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/*
 * 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.nio.ByteBuffer;
import java.nio.charset.StandardCharsets;
import java.util.HashMap;

/**
 * A chunk of data, containing one or multiple pages.
 * 

* Chunks are page aligned (each page is usually 4096 bytes). * There are at most 67 million (2^26) chunks, * each chunk is at most 2 GB large. */ public class Chunk { /** * The maximum chunk id. */ public static final int MAX_ID = (1 << 26) - 1; /** * The maximum length of a chunk header, in bytes. */ static final int MAX_HEADER_LENGTH = 1024; /** * The length of the chunk footer. The longest footer is: * chunk:ffffffff,block:ffffffffffffffff, * version:ffffffffffffffff,fletcher:ffffffff */ static final int FOOTER_LENGTH = 128; /** * The chunk id. */ public final int id; /** * The start block number within the file. */ public long block; /** * The length in number of blocks. */ public int len; /** * The total number of pages in this chunk. */ public int pageCount; /** * The number of pages still alive. */ public int pageCountLive; /** * The sum of the max length of all pages. */ public long maxLen; /** * The sum of the max length of all pages that are in use. */ public long maxLenLive; /** * The garbage collection priority. Priority 0 means it needs to be * collected, a high value means low priority. */ public int collectPriority; /** * The position of the meta root. */ public long metaRootPos; /** * The version stored in this chunk. */ public long version; /** * When this chunk was created, in milliseconds after the store was created. */ public long time; /** * When this chunk was no longer needed, in milliseconds after the store was * created. After this, the chunk is kept alive a bit longer (in case it is * referenced in older versions). */ public long unused; /** * The last used map id. */ public int mapId; /** * The predicted position of the next chunk. */ public long next; Chunk(int id) { this.id = id; } /** * Read the header from the byte buffer. * * @param buff the source buffer * @param start the start of the chunk in the file * @return the chunk */ static Chunk readChunkHeader(ByteBuffer buff, long start) { int pos = buff.position(); byte[] data = new byte[Math.min(buff.remaining(), MAX_HEADER_LENGTH)]; buff.get(data); try { for (int i = 0; i < data.length; i++) { if (data[i] == '\n') { // set the position to the start of the first page buff.position(pos + i + 1); String s = new String(data, 0, i, StandardCharsets.ISO_8859_1).trim(); return fromString(s); } } } catch (Exception e) { // there could be various reasons throw DataUtils.newIllegalStateException( DataUtils.ERROR_FILE_CORRUPT, "File corrupt reading chunk at position {0}", start, e); } throw DataUtils.newIllegalStateException( DataUtils.ERROR_FILE_CORRUPT, "File corrupt reading chunk at position {0}", start); } /** * Write the chunk header. * * @param buff the target buffer * @param minLength the minimum length */ void writeChunkHeader(WriteBuffer buff, int minLength) { long pos = buff.position(); buff.put(asString().getBytes(StandardCharsets.ISO_8859_1)); while (buff.position() - pos < minLength - 1) { buff.put((byte) ' '); } if (minLength != 0 && buff.position() > minLength) { throw DataUtils.newIllegalStateException( DataUtils.ERROR_INTERNAL, "Chunk metadata too long"); } buff.put((byte) '\n'); } /** * Get the metadata key for the given chunk id. * * @param chunkId the chunk id * @return the metadata key */ static String getMetaKey(int chunkId) { return "chunk." + Integer.toHexString(chunkId); } /** * Build a block from the given string. * * @param s the string * @return the block */ public static Chunk fromString(String s) { HashMap map = DataUtils.parseMap(s); int id = DataUtils.readHexInt(map, "chunk", 0); Chunk c = new Chunk(id); c.block = DataUtils.readHexLong(map, "block", 0); c.len = DataUtils.readHexInt(map, "len", 0); c.pageCount = DataUtils.readHexInt(map, "pages", 0); c.pageCountLive = DataUtils.readHexInt(map, "livePages", c.pageCount); c.mapId = DataUtils.readHexInt(map, "map", 0); c.maxLen = DataUtils.readHexLong(map, "max", 0); c.maxLenLive = DataUtils.readHexLong(map, "liveMax", c.maxLen); c.metaRootPos = DataUtils.readHexLong(map, "root", 0); c.time = DataUtils.readHexLong(map, "time", 0); c.unused = DataUtils.readHexLong(map, "unused", 0); c.version = DataUtils.readHexLong(map, "version", id); c.next = DataUtils.readHexLong(map, "next", 0); return c; } /** * Calculate the fill rate in %. 0 means empty, 100 means full. * * @return the fill rate */ public int getFillRate() { if (maxLenLive <= 0) { return 0; } else if (maxLenLive == maxLen) { return 100; } return 1 + (int) (98 * maxLenLive / maxLen); } @Override public int hashCode() { return id; } @Override public boolean equals(Object o) { return o instanceof Chunk && ((Chunk) o).id == id; } /** * Get the chunk data as a string. * * @return the string */ public String asString() { StringBuilder buff = new StringBuilder(240); DataUtils.appendMap(buff, "chunk", id); DataUtils.appendMap(buff, "block", block); DataUtils.appendMap(buff, "len", len); if (maxLen != maxLenLive) { DataUtils.appendMap(buff, "liveMax", maxLenLive); } if (pageCount != pageCountLive) { DataUtils.appendMap(buff, "livePages", pageCountLive); } DataUtils.appendMap(buff, "map", mapId); DataUtils.appendMap(buff, "max", maxLen); if (next != 0) { DataUtils.appendMap(buff, "next", next); } DataUtils.appendMap(buff, "pages", pageCount); DataUtils.appendMap(buff, "root", metaRootPos); DataUtils.appendMap(buff, "time", time); if (unused != 0) { DataUtils.appendMap(buff, "unused", unused); } DataUtils.appendMap(buff, "version", version); return buff.toString(); } byte[] getFooterBytes() { StringBuilder buff = new StringBuilder(FOOTER_LENGTH); DataUtils.appendMap(buff, "chunk", id); DataUtils.appendMap(buff, "block", block); DataUtils.appendMap(buff, "version", version); byte[] bytes = buff.toString().getBytes(StandardCharsets.ISO_8859_1); int checksum = DataUtils.getFletcher32(bytes, 0, bytes.length); DataUtils.appendMap(buff, "fletcher", checksum); while (buff.length() < FOOTER_LENGTH - 1) { buff.append(' '); } buff.append('\n'); return buff.toString().getBytes(StandardCharsets.ISO_8859_1); } @Override public String toString() { return asString(); } }





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