/*
* 接收
*
* @param context 上下文
* @param channel 通道
* @param buffer 缓存
* @param readable 缓存可读
* @param bytes 输入缓存
* @param offset 指向已读数据的偏移量,off之前的数据都是已用过的
* @param limit 有效长度,limit之后的长度是空白或无效数据,off到limit之间的数据是准备使用的数据
* @return 后续动作
* @throws IOException
*/
private NextAction receive(
FilterChainContext context,
Channel channel,
Buffer buffer,
int readable,
byte[] bytes,
int offset,
int limit)
throws IOException {
for (; ; ) {
int read = Math.min(readable, bytes.length - limit); // 取bytes缓存空闲区,和可读取新数据,的最小值,即:此次最多读写数据的大小
buffer.get(bytes, limit, read); // 从可读取新数据中,读取数据,尽量填满bytes缓存空闲区
limit += read; // 有效数据变长
readable -= read; // 可读数据变少
UnsafeByteArrayInputStream input =
new UnsafeByteArrayInputStream(
bytes, offset, limit - offset); // 将bytes缓存转成InputStream,不需要关闭
Object msg = upstreamCodec.decode(channel, input); // 调用Codec接口,解码数据
if (msg == Codec.NEED_MORE_INPUT) { // 如果Codec觉得数据不够,不足以解码成一个对象
if (readable == 0) { // 如果没有更多可读数据
channel.setAttribute(
BUFFER_KEY, new Object[] {bytes, offset, limit}); // 放入通道属性中,等待下一个Buffer的到来
return context.getStopAction();
} else { // 扩充或挪出空闲区,并循环,直到可读数据都加载到bytes缓存
if (offset == 0) { // 如果bytes缓存全部没有被使用,如果这时数据还不够
bytes = Bytes.copyOf(bytes, bytes.length << 1); // 将bytes缓存扩大一倍
} else { // 如果bytes缓存有一段数据已被使用
int len = limit - offset; // 计算有效数据长度
System.arraycopy(
bytes, offset, bytes, 0, len); // 将数据向前移到,压缩到已使用的部分,这样limit后面就会多出一些空闲,可以放数据
offset = 0; // 移到后,bytes缓存没有数据被使用
limit = len; // 移到后,有效数据都在bytes缓存最前面
}
}
} else { // 如果解析出一个结果
int position = input.position(); // 记录InputStream用了多少
if (position == offset) { // 如果InputStream没有被读过,就返回了数据,直接报错,否则InputStream永远读不完,会死递归
throw new IOException("Decode without read data.");
}
offset = position; // 记录已读数据
context.setMessage(msg); // 将消息改为解码后的对象,以便被后面的Filter使用。
if (limit - offset > 0 || readable > 0) { // 如果有效数据没有被读完,或者Buffer区还有未读数据
return context.getInvokeAction(
new Object[] {
buffer, readable, bytes, offset, limit
}); // 正常执行完Filter,并重新发起一轮Filter,继续读
} else { // 否则所有数据读完
return context.getInvokeAction(); // 正常执行完Filter
}
}
}
}
@Override
protected void decode(ChannelHandlerContext ctx, ByteBuf input, List<Object> out)
throws Exception {
int readable = input.readableBytes();
if (readable <= 0) {
return;
}
int off, limit;
byte[] buf = mBuffer;
if (buf == null) {
buf = new byte[bufferSize];
off = limit = 0;
} else {
off = mOffset;
limit = mLimit;
}
com.antrou.dubbo.remoting.netty4.NettyChannel channel =
com.antrou.dubbo.remoting.netty4.NettyChannel.getOrAddChannel(
ctx.channel(), url, handler);
boolean remaining = true;
Object msg;
UnsafeByteArrayInputStream bis;
try {
do {
// read data into buffer.
int read = Math.min(readable, buf.length - limit);
input.readBytes(buf, limit, read);
limit += read;
readable -= read;
bis = new UnsafeByteArrayInputStream(buf, off, limit - off);
// decode object.
do {
try {
msg = codec.decode(channel, bis);
} catch (IOException e) {
remaining = false;
throw e;
}
if (msg == Codec.NEED_MORE_INPUT) {
if (off == 0) {
if (readable > 0) {
buf = Bytes.copyOf(buf, buf.length << 1);
}
} else {
int len = limit - off;
System.arraycopy(buf, off, buf, 0, len); // adjust buffer.
off = 0;
limit = len;
}
break;
} else {
int pos = bis.position();
if (off == pos) {
remaining = false;
throw new IOException("Decode without read data.");
}
if (msg != null) {
out.add(msg);
}
off = pos;
}
} while (bis.available() > 0);
} while (readable > 0);
} finally {
if (remaining) {
int len = limit - off;
if (len < buf.length / 2) {
System.arraycopy(buf, off, buf, 0, len);
off = 0;
limit = len;
}
mBuffer = buf;
mOffset = off;
mLimit = limit;
} else {
mBuffer = null;
mOffset = mLimit = 0;
}
com.antrou.dubbo.remoting.netty4.NettyChannel.removeChannelIfDisconnected(ctx.channel());
}
}
