/* * Copyright (c) 2000, 2002, 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. Oracle designates this * particular file as subject to the "Classpath" exception as provided * by Oracle in the LICENSE file that accompanied this code. * * 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 sun.nio.ch; // Formerly in sun.misc import java.nio.ByteOrder; import jdk.internal.misc.Unsafe; // ## In the fullness of time, this class will be eliminated /** * Proxies for objects that reside in native memory. */ class NativeObject { // package-private protected static final Unsafe unsafe = Unsafe.getUnsafe(); // Native allocation address; // may be smaller than the base address due to page-size rounding // protected long allocationAddress; // Native base address // private final long address; /** * Creates a new native object that is based at the given native address. */ NativeObject(long address) { this.allocationAddress = address; this.address = address; } /** * Creates a new native object allocated at the given native address but * whose base is at the additional offset. */ NativeObject(long address, long offset) { this.allocationAddress = address; this.address = address + offset; } // Invoked only by AllocatedNativeObject // protected NativeObject(int size, boolean pageAligned) { if (!pageAligned) { this.allocationAddress = unsafe.allocateMemory(size); this.address = this.allocationAddress; } else { int ps = pageSize(); long a = unsafe.allocateMemory(size + ps); this.allocationAddress = a; this.address = a + ps - (a & (ps - 1)); } } /** * Returns the native base address of this native object. * * @return The native base address */ long address() { return address; } long allocationAddress() { return allocationAddress; } /** * Creates a new native object starting at the given offset from the base * of this native object. * * @param offset * The offset from the base of this native object that is to be * the base of the new native object * * @return The newly created native object */ NativeObject subObject(int offset) { return new NativeObject(offset + address); } /** * Reads an address from this native object at the given offset and * constructs a native object using that address. * * @param offset * The offset of the address to be read. Note that the size of an * address is implementation-dependent. * * @return The native object created using the address read from the * given offset */ NativeObject getObject(int offset) { long newAddress = 0L; switch (addressSize()) { case 8: newAddress = unsafe.getLong(offset + address); break; case 4: newAddress = unsafe.getInt(offset + address) & 0x00000000FFFFFFFF; break; default: throw new InternalError("Address size not supported"); } return new NativeObject(newAddress); } /** * Writes the base address of the given native object at the given offset * of this native object. * * @param offset * The offset at which the address is to be written. Note that the * size of an address is implementation-dependent. * * @param ob * The native object whose address is to be written */ void putObject(int offset, NativeObject ob) { switch (addressSize()) { case 8: putLong(offset, ob.address); break; case 4: putInt(offset, (int)(ob.address & 0x00000000FFFFFFFF)); break; default: throw new InternalError("Address size not supported"); } } /* -- Value accessors: No range checking! -- */ /** * Reads a byte starting at the given offset from base of this native * object. * * @param offset * The offset at which to read the byte * * @return The byte value read */ final byte getByte(int offset) { return unsafe.getByte(offset + address); } /** * Writes a byte at the specified offset from this native object's * base address. * * @param offset * The offset at which to write the byte * * @param value * The byte value to be written */ final void putByte(int offset, byte value) { unsafe.putByte(offset + address, value); } /** * Reads a short starting at the given offset from base of this native * object. * * @param offset * The offset at which to read the short * * @return The short value read */ final short getShort(int offset) { return unsafe.getShort(offset + address); } /** * Writes a short at the specified offset from this native object's * base address. * * @param offset * The offset at which to write the short * * @param value * The short value to be written */ final void putShort(int offset, short value) { unsafe.putShort(offset + address, value); } /** * Reads a char starting at the given offset from base of this native * object. * * @param offset * The offset at which to read the char * * @return The char value read */ final char getChar(int offset) { return unsafe.getChar(offset + address); } /** * Writes a char at the specified offset from this native object's * base address. * * @param offset * The offset at which to write the char * * @param value * The char value to be written */ final void putChar(int offset, char value) { unsafe.putChar(offset + address, value); } /** * Reads an int starting at the given offset from base of this native * object. * * @param offset * The offset at which to read the int * * @return The int value read */ final int getInt(int offset) { return unsafe.getInt(offset + address); } /** * Writes an int at the specified offset from this native object's * base address. * * @param offset * The offset at which to write the int * * @param value * The int value to be written */ final void putInt(int offset, int value) { unsafe.putInt(offset + address, value); } /** * Reads a long starting at the given offset from base of this native * object. * * @param offset * The offset at which to read the long * * @return The long value read */ final long getLong(int offset) { return unsafe.getLong(offset + address); } /** * Writes a long at the specified offset from this native object's * base address. * * @param offset * The offset at which to write the long * * @param value * The long value to be written */ final void putLong(int offset, long value) { unsafe.putLong(offset + address, value); } /** * Reads a float starting at the given offset from base of this native * object. * * @param offset * The offset at which to read the float * * @return The float value read */ final float getFloat(int offset) { return unsafe.getFloat(offset + address); } /** * Writes a float at the specified offset from this native object's * base address. * * @param offset * The offset at which to write the float * * @param value * The float value to be written */ final void putFloat(int offset, float value) { unsafe.putFloat(offset + address, value); } /** * Reads a double starting at the given offset from base of this native * object. * * @param offset * The offset at which to read the double * * @return The double value read */ final double getDouble(int offset) { return unsafe.getDouble(offset + address); } /** * Writes a double at the specified offset from this native object's * base address. * * @param offset * The offset at which to write the double * * @param value * The double value to be written */ final void putDouble(int offset, double value) { unsafe.putDouble(offset + address, value); } /** * Returns the native architecture's address size in bytes. * * @return The address size of the native architecture */ static int addressSize() { return unsafe.addressSize(); } // Cache for byte order private static ByteOrder byteOrder = null; /** * Returns the byte order of the underlying hardware. * * @return An instance of {@link java.nio.ByteOrder} */ static ByteOrder byteOrder() { if (byteOrder != null) return byteOrder; long a = unsafe.allocateMemory(8); try { unsafe.putLong(a, 0x0102030405060708L); byte b = unsafe.getByte(a); switch (b) { case 0x01: byteOrder = ByteOrder.BIG_ENDIAN; break; case 0x08: byteOrder = ByteOrder.LITTLE_ENDIAN; break; default: assert false; } } finally { unsafe.freeMemory(a); } return byteOrder; } // Cache for page size private static int pageSize = -1; /** * Returns the page size of the underlying hardware. * * @return The page size, in bytes */ static int pageSize() { if (pageSize == -1) pageSize = unsafe.pageSize(); return pageSize; } }