstitutions = new UnsafeAutomaticSubstitutionProcessor(annotationSubstitutions);
                ImageSingletons.add(UnsafeAutomaticSubstitutionProcessor.class, automaticSubstitutions);
                automaticSubstitutions.init(originalMetaAccess);
                SubstitutionProcessor substitutions = SubstitutionProcessor.chainUpInOrder(harnessSubstitutions, new AnnotationSupport(originalMetaAccess, originalSnippetReflection), annotationSubstitutions, cfunctionSubstitutions, automaticSubstitutions);
                aUniverse = new AnalysisUniverse(svmHost, target, substitutions, originalMetaAccess, originalSnippetReflection, new SubstrateSnippetReflectionProvider());
                aMetaAccess = new AnalysisMetaAccess(aUniverse, originalMetaAccess);
                // native libraries
                AnalysisConstantReflectionProvider aConstantReflection = new AnalysisConstantReflectionProvider(svmHost, aUniverse, originalProviders.getConstantReflection());
                AnalysisConstantFieldProvider aConstantFieldProvider = new AnalysisConstantFieldProvider(aUniverse, aMetaAccess);
                aSnippetReflection = new HostedSnippetReflectionProvider(svmHost);
                nativeLibs = processNativeLibraryImports(aMetaAccess, aConstantReflection, aSnippetReflection);
                /*
                     * Install all snippets so that the types, methods, and fields used in the
                     * snippets get added to the universe.
                     */
                ForeignCallsProvider aForeignCalls = new SubstrateForeignCallsProvider();
                LoweringProvider aLoweringProvider = SubstrateLoweringProvider.create(aMetaAccess, null);
                StampProvider aStampProvider = new SubstrateStampProvider(aMetaAccess);
                WordTypes aWordTypes = new WordTypes(aMetaAccess, FrameAccess.getWordKind());
                aProviders = new HostedProviders(aMetaAccess, null, aConstantReflection, aConstantFieldProvider, aForeignCalls, aLoweringProvider, null, aStampProvider, aSnippetReflection, aWordTypes);
                BytecodeProvider bytecodeProvider = new ResolvedJavaMethodBytecodeProvider();
                SubstrateReplacements aReplacements = new SubstrateReplacements(options, aProviders, aSnippetReflection, bytecodeProvider, target, new SubstrateGraphMakerFactory(aWordTypes));
                aProviders = new HostedProviders(aMetaAccess, null, aConstantReflection, aConstantFieldProvider, aForeignCalls, aLoweringProvider, aReplacements, aStampProvider, aSnippetReflection, aWordTypes);
                bigbang = new Inflation(options, aUniverse, aProviders, svmHost, analysisExecutor);
                /*
                     * Eagerly register all target fields of recomputed value fields as unsafe
                     * accessed.
                     */
                annotationSubstitutions.processComputedValueFields(bigbang);
                try (Indent indent2 = debug.logAndIndent("process startup initializers")) {
                    DuringSetupAccessImpl config = new DuringSetupAccessImpl(featureHandler, loader, bigbang, svmHost);
                    featureHandler.forEachFeature(feature -> feature.duringSetup(config));
                }
                NativeImageGenerator.registerGraphBuilderPlugins(featureHandler, null, aProviders, aMetaAccess, aUniverse, null, null, nativeLibs, loader, true, true);
                registerReplacements(debug, featureHandler, null, aProviders, aProviders.getSnippetReflection(), true);
                /*
                     * Install feature supported substitutions.
                     */
                SubstitutionProcessor[] featureNativeSubstitutions = aUniverse.getFeatureNativeSubstitutions();
                if (featureNativeSubstitutions.length > 0) {
                    SubstitutionProcessor chain = SubstitutionProcessor.chainUpInOrder(featureNativeSubstitutions);
                    SubstitutionProcessor nativeSubstitutionProcessor = new NativeMethodSubstitutionProcessor(chain, aReplacements);
                    SubstitutionProcessor.extendsTheChain(substitutions, new SubstitutionProcessor[] { nativeSubstitutionProcessor });
                }
                SubstitutionProcessor.extendsTheChain(substitutions, aUniverse.getFeatureSubstitutions());
                /*
                     * System classes and fields are necessary to tell the static analysis that
                     * certain things really "exist". The most common reason for that is that there
                     * are no instances and allocations of these classes seen during the static
                     * analysis. The heap chunks are one good example.
                     */
                try (Indent indent2 = debug.logAndIndent("add initial classes/fields/methods")) {
                    bigbang.addSystemClass(Object.class, false, false).registerAsInHeap();
                    bigbang.addSystemField(DynamicHub.class, "vtable");
                    bigbang.addSystemClass(String.class, false, false).registerAsInHeap();
                    bigbang.addSystemClass(String[].class, false, false).registerAsInHeap();
                    bigbang.addSystemField(String.class, "value").registerAsInHeap();
                    bigbang.addSystemClass(long[].class, false, false).registerAsInHeap();
                    bigbang.addSystemClass(byte[].class, false, false).registerAsInHeap();
                    bigbang.addSystemClass(byte[][].class, false, false).registerAsInHeap();
                    bigbang.addSystemClass(Object[].class, false, false).registerAsInHeap();
                    bigbang.addSystemClass(CFunctionPointer[].class, false, false).registerAsInHeap();
                    bigbang.addSystemClass(PointerBase[].class, false, false).registerAsInHeap();
                    // Fields of BootImageInfo that get patched via relocation to addresses
                    // to the partitions of the native image heap.
                    bigbang.addSystemStaticField(NativeImageInfo.class, "firstReadOnlyPrimitiveObject").registerAsInHeap();
                    bigbang.addSystemStaticField(NativeImageInfo.class, "lastReadOnlyPrimitiveObject").registerAsInHeap();
                    bigbang.addSystemStaticField(NativeImageInfo.class, "firstReadOnlyReferenceObject").registerAsInHeap();
                    bigbang.addSystemStaticField(NativeImageInfo.class, "lastReadOnlyReferenceObject").registerAsInHeap();
                    bigbang.addSystemStaticField(NativeImageInfo.class, "firstWritablePrimitiveObject").registerAsInHeap();
                    bigbang.addSystemStaticField(NativeImageInfo.class, "lastWritablePrimitiveObject").registerAsInHeap();
                    bigbang.addSystemStaticField(NativeImageInfo.class, "firstWritableReferenceObject").registerAsInHeap();
                    bigbang.addSystemStaticField(NativeImageInfo.class, "lastWritableReferenceObject").registerAsInHeap();
                    // Graal uses it for type checks in the partial escape analysis phase.
                    bigbang.addSystemClass(Reference.class, false, false);
                    bigbang.addSystemClass(AllocationSite.class, false, false).registerAsInHeap();
                    bigbang.addSystemClass(AllocationCounter.class, false, false).registerAsInHeap();
                    bigbang.addSystemClass(AtomicReference.class, false, false).registerAsInHeap();
                    try {
                        /*
                             * TODO we want to get rid of these explicit registrations. All
                             * registered foreign calls should automatically be included in the
                             * static analysis.
                             */
                        bigbang.addRootMethod(ArraycopySnippets.class.getDeclaredMethod("doArraycopy", Object.class, int.class, Object.class, int.class, int.class));
                        bigbang.addRootMethod(Object.class.getDeclaredMethod("getClass"));
                        if (NativeImageOptions.DeoptimizeAll.getValue()) {
                            bigbang.addRootMethod(DeoptTester.class.getMethod("deoptTest"));
                        }
                    } catch (NoSuchMethodException ex) {
                        throw VMError.shouldNotReachHere(ex);
                    }
                    for (JavaKind kind : JavaKind.values()) {
                        if (kind.isPrimitive() && kind != JavaKind.Void) {
                            bigbang.addSystemClass(kind.toJavaClass(), false, true);
                            bigbang.addSystemField(kind.toBoxedJavaClass(), "value");
                            bigbang.addSystemMethod(kind.toBoxedJavaClass(), "valueOf", kind.toJavaClass());
                            bigbang.addSystemMethod(kind.toBoxedJavaClass(), kind.getJavaName() + "Value");
                        }
                    }
                    entryPoints.forEach((method, entryPointData) -> CEntryPointCallStubSupport.singleton().registerStubForMethod(method, () -> entryPointData));
                    for (StructuredGraph graph : aReplacements.getSnippetGraphs(GraalOptions.TrackNodeSourcePosition.getValue(options))) {
                        MethodTypeFlowBuilder.registerUsedElements(bigbang, graph, null);
                    }
                }
                try (Indent indent2 = debug.logAndIndent("process analysis initializers")) {
                    BeforeAnalysisAccessImpl config = new BeforeAnalysisAccessImpl(featureHandler, loader, bigbang, svmHost, nativeLibs);
                    featureHandler.forEachFeature(feature -> feature.beforeAnalysis(config));
                }
            }
            try (StopTimer t = new Timer("analysis").start()) {
                Timer processFeaturesTimer = new Timer("(features)", false);
                /*
                     * Iterate until analysis reaches a fixpoint
                     */
                DuringAnalysisAccessImpl config = new DuringAnalysisAccessImpl(featureHandler, loader, bigbang, svmHost, nativeLibs);
                int numIterations = 0;
                while (true) {
                    try (Indent indent2 = debug.logAndIndent("new analysis iteration")) {
                        /*
                             * Do the analysis (which itself is done in a similar iterative process)
                             */
                        boolean analysisChanged = bigbang.finish();
                        numIterations++;
                        if (numIterations > 1000) {
                            /*
                                 * Usually there are < 10 iterations. If we have so many iterations,
                                 * we probably have an endless loop (but at least we have a
                                 * performance problem because we re-start the analysis so often).
                                 */
                            throw VMError.shouldNotReachHere("Static analysis did not reach a fix point after " + numIterations + " iterations because a Feature keeps requesting new analysis iterations. The analysis itself " + (analysisChanged ? "DID" : "DID NOT") + " find a change in type states in the last iteration.");
                        }
                        /*
                             * Allow features to change the universe
                             */
                        try (StopTimer t2 = processFeaturesTimer.start()) {
                            int numTypes = aUniverse.getTypes().size();
                            int numMethods = aUniverse.getMethods().size();
                            int numFields = aUniverse.getFields().size();
                            featureHandler.forEachFeature(feature -> feature.duringAnalysis(config));
                            if (!config.getAndResetRequireAnalysisIteration()) {
                                if (numTypes != aUniverse.getTypes().size() || numMethods != aUniverse.getMethods().size() || numFields != aUniverse.getFields().size()) {
                                    throw UserError.abort("When a feature makes more types, methods, of fields reachable, it must require another analysis iteration via DuringAnalysisAccess.requireAnalysisIteration()");
                                }
                                break;
                            }
                        }
                    }
                }
                AfterAnalysisAccessImpl postConfig = new AfterAnalysisAccessImpl(featureHandler, loader, bigbang);
                featureHandler.forEachFeature(feature -> feature.afterAnalysis(postConfig));
                checkUniverse();
                bigbang.typeFlowTimer.print();
                bigbang.checkObjectsTimer.print();
                processFeaturesTimer.print();
                /* report the unsupported features by throwing UnsupportedFeatureException */
                bigbang.getUnsupportedFeatures().report(bigbang);
            } catch (UnsupportedFeatureException ufe) {
                if (NativeImageOptions.ReportUnsupportedFeaturesCause.getValue() && ufe.getCause() != null) {
                    System.err.println("Original exception: ");
                    ufe.getCause().printStackTrace();
                }
                throw UserError.abort(ufe.getMessage());
            }
        } catch (InterruptedException ie) {
            throw new InterruptImageBuilding();
        } catch (RuntimeException | Error e) {
            // Prevents swallowing exceptions when ReturnAfterAnalysis is true
            error = e;
            throw e;
        } finally {
            OnAnalysisExitAccess onExitConfig = new OnAnalysisExitAccessImpl(featureHandler, loader, bigbang);
            featureHandler.forEachFeature(feature -> {
                try {
                    feature.onAnalysisExit(onExitConfig);
                } catch (Exception ex) {
                    System.err.println("Exception during " + feature.getClass().getName() + ".onAnalysisExit()");
                }
            });
            if (AnalysisReportsOptions.PrintAnalysisCallTree.getValue(options)) {
                String reportName = imageName.substring(imageName.lastIndexOf("/") + 1);
                CallTreePrinter.print(bigbang, SubstrateOptions.Path.getValue(), reportName);
            }
            if (AnalysisReportsOptions.PrintImageObjectTree.getValue(options)) {
                String reportName = imageName.substring(imageName.lastIndexOf("/") + 1);
                ObjectTreePrinter.print(bigbang, SubstrateOptions.Path.getValue(), reportName);
            }
            if (PointstoOptions.ReportAnalysisStatistics.getValue(options)) {
                PointsToStats.report(bigbang, imageName.replace("images/", ""));
            }
            if (PointstoOptions.PrintSynchronizedAnalysis.getValue(options)) {
                TypeState allSynchronizedTypeState = bigbang.getAllSynchronizedTypeState();
                String typesString = // 
                allSynchronizedTypeState.closeToAllInstantiated(bigbang) ? // 
                "close to all instantiated" : StreamSupport.stream(allSynchronizedTypeState.types().spliterator(), false).map(AnalysisType::getName).collect(Collectors.joining(", "));
                System.out.println();
                System.out.println("AllSynchronizedTypes");
                System.out.println("Synchronized types #: " + allSynchronizedTypeState.typesCount());
                System.out.println("Types: " + typesString);
                System.out.println();
            }
        }
        if (error == null && NativeImageOptions.ReturnAfterAnalysis.getValue()) {
            return;
        }
        if (NativeImageOptions.ExitAfterAnalysis.getValue()) {
            throw new InterruptImageBuilding("interrupted image construction as ExitAfterAnalysis is set");
        }
        NativeImageHeap heap;
        HostedMethod mainEntryPointHostedStub;
        HostedMetaAccess hMetaAccess;
        SharedRuntimeConfigurationBuilder runtime;
        try (StopTimer t = new Timer("universe").start()) {
            hUniverse = new HostedUniverse(bigbang, svmHost);
            hMetaAccess = new HostedMetaAccess(hUniverse, aMetaAccess);
            new UniverseBuilder(aUniverse, aMetaAccess, hUniverse, hMetaAccess, HostedConfiguration.instance().createStaticAnalysisResultsBuilder(bigbang, hUniverse), bigbang.getUnsupportedFeatures()).build(debug);
            runtime = new HostedRuntimeConfigurationBuilder(options, svmHost, hUniverse, hMetaAccess, aProviders).build();
            registerGraphBuilderPlugins(featureHandler, runtime.getRuntimeConfig(), (HostedProviders) runtime.getRuntimeConfig().getProviders(), aMetaAccess, aUniverse, hMetaAccess, hUniverse, nativeLibs, loader, false, true);
            if (NativeImageOptions.PrintUniverse.getValue()) {
                printTypes();
            }
            /* Find the entry point methods in the hosted world. */
            for (AnalysisMethod m : aUniverse.getMethods()) {
                if (m.isEntryPoint()) {
                    HostedMethod found = hUniverse.lookup(m);
                    assert found != null;
                    hostedEntryPoints.add(found);
                }
            }
            /* Find main entry point */
            if (mainEntryPoint != null) {
                AnalysisMethod analysisStub = CEntryPointCallStubSupport.singleton().getStubForMethod(mainEntryPoint);
                mainEntryPointHostedStub = (HostedMethod) hMetaAccess.getUniverse().lookup(analysisStub);
                assert hostedEntryPoints.contains(mainEntryPointHostedStub);
            } else {
                mainEntryPointHostedStub = null;
            }
            if (hostedEntryPoints.size() == 0) {
                throw UserError.abort("Warning: no entry points found, i.e., no method annotated with @" + CEntryPoint.class.getSimpleName());
            }
            heap = new NativeImageHeap(aUniverse, hUniverse, hMetaAccess);
            BeforeCompilationAccessImpl config = new BeforeCompilationAccessImpl(featureHandler, loader, aUniverse, hUniverse, hMetaAccess, heap);
            featureHandler.forEachFeature(feature -> feature.beforeCompilation(config));
            bigbang.getUnsupportedFeatures().report(bigbang);
        } catch (UnsupportedFeatureException ufe) {
            throw UserError.abort(ufe.getMessage());
        }
        recordMethodsWithStackValues();
        recordRestrictHeapAccessCallees(aUniverse.getMethods());
        /*
             * After this point, all TypeFlow (and therefore also TypeState) objects are unreachable
             * and can be garbage collected. This is important to keep the overall memory footprint
             * low. However, this also means we no longer have complete call chain information. Only
             * the summarized information stored in the StaticAnalysisResult objects is available
             * after this point.
             */
        bigbang.cleanupAfterAnalysis();
        NativeImageCodeCache codeCache;
        CompileQueue compileQueue;
        try (StopTimer t = new Timer("compile").start()) {
            compileQueue = HostedConfiguration.instance().createCompileQueue(debug, featureHandler, hUniverse, runtime, NativeImageOptions.DeoptimizeAll.getValue(), aSnippetReflection, compilationExecutor);
            compileQueue.finish(debug);
            /* release memory taken by graphs for the image writing */
            hUniverse.getMethods().forEach(HostedMethod::clear);
            codeCache = new NativeImageCodeCache(compileQueue.getCompilations(), heap);
            codeCache.layoutMethods(debug);
            codeCache.layoutConstants();
            AfterCompilationAccessImpl config = new AfterCompilationAccessImpl(featureHandler, loader, aUniverse, hUniverse, hMetaAccess, heap);
            featureHandler.forEachFeature(feature -> feature.afterCompilation(config));
        }
        try (Indent indent = debug.logAndIndent("create native image")) {
            try (DebugContext.Scope buildScope = debug.scope("CreateBootImage")) {
                try (StopTimer t = new Timer("image").start()) {
                    // Start building the model of the native image heap.
                    heap.addInitialObjects(debug);
                    // Then build the model of the code cache, which can
                    // add objects to the native image heap.
                    codeCache.addConstantsToHeap(debug);
                    // Finish building the model of the native image heap.
                    heap.addTrailingObjects(debug);
                    AfterHeapLayoutAccessImpl config = new AfterHeapLayoutAccessImpl(featureHandler, loader, hMetaAccess);
                    featureHandler.forEachFeature(feature -> feature.afterHeapLayout(config));
                    this.image = AbstractBootImage.create(k, hUniverse, hMetaAccess, nativeLibs, heap, codeCache, hostedEntryPoints, mainEntryPointHostedStub);
                    image.build(debug);
                    if (NativeImageOptions.PrintUniverse.getValue()) {
                        /*
                             * This debug output must be printed _after_ and not _during_ image
                             * building, because it adds some PrintStream objects to static fields,
                             * which disrupts the heap.
                             */
                        codeCache.printCompilationResults();
                    }
                }
            }
        }
        BeforeImageWriteAccessImpl beforeConfig = new BeforeImageWriteAccessImpl(featureHandler, loader, imageName, image, runtime.getRuntimeConfig(), aUniverse, hUniverse, optionProvider, hMetaAccess);
        featureHandler.forEachFeature(feature -> feature.beforeImageWrite(beforeConfig));
        try (StopTimer t = new Timer("write").start()) {
            /*
                 * This will write the debug info too -- i.e. we may be writing more than one file,
                 * if the debug info is in a separate file. We need to push writing the file to the
                 * image implementation, because whether the debug info and image share a file or
                 * not is an implementation detail of the image.
                 */
            Path tmpDir = tempDirectory();
            Path imagePath = image.write(debug, generatedFiles(HostedOptionValues.singleton()), tmpDir, imageName, beforeConfig);
            AfterImageWriteAccessImpl afterConfig = new AfterImageWriteAccessImpl(featureHandler, loader, imagePath, tmpDir, image.getBootImageKind());
            featureHandler.forEachFeature(feature -> feature.afterImageWrite(afterConfig));
        }
    }
}
Also used : UnsafeAutomaticSubstitutionProcessor(com.oracle.svm.hosted.substitute.UnsafeAutomaticSubstitutionProcessor) AnalysisConstantReflectionProvider(com.oracle.svm.hosted.ameta.AnalysisConstantReflectionProvider) Indent(org.graalvm.compiler.debug.Indent) AllocationCounter(com.oracle.svm.core.allocationprofile.AllocationCounter) OnAnalysisExitAccessImpl(com.oracle.svm.hosted.FeatureImpl.OnAnalysisExitAccessImpl) HostedOptionValues(com.oracle.svm.core.option.HostedOptionValues) RuntimeOptionValues(com.oracle.svm.core.option.RuntimeOptionValues) OptionValues(org.graalvm.compiler.options.OptionValues) Platform(org.graalvm.nativeimage.Platform) AfterCompilationAccessImpl(com.oracle.svm.hosted.FeatureImpl.AfterCompilationAccessImpl) ObjectLayout(com.oracle.svm.core.config.ObjectLayout) ArrayList(java.util.ArrayList) CompressEncoding(org.graalvm.compiler.core.common.CompressEncoding) WordTypes(org.graalvm.compiler.word.WordTypes) DeoptTester(com.oracle.svm.core.deopt.DeoptTester) HostedRuntimeConfigurationBuilder(com.oracle.svm.hosted.code.HostedRuntimeConfigurationBuilder) HostedProviders(com.oracle.graal.pointsto.meta.HostedProviders) HostedSnippetReflectionProvider(com.oracle.svm.hosted.meta.HostedSnippetReflectionProvider) OnAnalysisExitAccess(org.graalvm.nativeimage.Feature.OnAnalysisExitAccess) DuringSetupAccessImpl(com.oracle.svm.hosted.FeatureImpl.DuringSetupAccessImpl) ResolvedJavaMethodBytecodeProvider(org.graalvm.compiler.bytecode.ResolvedJavaMethodBytecodeProvider) BeforeAnalysisAccessImpl(com.oracle.svm.hosted.FeatureImpl.BeforeAnalysisAccessImpl) AnalysisConstantFieldProvider(com.oracle.svm.hosted.ameta.AnalysisConstantFieldProvider) UnsupportedFeatureException(com.oracle.graal.pointsto.constraints.UnsupportedFeatureException) BytecodeProvider(org.graalvm.compiler.bytecode.BytecodeProvider) ResolvedJavaMethodBytecodeProvider(org.graalvm.compiler.bytecode.ResolvedJavaMethodBytecodeProvider) DebugContext(org.graalvm.compiler.debug.DebugContext) NativeImageInfo(com.oracle.svm.core.heap.NativeImageInfo) HostedUniverse(com.oracle.svm.hosted.meta.HostedUniverse) GraalDebugHandlersFactory(org.graalvm.compiler.printer.GraalDebugHandlersFactory) UniverseBuilder(com.oracle.svm.hosted.meta.UniverseBuilder) SVMDefaultAnalysisPolicy(com.oracle.svm.hosted.analysis.SVMDefaultAnalysisPolicy) AnalysisMethod(com.oracle.graal.pointsto.meta.AnalysisMethod) SubstrateReplacements(com.oracle.svm.core.graal.meta.SubstrateReplacements) AfterAnalysisAccessImpl(com.oracle.svm.hosted.FeatureImpl.AfterAnalysisAccessImpl) HostedMethod(com.oracle.svm.hosted.meta.HostedMethod) StopTimer(com.oracle.graal.pointsto.util.Timer.StopTimer) AnalysisPolicy(com.oracle.graal.pointsto.AnalysisPolicy) SVMDefaultAnalysisPolicy(com.oracle.svm.hosted.analysis.SVMDefaultAnalysisPolicy) SVMBytecodeAnalysisPolicy(com.oracle.svm.hosted.analysis.SVMBytecodeAnalysisPolicy) DuringAnalysisAccessImpl(com.oracle.svm.hosted.FeatureImpl.DuringAnalysisAccessImpl) MetaAccessProvider(jdk.vm.ci.meta.MetaAccessProvider) SubstrateForeignCallsProvider(com.oracle.svm.core.graal.meta.SubstrateForeignCallsProvider) ForeignCallsProvider(org.graalvm.compiler.core.common.spi.ForeignCallsProvider) AnalysisType(com.oracle.graal.pointsto.meta.AnalysisType) AfterImageWriteAccessImpl(com.oracle.svm.hosted.FeatureImpl.AfterImageWriteAccessImpl) NativeLibraries(com.oracle.svm.hosted.c.NativeLibraries) BeforeImageWriteAccessImpl(com.oracle.svm.hosted.FeatureImpl.BeforeImageWriteAccessImpl) SubstrateTargetDescription(com.oracle.svm.core.graal.meta.SubstrateTargetDescription) TargetDescription(jdk.vm.ci.code.TargetDescription) AnnotationSupport(com.oracle.svm.hosted.annotation.AnnotationSupport) SubstrateForeignCallsProvider(com.oracle.svm.core.graal.meta.SubstrateForeignCallsProvider) SubstrateLoweringProvider(com.oracle.svm.core.graal.meta.SubstrateLoweringProvider) NodeLoweringProvider(com.oracle.svm.core.graal.snippets.NodeLoweringProvider) 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Example 29 with MetaAccessProvider

use of jdk.vm.ci.meta.MetaAccessProvider in project graal by oracle.

the class GraalObjectReplacer method apply.

@Override
public Object apply(Object source) {
    if (source == null) {
        return null;
    }
    Object dest = source;
    if (source instanceof RelocatedPointer) {
        return dest;
    }
    if (source instanceof MetaAccessProvider) {
        dest = sMetaAccess;
    } else if (source instanceof GraalRuntime) {
        dest = sGraalRuntime;
    } else if (source instanceof AnalysisConstantReflectionProvider) {
        dest = sConstantReflectionProvider;
    } else if (source instanceof AnalysisConstantFieldProvider) {
        dest = sConstantFieldProvider;
    } else if (source instanceof ForeignCallsProvider) {
        dest = GraalSupport.getRuntimeConfig().getProviders().getForeignCalls();
    } else if (source instanceof HostedSnippetReflectionProvider) {
        dest = GraalSupport.getRuntimeConfig().getSnippetReflection();
    } else if (shouldBeReplaced(source)) {
        /*
             * The hash maps must be synchronized, because replace() may be called from
             * BigBang.finish(), which is multi-threaded.
             */
        synchronized (this) {
            if (source instanceof ResolvedJavaMethod) {
                dest = createMethod((ResolvedJavaMethod) source);
            } else if (source instanceof ResolvedJavaField) {
                dest = createField((ResolvedJavaField) source);
            } else if (source instanceof ResolvedJavaType) {
                dest = createType((ResolvedJavaType) source);
            } else if (source instanceof Signature) {
                dest = createSignature((Signature) source);
            } else if (source instanceof FieldLocationIdentity) {
                dest = fieldLocationIdentities.get(source);
                if (dest == null) {
                    SubstrateField destField = (SubstrateField) apply(((FieldLocationIdentity) source).getField());
                    dest = new SubstrateFieldLocationIdentity(destField);
                    fieldLocationIdentities.put((FieldLocationIdentity) source, (FieldLocationIdentity) dest);
                }
            }
        }
    }
    assert dest != null;
    String className = dest.getClass().getName();
    assert !className.contains(".hotspot.") || className.contains(".svm.jtt.hotspot.") : "HotSpot object in image " + className;
    assert !className.contains(".analysis.meta.") : "Analysis meta object in image " + className;
    assert !className.contains(".hosted.meta.") : "Hosted meta object in image " + className;
    return dest;
}
Also used : ForeignCallsProvider(org.graalvm.compiler.core.common.spi.ForeignCallsProvider) AnalysisConstantReflectionProvider(com.oracle.svm.hosted.ameta.AnalysisConstantReflectionProvider) AnalysisConstantFieldProvider(com.oracle.svm.hosted.ameta.AnalysisConstantFieldProvider) RelocatedPointer(org.graalvm.nativeimage.c.function.RelocatedPointer) SubstrateField(com.oracle.svm.graal.meta.SubstrateField) ResolvedJavaType(jdk.vm.ci.meta.ResolvedJavaType) HostedSnippetReflectionProvider(com.oracle.svm.hosted.meta.HostedSnippetReflectionProvider) ResolvedJavaField(jdk.vm.ci.meta.ResolvedJavaField) GraalRuntime(org.graalvm.compiler.api.runtime.GraalRuntime) SubstrateGraalRuntime(com.oracle.svm.graal.SubstrateGraalRuntime) FieldLocationIdentity(org.graalvm.compiler.nodes.FieldLocationIdentity) SubstrateFieldLocationIdentity(com.oracle.svm.core.graal.nodes.SubstrateFieldLocationIdentity) SubstrateFieldLocationIdentity(com.oracle.svm.core.graal.nodes.SubstrateFieldLocationIdentity) Signature(jdk.vm.ci.meta.Signature) SubstrateSignature(com.oracle.svm.graal.meta.SubstrateSignature) MetaAccessProvider(jdk.vm.ci.meta.MetaAccessProvider) ResolvedJavaMethod(jdk.vm.ci.meta.ResolvedJavaMethod)

Example 30 with MetaAccessProvider

use of jdk.vm.ci.meta.MetaAccessProvider in project graal by oracle.

the class CheckGraalInvariants method runTest.

@SuppressWarnings("try")
public static void runTest(InvariantsTool tool) {
    RuntimeProvider rt = Graal.getRequiredCapability(RuntimeProvider.class);
    Providers providers = rt.getHostBackend().getProviders();
    MetaAccessProvider metaAccess = providers.getMetaAccess();
    PhaseSuite<HighTierContext> graphBuilderSuite = new PhaseSuite<>();
    Plugins plugins = new Plugins(new InvocationPlugins());
    GraphBuilderConfiguration config = GraphBuilderConfiguration.getDefault(plugins).withEagerResolving(true).withUnresolvedIsError(true);
    graphBuilderSuite.appendPhase(new GraphBuilderPhase(config));
    HighTierContext context = new HighTierContext(providers, graphBuilderSuite, OptimisticOptimizations.NONE);
    Assume.assumeTrue(VerifyPhase.class.desiredAssertionStatus());
    String bootclasspath = tool.getClassPath();
    Assert.assertNotNull("Cannot find boot class path", bootclasspath);
    final List<String> classNames = new ArrayList<>();
    for (String path : bootclasspath.split(File.pathSeparator)) {
        if (tool.shouldProcess(path)) {
            try {
                final ZipFile zipFile = new ZipFile(new File(path));
                for (final Enumeration<? extends ZipEntry> entry = zipFile.entries(); entry.hasMoreElements(); ) {
                    final ZipEntry zipEntry = entry.nextElement();
                    String name = zipEntry.getName();
                    if (name.endsWith(".class") && !name.startsWith("META-INF/versions/")) {
                        String className = name.substring(0, name.length() - ".class".length()).replace('/', '.');
                        if (isInNativeImage(className)) {
                            /*
                                 * Native Image is an external tool and does not need to follow the
                                 * Graal invariants.
                                 */
                            continue;
                        }
                        classNames.add(className);
                    }
                }
            } catch (IOException ex) {
                Assert.fail(ex.toString());
            }
        }
    }
    Assert.assertFalse("Could not find graal jars on boot class path: " + bootclasspath, classNames.isEmpty());
    // Allows a subset of methods to be checked through use of a system property
    String property = System.getProperty(CheckGraalInvariants.class.getName() + ".filters");
    String[] filters = property == null ? null : property.split(",");
    OptionValues options = getInitialOptions();
    CompilerThreadFactory factory = new CompilerThreadFactory("CheckInvariantsThread");
    int availableProcessors = Runtime.getRuntime().availableProcessors();
    ThreadPoolExecutor executor = new ThreadPoolExecutor(availableProcessors, availableProcessors, 0L, TimeUnit.MILLISECONDS, new LinkedBlockingQueue<Runnable>(), factory);
    List<String> errors = Collections.synchronizedList(new ArrayList<>());
    for (Method m : BadUsageWithEquals.class.getDeclaredMethods()) {
        ResolvedJavaMethod method = metaAccess.lookupJavaMethod(m);
        try (DebugContext debug = DebugContext.create(options, DebugHandlersFactory.LOADER)) {
            StructuredGraph graph = new StructuredGraph.Builder(options, debug, AllowAssumptions.YES).method(method).build();
            try (DebugCloseable s = debug.disableIntercept();
                DebugContext.Scope ds = debug.scope("CheckingGraph", graph, method)) {
                graphBuilderSuite.apply(graph, context);
                // update phi stamps
                graph.getNodes().filter(PhiNode.class).forEach(PhiNode::inferStamp);
                checkGraph(context, graph);
                errors.add(String.format("Expected error while checking %s", m));
            } catch (VerificationError e) {
            // expected!
            } catch (Throwable e) {
                errors.add(String.format("Error while checking %s:%n%s", m, printStackTraceToString(e)));
            }
        }
    }
    if (errors.isEmpty()) {
        // Order outer classes before the inner classes
        classNames.sort((String a, String b) -> a.compareTo(b));
        // Initialize classes in single thread to avoid deadlocking issues during initialization
        List<Class<?>> classes = initializeClasses(tool, classNames);
        for (Class<?> c : classes) {
            String className = c.getName();
            executor.execute(() -> {
                try {
                    checkClass(c, metaAccess);
                } catch (Throwable e) {
                    errors.add(String.format("Error while checking %s:%n%s", className, printStackTraceToString(e)));
                }
            });
            for (Method m : c.getDeclaredMethods()) {
                if (Modifier.isNative(m.getModifiers()) || Modifier.isAbstract(m.getModifiers())) {
                // ignore
                } else {
                    String methodName = className + "." + m.getName();
                    if (matches(filters, methodName)) {
                        executor.execute(() -> {
                            try (DebugContext debug = DebugContext.create(options, DebugHandlersFactory.LOADER)) {
                                ResolvedJavaMethod method = metaAccess.lookupJavaMethod(m);
                                StructuredGraph graph = new StructuredGraph.Builder(options, debug).method(method).build();
                                try (DebugCloseable s = debug.disableIntercept();
                                    DebugContext.Scope ds = debug.scope("CheckingGraph", graph, method)) {
                                    checkMethod(method);
                                    graphBuilderSuite.apply(graph, context);
                                    // update phi stamps
                                    graph.getNodes().filter(PhiNode.class).forEach(PhiNode::inferStamp);
                                    checkGraph(context, graph);
                                } catch (VerificationError e) {
                                    errors.add(e.getMessage());
                                } catch (LinkageError e) {
                                // suppress linkages errors resulting from eager resolution
                                } catch (BailoutException e) {
                                // Graal bail outs on certain patterns in Java bytecode
                                // (e.g.,
                                // unbalanced monitors introduced by jacoco).
                                } catch (Throwable e) {
                                    try {
                                        tool.handleParsingException(e);
                                    } catch (Throwable t) {
                                        errors.add(String.format("Error while checking %s:%n%s", methodName, printStackTraceToString(e)));
                                    }
                                }
                            }
                        });
                    }
                }
            }
        }
        executor.shutdown();
        try {
            executor.awaitTermination(1, TimeUnit.HOURS);
        } catch (InterruptedException e1) {
            throw new RuntimeException(e1);
        }
    }
    if (!errors.isEmpty()) {
        StringBuilder msg = new StringBuilder();
        String nl = String.format("%n");
        for (String e : errors) {
            if (msg.length() != 0) {
                msg.append(nl);
            }
            msg.append(e);
        }
        Assert.fail(msg.toString());
    }
}
Also used : OptionValues(org.graalvm.compiler.options.OptionValues) VerificationError(org.graalvm.compiler.phases.VerifyPhase.VerificationError) ZipEntry(java.util.zip.ZipEntry) RuntimeProvider(org.graalvm.compiler.runtime.RuntimeProvider) ArrayList(java.util.ArrayList) Providers(org.graalvm.compiler.phases.util.Providers) VerifyPhase(org.graalvm.compiler.phases.VerifyPhase) StructuredGraph(org.graalvm.compiler.nodes.StructuredGraph) GraphBuilderPhase(org.graalvm.compiler.java.GraphBuilderPhase) InvocationPlugins(org.graalvm.compiler.nodes.graphbuilderconf.InvocationPlugins) Plugins(org.graalvm.compiler.nodes.graphbuilderconf.GraphBuilderConfiguration.Plugins) InvocationPlugins(org.graalvm.compiler.nodes.graphbuilderconf.InvocationPlugins) PhiNode(org.graalvm.compiler.nodes.PhiNode) GraphBuilderConfiguration(org.graalvm.compiler.nodes.graphbuilderconf.GraphBuilderConfiguration) IOException(java.io.IOException) Method(java.lang.reflect.Method) JavaMethod(jdk.vm.ci.meta.JavaMethod) ResolvedJavaMethod(jdk.vm.ci.meta.ResolvedJavaMethod) DebugContext(org.graalvm.compiler.debug.DebugContext) BailoutException(jdk.vm.ci.code.BailoutException) ZipFile(java.util.zip.ZipFile) NodeClass(org.graalvm.compiler.graph.NodeClass) HighTierContext(org.graalvm.compiler.phases.tiers.HighTierContext) ThreadPoolExecutor(java.util.concurrent.ThreadPoolExecutor) DebugCloseable(org.graalvm.compiler.debug.DebugCloseable) PhaseSuite(org.graalvm.compiler.phases.PhaseSuite) ZipFile(java.util.zip.ZipFile) File(java.io.File) MetaAccessProvider(jdk.vm.ci.meta.MetaAccessProvider) CompilerThreadFactory(org.graalvm.compiler.core.CompilerThreadFactory) ResolvedJavaMethod(jdk.vm.ci.meta.ResolvedJavaMethod)

Aggregations

MetaAccessProvider (jdk.vm.ci.meta.MetaAccessProvider)34 ResolvedJavaMethod (jdk.vm.ci.meta.ResolvedJavaMethod)18 ResolvedJavaType (jdk.vm.ci.meta.ResolvedJavaType)13 StructuredGraph (org.graalvm.compiler.nodes.StructuredGraph)11 DebugContext (org.graalvm.compiler.debug.DebugContext)9 GraphBuilderConfiguration (org.graalvm.compiler.nodes.graphbuilderconf.GraphBuilderConfiguration)9 OptionValues (org.graalvm.compiler.options.OptionValues)9 GraphBuilderPhase (org.graalvm.compiler.java.GraphBuilderPhase)8 Plugins (org.graalvm.compiler.nodes.graphbuilderconf.GraphBuilderConfiguration.Plugins)8 Method (java.lang.reflect.Method)7 InvocationPlugins (org.graalvm.compiler.nodes.graphbuilderconf.InvocationPlugins)7 Providers (org.graalvm.compiler.phases.util.Providers)7 RuntimeProvider (org.graalvm.compiler.runtime.RuntimeProvider)7 ValueNode (org.graalvm.compiler.nodes.ValueNode)6 HighTierContext (org.graalvm.compiler.phases.tiers.HighTierContext)6 DebugCloseable (org.graalvm.compiler.debug.DebugCloseable)5 PhaseSuite (org.graalvm.compiler.phases.PhaseSuite)5 ArrayList (java.util.ArrayList)4 JavaKind (jdk.vm.ci.meta.JavaKind)4 ConstantNode (org.graalvm.compiler.nodes.ConstantNode)4