/* * Copyright (C) 2014 The Android Open Source Project * Copyright (c) 2000, 2021, 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 java.nio; import jdk.internal.misc.Unsafe; import jdk.internal.vm.annotation.IntrinsicCandidate; import java.io.FileDescriptor; import java.util.Spliterator; import jdk.internal.misc.Unsafe; /** * A container for data of a specific primitive type. * *

A buffer is a linear, finite sequence of elements of a specific * primitive type. Aside from its content, the essential properties of a * buffer are its capacity, limit, and position:

* *

* *
A buffer's capacity is the number of elements it contains. The * capacity of a buffer is never negative and never changes.
* *
A buffer's limit is the index of the first element that should * not be read or written. A buffer's limit is never negative and is never * greater than its capacity.
* *
A buffer's position is the index of the next element to be * read or written. A buffer's position is never negative and is never * greater than its limit.
* *

* *

There is one subclass of this class for each non-boolean primitive type. * * *

Transferring data

* *

Each subclass of this class defines two categories of get and * put operations:

* *

* *
Relative operations read or write one or more elements starting * at the current position and then increment the position by the number of * elements transferred. If the requested transfer exceeds the limit then a * relative get operation throws a {@link BufferUnderflowException} * and a relative put operation throws a {@link * BufferOverflowException}; in either case, no data is transferred.
* *
Absolute operations take an explicit element index and do not * affect the position. Absolute get and put operations throw * an {@link IndexOutOfBoundsException} if the index argument exceeds the * limit.
* *

* *

Data may also, of course, be transferred in to or out of a buffer by the * I/O operations of an appropriate channel, which are always relative to the * current position. * * *

Marking and resetting

* *

A buffer's mark is the index to which its position will be reset * when the {@link #reset reset} method is invoked. The mark is not always * defined, but when it is defined it is never negative and is never greater * than the position. If the mark is defined then it is discarded when the * position or the limit is adjusted to a value smaller than the mark. If the * mark is not defined then invoking the {@link #reset reset} method causes an * {@link InvalidMarkException} to be thrown. * * *

Invariants

* *

The following invariant holds for the mark, position, limit, and * capacity values: * *

* {@code 0} {@code <=} * mark {@code <=} * position {@code <=} * limit {@code <=} * capacity *

* *

A newly-created buffer always has a position of zero and a mark that is * undefined. The initial limit may be zero, or it may be some other value * that depends upon the type of the buffer and the manner in which it is * constructed. Each element of a newly-allocated buffer is initialized * to zero. * * *

Additional operations

* *

In addition to methods for accessing the position, limit, and capacity * values and for marking and resetting, this class also defines the following * operations upon buffers: * *

{@link #clear} makes a buffer ready for a new sequence of * channel-read or relative put operations: It sets the limit to the * capacity and the position to zero.
{@link #flip} makes a buffer ready for a new sequence of * channel-write or relative get operations: It sets the limit to the * current position and then sets the position to zero.
{@link #rewind} makes a buffer ready for re-reading the data that * it already contains: It leaves the limit unchanged and sets the position * to zero.
The {@link #slice} and {@link #slice(int,int) slice(index,length)} * methods create a subsequence of a buffer: They leave the limit and the * position unchanged.
{@link #duplicate} creates a shallow copy of a buffer: It leaves * the limit and the position unchanged.

* * *

Read-only buffers

* *

Every buffer is readable, but not every buffer is writable. The * mutation methods of each buffer class are specified as optional * operations that will throw a {@link ReadOnlyBufferException} when * invoked upon a read-only buffer. A read-only buffer does not allow its * content to be changed, but its mark, position, and limit values are mutable. * Whether or not a buffer is read-only may be determined by invoking its * {@link #isReadOnly isReadOnly} method. * * *

Thread safety

* *

Buffers are not safe for use by multiple concurrent threads. If a * buffer is to be used by more than one thread then access to the buffer * should be controlled by appropriate synchronization. * * *

Invocation chaining

* *

Methods in this class that do not otherwise have a value to return are * specified to return the buffer upon which they are invoked. This allows * method invocations to be chained; for example, the sequence of statements * *

 * b.flip();
 * b.position(23);
 * b.limit(42);

* * can be replaced by the single, more compact statement * *

 * b.flip().position(23).limit(42);

* * * @author Mark Reinhold * @author JSR-51 Expert Group * @since 1.4 */ public abstract class Buffer { // Cached unsafe-access object static final Unsafe UNSAFE = Unsafe.getUnsafe(); // Android-removed: Remove unsupported scoped memory access. // static final ScopedMemoryAccess SCOPED_MEMORY_ACCESS = ScopedMemoryAccess.getScopedMemoryAccess(); /** * The characteristics of Spliterators that traverse and split elements * maintained in Buffers. */ static final int SPLITERATOR_CHARACTERISTICS = Spliterator.SIZED | Spliterator.SUBSIZED | Spliterator.ORDERED; // Invariants: mark <= position <= limit <= capacity private int mark = -1; // Android-changed: position field non-private for use by Android's nio implementation classes. int position = 0; private int limit; private int capacity; // Used by heap byte buffers or direct buffers with Unsafe access // For heap byte buffers this field will be the address relative to the // array base address and offset into that array. The address might // not align on a word boundary for slices, nor align at a long word // (8 byte) boundary for byte[] allocations on 32-bit systems. // For direct buffers it is the start address of the memory region. The // address might not align on a word boundary for slices, nor when created // using JNI, see NewDirectByteBuffer(void*, long). // Should ideally be declared final // NOTE: hoisted here for speed in JNI GetDirectBufferAddress long address; // Android-added: _elementSizeShift field for NIOAccess class and framework native code. /** * The log base 2 of the element size of this buffer. Each typed subclass * (ByteBuffer, CharBuffer, etc.) is responsible for initializing this * value. The value is used by JNI code in frameworks/base/ to avoid the * need for costly 'instanceof' tests. */ final int _elementSizeShift; // Used by buffers generated by the memory access API (JEP-370) // Android-removed: Remove unsupported MemorySegmentProxy. // final MemorySegmentProxy segment; // Creates a new buffer with given address and capacity. // // Android-removed: Remove unsupported constructor. /* Buffer(long addr, int cap, MemorySegmentProxy segement) { this.address = addr; this.capacity = cap; this.segement = segement; } */ // Creates a new buffer with the given mark, position, limit, and capacity, // after checking invariants. // // Android-added: _elementSizeShift field for NIOAccess class and framework native code. Buffer(int mark, int pos, int lim, int cap, int elementSizeShift) { // package-private if (cap < 0) throw createCapacityException(cap); this.capacity = cap; limit(lim); position(pos); if (mark >= 0) { if (mark > pos) throw new IllegalArgumentException("mark > position: (" + mark + " > " + pos + ")"); this.mark = mark; } // Android-added: _elementSizeShift field for NIOAccess class and framework native code. _elementSizeShift = elementSizeShift; } /** * Returns an {@code IllegalArgumentException} indicating that the source * and target are the same {@code Buffer}. Intended for use in * {@code put(src)} when the parameter is the {@code Buffer} on which the * method is being invoked. * * @return IllegalArgumentException * With a message indicating equal source and target buffers */ static IllegalArgumentException createSameBufferException() { return new IllegalArgumentException("The source buffer is this buffer"); } /** * Verify that the capacity is nonnegative. * * @param capacity * The new buffer's capacity, in $type$s * * @throws IllegalArgumentException * If the {@code capacity} is a negative integer */ static IllegalArgumentException createCapacityException(int capacity) { assert capacity < 0 : "capacity expected to be negative"; return new IllegalArgumentException("capacity < 0: (" + capacity + " < 0)"); } /** * Returns this buffer's capacity. * * @return The capacity of this buffer */ public final int capacity() { return capacity; } /** * Returns this buffer's position. * * @return The position of this buffer */ public final int position() { return position; } /** * Sets this buffer's position. If the mark is defined and larger than the * new position then it is discarded. * * @param newPosition * The new position value; must be non-negative * and no larger than the current limit * * @return This buffer * * @throws IllegalArgumentException * If the preconditions on {@code newPosition} do not hold */ public Buffer position(int newPosition) { if (newPosition > limit | newPosition < 0) throw createPositionException(newPosition); if (mark > newPosition) mark = -1; position = newPosition; return this; } /** * Verify that {@code 0 < newPosition <= limit} * * @param newPosition * The new position value * * @throws IllegalArgumentException * If the specified position is out of bounds. */ private IllegalArgumentException createPositionException(int newPosition) { String msg = null; if (newPosition > limit) { msg = "newPosition > limit: (" + newPosition + " > " + limit + ")"; } else { // assume negative assert newPosition < 0 : "newPosition expected to be negative"; msg = "newPosition < 0: (" + newPosition + " < 0)"; } return new IllegalArgumentException(msg); } /** * Returns this buffer's limit. * * @return The limit of this buffer */ public final int limit() { return limit; } /** * Sets this buffer's limit. If the position is larger than the new limit * then it is set to the new limit. If the mark is defined and larger than * the new limit then it is discarded. * * @param newLimit * The new limit value; must be non-negative * and no larger than this buffer's capacity * * @return This buffer * * @throws IllegalArgumentException * If the preconditions on {@code newLimit} do not hold */ public Buffer limit(int newLimit) { if (newLimit > capacity | newLimit < 0) throw createLimitException(newLimit); limit = newLimit; if (position > newLimit) position = newLimit; if (mark > newLimit) mark = -1; return this; } /** * Verify that {@code 0 < newLimit <= capacity} * * @param newLimit * The new limit value * * @throws IllegalArgumentException * If the specified limit is out of bounds. */ private IllegalArgumentException createLimitException(int newLimit) { String msg = null; if (newLimit > capacity) { msg = "newLimit > capacity: (" + newLimit + " > " + capacity + ")"; } else { // assume negative assert newLimit < 0 : "newLimit expected to be negative"; msg = "newLimit < 0: (" + newLimit + " < 0)"; } return new IllegalArgumentException(msg); } /** * Sets this buffer's mark at its position. * * @return This buffer */ public Buffer mark() { mark = position; return this; } /** * Resets this buffer's position to the previously-marked position. * *

Invoking this method neither changes nor discards the mark's * value.

* * @return This buffer * * @throws InvalidMarkException * If the mark has not been set */ public Buffer reset() { int m = mark; if (m < 0) throw new InvalidMarkException(); position = m; return this; } /** * Clears this buffer. The position is set to zero, the limit is set to * the capacity, and the mark is discarded. * *

Invoke this method before using a sequence of channel-read or * put operations to fill this buffer. For example: * *

     * buf.clear();     // Prepare buffer for reading
     * in.read(buf);    // Read data

* *

This method does not actually erase the data in the buffer, but it * is named as if it did because it will most often be used in situations * in which that might as well be the case.

* * @return This buffer */ public Buffer clear() { position = 0; limit = capacity; mark = -1; return this; } /** * Flips this buffer. The limit is set to the current position and then * the position is set to zero. If the mark is defined then it is * discarded. * *

After a sequence of channel-read or put operations, invoke * this method to prepare for a sequence of channel-write or relative * get operations. For example: * *

     * buf.put(magic);    // Prepend header
     * in.read(buf);      // Read data into rest of buffer
     * buf.flip();        // Flip buffer
     * out.write(buf);    // Write header + data to channel

* *

This method is often used in conjunction with the {@link * java.nio.ByteBuffer#compact compact} method when transferring data from * one place to another.

* * @return This buffer */ public Buffer flip() { limit = position; position = 0; mark = -1; return this; } /** * Rewinds this buffer. The position is set to zero and the mark is * discarded. * *

Invoke this method before a sequence of channel-write or get * operations, assuming that the limit has already been set * appropriately. For example: * *

     * out.write(buf);    // Write remaining data
     * buf.rewind();      // Rewind buffer
     * buf.get(array);    // Copy data into array

* * @return This buffer */ public Buffer rewind() { position = 0; mark = -1; return this; } /** * Returns the number of elements between the current position and the * limit. * * @return The number of elements remaining in this buffer */ public final int remaining() { int rem = limit - position; return rem > 0 ? rem : 0; } /** * Tells whether there are any elements between the current position and * the limit. * * @return {@code true} if, and only if, there is at least one element * remaining in this buffer */ public final boolean hasRemaining() { return position < limit; } /** * Tells whether or not this buffer is read-only. * * @return {@code true} if, and only if, this buffer is read-only */ public abstract boolean isReadOnly(); /** * Tells whether or not this buffer is backed by an accessible * array. * *

If this method returns {@code true} then the {@link #array() array} * and {@link #arrayOffset() arrayOffset} methods may safely be invoked. *

* * @return {@code true} if, and only if, this buffer * is backed by an array and is not read-only * * @since 1.6 */ public abstract boolean hasArray(); /** * Returns the array that backs this * buffer (optional operation). * *

This method is intended to allow array-backed buffers to be * passed to native code more efficiently. Concrete subclasses * provide more strongly-typed return values for this method. * *

Modifications to this buffer's content will cause the returned * array's content to be modified, and vice versa. * *

Invoke the {@link #hasArray hasArray} method before invoking this * method in order to ensure that this buffer has an accessible backing * array.

* * @return The array that backs this buffer * * @throws ReadOnlyBufferException * If this buffer is backed by an array but is read-only * * @throws UnsupportedOperationException * If this buffer is not backed by an accessible array * * @since 1.6 */ public abstract Object array(); /** * Returns the offset within this buffer's backing array of the first * element of the buffer (optional operation). * *

If this buffer is backed by an array then buffer position p * corresponds to array index p + {@code arrayOffset()}. * *

Invoke the {@link #hasArray hasArray} method before invoking this * method in order to ensure that this buffer has an accessible backing * array.

* * @return The offset within this buffer's array * of the first element of the buffer * * @throws ReadOnlyBufferException * If this buffer is backed by an array but is read-only * * @throws UnsupportedOperationException * If this buffer is not backed by an accessible array * * @since 1.6 */ public abstract int arrayOffset(); /** * Tells whether or not this buffer is * direct. * * @return {@code true} if, and only if, this buffer is direct * * @since 1.6 */ public abstract boolean isDirect(); /** * Creates a new buffer whose content is a shared subsequence of * this buffer's content. * *

The content of the new buffer will start at this buffer's current * position. Changes to this buffer's content will be visible in the new * buffer, and vice versa; the two buffers' position, limit, and mark * values will be independent. * *

The new buffer's position will be zero, its capacity and its limit * will be the number of elements remaining in this buffer, its mark will be * undefined. The new buffer will be direct if, and only if, this buffer is * direct, and it will be read-only if, and only if, this buffer is * read-only.

* * @return The new buffer * * @since 9 */ public abstract Buffer slice(); /** * Creates a new buffer whose content is a shared subsequence of * this buffer's content. * *

The content of the new buffer will start at position {@code index} * in this buffer, and will contain {@code length} elements. Changes to * this buffer's content will be visible in the new buffer, and vice versa; * the two buffers' position, limit, and mark values will be independent. * *

The new buffer's position will be zero, its capacity and its limit * will be {@code length}, its mark will be undefined. The new buffer will * be direct if, and only if, this buffer is direct, and it will be * read-only if, and only if, this buffer is read-only.

* * @param index * The position in this buffer at which the content of the new * buffer will start; must be non-negative and no larger than * {@link #limit() limit()} * * @param length * The number of elements the new buffer will contain; must be * non-negative and no larger than {@code limit() - index} * * @return The new buffer * * @throws IndexOutOfBoundsException * If {@code index} is negative or greater than {@code limit()}, * {@code length} is negative, or {@code length > limit() - index} * * @since 13 */ public abstract Buffer slice(int index, int length); /** * Creates a new buffer that shares this buffer's content. * *

The content of the new buffer will be that of this buffer. Changes * to this buffer's content will be visible in the new buffer, and vice * versa; the two buffers' position, limit, and mark values will be * independent. * *

The new buffer's capacity, limit, position and mark values will be * identical to those of this buffer. The new buffer will be direct if, and * only if, this buffer is direct, and it will be read-only if, and only if, * this buffer is read-only.

* * @return The new buffer * * @since 9 */ public abstract Buffer duplicate(); // -- Package-private methods for bounds checking, etc. -- /** * * @return the base reference, paired with the address * field, which in combination can be used for unsafe access into a heap * buffer or direct byte buffer (and views of). */ abstract Object base(); /** * Checks the current position against the limit, throwing a {@link * BufferUnderflowException} if it is not smaller than the limit, and then * increments the position. * * @return The current position value, before it is incremented */ final int nextGetIndex() { // package-private int p = position; if (p >= limit) throw new BufferUnderflowException(); position = p + 1; return p; } final int nextGetIndex(int nb) { // package-private int p = position; if (limit - p < nb) throw new BufferUnderflowException(); position = p + nb; return p; } /** * Checks the current position against the limit, throwing a {@link * BufferOverflowException} if it is not smaller than the limit, and then * increments the position. * * @return The current position value, before it is incremented */ final int nextPutIndex() { // package-private int p = position; if (p >= limit) throw new BufferOverflowException(); position = p + 1; return p; } final int nextPutIndex(int nb) { // package-private int p = position; if (limit - p < nb) throw new BufferOverflowException(); position = p + nb; return p; } /** * Checks the given index against the limit, throwing an {@link * IndexOutOfBoundsException} if it is not smaller than the limit * or is smaller than zero. */ @IntrinsicCandidate final int checkIndex(int i) { // package-private if ((i < 0) || (i >= limit)) // Android-changed: Add bounds details to exception. throw new IndexOutOfBoundsException( "index=" + i + " out of bounds (limit=" + limit + ")"); return i; } final int checkIndex(int i, int nb) { // package-private if ((i < 0) || (nb > limit - i)) // Android-changed: Add bounds details to exception. throw new IndexOutOfBoundsException( "index=" + i + " out of bounds (limit=" + limit + ", nb=" + nb + ")"); return i; } final int markValue() { // package-private return mark; } final void discardMark() { // package-private mark = -1; } static void checkBounds(int off, int len, int size) { // package-private if ((off | len | (off + len) | (size - (off + len))) < 0) // Android-changed: Add bounds details to exception. throw new IndexOutOfBoundsException( "off=" + off + ", len=" + len + " out of bounds (size=" + size + ")"); } final void checkScope() { // Android-removed: ScopedMemoryAccess isn't used, as Android doesn't support it yet. /* ScopedMemoryAccess.Scope scope = scope(); if (scope != null) { scope.checkValidState(); } */ } // Android-removed: Remove unsupported scoped memory access. /* @ForceInline final ScopedMemoryAccess.Scope scope() { if (segment != null) { return segment.scope(); } else { return null; } } */ // Android-added: getElementSizeShift() method for testing. /** * For testing only. This field is accessed directly via JNI from frameworks code. * * @hide */ public int getElementSizeShift() { return _elementSizeShift; } // Android-removed: Remove unused SharedSecrets. /* static { // setup access to this package in SharedSecrets SharedSecrets.setJavaNioAccess( new JavaNioAccess() { @Override public BufferPool getDirectBufferPool() { return Bits.BUFFER_POOL; } @Override public ByteBuffer newDirectByteBuffer(long addr, int cap, Object obj, MemorySegmentProxy segment) { return new DirectByteBuffer(addr, cap, obj, segment); } @Override public ByteBuffer newMappedByteBuffer(UnmapperProxy unmapperProxy, long address, int cap, Object obj, MemorySegmentProxy segment) { return new DirectByteBuffer(address, cap, obj, unmapperProxy.fileDescriptor(), unmapperProxy.isSync(), segment); } @Override public ByteBuffer newHeapByteBuffer(byte[] hb, int offset, int capacity, MemorySegmentProxy segment) { return new HeapByteBuffer(hb, -1, 0, capacity, capacity, offset, segment); } @Override public Object getBufferBase(ByteBuffer bb) { return bb.base(); } @Override public long getBufferAddress(ByteBuffer bb) { return bb.address; } @Override public UnmapperProxy unmapper(ByteBuffer bb) { if (bb instanceof MappedByteBuffer) { return ((MappedByteBuffer)bb).unmapper(); } else { return null; } } @Override public MemorySegmentProxy bufferSegment(Buffer buffer) { return buffer.segment; } @Override public Scope.Handle acquireScope(Buffer buffer, boolean async) { var scope = buffer.scope(); if (scope == null) { return null; } if (async && scope.ownerThread() != null) { throw new IllegalStateException("Confined scope not supported"); } return scope.acquire(); } @Override public void force(FileDescriptor fd, long address, boolean isSync, long offset, long size) { MappedMemoryUtils.force(fd, address, isSync, offset, size); } @Override public void load(long address, boolean isSync, long size) { MappedMemoryUtils.load(address, isSync, size); } @Override public void unload(long address, boolean isSync, long size) { MappedMemoryUtils.unload(address, isSync, size); } @Override public boolean isLoaded(long address, boolean isSync, long size) { return MappedMemoryUtils.isLoaded(address, isSync, size); } @Override public void reserveMemory(long size, long cap) { Bits.reserveMemory(size, cap); } @Override public void unreserveMemory(long size, long cap) { Bits.unreserveMemory(size, cap); } @Override public int pageSize() { return Bits.pageSize(); } }); } */ }