package node import ( "context" "errors" "time" blockstore "github.com/ipfs/go-ipfs-blockstore" ci "github.com/libp2p/go-libp2p-core/crypto" "github.com/libp2p/go-libp2p-core/host" "github.com/libp2p/go-libp2p-core/peer" "github.com/libp2p/go-libp2p-core/peerstore" "github.com/libp2p/go-libp2p-core/routing" "github.com/libp2p/go-libp2p-peerstore/pstoremem" pubsub "github.com/libp2p/go-libp2p-pubsub" record "github.com/libp2p/go-libp2p-record" "github.com/multiformats/go-multiaddr" "go.uber.org/fx" "golang.org/x/xerrors" "github.com/filecoin-project/lotus/api" "github.com/filecoin-project/lotus/chain" "github.com/filecoin-project/lotus/chain/blocksync" "github.com/filecoin-project/lotus/chain/deals" "github.com/filecoin-project/lotus/chain/market" "github.com/filecoin-project/lotus/chain/metrics" "github.com/filecoin-project/lotus/chain/stmgr" "github.com/filecoin-project/lotus/chain/store" "github.com/filecoin-project/lotus/chain/types" "github.com/filecoin-project/lotus/chain/wallet" "github.com/filecoin-project/lotus/lib/sectorbuilder" "github.com/filecoin-project/lotus/miner" "github.com/filecoin-project/lotus/node/config" "github.com/filecoin-project/lotus/node/hello" "github.com/filecoin-project/lotus/node/impl" "github.com/filecoin-project/lotus/node/modules" "github.com/filecoin-project/lotus/node/modules/dtypes" "github.com/filecoin-project/lotus/node/modules/helpers" "github.com/filecoin-project/lotus/node/modules/lp2p" "github.com/filecoin-project/lotus/node/modules/testing" "github.com/filecoin-project/lotus/node/repo" "github.com/filecoin-project/lotus/paych" "github.com/filecoin-project/lotus/peermgr" "github.com/filecoin-project/lotus/retrieval" "github.com/filecoin-project/lotus/retrieval/discovery" "github.com/filecoin-project/lotus/storage" "github.com/filecoin-project/lotus/storage/sectorblocks" ) // special is a type used to give keys to modules which // can't really be identified by the returned type type special struct{ id int } //nolint:golint var ( DefaultTransportsKey = special{0} // Libp2p option PNetKey = special{1} // Option + multiret DiscoveryHandlerKey = special{2} // Private type AddrsFactoryKey = special{3} // Libp2p option SmuxTransportKey = special{4} // Libp2p option RelayKey = special{5} // Libp2p option SecurityKey = special{6} // Libp2p option BaseRoutingKey = special{7} // fx groups + multiret NatPortMapKey = special{8} // Libp2p option ConnectionManagerKey = special{9} // Libp2p option ) type invoke int //nolint:golint const ( // libp2p PstoreAddSelfKeysKey = invoke(iota) StartListeningKey BootstrapKey // filecoin SetGenesisKey RunHelloKey RunBlockSyncKey RunPeerMgrKey HandleIncomingBlocksKey HandleIncomingMessagesKey RunDealClientKey RegisterClientValidatorKey // storage miner HandleDealsKey HandleRetrievalKey RunSectorServiceKey RegisterMinerKey RegisterProviderValidatorKey // daemon ExtractApiKey HeadMetricsKey SetApiEndpointKey _nInvokes // keep this last ) type Settings struct { // modules is a map of constructors for DI // // In most cases the index will be a reflect. Type of element returned by // the constructor, but for some 'constructors' it's hard to specify what's // the return type should be (or the constructor returns fx group) modules map[interface{}]fx.Option // invokes are separate from modules as they can't be referenced by return // type, and must be applied in correct order invokes []fx.Option nodeType repo.RepoType Online bool // Online option applied Config bool // Config option applied } func defaults() []Option { return []Option{ Override(new(helpers.MetricsCtx), context.Background), Override(new(record.Validator), modules.RecordValidator), // Filecoin modules } } func libp2p() Option { return Options( Override(new(peerstore.Peerstore), pstoremem.NewPeerstore), Override(DefaultTransportsKey, lp2p.DefaultTransports), Override(PNetKey, lp2p.PNet), Override(new(lp2p.RawHost), lp2p.Host), Override(new(host.Host), lp2p.RoutedHost), Override(new(lp2p.BaseIpfsRouting), lp2p.DHTRouting(false)), Override(DiscoveryHandlerKey, lp2p.DiscoveryHandler), Override(AddrsFactoryKey, lp2p.AddrsFactory(nil, nil)), Override(SmuxTransportKey, lp2p.SmuxTransport(true)), Override(RelayKey, lp2p.Relay(true, false)), Override(SecurityKey, lp2p.Security(true, false)), Override(BaseRoutingKey, lp2p.BaseRouting), Override(new(routing.Routing), lp2p.Routing), Override(NatPortMapKey, lp2p.NatPortMap), Override(ConnectionManagerKey, lp2p.ConnectionManager(50, 200, 20*time.Second)), Override(new(*pubsub.PubSub), lp2p.GossipSub()), Override(PstoreAddSelfKeysKey, lp2p.PstoreAddSelfKeys), Override(StartListeningKey, lp2p.StartListening(config.DefaultFullNode().Libp2p.ListenAddresses)), ) } func isType(t repo.RepoType) func(s *Settings) bool { return func(s *Settings) bool { return s.nodeType == t } } // Online sets up basic libp2p node func Online() Option { return Options( // make sure that online is applied before Config. // This is important because Config overrides some of Online units func(s *Settings) error { s.Online = true; return nil }, ApplyIf(func(s *Settings) bool { return s.Config }, Error(errors.New("the Online option must be set before Config option")), ), libp2p(), // common // Full node ApplyIf(isType(repo.FullNode), // TODO: Fix offline mode Override(new(dtypes.BootstrapPeers), modules.BuiltinBootstrap), Override(HandleIncomingMessagesKey, modules.HandleIncomingMessages), Override(new(*store.ChainStore), modules.ChainStore), Override(new(*stmgr.StateManager), stmgr.NewStateManager), Override(new(*wallet.Wallet), wallet.NewWallet), Override(new(dtypes.ChainGCLocker), blockstore.NewGCLocker), Override(new(dtypes.ChainGCBlockstore), modules.ChainGCBlockstore), Override(new(dtypes.ChainExchange), modules.ChainExchange), Override(new(dtypes.ChainBlockService), modules.ChainBlockservice), Override(new(dtypes.ClientDAG), testing.MemoryClientDag), // Filecoin services Override(new(*chain.Syncer), chain.NewSyncer), Override(new(*blocksync.BlockSync), blocksync.NewBlockSyncClient), Override(new(*chain.MessagePool), modules.MessagePool), Override(new(modules.Genesis), modules.ErrorGenesis), Override(SetGenesisKey, modules.SetGenesis), Override(new(*hello.Service), hello.NewHelloService), Override(new(*blocksync.BlockSyncService), blocksync.NewBlockSyncService), Override(new(*peermgr.PeerMgr), peermgr.NewPeerMgr), Override(RunHelloKey, modules.RunHello), Override(RunBlockSyncKey, modules.RunBlockSync), Override(RunPeerMgrKey, modules.RunPeerMgr), Override(HandleIncomingBlocksKey, modules.HandleIncomingBlocks), Override(HeadMetricsKey, metrics.SendHeadNotifs("")), Override(new(*discovery.Local), discovery.NewLocal), Override(new(discovery.PeerResolver), modules.RetrievalResolver), Override(new(*retrieval.Client), retrieval.NewClient), Override(new(dtypes.ClientDealStore), modules.NewClientDealStore), Override(new(dtypes.ClientDataTransfer), modules.NewClientDAGServiceDataTransfer), Override(new(*deals.ClientRequestValidator), deals.NewClientRequestValidator), Override(new(*deals.Client), deals.NewClient), Override(RegisterClientValidatorKey, modules.RegisterClientValidator), Override(RunDealClientKey, modules.RunDealClient), Override(new(*paych.Store), paych.NewStore), Override(new(*paych.Manager), paych.NewManager), Override(new(*market.FundMgr), market.NewFundMgr), Override(new(*miner.Miner), miner.NewMiner), ), // Storage miner ApplyIf(func(s *Settings) bool { return s.nodeType == repo.StorageMiner }, Override(new(*sectorbuilder.SectorBuilder), modules.SectorBuilder), Override(new(*sectorblocks.SectorBlocks), sectorblocks.NewSectorBlocks), Override(new(storage.TicketFn), modules.SealTicketGen), Override(new(*storage.Miner), modules.StorageMiner), Override(new(dtypes.StagingDAG), modules.StagingDAG), Override(new(*retrieval.Miner), retrieval.NewMiner), Override(new(dtypes.ProviderDealStore), modules.NewProviderDealStore), Override(new(dtypes.ProviderDataTransfer), modules.NewProviderDAGServiceDataTransfer), Override(new(*deals.ProviderRequestValidator), deals.NewProviderRequestValidator), Override(new(*deals.Provider), deals.NewProvider), Override(RegisterProviderValidatorKey, modules.RegisterProviderValidator), Override(HandleRetrievalKey, modules.HandleRetrieval), Override(HandleDealsKey, modules.HandleDeals), Override(RegisterMinerKey, modules.RegisterMiner), ), ) } func StorageMiner(out *api.StorageMiner) Option { return Options( ApplyIf(func(s *Settings) bool { return s.Config }, Error(errors.New("the StorageMiner option must be set before Config option")), ), ApplyIf(func(s *Settings) bool { return s.Online }, Error(errors.New("the StorageMiner option must be set before Online option")), ), func(s *Settings) error { s.nodeType = repo.StorageMiner return nil }, func(s *Settings) error { resAPI := &impl.StorageMinerAPI{} s.invokes[ExtractApiKey] = fx.Extract(resAPI) *out = resAPI return nil }, ) } // Config sets up constructors based on the provided Config func ConfigCommon(cfg *config.Common) Option { return Options( func(s *Settings) error { s.Config = true; return nil }, Override(SetApiEndpointKey, func(lr repo.LockedRepo) error { apima, err := multiaddr.NewMultiaddr(cfg.API.ListenAddress) if err != nil { return err } return lr.SetAPIEndpoint(apima) }), ApplyIf(func(s *Settings) bool { return s.Online }, Override(StartListeningKey, lp2p.StartListening(cfg.Libp2p.ListenAddresses)), ApplyIf(func(s *Settings) bool { return len(cfg.Libp2p.BootstrapPeers) > 0 }, Override(new(dtypes.BootstrapPeers), modules.ConfigBootstrap(cfg.Libp2p.BootstrapPeers)), ), ), ) } func ConfigFullNode(c interface{}) Option { cfg, ok := c.(*config.FullNode) if !ok { return Error(xerrors.Errorf("invalid config from repo, got: %T", c)) } return Options( ConfigCommon(&cfg.Common), Override(HeadMetricsKey, metrics.SendHeadNotifs(cfg.Metrics.Nickname)), ) } func ConfigStorageMiner(c interface{}, lr repo.LockedRepo) Option { cfg, ok := c.(*config.StorageMiner) if !ok { return Error(xerrors.Errorf("invalid config from repo, got: %T", c)) } path := cfg.SectorBuilder.Path if path == "" { path = lr.Path() } return Options( ConfigCommon(&cfg.Common), Override(new(*sectorbuilder.Config), modules.SectorBuilderConfig(path, cfg.SectorBuilder.WorkerCount)), ) } func Repo(r repo.Repo) Option { return func(settings *Settings) error { lr, err := r.Lock(settings.nodeType) if err != nil { return err } c, err := lr.Config() if err != nil { return err } return Options( Override(new(repo.LockedRepo), modules.LockedRepo(lr)), // module handles closing ApplyIf(isType(repo.FullNode), ConfigFullNode(c)), ApplyIf(isType(repo.StorageMiner), ConfigStorageMiner(c, lr)), Override(new(dtypes.MetadataDS), modules.Datastore), Override(new(dtypes.ChainBlockstore), modules.ChainBlockstore), Override(new(dtypes.ClientFilestore), modules.ClientFstore), Override(new(dtypes.ClientBlockstore), modules.ClientBlockstore), Override(new(dtypes.ClientDAG), modules.ClientDAG), Override(new(ci.PrivKey), lp2p.PrivKey), Override(new(ci.PubKey), ci.PrivKey.GetPublic), Override(new(peer.ID), peer.IDFromPublicKey), Override(new(types.KeyStore), modules.KeyStore), Override(new(*dtypes.APIAlg), modules.APISecret), )(settings) } } func FullAPI(out *api.FullNode) Option { return func(s *Settings) error { resAPI := &impl.FullNodeAPI{} s.invokes[ExtractApiKey] = fx.Extract(resAPI) *out = resAPI return nil } } type StopFunc func(context.Context) error // New builds and starts new Filecoin node func New(ctx context.Context, opts ...Option) (StopFunc, error) { settings := Settings{ modules: map[interface{}]fx.Option{}, invokes: make([]fx.Option, _nInvokes), nodeType: repo.FullNode, } // apply module options in the right order if err := Options(Options(defaults()...), Options(opts...))(&settings); err != nil { return nil, err } // gather constructors for fx.Options ctors := make([]fx.Option, 0, len(settings.modules)) for _, opt := range settings.modules { ctors = append(ctors, opt) } // fill holes in invokes for use in fx.Options for i, opt := range settings.invokes { if opt == nil { settings.invokes[i] = fx.Options() } } app := fx.New( fx.Options(ctors...), fx.Options(settings.invokes...), fx.NopLogger, ) // TODO: we probably should have a 'firewall' for Closing signal // on this context, and implement closing logic through lifecycles // correctly if err := app.Start(ctx); err != nil { // comment fx.NopLogger few lines above for easier debugging return nil, err } return app.Stop, nil } // In-memory / testing func Test() Option { return Options( Unset(RunPeerMgrKey), Unset(new(*peermgr.PeerMgr)), ) }