// Copyright (C) 2019 Storj Labs, Inc. // See LICENSE for copying information. package storagenode import ( "context" "net" "github.com/zeebo/errs" "go.uber.org/zap" "golang.org/x/sync/errgroup" "gopkg.in/spacemonkeygo/monkit.v2" "storj.io/storj/internal/errs2" "storj.io/storj/internal/version" "storj.io/storj/pkg/identity" "storj.io/storj/pkg/pb" "storj.io/storj/pkg/peertls/extensions" "storj.io/storj/pkg/peertls/tlsopts" "storj.io/storj/pkg/rpc" "storj.io/storj/pkg/server" "storj.io/storj/pkg/signing" "storj.io/storj/pkg/storj" "storj.io/storj/satellite/overlay" "storj.io/storj/storage" "storj.io/storj/storagenode/bandwidth" "storj.io/storj/storagenode/collector" "storj.io/storj/storagenode/console" "storj.io/storj/storagenode/console/consoleserver" "storj.io/storj/storagenode/contact" "storj.io/storj/storagenode/inspector" "storj.io/storj/storagenode/monitor" "storj.io/storj/storagenode/nodestats" "storj.io/storj/storagenode/orders" "storj.io/storj/storagenode/pieces" "storj.io/storj/storagenode/piecestore" "storj.io/storj/storagenode/reputation" "storj.io/storj/storagenode/retain" "storj.io/storj/storagenode/storageusage" "storj.io/storj/storagenode/trust" ) var ( mon = monkit.Package() ) // DB is the master database for Storage Node // // architecture: Master Database type DB interface { // CreateTables initializes the database CreateTables(ctx context.Context) error // Close closes the database Close() error Pieces() storage.Blobs Orders() orders.DB V0PieceInfo() pieces.V0PieceInfoDB PieceExpirationDB() pieces.PieceExpirationDB PieceSpaceUsedDB() pieces.PieceSpaceUsedDB Bandwidth() bandwidth.DB UsedSerials() piecestore.UsedSerials Reputation() reputation.DB StorageUsage() storageusage.DB } // Config is all the configuration parameters for a Storage Node type Config struct { Identity identity.Config Server server.Config Contact contact.Config Operator OperatorConfig // TODO: flatten storage config and only keep the new one Storage piecestore.OldConfig Storage2 piecestore.Config Collector collector.Config Retain retain.Config Nodestats nodestats.Config Console consoleserver.Config Version version.Config Bandwidth bandwidth.Config } // Verify verifies whether configuration is consistent and acceptable. func (config *Config) Verify(log *zap.Logger) error { return config.Operator.Verify(log) } // Peer is the representation of a Storage Node. // // architecture: Peer type Peer struct { // core dependencies Log *zap.Logger Identity *identity.FullIdentity DB DB Dialer rpc.Dialer Server *server.Server Version *version.Service // services and endpoints // TODO: similar grouping to satellite.Peer Contact struct { Service *contact.Service Chore *contact.Chore Endpoint *contact.Endpoint KEndpoint *contact.KademliaEndpoint PingStats *contact.PingStats } Storage2 struct { // TODO: lift things outside of it to organize better Trust *trust.Pool Store *pieces.Store BlobsCache *pieces.BlobsUsageCache CacheService *pieces.CacheService RetainService *retain.Service Endpoint *piecestore.Endpoint Inspector *inspector.Endpoint Monitor *monitor.Service Orders *orders.Service } Collector *collector.Service NodeStats struct { Service *nodestats.Service Cache *nodestats.Cache } // Web server with web UI Console struct { Listener net.Listener Service *console.Service Endpoint *consoleserver.Server } Bandwidth *bandwidth.Service } // New creates a new Storage Node. func New(log *zap.Logger, full *identity.FullIdentity, db DB, revocationDB extensions.RevocationDB, config Config, versionInfo version.Info) (*Peer, error) { peer := &Peer{ Log: log, Identity: full, DB: db, } var err error { test := version.Info{} if test != versionInfo { peer.Log.Sugar().Debugf("Binary Version: %s with CommitHash %s, built at %s as Release %v", versionInfo.Version.String(), versionInfo.CommitHash, versionInfo.Timestamp.String(), versionInfo.Release) } peer.Version = version.NewService(log.Named("version"), config.Version, versionInfo, "Storagenode") } { // setup listener and server sc := config.Server tlsOptions, err := tlsopts.NewOptions(peer.Identity, sc.Config, revocationDB) if err != nil { return nil, errs.Combine(err, peer.Close()) } peer.Dialer = rpc.NewDefaultDialer(tlsOptions) peer.Server, err = server.New(log.Named("server"), tlsOptions, sc.Address, sc.PrivateAddress, nil) if err != nil { return nil, errs.Combine(err, peer.Close()) } } { // setup trust pool peer.Storage2.Trust, err = trust.NewPool(peer.Dialer, config.Storage.WhitelistedSatellites) if err != nil { return nil, errs.Combine(err, peer.Close()) } } { // setup contact service c := config.Contact if c.ExternalAddress == "" { c.ExternalAddress = peer.Addr() } pbVersion, err := versionInfo.Proto() if err != nil { return nil, errs.Combine(err, peer.Close()) } self := &overlay.NodeDossier{ Node: pb.Node{ Id: peer.ID(), Address: &pb.NodeAddress{ Transport: pb.NodeTransport_TCP_TLS_GRPC, Address: c.ExternalAddress, }, }, Type: pb.NodeType_STORAGE, Operator: pb.NodeOperator{ Email: config.Operator.Email, Wallet: config.Operator.Wallet, }, Version: *pbVersion, } peer.Contact.PingStats = new(contact.PingStats) peer.Contact.Service = contact.NewService(peer.Log.Named("contact:service"), self) peer.Contact.Chore = contact.NewChore(peer.Log.Named("contact:chore"), config.Contact.Interval, config.Contact.MaxSleep, peer.Storage2.Trust, peer.Dialer, peer.Contact.Service) peer.Contact.Endpoint = contact.NewEndpoint(peer.Log.Named("contact:endpoint"), peer.Contact.PingStats) peer.Contact.KEndpoint = contact.NewKademliaEndpoint(peer.Log.Named("contact:nodes_service_endpoint"), peer.Contact.Service, peer.Storage2.Trust) pb.RegisterContactServer(peer.Server.GRPC(), peer.Contact.Endpoint) pb.RegisterNodesServer(peer.Server.GRPC(), peer.Contact.KEndpoint) pb.DRPCRegisterContact(peer.Server.DRPC(), peer.Contact.Endpoint) pb.DRPCRegisterNodes(peer.Server.DRPC(), peer.Contact.KEndpoint) } { // setup storage peer.Storage2.BlobsCache = pieces.NewBlobsUsageCache(peer.DB.Pieces()) peer.Storage2.Store = pieces.NewStore(peer.Log.Named("pieces"), peer.Storage2.BlobsCache, peer.DB.V0PieceInfo(), peer.DB.PieceExpirationDB(), peer.DB.PieceSpaceUsedDB(), ) peer.Storage2.CacheService = pieces.NewService( log.Named("piecestore:cacheUpdate"), peer.Storage2.BlobsCache, peer.Storage2.Store, config.Storage2.CacheSyncInterval, ) peer.Storage2.Monitor = monitor.NewService( log.Named("piecestore:monitor"), peer.Storage2.Store, peer.Contact.Service, peer.DB.Bandwidth(), config.Storage.AllocatedDiskSpace.Int64(), config.Storage.AllocatedBandwidth.Int64(), //TODO use config.Storage.Monitor.Interval, but for some reason is not set config.Storage.KBucketRefreshInterval, config.Storage2.Monitor, ) peer.Storage2.RetainService = retain.NewService( peer.Log.Named("retain"), peer.Storage2.Store, config.Retain, ) peer.Storage2.Endpoint, err = piecestore.NewEndpoint( peer.Log.Named("piecestore"), signing.SignerFromFullIdentity(peer.Identity), peer.Storage2.Trust, peer.Storage2.Monitor, peer.Storage2.RetainService, peer.Storage2.Store, peer.DB.Orders(), peer.DB.Bandwidth(), peer.DB.UsedSerials(), config.Storage2, ) if err != nil { return nil, errs.Combine(err, peer.Close()) } pb.RegisterPiecestoreServer(peer.Server.GRPC(), peer.Storage2.Endpoint) pb.DRPCRegisterPiecestore(peer.Server.DRPC(), peer.Storage2.Endpoint.DRPC()) // TODO workaround for custom timeout for order sending request (read/write) sc := config.Server tlsOptions, err := tlsopts.NewOptions(peer.Identity, sc.Config, revocationDB) if err != nil { return nil, errs.Combine(err, peer.Close()) } dialer := rpc.NewDefaultDialer(tlsOptions) dialer.DialTimeout = config.Storage2.Orders.SenderDialTimeout dialer.RequestTimeout = config.Storage2.Orders.SenderRequestTimeout peer.Storage2.Orders = orders.NewService( log.Named("orders"), dialer, peer.DB.Orders(), peer.Storage2.Trust, config.Storage2.Orders, ) } { // setup node stats service peer.NodeStats.Service = nodestats.NewService( peer.Log.Named("nodestats:service"), peer.Dialer, peer.Storage2.Trust) peer.NodeStats.Cache = nodestats.NewCache( peer.Log.Named("nodestats:cache"), config.Nodestats, nodestats.CacheStorage{ Reputation: peer.DB.Reputation(), StorageUsage: peer.DB.StorageUsage(), }, peer.NodeStats.Service, peer.Storage2.Trust) } { // setup storage node operator dashboard peer.Console.Service, err = console.NewService( peer.Log.Named("console:service"), peer.DB.Bandwidth(), peer.Storage2.Store, peer.Version, config.Storage.AllocatedBandwidth, config.Storage.AllocatedDiskSpace, config.Operator.Wallet, versionInfo, peer.Storage2.Trust, peer.DB.Reputation(), peer.DB.StorageUsage(), peer.Contact.PingStats, peer.Contact.Service) if err != nil { return nil, errs.Combine(err, peer.Close()) } peer.Console.Listener, err = net.Listen("tcp", config.Console.Address) if err != nil { return nil, errs.Combine(err, peer.Close()) } peer.Console.Endpoint = consoleserver.NewServer( peer.Log.Named("console:endpoint"), config.Console, peer.Console.Service, peer.Console.Listener, ) } { // setup storage inspector peer.Storage2.Inspector = inspector.NewEndpoint( peer.Log.Named("pieces:inspector"), peer.Storage2.Store, peer.Contact.Service, peer.Contact.PingStats, peer.DB.Bandwidth(), config.Storage, peer.Console.Listener.Addr(), config.Contact.ExternalAddress, ) pb.RegisterPieceStoreInspectorServer(peer.Server.PrivateGRPC(), peer.Storage2.Inspector) pb.DRPCRegisterPieceStoreInspector(peer.Server.PrivateDRPC(), peer.Storage2.Inspector) } peer.Collector = collector.NewService(peer.Log.Named("collector"), peer.Storage2.Store, peer.DB.UsedSerials(), config.Collector) peer.Bandwidth = bandwidth.NewService(peer.Log.Named("bandwidth"), peer.DB.Bandwidth(), config.Bandwidth) return peer, nil } // Run runs storage node until it's either closed or it errors. func (peer *Peer) Run(ctx context.Context) (err error) { defer mon.Task()(&ctx)(&err) group, ctx := errgroup.WithContext(ctx) group.Go(func() error { return errs2.IgnoreCanceled(peer.Version.Run(ctx)) }) group.Go(func() error { return errs2.IgnoreCanceled(peer.Contact.Chore.Run(ctx)) }) group.Go(func() error { return errs2.IgnoreCanceled(peer.Collector.Run(ctx)) }) group.Go(func() error { return errs2.IgnoreCanceled(peer.Storage2.Orders.Run(ctx)) }) group.Go(func() error { return errs2.IgnoreCanceled(peer.Storage2.Monitor.Run(ctx)) }) group.Go(func() error { return errs2.IgnoreCanceled(peer.Storage2.CacheService.Run(ctx)) }) group.Go(func() error { return errs2.IgnoreCanceled(peer.Storage2.RetainService.Run(ctx)) }) group.Go(func() error { return errs2.IgnoreCanceled(peer.Bandwidth.Run(ctx)) }) group.Go(func() error { // TODO: move the message into Server instead // Don't change the format of this comment, it is used to figure out the node id. peer.Log.Sugar().Infof("Node %s started", peer.Identity.ID) peer.Log.Sugar().Infof("Public server started on %s", peer.Addr()) peer.Log.Sugar().Infof("Private server started on %s", peer.PrivateAddr()) return errs2.IgnoreCanceled(peer.Server.Run(ctx)) }) group.Go(func() error { return errs2.IgnoreCanceled(peer.NodeStats.Cache.Run(ctx)) }) group.Go(func() error { return errs2.IgnoreCanceled(peer.Console.Endpoint.Run(ctx)) }) return group.Wait() } // Close closes all the resources. func (peer *Peer) Close() error { var errlist errs.Group // TODO: ensure that Close can be called on nil-s that way this code won't need the checks. // close servers, to avoid new connections to closing subsystems if peer.Server != nil { errlist.Add(peer.Server.Close()) } // close services in reverse initialization order if peer.Contact.Chore != nil { errlist.Add(peer.Contact.Chore.Close()) } if peer.Bandwidth != nil { errlist.Add(peer.Bandwidth.Close()) } if peer.Storage2.RetainService != nil { errlist.Add(peer.Storage2.RetainService.Close()) } if peer.Storage2.Monitor != nil { errlist.Add(peer.Storage2.Monitor.Close()) } if peer.Storage2.Orders != nil { errlist.Add(peer.Storage2.Orders.Close()) } if peer.Storage2.CacheService != nil { errlist.Add(peer.Storage2.CacheService.Close()) } if peer.Collector != nil { errlist.Add(peer.Collector.Close()) } if peer.Console.Endpoint != nil { errlist.Add(peer.Console.Endpoint.Close()) } else if peer.Console.Listener != nil { errlist.Add(peer.Console.Listener.Close()) } if peer.NodeStats.Cache != nil { errlist.Add(peer.NodeStats.Cache.Close()) } return errlist.Err() } // ID returns the peer ID. func (peer *Peer) ID() storj.NodeID { return peer.Identity.ID } // Local returns the peer local node info. func (peer *Peer) Local() overlay.NodeDossier { return peer.Contact.Service.Local() } // Addr returns the public address. func (peer *Peer) Addr() string { return peer.Server.Addr().String() } // URL returns the storj.NodeURL. func (peer *Peer) URL() storj.NodeURL { return storj.NodeURL{ID: peer.ID(), Address: peer.Addr()} } // PrivateAddr returns the private address. func (peer *Peer) PrivateAddr() string { return peer.Server.PrivateAddr().String() }