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hyperledger fabric 结构分析(三)

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本文解决的问题是:本Peer节点如何接收其他节点的数据,接到数据如何处理?

之前两节的分析是命令来源是CLI client,如何连接到Devops服务器、如何发送给Consensus模块、如何发送给ChainCodeSupportClient等。

接下来分析本文要讨论的问题

1)在进行网络初始化的过程中执行以下内容,在创建节点Engine过程中该节点作为客户端的身份连接到其他Peer

[cpp] 代码
peerServer, err = peer.NewPeerWithEngine(secHelperFunc, helper.GetEngine)

[cpp] 代码
func (p *Impl) chatWithPeer(address string) error {  
peerLogger.Debugf("Initiating Chat with peer address: %s", address)
conn, err := NewPeerClientConnectionWithAddress(address)
if err != nil {
peerLogger.Errorf("Error creating connection to peer address %s: %s", address, err)
return err
}
serverClient := pb.NewPeerClient(conn)
ctx := context.Background()
stream, err := serverClient.Chat(ctx)
if err != nil {
peerLogger.Errorf("Error establishing chat with peer address %s: %s", address, err)
return err
}
peerLogger.Debugf("Established Chat with peer address: %s", address)
err = p.handleChat(ctx, stream, true)
stream.CloseSend()
if err != nil {
peerLogger.Errorf("Ending Chat with peer address %s due to error: %s", address, err)
return err
}
return nil
}

2.在handleChat执行过程中,建立消息循环,而这里的handler.HandleMessage。这个handler之前介绍过,是Engine的消息响应句柄,该消息响应处理来自于Consensus模块

[cpp] 代码
func (p *Impl) handleChat(ctx context.Context, stream ChatStream, initiatedStream bool) error {
deadline, ok := ctx.Deadline()
peerLogger.Debugf("Current context deadline = %s, ok = %v", deadline, ok)
handler, err := p.handlerFactory(p, stream, initiatedStream, nil)
if err != nil {
return fmt.Errorf("Error creating handler during handleChat initiation: %s", err)
}
defer handler.Stop()
for {
in, err := stream.Recv()
if err == io.EOF {
peerLogger.Debug("Received EOF, ending Chat")
return nil
}
if err != nil {
e := fmt.Errorf("Error during Chat, stopping handler: %s", err)
peerLogger.Error(e.Error())
return e
}
err = handler.HandleMessage(in)
if err != nil {
peerLogger.Errorf("Error handling message: %s", err)
//return err
}
}
}

3.HandleMessage函数consenterChan 这个channel比较重要,该写入操作会触发engine.consensusFan的消息循环

[cpp] 代码
func (handler *ConsensusHandler) HandleMessage(msg *pb.Message) error {
if msg.Type == pb.Message_CONSENSUS {
senderPE, _ := handler.To()
select {
case handler.consenterChan <- &util.Message{
Msg:    msg,
Sender: senderPE.ID,
}:
return nil
default:
err := fmt.Errorf("Message channel for %v full, rejecting", senderPE.ID)
logger.Errorf("Failed to queue consensus message because: %v", err)
return err
}
}
if logger.IsEnabledFor(logging.DEBUG) {
logger.Debugf("Did not handle message of type %s, passing on to next MessageHandler", msg.Type)
}
return handler.MessageHandler.HandleMessage(msg)
}

4.看到RecvMsg这个函数是不是有点眼熟,这个操作和  hyperledger fabric 结构分析 最后一个流程是一样的。

[cpp] 代码
func GetEngine(coord peer.MessageHandlerCoordinator) (peer.Engine, error) {
var err error
engineOnce.Do(func() {
engine = new(EngineImpl)
engine.helper = NewHelper(coord)
engine.consenter = controller.NewConsenter(engine.helper)
engine.helper.setConsenter(engine.consenter)
engine.peerEndpoint, err = coord.GetPeerEndpoint()
engine.consensusFan = util.NewMessageFan()
go func() {
logger.Debug("Starting up message thread for consenter")
// The channel never closes, so this should never break
for msg := range engine.consensusFan.GetOutChannel() {
engine.consenter.RecvMsg(msg.Msg, msg.Sender)
}
}()
})
return engine, err
}

5.再往下的流程与 hyperledger fabric 结构分析(二) 中的一致。
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