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package eth

import (
    "container/list"
    "github.com/ethereum/ethchain-go"
    "github.com/ethereum/ethdb-go"
    "github.com/ethereum/ethutil-go"
    "github.com/ethereum/ethwire-go"
    "log"
    "net"
    "sync"
    "sync/atomic"
    "time"
)

func eachPeer(peers *list.List, callback func(*Peer, *list.Element)) {
    // Loop thru the peers and close them (if we had them)
    for e := peers.Front(); e != nil; e = e.Next() {
        if peer, ok := e.Value.(*Peer); ok {
            callback(peer, e)
        }
    }
}

const (
    processReapingTimeout = 60 // TODO increase
)

type Ethereum struct {
    // Channel for shutting down the ethereum
    shutdownChan chan bool
    // DB interface
    //db *ethdb.LDBDatabase
    db *ethdb.MemDatabase
    // Block manager for processing new blocks and managing the block chain
    BlockManager *ethchain.BlockManager
    // The transaction pool. Transaction can be pushed on this pool
    // for later including in the blocks
    TxPool *ethchain.TxPool
    // Peers (NYI)
    peers *list.List
    // Nonce
    Nonce uint64

    Addr net.Addr

    peerMut sync.Mutex

    // Capabilities for outgoing peers
    serverCaps Caps
}

func New(caps Caps) (*Ethereum, error) {
    //db, err := ethdb.NewLDBDatabase()
    db, err := ethdb.NewMemDatabase()
    if err != nil {
        return nil, err
    }

    ethutil.Config.Db = db

    nonce, _ := ethutil.RandomUint64()
    ethereum := &Ethereum{
        shutdownChan: make(chan bool),
        db:           db,
        peers:        list.New(),
        Nonce:        nonce,
        serverCaps:   caps,
    }
    ethereum.TxPool = ethchain.NewTxPool()
    ethereum.TxPool.Speaker = ethereum
    ethereum.BlockManager = ethchain.NewBlockManager(ethereum)

    ethereum.TxPool.BlockManager = ethereum.BlockManager
    ethereum.BlockManager.TransactionPool = ethereum.TxPool

    return ethereum, nil
}

func (s *Ethereum) AddPeer(conn net.Conn) {
    peer := NewPeer(conn, s, true)

    if peer != nil {
        s.peers.PushBack(peer)
        peer.Start(false)
    }
}

func (s *Ethereum) ProcessPeerList(addrs []string) {
    for _, addr := range addrs {
        // TODO Probably requires some sanity checks
        s.ConnectToPeer(addr)
    }
}

func (s *Ethereum) ConnectToPeer(addr string) error {
    var alreadyConnected bool

    eachPeer(s.peers, func(p *Peer, v *list.Element) {
        if p.conn == nil {
            return
        }
        phost, _, _ := net.SplitHostPort(p.conn.RemoteAddr().String())
        ahost, _, _ := net.SplitHostPort(addr)

        if phost == ahost {
            alreadyConnected = true
            return
        }
    })

    if alreadyConnected {
        return nil
    }

    peer := NewOutboundPeer(addr, s, s.serverCaps)

    s.peers.PushBack(peer)

    return nil
}

func (s *Ethereum) OutboundPeers() []*Peer {
    // Create a new peer slice with at least the length of the total peers
    outboundPeers := make([]*Peer, s.peers.Len())
    length := 0
    eachPeer(s.peers, func(p *Peer, e *list.Element) {
        if !p.inbound && p.conn != nil {
            outboundPeers[length] = p
            length++
        }
    })

    return outboundPeers[:length]
}

func (s *Ethereum) InboundPeers() []*Peer {
    // Create a new peer slice with at least the length of the total peers
    inboundPeers := make([]*Peer, s.peers.Len())
    length := 0
    eachPeer(s.peers, func(p *Peer, e *list.Element) {
        if p.inbound {
            inboundPeers[length] = p
            length++
        }
    })

    return inboundPeers[:length]
}

func (s *Ethereum) InOutPeers() []*Peer {
    // Reap the dead peers first
    s.reapPeers()

    // Create a new peer slice with at least the length of the total peers
    inboundPeers := make([]*Peer, s.peers.Len())
    length := 0
    eachPeer(s.peers, func(p *Peer, e *list.Element) {
        // Only return peers with an actual ip
        if len(p.host) > 0 {
            inboundPeers[length] = p
            length++
        }
    })

    return inboundPeers[:length]
}

func (s *Ethereum) Broadcast(msgType ethwire.MsgType, data []interface{}) {
    msg := ethwire.NewMessage(msgType, data)
    s.BroadcastMsg(msg)
}

func (s *Ethereum) BroadcastMsg(msg *ethwire.Msg) {
    eachPeer(s.peers, func(p *Peer, e *list.Element) {
        p.QueueMessage(msg)
    })
}

func (s *Ethereum) Peers() *list.List {
    return s.peers
}

func (s *Ethereum) reapPeers() {
    s.peerMut.Lock()
    defer s.peerMut.Unlock()

    eachPeer(s.peers, func(p *Peer, e *list.Element) {
        if atomic.LoadInt32(&p.disconnect) == 1 || (p.inbound && (time.Now().Unix()-p.lastPong) > int64(5*time.Minute)) {
            s.peers.Remove(e)
        }
    })
}

func (s *Ethereum) ReapDeadPeerHandler() {
    reapTimer := time.NewTicker(processReapingTimeout * time.Second)

    for {
        select {
        case <-reapTimer.C:
            s.reapPeers()
        }
    }
}

// Start the ethereum
func (s *Ethereum) Start() {
    // Bind to addr and port
    ln, err := net.Listen("tcp", ":30303")
    if err != nil {
        log.Println("Connection listening disabled. Acting as client")
    } else {
        s.Addr = ln.Addr()
        // Starting accepting connections
        log.Println("Ready and accepting connections")
        // Start the peer handler
        go s.peerHandler(ln)
    }

    // Start the reaping processes
    go s.ReapDeadPeerHandler()

    // Start the tx pool
    s.TxPool.Start()
}

func (s *Ethereum) peerHandler(listener net.Listener) {
    for {
        conn, err := listener.Accept()
        if err != nil {
            log.Println(err)

            continue
        }

        go s.AddPeer(conn)
    }
}

func (s *Ethereum) Stop() {
    // Close the database
    defer s.db.Close()

    eachPeer(s.peers, func(p *Peer, e *list.Element) {
        p.Stop()
    })

    s.shutdownChan <- true

    s.TxPool.Stop()
}

// This function will wait for a shutdown and resumes main thread execution
func (s *Ethereum) WaitForShutdown() {
    <-s.shutdownChan
}