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reactor.go
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reactor.go
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package evidence
import (
"fmt"
"reflect"
"time"
amino "github.com/tendermint/go-amino"
clist "github.com/furyaxyz/fuxchain/libs/tendermint/libs/clist"
"github.com/furyaxyz/fuxchain/libs/tendermint/libs/log"
"github.com/furyaxyz/fuxchain/libs/tendermint/p2p"
"github.com/furyaxyz/fuxchain/libs/tendermint/types"
)
const (
EvidenceChannel = byte(0x38)
maxMsgSize = 1048576 // 1MB TODO make it configurable
broadcastEvidenceIntervalS = 60 // broadcast uncommitted evidence this often
peerCatchupSleepIntervalMS = 100 // If peer is behind, sleep this amount
)
// Reactor handles evpool evidence broadcasting amongst peers.
type Reactor struct {
p2p.BaseReactor
evpool *Pool
eventBus *types.EventBus
}
// NewReactor returns a new Reactor with the given config and evpool.
func NewReactor(evpool *Pool) *Reactor {
evR := &Reactor{
evpool: evpool,
}
evR.BaseReactor = *p2p.NewBaseReactor("Evidence", evR)
return evR
}
// SetLogger sets the Logger on the reactor and the underlying Evidence.
func (evR *Reactor) SetLogger(l log.Logger) {
evR.Logger = l
evR.evpool.SetLogger(l)
}
// GetChannels implements Reactor.
// It returns the list of channels for this reactor.
func (evR *Reactor) GetChannels() []*p2p.ChannelDescriptor {
return []*p2p.ChannelDescriptor{
{
ID: EvidenceChannel,
Priority: 5,
},
}
}
// AddPeer implements Reactor.
func (evR *Reactor) AddPeer(peer p2p.Peer) {
go evR.broadcastEvidenceRoutine(peer)
}
// Receive implements Reactor.
// It adds any received evidence to the evpool.
func (evR *Reactor) Receive(chID byte, src p2p.Peer, msgBytes []byte) {
msg, err := decodeMsg(msgBytes)
if err != nil {
evR.Logger.Error("Error decoding message", "src", src, "chId", chID, "msg", msg, "err", err, "bytes", msgBytes)
evR.Switch.StopPeerForError(src, err)
return
}
if err = msg.ValidateBasic(); err != nil {
evR.Logger.Error("Peer sent us invalid msg", "peer", src, "msg", msg, "err", err)
evR.Switch.StopPeerForError(src, err)
return
}
evR.Logger.Debug("Receive", "src", src, "chId", chID, "msg", msg)
switch msg := msg.(type) {
case *ListMessage:
for _, ev := range msg.Evidence {
err := evR.evpool.AddEvidence(ev)
switch err.(type) {
case ErrInvalidEvidence:
evR.Logger.Error("Evidence is not valid", "evidence", msg.Evidence, "err", err)
// punish peer
evR.Switch.StopPeerForError(src, err)
return
case ErrEvidenceAlreadyStored:
evR.Logger.Debug("Evidence already exists", "evidence", msg.Evidence)
case nil:
default:
evR.Logger.Error("Evidence has not been added", "evidence", msg.Evidence, "err", err)
return
}
}
default:
evR.Logger.Error(fmt.Sprintf("Unknown message type %v", reflect.TypeOf(msg)))
}
}
// SetEventBus implements events.Eventable.
func (evR *Reactor) SetEventBus(b *types.EventBus) {
evR.eventBus = b
}
// Modeled after the mempool routine.
// - Evidence accumulates in a clist.
// - Each peer has a routine that iterates through the clist,
// sending available evidence to the peer.
// - If we're waiting for new evidence and the list is not empty,
// start iterating from the beginning again.
func (evR *Reactor) broadcastEvidenceRoutine(peer p2p.Peer) {
var next *clist.CElement
var retryByte []byte
for {
// This happens because the CElement we were looking at got garbage
// collected (removed). That is, .NextWait() returned nil. Go ahead and
// start from the beginning.
if next == nil {
select {
case <-evR.evpool.EvidenceWaitChan(): // Wait until evidence is available
if next = evR.evpool.EvidenceFront(); next == nil {
continue
}
case <-peer.Quit():
return
case <-evR.Quit():
return
}
}
var retry bool
var msg Message
//try to get msg from evidence
if retryByte == nil {
ev := next.Value.(types.Evidence)
msg, retry = evR.checkSendEvidenceMessage(peer, ev)
if msg != nil {
//cache retry byte
retryByte = cdc.MustMarshalBinaryBare(msg)
}
}
// send out evidence
if !retry && retryByte != nil {
success := peer.Send(EvidenceChannel, retryByte)
retry = !success
}
if retry {
time.Sleep(peerCatchupSleepIntervalMS * time.Millisecond)
continue
}
//clean retry byte
retryByte = nil
afterCh := time.After(time.Second * broadcastEvidenceIntervalS)
select {
case <-afterCh:
// start from the beginning every tick.
// TODO: only do this if we're at the end of the list!
next = nil
case <-next.NextWaitChan():
// see the start of the for loop for nil check
next = next.Next()
case <-peer.Quit():
return
case <-evR.Quit():
return
}
}
}
// Returns the message to send the peer, or nil if the evidence is invalid for the peer.
// If message is nil, return true if we should sleep and try again.
func (evR Reactor) checkSendEvidenceMessage(
peer p2p.Peer,
ev types.Evidence,
) (msg Message, retry bool) {
// make sure the peer is up to date
evHeight := ev.Height()
peerState, ok := peer.Get(types.PeerStateKey).(PeerState)
if !ok {
// Peer does not have a state yet. We set it in the consensus reactor, but
// when we add peer in Switch, the order we call reactors#AddPeer is
// different every time due to us using a map. Sometimes other reactors
// will be initialized before the consensus reactor. We should wait a few
// milliseconds and retry.
return nil, true
}
// NOTE: We only send evidence to peers where
// peerHeight - maxAge < evidenceHeight < peerHeight
// and
// lastBlockTime - maxDuration < evidenceTime
var (
peerHeight = peerState.GetHeight()
params = evR.evpool.State().ConsensusParams.Evidence
ageDuration = evR.evpool.State().LastBlockTime.Sub(ev.Time())
ageNumBlocks = peerHeight - evHeight
)
if peerHeight < evHeight { // peer is behind. sleep while he catches up
return nil, true
} else if ageNumBlocks > params.MaxAgeNumBlocks &&
ageDuration > params.MaxAgeDuration { // evidence is too old, skip
// NOTE: if evidence is too old for an honest peer, then we're behind and
// either it already got committed or it never will!
evR.Logger.Info("Not sending peer old evidence",
"peerHeight", peerHeight,
"evHeight", evHeight,
"maxAgeNumBlocks", params.MaxAgeNumBlocks,
"lastBlockTime", evR.evpool.State().LastBlockTime,
"evTime", ev.Time(),
"maxAgeDuration", params.MaxAgeDuration,
"peer", peer,
)
return nil, false
}
// send evidence
msg = &ListMessage{[]types.Evidence{ev}}
return msg, false
}
// PeerState describes the state of a peer.
type PeerState interface {
GetHeight() int64
}
//-----------------------------------------------------------------------------
// Messages
// Message is a message sent or received by the Reactor.
type Message interface {
ValidateBasic() error
}
func RegisterMessages(cdc *amino.Codec) {
cdc.RegisterInterface((*Message)(nil), nil)
cdc.RegisterConcrete(&ListMessage{},
"tendermint/evidence/ListMessage", nil)
}
func decodeMsg(bz []byte) (msg Message, err error) {
if len(bz) > maxMsgSize {
return msg, fmt.Errorf("msg exceeds max size (%d > %d)", len(bz), maxMsgSize)
}
err = cdc.UnmarshalBinaryBare(bz, &msg)
return
}
//-------------------------------------
// ListMessage contains a list of evidence.
type ListMessage struct {
Evidence []types.Evidence
}
// ValidateBasic performs basic validation.
func (m *ListMessage) ValidateBasic() error {
for i, ev := range m.Evidence {
if err := ev.ValidateBasic(); err != nil {
return fmt.Errorf("invalid evidence (#%d): %v", i, err)
}
}
return nil
}
// String returns a string representation of the ListMessage.
func (m *ListMessage) String() string {
return fmt.Sprintf("[ListMessage %v]", m.Evidence)
}