filecoin技术架构分析之六：filecoin源码分析之协议层hello握手协议

本文作者：先河系统杨尉；原创作品，转载请注明出处

上一篇： filecoin技术架构分析之五：filecoin开发网络使用
下一篇：filecoin技术架构分析之七：filecoin源码分析之协议层存储协议

目录

• 6 filecoin源码协议层分析之hello握手协议
  • 6.1 目的
  • 6.2 源码信息
  • 6.3 源码分析
    • 6.3.1 数据结构
    • 6.3.2 方法
    • 6.3.3 函数
    • 6.3.4 实例化及业务逻辑

6.1 目的

• 处理节点上线后的区块同步握手。

6.2 源码信息

• version
  • master分支 619b0eb1（2019年３月２日）
• package
  • hello
• location
  • protocol/hello
  • node/node.go

6.3 源码分析

6.3.1 数据结构

• 定义协议名称

// Protocol is the libp2p protocol identifier for the hello protocol.
const protocol = "/fil/hello/1.0.0"

• 定义hello协议消息体结构
  • TipSet切片
  • TipSet高度
  • 创世区块cid

// Message is the data structure of a single message in the hello protocol.
type Message struct {
	HeaviestTipSetCids   []cid.Cid
	HeaviestTipSetHeight uint64
	GenesisHash          cid.Cid
}

• 同步回调函数类型定义

type syncCallback func(from peer.ID, cids []cid.Cid, height uint64)

• 获取Tipset函数类型定义

type getTipSetFunc func() types.TipSet

• Handler结构体,当连接到其他节点的时候，其一,会发送包含本节点信息的hello 消息给对端节点; 其二, 对端也会回复一个包含对端节点信息的消息体过来。
  • host 对应libp2p上的主机
  • 创世区块cid
  • 区块同步回调函数
  • 获取TipSet的函数

// Handler implements the 'Hello' protocol handler. Upon connecting to a new
// node, we send them a message containing some information about the state of
// our chain, and receive the same information from them. This is used to
// initiate a chainsync and detect connections to forks.
type Handler struct {
	host host.Host

	genesis cid.Cid

	// chainSyncCB is called when new peers tell us about their chain
	chainSyncCB syncCallback

	// getHeaviestTipSet is used to retrieve the current heaviest tipset
	// for filling out our hello messages.
	getHeaviestTipSet getTipSetFunc
}

• 错误的创世区块

// ErrBadGenesis is the error returned when a missmatch in genesis blocks happens.
var ErrBadGenesis = fmt.Errorf("bad genesis block")

• 以上基本是作为hello客户端的一些定义，以下作为hello服务端的一些定义

// New peer connection notifications
type helloNotify Handler

//　连接超时时间
const helloTimeout = time.Second * 10

6.3.2 方法

6.3.2.1 Handler 方法

• 流函数处理，接收远端节点的hello消息

func (h *Handler) handleNewStream(s net.Stream) {
	defer s.Close() // nolint: errcheck

    //获取远端节点实例
	from := s.Conn().RemotePeer()

	var hello Message
    // 读取流信息到hello结构体中
	if err := cbu.NewMsgReader(s).ReadMsg(&hello); err != nil {
		log.Warningf("bad hello message from peer %s: %s", from, err)
		return
	}

    // 调用processHelloMessage方法对接收到的消息进行处理
	switch err := h.processHelloMessage(from, &hello); err {
    // 如果创世区块不一样，关闭流连接退出，不予处理
	case ErrBadGenesis:
		log.Warningf("genesis cid: %s does not match: %s, disconnecting from peer: %s", &hello.GenesisHash, h.genesis, from)
		s.Conn().Close() // nolint: errcheck
		return
	case nil: // ok, noop
	default:
		log.Error(err)
	}
}

• 处理hello消息

func (h *Handler) processHelloMessage(from peer.ID, msg *Message) error {
    // 如果创世区块不一样，报错
	if !msg.GenesisHash.Equals(h.genesis) {
		return ErrBadGenesis
	}

    // 调用区块同步方法
    // 此回调函数实在node包实例化hello协议的时候中定义的
	h.chainSyncCB(from, msg.HeaviestTipSetCids, msg.HeaviestTipSetHeight)
	return nil
}

• 响应远端节点的连接，回复hello消息体

func (h *Handler) getOurHelloMessage() *Message {
	heaviest := h.getHeaviestTipSet()
	height, err := heaviest.Height()
	if err != nil {
		panic("somehow heaviest tipset is empty")
	}

	return &Message{
		GenesisHash:          h.genesis,
		HeaviestTipSetCids:   heaviest.ToSortedCidSet().ToSlice(),
		HeaviestTipSetHeight: height,
	}
}

func (h *Handler) sayHello(ctx context.Context, p peer.ID) error {
	s, err := h.host.NewStream(ctx, p, protocol)
	if err != nil {
		return err
	}
	defer s.Close() // nolint: errcheck

    //获取本节点的hello消息体
	msg := h.getOurHelloMessage()

    //向远端节点发送消息体
	return cbu.NewMsgWriter(s).WriteMsg(&msg)
}

6.3.2.2 helloNotify方法

• hello方法，返回一个handler实例

func (hn *helloNotify) hello() *Handler {
	return (*Handler)(hn)
}

• helloNotify实现了libp2p-net/interface.go中的Notifiee接口

func (hn *helloNotify) Connected(n net.Network, c net.Conn) {
	go func() {
		ctx, cancel := context.WithTimeout(context.Background(), helloTimeout)
		defer cancel()
		p := c.RemotePeer()
        // 有其他节点连接的时候调用sayHello,发送hello消息体
		if err := hn.hello().sayHello(ctx, p); err != nil {
			log.Warningf("failed to send hello handshake to peer %s: %s", p, err)
		}
	}()
}

func (hn *helloNotify) Listen(n net.Network, a ma.Multiaddr)      {}
func (hn *helloNotify) ListenClose(n net.Network, a ma.Multiaddr) {}
func (hn *helloNotify) Disconnected(n net.Network, c net.Conn)    {}
func (hn *helloNotify) OpenedStream(n net.Network, s net.Stream)  {}
func (hn *helloNotify) ClosedStream(n net.Network, s net.Stream)  {}

6.3.3 函数

• 创建hello实例

// New creates a new instance of the hello protocol and registers it to
// the given host, with the provided callbacks.
func New(h host.Host, gen cid.Cid, syncCallback syncCallback, getHeaviestTipSet getTipSetFunc) *Handler {
	hello := &Handler{
		host:              h,
		genesis:           gen,
		chainSyncCB:       syncCallback,
		getHeaviestTipSet: getHeaviestTipSet,
	}

    //设置流处理回调函数
	h.SetStreamHandler(protocol, hello.handleNewStream)

    //注册网络状态改变通知回调函数
	// register for connection notifications
	h.Network().Notify((*helloNotify)(hello))

	return hello
}



//上文中的helloNotify 实现了libp2p-net/interface.go中的Notifiee接口
// Notifiee is an interface for an object wishing to receive
// notifications from a Network.
type Notifiee interface {
	Listen(Network, ma.Multiaddr)      // called when network starts listening on an addr
	ListenClose(Network, ma.Multiaddr) // called when network stops listening on an addr
	Connected(Network, Conn)           // called when a connection opened
	Disconnected(Network, Conn)        // called when a connection closed
	OpenedStream(Network, Stream)      // called when a stream opened
	ClosedStream(Network, Stream)      // called when a stream closed

	// TODO
	// PeerConnected(Network, peer.ID)    // called when a peer connected
	// PeerDisconnected(Network, peer.ID) // called when a peer disconnected
}

6.3.4 实例化及业务逻辑

• location: node/node.go

• Node节点中定义了hello服务

type Node struct {
    ......

	HelloSvc     *hello.Handler
    ......
}

• 启动hello服务

// Start boots up the node.
func (node *Node) Start(ctx context.Context) error {
    ......

	// Start up 'hello' handshake service
    // 定义区块同步的回调函数
	syncCallBack := func(pid libp2ppeer.ID, cids []cid.Cid, height uint64) {
		// TODO it is possible the syncer interface should be modified to
		// make use of the additional context not used here (from addr + height).
		// To keep things simple for now this info is not used.
        // 触发调用会启动同步区块的动作
		err := node.Syncer.HandleNewBlocks(context.Background(), cids)
		if err != nil {
			log.Infof("error handling blocks: %s", types.NewSortedCidSet(cids...).String())
		}
	}
    //实例化hello服务
	node.HelloSvc = hello.New(node.Host(), node.ChainReader.GenesisCid(), syncCallBack, node.ChainReader.Head)

    ......
}

上一篇： filecoin技术架构分析之五：filecoin开发网络使用
下一篇：filecoin技术架构分析之七：filecoin源码分析之协议层存储协议