Java tutorial
/* * The Alluxio Open Foundation licenses this work under the Apache License, version 2.0 * (the "License"). You may not use this work except in compliance with the License, which is * available at www.apache.org/licenses/LICENSE-2.0 * * This software is distributed on an "AS IS" basis, WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, * either express or implied, as more fully set forth in the License. * * See the NOTICE file distributed with this work for information regarding copyright ownership. */ package alluxio.network.protocol; import alluxio.network.protocol.databuffer.DataBuffer; import alluxio.network.protocol.databuffer.DataByteBuffer; import com.google.common.base.Objects; import com.google.common.primitives.Longs; import io.netty.buffer.ByteBuf; import java.nio.ByteBuffer; import javax.annotation.concurrent.ThreadSafe; /** * This represents the request to write a block to a DataServer. */ @ThreadSafe public final class RPCBlockWriteRequest extends RPCRequest { private final long mSessionId; private final long mBlockId; private final long mOffset; private final long mLength; private final DataBuffer mData; /** * Constructs a new request to write a block to a DataServer. * * @param sessionId the id of the session * @param blockId the id of the block * @param offset the block offset to begin writing at * @param length the number of bytes to write * @param data the data */ public RPCBlockWriteRequest(long sessionId, long blockId, long offset, long length, DataBuffer data) { mSessionId = sessionId; mBlockId = blockId; mOffset = offset; mLength = length; mData = data; } @Override public Type getType() { return Type.RPC_BLOCK_WRITE_REQUEST; } /** * Decodes the input {@link ByteBuf} into a {@link RPCBlockWriteRequest} object and returns it. * * @param in the input {@link ByteBuf} * @return The decoded RPCBlockWriteRequest object */ public static RPCBlockWriteRequest decode(ByteBuf in) { long sessionId = in.readLong(); long blockId = in.readLong(); long offset = in.readLong(); long length = in.readLong(); // TODO(gene): Look into accessing Netty ByteBuf directly, to avoid copying the data. // Length will always be greater than 0 if the request is not corrupted. If length is negative, // ByteBuffer.allocate will fail. If length is 0 this will become a no-op but still go through // the necessary calls to validate the sessionId/blockId. If length is positive, the request // will proceed as normal ByteBuffer buffer = ByteBuffer.allocate((int) length); in.readBytes(buffer); DataByteBuffer data = new DataByteBuffer(buffer, (int) length); return new RPCBlockWriteRequest(sessionId, blockId, offset, length, data); } @Override public int getEncodedLength() { // 4 longs (mSessionId, mBlockId, mOffset, mLength) return Longs.BYTES * 4; } @Override public void encode(ByteBuf out) { out.writeLong(mSessionId); out.writeLong(mBlockId); out.writeLong(mOffset); out.writeLong(mLength); // The actual payload is not encoded here, since the RPCMessageEncoder will transfer it in a // more efficient way. } @Override public DataBuffer getPayloadDataBuffer() { return mData; } @Override public String toString() { return Objects.toStringHelper(this).add("blockId", mBlockId).add("offset", mOffset).add("length", mLength) .add("sessionId", mSessionId).toString(); } /** * @return the id of the session */ public long getSessionId() { return mSessionId; } /** * @return the id of the block */ public long getBlockId() { return mBlockId; } /** * @return the number of bytes to write */ public long getLength() { return mLength; } /** * @return the block offset to begin writing at */ public long getOffset() { return mOffset; } }