Mercurial > hg4j
view src/org/tmatesoft/hg/internal/RevlogStream.java @ 338:3cfa4d908fc9
Add options to control DataAccessProvider, allow to turn off use of file memory mapping in particular to solve potential sharing violation (os file handle gets released on MappedByteByffer being GC'd, not on FileChannel.close())
author | Artem Tikhomirov <tikhomirov.artem@gmail.com> |
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date | Tue, 15 Nov 2011 04:47:03 +0100 |
parents | 694ebabb5cb3 |
children | 8da7ade36c57 |
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/* * Copyright (c) 2010-2011 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.internal; import static org.tmatesoft.hg.repo.HgRepository.BAD_REVISION; import static org.tmatesoft.hg.repo.HgRepository.TIP; import java.io.File; import java.io.IOException; import java.util.zip.Inflater; import org.tmatesoft.hg.core.HgBadStateException; import org.tmatesoft.hg.core.Nodeid; import org.tmatesoft.hg.repo.HgInternals; import org.tmatesoft.hg.repo.HgRepository; /** * ? Single RevlogStream per file per repository with accessor to record access session (e.g. with back/forward operations), * or numerous RevlogStream with separate representation of the underlying data (cached, lazy ChunkStream)? * * @see http://mercurial.selenic.com/wiki/Revlog * @see http://mercurial.selenic.com/wiki/RevlogNG * * @author Artem Tikhomirov * @author TMate Software Ltd. */ public class RevlogStream { /* * makes sense for index with inline data only - actual offset of the record in the .i file (record entry + revision * record size)) * * long[] in fact (there are 8-bytes field in the revlog) * However, (a) DataAccess currently doesn't operate with long seek/length * and, of greater significance, (b) files with inlined data are designated for smaller files, * guess, about 130 Kb, and offset there won't ever break int capacity */ private int[] indexRecordOffset; private int[] baseRevisions; private boolean inline = false; private final File indexFile; private final DataAccessProvider dataAccess; // if we need anything else from HgRepo, might replace DAP parameter with HgRepo and query it for DAP. public RevlogStream(DataAccessProvider dap, File indexFile) { this.dataAccess = dap; this.indexFile = indexFile; } /*package*/ DataAccess getIndexStream() { // XXX may supply a hint that I'll need really few bytes of data (perhaps, at some offset) // to avoid mmap files when only few bytes are to be read (i.e. #dataLength()) return dataAccess.create(indexFile); } /*package*/ DataAccess getDataStream() { final String indexName = indexFile.getName(); File dataFile = new File(indexFile.getParentFile(), indexName.substring(0, indexName.length() - 1) + "d"); return dataAccess.create(dataFile); } public int revisionCount() { initOutline(); return baseRevisions.length; } /** * @throws HgBadStateException if internal read operation failed */ public int dataLength(int revision) { // XXX in fact, use of iterate() instead of this implementation may be quite reasonable. // final int indexSize = revisionCount(); DataAccess daIndex = getIndexStream(); if (revision == TIP) { revision = indexSize - 1; } try { int recordOffset = getIndexOffsetInt(revision); daIndex.seek(recordOffset + 12); // 6+2+4 int actualLen = daIndex.readInt(); return actualLen; } catch (IOException ex) { ex.printStackTrace(); // log error. FIXME better handling throw new HgBadStateException(ex); } finally { daIndex.done(); } } /** * @throws HgBadStateException if internal read operation failed */ public byte[] nodeid(int revision) { final int indexSize = revisionCount(); if (revision == TIP) { revision = indexSize - 1; } if (revision < 0 || revision >= indexSize) { throw new IllegalArgumentException(Integer.toString(revision)); } DataAccess daIndex = getIndexStream(); try { int recordOffset = getIndexOffsetInt(revision); daIndex.seek(recordOffset + 32); byte[] rv = new byte[20]; daIndex.readBytes(rv, 0, 20); return rv; } catch (IOException ex) { ex.printStackTrace(); throw new HgBadStateException(); } finally { daIndex.done(); } } /** * Get link field from the index record. * @throws HgBadStateException if internal read operation failed */ public int linkRevision(int revision) { final int last = revisionCount() - 1; if (revision == TIP) { revision = last; } if (revision < 0 || revision > last) { throw new IllegalArgumentException(Integer.toString(revision)); } DataAccess daIndex = getIndexStream(); try { int recordOffset = getIndexOffsetInt(revision); daIndex.seek(recordOffset + 20); int linkRev = daIndex.readInt(); return linkRev; } catch (IOException ex) { ex.printStackTrace(); throw new HgBadStateException(); } finally { daIndex.done(); } } // Perhaps, RevlogStream should be limited to use of plain int revisions for access, // while Nodeids should be kept on the level up, in Revlog. Guess, Revlog better keep // map of nodeids, and once this comes true, we may get rid of this method. // Unlike its counterpart, {@link Revlog#getLocalRevisionNumber()}, doesn't fail with exception if node not found, /** * @return integer in [0..revisionCount()) or {@link HgRepository#BAD_REVISION} if not found */ public int findLocalRevisionNumber(Nodeid nodeid) { // XXX this one may be implemented with iterate() once there's mechanism to stop iterations final int indexSize = revisionCount(); DataAccess daIndex = getIndexStream(); try { byte[] nodeidBuf = new byte[20]; for (int i = 0; i < indexSize; i++) { daIndex.skip(8); int compressedLen = daIndex.readInt(); daIndex.skip(20); daIndex.readBytes(nodeidBuf, 0, 20); if (nodeid.equalsTo(nodeidBuf)) { return i; } daIndex.skip(inline ? 12 + compressedLen : 12); } } catch (IOException ex) { ex.printStackTrace(); // log error. FIXME better handling. Perhaps, shall return BAD_REVISION here as well? throw new IllegalStateException(ex); } finally { daIndex.done(); } return BAD_REVISION; } private final int REVLOGV1_RECORD_SIZE = 64; // should be possible to use TIP, ALL, or -1, -2, -n notation of Hg // ? boolean needsNodeid public void iterate(int start, int end, boolean needData, Inspector inspector) { initOutline(); final int indexSize = revisionCount(); if (indexSize == 0) { return; } if (end == TIP) { end = indexSize - 1; } if (start == TIP) { start = indexSize - 1; } HgInternals.checkRevlogRange(start, end, indexSize-1); // XXX may cache [start .. end] from index with a single read (pre-read) ReaderN1 r = new ReaderN1(needData, inspector); try { r.start(end - start + 1); r.range(start, end); } catch (IOException ex) { throw new HgBadStateException(ex); // FIXME need better handling } finally { r.finish(); } } /** * Effective alternative to {@link #iterate(int, int, boolean, Inspector) batch read}, when only few selected * revisions are of interest. * @param sortedRevisions revisions to walk, in ascending order. * @param needData whether inspector needs access to header only * @param inspector callback to process entries */ public void iterate(int[] sortedRevisions, boolean needData, Inspector inspector) { final int indexSize = revisionCount(); if (indexSize == 0 || sortedRevisions.length == 0) { return; } if (sortedRevisions[0] > indexSize || sortedRevisions[sortedRevisions.length - 1] > indexSize) { throw new IllegalArgumentException(String.format("Can't iterate [%d, %d] in range [0..%d]", sortedRevisions[0], sortedRevisions[sortedRevisions.length - 1], indexSize)); } ReaderN1 r = new ReaderN1(needData, inspector); try { r.start(sortedRevisions.length); for (int i = 0; i < sortedRevisions.length; ) { int x = i; i++; while (i < sortedRevisions.length) { if (sortedRevisions[i] == sortedRevisions[i-1] + 1) { i++; } else { break; } } // commitRevisions[x..i-1] are sequential if (!r.range(sortedRevisions[x], sortedRevisions[i-1])) { return; } } } catch (IOException ex) { throw new HgBadStateException(ex); // FIXME need better handling } finally { r.finish(); } } private int getBaseRevision(int revision) { return baseRevisions[revision]; } /** * @return offset of the revision's record in the index (.i) stream */ private int getIndexOffsetInt(int revision) { return inline ? indexRecordOffset[revision] : revision * REVLOGV1_RECORD_SIZE; } private void initOutline() { if (baseRevisions != null && baseRevisions.length > 0) { return; } DataAccess da = getIndexStream(); try { if (da.isEmpty()) { // do not fail with exception if stream is empty, it's likely intentional baseRevisions = new int[0]; return; } int versionField = da.readInt(); da.readInt(); // just to skip next 4 bytes of offset + flags final int INLINEDATA = 1 << 16; inline = (versionField & INLINEDATA) != 0; IntVector resBases, resOffsets = null; int entryCountGuess = da.length() / REVLOGV1_RECORD_SIZE; if (inline) { entryCountGuess >>>= 2; // pure guess, assume useful data takes 3/4 of total space resOffsets = new IntVector(entryCountGuess, 5000); } resBases = new IntVector(entryCountGuess, 5000); long offset = 0; // first offset is always 0, thus Hg uses it for other purposes while(true) { int compressedLen = da.readInt(); // 8+4 = 12 bytes total read here @SuppressWarnings("unused") int actualLen = da.readInt(); int baseRevision = da.readInt(); // 12 + 8 = 20 bytes read here // int linkRevision = di.readInt(); // int parent1Revision = di.readInt(); // int parent2Revision = di.readInt(); // byte[] nodeid = new byte[32]; resBases.add(baseRevision); if (inline) { int o = (int) offset; if (o != offset) { // just in case, can't happen, ever, unless HG (or some other bad tool) produces index file // with inlined data of size greater than 2 Gb. throw new HgBadStateException("Data too big, offset didn't fit to sizeof(int)"); } resOffsets.add(o + REVLOGV1_RECORD_SIZE * resOffsets.size()); da.skip(3*4 + 32 + compressedLen); // Check: 44 (skip) + 20 (read) = 64 (total RevlogNG record size) } else { da.skip(3*4 + 32); } if (da.isEmpty()) { // fine, done then baseRevisions = resBases.toArray(true); if (inline) { indexRecordOffset = resOffsets.toArray(true); } break; } else { // start reading next record long l = da.readLong(); offset = l >>> 16; } } } catch (IOException ex) { ex.printStackTrace(); // log error // too bad, no outline then, but don't fail with NPE baseRevisions = new int[0]; } finally { da.done(); } } /** * operation with single file open/close and multiple diverse reads. * XXX initOutline might need similar extraction to keen N1 format knowledge */ class ReaderN1 { private final Inspector inspector; private final boolean needData; private DataAccess daIndex = null, daData = null; private Lifecycle.BasicCallback cb = null; private int lastRevisionRead = BAD_REVISION; private DataAccess lastUserData; // next are to track two major bottlenecks - patch application and actual time spent in inspector // private long applyTime, inspectorTime; // TIMING public ReaderN1(boolean needData, Inspector insp) { assert insp != null; this.needData = needData; inspector = insp; } public void start(int totalWork) { daIndex = getIndexStream(); if (needData && !inline) { daData = getDataStream(); } if (inspector instanceof Lifecycle) { cb = new Lifecycle.BasicCallback(); ((Lifecycle) inspector).start(totalWork, cb, cb); } // applyTime = inspectorTime = 0; // TIMING } public void finish() { if (lastUserData != null) { lastUserData.done(); lastUserData = null; } if (inspector instanceof Lifecycle) { ((Lifecycle) inspector).finish(cb); } daIndex.done(); if (daData != null) { daData.done(); } // System.out.printf("applyTime:%d ms, inspectorTime: %d ms\n", applyTime, inspectorTime); // TIMING } public boolean range(int start, int end) throws IOException { byte[] nodeidBuf = new byte[20]; int i; // it (i.e. replace with i >= start) if (needData && (i = getBaseRevision(start)) < start) { // if lastRevisionRead in [baseRevision(start), start) can reuse lastUserData // doesn't make sense to reuse if lastRevisionRead == start (too much to change in the cycle below). if (lastRevisionRead != BAD_REVISION && i <= lastRevisionRead && lastRevisionRead < start) { i = lastRevisionRead + 1; // start with first not-yet-read revision } else { if (lastUserData != null) { lastUserData.done(); lastUserData = null; } } } else { // don't need to clean lastUserData as it's always null when !needData i = start; } daIndex.seek(getIndexOffsetInt(i)); // // reuse some instances final Patch patch = new Patch(); final Inflater inflater = new Inflater(); // can share buffer between instances of InflaterDataAccess as I never read any two of them in parallel final byte[] inflaterBuffer = new byte[1024]; // for (; i <= end; i++ ) { if (inline && needData) { // inspector reading data (though FilterDataAccess) may have affected index position daIndex.seek(getIndexOffsetInt(i)); } long l = daIndex.readLong(); // 0 long offset = i == 0 ? 0 : (l >>> 16); @SuppressWarnings("unused") int flags = (int) (l & 0X0FFFF); int compressedLen = daIndex.readInt(); // +8 int actualLen = daIndex.readInt(); // +12 int baseRevision = daIndex.readInt(); // +16 int linkRevision = daIndex.readInt(); // +20 int parent1Revision = daIndex.readInt(); int parent2Revision = daIndex.readInt(); // Hg has 32 bytes here, uses 20 for nodeid, and keeps 12 last bytes empty daIndex.readBytes(nodeidBuf, 0, 20); // +32 daIndex.skip(12); DataAccess userDataAccess = null; if (needData) { int streamOffset; DataAccess streamDataAccess; if (inline) { streamDataAccess = daIndex; streamOffset = getIndexOffsetInt(i) + REVLOGV1_RECORD_SIZE; // don't need to do seek as it's actual position in the index stream } else { streamOffset = (int) offset; streamDataAccess = daData; daData.seek(streamOffset); } final boolean patchToPrevious = baseRevision != i; // the only way I found to tell if it's a patch if (streamDataAccess.isEmpty()) { userDataAccess = new DataAccess(); // empty } else { final byte firstByte = streamDataAccess.readByte(); if (firstByte == 0x78 /* 'x' */) { inflater.reset(); userDataAccess = new InflaterDataAccess(streamDataAccess, streamOffset, compressedLen, patchToPrevious ? -1 : actualLen, inflater, inflaterBuffer); } else if (firstByte == 0x75 /* 'u' */) { userDataAccess = new FilterDataAccess(streamDataAccess, streamOffset+1, compressedLen-1); } else { // XXX Python impl in fact throws exception when there's not 'x', 'u' or '0' // but I don't see reason not to return data as is userDataAccess = new FilterDataAccess(streamDataAccess, streamOffset, compressedLen); } } // XXX if (patchToPrevious) { // this is a patch patch.read(userDataAccess); userDataAccess.done(); // // it shall be reset at the end of prev iteration, when it got assigned from userDataAccess // however, actual userDataAccess and lastUserData may share Inflater object, which needs to be reset // Alternatively, userDataAccess.done() above may be responsible to reset Inflater (if it's InflaterDataAccess) lastUserData.reset(); // final long startMeasuring = System.currentTimeMillis(); // TIMING byte[] userData = patch.apply(lastUserData, actualLen); // applyTime += (System.currentTimeMillis() - startMeasuring); // TIMING patch.clear(); // do not keep any reference, allow byte[] data to be gc'd userDataAccess = new ByteArrayDataAccess(userData); } } else { if (inline) { daIndex.skip(compressedLen); } } if (i >= start) { // final long startMeasuring = System.currentTimeMillis(); // TIMING inspector.next(i, actualLen, baseRevision, linkRevision, parent1Revision, parent2Revision, nodeidBuf, userDataAccess); // inspectorTime += (System.currentTimeMillis() - startMeasuring); // TIMING } if (cb != null) { if (cb.isStopped()) { return false; } } if (userDataAccess != null) { userDataAccess.reset(); // not sure this is necessary here, as lastUserData would get reset anyway before next use. } if (lastUserData != null) { lastUserData.done(); } lastUserData = userDataAccess; } lastRevisionRead = end; return true; } } public interface Inspector { // XXX boolean retVal to indicate whether to continue? // TODO specify nodeid and data length, and reuse policy (i.e. if revlog stream doesn't reuse nodeid[] for each call) // implementers shall not invoke DataAccess.done(), it's accomplished by #iterate at appropraite moment void next(int revisionNumber, int actualLen, int baseRevision, int linkRevision, int parent1Revision, int parent2Revision, byte[/*20*/] nodeid, DataAccess data); } }