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/*
 * Copyright 2004-2014 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.IOException;
import java.io.OutputStream;
import java.io.PrintWriter;
import java.io.Writer;
import java.nio.ByteBuffer;
import java.nio.channels.FileChannel;
import java.sql.Timestamp;
import java.util.Map;
import java.util.Map.Entry;
import java.util.TreeMap;

import org.h2.compress.CompressDeflate;
import org.h2.compress.CompressLZF;
import org.h2.compress.Compressor;
import org.h2.engine.Constants;
import org.h2.message.DbException;
import org.h2.mvstore.type.DataType;
import org.h2.mvstore.type.StringDataType;
import org.h2.store.fs.FilePath;
import org.h2.store.fs.FileUtils;

/**
 * Utility methods used in combination with the MVStore.
 */
public class MVStoreTool {

    /**
     * Runs this tool.
     * Options are case sensitive. Supported options are:
     * 
     * 
     * 
     * 
     * 
     * 
     * 
     * 
     * 
     * 
[-dump <fileName>]Dump the contends of the file
[-info <fileName>]Get summary information about a file
[-compact <fileName>]Compact a store
[-compress <fileName>]Compact a store with compression enabled
* * @param args the command line arguments */ public static void main(String... args) { for (int i = 0; i < args.length; i++) { if ("-dump".equals(args[i])) { String fileName = args[++i]; dump(fileName, new PrintWriter(System.out), true); } else if ("-info".equals(args[i])) { String fileName = args[++i]; info(fileName, new PrintWriter(System.out)); } else if ("-compact".equals(args[i])) { String fileName = args[++i]; compact(fileName, false); } else if ("-compress".equals(args[i])) { String fileName = args[++i]; compact(fileName, true); } else if ("-rollback".equals(args[i])) { String fileName = args[++i]; long targetVersion = Long.decode(args[++i]); rollback(fileName, targetVersion, new PrintWriter(System.out)); } else if ("-repair".equals(args[i])) { String fileName = args[++i]; repair(fileName); } } } /** * Read the contents of the file and write them to system out. * * @param fileName the name of the file * @param details whether to print details */ public static void dump(String fileName, boolean details) { dump(fileName, new PrintWriter(System.out), details); } /** * Read the summary information of the file and write them to system out. * * @param fileName the name of the file */ public static void info(String fileName) { info(fileName, new PrintWriter(System.out)); } /** * Read the contents of the file and display them in a human-readable * format. * * @param fileName the name of the file * @param writer the print writer * @param details print the page details */ public static void dump(String fileName, Writer writer, boolean details) { PrintWriter pw = new PrintWriter(writer, true); if (!FilePath.get(fileName).exists()) { pw.println("File not found: " + fileName); return; } long size = FileUtils.size(fileName); pw.printf("File %s, %d bytes, %d MB\n", fileName, size, size / 1024 / 1024); FileChannel file = null; int blockSize = MVStore.BLOCK_SIZE; TreeMap mapSizesTotal = new TreeMap(); long pageSizeTotal = 0; try { file = FilePath.get(fileName).open("r"); long fileSize = file.size(); int len = Long.toHexString(fileSize).length(); ByteBuffer block = ByteBuffer.allocate(4096); long pageCount = 0; for (long pos = 0; pos < fileSize;) { block.rewind(); DataUtils.readFully(file, pos, block); block.rewind(); int headerType = block.get(); if (headerType == 'H') { String header = new String(block.array(), DataUtils.LATIN).trim(); pw.printf("%0" + len + "x fileHeader %s%n", pos, header); pos += blockSize; continue; } if (headerType != 'c') { pos += blockSize; continue; } block.position(0); Chunk c = null; try { c = Chunk.readChunkHeader(block, pos); } catch (IllegalStateException e) { pos += blockSize; continue; } if (c.len <= 0) { // not a chunk pos += blockSize; continue; } int length = c.len * MVStore.BLOCK_SIZE; pw.printf("%n%0" + len + "x chunkHeader %s%n", pos, c.toString()); ByteBuffer chunk = ByteBuffer.allocate(length); DataUtils.readFully(file, pos, chunk); int p = block.position(); pos += length; int remaining = c.pageCount; pageCount += c.pageCount; TreeMap mapSizes = new TreeMap(); int pageSizeSum = 0; while (remaining > 0) { int start = p; try { chunk.position(p); } catch (IllegalArgumentException e) { // too far pw.printf("ERROR illegal position %d%n", p); break; } int pageSize = chunk.getInt(); // check value (ignored) chunk.getShort(); int mapId = DataUtils.readVarInt(chunk); int entries = DataUtils.readVarInt(chunk); int type = chunk.get(); boolean compressed = (type & DataUtils.PAGE_COMPRESSED) != 0; boolean node = (type & 1) != 0; if (details) { pw.printf( "+%0" + len + "x %s, map %x, %d entries, %d bytes, maxLen %x%n", p, (node ? "node" : "leaf") + (compressed ? " compressed" : ""), mapId, node ? entries + 1 : entries, pageSize, DataUtils.getPageMaxLength(DataUtils.getPagePos(0, 0, pageSize, 0)) ); } p += pageSize; Integer mapSize = mapSizes.get(mapId); if (mapSize == null) { mapSize = 0; } mapSizes.put(mapId, mapSize + pageSize); Long total = mapSizesTotal.get(mapId); if (total == null) { total = 0L; } mapSizesTotal.put(mapId, total + pageSize); pageSizeSum += pageSize; pageSizeTotal += pageSize; remaining--; long[] children = null; long[] counts = null; if (node) { children = new long[entries + 1]; for (int i = 0; i <= entries; i++) { children[i] = chunk.getLong(); } counts = new long[entries + 1]; for (int i = 0; i <= entries; i++) { long s = DataUtils.readVarLong(chunk); counts[i] = s; } } String[] keys = new String[entries]; if (mapId == 0 && details) { ByteBuffer data; if (compressed) { boolean fast = !((type & DataUtils.PAGE_COMPRESSED_HIGH) == DataUtils.PAGE_COMPRESSED_HIGH); Compressor compressor = getCompressor(fast); int lenAdd = DataUtils.readVarInt(chunk); int compLen = pageSize + start - chunk.position(); byte[] comp = DataUtils.newBytes(compLen); chunk.get(comp); int l = compLen + lenAdd; data = ByteBuffer.allocate(l); compressor.expand(comp, 0, compLen, data.array(), 0, l); } else { data = chunk; } for (int i = 0; i < entries; i++) { String k = StringDataType.INSTANCE.read(data); keys[i] = k; } if (node) { // meta map node for (int i = 0; i < entries; i++) { long cp = children[i]; pw.printf(" %d children < %s @ " + "chunk %x +%0" + len + "x%n", counts[i], keys[i], DataUtils.getPageChunkId(cp), DataUtils.getPageOffset(cp)); } long cp = children[entries]; pw.printf(" %d children >= %s @ chunk %x +%0" + len + "x%n", counts[entries], keys.length >= entries ? null : keys[entries], DataUtils.getPageChunkId(cp), DataUtils.getPageOffset(cp)); } else { // meta map leaf String[] values = new String[entries]; for (int i = 0; i < entries; i++) { String v = StringDataType.INSTANCE.read(data); values[i] = v; } for (int i = 0; i < entries; i++) { pw.println(" " + keys[i] + " = " + values[i]); } } } else { if (node && details) { for (int i = 0; i <= entries; i++) { long cp = children[i]; pw.printf(" %d children @ chunk %x +%0" + len + "x%n", counts[i], DataUtils.getPageChunkId(cp), DataUtils.getPageOffset(cp)); } } } } pageSizeSum = Math.max(1, pageSizeSum); for (Integer mapId : mapSizes.keySet()) { int percent = 100 * mapSizes.get(mapId) / pageSizeSum; pw.printf("map %x: %d bytes, %d%%%n", mapId, mapSizes.get(mapId), percent); } int footerPos = chunk.limit() - Chunk.FOOTER_LENGTH; try { chunk.position(footerPos); pw.printf( "+%0" + len + "x chunkFooter %s%n", footerPos, new String(chunk.array(), chunk.position(), Chunk.FOOTER_LENGTH, DataUtils.LATIN).trim()); } catch (IllegalArgumentException e) { // too far pw.printf("ERROR illegal footer position %d%n", footerPos); } } pw.printf("%n%0" + len + "x eof%n", fileSize); pw.printf("\n"); pageCount = Math.max(1, pageCount); pw.printf("page size total: %d bytes, page count: %d, average page size: %d bytes\n", pageSizeTotal, pageCount, pageSizeTotal / pageCount); pageSizeTotal = Math.max(1, pageSizeTotal); for (Integer mapId : mapSizesTotal.keySet()) { int percent = (int) (100 * mapSizesTotal.get(mapId) / pageSizeTotal); pw.printf("map %x: %d bytes, %d%%%n", mapId, mapSizesTotal.get(mapId), percent); } } catch (IOException e) { pw.println("ERROR: " + e); e.printStackTrace(pw); } finally { if (file != null) { try { file.close(); } catch (IOException e) { // ignore } } } pw.flush(); } private static Compressor getCompressor(boolean fast) { return fast ? new CompressLZF() : new CompressDeflate(); } /** * Read the summary information of the file and write them to system out. * * @param fileName the name of the file * @param writer the print writer * @return null if successful (if there was no error), otherwise the error * message */ public static String info(String fileName, Writer writer) { PrintWriter pw = new PrintWriter(writer, true); if (!FilePath.get(fileName).exists()) { pw.println("File not found: " + fileName); return "File not found: " + fileName; } long fileLength = FileUtils.size(fileName); MVStore store = new MVStore.Builder(). fileName(fileName). readOnly().open(); try { MVMap meta = store.getMetaMap(); Map header = store.getStoreHeader(); long fileCreated = DataUtils.readHexLong(header, "created", 0L); TreeMap chunks = new TreeMap(); long chunkLength = 0; long maxLength = 0; long maxLengthLive = 0; long maxLengthNotEmpty = 0; for (Entry e : meta.entrySet()) { String k = e.getKey(); if (k.startsWith("chunk.")) { Chunk c = Chunk.fromString(e.getValue()); chunks.put(c.id, c); chunkLength += c.len * MVStore.BLOCK_SIZE; maxLength += c.maxLen; maxLengthLive += c.maxLenLive; if (c.maxLenLive > 0) { maxLengthNotEmpty += c.maxLen; } } } pw.printf("Created: %s\n", formatTimestamp(fileCreated, fileCreated)); pw.printf("Last modified: %s\n", formatTimestamp(FileUtils.lastModified(fileName), fileCreated)); pw.printf("File length: %d\n", fileLength); pw.printf("The last chunk is not listed\n"); pw.printf("Chunk length: %d\n", chunkLength); pw.printf("Chunk count: %d\n", chunks.size()); pw.printf("Used space: %d%%\n", getPercent(chunkLength, fileLength)); pw.printf("Chunk fill rate: %d%%\n", maxLength == 0 ? 100 : getPercent(maxLengthLive, maxLength)); pw.printf("Chunk fill rate excluding empty chunks: %d%%\n", maxLengthNotEmpty == 0 ? 100 : getPercent(maxLengthLive, maxLengthNotEmpty)); for (Entry e : chunks.entrySet()) { Chunk c = e.getValue(); long created = fileCreated + c.time; pw.printf(" Chunk %d: %s, %d%% used, %d blocks", c.id, formatTimestamp(created, fileCreated), getPercent(c.maxLenLive, c.maxLen), c.len ); if (c.maxLenLive == 0) { pw.printf(", unused: %s", formatTimestamp(fileCreated + c.unused, fileCreated)); } pw.printf("\n"); } pw.printf("\n"); } catch (Exception e) { pw.println("ERROR: " + e); e.printStackTrace(pw); return e.getMessage(); } finally { store.close(); } pw.flush(); return null; } private static String formatTimestamp(long t, long start) { String x = new Timestamp(t).toString(); String s = x.substring(0, 19); s += " (+" + ((t - start) / 1000) + " s)"; return s; } private static int getPercent(long value, long max) { if (value == 0) { return 0; } else if (value == max) { return 100; } return (int) (1 + 98 * value / Math.max(1, max)); } /** * Compress the store by creating a new file and copying the live pages * there. Temporarily, a file with the suffix ".tempFile" is created. This * file is then renamed, replacing the original file, if possible. If not, * the new file is renamed to ".newFile", then the old file is removed, and * the new file is renamed. This might be interrupted, so it's better to * compactCleanUp before opening a store, in case this method was used. * * @param fileName the file name * @param compress whether to compress the data */ public static void compact(String fileName, boolean compress) { String tempName = fileName + Constants.SUFFIX_MV_STORE_TEMP_FILE; FileUtils.delete(tempName); compact(fileName, tempName, compress); try { FileUtils.moveAtomicReplace(tempName, fileName); } catch (DbException e) { String newName = fileName + Constants.SUFFIX_MV_STORE_NEW_FILE; FileUtils.delete(newName); FileUtils.move(tempName, newName); FileUtils.delete(fileName); FileUtils.move(newName, fileName); } } /** * Clean up if needed, in a case a compact operation was interrupted due to * killing the process or a power failure. This will delete temporary files * (if any), and in case atomic file replacements were not used, rename the * new file. * * @param fileName the file name */ public static void compactCleanUp(String fileName) { String tempName = fileName + Constants.SUFFIX_MV_STORE_TEMP_FILE; if (FileUtils.exists(tempName)) { FileUtils.delete(tempName); } String newName = fileName + Constants.SUFFIX_MV_STORE_NEW_FILE; if (FileUtils.exists(newName)) { if (FileUtils.exists(fileName)) { FileUtils.delete(newName); } else { FileUtils.move(newName, fileName); } } } /** * Copy all live pages from the source store to the target store. * * @param sourceFileName the name of the source store * @param targetFileName the name of the target store * @param compress whether to compress the data */ public static void compact(String sourceFileName, String targetFileName, boolean compress) { MVStore source = new MVStore.Builder(). fileName(sourceFileName). readOnly(). open(); FileUtils.delete(targetFileName); MVStore.Builder b = new MVStore.Builder(). fileName(targetFileName); if (compress) { b.compress(); } MVStore target = b.open(); compact(source, target); target.close(); source.close(); } /** * Copy all live pages from the source store to the target store. * * @param source the source store * @param target the target store */ public static void compact(MVStore source, MVStore target) { MVMap sourceMeta = source.getMetaMap(); MVMap targetMeta = target.getMetaMap(); for (Entry m : sourceMeta.entrySet()) { String key = m.getKey(); if (key.startsWith("chunk.")) { // ignore } else if (key.startsWith("map.")) { // ignore } else if (key.startsWith("name.")) { // ignore } else if (key.startsWith("root.")) { // ignore } else { targetMeta.put(key, m.getValue()); } } for (String mapName : source.getMapNames()) { MVMap.Builder mp = new MVMap.Builder(). keyType(new GenericDataType()). valueType(new GenericDataType()); MVMap sourceMap = source.openMap(mapName, mp); MVMap targetMap = target.openMap(mapName, mp); targetMap.copyFrom(sourceMap); } } /** * Repair a store by rolling back to the newest good version. * * @param fileName the file name */ public static void repair(String fileName) { PrintWriter pw = new PrintWriter(System.out); long version = Long.MAX_VALUE; OutputStream ignore = new OutputStream() { @Override public void write(int b) throws IOException { // ignore } }; while (version >= 0) { pw.println(version == Long.MAX_VALUE ? "Trying latest version" : ("Trying version " + version)); pw.flush(); version = rollback(fileName, version, new PrintWriter(ignore)); try { String error = info(fileName + ".temp", new PrintWriter(ignore)); if (error == null) { FilePath.get(fileName).moveTo(FilePath.get(fileName + ".back"), true); FilePath.get(fileName + ".temp").moveTo(FilePath.get(fileName), true); pw.println("Success"); break; } pw.println(" ... failed: " + error); } catch (Exception e) { pw.println("Fail: " + e.getMessage()); pw.flush(); } version--; } pw.flush(); } /** * Roll back to a given revision into a a file called *.temp. * * @param fileName the file name * @param targetVersion the version to roll back to (Long.MAX_VALUE for the * latest version) * @param writer the log writer * @return the version rolled back to (-1 if no version) */ public static long rollback(String fileName, long targetVersion, Writer writer) { long newestVersion = -1; PrintWriter pw = new PrintWriter(writer, true); if (!FilePath.get(fileName).exists()) { pw.println("File not found: " + fileName); return newestVersion; } FileChannel file = null; FileChannel target = null; int blockSize = MVStore.BLOCK_SIZE; try { file = FilePath.get(fileName).open("r"); FilePath.get(fileName + ".temp").delete(); target = FilePath.get(fileName + ".temp").open("rw"); long fileSize = file.size(); ByteBuffer block = ByteBuffer.allocate(4096); Chunk newestChunk = null; for (long pos = 0; pos < fileSize;) { block.rewind(); DataUtils.readFully(file, pos, block); block.rewind(); int headerType = block.get(); if (headerType == 'H') { block.rewind(); target.write(block, pos); pos += blockSize; continue; } if (headerType != 'c') { pos += blockSize; continue; } Chunk c = null; try { c = Chunk.readChunkHeader(block, pos); } catch (IllegalStateException e) { pos += blockSize; continue; } if (c.len <= 0) { // not a chunk pos += blockSize; continue; } int length = c.len * MVStore.BLOCK_SIZE; ByteBuffer chunk = ByteBuffer.allocate(length); DataUtils.readFully(file, pos, chunk); if (c.version > targetVersion) { // newer than the requested version pos += length; continue; } chunk.rewind(); target.write(chunk, pos); if (newestChunk == null || c.version > newestChunk.version) { newestChunk = c; newestVersion = c.version; } pos += length; } int length = newestChunk.len * MVStore.BLOCK_SIZE; ByteBuffer chunk = ByteBuffer.allocate(length); DataUtils.readFully(file, newestChunk.block * MVStore.BLOCK_SIZE, chunk); chunk.rewind(); target.write(chunk, fileSize); } catch (IOException e) { pw.println("ERROR: " + e); e.printStackTrace(pw); } finally { if (file != null) { try { file.close(); } catch (IOException e) { // ignore } } if (target != null) { try { target.close(); } catch (IOException e) { // ignore } } } pw.flush(); return newestVersion; } /** * A data type that can read any data that is persisted, and converts it to * a byte array. */ static class GenericDataType implements DataType { @Override public int compare(Object a, Object b) { throw DataUtils.newUnsupportedOperationException("Can not compare"); } @Override public int getMemory(Object obj) { return obj == null ? 0 : ((byte[]) obj).length * 8; } @Override public void write(WriteBuffer buff, Object obj) { if (obj != null) { buff.put((byte[]) obj); } } @Override public void write(WriteBuffer buff, Object[] obj, int len, boolean key) { for (Object o : obj) { write(buff, o); } } @Override public Object read(ByteBuffer buff) { int len = buff.remaining(); if (len == 0) { return null; } byte[] data = new byte[len]; buff.get(data); return data; } @Override public void read(ByteBuffer buff, Object[] obj, int len, boolean key) { for (int i = 0; i < obj.length; i++) { obj[i] = read(buff); } } } }




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