Java tutorial
/** * Licensed to the Apache Software Foundation (ASF) under one * or more contributor license agreements. See the NOTICE file * distributed with this work for additional information * regarding copyright ownership. The ASF licenses this file * to you under the Apache License, Version 2.0 (the * "License"); you may not use this file except in compliance * with the License. You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ package org.apache.hadoop.hdfs.server.datanode; import java.io.BufferedInputStream; import java.io.DataInputStream; import java.io.DataOutputStream; import java.io.FileInputStream; import java.io.IOException; import java.io.InputStream; import java.io.OutputStream; import java.net.SocketException; import java.nio.ByteBuffer; import java.nio.channels.FileChannel; import java.util.Arrays; import org.apache.commons.logging.Log; import org.apache.hadoop.fs.ChecksumException; import org.apache.hadoop.hdfs.protocol.Block; import org.apache.hadoop.hdfs.protocol.FSConstants; import org.apache.hadoop.hdfs.protocol.DataTransferProtocol.PacketHeader; import org.apache.hadoop.io.IOUtils; import org.apache.hadoop.net.SocketOutputStream; import org.apache.hadoop.util.DataChecksum; import org.apache.hadoop.util.StringUtils; /** * Reads a block from the disk and sends it to a recipient. */ public class RaidBlockSender implements java.io.Closeable, FSConstants { public static final Log LOG = DataNode.LOG; static final Log ClientTraceLog = DataNode.ClientTraceLog; private Block block; // the block to read from /** the replica to read from */ private final Replica replica = null; /** The visible length of a replica. */ private final long replicaVisibleLength; private InputStream blockIn; // data stream private long blockInPosition = -1; // updated while using transferTo(). private DataInputStream checksumIn; // checksum datastream private DataChecksum checksum; // checksum stream private long offset; // starting position to read private long endOffset; // ending position private int bytesPerChecksum; // chunk size private int checksumSize; // checksum size private boolean corruptChecksumOk; // if need to verify checksum private boolean chunkOffsetOK; // if need to send chunk offset private long seqno; // sequence number of packet private boolean transferToAllowed = true; private boolean blockReadFully; //set when the whole block is read private boolean verifyChecksum; //if true, check is verified while reading private final String clientTraceFmt; // format of client trace log message /** * Minimum buffer used while sending data to clients. Used only if * transferTo() is enabled. 64KB is not that large. It could be larger, but * not sure if there will be much more improvement. */ private static final int MIN_BUFFER_WITH_TRANSFERTO = 64 * 1024; private volatile ChunkChecksum lastChunkChecksum = null; public RaidBlockSender(Block block, long blockLength, long startOffset, long length, boolean corruptChecksumOk, boolean chunkOffsetOK, boolean verifyChecksum, boolean transferToAllowed, DataInputStream metadataIn, InputStreamFactory streamFactory) throws IOException { this(block, blockLength, startOffset, length, corruptChecksumOk, chunkOffsetOK, verifyChecksum, transferToAllowed, metadataIn, streamFactory, null); } public RaidBlockSender(Block block, long blockLength, long startOffset, long length, boolean corruptChecksumOk, boolean chunkOffsetOK, boolean verifyChecksum, boolean transferToAllowed, DataInputStream metadataIn, InputStreamFactory streamFactory, String clientTraceFmt) throws IOException { try { this.block = block; ChunkChecksum chunkChecksum = null; this.chunkOffsetOK = chunkOffsetOK; this.corruptChecksumOk = corruptChecksumOk; this.verifyChecksum = verifyChecksum; this.replicaVisibleLength = blockLength; this.transferToAllowed = transferToAllowed; this.clientTraceFmt = clientTraceFmt; if (!corruptChecksumOk || metadataIn != null) { this.checksumIn = metadataIn; // read and handle the common header here. For now just a version BlockMetadataHeader header = BlockMetadataHeader.readHeader(checksumIn); short version = header.getVersion(); if (version != FSDataset.METADATA_VERSION) { LOG.warn("Wrong version (" + version + ") for metadata file for " + block + " ignoring ..."); } checksum = header.getChecksum(); } else { LOG.warn("Could not find metadata file for " + block); // This only decides the buffer size. Use BUFFER_SIZE? checksum = DataChecksum.newDataChecksum(DataChecksum.CHECKSUM_NULL, 16 * 1024); } /* If bytesPerChecksum is very large, then the metadata file * is mostly corrupted. For now just truncate bytesPerchecksum to * blockLength. */ bytesPerChecksum = checksum.getBytesPerChecksum(); if (bytesPerChecksum > 10 * 1024 * 1024 && bytesPerChecksum > replicaVisibleLength) { checksum = DataChecksum.newDataChecksum(checksum.getChecksumType(), Math.max((int) replicaVisibleLength, 10 * 1024 * 1024)); bytesPerChecksum = checksum.getBytesPerChecksum(); } checksumSize = checksum.getChecksumSize(); if (length < 0) { length = replicaVisibleLength; } // end is either last byte on disk or the length for which we have a // checksum if (chunkChecksum != null) { endOffset = chunkChecksum.getDataLength(); } else { endOffset = blockLength; } if (startOffset < 0 || startOffset > endOffset || (length + startOffset) > endOffset) { String msg = " Offset " + startOffset + " and length " + length + " don't match block " + block + " ( blockLen " + endOffset + " )"; LOG.warn("sendBlock() : " + msg); throw new IOException(msg); } offset = (startOffset - (startOffset % bytesPerChecksum)); if (length >= 0) { // Make sure endOffset points to end of a checksumed chunk. long tmpLen = startOffset + length; if (tmpLen % bytesPerChecksum != 0) { tmpLen += (bytesPerChecksum - tmpLen % bytesPerChecksum); } if (tmpLen < endOffset) { // will use on-disk checksum here since the end is a stable chunk endOffset = tmpLen; } else if (chunkChecksum != null) { //in last chunk which is changing. flag that we need to use in-memory // checksum this.lastChunkChecksum = chunkChecksum; } } // seek to the right offsets if (offset > 0) { long checksumSkip = (offset / bytesPerChecksum) * checksumSize; // note blockInStream is seeked when created below if (checksumSkip > 0) { // Should we use seek() for checksum file as well? IOUtils.skipFully(checksumIn, checksumSkip); } } seqno = 0; blockIn = streamFactory.createStream(offset); } catch (IOException ioe) { IOUtils.closeStream(this); IOUtils.closeStream(blockIn); throw ioe; } } /** * close opened files. */ public void close() throws IOException { IOException ioe = null; // close checksum file if (checksumIn != null) { try { checksumIn.close(); } catch (IOException e) { ioe = e; } checksumIn = null; } // close data file if (blockIn != null) { try { blockIn.close(); } catch (IOException e) { ioe = e; } blockIn = null; } // throw IOException if there is any if (ioe != null) { throw ioe; } } /** * Converts an IOExcpetion (not subclasses) to SocketException. * This is typically done to indicate to upper layers that the error * was a socket error rather than often more serious exceptions like * disk errors. */ private static IOException ioeToSocketException(IOException ioe) { if (ioe.getClass().equals(IOException.class)) { // "se" could be a new class in stead of SocketException. IOException se = new SocketException("Original Exception : " + ioe); se.initCause(ioe); /* Change the stacktrace so that original trace is not truncated * when printed.*/ se.setStackTrace(ioe.getStackTrace()); return se; } // otherwise just return the same exception. return ioe; } /** * Sends upto maxChunks chunks of data. * * When blockInPosition is >= 0, assumes 'out' is a * {@link SocketOutputStream} and tries * {@link SocketOutputStream#transferToFully(FileChannel, long, int)} to * send data (and updates blockInPosition). */ private int sendChunks(ByteBuffer pkt, int maxChunks, OutputStream out) throws IOException { // Sends multiple chunks in one packet with a single write(). int len = (int) Math.min(endOffset - offset, (((long) bytesPerChecksum) * ((long) maxChunks))); int numChunks = (len + bytesPerChecksum - 1) / bytesPerChecksum; int packetLen = len + numChunks * checksumSize + 4; boolean lastDataPacket = offset + len == endOffset && len > 0; pkt.clear(); PacketHeader header = new PacketHeader(packetLen, offset, seqno, (len == 0), len); header.putInBuffer(pkt); int checksumOff = pkt.position(); int checksumLen = numChunks * checksumSize; byte[] buf = pkt.array(); if (checksumSize > 0 && checksumIn != null) { try { checksumIn.readFully(buf, checksumOff, checksumLen); } catch (IOException e) { LOG.warn(" Could not read or failed to veirfy checksum for data" + " at offset " + offset + " for block " + block + " got : " + StringUtils.stringifyException(e)); IOUtils.closeStream(checksumIn); checksumIn = null; if (corruptChecksumOk) { if (checksumOff < checksumLen) { // Just fill the array with zeros. Arrays.fill(buf, checksumOff, checksumLen, (byte) 0); } } else { throw e; } } // write in progress that we need to use to get last checksum if (lastDataPacket && lastChunkChecksum != null) { int start = checksumOff + checksumLen - checksumSize; byte[] updatedChecksum = lastChunkChecksum.getChecksum(); if (updatedChecksum != null) { System.arraycopy(updatedChecksum, 0, buf, start, checksumSize); } } } int dataOff = checksumOff + checksumLen; if (blockInPosition < 0) { //normal transfer IOUtils.readFully(blockIn, buf, dataOff, len); if (verifyChecksum) { int dOff = dataOff; int cOff = checksumOff; int dLeft = len; for (int i = 0; i < numChunks; i++) { checksum.reset(); int dLen = Math.min(dLeft, bytesPerChecksum); checksum.update(buf, dOff, dLen); if (!checksum.compare(buf, cOff)) { long failedPos = offset + len - dLeft; throw new ChecksumException("Checksum failed at " + failedPos, failedPos); } dLeft -= dLen; dOff += dLen; cOff += checksumSize; } } //writing is done below (mainly to handle IOException) } try { if (blockInPosition >= 0) { //use transferTo(). Checks on out and blockIn are already done. SocketOutputStream sockOut = (SocketOutputStream) out; //first write the packet sockOut.write(buf, 0, dataOff); // no need to flush. since we know out is not a buffered stream. sockOut.transferToFully(((FileInputStream) blockIn).getChannel(), blockInPosition, len); blockInPosition += len; } else { // normal transfer out.write(buf, 0, dataOff + len); } } catch (IOException e) { /* exception while writing to the client (well, with transferTo(), * it could also be while reading from the local file). */ throw ioeToSocketException(e); } return len; } /** * sendBlock() is used to read block and its metadata and stream the data to * either a client or to another datanode. * * @param out stream to which the block is written to * @param baseStream optional. if non-null, <code>out</code> is assumed to * be a wrapper over this stream. This enables optimizations for * sending the data, e.g. * {@link SocketOutputStream#transferToFully(FileChannel, * long, int)}. * @return total bytes reads, including crc. */ public long sendBlock(DataOutputStream out, OutputStream baseStream) throws IOException { if (out == null) { throw new IOException("out stream is null"); } long initialOffset = offset; long totalRead = 0; OutputStream streamForSendChunks = out; final long startTime = ClientTraceLog.isInfoEnabled() ? System.nanoTime() : 0; try { try { checksum.writeHeader(out); if (chunkOffsetOK) { out.writeLong(offset); } out.flush(); } catch (IOException e) { //socket error throw ioeToSocketException(e); } int maxChunksPerPacket; int pktSize = PacketHeader.PKT_HEADER_LEN; if (transferToAllowed && !verifyChecksum && baseStream instanceof SocketOutputStream && blockIn instanceof FileInputStream) { FileChannel fileChannel = ((FileInputStream) blockIn).getChannel(); // blockInPosition also indicates sendChunks() uses transferTo. blockInPosition = fileChannel.position(); streamForSendChunks = baseStream; // assure a mininum buffer size. maxChunksPerPacket = (Math.max(BUFFER_SIZE, MIN_BUFFER_WITH_TRANSFERTO) + bytesPerChecksum - 1) / bytesPerChecksum; // allocate smaller buffer while using transferTo(). pktSize += checksumSize * maxChunksPerPacket; } else { maxChunksPerPacket = Math.max(1, (BUFFER_SIZE + bytesPerChecksum - 1) / bytesPerChecksum); pktSize += (bytesPerChecksum + checksumSize) * maxChunksPerPacket; } ByteBuffer pktBuf = ByteBuffer.allocate(pktSize); while (endOffset > offset) { long len = sendChunks(pktBuf, maxChunksPerPacket, streamForSendChunks); offset += len; totalRead += len + ((len + bytesPerChecksum - 1) / bytesPerChecksum * checksumSize); seqno++; } try { // send an empty packet to mark the end of the block sendChunks(pktBuf, maxChunksPerPacket, streamForSendChunks); out.flush(); } catch (IOException e) { //socket error throw ioeToSocketException(e); } } finally { if (clientTraceFmt != null) { final long endTime = System.nanoTime(); ClientTraceLog.info(String.format(clientTraceFmt, totalRead, initialOffset, endTime - startTime)); } close(); } blockReadFully = initialOffset == 0 && offset >= replicaVisibleLength; return totalRead; } boolean isBlockReadFully() { return blockReadFully; } public static interface InputStreamFactory { public InputStream createStream(long offset) throws IOException; } private static class BlockInputStreamFactory implements InputStreamFactory { private final Block block; private final FSDatasetInterface data; private BlockInputStreamFactory(Block block, FSDatasetInterface data) { this.block = block; this.data = data; } @Override public InputStream createStream(long offset) throws IOException { return data.getBlockInputStream(block, offset); } } }