/* * Copyright (c) 2021, 2022, 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. */ /* * @test * @key stress randomness * @library /test/lib * * @modules java.base/jdk.internal.misc * * @run main/othervm -Xbatch -XX:CompileCommand=dontinline,compiler.unsafe.UnsafeCopyMemory::test* * -XX:+IgnoreUnrecognizedVMOptions -XX:+UnlockDiagnosticVMOptions -XX:+StressGCM -XX:+StressLCM * compiler.unsafe.UnsafeCopyMemory */ package compiler.unsafe; import jdk.internal.misc.Unsafe; import java.nio.ByteOrder; import static jdk.test.lib.Asserts.assertEQ; public class UnsafeCopyMemory { static private Unsafe UNSAFE = Unsafe.getUnsafe(); static final boolean IS_BIG_ENDIAN = ByteOrder.nativeOrder() == ByteOrder.BIG_ENDIAN; // On-heap arrays static int[] srcArr = new int[1]; static int[] dstArr = new int[1]; static int[] resArr = dstArr; static Object srcObj = srcArr; static Object dstObj = dstArr; static long[] dstArrL = new long[1]; static long[] resArrL = dstArrL; // Native static long SRC_BASE = UNSAFE.allocateMemory(4); static long DST_BASE = UNSAFE.allocateMemory(4); static long RES_BASE = DST_BASE; static void reset() { resArr[0] = 0; UNSAFE.putInt(null, RES_BASE, 0); } /* ================================================================ */ // Heap-to-heap static int testHeapToHeap(int v1, int v2, int v3, int v4, int readIdx, int writeIdx) { // assert(readIdx == writeIdx == 0); srcArr[readIdx] = v1; dstArr[writeIdx] = v2; UNSAFE.copyMemory(srcArr, Unsafe.ARRAY_INT_BASE_OFFSET, dstArr, Unsafe.ARRAY_INT_BASE_OFFSET, 4); int r = resArr[0]; // snapshot srcArr[readIdx] = v3; dstArr[writeIdx] = v4; return r; } static int testHeapToHeapMixed(int v1, int v2, int v3, int v4, int readIdx, int writeIdx) { // assert(readIdx == writeIdx == 0); srcArr[readIdx] = v1; dstArr[writeIdx] = v2; UNSAFE.copyMemory(srcObj, Unsafe.ARRAY_INT_BASE_OFFSET, dstObj, Unsafe.ARRAY_INT_BASE_OFFSET, 4); // mixed int r = resArr[0]; // snapshot srcArr[readIdx] = v3; dstArr[writeIdx] = v4; return r; } static long testHeapToHeapMismatched(int v1, int v2, int v3, int v4, int readIdx, int writeIdx) { // assert(readIdx == writeIdx == 0); srcArr [readIdx] = v1; dstArrL[writeIdx] = v2; // On LE systems, low-order bytes of long and int overlap, but // on BE systems, they differ by the size of an int. long mismatchedOffset = Unsafe.ARRAY_LONG_BASE_OFFSET + (IS_BIG_ENDIAN ? 4 : 0); UNSAFE.copyMemory(srcArr, Unsafe.ARRAY_INT_BASE_OFFSET, dstArrL, mismatchedOffset, 4); // mismatched long r = resArrL[0]; // snapshot srcArr[readIdx] = v3; dstArrL[writeIdx] = v4; return r; } static int testHeapToHeapLocalSrc(int v1, int v2, int v3, int v4, int writeIdx) { // assert(writeIdx == 0); int[] srcArrLocal = new int[1]; srcArrLocal[0] = v1; dstArr[writeIdx] = v2; UNSAFE.copyMemory(srcArrLocal, Unsafe.ARRAY_INT_BASE_OFFSET, dstArr, Unsafe.ARRAY_INT_BASE_OFFSET, 4); int r = resArr[0]; // snapshot srcArrLocal[0] = v3; dstArr[writeIdx] = v4; return r; } static int testHeapToHeapLocalDst(int v1, int v2, int v3, int v4, int readIdx) { // assert(readIdx == 0); int[] dstArrLocal = new int[1]; srcArr[readIdx] = v1; dstArrLocal[0] = v2; UNSAFE.copyMemory(srcArr, Unsafe.ARRAY_INT_BASE_OFFSET, dstArrLocal, Unsafe.ARRAY_INT_BASE_OFFSET, 4); int r = dstArrLocal[0]; // snapshot srcArr[readIdx] = v3; dstArrLocal[0] = v4; return r; } static int testHeapToHeapLocalSrcMismatched(int v1, int v2, int v3, int v4, int writeIdx, boolean flag) { // assert(writeIdx == 0); // assert(b == true); int[] srcArrIntLocal = new int[1]; long[] srcArrLongLocal = new long[1]; Object srcArrLocal = (flag ? srcArrIntLocal : srcArrLongLocal); long srcOffset = (flag ? Unsafe.ARRAY_INT_BASE_OFFSET : Unsafe.ARRAY_LONG_BASE_OFFSET); srcOffset += (!flag && IS_BIG_ENDIAN ? 4 : 0); srcArrIntLocal[0] = v1; srcArrLongLocal[0] = v1; dstArr[writeIdx] = v2; UNSAFE.copyMemory(srcArrLocal, srcOffset, dstArr, Unsafe.ARRAY_INT_BASE_OFFSET, 4); int r = resArr[0]; // snapshot srcArrIntLocal[0] = v3; srcArrLongLocal[0] = v3; dstArr[writeIdx] = v4; return r; } static int testHeapToHeapLocalDstMismatched(int v1, int v2, int v3, int v4, int readIdx, boolean flag) { // assert(readIdx == 0); int[] dstArrIntLocal = new int[1]; long[] dstArrLongLocal = new long[1]; Object dstArrLocal = (flag ? dstArrIntLocal : dstArrLongLocal); long dstOffset = (flag ? Unsafe.ARRAY_INT_BASE_OFFSET : Unsafe.ARRAY_LONG_BASE_OFFSET); dstOffset += (!flag && IS_BIG_ENDIAN ? 4 : 0); srcArr[readIdx] = v1; dstArrIntLocal[0] = v2; dstArrLongLocal[0] = v2; UNSAFE.copyMemory(srcArr, Unsafe.ARRAY_INT_BASE_OFFSET, dstArrLocal, dstOffset, 4); int r = UNSAFE.getInt(dstArrLocal, dstOffset); // snapshot srcArr[readIdx] = v3; dstArrIntLocal[0] = v4; dstArrLongLocal[0] = v4; return r; } /* ================================================================ */ // Heap-to-native static int testHeapToNative(int v1, int v2, int v3, int v4, int readIdx) { // assert(readIdx == 0); srcArr[readIdx] = v1; UNSAFE.putInt(null, DST_BASE, v2); UNSAFE.copyMemory(srcArr, Unsafe.ARRAY_INT_BASE_OFFSET, null, DST_BASE, 4); int r = UNSAFE.getInt(RES_BASE); // snapshot srcArr[readIdx] = v3; UNSAFE.putInt(null, DST_BASE, v4); return r; } static int testHeapToNativeMixed(int v1, int v2, int v3, int v4, int readIdx) { // assert(readIdx == 0); srcArr[readIdx] = v1; UNSAFE.putInt(null, DST_BASE, v2); UNSAFE.copyMemory(srcObj, Unsafe.ARRAY_INT_BASE_OFFSET, null, DST_BASE, 4); // mixed int r = UNSAFE.getInt(RES_BASE); // snapshot srcArr[readIdx] = v3; UNSAFE.putInt(null, DST_BASE, v4); return r; } /* ================================================================ */ // Native-to-heap static int testNativeToHeap(int v1, int v2, int v3, int v4, int writeIdx) { // assert(writeIdx == 0); UNSAFE.putInt(null, SRC_BASE, v1); dstArr[writeIdx] = v2; UNSAFE.copyMemory(null, SRC_BASE, dstArr, Unsafe.ARRAY_INT_BASE_OFFSET, 4); int r = resArr[0]; // snapshot UNSAFE.putInt(null, SRC_BASE, v3); dstArr[writeIdx] = v4; return r; } static int testNativeToHeapArrMixed(int v1, int v2, int v3, int v4, int writeIdx) { // assert(writeIdx == 0); UNSAFE.putInt(null, SRC_BASE, v1); dstArr[writeIdx] = v2; UNSAFE.copyMemory(null, SRC_BASE, dstObj, Unsafe.ARRAY_INT_BASE_OFFSET, 4); // mixed dst int r = resArr[0]; // snapshot UNSAFE.putInt(null, SRC_BASE, v3); dstArr[writeIdx] = v4; return r; } /* ================================================================ */ // Native-to-native static int testNativeToNative(int v1, int v2, int v3, int v4) { UNSAFE.putInt(null, SRC_BASE, v1); UNSAFE.putInt(null, DST_BASE, v2); UNSAFE.copyMemory(null, SRC_BASE, null, DST_BASE, 4); int r = UNSAFE.getInt(RES_BASE); // snapshot UNSAFE.putInt(null, SRC_BASE, v3); UNSAFE.putInt(null, DST_BASE, v4); return r; } static int testNativeToNativeMixed(int v1, int v2, int v3, int v4, Object base) { // assert(base == null); UNSAFE.putInt(null, SRC_BASE, v1); UNSAFE.putInt(null, DST_BASE, v2); UNSAFE.copyMemory(base, SRC_BASE, base, DST_BASE, 4); // mixed int r = UNSAFE.getInt(RES_BASE); // snapshot UNSAFE.putInt(null, SRC_BASE, v3); UNSAFE.putInt(null, DST_BASE, v4); return r; } /* ================================================================ */ static int v1 = 1; static int v2 = 2; static int v3 = 3; static int v4 = 4; static int readIdx0 = 0; static int writeIdx0 = 0; static Object nullBase = null; static void runTests(String msg) { boolean print = (msg != null); if (print) { System.out.println(msg); } { reset(); int r1 = testHeapToHeap(v1, v2, v3, v4, readIdx0, writeIdx0); int r2 = resArr[0]; if (print) { System.out.println("testHeapToHeap: " + r1 + " " + r2); } assertEQ(r1, v1); assertEQ(r2, v4); } { reset(); int r1 = testHeapToHeapMixed(v1, v2, v3, v4, readIdx0, writeIdx0); int r2 = resArr[0]; if (print) { System.out.println("testHeapToHeapMixed: " + r1 + " " + r2); } assertEQ(r1, v1); assertEQ(r2, v4); } { reset(); long r1 = testHeapToHeapMismatched(v1, v2, v3, v4, readIdx0, writeIdx0); long r2 = resArrL[0]; if (print) { System.out.println("testHeapToHeapMismatched: " + r1 + " " + r2); } assertEQ(r1, (long)v1); assertEQ(r2, (long)v4); } { reset(); int r1 = testHeapToHeapLocalSrc(v1, v2, v3, v4, writeIdx0); int r2 = resArr[0]; if (print) { System.out.println("testHeapToHeapLocalSrc: " + r1 + " " + r2); } assertEQ(r1, v1); assertEQ(r2, v4); } { reset(); int r = testHeapToHeapLocalDst(v1, v2, v3, v4, readIdx0); if (print) { System.out.println("testHeapToHeapLocalDst: " + r); } assertEQ(r, v1); } { reset(); int r1 = testHeapToHeapLocalSrcMismatched(v1, v2, v3, v4, writeIdx0, flag); int r2 = resArr[0]; if (print) { System.out.println("testHeapToHeapLocalSrcMismatched: " + r1 + " " + r2); } assertEQ(r1, v1); assertEQ(r2, v4); } { reset(); int r = testHeapToHeapLocalDstMismatched(v1, v2, v3, v4, readIdx0, flag); if (print) { System.out.println("testHeapToHeapLocalDstMismatched: " + r); } assertEQ(r, v1); } { reset(); int r1 = testHeapToNative(v1, v2, v3, v4, readIdx0); int r2 = UNSAFE.getInt(null, RES_BASE); if (print) { System.out.println("testHeapToNative: " + r1 + " " + r2); } assertEQ(r1, v1); assertEQ(r2, v4); } { reset(); int r1 = testHeapToNativeMixed(v1, v2, v3, v4, readIdx0); int r2 = UNSAFE.getInt(null, RES_BASE); if (print) { System.out.println("testHeapToNativeMixed: " + r1 + " " + r2); } assertEQ(r1, v1); assertEQ(r2, v4); } // Native-to-* { reset(); int r1 = testNativeToHeap(v1, v2, v3, v4, writeIdx0); int r2 = resArr[0]; if (print) { System.out.println("testNativeToHeap: " + r1 + " " + r2); } assertEQ(r1, v1); assertEQ(r2, v4); } { reset(); int r1 = testNativeToHeapArrMixed(v1, v2, v3, v4, writeIdx0); int r2 = resArr[0]; if (print) { System.out.println("testNativeToHeapMixed: " + r1 + " " + r2); } assertEQ(r1, v1); assertEQ(r2, v4); } { reset(); int r1 = testNativeToNative(v1, v2, v3, v4); int r2 = UNSAFE.getInt(null, RES_BASE); if (print) { System.out.println("testNativeToNative: " + r1 + " " + r2); } assertEQ(r1, v1); assertEQ(r2, v4); } { reset(); int r1 = testNativeToNativeMixed(v1, v2, v3, v4, nullBase); int r2 = UNSAFE.getInt(null, RES_BASE); if (print) { System.out.println("testNativeToNativeMixed: " + r1 + " " + r2); } assertEQ(r1, v1); assertEQ(r2, v4); } } static boolean flag = false; public static void main(String[] args) { runTests("INTERPRETED"); for (int i = 0; i < 20_000; i++) { flag = (i % 2 == 0); runTests(null); } runTests("COMPILED"); } }