// VulcanizeDB // Copyright © 2019 Vulcanize // This program is free software: you can redistribute it and/or modify // it under the terms of the GNU Affero General Public License as published by // the Free Software Foundation, either version 3 of the License, or // (at your option) any later version. // This program 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 Affero General Public License for more details. // You should have received a copy of the GNU Affero General Public License // along with this program. If not, see . package serve import ( "fmt" "strconv" "sync" "github.com/ethereum/go-ethereum/common" "github.com/ethereum/go-ethereum/core/vm" "github.com/ethereum/go-ethereum/crypto" ethnode "github.com/ethereum/go-ethereum/node" "github.com/ethereum/go-ethereum/p2p" "github.com/ethereum/go-ethereum/rlp" "github.com/ethereum/go-ethereum/rpc" "github.com/jmoiron/sqlx" log "github.com/sirupsen/logrus" "github.com/vulcanize/ipld-eth-server/pkg/eth" "github.com/vulcanize/ipld-eth-server/pkg/net" ) const ( PayloadChanBufferSize = 2000 ) // Server is the top level interface for streaming, converting to IPLDs, publishing, // and indexing all chain data; screening this data; and serving it up to subscribed clients // This service is compatible with the Ethereum service interface (node.Service) type Server interface { // Start() and Stop() ethnode.Lifecycle APIs() []rpc.API Protocols() []p2p.Protocol // Pub-Sub handling event loop Serve(wg *sync.WaitGroup, screenAndServePayload <-chan eth.ConvertedPayload) // Method to subscribe to the service Subscribe(id rpc.ID, sub chan<- SubscriptionPayload, quitChan chan<- bool, params eth.SubscriptionSettings) // Method to unsubscribe from the service Unsubscribe(id rpc.ID) // Backend exposes the server's backend Backend() *eth.Backend } // Service is the underlying struct for the watcher type Service struct { // Used to sync access to the Subscriptions sync.Mutex // Interface for filtering and serving data according to subscribed clients according to their specification Filterer eth.Filterer // Interface for fetching IPLD objects from IPFS IPLDFetcher eth.Fetcher // Interface for searching and retrieving CIDs from Postgres index Retriever eth.Retriever // Used to signal shutdown of the service QuitChan chan bool // A mapping of rpc.IDs to their subscription channels, mapped to their subscription type (hash of the StreamFilters) Subscriptions map[common.Hash]map[rpc.ID]Subscription // A mapping of subscription params hash to the corresponding subscription params SubscriptionTypes map[common.Hash]eth.SubscriptionSettings // Underlying db db *sqlx.DB // wg for syncing serve processes serveWg *sync.WaitGroup // rpc client for forwarding cache misses client *rpc.Client // whether the proxied client supports state diffing supportsStateDiffing bool // backend for the server backend *eth.Backend // whether to forward eth_calls directly to proxy node forwardEthCalls bool // whether to forward all calls to proxy node if they throw an error locally proxyOnError bool // eth node network id nodeNetworkId string } // NewServer creates a new Server using an underlying Service struct func NewServer(settings *Config) (Server, error) { sap := new(Service) sap.Retriever = eth.NewCIDRetriever(settings.DB) sap.IPLDFetcher = eth.NewIPLDFetcher(settings.DB) sap.Filterer = eth.NewResponseFilterer() sap.db = settings.DB sap.QuitChan = make(chan bool) sap.Subscriptions = make(map[common.Hash]map[rpc.ID]Subscription) sap.SubscriptionTypes = make(map[common.Hash]eth.SubscriptionSettings) sap.client = settings.Client sap.supportsStateDiffing = settings.SupportStateDiff sap.forwardEthCalls = settings.ForwardEthCalls sap.proxyOnError = settings.ProxyOnError sap.nodeNetworkId = settings.NodeNetworkID var err error sap.backend, err = eth.NewEthBackend(sap.db, ð.Config{ ChainConfig: settings.ChainConfig, VMConfig: vm.Config{NoBaseFee: true}, DefaultSender: settings.DefaultSender, RPCGasCap: settings.RPCGasCap, GroupCacheConfig: settings.GroupCache, }) return sap, err } // Protocols exports the services p2p protocols, this service has none func (sap *Service) Protocols() []p2p.Protocol { return []p2p.Protocol{} } // APIs returns the RPC descriptors the watcher service offers func (sap *Service) APIs() []rpc.API { networkID, _ := strconv.ParseUint(sap.nodeNetworkId, 10, 64) apis := []rpc.API{ { Namespace: APIName, Version: APIVersion, Service: NewPublicServerAPI(sap), Public: true, }, { Namespace: net.APIName, Version: net.APIVersion, Service: net.NewPublicNetAPI(networkID, sap.client), Public: true, }, } ethAPI, err := eth.NewPublicEthAPI(sap.backend, sap.client, sap.supportsStateDiffing, sap.forwardEthCalls, sap.proxyOnError) if err != nil { log.Fatalf("unable to create public eth api: %v", err) } return append(apis, rpc.API{ Namespace: eth.APIName, Version: eth.APIVersion, Service: ethAPI, Public: true, }) } // Serve listens for incoming converter data off the screenAndServePayload from the Sync process // It filters and sends this data to any subscribers to the service // This process can also be stood up alone, without an screenAndServePayload attached to a Sync process // and it will hang on the WaitGroup indefinitely, allowing the Service to serve historical data requests only func (sap *Service) Serve(wg *sync.WaitGroup, screenAndServePayload <-chan eth.ConvertedPayload) { sap.serveWg = wg go func() { wg.Add(1) defer wg.Done() for { select { case payload := <-screenAndServePayload: sap.filterAndServe(payload) case <-sap.QuitChan: log.Info("quiting eth ipld server process") return } } }() log.Info("eth ipld server process successfully spun up") } // filterAndServe filters the payload according to each subscription type and sends to the subscriptions func (sap *Service) filterAndServe(payload eth.ConvertedPayload) { log.Debug("sending eth ipld payload to subscriptions") sap.Lock() sap.serveWg.Add(1) defer sap.Unlock() defer sap.serveWg.Done() for ty, subs := range sap.Subscriptions { // Retrieve the subscription parameters for this subscription type subConfig, ok := sap.SubscriptionTypes[ty] if !ok { log.Errorf("eth ipld server subscription configuration for subscription type %s not available", ty.Hex()) sap.closeType(ty) continue } if subConfig.End.Int64() > 0 && subConfig.End.Int64() < payload.Block.Number().Int64() { // We are not out of range for this subscription type // close it, and continue to the next sap.closeType(ty) continue } response, err := sap.Filterer.Filter(subConfig, payload) if err != nil { log.Errorf("eth ipld server filtering error: %v", err) sap.closeType(ty) continue } responseRLP, err := rlp.EncodeToBytes(response) if err != nil { log.Errorf("eth ipld server rlp encoding error: %v", err) continue } for id, sub := range subs { select { case sub.PayloadChan <- SubscriptionPayload{Data: responseRLP, Err: "", Flag: EmptyFlag, Height: response.BlockNumber.Int64()}: log.Debugf("sending eth ipld server payload to subscription %s", id) default: log.Infof("unable to send eth ipld payload to subscription %s; channel has no receiver", id) } } } } // Subscribe is used by the API to remotely subscribe to the service loop // The params must be rlp serializable and satisfy the SubscriptionSettings() interface func (sap *Service) Subscribe(id rpc.ID, sub chan<- SubscriptionPayload, quitChan chan<- bool, params eth.SubscriptionSettings) { sap.serveWg.Add(1) defer sap.serveWg.Done() log.Infof("new eth ipld subscription %s", id) subscription := Subscription{ ID: id, PayloadChan: sub, QuitChan: quitChan, } // Subscription type is defined as the hash of the rlp-serialized subscription settings by, err := rlp.EncodeToBytes(params) if err != nil { sendNonBlockingErr(subscription, err) sendNonBlockingQuit(subscription) return } subscriptionType := crypto.Keccak256Hash(by) if !params.BackFillOnly { // Add subscriber sap.Lock() if sap.Subscriptions[subscriptionType] == nil { sap.Subscriptions[subscriptionType] = make(map[rpc.ID]Subscription) } sap.Subscriptions[subscriptionType][id] = subscription sap.SubscriptionTypes[subscriptionType] = params sap.Unlock() } // If the subscription requests a backfill, use the Postgres index to lookup and retrieve historical data // Otherwise we only filter new data as it is streamed in from the state diffing geth node if params.BackFill || params.BackFillOnly { if err := sap.sendHistoricalData(subscription, id, params); err != nil { sendNonBlockingErr(subscription, fmt.Errorf("eth ipld server subscription backfill error: %v", err)) sendNonBlockingQuit(subscription) return } } } // sendHistoricalData sends historical data to the requesting subscription func (sap *Service) sendHistoricalData(sub Subscription, id rpc.ID, params eth.SubscriptionSettings) error { log.Infof("sending eth ipld historical data to subscription %s", id) // Retrieve cached CIDs relevant to this subscriber var endingBlock int64 var startingBlock int64 var err error startingBlock, err = sap.Retriever.RetrieveFirstBlockNumber() if err != nil { return err } if startingBlock < params.Start.Int64() { startingBlock = params.Start.Int64() } endingBlock, err = sap.Retriever.RetrieveLastBlockNumber() if err != nil { return err } if endingBlock > params.End.Int64() && params.End.Int64() > 0 && params.End.Int64() > startingBlock { endingBlock = params.End.Int64() } log.Debugf("eth ipld historical data starting block: %d", params.Start.Int64()) log.Debugf("eth ipld historical data ending block: %d", endingBlock) go func() { sap.serveWg.Add(1) defer sap.serveWg.Done() for i := startingBlock; i <= endingBlock; i++ { select { case <-sap.QuitChan: log.Infof("ethereum historical data feed to subscription %s closed", id) return default: } cidWrappers, empty, err := sap.Retriever.Retrieve(params, i) if err != nil { sendNonBlockingErr(sub, fmt.Errorf("eth ipld server cid retrieval error at block %d\r%s", i, err.Error())) continue } if empty { continue } for _, cids := range cidWrappers { response, err := sap.IPLDFetcher.Fetch(cids) if err != nil { sendNonBlockingErr(sub, fmt.Errorf("eth ipld server ipld fetching error at block %d\r%s", i, err.Error())) continue } responseRLP, err := rlp.EncodeToBytes(response) if err != nil { log.Error(err) continue } select { case sub.PayloadChan <- SubscriptionPayload{Data: responseRLP, Err: "", Flag: EmptyFlag, Height: response.BlockNumber.Int64()}: log.Debugf("eth ipld server sending historical data payload to subscription %s", id) default: log.Infof("eth ipld server unable to send backFill payload to subscription %s; channel has no receiver", id) } } } // when we are done backfilling send an empty payload signifying so in the msg select { case sub.PayloadChan <- SubscriptionPayload{Data: nil, Err: "", Flag: BackFillCompleteFlag}: log.Debugf("eth ipld server sending backFill completion notice to subscription %s", id) default: log.Infof("eth ipld server unable to send backFill completion notice to subscription %s", id) } }() return nil } // Unsubscribe is used by the API to remotely unsubscribe to the StateDiffingService loop func (sap *Service) Unsubscribe(id rpc.ID) { log.Infof("unsubscribing %s from the eth ipld server", id) sap.Lock() for ty := range sap.Subscriptions { delete(sap.Subscriptions[ty], id) if len(sap.Subscriptions[ty]) == 0 { // If we removed the last subscription of this type, remove the subscription type outright delete(sap.Subscriptions, ty) delete(sap.SubscriptionTypes, ty) } } sap.Unlock() } // Start is used to begin the service // This is mostly just to satisfy the node.Service interface func (sap *Service) Start() error { log.Info("starting eth ipld server") wg := new(sync.WaitGroup) payloadChan := make(chan eth.ConvertedPayload, PayloadChanBufferSize) sap.Serve(wg, payloadChan) return nil } // Stop is used to close down the service // This is mostly just to satisfy the node.Service interface func (sap *Service) Stop() error { log.Infof("stopping eth ipld server") sap.Lock() close(sap.QuitChan) sap.close() sap.Unlock() return nil } // Backend exposes the server's backend func (sap *Service) Backend() *eth.Backend { return sap.backend } // close is used to close all listening subscriptions // close needs to be called with subscription access locked func (sap *Service) close() { log.Infof("closing all eth ipld server subscriptions") for subType, subs := range sap.Subscriptions { for _, sub := range subs { sendNonBlockingQuit(sub) } delete(sap.Subscriptions, subType) delete(sap.SubscriptionTypes, subType) } } // closeType is used to close all subscriptions of given type // closeType needs to be called with subscription access locked func (sap *Service) closeType(subType common.Hash) { log.Infof("closing all eth ipld server subscriptions of type %s", subType.String()) subs := sap.Subscriptions[subType] for _, sub := range subs { sendNonBlockingQuit(sub) } delete(sap.Subscriptions, subType) delete(sap.SubscriptionTypes, subType) }