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// Copyright 2018 The go-ethereum Authors
// This file is part of the go-ethereum library.
//
// The go-ethereum library is free software: you can redistribute it and/or modify
// it under the terms of the GNU Lesser General Public License as published by
// the Free Software Foundation, either version 3 of the License, or
// (at your option) any later version.
//
// The go-ethereum library is distributed in the hope that it will be useful,
// but WITHOUT ANY WARRANTY; without even the implied warranty of
// MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
// GNU Lesser General Public License for more details.
//
// You should have received a copy of the GNU Lesser General Public License
// along with the go-ethereum library. If not, see <http://www.gnu.org/licenses/>.

package stream

import (
    "context"
    "fmt"
    "time"

    "github.com/dexon-foundation/dexon/metrics"
    "github.com/dexon-foundation/dexon/swarm/log"
    bv "github.com/dexon-foundation/dexon/swarm/network/bitvector"
    "github.com/dexon-foundation/dexon/swarm/spancontext"
    "github.com/dexon-foundation/dexon/swarm/storage"
    "github.com/opentracing/opentracing-go"
)

var syncBatchTimeout = 30 * time.Second

// Stream defines a unique stream identifier.
type Stream struct {
    // Name is used for Client and Server functions identification.
    Name string
    // Key is the name of specific stream data.
    Key string
    // Live defines whether the stream delivers only new data
    // for the specific stream.
    Live bool
}

func NewStream(name string, key string, live bool) Stream {
    return Stream{
        Name: name,
        Key:  key,
        Live: live,
    }
}

// String return a stream id based on all Stream fields.
func (s Stream) String() string {
    t := "h"
    if s.Live {
        t = "l"
    }
    return fmt.Sprintf("%s|%s|%s", s.Name, s.Key, t)
}

// SubcribeMsg is the protocol msg for requesting a stream(section)
type SubscribeMsg struct {
    Stream   Stream
    History  *Range `rlp:"nil"`
    Priority uint8  // delivered on priority channel
}

// RequestSubscriptionMsg is the protocol msg for a node to request subscription to a
// specific stream
type RequestSubscriptionMsg struct {
    Stream   Stream
    History  *Range `rlp:"nil"`
    Priority uint8  // delivered on priority channel
}

func (p *Peer) handleRequestSubscription(ctx context.Context, req *RequestSubscriptionMsg) (err error) {
    log.Debug(fmt.Sprintf("handleRequestSubscription: streamer %s to subscribe to %s with stream %s", p.streamer.addr, p.ID(), req.Stream))
    if err = p.streamer.Subscribe(p.ID(), req.Stream, req.History, req.Priority); err != nil {
        // The error will be sent as a subscribe error message
        // and will not be returned as it will prevent any new message
        // exchange between peers over p2p. Instead, error will be returned
        // only if there is one from sending subscribe error message.
        err = p.Send(ctx, SubscribeErrorMsg{
            Error: err.Error(),
        })
    }
    return err
}

func (p *Peer) handleSubscribeMsg(ctx context.Context, req *SubscribeMsg) (err error) {
    metrics.GetOrRegisterCounter("peer.handlesubscribemsg", nil).Inc(1)

    defer func() {
        if err != nil {
            // The error will be sent as a subscribe error message
            // and will not be returned as it will prevent any new message
            // exchange between peers over p2p. Instead, error will be returned
            // only if there is one from sending subscribe error message.
            err = p.Send(context.TODO(), SubscribeErrorMsg{
                Error: err.Error(),
            })
        }
    }()

    log.Debug("received subscription", "from", p.streamer.addr, "peer", p.ID(), "stream", req.Stream, "history", req.History)

    f, err := p.streamer.GetServerFunc(req.Stream.Name)
    if err != nil {
        return err
    }

    s, err := f(p, req.Stream.Key, req.Stream.Live)
    if err != nil {
        return err
    }
    os, err := p.setServer(req.Stream, s, req.Priority)
    if err != nil {
        return err
    }

    var from uint64
    var to uint64
    if !req.Stream.Live && req.History != nil {
        from = req.History.From
        to = req.History.To
    }

    go func() {
        if err := p.SendOfferedHashes(os, from, to); err != nil {
            log.Warn("SendOfferedHashes error", "peer", p.ID().TerminalString(), "err", err)
        }
    }()

    if req.Stream.Live && req.History != nil {
        // subscribe to the history stream
        s, err := f(p, req.Stream.Key, false)
        if err != nil {
            return err
        }

        os, err := p.setServer(getHistoryStream(req.Stream), s, getHistoryPriority(req.Priority))
        if err != nil {
            return err
        }
        go func() {
            if err := p.SendOfferedHashes(os, req.History.From, req.History.To); err != nil {
                log.Warn("SendOfferedHashes error", "peer", p.ID().TerminalString(), "err", err)
            }
        }()
    }

    return nil
}

type SubscribeErrorMsg struct {
    Error string
}

func (p *Peer) handleSubscribeErrorMsg(req *SubscribeErrorMsg) (err error) {
    //TODO the error should be channeled to whoever calls the subscribe
    return fmt.Errorf("subscribe to peer %s: %v", p.ID(), req.Error)
}

type UnsubscribeMsg struct {
    Stream Stream
}

func (p *Peer) handleUnsubscribeMsg(req *UnsubscribeMsg) error {
    return p.removeServer(req.Stream)
}

type QuitMsg struct {
    Stream Stream
}

func (p *Peer) handleQuitMsg(req *QuitMsg) error {
    return p.removeClient(req.Stream)
}

// OfferedHashesMsg is the protocol msg for offering to hand over a
// stream section
type OfferedHashesMsg struct {
    Stream         Stream // name of Stream
    From, To       uint64 // peer and db-specific entry count
    Hashes         []byte // stream of hashes (128)
    *HandoverProof        // HandoverProof
}

// String pretty prints OfferedHashesMsg
func (m OfferedHashesMsg) String() string {
    return fmt.Sprintf("Stream '%v' [%v-%v] (%v)", m.Stream, m.From, m.To, len(m.Hashes)/HashSize)
}

// handleOfferedHashesMsg protocol msg handler calls the incoming streamer interface
// Filter method
func (p *Peer) handleOfferedHashesMsg(ctx context.Context, req *OfferedHashesMsg) error {
    metrics.GetOrRegisterCounter("peer.handleofferedhashes", nil).Inc(1)

    var sp opentracing.Span
    ctx, sp = spancontext.StartSpan(
        ctx,
        "handle.offered.hashes")
    defer sp.Finish()

    c, _, err := p.getOrSetClient(req.Stream, req.From, req.To)
    if err != nil {
        return err
    }

    hashes := req.Hashes
    lenHashes := len(hashes)
    if lenHashes%HashSize != 0 {
        return fmt.Errorf("error invalid hashes length (len: %v)", lenHashes)
    }

    want, err := bv.New(lenHashes / HashSize)
    if err != nil {
        return fmt.Errorf("error initiaising bitvector of length %v: %v", lenHashes/HashSize, err)
    }

    ctr := 0
    errC := make(chan error)
    ctx, cancel := context.WithTimeout(ctx, syncBatchTimeout)

    ctx = context.WithValue(ctx, "source", p.ID().String())
    for i := 0; i < lenHashes; i += HashSize {
        hash := hashes[i : i+HashSize]

        if wait := c.NeedData(ctx, hash); wait != nil {
            ctr++
            want.Set(i/HashSize, true)
            // create request and wait until the chunk data arrives and is stored
            go func(w func(context.Context) error) {
                select {
                case errC <- w(ctx):
                case <-ctx.Done():
                }
            }(wait)
        }
    }

    go func() {
        defer cancel()
        for i := 0; i < ctr; i++ {
            select {
            case err := <-errC:
                if err != nil {
                    log.Debug("client.handleOfferedHashesMsg() error waiting for chunk, dropping peer", "peer", p.ID(), "err", err)
                    p.Drop(err)
                    return
                }
            case <-ctx.Done():
                log.Debug("client.handleOfferedHashesMsg() context done", "ctx.Err()", ctx.Err())
                return
            case <-c.quit:
                log.Debug("client.handleOfferedHashesMsg() quit")
                return
            }
        }
        select {
        case c.next <- c.batchDone(p, req, hashes):
        case <-c.quit:
            log.Debug("client.handleOfferedHashesMsg() quit")
        case <-ctx.Done():
            log.Debug("client.handleOfferedHashesMsg() context done", "ctx.Err()", ctx.Err())
        }
    }()
    // only send wantedKeysMsg if all missing chunks of the previous batch arrived
    // except
    if c.stream.Live {
        c.sessionAt = req.From
    }
    from, to := c.nextBatch(req.To + 1)
    log.Trace("set next batch", "peer", p.ID(), "stream", req.Stream, "from", req.From, "to", req.To, "addr", p.streamer.addr)
    if from == to {
        return nil
    }

    msg := &WantedHashesMsg{
        Stream: req.Stream,
        Want:   want.Bytes(),
        From:   from,
        To:     to,
    }
    go func() {
        log.Trace("sending want batch", "peer", p.ID(), "stream", msg.Stream, "from", msg.From, "to", msg.To)
        select {
        case err := <-c.next:
            if err != nil {
                log.Warn("c.next error dropping peer", "err", err)
                p.Drop(err)
                return
            }
        case <-c.quit:
            log.Debug("client.handleOfferedHashesMsg() quit")
            return
        case <-ctx.Done():
            log.Debug("client.handleOfferedHashesMsg() context done", "ctx.Err()", ctx.Err())
            return
        }
        log.Trace("sending want batch", "peer", p.ID(), "stream", msg.Stream, "from", msg.From, "to", msg.To)
        err := p.SendPriority(ctx, msg, c.priority, "")
        if err != nil {
            log.Warn("SendPriority error", "err", err)
        }
    }()
    return nil
}

// WantedHashesMsg is the protocol msg data for signaling which hashes
// offered in OfferedHashesMsg downstream peer actually wants sent over
type WantedHashesMsg struct {
    Stream   Stream
    Want     []byte // bitvector indicating which keys of the batch needed
    From, To uint64 // next interval offset - empty if not to be continued
}

// String pretty prints WantedHashesMsg
func (m WantedHashesMsg) String() string {
    return fmt.Sprintf("Stream '%v', Want: %x, Next: [%v-%v]", m.Stream, m.Want, m.From, m.To)
}

// handleWantedHashesMsg protocol msg handler
// * sends the next batch of unsynced keys
// * sends the actual data chunks as per WantedHashesMsg
func (p *Peer) handleWantedHashesMsg(ctx context.Context, req *WantedHashesMsg) error {
    metrics.GetOrRegisterCounter("peer.handlewantedhashesmsg", nil).Inc(1)

    log.Trace("received wanted batch", "peer", p.ID(), "stream", req.Stream, "from", req.From, "to", req.To)
    s, err := p.getServer(req.Stream)
    if err != nil {
        return err
    }
    hashes := s.currentBatch
    // launch in go routine since GetBatch blocks until new hashes arrive
    go func() {
        if err := p.SendOfferedHashes(s, req.From, req.To); err != nil {
            log.Warn("SendOfferedHashes error", "peer", p.ID().TerminalString(), "err", err)
        }
    }()
    // go p.SendOfferedHashes(s, req.From, req.To)
    l := len(hashes) / HashSize

    log.Trace("wanted batch length", "peer", p.ID(), "stream", req.Stream, "from", req.From, "to", req.To, "lenhashes", len(hashes), "l", l)
    want, err := bv.NewFromBytes(req.Want, l)
    if err != nil {
        return fmt.Errorf("error initiaising bitvector of length %v: %v", l, err)
    }
    for i := 0; i < l; i++ {
        if want.Get(i) {
            metrics.GetOrRegisterCounter("peer.handlewantedhashesmsg.actualget", nil).Inc(1)

            hash := hashes[i*HashSize : (i+1)*HashSize]
            data, err := s.GetData(ctx, hash)
            if err != nil {
                return fmt.Errorf("handleWantedHashesMsg get data %x: %v", hash, err)
            }
            chunk := storage.NewChunk(hash, data)
            syncing := true
            if err := p.Deliver(ctx, chunk, s.priority, syncing); err != nil {
                return err
            }
        }
    }
    return nil
}

// Handover represents a statement that the upstream peer hands over the stream section
type Handover struct {
    Stream     Stream // name of stream
    Start, End uint64 // index of hashes
    Root       []byte // Root hash for indexed segment inclusion proofs
}

// HandoverProof represents a signed statement that the upstream peer handed over the stream section
type HandoverProof struct {
    Sig []byte // Sign(Hash(Serialisation(Handover)))
    *Handover
}

// Takeover represents a statement that downstream peer took over (stored all data)
// handed over
type Takeover Handover

//  TakeoverProof represents a signed statement that the downstream peer took over
// the stream section
type TakeoverProof struct {
    Sig []byte // Sign(Hash(Serialisation(Takeover)))
    *Takeover
}

// TakeoverProofMsg is the protocol msg sent by downstream peer
type TakeoverProofMsg TakeoverProof

// String pretty prints TakeoverProofMsg
func (m TakeoverProofMsg) String() string {
    return fmt.Sprintf("Stream: '%v' [%v-%v], Root: %x, Sig: %x", m.Stream, m.Start, m.End, m.Root, m.Sig)
}

func (p *Peer) handleTakeoverProofMsg(ctx context.Context, req *TakeoverProofMsg) error {
    _, err := p.getServer(req.Stream)
    // store the strongest takeoverproof for the stream in streamer
    return err
}