8257192: Integrate AArch64 JIT port into 8u 7009641: Don't fail VM when CodeCache is full 8073108: [AArch64] Use x86 and SPARC CPU instructions for GHASH acceleration 8130309: Need to bailout cleanly if creation of stubs fails when codecache is out of space (AArch64 changes) 8131779: AARCH64: add Montgomery multiply intrinsic 8132875: AArch64: Fix error introduced into AArch64 CodeCache by commit for 8130309 8135018: AARCH64: Missing memory barriers for CMS collector 8145320: Create unsafe_arraycopy and generic_arraycopy for AArch64 8148328: aarch64: redundant lsr instructions in stub code. 8148783: aarch64: SEGV running SpecJBB2013 8148948: aarch64: generate_copy_longs calls align() incorrectly 8149080: AArch64: Recognise disjoint array copy in stub code 8149365: aarch64: memory copy does not prefetch on backwards copy 8149907: aarch64: use load/store pair instructions in call_stub 8150038: aarch64: make use of CBZ and CBNZ when comparing narrow pointer with zero 8150045: arraycopy causes segfaults in SATB during garbage collection 8150082: aarch64: optimise small array copy 8150229: aarch64: pipeline class for several instructions is not set correctly 8150313: aarch64: optimise array copy using SIMD instructions 8150394: aarch64: add support for 8.1 LSE CAS instructions 8150652: Remove unused code in AArch64 back end 8151340: aarch64: prefetch the destination word for write prior to ldxr/stxr loops. 8151502: optimize pd_disjoint_words and pd_conjoint_words 8151775: aarch64: add support for 8.1 LSE atomic operations 8152537: aarch64: Make use of CBZ and CBNZ when comparing unsigned values with zero. 8152840: aarch64: improve _unsafe_arraycopy stub routine 8153172: aarch64: hotspot crashes after the 8.1 LSE patch is merged 8153713: aarch64: improve short array clearing using store pair 8153797: aarch64: Add Arrays.fill stub code 8154413: AArch64: Better byte behaviour 8154537: AArch64: some integer rotate instructions are never emitted 8154739: AArch64: TemplateTable::fast_xaccess loads in wrong mode 8155015: Aarch64: bad assert in spill generation code 8155100: AArch64: Relax alignment requirement for byte_map_base 8155612: Aarch64: vector nodes need to support misaligned offset 8155617: aarch64: ClearArray does not use DC ZVA 8155627: Enable SA on AArch64 8155653: TestVectorUnalignedOffset.java not pushed with 8155612 8156731: aarch64: java/util/Arrays/Correct.java fails due to _generic_arraycopy stub routine 8157841: aarch64: prefetch ignores cache line size 8157906: aarch64: some more integer rotate instructions are never emitted 8158913: aarch64: SEGV running Spark terasort 8159052: aarch64: optimise unaligned copies in pd_disjoint_words and pd_conjoint_words 8159063: aarch64: optimise unaligned array copy long 8160748: [AArch64] Inconsistent types for ideal_reg 8161072: AArch64: jtreg compiler/uncommontrap/TestDeoptOOM failure 8161190: AArch64: Fix overflow in immediate cmp instruction 8164113: AArch64: follow-up the fix for 8161598 8165673: AArch64: Fix JNI floating point argument handling 8167200: AArch64: Broken stack pointer adjustment in interpreter 8167421: AArch64: in one core system, fatal error: Illegal threadstate encountered 8167595: AArch64: SEGV in stub code cipherBlockChaining_decryptAESCrypt 8168699: Validate special case invocations [AArch64 support] 8168888: Port 8160591: Improve internal array handling to AArch64. 8170100: AArch64: Crash in C1-compiled code accessing References 8170188: jtreg test compiler/types/TestMeetIncompatibleInterfaceArrays.java causes JVM crash 8170873: PPC64/aarch64: Poor StrictMath performance due to non-optimized compilation 8171537: aarch64: compiler/c1/Test6849574.java generates guarantee failure in C1 8172881: AArch64: assertion failure: the int pressure is incorrect 8173472: AArch64: C1 comparisons with null only use 32-bit instructions 8176100: [AArch64] [REDO][REDO] G1 Needs pre barrier on dereference of weak JNI handles 8177661: Correct ad rule output register types from iRegX to iRegXNoSp 8179954: AArch64: C1 and C2 volatile accesses are not sequentially consistent 8182581: aarch64: fix for crash caused by earlyret of compiled method 8183925: [AArch64] Decouple crash protection from watcher thread 8186325: AArch64: jtreg test hotspot/test/gc/g1/TestJNIWeakG1/TestJNIWeakG1.java SEGV 8187224: aarch64: some inconsistency between aarch64_ad.m4 and aarch64.ad 8189170: [AArch64] Add option to disable stack overflow checking in primordial thread for use with JNI_CreateJavaJVM 8193133: Assertion failure because 0xDEADDEAD can be in-heap 8195685: AArch64 port of 8174962: Better interface invocations 8195859: AArch64: vtableStubs gtest fails after 8174962 8196136: AArch64: Correct register use in patch for JDK-8194686 8196221: AArch64: Mistake in committed patch for JDK-8195859 8199712: [AArch64] Flight Recorder 8203481: Incorrect constraint for unextended_sp in frame:safe_for_sender 8203699: java/lang/invoke/SpecialInterfaceCall fails with SIGILL on aarch64 8205421: AARCH64: StubCodeMark should be placed after alignment 8206163: AArch64: incorrect code generation for StoreCM 8207345: Trampoline generation code reads from uninitialized memory 8207838: AArch64: Float registers incorrectly restored in JNI call 8209413: AArch64: NPE in clhsdb jstack command 8209414: [AArch64] method handle invocation does not respect JVMTI interp_only mode 8209415: Fix JVMTI test failure HS202 8209420: Track membars for volatile accesses so they can be properly optimized 8209835: Aarch64: elide barriers on all volatile operations 8210425: [AArch64] sharedRuntimeTrig/sharedRuntimeTrans compiled without optimization 8211064: [AArch64] Interpreter and c1 don't correctly handle jboolean results in native calls 8211233: MemBarNode::trailing_membar() and MemBarNode::leading_membar() need to handle dying subgraphs better 8213134: AArch64: vector shift failed with MaxVectorSize=8 8213419: [AArch64] C2 may hang in MulLNode::Ideal()/MulINode::Ideal() with gcc 8.2.1 8214857: "bad trailing membar" assert failure at memnode.cpp:3220 8215951: AArch64: jtreg test vmTestbase/nsk/jvmti/PopFrame/popframe005 segfaults 8215961: jdk/jfr/event/os/TestCPUInformation.java fails on AArch64 8216350: AArch64: monitor unlock fast path not called 8216989: CardTableBarrierSetAssembler::gen_write_ref_array_post_barrier() does not check for zero length on AARCH64 8217368: AArch64: C2 recursive stack locking optimisation not triggered 8218185: aarch64: missing LoadStore barrier in TemplateTable::putfield_or_static 8219011: Implement MacroAssembler::warn method on AArch64 8219635: aarch64: missing LoadStore barrier in TemplateTable::fast_storefield 8221220: AArch64: Add StoreStore membar explicitly for Volatile Writes in TemplateTable 8221658: aarch64: add necessary predicate for ubfx patterns 8224671: AArch64: mauve System.arraycopy test failure 8224828: aarch64: rflags is not correct after safepoint poll 8224851: AArch64: fix warnings and errors with Clang and GCC 8.3 8224880: AArch64: java/javac error with AllocatePrefetchDistance 8228400: Remove built-in AArch64 simulator 8228406: Superfluous change in chaitin.hpp 8228593: Revert explicit JDK 7 support additions 8228716: Revert InstanceKlass::print_on debug additions 8228718: Revert incorrect backport of JDK-8129757 to 8-aarch64 8228725: AArch64: Purge method call format support 8228747: Revert "unused" attribute from test_arraycopy_func 8228767: Revert ResourceMark additions 8228770: Revert development hsdis changes 8229123: Revert build fixes for aarch64/zero 8229124: Revert disassembler.cpp changes 8229145: Revert TemplateTable::bytecode() visibility change 8233839: aarch64: missing memory barrier in NewObjectArrayStub and NewTypeArrayStub 8237512: AArch64: aarch64TestHook leaks a BufferBlob 8246482: Build failures with +JFR -PCH 8247979: aarch64: missing side effect of killing flags for clearArray_reg_reg 8248219: aarch64: missing memory barrier in fast_storefield and fast_accessfield Reviewed-by: shade, aph

/*
 * Copyright (c) 2013, 2014, 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.
 */

import com.oracle.java.testlibrary.Platform;
import intrinsics.Verifier;

import java.io.FileOutputStream;
import java.lang.reflect.Executable;
import java.util.Properties;

public abstract class IntrinsicBase extends CompilerWhiteBoxTest {
    protected String javaVmName;
    protected String useMathExactIntrinsics;

    protected IntrinsicBase(TestCase testCase) {
        super(testCase);
        javaVmName = System.getProperty("java.vm.name");
        useMathExactIntrinsics = getVMOption("UseMathExactIntrinsics");
    }

    @Override
    protected void test() throws Exception {
        //java.lang.Math should be loaded to allow a compilation of the methods that use Math's method
        System.out.println("class java.lang.Math should be loaded. Proof: " + Math.class);
        printEnvironmentInfo();

        int expectedIntrinsicCount = 0;

        switch (MODE) {
            case "compiled mode":
            case "mixed mode":
                if (isServerVM()) {
                    if (TIERED_COMPILATION) {
                        int max_level = TIERED_STOP_AT_LEVEL;
                        expectedIntrinsicCount = (max_level == COMP_LEVEL_MAX) ? 1 : 0;
                        for (int i = CompilerWhiteBoxTest.COMP_LEVEL_SIMPLE; i <= max_level; ++i) {
                            deoptimize();
                            compileAtLevel(i);
                        }
                    } else {
                        expectedIntrinsicCount = 1;
                        deoptimize();
                        compileAtLevel(CompilerWhiteBoxTest.COMP_LEVEL_MAX);
                    }
                } else {
                    deoptimize();
                    compileAtLevel(CompilerWhiteBoxTest.COMP_LEVEL_SIMPLE);
                }

                if (!isIntrinsicSupported()) {
                    expectedIntrinsicCount = 0;
                }
                break;
            case "interpreted mode": //test is not applicable in this mode;
                System.err.println("Warning: This test is not applicable in mode: " + MODE);
                break;
            default:
                throw new RuntimeException("Test bug, unknown VM mode: " + MODE);
        }

        System.out.println("Expected intrinsic count is " + expectedIntrinsicCount + " name " + getIntrinsicId());

        final FileOutputStream out = new FileOutputStream(getVMOption("LogFile") + Verifier.PROPERTY_FILE_SUFFIX);
        Properties expectedProps = new Properties();
        expectedProps.setProperty(Verifier.INTRINSIC_NAME_PROPERTY, getIntrinsicId());
        expectedProps.setProperty(Verifier.INTRINSIC_EXPECTED_COUNT_PROPERTY, String.valueOf(expectedIntrinsicCount));
        expectedProps.store(out, null);

        out.close();
    }

    protected void printEnvironmentInfo() {
        System.out.println("java.vm.name=" + javaVmName);
        System.out.println("os.arch=" + Platform.getOsArch());
        System.out.println("java.vm.info=" + MODE);
        System.out.println("useMathExactIntrinsics=" + useMathExactIntrinsics);
    }

    protected void compileAtLevel(int level) {
        WHITE_BOX.enqueueMethodForCompilation(method, level);
        waitBackgroundCompilation();
        checkCompilation(method, level);
    }

    protected void checkCompilation(Executable executable, int level) {
        if (!WHITE_BOX.isMethodCompiled(executable)) {
            throw new RuntimeException("Test bug, expected compilation (level): " + level + ", but not compiled");
        }
        final int compilationLevel = WHITE_BOX.getMethodCompilationLevel(executable);
        if (compilationLevel != level) {
            if (!(TIERED_COMPILATION && level == COMP_LEVEL_FULL_PROFILE && compilationLevel == COMP_LEVEL_LIMITED_PROFILE)) { //possible case
                throw new RuntimeException("Test bug, expected compilation (level): " + level + ", but level: " + compilationLevel);
            }
        }
    }

    protected abstract boolean isIntrinsicSupported();

    protected abstract String getIntrinsicId();

    protected boolean isServerVM() {
        return javaVmName.toLowerCase().contains("server");
    }

    static class IntTest extends IntrinsicBase {
        protected IntTest(MathIntrinsic.IntIntrinsic testCase) {
            super(testCase);
        }

        @Override
        protected boolean isIntrinsicSupported() {
            return isServerVM() && Boolean.valueOf(useMathExactIntrinsics) && (Platform.isX86() || Platform.isX64() ||  Platform.isAArch64());
        }

        @Override
        protected String getIntrinsicId() {
            return "_" + testCase.name().toLowerCase() + "ExactI";
        }
    }

    static class LongTest extends IntrinsicBase {
        protected LongTest(MathIntrinsic.LongIntrinsic testCase) {
            super(testCase);
        }

        @Override
        protected boolean isIntrinsicSupported() {
            return isServerVM() && Boolean.valueOf(useMathExactIntrinsics) && (Platform.isX64() || Platform.isAArch64());
        }

        @Override
        protected String getIntrinsicId() {
            return "_" + testCase.name().toLowerCase() + "ExactL";
        }
    }
}