// Copyright 2017 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 . package mailserver import ( "encoding/binary" "errors" "fmt" "math/rand" "sync" "time" "github.com/ethereum/go-ethereum/common" "github.com/ethereum/go-ethereum/crypto" "github.com/ethereum/go-ethereum/log" "github.com/ethereum/go-ethereum/rlp" "github.com/status-im/status-go/db" "github.com/status-im/status-go/params" whisper "github.com/status-im/whisper/whisperv6" "github.com/syndtr/goleveldb/leveldb" "github.com/syndtr/goleveldb/leveldb/iterator" "github.com/syndtr/goleveldb/leveldb/opt" "github.com/syndtr/goleveldb/leveldb/util" ) const ( maxQueryRange = 24 * time.Hour defaultLimit = 2000 // When we default the upper limit, we want to extend the range a bit // to accommodate for envelopes with slightly higher timestamp, in seconds whisperTTLSafeThreshold = 60 ) var ( errDirectoryNotProvided = errors.New("data directory not provided") errDecryptionMethodNotProvided = errors.New("decryption method is not provided") ) const ( timestampLength = 4 requestLimitLength = 4 requestTimeRangeLength = timestampLength * 2 processRequestTimeout = time.Minute ) // dbImpl is an interface introduced to be able to test some unexpected // panics from leveldb that are difficult to reproduce. // normally the db implementation is leveldb.DB, but in TestMailServerDBPanicSuite // we use panicDB to test panics from the db. // more info about the panic errors: // https://github.com/syndtr/goleveldb/issues/224 type dbImpl interface { Close() error Write(*leveldb.Batch, *opt.WriteOptions) error Put([]byte, []byte, *opt.WriteOptions) error Get([]byte, *opt.ReadOptions) ([]byte, error) NewIterator(*util.Range, *opt.ReadOptions) iterator.Iterator } // WMailServer whisper mailserver. type WMailServer struct { db dbImpl w *whisper.Whisper pow float64 symFilter *whisper.Filter asymFilter *whisper.Filter muRateLimiter sync.RWMutex rateLimiter *rateLimiter cleaner *dbCleaner // removes old envelopes } // Init initializes mailServer. func (s *WMailServer) Init(shh *whisper.Whisper, config *params.WhisperConfig) error { var err error if len(config.DataDir) == 0 { return errDirectoryNotProvided } if len(config.MailServerPassword) == 0 && len(config.MailServerAsymKey) == 0 { return errDecryptionMethodNotProvided } s.w = shh s.pow = config.MinimumPoW if err := s.setupRequestMessageDecryptor(config); err != nil { return err } if config.MailServerRateLimit > 0 { s.setupRateLimiter(time.Duration(config.MailServerRateLimit) * time.Second) } // Open database in the last step in order not to init with error // and leave the database open by accident. database, err := db.Open(config.DataDir, nil) if err != nil { return fmt.Errorf("open DB: %s", err) } s.db = database if config.MailServerDataRetention > 0 { // MailServerDataRetention is a number of days. s.setupCleaner(time.Duration(config.MailServerDataRetention) * time.Hour * 24) } return nil } // setupRateLimiter in case limit is bigger than 0 it will setup an automated // limit db cleanup. func (s *WMailServer) setupRateLimiter(limit time.Duration) { s.rateLimiter = newRateLimiter(limit) s.rateLimiter.Start() } func (s *WMailServer) setupCleaner(retention time.Duration) { s.cleaner = newDBCleaner(s.db, retention) s.cleaner.Start() } // setupRequestMessageDecryptor setup a Whisper filter to decrypt // incoming Whisper requests. func (s *WMailServer) setupRequestMessageDecryptor(config *params.WhisperConfig) error { s.symFilter = nil s.asymFilter = nil if config.MailServerPassword != "" { keyID, err := s.w.AddSymKeyFromPassword(config.MailServerPassword) if err != nil { return fmt.Errorf("create symmetric key: %v", err) } symKey, err := s.w.GetSymKey(keyID) if err != nil { return fmt.Errorf("save symmetric key: %v", err) } s.symFilter = &whisper.Filter{KeySym: symKey} } if config.MailServerAsymKey != "" { keyAsym, err := crypto.HexToECDSA(config.MailServerAsymKey) if err != nil { return err } s.asymFilter = &whisper.Filter{KeyAsym: keyAsym} } return nil } // Close the mailserver and its associated db connection. func (s *WMailServer) Close() { if s.db != nil { if err := s.db.Close(); err != nil { log.Error(fmt.Sprintf("s.db.Close failed: %s", err)) } } if s.rateLimiter != nil { s.rateLimiter.Stop() } if s.cleaner != nil { s.cleaner.Stop() } } func recoverLevelDBPanics(calleMethodName string) { // Recover from possible goleveldb panics if r := recover(); r != nil { if errString, ok := r.(string); ok { log.Error(fmt.Sprintf("recovered from panic in %s: %s", calleMethodName, errString)) } } } // Archive a whisper envelope. func (s *WMailServer) Archive(env *whisper.Envelope) { defer recoverLevelDBPanics("Archive") log.Debug("Archiving envelope", "hash", env.Hash().Hex()) key := NewDBKey(env.Expiry-env.TTL, env.Topic, env.Hash()) rawEnvelope, err := rlp.EncodeToBytes(env) if err != nil { log.Error(fmt.Sprintf("rlp.EncodeToBytes failed: %s", err)) archivedErrorsCounter.Inc(1) } else { if err = s.db.Put(key.Bytes(), rawEnvelope, nil); err != nil { log.Error(fmt.Sprintf("Writing to DB failed: %s", err)) archivedErrorsCounter.Inc(1) } archivedMeter.Mark(1) archivedSizeMeter.Mark(int64(whisper.EnvelopeHeaderLength + len(env.Data))) } } // DeliverMail sends mail to specified whisper peer. func (s *WMailServer) DeliverMail(peer *whisper.Peer, request *whisper.Envelope) { defer recoverLevelDBPanics("DeliverMail") startMethod := time.Now() defer deliverMailTimer.UpdateSince(startMethod) requestsMeter.Mark(1) if peer == nil { requestErrorsCounter.Inc(1) log.Error("[mailserver:DeliverMail] peer is nil") return } requestID := request.Hash().String() peerID := peerIDString(peer) log.Info("[mailserver:DeliverMail] delivering mail", "peerID", peerID, "requestID", requestID) if s.exceedsPeerRequests(peer.ID()) { requestErrorsCounter.Inc(1) log.Error("[mailserver:DeliverMail] peer exceeded the limit", "peerID", peerID, "requestID", requestID) s.trySendHistoricMessageErrorResponse(peer, request, fmt.Errorf("rate limit exceeded")) return } var ( lower, upper uint32 bloom []byte limit uint32 cursor []byte batch bool err error ) payload, err := s.decodeRequest(peer.ID(), request) if err == nil { lower, upper = payload.Lower, payload.Upper bloom = payload.Bloom cursor = payload.Cursor limit = payload.Limit batch = payload.Batch } else { log.Debug("[mailserver:DeliverMail] failed to decode request", "err", err, "peerID", peerID, "requestID", requestID) lower, upper, bloom, limit, cursor, err = s.validateRequest(peer.ID(), request) } if limit == 0 { limit = defaultLimit } if err != nil { requestValidationErrorsCounter.Inc(1) log.Error("[mailserver:DeliverMail] request failed validaton", "peerID", peerID, "requestID", requestID) s.trySendHistoricMessageErrorResponse(peer, request, err) return } log.Info("[mailserver:DeliverMail] processing request", "peerID", peerID, "requestID", requestID, "lower", lower, "upper", upper, "bloom", bloom, "limit", limit, "cursor", cursor, "batch", batch, ) if batch { requestsBatchedCounter.Inc(1) } iter := s.createIterator(lower, upper, cursor) defer iter.Release() bundles := make(chan []rlp.RawValue, 5) errCh := make(chan error) cancelProcessing := make(chan struct{}) go func() { counter := 0 for bundle := range bundles { if err := s.sendRawEnvelopes(peer, bundle, batch); err != nil { close(cancelProcessing) errCh <- err break } counter++ } close(errCh) log.Info("[mailserver:DeliverMail] finished sending bundles", "peerID", peerID, "requestID", requestID, "counter", counter) }() start := time.Now() nextPageCursor, lastEnvelopeHash := s.processRequestInBundles( iter, bloom, int(limit), processRequestTimeout, requestID, bundles, cancelProcessing, ) requestProcessTimer.UpdateSince(start) // Wait for the goroutine to finish the work. It may return an error. if err := <-errCh; err != nil { processRequestErrorsCounter.Inc(1) log.Error("[mailserver:DeliverMail] error while processing", "err", err, "peerID", peerID, "requestID", requestID) s.trySendHistoricMessageErrorResponse(peer, request, err) return } // Processing of the request could be finished earlier due to iterator error. if err := iter.Error(); err != nil { processRequestErrorsCounter.Inc(1) log.Error("[mailserver:DeliverMail] iterator failed", "err", err, "peerID", peerID, "requestID", requestID) s.trySendHistoricMessageErrorResponse(peer, request, err) return } log.Info("[mailserver:DeliverMail] sending historic message response", "peerID", peerID, "requestID", requestID, "last", lastEnvelopeHash, "next", nextPageCursor) if err := s.sendHistoricMessageResponse(peer, request, lastEnvelopeHash, nextPageCursor); err != nil { historicResponseErrorsCounter.Inc(1) log.Error("[mailserver:DeliverMail] error sending historic message response", "err", err, "peerID", peerID, "requestID", requestID) // we still want to try to report error even it it is a p2p error and it is unlikely s.trySendHistoricMessageErrorResponse(peer, request, err) } } // SyncMail syncs mail servers between two Mail Servers. func (s *WMailServer) SyncMail(peer *whisper.Peer, request whisper.SyncMailRequest) error { log.Info("Started syncing envelopes", "peer", peerIDString(peer), "req", request) defer recoverLevelDBPanics("SyncMail") requestID := fmt.Sprintf("%d-%d", time.Now().UnixNano(), rand.Intn(1000)) syncRequestsMeter.Mark(1) // Check rate limiting for a requesting peer. if s.exceedsPeerRequests(peer.ID()) { requestErrorsCounter.Inc(1) log.Error("Peer exceeded request per seconds limit", "peerID", peerIDString(peer)) return fmt.Errorf("requests per seconds limit exceeded") } if err := request.Validate(); err != nil { return fmt.Errorf("request is invalid: %v", err) } iter := s.createIterator(request.Lower, request.Upper, request.Cursor) defer iter.Release() bundles := make(chan []rlp.RawValue, 5) errCh := make(chan error) cancelProcessing := make(chan struct{}) go func() { for bundle := range bundles { resp := whisper.RawSyncResponse{Envelopes: bundle} if err := s.w.SendRawSyncResponse(peer, resp); err != nil { close(cancelProcessing) errCh <- fmt.Errorf("failed to send sync response: %v", err) break } } close(errCh) }() start := time.Now() nextCursor, _ := s.processRequestInBundles( iter, request.Bloom, int(request.Limit), processRequestTimeout, requestID, bundles, cancelProcessing, ) requestProcessTimer.UpdateSince(start) // Wait for the goroutine to finish the work. It may return an error. if err := <-errCh; err != nil { _ = s.w.SendSyncResponse( peer, whisper.SyncResponse{Error: "failed to send a response"}, ) return err } // Processing of the request could be finished earlier due to iterator error. if err := iter.Error(); err != nil { _ = s.w.SendSyncResponse( peer, whisper.SyncResponse{Error: "failed to process all envelopes"}, ) return fmt.Errorf("levelDB iterator failed: %v", err) } log.Info("Finished syncing envelopes", "peer", peerIDString(peer)) if err := s.w.SendSyncResponse(peer, whisper.SyncResponse{ Cursor: nextCursor, Final: true, }); err != nil { return fmt.Errorf("failed to send the final sync response: %v", err) } return nil } // exceedsPeerRequests in case limit its been setup on the current server and limit // allows the query, it will store/update new query time for the current peer. func (s *WMailServer) exceedsPeerRequests(peer []byte) bool { s.muRateLimiter.RLock() defer s.muRateLimiter.RUnlock() if s.rateLimiter == nil { return false } peerID := string(peer) if s.rateLimiter.IsAllowed(peerID) { s.rateLimiter.Add(peerID) return false } log.Info("peerID exceeded the number of requests per second") return true } func (s *WMailServer) createIterator(lower, upper uint32, cursor []byte) iterator.Iterator { var ( emptyHash common.Hash emptyTopic whisper.TopicType ku, kl *DBKey ) ku = NewDBKey(upper+1, emptyTopic, emptyHash) kl = NewDBKey(lower, emptyTopic, emptyHash) i := s.db.NewIterator(&util.Range{Start: kl.Bytes(), Limit: ku.Bytes()}, nil) // seek to the end as we want to return envelopes in a descending order if len(cursor) == CursorLength { i.Seek(cursor) } return i } // processRequestInBundles processes envelopes using an iterator and passes them // to the output channel in bundles. func (s *WMailServer) processRequestInBundles( iter iterator.Iterator, bloom []byte, limit int, timeout time.Duration, requestID string, output chan<- []rlp.RawValue, cancel <-chan struct{}, ) ([]byte, common.Hash) { var ( bundle []rlp.RawValue bundleSize uint32 batches [][]rlp.RawValue processedEnvelopes int processedEnvelopesSize int64 nextCursor []byte lastEnvelopeHash common.Hash ) log.Info("[mailserver:processRequestInBundles] processing request", "requestID", requestID, "limit", limit) // We iterate over the envelopes. // We collect envelopes in batches. // If there still room and we haven't reached the limit // append and continue. // Otherwise publish what you have so far, reset the bundle to the // current envelope, and leave if we hit the limit for iter.Next() { rawValue := make([]byte, len(iter.Value())) copy(rawValue, iter.Value()) key := &DBKey{ raw: iter.Key(), } var envelopeBloom []byte // Old key, we extract the topic from the envelope if len(key.Bytes()) != DBKeyLength { var err error envelopeBloom, err = extractBloomFromEncodedEnvelope(rawValue) if err != nil { log.Error("[mailserver:processRequestInBundles] failed to decode RLP", "err", err, "requestID", requestID) continue } } else { envelopeBloom = whisper.TopicToBloom(key.Topic()) } if !whisper.BloomFilterMatch(bloom, envelopeBloom) { continue } lastEnvelopeHash = key.EnvelopeHash() processedEnvelopes++ envelopeSize := uint32(len(rawValue)) limitReached := processedEnvelopes == limit newSize := bundleSize + envelopeSize // If we still have some room for messages, add and continue if !limitReached && newSize < s.w.MaxMessageSize() { bundle = append(bundle, rawValue) bundleSize = newSize continue } // Publish if anything is in the bundle (there should always be // something unless limit = 1) if len(bundle) != 0 { batches = append(batches, bundle) processedEnvelopesSize += int64(bundleSize) } // Reset the bundle with the current envelope bundle = []rlp.RawValue{rawValue} bundleSize = envelopeSize // Leave if we reached the limit if limitReached { nextCursor = key.Cursor() break } } if len(bundle) > 0 { batches = append(batches, bundle) processedEnvelopesSize += int64(bundleSize) } log.Info("[mailserver:processRequestInBundles] publishing envelopes", "requestID", requestID, "batchesCount", len(batches), "envelopeCount", processedEnvelopes, "processedEnvelopesSize", processedEnvelopesSize, "cursor", nextCursor) // Publish for _, batch := range batches { select { case output <- batch: // It might happen that during producing the batches, // the connection with the peer goes down and // the consumer of `output` channel exits prematurely. // In such a case, we should stop pushing batches and exit. case <-cancel: log.Info("[mailserver:processRequestInBundles] failed to push all batches", "requestID", requestID) break case <-time.After(timeout): log.Error("[mailserver:processRequestInBundles] timed out pushing a batch", "requestID", requestID) break } } sentEnvelopesMeter.Mark(int64(processedEnvelopes)) sentEnvelopesSizeMeter.Mark(processedEnvelopesSize) log.Info("[mailserver:processRequestInBundles] envelopes published", "requestID", requestID) close(output) return nextCursor, lastEnvelopeHash } func (s *WMailServer) sendRawEnvelopes(peer *whisper.Peer, envelopes []rlp.RawValue, batch bool) error { start := time.Now() defer requestProcessNetTimer.UpdateSince(start) if batch { return s.w.SendRawP2PDirect(peer, envelopes...) } for _, env := range envelopes { if err := s.w.SendRawP2PDirect(peer, env); err != nil { return err } } return nil } func (s *WMailServer) sendHistoricMessageResponse(peer *whisper.Peer, request *whisper.Envelope, lastEnvelopeHash common.Hash, cursor []byte) error { payload := whisper.CreateMailServerRequestCompletedPayload(request.Hash(), lastEnvelopeHash, cursor) return s.w.SendHistoricMessageResponse(peer, payload) } // this method doesn't return an error because it is already in the error handling chain func (s *WMailServer) trySendHistoricMessageErrorResponse(peer *whisper.Peer, request *whisper.Envelope, errorToReport error) { payload := whisper.CreateMailServerRequestFailedPayload(request.Hash(), errorToReport) err := s.w.SendHistoricMessageResponse(peer, payload) // if we can't report an error, probably something is wrong with p2p connection, // so we just print a log entry to document this sad fact if err != nil { log.Error("Error while reporting error response", "err", err, "peerID", peerIDString(peer)) } } // openEnvelope tries to decrypt an envelope, first based on asymetric key (if // provided) and second on the symetric key (if provided) func (s *WMailServer) openEnvelope(request *whisper.Envelope) *whisper.ReceivedMessage { if s.asymFilter != nil { if d := request.Open(s.asymFilter); d != nil { return d } } if s.symFilter != nil { if d := request.Open(s.symFilter); d != nil { return d } } return nil } func (s *WMailServer) decodeRequest(peerID []byte, request *whisper.Envelope) (MessagesRequestPayload, error) { var payload MessagesRequestPayload if s.pow > 0.0 && request.PoW() < s.pow { return payload, errors.New("PoW too low") } decrypted := s.openEnvelope(request) if decrypted == nil { log.Warn("Failed to decrypt p2p request") return payload, errors.New("failed to decrypt p2p request") } if err := s.checkMsgSignature(decrypted, peerID); err != nil { log.Warn("Check message signature failed: %s", "err", err.Error()) return payload, fmt.Errorf("check message signature failed: %v", err) } if err := rlp.DecodeBytes(decrypted.Payload, &payload); err != nil { return payload, fmt.Errorf("failed to decode data: %v", err) } if payload.Upper == 0 { payload.Upper = uint32(time.Now().Unix() + whisperTTLSafeThreshold) } if payload.Upper < payload.Lower { log.Error("Query range is invalid: lower > upper", "lower", payload.Lower, "upper", payload.Upper) return payload, errors.New("query range is invalid: lower > upper") } return payload, nil } // validateRequest runs different validations on the current request. // DEPRECATED func (s *WMailServer) validateRequest( peerID []byte, request *whisper.Envelope, ) (uint32, uint32, []byte, uint32, []byte, error) { if s.pow > 0.0 && request.PoW() < s.pow { return 0, 0, nil, 0, nil, fmt.Errorf("PoW() is too low") } decrypted := s.openEnvelope(request) if decrypted == nil { return 0, 0, nil, 0, nil, fmt.Errorf("failed to decrypt p2p request") } if err := s.checkMsgSignature(decrypted, peerID); err != nil { return 0, 0, nil, 0, nil, err } bloom, err := s.bloomFromReceivedMessage(decrypted) if err != nil { return 0, 0, nil, 0, nil, err } lower := binary.BigEndian.Uint32(decrypted.Payload[:4]) upper := binary.BigEndian.Uint32(decrypted.Payload[4:8]) if upper < lower { err := fmt.Errorf("query range is invalid: from > to (%d > %d)", lower, upper) return 0, 0, nil, 0, nil, err } lowerTime := time.Unix(int64(lower), 0) upperTime := time.Unix(int64(upper), 0) if upperTime.Sub(lowerTime) > maxQueryRange { err := fmt.Errorf("query range too big for peer %s", string(peerID)) return 0, 0, nil, 0, nil, err } var limit uint32 if len(decrypted.Payload) >= requestTimeRangeLength+whisper.BloomFilterSize+requestLimitLength { limit = binary.BigEndian.Uint32(decrypted.Payload[requestTimeRangeLength+whisper.BloomFilterSize:]) } var cursor []byte if len(decrypted.Payload) == requestTimeRangeLength+whisper.BloomFilterSize+requestLimitLength+DBKeyLength { cursor = decrypted.Payload[requestTimeRangeLength+whisper.BloomFilterSize+requestLimitLength:] } err = nil return lower, upper, bloom, limit, cursor, err } // checkMsgSignature returns an error in case the message is not correcly signed func (s *WMailServer) checkMsgSignature(msg *whisper.ReceivedMessage, id []byte) error { src := crypto.FromECDSAPub(msg.Src) if len(src)-len(id) == 1 { src = src[1:] } // if you want to check the signature, you can do it here. e.g.: // if !bytes.Equal(peerID, src) { if src == nil { return errors.New("Wrong signature of p2p request") } return nil } // bloomFromReceivedMessage for a given whisper.ReceivedMessage it extracts the // used bloom filter. func (s *WMailServer) bloomFromReceivedMessage(msg *whisper.ReceivedMessage) ([]byte, error) { payloadSize := len(msg.Payload) if payloadSize < 8 { return nil, errors.New("Undersized p2p request") } else if payloadSize == 8 { return whisper.MakeFullNodeBloom(), nil } else if payloadSize < 8+whisper.BloomFilterSize { return nil, errors.New("Undersized bloom filter in p2p request") } return msg.Payload[8 : 8+whisper.BloomFilterSize], nil } // peerWithID is a generalization of whisper.Peer. // whisper.Peer has all fields and methods, except for ID(), unexported. // It makes it impossible to create an instance of it // outside of whisper package and test properly. type peerWithID interface { ID() []byte } func peerIDString(peer peerWithID) string { return fmt.Sprintf("%x", peer.ID()) } func peerIDBytesString(id []byte) string { return fmt.Sprintf("%x", id) } func extractBloomFromEncodedEnvelope(rawValue rlp.RawValue) ([]byte, error) { var envelope whisper.Envelope decodeErr := rlp.DecodeBytes(rawValue, &envelope) if decodeErr != nil { return nil, decodeErr } return envelope.Bloom(), nil }