package storage import ( "bytes" "fmt" "git.lumeweb.com/LumeWeb/libs5-go/encoding" "git.lumeweb.com/LumeWeb/libs5-go/interfaces" "git.lumeweb.com/LumeWeb/libs5-go/types" "github.com/vmihailenco/msgpack/v5" "go.uber.org/zap" "strconv" "sync" "time" ) var ( _ msgpack.CustomDecoder = (*StorageLocationMap)(nil) _ msgpack.CustomEncoder = (*StorageLocationMap)(nil) _ interfaces.StorageLocation = (*StorageLocationImpl)(nil) _ interfaces.StorageLocationProvider = (*StorageLocationProviderImpl)(nil) _ interfaces.SignedStorageLocation = (*SignedStorageLocationImpl)(nil) ) type StorageLocationMap map[int]NodeStorage type NodeStorage map[string]NodeDetailsStorage type NodeDetailsStorage map[int]interface{} type StorageLocationImpl struct { kind int parts []string binaryParts [][]byte expiry int64 providerMessage []byte } func (s *StorageLocationImpl) Type() int { return s.kind } func (s *StorageLocationImpl) Parts() []string { //TODO implement me panic("implement me") } func (s *StorageLocationImpl) BinaryParts() [][]byte { return s.binaryParts } func (s *StorageLocationImpl) Expiry() int64 { return s.expiry } func (s *StorageLocationImpl) SetType(t int) { s.kind = t } func (s *StorageLocationImpl) SetParts(p []string) { s.parts = p } func (s *StorageLocationImpl) SetBinaryParts(bp [][]byte) { s.binaryParts = bp } func (s *StorageLocationImpl) SetExpiry(e int64) { s.expiry = e } func (s *StorageLocationImpl) SetProviderMessage(msg []byte) { s.providerMessage = msg } func (s *StorageLocationImpl) ProviderMessage() []byte { return s.providerMessage } func NewStorageLocation(Type int, Parts []string, Expiry int64) interfaces.StorageLocation { return &StorageLocationImpl{ kind: Type, parts: Parts, expiry: Expiry, } } func (s *StorageLocationImpl) BytesURL() string { return s.parts[0] } func (s *StorageLocationImpl) OutboardBytesURL() string { if len(s.parts) == 1 { return s.parts[0] + ".obao" } return s.parts[1] } func (s *StorageLocationImpl) String() string { expiryDate := time.Unix(s.expiry, 0) return "StorageLocationImpl(" + strconv.Itoa(s.Type()) + ", " + fmt.Sprint(s.parts) + ", expiry: " + expiryDate.Format(time.RFC3339) + ")" } type SignedStorageLocationImpl struct { nodeID *encoding.NodeId location interfaces.StorageLocation } func NewSignedStorageLocation(NodeID *encoding.NodeId, Location interfaces.StorageLocation) interfaces.SignedStorageLocation { return &SignedStorageLocationImpl{ nodeID: NodeID, location: Location, } } func (ssl *SignedStorageLocationImpl) String() string { nodeString, _ := ssl.nodeID.ToString() if nodeString == "" { nodeString = "failed to decode node id" } return "SignedStorageLocationImpl(" + ssl.location.String() + ", " + nodeString + ")" } func (ssl *SignedStorageLocationImpl) NodeId() *encoding.NodeId { return ssl.nodeID } func (ssl *SignedStorageLocationImpl) Location() interfaces.StorageLocation { return ssl.location } func (s *StorageLocationMap) DecodeMsgpack(dec *msgpack.Decoder) error { temp, err := dec.DecodeUntypedMap() if err != nil { return err } if *s == nil { *s = make(map[int]NodeStorage) } tempMap, ok := interface{}(temp).(StorageLocationMap) if !ok { return fmt.Errorf("unexpected data format from msgpack decoding") } *s = tempMap return nil } func (s StorageLocationMap) EncodeMsgpack(enc *msgpack.Encoder) error { // Create a temporary map to hold the encoded data tempMap := make(map[int]map[string]map[int]interface{}) // Populate the temporary map with data from storageLocationMap for storageKey, nodeStorages := range s { tempNodeStorages := make(map[string]map[int]interface{}) for nodeId, nodeDetails := range nodeStorages { tempNodeStorages[nodeId] = nodeDetails } tempMap[storageKey] = tempNodeStorages } // Encode the temporary map using MessagePack return enc.Encode(tempMap) } func NewStorageLocationMap() StorageLocationMap { return StorageLocationMap{} } type StorageLocationProviderImpl struct { node interfaces.Node hash *encoding.Multihash types []types.StorageLocationType timeoutDuration time.Duration availableNodes []*encoding.NodeId uris map[string]interfaces.StorageLocation timeout time.Time isTimedOut bool isWaitingForUri bool mutex sync.Mutex } func (s *StorageLocationProviderImpl) Start() error { var err error s.uris, err = s.node.GetCachedStorageLocations(s.hash, s.types) if err != nil { return err } s.mutex.Lock() s.availableNodes = make([]*encoding.NodeId, 0, len(s.uris)) for k := range s.uris { nodeId, err := encoding.DecodeNodeId(k) if err != nil { continue } s.availableNodes = append(s.availableNodes, nodeId) } s.availableNodes, err = s.node.Services().P2P().SortNodesByScore(s.availableNodes) if err != nil { s.mutex.Unlock() return err } s.timeout = time.Now().Add(s.timeoutDuration) s.isTimedOut = false s.mutex.Unlock() go func() { requestSent := false for { s.mutex.Lock() if time.Now().After(s.timeout) { s.isTimedOut = true s.mutex.Unlock() break } newUris, err := s.node.GetCachedStorageLocations(s.hash, s.types) if err != nil { s.mutex.Unlock() break } if len(s.availableNodes) == 0 && len(newUris) < 2 && !requestSent { err := s.node.Services().P2P().SendHashRequest(s.hash, s.types) if err != nil { s.node.Logger().Error("Error sending hash request", zap.Error(err)) continue } requestSent = true } hasNewNode := false for k, v := range newUris { if _, exists := s.uris[k]; !exists || s.uris[k] != v { s.uris[k] = v nodeId, err := encoding.DecodeNodeId(k) if err != nil { s.node.Logger().Error("Error decoding node id", zap.Error(err)) continue } if !containsNode(s.availableNodes, nodeId) { s.availableNodes = append(s.availableNodes, nodeId) hasNewNode = true } } } if hasNewNode { score, err := s.node.Services().P2P().SortNodesByScore(s.availableNodes) if err != nil { s.node.Logger().Error("Error sorting nodes by score", zap.Error(err)) } else { s.availableNodes = score } } s.mutex.Unlock() time.Sleep(10 * time.Millisecond) } }() return nil } func (s *StorageLocationProviderImpl) Next() (interfaces.SignedStorageLocation, error) { s.timeout = time.Now().Add(s.timeoutDuration) for { if len(s.availableNodes) > 0 { s.isWaitingForUri = false nodeId := s.availableNodes[0] s.availableNodes = s.availableNodes[1:] nodIdStr, err := nodeId.ToString() if err != nil { return nil, err } uri, exists := s.uris[nodIdStr] if !exists { s.node.Logger().Error("Could not find uri for node id", zap.String("nodeId", nodIdStr)) continue } return NewSignedStorageLocation(nodeId, uri), nil } s.isWaitingForUri = true if s.isTimedOut { hashStr, err := s.hash.ToString() if err != nil { return nil, err } return nil, fmt.Errorf("Could not download raw file: Timed out after %s %s", s.timeoutDuration.String(), hashStr) } time.Sleep(10 * time.Millisecond) // Replace with a proper wait/notify mechanism if applicable } } func (s *StorageLocationProviderImpl) Upvote(uri interfaces.SignedStorageLocation) error { err := s.node.Services().P2P().UpVote(uri.NodeId()) if err != nil { return err } return nil } func (s *StorageLocationProviderImpl) Downvote(uri interfaces.SignedStorageLocation) error { err := s.node.Services().P2P().DownVote(uri.NodeId()) if err != nil { return err } return nil } func NewStorageLocationProvider(node interfaces.Node, hash *encoding.Multihash, locationTypes ...types.StorageLocationType) interfaces.StorageLocationProvider { if locationTypes == nil { locationTypes = []types.StorageLocationType{ types.StorageLocationTypeFull, } } return &StorageLocationProviderImpl{ node: node, hash: hash, types: locationTypes, timeoutDuration: 60 * time.Second, uris: make(map[string]interfaces.StorageLocation), } } func containsNode(slice []*encoding.NodeId, item *encoding.NodeId) bool { for _, v := range slice { if bytes.Equal(v.Bytes(), item.Bytes()) { return true } } return false }