status-go/protocol/transport/whisper/envelopes.go

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package whisper
import (
"context"
"errors"
"sync"
"github.com/status-im/status-go/eth-node/types"
"go.uber.org/zap"
)
// EnvelopeState in local tracker
type EnvelopeState int
const (
// NotRegistered returned if asked hash wasn't registered in the tracker.
NotRegistered EnvelopeState = -1
// EnvelopePosted is set when envelope was added to a local whisper queue.
EnvelopePosted EnvelopeState = iota
// EnvelopeSent is set when envelope is sent to atleast one peer.
EnvelopeSent
)
type EnvelopesMonitorConfig struct {
EnvelopeEventsHandler EnvelopeEventsHandler
MaxAttempts int
MailserverConfirmationsEnabled bool
IsMailserver func(types.EnodeID) bool
Logger *zap.Logger
}
// EnvelopeEventsHandler used for two different event types.
type EnvelopeEventsHandler interface {
EnvelopeSent([][]byte)
EnvelopeExpired([][]byte, error)
MailServerRequestCompleted(types.Hash, types.Hash, []byte, error)
MailServerRequestExpired(types.Hash)
}
// NewEnvelopesMonitor returns a pointer to an instance of the EnvelopesMonitor.
func NewEnvelopesMonitor(w types.Whisper, config EnvelopesMonitorConfig) *EnvelopesMonitor {
logger := config.Logger
if logger == nil {
logger = zap.NewNop()
}
var whisperAPI types.PublicWhisperAPI
if w != nil {
whisperAPI = w.PublicWhisperAPI()
}
return &EnvelopesMonitor{
w: w,
whisperAPI: whisperAPI,
handler: config.EnvelopeEventsHandler,
mailServerConfirmation: config.MailserverConfirmationsEnabled,
maxAttempts: config.MaxAttempts,
isMailserver: config.IsMailserver,
logger: logger.With(zap.Namespace("EnvelopesMonitor")),
// key is envelope hash (event.Hash)
envelopes: map[types.Hash]EnvelopeState{},
messages: map[types.Hash]*types.NewMessage{},
attempts: map[types.Hash]int{},
identifiers: make(map[types.Hash][][]byte),
// key is hash of the batch (event.Batch)
batches: map[types.Hash]map[types.Hash]struct{}{},
}
}
// EnvelopesMonitor is responsible for monitoring whisper envelopes state.
type EnvelopesMonitor struct {
w types.Whisper
whisperAPI types.PublicWhisperAPI
handler EnvelopeEventsHandler
mailServerConfirmation bool
maxAttempts int
mu sync.Mutex
envelopes map[types.Hash]EnvelopeState
batches map[types.Hash]map[types.Hash]struct{}
messages map[types.Hash]*types.NewMessage
attempts map[types.Hash]int
identifiers map[types.Hash][][]byte
wg sync.WaitGroup
quit chan struct{}
isMailserver func(peer types.EnodeID) bool
logger *zap.Logger
}
// Start processing events.
func (m *EnvelopesMonitor) Start() {
m.quit = make(chan struct{})
m.wg.Add(1)
go func() {
m.handleEnvelopeEvents()
m.wg.Done()
}()
}
// Stop process events.
func (m *EnvelopesMonitor) Stop() {
close(m.quit)
m.wg.Wait()
}
// Add hash to a tracker.
func (m *EnvelopesMonitor) Add(identifiers [][]byte, envelopeHash types.Hash, message types.NewMessage) {
m.mu.Lock()
defer m.mu.Unlock()
m.envelopes[envelopeHash] = EnvelopePosted
m.identifiers[envelopeHash] = identifiers
m.messages[envelopeHash] = &message
m.attempts[envelopeHash] = 1
}
func (m *EnvelopesMonitor) GetState(hash types.Hash) EnvelopeState {
m.mu.Lock()
defer m.mu.Unlock()
state, exist := m.envelopes[hash]
if !exist {
return NotRegistered
}
return state
}
// handleEnvelopeEvents processes whisper envelope events
func (m *EnvelopesMonitor) handleEnvelopeEvents() {
events := make(chan types.EnvelopeEvent, 100) // must be buffered to prevent blocking whisper
sub := m.w.SubscribeEnvelopeEvents(events)
defer func() {
close(events)
sub.Unsubscribe()
}()
for {
select {
case <-m.quit:
return
case event := <-events:
m.handleEvent(event)
}
}
}
// handleEvent based on type of the event either triggers
// confirmation handler or removes hash from tracker
func (m *EnvelopesMonitor) handleEvent(event types.EnvelopeEvent) {
handlers := map[types.EventType]func(types.EnvelopeEvent){
types.EventEnvelopeSent: m.handleEventEnvelopeSent,
types.EventEnvelopeExpired: m.handleEventEnvelopeExpired,
types.EventBatchAcknowledged: m.handleAcknowledgedBatch,
types.EventEnvelopeReceived: m.handleEventEnvelopeReceived,
}
if handler, ok := handlers[event.Event]; ok {
handler(event)
}
}
func (m *EnvelopesMonitor) handleEventEnvelopeSent(event types.EnvelopeEvent) {
if m.mailServerConfirmation {
if !m.isMailserver(event.Peer) {
return
}
}
m.mu.Lock()
defer m.mu.Unlock()
state, ok := m.envelopes[event.Hash]
// if we didn't send a message using extension - skip it
// if message was already confirmed - skip it
if !ok || state == EnvelopeSent {
return
}
m.logger.Debug("envelope is sent", zap.String("hash", event.Hash.String()), zap.String("peer", event.Peer.String()))
if event.Batch != (types.Hash{}) {
if _, ok := m.batches[event.Batch]; !ok {
m.batches[event.Batch] = map[types.Hash]struct{}{}
}
m.batches[event.Batch][event.Hash] = struct{}{}
m.logger.Debug("waiting for a confirmation", zap.String("batch", event.Batch.String()))
} else {
m.envelopes[event.Hash] = EnvelopeSent
if m.handler != nil {
m.handler.EnvelopeSent(m.identifiers[event.Hash])
}
}
}
func (m *EnvelopesMonitor) handleAcknowledgedBatch(event types.EnvelopeEvent) {
if m.mailServerConfirmation {
if !m.isMailserver(event.Peer) {
return
}
}
m.mu.Lock()
defer m.mu.Unlock()
envelopes, ok := m.batches[event.Batch]
if !ok {
m.logger.Debug("batch is not found", zap.String("batch", event.Batch.String()))
}
m.logger.Debug("received a confirmation", zap.String("batch", event.Batch.String()), zap.String("peer", event.Peer.String()))
envelopeErrors, ok := event.Data.([]types.EnvelopeError)
if event.Data != nil && !ok {
m.logger.Error("received unexpected data in the the confirmation event", zap.String("batch", event.Batch.String()))
}
failedEnvelopes := map[types.Hash]struct{}{}
for i := range envelopeErrors {
envelopeError := envelopeErrors[i]
_, exist := m.envelopes[envelopeError.Hash]
if exist {
m.logger.Warn("envelope that was posted by us is discarded", zap.String("hash", envelopeError.Hash.String()), zap.String("peer", event.Peer.String()), zap.String("error", envelopeError.Description))
var err error
switch envelopeError.Code {
case types.EnvelopeTimeNotSynced:
err = errors.New("envelope wasn't delivered due to time sync issues")
}
m.handleEnvelopeFailure(envelopeError.Hash, err)
}
failedEnvelopes[envelopeError.Hash] = struct{}{}
}
for hash := range envelopes {
if _, exist := failedEnvelopes[hash]; exist {
continue
}
state, ok := m.envelopes[hash]
if !ok || state == EnvelopeSent {
continue
}
m.envelopes[hash] = EnvelopeSent
if m.handler != nil {
m.handler.EnvelopeSent(m.identifiers[hash])
}
}
delete(m.batches, event.Batch)
}
func (m *EnvelopesMonitor) handleEventEnvelopeExpired(event types.EnvelopeEvent) {
m.mu.Lock()
defer m.mu.Unlock()
m.handleEnvelopeFailure(event.Hash, errors.New("envelope expired due to connectivity issues"))
}
// handleEnvelopeFailure is a common code path for processing envelopes failures. not thread safe, lock
// must be used on a higher level.
func (m *EnvelopesMonitor) handleEnvelopeFailure(hash types.Hash, err error) {
if state, ok := m.envelopes[hash]; ok {
message, exist := m.messages[hash]
if !exist {
m.logger.Error("message was deleted erroneously", zap.String("envelope hash", hash.String()))
}
attempt := m.attempts[hash]
identifiers := m.identifiers[hash]
m.clearMessageState(hash)
if state == EnvelopeSent {
return
}
if attempt < m.maxAttempts {
m.logger.Debug("retrying to send a message", zap.String("hash", hash.String()), zap.Int("attempt", attempt+1))
hex, err := m.whisperAPI.Post(context.TODO(), *message)
if err != nil {
m.logger.Error("failed to retry sending message", zap.String("hash", hash.String()), zap.Int("attempt", attempt+1), zap.Error(err))
if m.handler != nil {
m.handler.EnvelopeExpired(identifiers, err)
}
}
envelopeID := types.BytesToHash(hex)
m.envelopes[envelopeID] = EnvelopePosted
m.messages[envelopeID] = message
m.attempts[envelopeID] = attempt + 1
2019-08-06 21:50:13 +00:00
m.identifiers[envelopeID] = identifiers
} else {
m.logger.Debug("envelope expired", zap.String("hash", hash.String()))
if m.handler != nil {
m.handler.EnvelopeExpired(identifiers, err)
}
}
}
}
func (m *EnvelopesMonitor) handleEventEnvelopeReceived(event types.EnvelopeEvent) {
if m.mailServerConfirmation {
if !m.isMailserver(event.Peer) {
return
}
}
m.mu.Lock()
defer m.mu.Unlock()
state, ok := m.envelopes[event.Hash]
if !ok || state != EnvelopePosted {
return
}
m.logger.Debug("expected envelope received", zap.String("hash", event.Hash.String()), zap.String("peer", event.Peer.String()))
m.envelopes[event.Hash] = EnvelopeSent
if m.handler != nil {
m.handler.EnvelopeSent(m.identifiers[event.Hash])
}
}
// clearMessageState removes all message and envelope state.
// not thread-safe, should be protected on a higher level.
func (m *EnvelopesMonitor) clearMessageState(envelopeID types.Hash) {
delete(m.envelopes, envelopeID)
delete(m.messages, envelopeID)
delete(m.attempts, envelopeID)
delete(m.identifiers, envelopeID)
}