package dht import ( "crypto/rand" "encoding/hex" "reflect" "strconv" "strings" "github.com/lbryio/lbry.go/v2/dht/bits" "github.com/lbryio/lbry.go/v2/extras/errors" "github.com/lyoshenka/bencode" "github.com/spf13/cast" ) const ( pingMethod = "ping" storeMethod = "store" findNodeMethod = "findNode" findValueMethod = "findValue" ) const ( pingSuccessResponse = "pong" storeSuccessResponse = "OK" ) const ( requestType = 0 responseType = 1 errorType = 2 ) const ( // these are strings because bencode requires bytestring keys headerTypeField = "0" headerMessageIDField = "1" // message id is 20 bytes long headerNodeIDField = "2" // node id is 48 bytes long headerPayloadField = "3" headerArgsField = "4" contactsField = "contacts" tokenField = "token" protocolVersionField = "protocolVersion" ) // Message is a DHT message type Message interface { bencode.Marshaler } type messageID [messageIDLength]byte // HexShort returns the first 8 hex characters of the hex encoded message id. func (m messageID) HexShort() string { return hex.EncodeToString(m[:])[:8] } // UnmarshalBencode takes a byte slice and unmarshals the message id. func (m *messageID) UnmarshalBencode(encoded []byte) error { var str string err := bencode.DecodeBytes(encoded, &str) if err != nil { return err } copy(m[:], str) return nil } // MarshallBencode returns the encoded byte slice of the message id. func (m messageID) MarshalBencode() ([]byte, error) { str := string(m[:]) return bencode.EncodeBytes(str) } func newMessageID() messageID { var m messageID _, err := rand.Read(m[:]) if err != nil { panic(err) } return m } // Request represents a DHT request message type Request struct { ID messageID NodeID bits.Bitmap Method string Arg *bits.Bitmap StoreArgs *storeArgs ProtocolVersion int } // MarshalBencode returns the serialized byte slice representation of the request func (r Request) MarshalBencode() ([]byte, error) { var args interface{} if r.StoreArgs != nil { args = r.StoreArgs } else if r.Arg != nil { args = []bits.Bitmap{*r.Arg} } else { args = []string{} // request must always have keys 0-4, so we use an empty list for PING } return bencode.EncodeBytes(map[string]interface{}{ headerTypeField: requestType, headerMessageIDField: r.ID, headerNodeIDField: r.NodeID, headerPayloadField: r.Method, headerArgsField: args, }) } // UnmarshalBencode unmarshals the serialized byte slice into the appropriate fields of the request. func (r *Request) UnmarshalBencode(b []byte) error { var raw struct { ID messageID `bencode:"1"` NodeID bits.Bitmap `bencode:"2"` Method string `bencode:"3"` Args bencode.RawMessage `bencode:"4"` } err := bencode.DecodeBytes(b, &raw) if err != nil { return errors.Prefix("request unmarshal", err) } r.ID = raw.ID r.NodeID = raw.NodeID r.Method = raw.Method if r.Method == storeMethod { r.StoreArgs = &storeArgs{} // bencode wont find the unmarshaler on a null pointer. need to fix it. err = bencode.DecodeBytes(raw.Args, &r.StoreArgs) if err != nil { return errors.Prefix("request unmarshal", err) } } else if len(raw.Args) > 2 { // 2 because an empty list is `le` r.Arg, r.ProtocolVersion, err = processArgsAndProtoVersion(raw.Args) if err != nil { return errors.Prefix("request unmarshal", err) } } return nil } func processArgsAndProtoVersion(raw bencode.RawMessage) (arg *bits.Bitmap, version int, err error) { var args []bencode.RawMessage err = bencode.DecodeBytes(raw, &args) if err != nil { return nil, 0, err } if len(args) == 0 { return nil, 0, nil } var extras map[string]int err = bencode.DecodeBytes(args[len(args)-1], &extras) if err == nil { if v, exists := extras[protocolVersionField]; exists { version = v args = args[:len(args)-1] } } if len(args) > 0 { var b bits.Bitmap err = bencode.DecodeBytes(args[0], &b) if err != nil { return nil, 0, err } arg = &b } return arg, version, nil } func (r Request) argsDebug() string { if r.StoreArgs != nil { return r.StoreArgs.BlobHash.HexShort() + ", " + r.StoreArgs.Value.LbryID.HexShort() + ":" + strconv.Itoa(r.StoreArgs.Value.Port) } else if r.Arg != nil { return r.Arg.HexShort() } return "" } type storeArgsValue struct { Token string `bencode:"token"` LbryID bits.Bitmap `bencode:"lbryid"` Port int `bencode:"port"` } type storeArgs struct { BlobHash bits.Bitmap Value storeArgsValue NodeID bits.Bitmap // original publisher id? I think this is getting fixed in the new dht stuff SelfStore bool // this is an int on the wire } // MarshalBencode returns the serialized byte slice representation of the storage arguments. func (s storeArgs) MarshalBencode() ([]byte, error) { encodedValue, err := bencode.EncodeString(s.Value) if err != nil { return nil, err } selfStoreStr := 0 if s.SelfStore { selfStoreStr = 1 } return bencode.EncodeBytes([]interface{}{ s.BlobHash, bencode.RawMessage(encodedValue), s.NodeID, selfStoreStr, }) } // UnmarshalBencode unmarshals the serialized byte slice into the appropriate fields of the store arguments. func (s *storeArgs) UnmarshalBencode(b []byte) error { var argsInt []bencode.RawMessage err := bencode.DecodeBytes(b, &argsInt) if err != nil { return errors.Prefix("storeArgs unmarshal", err) } if len(argsInt) != 4 { return errors.Err("unexpected number of fields for store args. got " + cast.ToString(len(argsInt))) } err = bencode.DecodeBytes(argsInt[0], &s.BlobHash) if err != nil { return errors.Prefix("storeArgs unmarshal", err) } err = bencode.DecodeBytes(argsInt[1], &s.Value) if err != nil { return errors.Prefix("storeArgs unmarshal", err) } err = bencode.DecodeBytes(argsInt[2], &s.NodeID) if err != nil { return errors.Prefix("storeArgs unmarshal", err) } var selfStore int err = bencode.DecodeBytes(argsInt[3], &selfStore) if err != nil { return errors.Prefix("storeArgs unmarshal", err) } if selfStore == 0 { s.SelfStore = false } else if selfStore == 1 { s.SelfStore = true } else { return errors.Err("selfstore must be 1 or 0") } return nil } // Response represents a DHT response message type Response struct { ID messageID NodeID bits.Bitmap Data string Contacts []Contact FindValueKey string Token string ProtocolVersion int } func (r Response) argsDebug() string { if r.Data != "" { return r.Data } str := "contacts " if r.FindValueKey != "" { str = "value for " + hex.EncodeToString([]byte(r.FindValueKey))[:8] + " " } str += "|" for _, c := range r.Contacts { str += c.String() + "," } str = strings.TrimRight(str, ",") + "|" if r.Token != "" { str += " token: " + hex.EncodeToString([]byte(r.Token))[:8] } return str } // MarshalBencode returns the serialized byte slice representation of the response. func (r Response) MarshalBencode() ([]byte, error) { data := map[string]interface{}{ headerTypeField: responseType, headerMessageIDField: r.ID, headerNodeIDField: r.NodeID, } if r.Data != "" { // ping or store data[headerPayloadField] = r.Data } else if r.FindValueKey != "" { // findValue success if r.Token == "" { return nil, errors.Err("response to findValue must have a token") } var contacts [][]byte for _, c := range r.Contacts { compact, err := c.MarshalCompact() if err != nil { return nil, err } contacts = append(contacts, compact) } data[headerPayloadField] = map[string]interface{}{ r.FindValueKey: contacts, tokenField: r.Token, } } else if r.Token != "" { // findValue failure falling back to findNode data[headerPayloadField] = map[string]interface{}{ contactsField: r.Contacts, tokenField: r.Token, } } else { // straight up findNode data[headerPayloadField] = r.Contacts } return bencode.EncodeBytes(data) } // UnmarshalBencode unmarshals the serialized byte slice into the appropriate fields of the store arguments. func (r *Response) UnmarshalBencode(b []byte) error { var raw struct { ID messageID `bencode:"1"` NodeID bits.Bitmap `bencode:"2"` Data bencode.RawMessage `bencode:"3"` } err := bencode.DecodeBytes(b, &raw) if err != nil { return err } r.ID = raw.ID r.NodeID = raw.NodeID // maybe data is a string (response to ping or store)? err = bencode.DecodeBytes(raw.Data, &r.Data) if err == nil { return nil } // maybe data is a list of contacts (response to findNode)? err = bencode.DecodeBytes(raw.Data, &r.Contacts) if err == nil { return nil } // it must be a response to findValue var rawData map[string]bencode.RawMessage err = bencode.DecodeBytes(raw.Data, &rawData) if err != nil { return err } if token, ok := rawData[tokenField]; ok { err = bencode.DecodeBytes(token, &r.Token) if err != nil { return err } delete(rawData, tokenField) // so it doesnt mess up findValue key finding below } if protocolVersion, ok := rawData[protocolVersionField]; ok { err = bencode.DecodeBytes(protocolVersion, &r.ProtocolVersion) if err != nil { return err } delete(rawData, protocolVersionField) // so it doesnt mess up findValue key finding below } if contacts, ok := rawData[contactsField]; ok { err = bencode.DecodeBytes(contacts, &r.Contacts) if err != nil { return err } } else { for k, v := range rawData { r.FindValueKey = k var compactContacts [][]byte err = bencode.DecodeBytes(v, &compactContacts) if err != nil { return err } for _, compact := range compactContacts { var c Contact err = c.UnmarshalCompact(compact) if err != nil { return err } r.Contacts = append(r.Contacts, c) } break } } return nil } // Error represents a DHT error response type Error struct { ID messageID NodeID bits.Bitmap ExceptionType string Response []string } // MarshalBencode returns the serialized byte slice representation of an error message. func (e Error) MarshalBencode() ([]byte, error) { return bencode.EncodeBytes(map[string]interface{}{ headerTypeField: errorType, headerMessageIDField: e.ID, headerNodeIDField: e.NodeID, headerPayloadField: e.ExceptionType, headerArgsField: e.Response, }) } // UnmarshalBencode unmarshals the serialized byte slice into the appropriate fields of the error message. func (e *Error) UnmarshalBencode(b []byte) error { var raw struct { ID messageID `bencode:"1"` NodeID bits.Bitmap `bencode:"2"` ExceptionType string `bencode:"3"` Args interface{} `bencode:"4"` } err := bencode.DecodeBytes(b, &raw) if err != nil { return err } e.ID = raw.ID e.NodeID = raw.NodeID e.ExceptionType = raw.ExceptionType if reflect.TypeOf(raw.Args).Kind() == reflect.Slice { v := reflect.ValueOf(raw.Args) for i := 0; i < v.Len(); i++ { e.Response = append(e.Response, cast.ToString(v.Index(i).Interface())) } } return nil }