Mercurial > hg4j
view src/org/tmatesoft/hg/internal/RevlogStreamWriter.java @ 536:2813a26b8999
Tests: refactor various utility methods to a single location
author | Artem Tikhomirov <tikhomirov.artem@gmail.com> |
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date | Tue, 05 Feb 2013 16:36:58 +0100 |
parents | 243202f1bda5 |
children | dd4f6311af52 |
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/* * Copyright (c) 2013 TMate Software Ltd * * This program is free software; you can redistribute it and/or modify * it under the terms of the GNU General Public License as published by * the Free Software Foundation; version 2 of the License. * * This program 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 for more details. * * For information on how to redistribute this software under * the terms of a license other than GNU General Public License * contact TMate Software at support@hg4j.com */ package org.tmatesoft.hg.internal; import static org.tmatesoft.hg.internal.Internals.REVLOGV1_RECORD_SIZE; import static org.tmatesoft.hg.repo.HgRepository.NO_REVISION; import java.io.IOException; import java.nio.ByteBuffer; import org.tmatesoft.hg.core.Nodeid; import org.tmatesoft.hg.core.SessionContext; import org.tmatesoft.hg.repo.HgInvalidControlFileException; import org.tmatesoft.hg.repo.HgInvalidStateException; /** * * TODO separate operation to check if index is too big and split into index+data * * @author Artem Tikhomirov * @author TMate Software Ltd. */ public class RevlogStreamWriter { /*XXX public because HgCloneCommand uses it*/ public static class HeaderWriter implements DataSerializer.DataSource { private final ByteBuffer header; private final boolean isInline; private long offset; private int length, compressedLength; private int baseRev, linkRev, p1, p2; private byte[] nodeid; public HeaderWriter(boolean inline) { isInline = inline; header = ByteBuffer.allocate(REVLOGV1_RECORD_SIZE); } public HeaderWriter offset(long offset) { this.offset = offset; return this; } public int baseRevision() { return baseRev; } public HeaderWriter baseRevision(int baseRevision) { this.baseRev = baseRevision; return this; } public HeaderWriter length(int len, int compressedLen) { this.length = len; this.compressedLength = compressedLen; return this; } public HeaderWriter parents(int parent1, int parent2) { p1 = parent1; p2 = parent2; return this; } public HeaderWriter linkRevision(int linkRevision) { linkRev = linkRevision; return this; } public HeaderWriter nodeid(Nodeid n) { nodeid = n.toByteArray(); return this; } public HeaderWriter nodeid(byte[] nodeidBytes) { nodeid = nodeidBytes; return this; } public void serialize(DataSerializer out) throws IOException { header.clear(); if (offset == 0) { int version = 1 /* RevlogNG */; if (isInline) { final int INLINEDATA = 1 << 16; // FIXME extract constant version |= INLINEDATA; } header.putInt(version); header.putInt(0); } else { header.putLong(offset << 16); } header.putInt(compressedLength); header.putInt(length); header.putInt(baseRev); header.putInt(linkRev); header.putInt(p1); header.putInt(p2); header.put(nodeid); // assume 12 bytes left are zeros out.write(header.array(), 0, header.capacity()); // regardless whether it's inline or separate data, // offset field always represent cumulative compressedLength // (while offset in the index file with inline==true differs by n*sizeof(header), where n is entry's position in the file) offset += compressedLength; } public int serializeLength() { return header.capacity(); } } private final DigestHelper dh = new DigestHelper(); private final RevlogCompressor revlogDataZip; public RevlogStreamWriter(SessionContext ctx, RevlogStream stream) { revlogDataZip = new RevlogCompressor(ctx); } private int lastEntryBase, lastEntryIndex; private byte[] lastEntryContent; private Nodeid lastEntryRevision; private IntMap<Nodeid> revisionCache = new IntMap<Nodeid>(32); public void addRevision(byte[] content, int linkRevision, int p1, int p2) { int revCount = revlogStream.revisionCount(); lastEntryIndex = revCount == 0 ? NO_REVISION : revCount - 1; populateLastEntry(); // PatchGenerator pg = new PatchGenerator(); Patch patch = pg.delta(lastEntryContent, content); int patchSerializedLength = patch.serializedLength(); final boolean writeComplete = preferCompleteOverPatch(patchSerializedLength, content.length); DataSerializer.DataSource dataSource = writeComplete ? new DataSerializer.ByteArrayDataSource(content) : patch.new PatchDataSource(); revlogDataZip.reset(dataSource); final int compressedLen; final boolean useUncompressedData = preferCompressedOverComplete(revlogDataZip.getCompressedLength(), dataSource.serializeLength()); if (useUncompressedData) { // compression wasn't too effective, compressedLen = dataSource.serializeLength() + 1 /*1 byte for 'u' - uncompressed prefix byte*/; } else { compressedLen= revlogDataZip.getCompressedLength(); } // Nodeid p1Rev = revision(p1); Nodeid p2Rev = revision(p2); byte[] revisionNodeidBytes = dh.sha1(p1Rev, p2Rev, content).asBinary(); // DataSerializer indexFile, dataFile, activeFile; indexFile = dataFile = activeFile = null; try { // activeFile = indexFile = revlogStream.getIndexStreamWriter(); final boolean isInlineData = revlogStream.isInlineData(); HeaderWriter revlogHeader = new HeaderWriter(isInlineData); revlogHeader.length(content.length, compressedLen); revlogHeader.nodeid(revisionNodeidBytes); revlogHeader.linkRevision(linkRevision); revlogHeader.parents(p1, p2); revlogHeader.baseRevision(writeComplete ? lastEntryIndex+1 : lastEntryBase); // revlogHeader.serialize(indexFile); if (isInlineData) { dataFile = indexFile; } else { dataFile = revlogStream.getDataStreamWriter(); } activeFile = dataFile; if (useUncompressedData) { dataFile.writeByte((byte) 'u'); dataSource.serialize(dataFile); } else { int actualCompressedLenWritten = revlogDataZip.writeCompressedData(dataFile); if (actualCompressedLenWritten != compressedLen) { throw new HgInvalidStateException(String.format("Expected %d bytes of compressed data, but actually wrote %d in %s", compressedLen, actualCompressedLenWritten, revlogStream.getDataFileName())); } } lastEntryContent = content; lastEntryBase = revlogHeader.baseRevision(); lastEntryIndex++; lastEntryRevision = Nodeid.fromBinary(revisionNodeidBytes, 0); revisionCache.put(lastEntryIndex, lastEntryRevision); } catch (IOException ex) { String m = String.format("Failed to write revision %d", lastEntryIndex+1, null); HgInvalidControlFileException t = new HgInvalidControlFileException(m, ex, null); if (activeFile == dataFile) { throw revlogStream.initWithDataFile(t); } else { throw revlogStream.initWithIndexFile(t); } } finally { indexFile.done(); if (dataFile != null && dataFile != indexFile) { dataFile.done(); } } } private RevlogStream revlogStream; private Nodeid revision(int revisionIndex) { if (revisionIndex == NO_REVISION) { return Nodeid.NULL; } Nodeid n = revisionCache.get(revisionIndex); if (n == null) { n = Nodeid.fromBinary(revlogStream.nodeid(revisionIndex), 0); revisionCache.put(revisionIndex, n); } return n; } private void populateLastEntry() throws HgInvalidControlFileException { if (lastEntryIndex != NO_REVISION && lastEntryContent == null) { assert lastEntryIndex >= 0; final IOException[] failure = new IOException[1]; revlogStream.iterate(lastEntryIndex, lastEntryIndex, true, new RevlogStream.Inspector() { public void next(int revisionIndex, int actualLen, int baseRevision, int linkRevision, int parent1Revision, int parent2Revision, byte[] nodeid, DataAccess data) { try { lastEntryBase = baseRevision; lastEntryRevision = Nodeid.fromBinary(nodeid, 0); lastEntryContent = data.byteArray(); } catch (IOException ex) { failure[0] = ex; } } }); if (failure[0] != null) { String m = String.format("Failed to get content of most recent revision %d", lastEntryIndex); throw revlogStream.initWithDataFile(new HgInvalidControlFileException(m, failure[0], null)); } } } public static boolean preferCompleteOverPatch(int patchLength, int fullContentLength) { return !decideWorthEffort(patchLength, fullContentLength); } public static boolean preferCompressedOverComplete(int compressedLen, int fullContentLength) { if (compressedLen <= 0) { // just in case, meaningless otherwise return false; } return decideWorthEffort(compressedLen, fullContentLength); } // true if length obtained with effort is worth it private static boolean decideWorthEffort(int lengthWithExtraEffort, int lengthWithoutEffort) { return lengthWithExtraEffort < (/* 3/4 of original */lengthWithoutEffort - (lengthWithoutEffort >>> 2)); } }