protected void encodeRequest(Channel channel, ChannelBuffer buffer, Request req)
throws IOException {
Serialization serialization = getSerialization(channel);
// header.
byte[] header = new byte[HEADER_LENGTH];
// set magic number.
Bytes.short2bytes(MAGIC, header);
// set request and serialization flag.
header[2] = (byte) (FLAG_REQUEST | serialization.getContentTypeId());
if (req.isTwoWay()) header[2] |= FLAG_TWOWAY;
if (req.isEvent()) header[2] |= FLAG_EVENT;
// set request id.
Bytes.long2bytes(req.getId(), header, 4);
// encode request data.
int savedWriteIndex = buffer.writerIndex();
buffer.writerIndex(savedWriteIndex + HEADER_LENGTH);
ChannelBufferOutputStream bos = new ChannelBufferOutputStream(buffer);
ObjectOutput out = serialization.serialize(channel.getUrl(), bos);
try {
if (req.isEvent()) {
encodeEventData(channel, out, req.getData());
} else {
encodeRequestData(channel, out, req.getData());
}
out.flushBuffer();
} finally {
// modified by lishen
if (out instanceof Cleanable) {
((Cleanable) out).cleanup();
}
}
bos.flush();
bos.close();
int len = bos.writtenBytes();
checkPayload(channel, len);
Bytes.int2bytes(len, header, 12);
// write
buffer.writerIndex(savedWriteIndex);
buffer.writeBytes(header); // write header.
buffer.writerIndex(savedWriteIndex + HEADER_LENGTH + len);
}
/**
* ExchangeCodec.
*
* @author qianlei
* @author william.liangf
*/
public class ExchangeCodec extends TelnetCodec {
private static final Logger logger = LoggerFactory.getLogger(ExchangeCodec.class);
// header length.
protected static final int HEADER_LENGTH = 16;
// magic header.
protected static final short MAGIC = (short) 0xdabb;
protected static final byte MAGIC_HIGH = Bytes.short2bytes(MAGIC)[0];
protected static final byte MAGIC_LOW = Bytes.short2bytes(MAGIC)[1];
// message flag.
protected static final byte FLAG_REQUEST = (byte) 0x80;
protected static final byte FLAG_TWOWAY = (byte) 0x40;
protected static final byte FLAG_EVENT = (byte) 0x20;
protected static final int SERIALIZATION_MASK = 0x1f;
public Short getMagicCode() {
return MAGIC;
}
public void encode(Channel channel, ChannelBuffer buffer, Object msg) throws IOException {
if (msg instanceof Request) {
encodeRequest(channel, buffer, (Request) msg);
} else if (msg instanceof Response) {
encodeResponse(channel, buffer, (Response) msg);
} else {
super.encode(channel, buffer, msg);
}
// TODO modified by lishen
// System.out.println(">>>>>>>>>>>>>>>>>>>>>> the resulting byte size of encoding is " +
// buffer.readableBytes());
if (logger.isTraceEnabled()) {
logger.trace("the resulting byte size of encoding is " + buffer.readableBytes());
}
}
public Object decode(Channel channel, ChannelBuffer buffer) throws IOException {
int readable = buffer.readableBytes();
byte[] header = new byte[Math.min(readable, HEADER_LENGTH)];
buffer.readBytes(header);
return decode(channel, buffer, readable, header);
}
protected Object decode(Channel channel, ChannelBuffer buffer, int readable, byte[] header)
throws IOException {
// check magic number.
if (readable > 0 && header[0] != MAGIC_HIGH || readable > 1 && header[1] != MAGIC_LOW) {
int length = header.length;
if (header.length < readable) {
header = Bytes.copyOf(header, readable);
buffer.readBytes(header, length, readable - length);
}
for (int i = 1; i < header.length - 1; i++) {
if (header[i] == MAGIC_HIGH && header[i + 1] == MAGIC_LOW) {
buffer.readerIndex(buffer.readerIndex() - header.length + i);
header = Bytes.copyOf(header, i);
break;
}
}
return super.decode(channel, buffer, readable, header);
}
// check length.
if (readable < HEADER_LENGTH) {
return DecodeResult.NEED_MORE_INPUT;
}
// get data length.
int len = Bytes.bytes2int(header, 12);
checkPayload(channel, len);
int tt = len + HEADER_LENGTH;
if (readable < tt) {
return DecodeResult.NEED_MORE_INPUT;
}
// limit input stream.
ChannelBufferInputStream is = new ChannelBufferInputStream(buffer, len);
try {
return decodeBody(channel, is, header);
} finally {
if (is.available() > 0) {
try {
if (logger.isWarnEnabled()) {
logger.warn("Skip input stream " + is.available());
}
StreamUtils.skipUnusedStream(is);
} catch (IOException e) {
logger.warn(e.getMessage(), e);
}
}
}
}
protected Object decodeBody(Channel channel, InputStream is, byte[] header) throws IOException {
byte flag = header[2], proto = (byte) (flag & SERIALIZATION_MASK);
Serialization s = CodecSupport.getSerialization(channel.getUrl(), proto);
ObjectInput in = s.deserialize(channel.getUrl(), is);
// get request id.
long id = Bytes.bytes2long(header, 4);
if ((flag & FLAG_REQUEST) == 0) {
// decode response.
Response res = new Response(id);
if ((flag & FLAG_EVENT) != 0) {
res.setEvent(Response.HEARTBEAT_EVENT);
}
// get status.
byte status = header[3];
res.setStatus(status);
if (status == Response.OK) {
try {
Object data;
if (res.isHeartbeat()) {
data = decodeHeartbeatData(channel, in);
} else if (res.isEvent()) {
data = decodeEventData(channel, in);
} else {
data = decodeResponseData(channel, in, getRequestData(id));
}
res.setResult(data);
} catch (Throwable t) {
res.setStatus(Response.CLIENT_ERROR);
res.setErrorMessage(StringUtils.toString(t));
}
} else {
res.setErrorMessage(in.readUTF());
}
return res;
} else {
// decode request.
Request req = new Request(id);
req.setVersion("2.0.0");
req.setTwoWay((flag & FLAG_TWOWAY) != 0);
if ((flag & FLAG_EVENT) != 0) {
req.setEvent(Request.HEARTBEAT_EVENT);
}
try {
Object data;
if (req.isHeartbeat()) {
data = decodeHeartbeatData(channel, in);
} else if (req.isEvent()) {
data = decodeEventData(channel, in);
} else {
data = decodeRequestData(channel, in);
}
req.setData(data);
} catch (Throwable t) {
// bad request
req.setBroken(true);
req.setData(t);
}
return req;
}
}
protected Object getRequestData(long id) {
DefaultFuture future = DefaultFuture.getFuture(id);
if (future == null) return null;
Request req = future.getRequest();
if (req == null) return null;
return req.getData();
}
protected void encodeRequest(Channel channel, ChannelBuffer buffer, Request req)
throws IOException {
Serialization serialization = getSerialization(channel);
// header.
byte[] header = new byte[HEADER_LENGTH];
// set magic number.
Bytes.short2bytes(MAGIC, header);
// set request and serialization flag.
header[2] = (byte) (FLAG_REQUEST | serialization.getContentTypeId());
if (req.isTwoWay()) header[2] |= FLAG_TWOWAY;
if (req.isEvent()) header[2] |= FLAG_EVENT;
// set request id.
Bytes.long2bytes(req.getId(), header, 4);
// encode request data.
int savedWriteIndex = buffer.writerIndex();
buffer.writerIndex(savedWriteIndex + HEADER_LENGTH);
ChannelBufferOutputStream bos = new ChannelBufferOutputStream(buffer);
ObjectOutput out = serialization.serialize(channel.getUrl(), bos);
try {
if (req.isEvent()) {
encodeEventData(channel, out, req.getData());
} else {
encodeRequestData(channel, out, req.getData());
}
out.flushBuffer();
} finally {
// modified by lishen
if (out instanceof Cleanable) {
((Cleanable) out).cleanup();
}
}
bos.flush();
bos.close();
int len = bos.writtenBytes();
checkPayload(channel, len);
Bytes.int2bytes(len, header, 12);
// write
buffer.writerIndex(savedWriteIndex);
buffer.writeBytes(header); // write header.
buffer.writerIndex(savedWriteIndex + HEADER_LENGTH + len);
}
protected void encodeResponse(Channel channel, ChannelBuffer buffer, Response res)
throws IOException {
try {
Serialization serialization = getSerialization(channel);
// header.
byte[] header = new byte[HEADER_LENGTH];
// set magic number.
Bytes.short2bytes(MAGIC, header);
// set request and serialization flag.
header[2] = serialization.getContentTypeId();
if (res.isHeartbeat()) header[2] |= FLAG_EVENT;
// set response status.
byte status = res.getStatus();
header[3] = status;
// set request id.
Bytes.long2bytes(res.getId(), header, 4);
int savedWriteIndex = buffer.writerIndex();
buffer.writerIndex(savedWriteIndex + HEADER_LENGTH);
ChannelBufferOutputStream bos = new ChannelBufferOutputStream(buffer);
ObjectOutput out = serialization.serialize(channel.getUrl(), bos);
try {
// encode response data or error message.
if (status == Response.OK) {
if (res.isHeartbeat()) {
encodeHeartbeatData(channel, out, res.getResult());
} else {
encodeResponseData(channel, out, res.getResult());
}
} else out.writeUTF(res.getErrorMessage());
out.flushBuffer();
} finally {
// modified by lishen
if (out instanceof Cleanable) {
((Cleanable) out).cleanup();
}
}
bos.flush();
bos.close();
int len = bos.writtenBytes();
checkPayload(channel, len);
Bytes.int2bytes(len, header, 12);
// write
buffer.writerIndex(savedWriteIndex);
buffer.writeBytes(header); // write header.
buffer.writerIndex(savedWriteIndex + HEADER_LENGTH + len);
} catch (Throwable t) {
// 发送失败信息给Consumer,否则Consumer只能等超时了
if (!res.isEvent() && res.getStatus() != Response.BAD_RESPONSE) {
try {
// FIXME 在Codec中打印出错日志?在IoHanndler的caught中统一处理?
logger.warn(
"Fail to encode response: "
+ res
+ ", send bad_response info instead, cause: "
+ t.getMessage(),
t);
Response r = new Response(res.getId(), res.getVersion());
r.setStatus(Response.BAD_RESPONSE);
r.setErrorMessage(
"Failed to send response: " + res + ", cause: " + StringUtils.toString(t));
channel.send(r);
return;
} catch (RemotingException e) {
logger.warn(
"Failed to send bad_response info back: " + res + ", cause: " + e.getMessage(), e);
}
}
// 重新抛出收到的异常
if (t instanceof IOException) {
throw (IOException) t;
} else if (t instanceof RuntimeException) {
throw (RuntimeException) t;
} else if (t instanceof Error) {
throw (Error) t;
} else {
throw new RuntimeException(t.getMessage(), t);
}
}
}
@Override
protected Object decodeData(ObjectInput in) throws IOException {
return decodeRequestData(in);
}
@Deprecated
protected Object decodeHeartbeatData(ObjectInput in) throws IOException {
try {
return in.readObject();
} catch (ClassNotFoundException e) {
throw new IOException(StringUtils.toString("Read object failed.", e));
}
}
protected Object decodeRequestData(ObjectInput in) throws IOException {
try {
return in.readObject();
} catch (ClassNotFoundException e) {
throw new IOException(StringUtils.toString("Read object failed.", e));
}
}
protected Object decodeResponseData(ObjectInput in) throws IOException {
try {
return in.readObject();
} catch (ClassNotFoundException e) {
throw new IOException(StringUtils.toString("Read object failed.", e));
}
}
@Override
protected void encodeData(ObjectOutput out, Object data) throws IOException {
encodeRequestData(out, data);
}
private void encodeEventData(ObjectOutput out, Object data) throws IOException {
out.writeObject(data);
}
@Deprecated
protected void encodeHeartbeatData(ObjectOutput out, Object data) throws IOException {
encodeEventData(out, data);
}
protected void encodeRequestData(ObjectOutput out, Object data) throws IOException {
out.writeObject(data);
}
protected void encodeResponseData(ObjectOutput out, Object data) throws IOException {
out.writeObject(data);
}
@Override
protected Object decodeData(Channel channel, ObjectInput in) throws IOException {
return decodeRequestData(channel, in);
}
protected Object decodeEventData(Channel channel, ObjectInput in) throws IOException {
try {
return in.readObject();
} catch (ClassNotFoundException e) {
throw new IOException(StringUtils.toString("Read object failed.", e));
}
}
@Deprecated
protected Object decodeHeartbeatData(Channel channel, ObjectInput in) throws IOException {
try {
return in.readObject();
} catch (ClassNotFoundException e) {
throw new IOException(StringUtils.toString("Read object failed.", e));
}
}
protected Object decodeRequestData(Channel channel, ObjectInput in) throws IOException {
return decodeRequestData(in);
}
protected Object decodeResponseData(Channel channel, ObjectInput in) throws IOException {
return decodeResponseData(in);
}
protected Object decodeResponseData(Channel channel, ObjectInput in, Object requestData)
throws IOException {
return decodeResponseData(channel, in);
}
@Override
protected void encodeData(Channel channel, ObjectOutput out, Object data) throws IOException {
encodeRequestData(channel, out, data);
}
private void encodeEventData(Channel channel, ObjectOutput out, Object data) throws IOException {
encodeEventData(out, data);
}
@Deprecated
protected void encodeHeartbeatData(Channel channel, ObjectOutput out, Object data)
throws IOException {
encodeHeartbeatData(out, data);
}
protected void encodeRequestData(Channel channel, ObjectOutput out, Object data)
throws IOException {
encodeRequestData(out, data);
}
protected void encodeResponseData(Channel channel, ObjectOutput out, Object data)
throws IOException {
encodeResponseData(out, data);
}
}
protected void encodeResponse(Channel channel, ChannelBuffer buffer, Response res)
throws IOException {
try {
Serialization serialization = getSerialization(channel);
// header.
byte[] header = new byte[HEADER_LENGTH];
// set magic number.
Bytes.short2bytes(MAGIC, header);
// set request and serialization flag.
header[2] = serialization.getContentTypeId();
if (res.isHeartbeat()) header[2] |= FLAG_EVENT;
// set response status.
byte status = res.getStatus();
header[3] = status;
// set request id.
Bytes.long2bytes(res.getId(), header, 4);
int savedWriteIndex = buffer.writerIndex();
buffer.writerIndex(savedWriteIndex + HEADER_LENGTH);
ChannelBufferOutputStream bos = new ChannelBufferOutputStream(buffer);
ObjectOutput out = serialization.serialize(channel.getUrl(), bos);
try {
// encode response data or error message.
if (status == Response.OK) {
if (res.isHeartbeat()) {
encodeHeartbeatData(channel, out, res.getResult());
} else {
encodeResponseData(channel, out, res.getResult());
}
} else out.writeUTF(res.getErrorMessage());
out.flushBuffer();
} finally {
// modified by lishen
if (out instanceof Cleanable) {
((Cleanable) out).cleanup();
}
}
bos.flush();
bos.close();
int len = bos.writtenBytes();
checkPayload(channel, len);
Bytes.int2bytes(len, header, 12);
// write
buffer.writerIndex(savedWriteIndex);
buffer.writeBytes(header); // write header.
buffer.writerIndex(savedWriteIndex + HEADER_LENGTH + len);
} catch (Throwable t) {
// 发送失败信息给Consumer,否则Consumer只能等超时了
if (!res.isEvent() && res.getStatus() != Response.BAD_RESPONSE) {
try {
// FIXME 在Codec中打印出错日志?在IoHanndler的caught中统一处理?
logger.warn(
"Fail to encode response: "
+ res
+ ", send bad_response info instead, cause: "
+ t.getMessage(),
t);
Response r = new Response(res.getId(), res.getVersion());
r.setStatus(Response.BAD_RESPONSE);
r.setErrorMessage(
"Failed to send response: " + res + ", cause: " + StringUtils.toString(t));
channel.send(r);
return;
} catch (RemotingException e) {
logger.warn(
"Failed to send bad_response info back: " + res + ", cause: " + e.getMessage(), e);
}
}
// 重新抛出收到的异常
if (t instanceof IOException) {
throw (IOException) t;
} else if (t instanceof RuntimeException) {
throw (RuntimeException) t;
} else if (t instanceof Error) {
throw (Error) t;
} else {
throw new RuntimeException(t.getMessage(), t);
}
}
}
