All Downloads are FREE. Search and download functionalities are using the official Maven repository.

org.h2.mvstore.StreamStore Maven / Gradle / Ivy

There is a newer version: 2.3.232
Show newest version
/*
 * Copyright 2004-2018 H2 Group. Multiple-Licensed under the MPL 2.0,
 * and the EPL 1.0 (http://h2database.com/html/license.html).
 * Initial Developer: H2 Group
 */
package org.h2.mvstore;

import java.io.ByteArrayInputStream;
import java.io.ByteArrayOutputStream;
import java.io.IOException;
import java.io.InputStream;
import java.nio.ByteBuffer;
import java.util.Arrays;
import java.util.Map;
import java.util.concurrent.atomic.AtomicLong;
import java.util.concurrent.atomic.AtomicReference;

/**
 * A facility to store streams in a map. Streams are split into blocks, which
 * are stored in a map. Very small streams are inlined in the stream id.
 * 

* The key of the map is a long (incremented for each stored block). The default * initial value is 0. Before storing blocks into the map, the stream store * checks if there is already a block with the next key, and if necessary * searches the next free entry using a binary search (0 to Long.MAX_VALUE). *

* Before storing *

* The format of the binary id is: An empty id represents 0 bytes of data. * In-place data is encoded as 0, the size (a variable size int), then the data. * A stored block is encoded as 1, the length of the block (a variable size * int), then the key (a variable size long). Multiple ids can be concatenated * to concatenate the data. If the id is large, it is stored itself, which is * encoded as 2, the total length (a variable size long), and the key of the * block that contains the id (a variable size long). */ public class StreamStore { private final Map map; private int minBlockSize = 256; private int maxBlockSize = 256 * 1024; private final AtomicLong nextKey = new AtomicLong(); private final AtomicReference nextBuffer = new AtomicReference<>(); /** * Create a stream store instance. * * @param map the map to store blocks of data */ public StreamStore(Map map) { this.map = map; } public Map getMap() { return map; } public void setNextKey(long nextKey) { this.nextKey.set(nextKey); } public long getNextKey() { return nextKey.get(); } /** * Set the minimum block size. The default is 256 bytes. * * @param minBlockSize the new value */ public void setMinBlockSize(int minBlockSize) { this.minBlockSize = minBlockSize; } public int getMinBlockSize() { return minBlockSize; } /** * Set the maximum block size. The default is 256 KB. * * @param maxBlockSize the new value */ public void setMaxBlockSize(int maxBlockSize) { this.maxBlockSize = maxBlockSize; } public long getMaxBlockSize() { return maxBlockSize; } /** * Store the stream, and return the id. The stream is not closed. * * @param in the stream * @return the id (potentially an empty array) */ @SuppressWarnings("resource") public byte[] put(InputStream in) throws IOException { ByteArrayOutputStream id = new ByteArrayOutputStream(); int level = 0; try { while (!put(id, in, level)) { if (id.size() > maxBlockSize / 2) { id = putIndirectId(id); level++; } } } catch (IOException e) { remove(id.toByteArray()); throw e; } if (id.size() > minBlockSize * 2) { id = putIndirectId(id); } return id.toByteArray(); } private boolean put(ByteArrayOutputStream id, InputStream in, int level) throws IOException { if (level > 0) { ByteArrayOutputStream id2 = new ByteArrayOutputStream(); while (true) { boolean eof = put(id2, in, level - 1); if (id2.size() > maxBlockSize / 2) { id2 = putIndirectId(id2); id2.writeTo(id); return eof; } else if (eof) { id2.writeTo(id); return true; } } } byte[] readBuffer = nextBuffer.getAndSet(null); if (readBuffer == null) { readBuffer = new byte[maxBlockSize]; } byte[] buff = read(in, readBuffer); if (buff != readBuffer) { // re-use the buffer if the result was shorter nextBuffer.set(readBuffer); } int len = buff.length; if (len == 0) { return true; } boolean eof = len < maxBlockSize; if (len < minBlockSize) { // in-place: 0, len (int), data id.write(0); DataUtils.writeVarInt(id, len); id.write(buff); } else { // block: 1, len (int), blockId (long) id.write(1); DataUtils.writeVarInt(id, len); DataUtils.writeVarLong(id, writeBlock(buff)); } return eof; } private static byte[] read(InputStream in, byte[] target) throws IOException { int copied = 0; int remaining = target.length; while (remaining > 0) { try { int len = in.read(target, copied, remaining); if (len < 0) { return Arrays.copyOf(target, copied); } copied += len; remaining -= len; } catch (RuntimeException e) { throw new IOException(e); } } return target; } private ByteArrayOutputStream putIndirectId(ByteArrayOutputStream id) throws IOException { byte[] data = id.toByteArray(); id = new ByteArrayOutputStream(); // indirect: 2, total len (long), blockId (long) id.write(2); DataUtils.writeVarLong(id, length(data)); DataUtils.writeVarLong(id, writeBlock(data)); return id; } private long writeBlock(byte[] data) { long key = getAndIncrementNextKey(); map.put(key, data); onStore(data.length); return key; } /** * This method is called after a block of data is stored. Override this * method to persist data if necessary. * * @param len the length of the stored block. */ @SuppressWarnings("unused") protected void onStore(int len) { // do nothing by default } /** * Generate a new key. * * @return the new key */ private long getAndIncrementNextKey() { long key = nextKey.getAndIncrement(); if (!map.containsKey(key)) { return key; } // search the next free id using binary search synchronized (this) { long low = key, high = Long.MAX_VALUE; while (low < high) { long x = (low + high) >>> 1; if (map.containsKey(x)) { low = x + 1; } else { high = x; } } key = low; nextKey.set(key + 1); return key; } } /** * Get the key of the biggest block, of -1 for inline data. * This method is used to garbage collect orphaned blocks. * * @param id the id * @return the key, or -1 */ public long getMaxBlockKey(byte[] id) { long maxKey = -1; ByteBuffer idBuffer = ByteBuffer.wrap(id); while (idBuffer.hasRemaining()) { switch (idBuffer.get()) { case 0: // in-place: 0, len (int), data int len = DataUtils.readVarInt(idBuffer); idBuffer.position(idBuffer.position() + len); break; case 1: // block: 1, len (int), blockId (long) DataUtils.readVarInt(idBuffer); long k = DataUtils.readVarLong(idBuffer); maxKey = Math.max(maxKey, k); break; case 2: // indirect: 2, total len (long), blockId (long) DataUtils.readVarLong(idBuffer); long k2 = DataUtils.readVarLong(idBuffer); maxKey = k2; byte[] r = map.get(k2); // recurse long m = getMaxBlockKey(r); if (m >= 0) { maxKey = Math.max(maxKey, m); } break; default: throw DataUtils.newIllegalArgumentException( "Unsupported id {0}", Arrays.toString(id)); } } return maxKey; } /** * Remove all stored blocks for the given id. * * @param id the id */ public void remove(byte[] id) { ByteBuffer idBuffer = ByteBuffer.wrap(id); while (idBuffer.hasRemaining()) { switch (idBuffer.get()) { case 0: // in-place: 0, len (int), data int len = DataUtils.readVarInt(idBuffer); idBuffer.position(idBuffer.position() + len); break; case 1: // block: 1, len (int), blockId (long) DataUtils.readVarInt(idBuffer); long k = DataUtils.readVarLong(idBuffer); map.remove(k); break; case 2: // indirect: 2, total len (long), blockId (long) DataUtils.readVarLong(idBuffer); long k2 = DataUtils.readVarLong(idBuffer); // recurse remove(map.get(k2)); map.remove(k2); break; default: throw DataUtils.newIllegalArgumentException( "Unsupported id {0}", Arrays.toString(id)); } } } /** * Convert the id to a human readable string. * * @param id the stream id * @return the string */ public static String toString(byte[] id) { StringBuilder buff = new StringBuilder(); ByteBuffer idBuffer = ByteBuffer.wrap(id); long length = 0; while (idBuffer.hasRemaining()) { long block; int len; switch (idBuffer.get()) { case 0: // in-place: 0, len (int), data len = DataUtils.readVarInt(idBuffer); idBuffer.position(idBuffer.position() + len); buff.append("data len=").append(len); length += len; break; case 1: // block: 1, len (int), blockId (long) len = DataUtils.readVarInt(idBuffer); length += len; block = DataUtils.readVarLong(idBuffer); buff.append("block ").append(block).append(" len=").append(len); break; case 2: // indirect: 2, total len (long), blockId (long) len = DataUtils.readVarInt(idBuffer); length += DataUtils.readVarLong(idBuffer); block = DataUtils.readVarLong(idBuffer); buff.append("indirect block ").append(block).append(" len=").append(len); break; default: buff.append("error"); } buff.append(", "); } buff.append("length=").append(length); return buff.toString(); } /** * Calculate the number of data bytes for the given id. As the length is * encoded in the id, this operation does not cause any reads in the map. * * @param id the id * @return the length */ public long length(byte[] id) { ByteBuffer idBuffer = ByteBuffer.wrap(id); long length = 0; while (idBuffer.hasRemaining()) { switch (idBuffer.get()) { case 0: // in-place: 0, len (int), data int len = DataUtils.readVarInt(idBuffer); idBuffer.position(idBuffer.position() + len); length += len; break; case 1: // block: 1, len (int), blockId (long) length += DataUtils.readVarInt(idBuffer); DataUtils.readVarLong(idBuffer); break; case 2: // indirect: 2, total len (long), blockId (long) length += DataUtils.readVarLong(idBuffer); DataUtils.readVarLong(idBuffer); break; default: throw DataUtils.newIllegalArgumentException( "Unsupported id {0}", Arrays.toString(id)); } } return length; } /** * Check whether the id itself contains all the data. This operation does * not cause any reads in the map. * * @param id the id * @return if the id contains the data */ public boolean isInPlace(byte[] id) { ByteBuffer idBuffer = ByteBuffer.wrap(id); while (idBuffer.hasRemaining()) { if (idBuffer.get() != 0) { return false; } int len = DataUtils.readVarInt(idBuffer); idBuffer.position(idBuffer.position() + len); } return true; } /** * Open an input stream to read data. * * @param id the id * @return the stream */ public InputStream get(byte[] id) { return new Stream(this, id); } /** * Get the block. * * @param key the key * @return the block */ byte[] getBlock(long key) { byte[] data = map.get(key); if (data == null) { throw DataUtils.newIllegalStateException( DataUtils.ERROR_BLOCK_NOT_FOUND, "Block {0} not found", key); } return data; } /** * A stream backed by a map. */ static class Stream extends InputStream { private final StreamStore store; private byte[] oneByteBuffer; private ByteBuffer idBuffer; private ByteArrayInputStream buffer; private long skip; private final long length; private long pos; Stream(StreamStore store, byte[] id) { this.store = store; this.length = store.length(id); this.idBuffer = ByteBuffer.wrap(id); } @Override public int read() throws IOException { byte[] buffer = oneByteBuffer; if (buffer == null) { buffer = oneByteBuffer = new byte[1]; } int len = read(buffer, 0, 1); return len == -1 ? -1 : (buffer[0] & 255); } @Override public long skip(long n) { n = Math.min(length - pos, n); if (n == 0) { return 0; } if (buffer != null) { long s = buffer.skip(n); if (s > 0) { n = s; } else { buffer = null; skip += n; } } else { skip += n; } pos += n; return n; } @Override public void close() { buffer = null; idBuffer.position(idBuffer.limit()); pos = length; } @Override public int read(byte[] b, int off, int len) throws IOException { if (len <= 0) { return 0; } while (true) { if (buffer == null) { try { buffer = nextBuffer(); } catch (IllegalStateException e) { String msg = DataUtils.formatMessage( DataUtils.ERROR_BLOCK_NOT_FOUND, "Block not found in id {0}", Arrays.toString(idBuffer.array())); throw new IOException(msg, e); } if (buffer == null) { return -1; } } int result = buffer.read(b, off, len); if (result > 0) { pos += result; return result; } buffer = null; } } private ByteArrayInputStream nextBuffer() { while (idBuffer.hasRemaining()) { switch (idBuffer.get()) { case 0: { int len = DataUtils.readVarInt(idBuffer); if (skip >= len) { skip -= len; idBuffer.position(idBuffer.position() + len); continue; } int p = (int) (idBuffer.position() + skip); int l = (int) (len - skip); idBuffer.position(p + l); return new ByteArrayInputStream(idBuffer.array(), p, l); } case 1: { int len = DataUtils.readVarInt(idBuffer); long key = DataUtils.readVarLong(idBuffer); if (skip >= len) { skip -= len; continue; } byte[] data = store.getBlock(key); int s = (int) skip; skip = 0; return new ByteArrayInputStream(data, s, data.length - s); } case 2: { long len = DataUtils.readVarLong(idBuffer); long key = DataUtils.readVarLong(idBuffer); if (skip >= len) { skip -= len; continue; } byte[] k = store.getBlock(key); ByteBuffer newBuffer = ByteBuffer.allocate(k.length + idBuffer.limit() - idBuffer.position()); newBuffer.put(k); newBuffer.put(idBuffer); newBuffer.flip(); idBuffer = newBuffer; return nextBuffer(); } default: throw DataUtils.newIllegalArgumentException( "Unsupported id {0}", Arrays.toString(idBuffer.array())); } } return null; } } }





© 2015 - 2024 Weber Informatics LLC | Privacy Policy