package p2p

import (
	"errors"
	"fmt"
	"net"
	"sync/atomic"
	"time"

	. "github.com/tendermint/tendermint/common"
)

type Reactor interface {
	Start(sw *Switch)
	Stop()
	GetChannels() []*ChannelDescriptor
	AddPeer(peer *Peer)
	RemovePeer(peer *Peer, reason interface{})
	Receive(chId byte, peer *Peer, msgBytes []byte)
}

//-----------------------------------------------------------------------------

/*
The `Switch` handles peer connections and exposes an API to receive incoming messages
on `Reactors`.  Each `Reactor` is responsible for handling incoming messages of one
or more `Channels`.  So while sending outgoing messages is typically performed on the peer,
incoming messages are received on the reactor.
*/
type Switch struct {
	reactors     []Reactor
	chDescs      []*ChannelDescriptor
	reactorsByCh map[byte]Reactor
	peers        *PeerSet
	dialing      *CMap
	listeners    *CMap // listenerName -> chan interface{}
	quit         chan struct{}
	started      uint32
	stopped      uint32
}

var (
	ErrSwitchStopped       = errors.New("Switch already stopped")
	ErrSwitchDuplicatePeer = errors.New("Duplicate peer")
)

const (
	peerDialTimeoutSeconds = 30
)

func NewSwitch(reactors []Reactor) *Switch {

	// Validate the reactors. no two reactors can share the same channel.
	chDescs := []*ChannelDescriptor{}
	reactorsByCh := make(map[byte]Reactor)
	for _, reactor := range reactors {
		reactorChannels := reactor.GetChannels()
		for _, chDesc := range reactorChannels {
			chId := chDesc.Id
			if reactorsByCh[chId] != nil {
				panic(fmt.Sprintf("Channel %X has multiple reactors %v & %v", chId, reactorsByCh[chId], reactor))
			}
			chDescs = append(chDescs, chDesc)
			reactorsByCh[chId] = reactor
		}
	}

	sw := &Switch{
		reactors:     reactors,
		chDescs:      chDescs,
		reactorsByCh: reactorsByCh,
		peers:        NewPeerSet(),
		dialing:      NewCMap(),
		listeners:    NewCMap(),
		quit:         make(chan struct{}),
		stopped:      0,
	}

	return sw
}

func (sw *Switch) Start() {
	if atomic.CompareAndSwapUint32(&sw.started, 0, 1) {
		log.Info("Starting Switch")
		for _, reactor := range sw.reactors {
			reactor.Start(sw)
		}
	}
}

func (sw *Switch) Stop() {
	if atomic.CompareAndSwapUint32(&sw.stopped, 0, 1) {
		log.Info("Stopping Switch")
		close(sw.quit)
		// Stop each peer.
		for _, peer := range sw.peers.List() {
			peer.stop()
		}
		sw.peers = NewPeerSet()
		// Stop all reactors.
		for _, reactor := range sw.reactors {
			reactor.Stop()
		}
	}
}

func (sw *Switch) Reactors() []Reactor {
	return sw.reactors
}

func (sw *Switch) AddPeerWithConnection(conn net.Conn, outbound bool) (*Peer, error) {
	if atomic.LoadUint32(&sw.stopped) == 1 {
		return nil, ErrSwitchStopped
	}

	peer := newPeer(conn, outbound, sw.reactorsByCh, sw.chDescs, sw.StopPeerForError)

	// Add the peer to .peers
	if sw.peers.Add(peer) {
		log.Info("Added peer", "peer", peer)
	} else {
		log.Info("Ignoring duplicate peer", "peer", peer)
		return nil, ErrSwitchDuplicatePeer
	}

	// Start the peer
	go peer.start()

	// Notify listeners.
	sw.doAddPeer(peer)

	return peer, nil
}

func (sw *Switch) DialPeerWithAddress(addr *NetAddress) (*Peer, error) {
	if atomic.LoadUint32(&sw.stopped) == 1 {
		return nil, ErrSwitchStopped
	}

	log.Info("Dialing peer", "address", addr)
	sw.dialing.Set(addr.String(), addr)
	conn, err := addr.DialTimeout(peerDialTimeoutSeconds * time.Second)
	sw.dialing.Delete(addr.String())
	if err != nil {
		return nil, err
	}
	peer, err := sw.AddPeerWithConnection(conn, true)
	if err != nil {
		return nil, err
	}
	return peer, nil
}

func (sw *Switch) IsDialing(addr *NetAddress) bool {
	return sw.dialing.Has(addr.String())
}

// XXX: This is wrong, we can't just ignore failures on TrySend.
func (sw *Switch) Broadcast(chId byte, msg interface{}) (numSuccess, numFailure int) {
	if atomic.LoadUint32(&sw.stopped) == 1 {
		return
	}

	log.Debug("Broadcast", "channel", chId, "msg", msg)
	for _, peer := range sw.peers.List() {
		// XXX XXX Change.
		// success := peer.TrySend(chId, msg)
		success := peer.Send(chId, msg)
		if success {
			numSuccess += 1
		} else {
			numFailure += 1
		}
	}
	return

}

// Returns the count of outbound/inbound and outbound-dialing peers.
func (sw *Switch) NumPeers() (outbound, inbound, dialing int) {
	peers := sw.peers.List()
	for _, peer := range peers {
		if peer.outbound {
			outbound++
		} else {
			inbound++
		}
	}
	dialing = sw.dialing.Size()
	return
}

func (sw *Switch) Peers() IPeerSet {
	return sw.peers
}

// Disconnect from a peer due to external error.
// TODO: make record depending on reason.
func (sw *Switch) StopPeerForError(peer *Peer, reason interface{}) {
	log.Info("Stopping peer for error", "peer", peer, "error", reason)
	sw.peers.Remove(peer)
	peer.stop()

	// Notify listeners
	sw.doRemovePeer(peer, reason)
}

// Disconnect from a peer gracefully.
// TODO: handle graceful disconnects.
func (sw *Switch) StopPeerGracefully(peer *Peer) {
	log.Info("Stopping peer gracefully")
	sw.peers.Remove(peer)
	peer.stop()

	// Notify listeners
	sw.doRemovePeer(peer, nil)
}

func (sw *Switch) doAddPeer(peer *Peer) {
	for _, reactor := range sw.reactors {
		reactor.AddPeer(peer)
	}
}

func (sw *Switch) doRemovePeer(peer *Peer, reason interface{}) {
	for _, reactor := range sw.reactors {
		reactor.RemovePeer(peer, reason)
	}
}

//-----------------------------------------------------------------------------

type SwitchEventNewPeer struct {
	Peer *Peer
}

type SwitchEventDonePeer struct {
	Peer  *Peer
	Error interface{}
}