package node import ( "git.lumeweb.com/LumeWeb/libs5-go/config" "git.lumeweb.com/LumeWeb/libs5-go/encoding" "git.lumeweb.com/LumeWeb/libs5-go/interfaces" "git.lumeweb.com/LumeWeb/libs5-go/service" "git.lumeweb.com/LumeWeb/libs5-go/structs" "git.lumeweb.com/LumeWeb/libs5-go/utils" "github.com/vmihailenco/msgpack/v5" bolt "go.etcd.io/bbolt" "go.uber.org/zap" "time" ) var _ interfaces.Node = (*NodeImpl)(nil) const cacheBucketName = "object-cache" type NodeImpl struct { nodeConfig *config.NodeConfig metadataCache structs.Map started bool hashQueryRoutingTable structs.Map services interfaces.Services cacheBucket *bolt.Bucket } func (n *NodeImpl) Services() interfaces.Services { return n.services } func NewNode(config *config.NodeConfig) interfaces.Node { n := &NodeImpl{ nodeConfig: config, metadataCache: structs.NewMap(), started: false, hashQueryRoutingTable: structs.NewMap(), } n.services = NewServices(service.NewP2P(n)) return n } func (n *NodeImpl) HashQueryRoutingTable() structs.Map { return n.hashQueryRoutingTable } func (n *NodeImpl) IsStarted() bool { return n.started } func (n *NodeImpl) Config() *config.NodeConfig { return n.nodeConfig } func (n *NodeImpl) Logger() *zap.Logger { if n.nodeConfig != nil { return n.nodeConfig.Logger } return nil } func (n *NodeImpl) Db() *bolt.DB { if n.nodeConfig != nil { return n.nodeConfig.DB } return nil } func (n *NodeImpl) Start() error { err := utils.CreateBucket(cacheBucketName, n.Db(), func(bucket *bolt.Bucket) { n.cacheBucket = bucket }) if err != nil { return err } n.started = true return nil } /* func (n *NodeImpl) Services() *S5Services { if n.nodeConfig != nil { return n.nodeConfig.Services } return nil } func (n *NodeImpl) Start() error { n.started = true return nil } func (n *NodeImpl) Stop() error { n.started = false return nil } */ func (n *NodeImpl) GetCachedStorageLocations(hash *encoding.Multihash, types []int) (map[string]interfaces.StorageLocation, error) { locations := make(map[string]interfaces.StorageLocation) locationMap, err := n.readStorageLocationsFromDB(hash) if err != nil { return nil, err } if len(locationMap) == 0 { return make(map[string]interfaces.StorageLocation), nil } ts := time.Now().Unix() for _, t := range types { nodeMap, ok := (locationMap)[t] if !ok { continue } for key, value := range nodeMap { if len(value) < 4 { continue } expiry, ok := value[3].(int64) if !ok || expiry < ts { continue } addresses, ok := value[1].([]string) if !ok { continue } storageLocation := NewStorageLocation(t, addresses, expiry) if len(value) > 4 { if providerMessage, ok := value[4].([]byte); ok { (storageLocation).SetProviderMessage(providerMessage) } } locations[key] = storageLocation } } return locations, nil } func (n *NodeImpl) readStorageLocationsFromDB(hash *encoding.Multihash) (storageLocationMap, error) { locationMap := newStorageLocationMap() bytes := n.cacheBucket.Get(hash.FullBytes()) if bytes == nil { return locationMap, nil } err := msgpack.Unmarshal(bytes, locationMap) if err != nil { return nil, err } return locationMap, nil } func (n *NodeImpl) AddStorageLocation(hash *encoding.Multihash, nodeId *encoding.NodeId, location interfaces.StorageLocation, message []byte, config *config.NodeConfig) error { // Read existing storage locations locationDb, err := n.readStorageLocationsFromDB(hash) if err != nil { return err } nodeIdStr, err := nodeId.ToString() if err != nil { return err } // Get or create the inner map for the specific type innerMap, exists := locationDb[location.Type()] if !exists { innerMap = make(nodeStorage, 1) innerMap[nodeIdStr] = make(nodeDetailsStorage, 1) } // Create location map with new data locationMap := make(map[int]interface{}, 3) locationMap[1] = location.Parts() locationMap[3] = location.Expiry() locationMap[4] = message // Update the inner map with the new location innerMap[nodeIdStr] = locationMap locationDb[location.Type()] = innerMap // Serialize the updated map and store it in the database packedBytes, err := msgpack.Marshal(locationDb) if err != nil { return err } err = n.cacheBucket.Put(hash.FullBytes(), packedBytes) if err != nil { return err } return nil } /* func (n *NodeImpl) DownloadBytesByHash(hash Multihash) ([]byte, error) { dlUriProvider := NewStorageLocationProvider(n, hash, []int{storageLocationTypeFull, storageLocationTypeFile}) dlUriProvider.Start() retryCount := 0 for { dlUri, err := dlUriProvider.Next() if err != nil { return nil, err } n.Logger.Verbose(fmt.Sprintf("[try] %s", dlUri.Location.BytesUrl)) client := &http.Client{ Timeout: 30 * time.Second, } res, err := client.Get(dlUri.Location.BytesUrl) if err != nil { n.Logger.Catched(err) dlUriProvider.Downvote(dlUri) retryCount++ if retryCount > 32 { return nil, errors.New("too many retries") } continue } defer res.Body.Close() data, err := ioutil.ReadAll(res.Body) if err != nil { return nil, err } // Assuming blake3 and equalBytes functions are available resHash := blake3(data) if !equalBytes(hash.HashBytes, resHash) { dlUriProvider.Downvote(dlUri) continue } dlUriProvider.Upvote(dlUri) return data, nil } } func (n *NodeImpl) GetMetadataByCID(cid CID) (Metadata, error) { var metadata Metadata var ok bool if metadata, ok = n.MetadataCache[cid.Hash]; !ok { bytes, err := n.DownloadBytesByHash(cid.Hash) if err != nil { return Metadata{}, err } switch cid.kind { case METADATA_MEDIA, BRIDGE: // Both cases use the same deserialization method metadata, err = deserializeMediaMetadata(bytes) case METADATA_WEBAPP: metadata, err = deserializeWebAppMetadata(bytes) default: return Metadata{}, errors.New("unsupported metadata format") } if err != nil { return Metadata{}, err } n.MetadataCache[cid.Hash] = metadata } return metadata, nil } */