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/*
 * Copyright 2011 Google Inc.
 * Copyright 2014 Andreas Schildbach
 *
 * Licensed 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.bitcoinj.core;

import org.slf4j.Logger;
import org.slf4j.LoggerFactory;

import java.io.IOException;
import java.io.OutputStream;
import java.nio.BufferUnderflowException;
import java.nio.ByteBuffer;
import java.util.HashMap;
import java.util.Map;

import static org.bitcoinj.core.Utils.*;

/**
 * 

Methods to serialize and de-serialize messages to the Bitcoin network format as defined in * the protocol specification.

* *

To be able to serialize and deserialize new Message subclasses the following criteria needs to be met.

* *
    *
  • The proper Class instance needs to be mapped to its message name in the names variable below
  • *
  • There needs to be a constructor matching: NetworkParameters params, byte[] payload
  • *
  • Message.bitcoinSerializeToStream() needs to be properly subclassed
  • *
*/ public class BitcoinSerializer extends MessageSerializer { private static final Logger log = LoggerFactory.getLogger(BitcoinSerializer.class); private static final int COMMAND_LEN = 12; private final NetworkParameters params; private final boolean parseRetain; private static final Map, String> names = new HashMap<>(); static { names.put(VersionMessage.class, "version"); names.put(InventoryMessage.class, "inv"); names.put(Block.class, "block"); names.put(GetDataMessage.class, "getdata"); names.put(Transaction.class, "tx"); names.put(AddressMessage.class, "addr"); names.put(Ping.class, "ping"); names.put(Pong.class, "pong"); names.put(VersionAck.class, "verack"); names.put(GetBlocksMessage.class, "getblocks"); names.put(GetHeadersMessage.class, "getheaders"); names.put(GetAddrMessage.class, "getaddr"); names.put(HeadersMessage.class, "headers"); names.put(BloomFilter.class, "filterload"); names.put(FilteredBlock.class, "merkleblock"); names.put(NotFoundMessage.class, "notfound"); names.put(MemoryPoolMessage.class, "mempool"); names.put(RejectMessage.class, "reject"); names.put(GetUTXOsMessage.class, "getutxos"); names.put(UTXOsMessage.class, "utxos"); names.put(SendHeadersMessage.class, "sendheaders"); } /** * Constructs a BitcoinSerializer with the given behavior. * * @param params networkParams used to create Messages instances and termining packetMagic * @param parseRetain retain the backing byte array of a message for fast reserialization. */ public BitcoinSerializer(NetworkParameters params, boolean parseRetain) { this.params = params; this.parseRetain = parseRetain; } /** * Writes message to to the output stream. */ @Override public void serialize(String name, byte[] message, OutputStream out) throws IOException { byte[] header = new byte[4 + COMMAND_LEN + 4 + 4 /* checksum */]; uint32ToByteArrayBE(params.getPacketMagic(), header, 0); // The header array is initialized to zero by Java so we don't have to worry about // NULL terminating the string here. for (int i = 0; i < name.length() && i < COMMAND_LEN; i++) { header[4 + i] = (byte) (name.codePointAt(i) & 0xFF); } Utils.uint32ToByteArrayLE(message.length, header, 4 + COMMAND_LEN); byte[] hash = Sha256Hash.hashTwice(message); System.arraycopy(hash, 0, header, 4 + COMMAND_LEN + 4, 4); out.write(header); out.write(message); if (log.isDebugEnabled()) log.debug("Sending {} message: {}", name, HEX.encode(header) + HEX.encode(message)); } /** * Writes message to to the output stream. */ @Override public void serialize(Message message, OutputStream out) throws IOException { String name = names.get(message.getClass()); if (name == null) { throw new Error("BitcoinSerializer doesn't currently know how to serialize " + message.getClass()); } serialize(name, message.bitcoinSerialize(), out); } /** * Reads a message from the given ByteBuffer and returns it. */ @Override public Message deserialize(ByteBuffer in) throws ProtocolException, IOException { // A Bitcoin protocol message has the following format. // // - 4 byte magic number: 0xfabfb5da for the testnet or // 0xf9beb4d9 for production // - 12 byte command in ASCII // - 4 byte payload size // - 4 byte checksum // - Payload data // // The checksum is the first 4 bytes of a SHA256 hash of the message payload. It isn't // present for all messages, notably, the first one on a connection. // // Bitcoin Core ignores garbage before the magic header bytes. We have to do the same because // sometimes it sends us stuff that isn't part of any message. seekPastMagicBytes(in); BitcoinPacketHeader header = new BitcoinPacketHeader(in); // Now try to read the whole message. return deserializePayload(header, in); } /** * Deserializes only the header in case packet meta data is needed before decoding * the payload. This method assumes you have already called seekPastMagicBytes() */ @Override public BitcoinPacketHeader deserializeHeader(ByteBuffer in) throws ProtocolException, IOException { return new BitcoinPacketHeader(in); } /** * Deserialize payload only. You must provide a header, typically obtained by calling * {@link BitcoinSerializer#deserializeHeader}. */ @Override public Message deserializePayload(BitcoinPacketHeader header, ByteBuffer in) throws ProtocolException, BufferUnderflowException { byte[] payloadBytes = new byte[header.size]; in.get(payloadBytes, 0, header.size); // Verify the checksum. byte[] hash; hash = Sha256Hash.hashTwice(payloadBytes); if (header.checksum[0] != hash[0] || header.checksum[1] != hash[1] || header.checksum[2] != hash[2] || header.checksum[3] != hash[3]) { throw new ProtocolException("Checksum failed to verify, actual " + HEX.encode(hash) + " vs " + HEX.encode(header.checksum)); } if (log.isDebugEnabled()) { log.debug("Received {} byte '{}' message: {}", header.size, header.command, HEX.encode(payloadBytes)); } try { return makeMessage(header.command, header.size, payloadBytes, hash, header.checksum); } catch (Exception e) { throw new ProtocolException("Error deserializing message " + HEX.encode(payloadBytes) + "\n", e); } } private Message makeMessage(String command, int length, byte[] payloadBytes, byte[] hash, byte[] checksum) throws ProtocolException { // We use an if ladder rather than reflection because reflection is very slow on Android. Message message; if (command.equals("version")) { return new VersionMessage(params, payloadBytes); } else if (command.equals("inv")) { message = makeInventoryMessage(payloadBytes, length); } else if (command.equals("block")) { message = makeBlock(payloadBytes, length); } else if (command.equals("merkleblock")) { message = makeFilteredBlock(payloadBytes); } else if (command.equals("getdata")) { message = new GetDataMessage(params, payloadBytes, this, length); } else if (command.equals("getblocks")) { message = new GetBlocksMessage(params, payloadBytes); } else if (command.equals("getheaders")) { message = new GetHeadersMessage(params, payloadBytes); } else if (command.equals("tx")) { message = makeTransaction(payloadBytes, 0, length, hash); } else if (command.equals("addr")) { message = makeAddressMessage(payloadBytes, length); } else if (command.equals("ping")) { message = new Ping(params, payloadBytes); } else if (command.equals("pong")) { message = new Pong(params, payloadBytes); } else if (command.equals("verack")) { return new VersionAck(params, payloadBytes); } else if (command.equals("headers")) { return new HeadersMessage(params, payloadBytes); } else if (command.equals("alert")) { return makeAlertMessage(payloadBytes); } else if (command.equals("filterload")) { return makeBloomFilter(payloadBytes); } else if (command.equals("notfound")) { return new NotFoundMessage(params, payloadBytes); } else if (command.equals("mempool")) { return new MemoryPoolMessage(); } else if (command.equals("reject")) { return new RejectMessage(params, payloadBytes); } else if (command.equals("utxos")) { return new UTXOsMessage(params, payloadBytes); } else if (command.equals("getutxos")) { return new GetUTXOsMessage(params, payloadBytes); } else if (command.equals("sendheaders")) { return new SendHeadersMessage(params, payloadBytes); } else { log.warn("No support for deserializing message with name {}", command); return new UnknownMessage(params, command, payloadBytes); } return message; } /** * Get the network parameters for this serializer. */ public NetworkParameters getParameters() { return params; } /** * Make an address message from the payload. Extension point for alternative * serialization format support. */ @Override public AddressMessage makeAddressMessage(byte[] payloadBytes, int length) throws ProtocolException { return new AddressMessage(params, payloadBytes, this, length); } /** * Make an alert message from the payload. Extension point for alternative * serialization format support. */ @Override public Message makeAlertMessage(byte[] payloadBytes) throws ProtocolException { return new AlertMessage(params, payloadBytes); } /** * Make a block from the payload. Extension point for alternative * serialization format support. */ @Override public Block makeBlock(final byte[] payloadBytes, final int offset, final int length) throws ProtocolException { return new Block(params, payloadBytes, offset, this, length); } /** * Make an filter message from the payload. Extension point for alternative * serialization format support. */ @Override public Message makeBloomFilter(byte[] payloadBytes) throws ProtocolException { return new BloomFilter(params, payloadBytes); } /** * Make a filtered block from the payload. Extension point for alternative * serialization format support. */ @Override public FilteredBlock makeFilteredBlock(byte[] payloadBytes) throws ProtocolException { return new FilteredBlock(params, payloadBytes); } /** * Make an inventory message from the payload. Extension point for alternative * serialization format support. */ @Override public InventoryMessage makeInventoryMessage(byte[] payloadBytes, int length) throws ProtocolException { return new InventoryMessage(params, payloadBytes, this, length); } /** * Make a transaction from the payload. Extension point for alternative * serialization format support. */ @Override public Transaction makeTransaction(byte[] payloadBytes, int offset, int length, byte[] payloadHash) throws ProtocolException { Transaction tx = new Transaction(params, payloadBytes, offset, null, this, length); if (payloadHash != null && !tx.hasWitness()) // We can only use this optimization if payloadHash equals the transaction hash (aka txid). This is not the // case for transactions with witnesses. In this case, the transaction hash will be computed later. tx.setHash(Sha256Hash.wrapReversed(payloadHash)); return tx; } @Override public void seekPastMagicBytes(ByteBuffer in) throws BufferUnderflowException { int magicCursor = 3; // Which byte of the magic we're looking for currently. while (true) { byte b = in.get(); // We're looking for a run of bytes that is the same as the packet magic but we want to ignore partial // magics that aren't complete. So we keep track of where we're up to with magicCursor. byte expectedByte = (byte)(0xFF & params.getPacketMagic() >>> (magicCursor * 8)); if (b == expectedByte) { magicCursor--; if (magicCursor < 0) { // We found the magic sequence. return; } else { // We still have further to go to find the next message. } } else { magicCursor = 3; } } } /** * Whether the serializer will produce cached mode Messages */ @Override public boolean isParseRetainMode() { return parseRetain; } public static class BitcoinPacketHeader { /** The largest number of bytes that a header can represent */ public static final int HEADER_LENGTH = COMMAND_LEN + 4 + 4; public final byte[] header; public final String command; public final int size; public final byte[] checksum; public BitcoinPacketHeader(ByteBuffer in) throws ProtocolException, BufferUnderflowException { header = new byte[HEADER_LENGTH]; in.get(header, 0, header.length); int cursor = 0; // The command is a NULL terminated string, unless the command fills all twelve bytes // in which case the termination is implicit. for (; header[cursor] != 0 && cursor < COMMAND_LEN; cursor++) ; byte[] commandBytes = new byte[cursor]; System.arraycopy(header, 0, commandBytes, 0, cursor); command = Utils.toString(commandBytes, "US-ASCII"); cursor = COMMAND_LEN; size = (int) readUint32(header, cursor); cursor += 4; if (size > Message.MAX_SIZE || size < 0) throw new ProtocolException("Message size too large: " + size); // Old clients don't send the checksum. checksum = new byte[4]; // Note that the size read above includes the checksum bytes. System.arraycopy(header, cursor, checksum, 0, 4); cursor += 4; } } }




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