Mercurial > hg4j
view src/org/tmatesoft/hg/repo/HgBundle.java @ 278:55fad5e0e98b
Ensure capacity grows regardless of initial map size. Separate unit test
author | Artem Tikhomirov <tikhomirov.artem@gmail.com> |
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date | Mon, 29 Aug 2011 23:31:37 +0200 |
parents | 9fb50c04f03c |
children | 981f9f50bb6c |
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/* * Copyright (c) 2011 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.repo; import java.io.File; import java.io.IOException; import java.util.LinkedList; import java.util.List; import org.tmatesoft.hg.core.HgBadStateException; import org.tmatesoft.hg.core.HgException; import org.tmatesoft.hg.core.Nodeid; import org.tmatesoft.hg.internal.ByteArrayChannel; import org.tmatesoft.hg.internal.ByteArrayDataAccess; import org.tmatesoft.hg.internal.DataAccess; import org.tmatesoft.hg.internal.DataAccessProvider; import org.tmatesoft.hg.internal.DigestHelper; import org.tmatesoft.hg.internal.InflaterDataAccess; import org.tmatesoft.hg.internal.RevlogStream; import org.tmatesoft.hg.repo.HgChangelog.RawChangeset; import org.tmatesoft.hg.util.CancelledException; /** * @see http://mercurial.selenic.com/wiki/BundleFormat * * @author Artem Tikhomirov * @author TMate Software Ltd. */ public class HgBundle { private final File bundleFile; private final DataAccessProvider accessProvider; HgBundle(DataAccessProvider dap, File bundle) { accessProvider = dap; bundleFile = bundle; } private DataAccess getDataStream() throws IOException { DataAccess da = accessProvider.create(bundleFile); byte[] signature = new byte[6]; if (da.length() > 6) { da.readBytes(signature, 0, 6); if (signature[0] == 'H' && signature[1] == 'G' && signature[2] == '1' && signature[3] == '0') { if (signature[4] == 'G' && signature[5] == 'Z') { return new InflaterDataAccess(da, 6, da.length() - 6); } if (signature[4] == 'B' && signature[5] == 'Z') { throw HgRepository.notImplemented(); } if (signature[4] != 'U' || signature[5] != 'N') { throw new HgBadStateException("Bad bundle signature:" + new String(signature)); } // "...UN", fall-through } else { da.reset(); } } return da; } private int uses = 0; public HgBundle link() { uses++; return this; } public void unlink() { uses--; if (uses == 0 && bundleFile != null) { bundleFile.deleteOnExit(); } } public boolean inUse() { return uses > 0; } /** * Get changes recorded in the bundle that are missing from the supplied repository. * @param hgRepo repository that shall possess base revision for this bundle * @param inspector callback to get each changeset found */ public void changes(final HgRepository hgRepo, final HgChangelog.Inspector inspector) throws HgException, IOException { Inspector bundleInsp = new Inspector() { DigestHelper dh = new DigestHelper(); boolean emptyChangelog = true; private DataAccess prevRevContent; private int revisionIndex; public void changelogStart() { emptyChangelog = true; revisionIndex = 0; } public void changelogEnd() { if (emptyChangelog) { throw new IllegalStateException("No changelog group in the bundle"); // XXX perhaps, just be silent and/or log? } } /* * Despite that BundleFormat wiki says: "Each Changelog entry patches the result of all previous patches * (the previous, or parent patch of a given patch p is the patch that has a node equal to p's p1 field)", * it seems not to hold true. Instead, each entry patches previous one, regardless of whether the one * before is its parent (i.e. ge.firstParent()) or not. * Actual state in the changelog.i Index Offset Flags Packed Actual Base Rev Link Rev Parent1 Parent2 nodeid 50: 9212 0 209 329 48 50 49 -1 f1db8610da62a3e0beb8d360556ee1fd6eb9885e 51: 9421 0 278 688 48 51 50 -1 9429c7bd1920fab164a9d2b621d38d57bcb49ae0 52: 9699 0 154 179 52 52 50 -1 30bd389788464287cee22ccff54c330a4b715de5 53: 9853 0 133 204 52 53 51 52 a6f39e595b2b54f56304470269a936ead77f5725 54: 9986 0 156 182 54 54 52 -1 fd4f2c98995beb051070630c272a9be87bef617d Excerpt from bundle (nodeid, p1, p2, cs): f1db8610da62a3e0beb8d360556ee1fd6eb9885e 26e3eeaa39623de552b45ee1f55c14f36460f220 0000000000000000000000000000000000000000 f1db8610da62a3e0beb8d360556ee1fd6eb9885e; patches:4 9429c7bd1920fab164a9d2b621d38d57bcb49ae0 f1db8610da62a3e0beb8d360556ee1fd6eb9885e 0000000000000000000000000000000000000000 9429c7bd1920fab164a9d2b621d38d57bcb49ae0; patches:3 > 30bd389788464287cee22ccff54c330a4b715de5 f1db8610da62a3e0beb8d360556ee1fd6eb9885e 0000000000000000000000000000000000000000 30bd389788464287cee22ccff54c330a4b715de5; patches:3 a6f39e595b2b54f56304470269a936ead77f5725 9429c7bd1920fab164a9d2b621d38d57bcb49ae0 30bd389788464287cee22ccff54c330a4b715de5 a6f39e595b2b54f56304470269a936ead77f5725; patches:3 fd4f2c98995beb051070630c272a9be87bef617d 30bd389788464287cee22ccff54c330a4b715de5 0000000000000000000000000000000000000000 fd4f2c98995beb051070630c272a9be87bef617d; patches:3 To recreate 30bd..e5, one have to take content of 9429..e0, not its p1 f1db..5e */ public boolean element(GroupElement ge) { emptyChangelog = false; HgChangelog changelog = hgRepo.getChangelog(); try { if (prevRevContent == null) { if (ge.firstParent().isNull() && ge.secondParent().isNull()) { prevRevContent = new ByteArrayDataAccess(new byte[0]); } else { final Nodeid base = ge.firstParent(); if (!changelog.isKnown(base) /*only first parent, that's Bundle contract*/) { throw new IllegalStateException(String.format("Revision %s needs a parent %s, which is missing in the supplied repo %s", ge.node().shortNotation(), base.shortNotation(), hgRepo.toString())); } ByteArrayChannel bac = new ByteArrayChannel(); changelog.rawContent(base, bac); // FIXME get DataAccess directly, to avoid // extra byte[] (inside ByteArrayChannel) duplication just for the sake of subsequent ByteArrayDataChannel wrap. prevRevContent = new ByteArrayDataAccess(bac.toArray()); } } // byte[] csetContent = ge.apply(prevRevContent); dh = dh.sha1(ge.firstParent(), ge.secondParent(), csetContent); // XXX ge may give me access to byte[] content of nodeid directly, perhaps, I don't need DH to be friend of Nodeid? if (!ge.node().equalsTo(dh.asBinary())) { throw new IllegalStateException("Integrity check failed on " + bundleFile + ", node:" + ge.node()); } ByteArrayDataAccess csetDataAccess = new ByteArrayDataAccess(csetContent); RawChangeset cs = RawChangeset.parse(csetDataAccess); inspector.next(revisionIndex++, ge.node(), cs); prevRevContent.done(); prevRevContent = csetDataAccess.reset(); } catch (CancelledException ex) { return false; } catch (Exception ex) { throw new HgBadStateException(ex); // FIXME } return true; } public void manifestStart() {} public void manifestEnd() {} public void fileStart(String name) {} public void fileEnd(String name) {} }; inspectChangelog(bundleInsp); } public void dump() throws IOException { Dump dump = new Dump(); inspectAll(dump); System.out.println("Total files:" + dump.names.size()); for (String s : dump.names) { System.out.println(s); } } // callback to minimize amount of Strings and Nodeids instantiated public interface Inspector { void changelogStart(); void changelogEnd(); void manifestStart(); void manifestEnd(); void fileStart(String name); void fileEnd(String name); /** * XXX desperately need exceptions here * @param element data element, instance might be reused, don't keep a reference to it or its raw data * @return <code>true</code> to continue */ boolean element(GroupElement element); } public static class Dump implements Inspector { public final LinkedList<String> names = new LinkedList<String>(); public void changelogStart() { System.out.println("Changelog group"); } public void changelogEnd() { } public void manifestStart() { System.out.println("Manifest group"); } public void manifestEnd() { } public void fileStart(String name) { names.add(name); System.out.println(name); } public void fileEnd(String name) { } public boolean element(GroupElement ge) { try { System.out.printf(" %s %s %s %s; patches:%d\n", ge.node(), ge.firstParent(), ge.secondParent(), ge.cset(), ge.patches().size()); } catch (Exception ex) { ex.printStackTrace(); // FIXME } return true; } } public void inspectChangelog(Inspector inspector) throws IOException { if (inspector == null) { throw new IllegalArgumentException(); } DataAccess da = getDataStream(); try { internalInspectChangelog(da, inspector); } finally { da.done(); } } public void inspectManifest(Inspector inspector) throws IOException { if (inspector == null) { throw new IllegalArgumentException(); } DataAccess da = getDataStream(); try { if (da.isEmpty()) { return; } skipGroup(da); // changelog internalInspectManifest(da, inspector); } finally { da.done(); } } public void inspectFiles(Inspector inspector) throws IOException { if (inspector == null) { throw new IllegalArgumentException(); } DataAccess da = getDataStream(); try { if (da.isEmpty()) { return; } skipGroup(da); // changelog if (da.isEmpty()) { return; } skipGroup(da); // manifest internalInspectFiles(da, inspector); } finally { da.done(); } } public void inspectAll(Inspector inspector) throws IOException { if (inspector == null) { throw new IllegalArgumentException(); } DataAccess da = getDataStream(); try { internalInspectChangelog(da, inspector); internalInspectManifest(da, inspector); internalInspectFiles(da, inspector); } finally { da.done(); } } private void internalInspectChangelog(DataAccess da, Inspector inspector) throws IOException { if (da.isEmpty()) { return; } inspector.changelogStart(); readGroup(da, inspector); inspector.changelogEnd(); } private void internalInspectManifest(DataAccess da, Inspector inspector) throws IOException { if (da.isEmpty()) { return; } inspector.manifestStart(); readGroup(da, inspector); inspector.manifestEnd(); } private void internalInspectFiles(DataAccess da, Inspector inspector) throws IOException { while (!da.isEmpty()) { int fnameLen = da.readInt(); if (fnameLen <= 4) { break; // null chunk, the last one. } byte[] fnameBuf = new byte[fnameLen - 4]; da.readBytes(fnameBuf, 0, fnameBuf.length); String name = new String(fnameBuf); inspector.fileStart(name); readGroup(da, inspector); inspector.fileEnd(name); } } private static void readGroup(DataAccess da, Inspector inspector) throws IOException { int len = da.readInt(); boolean good2go = true; while (len > 4 && !da.isEmpty() && good2go) { byte[] nb = new byte[80]; da.readBytes(nb, 0, 80); int dataLength = len - 84 /* length field + 4 nodeids */; byte[] data = new byte[dataLength]; da.readBytes(data, 0, dataLength); DataAccess slice = new ByteArrayDataAccess(data); // XXX in fact, may pass a slicing DataAccess. // Just need to make sure that we seek to proper location afterwards (where next GroupElement starts), // regardless whether that slice has read it or not. GroupElement ge = new GroupElement(nb, slice); good2go = inspector.element(ge); slice.done(); // BADA doesn't implement done(), but it could (e.g. free array) /// and we'd better tell it we are not going to use it any more. However, it's important to ensure Inspector // implementations out there do not retain GroupElement.rawData() len = da.isEmpty() ? 0 : da.readInt(); } // need to skip up to group end if inspector told he don't want to continue with the group, // because outer code may try to read next group immediately as we return back. while (len > 4 && !da.isEmpty()) { da.skip(len - 4 /* length field */); len = da.isEmpty() ? 0 : da.readInt(); } } private static void skipGroup(DataAccess da) throws IOException { int len = da.readInt(); while (len > 4 && !da.isEmpty()) { da.skip(len - 4); // sizeof(int) len = da.isEmpty() ? 0 : da.readInt(); } } public static class GroupElement { private final byte[] header; // byte[80] takes 120 bytes, 4 Nodeids - 192 private final DataAccess dataAccess; private List<RevlogStream.PatchRecord> patches; GroupElement(byte[] fourNodeids, DataAccess rawDataAccess) { assert fourNodeids != null && fourNodeids.length == 80; header = fourNodeids; dataAccess = rawDataAccess; } // non-null public Nodeid node() { return Nodeid.fromBinary(header, 0); } // non-null public Nodeid firstParent() { return Nodeid.fromBinary(header, 20); } // non-null public Nodeid secondParent() { return Nodeid.fromBinary(header, 40); } // non-null public Nodeid cset() { // cs seems to be changeset return Nodeid.fromBinary(header, 60); } public DataAccess rawData() { return dataAccess; } public List<RevlogStream.PatchRecord> patches() throws IOException { if (patches == null) { dataAccess.reset(); LinkedList<RevlogStream.PatchRecord> p = new LinkedList<RevlogStream.PatchRecord>(); while (!dataAccess.isEmpty()) { RevlogStream.PatchRecord pr = RevlogStream.PatchRecord.read(dataAccess); p.add(pr); } patches = p; } return patches; } public byte[] apply(DataAccess baseContent) throws IOException { return RevlogStream.apply(baseContent, -1, patches()); } } }