Mercurial > jhg
view src/org/tmatesoft/hg/internal/DataAccessProvider.java @ 632:54e16ab771ec v1.1rc2
Progress/cancel for HgDiffCommand. Renamed execute method
author | Artem Tikhomirov <tikhomirov.artem@gmail.com> |
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date | Thu, 30 May 2013 16:13:43 +0200 |
parents | 868b2ffdcd5c |
children | 12a4f60ea972 |
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/* * Copyright (c) 2010-2013 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.util.LogFacility.Severity.Error; import static org.tmatesoft.hg.util.LogFacility.Severity.Warn; import java.io.File; import java.io.FileInputStream; import java.io.FileOutputStream; import java.io.IOException; import java.nio.ByteBuffer; import java.nio.MappedByteBuffer; import java.nio.channels.FileChannel; import org.tmatesoft.hg.core.HgIOException; import org.tmatesoft.hg.core.SessionContext; import org.tmatesoft.hg.util.LogFacility; /** * * @author Artem Tikhomirov * @author TMate Software Ltd. */ public class DataAccessProvider { /** * Boundary to start using file memory mapping instead of regular file access, in bytes. * Set to 0 to indicate mapping files into memory shall not be used. * If set to -1, file of any size would be mapped in memory. */ public static final String CFG_PROPERTY_MAPIO_LIMIT = "hg4j.dap.mapio_limit"; public static final String CFG_PROPERTY_MAPIO_BUFFER_SIZE = "hg4j.dap.mapio_buffer"; public static final String CFG_PROPERTY_FILE_BUFFER_SIZE = "hg4j.dap.file_buffer"; private static final int DEFAULT_MAPIO_LIMIT = 100 * 1024; // 100 kB private static final int DEFAULT_FILE_BUFFER = 8 * 1024; // 8 kB private static final int DEFAULT_MAPIO_BUFFER = DEFAULT_MAPIO_LIMIT; // same as default boundary private final int mapioMagicBoundary; private final int bufferSize, mapioBufSize; private final SessionContext context; public DataAccessProvider(SessionContext ctx) { context = ctx; PropertyMarshal pm = new PropertyMarshal(ctx); mapioMagicBoundary = mapioBoundaryValue(pm.getInt(CFG_PROPERTY_MAPIO_LIMIT, DEFAULT_MAPIO_LIMIT)); bufferSize = pm.getInt(CFG_PROPERTY_FILE_BUFFER_SIZE, DEFAULT_FILE_BUFFER); mapioBufSize = pm.getInt(CFG_PROPERTY_MAPIO_BUFFER_SIZE, DEFAULT_MAPIO_BUFFER); } public DataAccessProvider(SessionContext ctx, int mapioBoundary, int regularBufferSize, int mapioBufferSize) { context = ctx; mapioMagicBoundary = mapioBoundaryValue(mapioBoundary); bufferSize = regularBufferSize; mapioBufSize = mapioBufferSize; } // ensure contract of CFG_PROPERTY_MAPIO_LIMIT, for mapioBoundary == 0 use MAX_VALUE so that no file is memmap-ed private static int mapioBoundaryValue(int mapioBoundary) { return mapioBoundary == 0 ? Integer.MAX_VALUE : mapioBoundary; } public DataAccess createReader(File f, boolean shortRead) { if (!f.exists()) { return new DataAccess(); } try { FileInputStream fis = new FileInputStream(f); long flen = f.length(); if (!shortRead && flen > mapioMagicBoundary) { // TESTS: bufLen of 1024 was used to test MemMapFileAccess return new MemoryMapFileAccess(fis, flen, mapioBufSize, context.getLog()); } else { // XXX once implementation is more or less stable, // may want to try ByteBuffer.allocateDirect() to see // if there's any performance gain. boolean useDirectBuffer = false; // XXX might be another config option // TESTS: bufferSize of 100 was used to check buffer underflow states when readBytes reads chunks bigger than bufSize return new FileAccess(fis, flen, bufferSize, useDirectBuffer, context.getLog()); } } catch (IOException ex) { // unlikely to happen, we've made sure file exists. context.getLog().dump(getClass(), Error, ex, null); } return new DataAccess(); // non-null, empty. } public DataSerializer createWriter(final Transaction tr, File f, boolean createNewIfDoesntExist) { if (!f.exists() && !createNewIfDoesntExist) { return new DataSerializer(); } // TODO invert RevlogStreamWriter to send DataSource here instead of grabbing DataSerializer // to control the moment transaction gets into play and whether it fails or not return new TransactionAwareFileSerializer(tr, f); } private static class MemoryMapFileAccess extends DataAccess { private FileInputStream fileStream; private FileChannel fileChannel; private long position = 0; // always points to buffer's absolute position in the file private MappedByteBuffer buffer; private final long size; private final int memBufferSize; private final LogFacility logFacility; public MemoryMapFileAccess(FileInputStream fis, long channelSize, int bufferSize, LogFacility log) { fileStream = fis; fileChannel = fis.getChannel(); size = channelSize; logFacility = log; memBufferSize = bufferSize > channelSize ? (int) channelSize : bufferSize; // no reason to waste memory more than there's data } @Override public boolean isEmpty() { return position + (buffer == null ? 0 : buffer.position()) >= size; } @Override public DataAccess reset() throws IOException { longSeek(0); return this; } @Override public int length() { return Internals.ltoi(longLength()); } @Override public long longLength() { return size; } @Override public void longSeek(long offset) { assert offset >= 0; // offset may not necessarily be further than current position in the file (e.g. rewind) if (buffer != null && /*offset is within buffer*/ offset >= position && (offset - position) < buffer.limit()) { // cast is ok according to check above buffer.position(Internals.ltoi(offset - position)); } else { position = offset; buffer = null; } } @Override public void seek(int offset) { longSeek(offset); } @Override public void skip(int bytes) throws IOException { assert bytes >= 0; if (buffer == null) { position += bytes; return; } if (buffer.remaining() > bytes) { buffer.position(buffer.position() + bytes); } else { position += buffer.position() + bytes; buffer = null; } } private void fill() throws IOException { if (buffer != null) { position += buffer.position(); } long left = size - position; for (int i = 0; i < 3; i++) { try { buffer = fileChannel.map(FileChannel.MapMode.READ_ONLY, position, left < memBufferSize ? left : memBufferSize); return; } catch (IOException ex) { if (i == 2) { throw ex; } if (i == 0) { // if first attempt failed, try to free some virtual memory, see Issue 30 for details logFacility.dump(getClass(), Warn, ex, "Memory-map failed, gonna try gc() to free virtual memory"); } try { buffer = null; System.gc(); Thread.sleep((1+i) * 1000); } catch (Throwable t) { logFacility.dump(getClass(), Error, t, "Bad luck"); } } } } @Override public void readBytes(byte[] buf, int offset, int length) throws IOException { if (buffer == null || !buffer.hasRemaining()) { fill(); } // XXX in fact, we may try to create a MappedByteBuffer of exactly length size here, and read right away while (length > 0) { int tail = buffer.remaining(); if (tail == 0) { throw new IOException(); } if (tail >= length) { buffer.get(buf, offset, length); } else { buffer.get(buf, offset, tail); fill(); } offset += tail; length -= tail; } } @Override public byte readByte() throws IOException { if (buffer == null || !buffer.hasRemaining()) { fill(); } if (buffer.hasRemaining()) { return buffer.get(); } throw new IOException(); } @Override public void done() { buffer = null; if (fileStream != null) { new FileUtils(logFacility).closeQuietly(fileStream); fileStream = null; fileChannel = null; // channel is closed together with stream } } } // (almost) regular file access - FileChannel and buffers. private static class FileAccess extends DataAccess { private FileInputStream fileStream; private FileChannel fileChannel; private ByteBuffer buffer; private long bufferStartInFile = 0; // offset of this.buffer in the file. private final long size; private final LogFacility logFacility; public FileAccess(FileInputStream fis, long channelSize, int bufferSizeHint, boolean useDirect, LogFacility log) { fileStream = fis; fileChannel = fis.getChannel(); size = channelSize; logFacility = log; final int capacity = size < bufferSizeHint ? (int) size : bufferSizeHint; buffer = useDirect ? ByteBuffer.allocateDirect(capacity) : ByteBuffer.allocate(capacity); buffer.flip(); // or .limit(0) to indicate it's empty } @Override public boolean isEmpty() { return bufferStartInFile + buffer.position() >= size; } @Override public DataAccess reset() throws IOException { longSeek(0); return this; } @Override public int length() { return Internals.ltoi(longLength()); } @Override public long longLength() { return size; } @Override public void longSeek(long offset) throws IOException { if (offset > size) { throw new IllegalArgumentException(String.format("Can't seek to %d for the file of size %d (buffer start:%d)", offset, size, bufferStartInFile)); } if (offset < bufferStartInFile + buffer.limit() && offset >= bufferStartInFile) { // cast to int is safe, we've checked we fit into buffer buffer.position(Internals.ltoi(offset - bufferStartInFile)); } else { // out of current buffer, invalidate it (force re-read) // XXX or ever re-read it right away? bufferStartInFile = offset; buffer.clear(); buffer.limit(0); // or .flip() to indicate we switch to reading fileChannel.position(offset); } } @Override public void seek(int offset) throws IOException { longSeek(offset); } @Override public void skip(int bytes) throws IOException { final int newPos = buffer.position() + bytes; if (newPos >= 0 && newPos < buffer.limit()) { // no need to move file pointer, just rewind/seek buffer buffer.position(newPos); } else { // longSeek(bufferStartInFile + newPos); } } private boolean fill() throws IOException { if (!buffer.hasRemaining()) { bufferStartInFile += buffer.limit(); buffer.clear(); if (bufferStartInFile < size) { // just in case there'd be any exception on EOF, not -1 fileChannel.read(buffer); // may return -1 when EOF, but empty will reflect this, hence no explicit support here } buffer.flip(); } return buffer.hasRemaining(); } @Override public void readBytes(byte[] buf, int offset, int length) throws IOException { if (!buffer.hasRemaining()) { fill(); } while (length > 0) { int tail = buffer.remaining(); if (tail == 0) { throw new IOException(); // shall not happen provided stream contains expected data and no attempts to read past isEmpty() == true are made. } if (tail >= length) { buffer.get(buf, offset, length); } else { buffer.get(buf, offset, tail); fill(); } offset += tail; length -= tail; } } @Override public byte readByte() throws IOException { if (buffer.hasRemaining()) { return buffer.get(); } if (fill()) { return buffer.get(); } throw new IOException(); } @Override public void done() { buffer = null; if (fileStream != null) { new FileUtils(logFacility).closeQuietly(fileStream); fileStream = null; fileChannel = null; } } } /** * Appends serialized changes to the end of the file */ private static class TransactionAwareFileSerializer extends DataSerializer { private final Transaction transaction; private final File file; private FileOutputStream fos; private File transactionFile; private boolean writeFailed = false; public TransactionAwareFileSerializer(Transaction tr, File f) { transaction = tr; file = f; } @Override public void write(byte[] data, int offset, int length) throws HgIOException { try { if (fos == null) { transactionFile = transaction.prepare(file); fos = new FileOutputStream(transactionFile, true); } fos.write(data, offset, length); fos.flush(); } catch (IOException ex) { writeFailed = true; transaction.failure(transactionFile, ex); throw new HgIOException("Write failure", ex, transactionFile); } } @Override public void done() throws HgIOException { if (fos != null) { assert transactionFile != null; try { fos.close(); if (!writeFailed) { // XXX, Transaction#done() assumes there's no error , but perhaps it's easier to // rely on #failure(), and call #done() always (or change #done() to #success() transaction.done(transactionFile); } fos = null; } catch (IOException ex) { if (!writeFailed) { // do not eclipse original exception transaction.failure(transactionFile, ex); } throw new HgIOException("Write failure", ex, transactionFile); } } } } }