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package com.amazon.ion.impl;

import java.io.EOFException;
import java.io.IOException;
import java.io.InputStream;
import java.io.OutputStream;
import java.nio.BufferOverflowException;
import java.nio.ByteBuffer;

/**
 * Manages a resizing buffer for production and consumption of data within a single thread.
 * Buffered bytes may be consumed through the InputStream interface. This provides a few benefits over using
 * a PipedOutputStream/PipedInputStream pair in a single thread:
 * 
    *
  1. There is no risk of deadlock. Piped streams, which are intended for producing data in one * thread and consuming it in another, will block on read when no data is available and block on write * when the buffer is full. In a single-threaded context, avoiding deadlock on read requires checking * that bytes are available before every read. Avoiding deadlock on write would require checking that * the buffer is not full before every write, but there is no built-in, publicly-accessible way of doing * this with a PipedInputStream/PipedOutputStream.
  2. *
  3. The buffer can grow. Piped streams use a fixed-size buffer that causes blocking when full. If * used in a single-thread, this serves as a hard limit on the amount of data that can be written without * a matching read. This can require arbitrary limits on data size to be imposed by the application. The * ResizingPipedInputStream imposes no such limitation, but optionally allows for a maximum buffer * size to be configured to protect against unbounded growth.
  4. *
*/ public class ResizingPipedInputStream extends InputStream { /** * Handler of notifications provided by the ResizingPipedInputStream. */ interface NotificationConsumer { /** * Bytes have been shifted to the start of the buffer in order to make room for additional bytes * to be buffered. * @param leftShiftAmount the amount of the left shift (also: the pre-shift read index of the first shifted * byte). */ void bytesConsolidatedToStartOfBuffer(int leftShiftAmount); } /** * A NotificationConsumer that does nothing. */ private static final NotificationConsumer NO_OP_NOTIFICATION_CONSUMER = new NotificationConsumer() { @Override public void bytesConsolidatedToStartOfBuffer(int leftShiftAmount) { // Do nothing. } }; /** * Mask to isolate a single byte. */ private static final int SINGLE_BYTE_MASK = 0xFF; /** * The initial size of the buffer and the number of bytes by which the size of the buffer will increase * each time it grows, unless it must grow by a smaller amount to fit within 'maximumBufferSize'. */ private final int initialBufferSize; /** * The maximum size of the buffer. If the user attempts to buffer more bytes than this, an exception will be raised. */ private final int maximumBufferSize; /** * Whether to use a boundary to limit the number of available bytes. This can be used to buffer * arbitrarily-sized chunks of bytes without making them available for consumption. When true, * the boundary must be manually extended (see {@link #extendBoundary(int)} to make these bytes * available. When false, all buffered bytes will be available to read. */ private final boolean useBoundary; /** * The NotificationConsumer currently registered. */ private NotificationConsumer notificationConsumer = NO_OP_NOTIFICATION_CONSUMER; /** * The raw buffer. */ private byte[] buffer; /** * View to the raw buffer. */ private ByteBuffer byteBuffer; /** * @see #capacity() */ private int capacity; /** * The index of the next byte in the buffer that is available to be read. Always less than or equal to `writeIndex`. */ private int readIndex = 0; /** * The index at which the next byte received will be written. Always greater than or equal to `readIndex`. */ private int writeIndex = 0; /** * @see #available() */ private int available = 0; /** * @see #size() */ private int size = 0; /** * @see #getBoundary() */ private int boundary = 0; /** * Constructor. * @param initialBufferSize the initial size of the buffer. When full, the buffer will grow by this * many bytes. The buffer always stores bytes contiguously, so growth requires * allocation of a new buffer capable of holding the new capacity and copying of the * existing bytes into the new buffer. As such, a size should be chosen carefully * such that growth is expected to occur rarely, if ever. */ public ResizingPipedInputStream(final int initialBufferSize) { this(initialBufferSize, _Private_IonConstants.ARRAY_MAXIMUM_SIZE, false); } /** * Constructor. * @param initialBufferSize the initial size of the buffer. When full, the buffer will grow by this * many bytes. The buffer always stores bytes contiguously, so growth requires * allocation of a new buffer capable of holding the new capacity and copying of the * existing bytes into the new buffer. As such, a size should be chosen carefully * such that growth is expected to occur rarely, if ever. * @param maximumBufferSize the maximum size of the buffer. If a call to `receive` attempts to transfer an amount * of bytes that would cause the buffer to exceed this size, a * {@link BufferOverflowException} will be thrown. Must be greater than or equal to the * initial buffer size. * @param useBoundary whether to use a boundary to limit the number of available bytes. This can be used to buffer * arbitrarily-sized chunks of bytes without making them available for consumption. When true, * the boundary must be manually extended (see {@link #extendBoundary(int)} to make these bytes * available. When false, all buffered bytes will be available to read. */ ResizingPipedInputStream(final int initialBufferSize, final int maximumBufferSize, final boolean useBoundary) { if (initialBufferSize < 1) { throw new IllegalArgumentException("Initial buffer size must be at least 1."); } if (maximumBufferSize > _Private_IonConstants.ARRAY_MAXIMUM_SIZE) { throw new IllegalArgumentException("Initial buffer size must be at most " + _Private_IonConstants.ARRAY_MAXIMUM_SIZE + "."); } if (maximumBufferSize < initialBufferSize) { throw new IllegalArgumentException("Maximum buffer size cannot be less than the initial buffer size."); } this.initialBufferSize = initialBufferSize; this.maximumBufferSize = maximumBufferSize; this.capacity = initialBufferSize; buffer = new byte[initialBufferSize]; byteBuffer = ByteBuffer.wrap(buffer, 0, capacity); this.useBoundary = useBoundary; } /** * Moves all buffered (but not yet read) bytes from 'buffer' to the destination buffer. In total, {@link #size()} * bytes will be moved. * @param destinationBuffer the destination buffer, which may be 'buffer' itself or a new buffer. */ private void moveBytesToStartOfBuffer(byte[] destinationBuffer) { if (size > 0) { System.arraycopy(buffer, readIndex, destinationBuffer, 0, size); } if (readIndex > 0) { notificationConsumer.bytesConsolidatedToStartOfBuffer(readIndex); } readIndex = 0; boundary = available; writeIndex = size; } /** * @return the number of bytes that can be written at the end of the buffer. */ private int freeSpaceAtEndOfBuffer() { return capacity - writeIndex; } /** * Ensures that there is at least 'minimumNumberOfBytesRequired' bytes of free space in the buffer, growing the * buffer if necessary. May consolidate buffered bytes, performing an in-order copy and resetting indices * such that the `readIndex` points to the same byte and the `writeIndex` is positioned after the last * byte that is available to read. * @param minimumNumberOfBytesRequired the minimum amount of free space that needs to be available for writing. */ private void ensureSpaceInBuffer(int minimumNumberOfBytesRequired) { if (size < 1 || freeSpaceAtEndOfBuffer() < minimumNumberOfBytesRequired) { int shortfall = minimumNumberOfBytesRequired - freeSpaceAtEndOfBuffer() - readIndex; if (shortfall <= 0) { // Free up space by moving any unread bytes to the start of the buffer and resetting the indices. moveBytesToStartOfBuffer(buffer); } else { // There is not enough space in the buffer even though all available bytes have already been // moved to the start of the buffer. Growth is required. int amountToGrow = Math.max(initialBufferSize, shortfall); if (capacity + amountToGrow > maximumBufferSize) { amountToGrow = shortfall; if (capacity + amountToGrow > maximumBufferSize) { throw new BufferOverflowException(); } } byte[] newBuffer = new byte[buffer.length + amountToGrow]; moveBytesToStartOfBuffer(newBuffer); capacity += amountToGrow; buffer = newBuffer; byteBuffer = ByteBuffer.wrap(buffer, readIndex, capacity); } } } /** * Buffers a single additional byte, growing the buffer if it is already full. * @param b the byte to buffer. */ public void receive(final int b) { ensureSpaceInBuffer(1); buffer[writeIndex] = (byte) b; writeIndex++; size++; if (!useBoundary) { extendBoundary(1); } } /** * Buffers `len` additional bytes, growing the buffer if it is already full or if it would become full * by writing `len` bytes. * @param b the bytes to buffer. * @param off the offset into `b` that points to the first byte to buffer. * @param len the number of bytes to buffer. */ public void receive(final byte[] b, final int off, final int len) { ensureSpaceInBuffer(len); System.arraycopy(b, off, buffer, writeIndex, len); writeIndex += len; size += len; if (!useBoundary) { extendBoundary(len); } } /** * Buffers `b.length` additional bytes. * @see #receive(byte[], int, int) * @param b the bytes to buffer. */ public void receive(final byte[] b) { receive(b, 0, b.length); } /** * Buffers up to `len` additional bytes, growing the buffer if it is already full or if it would become full * by writing `len` bytes. This method will block if and only if the given `InputStream`'s * {@link InputStream#read(byte[], int, int)} blocks when trying to read `len` bytes. If this is not desired, * the caller should ensure that the given `InputStream` has at least `len` bytes available before calling * this method or provide an InputStream implementation that does not block. * @param input the source of the bytes. * @param len the number of bytes to attempt to write. * @return the number of bytes actually written, which will only be less than `len` if * {@link InputStream#read(byte[], int, int)} returns less than `len`. * @throws IOException if thrown by the given `InputStream` during read, except for {@link EOFException}. If an * EOFException is thrown by the `InputStream`, it will be caught and this method will return the number of bytes * that were received before the exception was thrown. */ public int receive(final InputStream input, final int len) throws IOException { ensureSpaceInBuffer(len); int numberOfBytesRead; try { numberOfBytesRead = input.read(buffer, writeIndex, len); } catch (EOFException e) { // Some InputStream implementations (such as GZIPInputStream) will throw EOFException instead of // returning -1. numberOfBytesRead = -1; } if (numberOfBytesRead > 0) { writeIndex += numberOfBytesRead; size += numberOfBytesRead; } else { numberOfBytesRead = 0; } if (!useBoundary) { extendBoundary(numberOfBytesRead); } return numberOfBytesRead; } /** * {@inheritDoc} *

* NOTE: This method adheres to the documented behavior of {@link InputStream#read(byte[], int, int)} * except that it never blocks. If a read is attempted before the first write, * this method will return -1. */ @Override public int read(final byte[] b, final int off, final int len) { if (b.length == 0 || len == 0) { return 0; } if (available < 1) { return -1; } int bytesToRead = Math.min(available, len); System.arraycopy(buffer, readIndex, b, off, bytesToRead); readIndex += bytesToRead; available -= bytesToRead; size -= bytesToRead; return bytesToRead; } /** * Copies all of the available bytes in the buffer without changing the number of bytes available to subsequent * reads. * @param outputStream stream to which the bytes will be copied. * @throws IOException if thrown by {@link OutputStream#write(byte[], int, int)}. */ public void copyTo(final OutputStream outputStream) throws IOException { outputStream.write(buffer, readIndex, available); } /** * Seeks the read index to the given position. * @param index the index to which to seek. Must not be negative. */ void seekTo(int index) { int amount = index - readIndex; available -= amount; size -= amount; readIndex = index; } /** * @return the current read index. */ int getReadIndex() { return readIndex; } /** * @return the current write index. */ int getWriteIndex() { return writeIndex; } /** * Rewinds the buffer to the given read index and sets 'available' to the given value. Subsequent * behavior is undefined unless the values resulted from calling {@link #getReadIndex()} and * {@link #available()} in immediate sequence, without any calls to 'receive' since. * @param previousReadIndex the read index value to be set. * @param previousAvailable the available value to be set. */ void rewind(final int previousReadIndex, final int previousAvailable) { readIndex = previousReadIndex; available = previousAvailable; boundary = previousReadIndex + previousAvailable; size = writeIndex - readIndex; } /** * Truncates the buffer to the given write index and sets both 'available' and 'size' to the to the given value. * Subsequent behavior is undefined unless the values resulted from calling {@link #getWriteIndex()} and * {@link #available()} in immediate sequence, without any calls to 'read' or 'skip' since. It is the caller's * responsibility to ensure that calling this method will not result in loss of important data beyond the boundary. * @param previousWriteIndex the write index value to be set. * @param previousAvailable the available value to be set. */ void truncate(final int previousWriteIndex, final int previousAvailable) { writeIndex = previousWriteIndex; available = previousAvailable; boundary = writeIndex; size = previousAvailable; } /** * Skips up to `n` buffered bytes. Less than `n` bytes will be skipped if less than `n` bytes are * available in the buffer. * @param n the number of bytes to skip. * @return the number of bytes actually skipped. */ @Override public long skip(final long n) { if (n < 1 || available < 1) { return 0; } int bytesSkipped = (int) Math.min(available, n); readIndex += bytesSkipped; available -= bytesSkipped; size -= bytesSkipped; return bytesSkipped; } /** * {@inheritDoc} *

* NOTE: This method adheres to the documented behavior of {@link InputStream#available()} * except that it always returns the exact number of bytes that are available in the * buffer. * @return the exact number of bytes available in the buffer. */ @Override public int available() { return available; } /** * @return the number of bytes actually buffered, which will be greater than or equal to 'available' if a boundary * has been set, or equal to `available` if no boundary has been set. */ int size() { return size; } /** * @return the number of bytes buffered beyond the boundary. This is equivalent to subtracting {@link #available()} * from {@link #size()}. */ int availableBeyondBoundary() { return size - available; } /** * @return the index of the boundary, which is used to mark the last buffered byte that is available for reading. * The boundary must always fall within [readIndex, writeIndex]. */ int getBoundary() { return boundary; } /** * Extends the boundary by the given number of bytes. It is the caller's responsibility to ensure that the * resulting boundary includes only bytes that have been buffered (i.e. that it does not exceed `writeIndex`). * @param numberOfBytes the number of bytes by which the boundary should be extended. */ void extendBoundary(int numberOfBytes) { boundary += numberOfBytes; available += numberOfBytes; } /** * {@inheritDoc} *

* NOTE: This method adheres to the documented behavior of {@link InputStream#read(byte[], int, int)} * except that it never blocks. If a read is attempted before the first write, * this method will return -1. */ @Override public int read() { if (available < 1) { return -1; } int b = buffer[readIndex]; readIndex++; available--; size--; return b & SINGLE_BYTE_MASK; } /** * Peeks the byte at the given index without modifying any internal indexes. It is the caller's responsibility to * ensure that the given index points to an available byte. * @param index the index of the byte to peek. * @return the byte value. */ int peek(int index) { return buffer[index] & SINGLE_BYTE_MASK; } /** * @return the capacity of the buffer, which is always less than or equal to 'maximumBufferSize'. */ public int capacity() { return capacity; } /** * @return the initial capacity of the buffer. */ int getInitialBufferSize() { return initialBufferSize; } /** * Clears the buffer. */ void clear() { readIndex = 0; writeIndex = 0; available = 0; boundary = 0; size = 0; } /** * Returns a ByteBuffer view of the underlying buffer. * @param position the start position of the ByteBuffer. * @param limit the limit of the ByteBuffer. * @return a ByteBuffer. */ ByteBuffer getByteBuffer(int position, int limit) { // Setting the limit to the capacity first is required because setting the position will fail if the new // position is outside the limit. byteBuffer.limit(capacity); byteBuffer.position(position); byteBuffer.limit(limit); return byteBuffer; } /** * Copies bytes from the underlying buffer. It is the caller's responsibility to ensure the requested bytes * are available. * @param position the start position from which to read. * @param destination the buffer to copy into. * @param destinationOffset the offset of the buffer to copy into. * @param length the number of bytes to copy. */ void copyBytes(int position, byte[] destination, int destinationOffset, int length) { System.arraycopy(buffer, position, destination, destinationOffset, length); } /** * Moves all bytes starting at 'fromPosition' to 'toPosition', overwriting the bytes in-between. It is the caller's * responsibility to ensure that the overwritten bytes are not needed. * @param fromPosition the position to move bytes from. Must be less than or equal to 'writeIndex' and 'boundary'. * @param toPosition the position to move bytes to. Must be greater than or equal to 'readIndex'. */ void consolidate(int fromPosition, int toPosition) { if (fromPosition > writeIndex || fromPosition > boundary || toPosition < readIndex) { throw new IllegalArgumentException("Tried to consolidate using an index that violates the constraints."); } int indexShift = fromPosition - toPosition; System.arraycopy(buffer, fromPosition, buffer, toPosition, writeIndex - fromPosition); size -= indexShift; available -= indexShift; writeIndex -= indexShift; boundary -= indexShift; // readIndex does not need to change, because none of the consolidated bytes have been read yet. } /** * Registers the given NotificationConsumer. * @param consumer the NotificationConsumer to register. */ void registerNotificationConsumer(NotificationConsumer consumer) { notificationConsumer = consumer; } }





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