package graphvent import ( "crypto/sha512" "encoding" "encoding/binary" "encoding/gob" "fmt" "math" "reflect" "sort" "bytes" ) const ( TagBase = "GraphventTag" ExtTypeBase = "ExtType" NodeTypeBase = "NodeType" SignalTypeBase = "SignalType" PolicyTypeBase = "PolicyType" SerializedTypeBase = "SerializedType" FieldNameBase = "FieldName" ) func Hash(base string, name string) SerializedType { digest := append([]byte(base), 0x00) digest = append(digest, []byte(name)...) hash := sha512.Sum512(digest) return SerializedType(binary.BigEndian.Uint64(hash[0:8])) } type SerializedType uint64 func (t SerializedType) String() string { return fmt.Sprintf("0x%x", uint64(t)) } type ExtType SerializedType func (t ExtType) String() string { return fmt.Sprintf("0x%x", uint64(t)) } type NodeType SerializedType func (t NodeType) String() string { return fmt.Sprintf("0x%x", uint64(t)) } type SignalType SerializedType func (t SignalType) String() string { return fmt.Sprintf("0x%x", uint64(t)) } type PolicyType SerializedType func (t PolicyType) String() string { return fmt.Sprintf("0x%x", uint64(t)) } type FieldTag SerializedType func (t FieldTag) String() string { return fmt.Sprintf("0x%x", uint64(t)) } type Chunk struct { Data []byte Next *Chunk } type Chunks struct { First *Chunk Last *Chunk } func (chunks Chunks) String() string { cur := chunks.First str := fmt.Sprintf("Chunks(") for cur != nil { str = fmt.Sprintf("%s%+v, ", str, cur) cur = cur.Next } return fmt.Sprintf("%s)", str) } func NewChunks(datas ...[]byte) Chunks { var first *Chunk = nil var last *Chunk = nil if len(datas) >= 1 { first = &Chunk{ Data: datas[0], Next: nil, } last = first for _, data := range(datas[1:]) { last.Next = &Chunk{ Data: data, Next: nil, } last = last.Next } } if (first == nil || last == nil) && (first != last) { panic(fmt.Sprintf("Attempted to construct invalid Chunks with NewChunks %+v - %+v", first, last)) } return Chunks{ First: first, Last: last, } } func (chunks Chunks) AddDataToEnd(datas ...[]byte) Chunks { if chunks.First == nil && chunks.Last == nil { return NewChunks(datas...) } else if chunks.First == nil || chunks.Last == nil { panic(fmt.Sprintf("Invalid chunks %+v", chunks)) } for _, data := range(datas) { chunks.Last.Next = &Chunk{ Data: data, Next: nil, } chunks.Last = chunks.Last.Next } return chunks } func (chunks Chunks) AddChunksToEnd(new_chunks Chunks) Chunks { if chunks.Last == nil && chunks.First == nil { return new_chunks } else if chunks.Last == nil || chunks.First == nil { panic(fmt.Sprintf("Invalid chunks %+v", chunks)) } else if new_chunks.Last == nil && new_chunks.First == nil { return chunks } else if new_chunks.Last == nil || new_chunks.First == nil { panic(fmt.Sprintf("Invalid new_chunks %+v", new_chunks)) } else { chunks.Last.Next = new_chunks.First chunks.Last = new_chunks.Last return chunks } } func (chunks Chunks) GetSerializedSize() int { total_size := 0 cur := chunks.First for cur != nil { total_size += len(cur.Data) cur = cur.Next } return total_size } func (chunks Chunks) Slice() []byte { total_size := chunks.GetSerializedSize() data := make([]byte, total_size) data_ptr := 0 cur := chunks.First for cur != nil { copy(data[data_ptr:], cur.Data) data_ptr += len(cur.Data) cur = cur.Next } return data } type TypeSerializeFn func(*Context, reflect.Type) ([]SerializedType, error) type SerializeFn func(*Context, reflect.Value) (Chunks, error) type TypeDeserializeFn func(*Context, []SerializedType) (reflect.Type, []SerializedType, error) type DeserializeFn func(*Context, reflect.Type, []byte) (reflect.Value, []byte, error) func NewExtType(name string) ExtType { return ExtType(Hash(ExtTypeBase, name)) } func NewNodeType(name string) NodeType { return NodeType(Hash(NodeTypeBase, name)) } func NewSignalType(name string) SignalType { return SignalType(Hash(SignalTypeBase, name)) } func NewPolicyType(name string) PolicyType { return PolicyType(Hash(PolicyTypeBase, name)) } func NewFieldTag(tag_string string) FieldTag { return FieldTag(Hash(FieldNameBase, tag_string)) } func NewSerializedType(name string) SerializedType { return Hash(SerializedTypeBase, name) } var ( ListenerExtType = NewExtType("LISTENER") LockableExtType = NewExtType("LOCKABLE") GQLExtType = NewExtType("GQL") GroupExtType = NewExtType("GROUP") ACLExtType = NewExtType("ACL") EventExtType = NewExtType("EVENT") GQLNodeType = NewNodeType("GQL") BaseNodeType = NewNodeType("BASE") GroupNodeType = NewNodeType("GROUP") StopSignalType = NewSignalType("STOP") CreateSignalType = NewSignalType("CREATE") StartSignalType = NewSignalType("START") StatusSignalType = NewSignalType("STATUS") LinkSignalType = NewSignalType("LINK") LockSignalType = NewSignalType("LOCK") TimeoutSignalType = NewSignalType("TIMEOUT") ReadSignalType = NewSignalType("READ") ACLTimeoutSignalType = NewSignalType("ACL_TIMEOUT") ErrorSignalType = NewSignalType("ERROR") SuccessSignalType = NewSignalType("SUCCESS") ReadResultSignalType = NewSignalType("READ_RESULT") RemoveMemberSignalType = NewSignalType("REMOVE_MEMBER") AddMemberSignalType = NewSignalType("ADD_MEMBER") ACLSignalType = NewSignalType("ACL") AddSubGroupSignalType = NewSignalType("ADD_SUBGROUP") RemoveSubGroupSignalType = NewSignalType("REMOVE_SUBGROUP") StoppedSignalType = NewSignalType("STOPPED") EventControlSignalType = NewSignalType("EVENT_CONTORL") EventStateSignalType = NewSignalType("VEX_MATCH_STATUS") MemberOfPolicyType = NewPolicyType("MEMBER_OF") OwnerOfPolicyType = NewPolicyType("OWNER_OF") ParentOfPolicyType = NewPolicyType("PARENT_OF") RequirementOfPolicyType = NewPolicyType("REQUIEMENT_OF") PerNodePolicyType = NewPolicyType("PER_NODE") AllNodesPolicyType = NewPolicyType("ALL_NODES") ACLProxyPolicyType = NewPolicyType("ACL_PROXY") ErrorType = NewSerializedType("ERROR") PointerType = NewSerializedType("POINTER") SliceType = NewSerializedType("SLICE") StructType = NewSerializedType("STRUCT") IntType = NewSerializedType("INT") UIntType = NewSerializedType("UINT") BoolType = NewSerializedType("BOOL") Float64Type = NewSerializedType("FLOAT64") Float32Type = NewSerializedType("FLOAT32") UInt8Type = NewSerializedType("UINT8") UInt16Type = NewSerializedType("UINT16") UInt32Type = NewSerializedType("UINT32") UInt64Type = NewSerializedType("UINT64") Int8Type = NewSerializedType("INT8") Int16Type = NewSerializedType("INT16") Int32Type = NewSerializedType("INT32") Int64Type = NewSerializedType("INT64") StringType = NewSerializedType("STRING") ArrayType = NewSerializedType("ARRAY") InterfaceType = NewSerializedType("INTERFACE") MapType = NewSerializedType("MAP") ReqStateType = NewSerializedType("REQ_STATE") WaitInfoType = NewSerializedType("WAIT_INFO") SignalDirectionType = NewSerializedType("SIGNAL_DIRECTION") NodeStructType = NewSerializedType("NODE_STRUCT") QueuedSignalType = NewSerializedType("QUEUED_SIGNAL") NodeTypeSerialized = NewSerializedType("NODE_TYPE") ChangesSerialized = NewSerializedType("CHANGES") ExtTypeSerialized = NewSerializedType("EXT_TYPE") PolicyTypeSerialized = NewSerializedType("POLICY_TYPE") ExtSerialized = NewSerializedType("EXTENSION") PolicySerialized = NewSerializedType("POLICY") SignalSerialized = NewSerializedType("SIGNAL") NodeIDType = NewSerializedType("NODE_ID") UUIDType = NewSerializedType("UUID") PendingACLType = NewSerializedType("PENDING_ACL") PendingACLSignalType = NewSerializedType("PENDING_ACL_SIGNAL") TimeType = NewSerializedType("TIME") DurationType = NewSerializedType("DURATION") ResponseType = NewSerializedType("RESPONSE") StatusType = NewSerializedType("STATUS") TreeType = NewSerializedType("TREE") SerializedTypeSerialized = NewSerializedType("SERIALIZED_TYPE") ) type FieldInfo struct { Index []int TypeStack []SerializedType Type reflect.Type } type StructInfo struct { Type reflect.Type FieldOrder []SerializedType FieldMap map[SerializedType]FieldInfo PostDeserialize bool PostDeserializeIdx int } type Deserializable interface { PostDeserialize(*Context) error } var deserializable_zero Deserializable = nil var DeserializableType = reflect.TypeOf(&deserializable_zero).Elem() func GetStructInfo(ctx *Context, struct_type reflect.Type) (StructInfo, error) { field_order := []SerializedType{} field_map := map[SerializedType]FieldInfo{} for _, field := range reflect.VisibleFields(struct_type) { gv_tag, tagged_gv := field.Tag.Lookup("gv") if tagged_gv == false { continue } else { field_hash := Hash(FieldNameBase, gv_tag) _, exists := field_map[field_hash] if exists == true { return StructInfo{}, fmt.Errorf("gv tag %s is repeated", gv_tag) } else { field_type_stack, err := SerializeType(ctx, field.Type) if err != nil { return StructInfo{}, err } field_map[field_hash] = FieldInfo{ field.Index, field_type_stack, field.Type, } field_order = append(field_order, field_hash) } } } sort.Slice(field_order, func(i, j int) bool { return uint64(field_order[i]) < uint64(field_order[j]) }) post_deserialize := false post_deserialize_idx := 0 ptr_type := reflect.PointerTo(struct_type) if ptr_type.Implements(DeserializableType) { post_deserialize = true for i := 0; i < ptr_type.NumMethod(); i += 1 { method := ptr_type.Method(i) if method.Name == "PostDeserialize" { post_deserialize_idx = i break } } } return StructInfo{ struct_type, field_order, field_map, post_deserialize, post_deserialize_idx, }, nil } func SerializeStruct(info StructInfo)func(*Context, reflect.Value)(Chunks, error) { return func(ctx *Context, value reflect.Value) (Chunks, error) { struct_chunks := Chunks{} for _, field_hash := range(info.FieldOrder) { field_hash_bytes := make([]byte, 8) binary.BigEndian.PutUint64(field_hash_bytes, uint64(field_hash)) field_info := info.FieldMap[field_hash] field_value := value.FieldByIndex(field_info.Index) field_chunks, err := SerializeValue(ctx, field_value) if err != nil { return Chunks{}, err } struct_chunks = struct_chunks.AddDataToEnd(field_hash_bytes).AddChunksToEnd(field_chunks) ctx.Log.Logf("serialize", "STRUCT_FIELD_CHUNKS: %+v", field_chunks) } size_data := make([]byte, 8) binary.BigEndian.PutUint64(size_data, uint64(len(info.FieldOrder))) return NewChunks(size_data).AddChunksToEnd(struct_chunks), nil } } func DeserializeStruct(info StructInfo)func(*Context, reflect.Type, []byte)(reflect.Value, []byte, error) { return func(ctx *Context, reflect_type reflect.Type, data []byte) (reflect.Value, []byte, error) { if len(data) < 8 { return reflect.Value{}, nil, fmt.Errorf("Not enough data to deserialize struct %d/8", len(data)) } num_field_bytes := data[:8] data = data[8:] num_fields := binary.BigEndian.Uint64(num_field_bytes) struct_value := reflect.New(reflect_type).Elem() for i := uint64(0); i < num_fields; i ++ { field_hash_bytes := data[:8] data = data[8:] field_hash := SerializedType(binary.BigEndian.Uint64(field_hash_bytes)) field_info, exists := info.FieldMap[field_hash] if exists == false { return reflect.Value{}, nil, fmt.Errorf("%+v is not a field in %+v", field_hash, info.Type) } var field_value reflect.Value var err error field_value, data, err = DeserializeValue(ctx, field_info.Type, data) if err != nil { return reflect.Value{}, nil, err } field_reflect := struct_value.FieldByIndex(field_info.Index) field_reflect.Set(field_value) } if info.PostDeserialize == true { post_deserialize_method := struct_value.Addr().Method(info.PostDeserializeIdx) results := post_deserialize_method.Call([]reflect.Value{reflect.ValueOf(ctx)}) err_if := results[0].Interface() if err_if != nil { return reflect.Value{}, nil, err_if.(error) } } return struct_value, data, nil } } func SerializeGob(ctx *Context, value reflect.Value) (Chunks, error) { data := make([]byte, 8) gob_ser, err := value.Interface().(gob.GobEncoder).GobEncode() if err != nil { return Chunks{}, err } binary.BigEndian.PutUint64(data, uint64(len(gob_ser))) return NewChunks(data, gob_ser), nil } func DeserializeGob[T any, PT interface{gob.GobDecoder; *T}](ctx *Context, reflect_type reflect.Type, data []byte) (reflect.Value, []byte, error) { if len(data) < 8 { return reflect.Value{}, nil, fmt.Errorf("Not enough bytes to deserialize gob %d/8", len(data)) } size_bytes := data[:8] size := binary.BigEndian.Uint64(size_bytes) gob_data := data[8:8+size] data = data[8+size:] gob_ptr := reflect.New(reflect_type) err := gob_ptr.Interface().(gob.GobDecoder).GobDecode(gob_data) if err != nil { return reflect.Value{}, nil, err } return gob_ptr.Elem(), data, nil } func SerializeInt8(ctx *Context, value reflect.Value) (Chunks, error) { data := []byte{byte(value.Int())} return NewChunks(data), nil } func SerializeInt16(ctx *Context, value reflect.Value) (Chunks, error) { data := make([]byte, 2) binary.BigEndian.PutUint16(data, uint16(value.Int())) return NewChunks(data), nil } func SerializeInt32(ctx *Context, value reflect.Value) (Chunks, error) { data := make([]byte, 4) binary.BigEndian.PutUint32(data, uint32(value.Int())) return NewChunks(data), nil } func SerializeInt64(ctx *Context, value reflect.Value) (Chunks, error) { data := make([]byte, 8) binary.BigEndian.PutUint64(data, uint64(value.Int())) return NewChunks(data), nil } func SerializeUint8(ctx *Context, value reflect.Value) (Chunks, error) { data := []byte{byte(value.Uint())} return NewChunks(data), nil } func SerializeUint16(ctx *Context, value reflect.Value) (Chunks, error) { data := make([]byte, 2) binary.BigEndian.PutUint16(data, uint16(value.Uint())) return NewChunks(data), nil } func SerializeUint32(ctx *Context, value reflect.Value) (Chunks, error) { data := make([]byte, 4) binary.BigEndian.PutUint32(data, uint32(value.Uint())) return NewChunks(data), nil } func SerializeUint64(ctx *Context, value reflect.Value) (Chunks, error) { data := make([]byte, 8) binary.BigEndian.PutUint64(data, value.Uint()) return NewChunks(data), nil } func DeserializeUint64[T ~uint64 | ~int64](ctx *Context, reflect_type reflect.Type, data []byte) (reflect.Value, []byte, error) { uint_size := 8 if len(data) < uint_size { return reflect.Value{}, nil, fmt.Errorf("Not enough data to deserialize uint %d/%d", len(data), uint_size) } uint_bytes := data[:uint_size] data = data[uint_size:] uint_value := reflect.New(reflect_type).Elem() typed_value := T(binary.BigEndian.Uint64(uint_bytes)) uint_value.Set(reflect.ValueOf(typed_value)) return uint_value, data, nil } func DeserializeUint32[T ~uint32 | ~uint | ~int32 | ~int](ctx *Context, reflect_type reflect.Type, data []byte) (reflect.Value, []byte, error) { uint_size := 4 if len(data) < uint_size { return reflect.Value{}, nil, fmt.Errorf("Not enough data to deserialize uint %d/%d", len(data), uint_size) } uint_bytes := data[:uint_size] data = data[uint_size:] uint_value := reflect.New(reflect_type).Elem() typed_value := T(binary.BigEndian.Uint32(uint_bytes)) uint_value.Set(reflect.ValueOf(typed_value)) return uint_value, data, nil } func DeserializeUint16[T ~uint16 | ~int16](ctx *Context, reflect_type reflect.Type, data []byte) (reflect.Value, []byte, error) { uint_size := 2 if len(data) < uint_size { return reflect.Value{}, nil, fmt.Errorf("Not enough data to deserialize uint %d/%d", len(data), uint_size) } uint_bytes := data[:uint_size] data = data[uint_size:] uint_value := reflect.New(reflect_type).Elem() typed_value := T(binary.BigEndian.Uint16(uint_bytes)) uint_value.Set(reflect.ValueOf(typed_value)) return uint_value, data, nil } func DeserializeUint8[T ~uint8 | ~int8](ctx *Context, reflect_type reflect.Type, data []byte) (reflect.Value, []byte, error) { uint_size := 1 if len(data) < uint_size { return reflect.Value{}, nil, fmt.Errorf("Not enough data to deserialize uint %d/%d", len(data), uint_size) } uint_bytes := data[:uint_size] data = data[uint_size:] uint_value := reflect.New(reflect_type).Elem() typed_value := T(uint_bytes[0]) uint_value.Set(reflect.ValueOf(typed_value)) return uint_value, data, nil } func SerializeFloat64(ctx *Context, value reflect.Value) (Chunks, error) { data := make([]byte, 8) float_representation := math.Float64bits(value.Float()) binary.BigEndian.PutUint64(data, float_representation) return NewChunks(data), nil } func DeserializeFloat64[T ~float64](ctx *Context, reflect_type reflect.Type, data []byte) (reflect.Value, []byte, error) { if len(data) < 8 { return reflect.Value{}, nil, fmt.Errorf("Not enough data to deserialize float64 %d/8", len(data)) } float_bytes := data[0:8] data = data[8:] float_representation := binary.BigEndian.Uint64(float_bytes) float := math.Float64frombits(float_representation) float_value := reflect.New(reflect_type).Elem() float_value.Set(reflect.ValueOf(T(float))) return float_value, data, nil } func SerializeFloat32(ctx *Context, value reflect.Value) (Chunks, error) { data := make([]byte, 4) float_representation := math.Float32bits(float32(value.Float())) binary.BigEndian.PutUint32(data, float_representation) return NewChunks(data), nil } func DeserializeFloat32[T ~float32](ctx *Context, reflect_type reflect.Type, data []byte) (reflect.Value, []byte, error) { if len(data) < 4 { return reflect.Value{}, nil, fmt.Errorf("Not enough data to deserialize float32 %d/4", len(data)) } float_bytes := data[0:4] data = data[4:] float_representation := binary.BigEndian.Uint32(float_bytes) float := math.Float32frombits(float_representation) float_value := reflect.New(reflect_type).Elem() float_value.Set(reflect.ValueOf(T(float))) return float_value, data, nil } func SerializeString(ctx *Context, value reflect.Value) (Chunks, error) { data := make([]byte, 8) binary.BigEndian.PutUint64(data, uint64(value.Len())) return NewChunks(data, []byte(value.String())), nil } func DeserializeString[T ~string](ctx *Context, reflect_type reflect.Type, data []byte) (reflect.Value, []byte, error) { if len(data) < 8 { return reflect.Value{}, nil, fmt.Errorf("Not enough data to deserialize string %d/8", len(data)) } size_bytes := data[0:8] data = data[8:] size := binary.BigEndian.Uint64(size_bytes) if len(data) < int(size) { return reflect.Value{}, nil, fmt.Errorf("Not enough data to deserialize string of len %d, %d/%d", size, len(data), size) } string_value := reflect.New(reflect_type).Elem() string_value.Set(reflect.ValueOf(T(string(data[:size])))) data = data[size:] return string_value, data, nil } func SerializeBool(ctx *Context, value reflect.Value) (Chunks, error) { if value.Bool() == true { return NewChunks([]byte{0xFF}), nil } else { return NewChunks([]byte{0x00}), nil } } func DeserializeBool[T ~bool](ctx *Context, reflect_type reflect.Type, data []byte) (reflect.Value, []byte, error) { if len(data) < 1 { return reflect.Value{}, nil, fmt.Errorf("Not enough data to deserialize bool %d/1", len(data)) } byte := data[0] data = data[1:] bool_value := reflect.New(reflect_type).Elem() if byte == 0x00 { bool_value.Set(reflect.ValueOf(T(false))) } else { bool_value.Set(reflect.ValueOf(T(true))) } return bool_value, data, nil } func DeserializeTypePointer(ctx *Context, type_stack []SerializedType) (reflect.Type, []SerializedType, error) { elem_type, remaining, err := DeserializeType(ctx, type_stack) if err != nil { return nil, nil, err } return reflect.PointerTo(elem_type), remaining, nil } func SerializePointer(ctx *Context, value reflect.Value) (Chunks, error) { if value.IsZero() { return NewChunks([]byte{0x00}), nil } else { flags := NewChunks([]byte{0x01}) elem_chunks, err := SerializeValue(ctx, value.Elem()) if err != nil { return Chunks{}, err } return flags.AddChunksToEnd(elem_chunks), nil } } func DeserializePointer(ctx *Context, reflect_type reflect.Type, data []byte) (reflect.Value, []byte, error) { if len(data) < 1 { return reflect.Value{}, nil, fmt.Errorf("Not enough data to deserialize pointer %d/1", len(data)) } flags := data[0] data = data[1:] pointer_value := reflect.New(reflect_type).Elem() if flags != 0x00 { var element_value reflect.Value var err error element_value, data, err = DeserializeValue(ctx, reflect_type.Elem(), data) if err != nil { return reflect.Value{}, nil, err } pointer_value.Set(element_value.Addr()) } return pointer_value, data, nil } func SerializeTypeStub(ctx *Context, reflect_type reflect.Type) ([]SerializedType, error) { return nil, nil } func DeserializeTypeStub[T any](ctx *Context, type_stack []SerializedType) (reflect.Type, []SerializedType, error) { var zero T return reflect.TypeOf(zero), type_stack, nil } func SerializeTypeElem(ctx *Context, reflect_type reflect.Type) ([]SerializedType, error) { return SerializeType(ctx, reflect_type.Elem()) } func SerializeSlice(ctx *Context, value reflect.Value) (Chunks, error) { if value.IsZero() { return NewChunks([]byte{0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF}), nil } else if value.Len() == 0 { return NewChunks([]byte{0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00}), nil } else { slice_chunks := Chunks{} for i := 0; i < value.Len(); i += 1 { val := value.Index(i) element_chunks, err := SerializeValue(ctx, val) if err != nil { return Chunks{}, err } slice_chunks = slice_chunks.AddChunksToEnd(element_chunks) } size_data := make([]byte, 8) binary.BigEndian.PutUint64(size_data, uint64(value.Len())) return NewChunks(size_data).AddChunksToEnd(slice_chunks), nil } } func DeserializeTypeSlice(ctx *Context, type_stack []SerializedType) (reflect.Type, []SerializedType, error) { elem_type, remaining, err := DeserializeType(ctx, type_stack) if err != nil { return nil, nil, err } reflect_type := reflect.SliceOf(elem_type) return reflect_type, remaining, nil } func DeserializeSlice(ctx *Context, reflect_type reflect.Type, data []byte) (reflect.Value, []byte, error) { if len(data) < 8 { return reflect.Value{}, nil, fmt.Errorf("Not enough data to deserialize slice %d/8", len(data)) } slice_size := binary.BigEndian.Uint64(data[0:8]) slice_value := reflect.New(reflect_type).Elem() data = data[8:] if slice_size != 0xFFFFFFFFFFFFFFFF { slice_unaddr := reflect.MakeSlice(reflect_type, int(slice_size), int(slice_size)) slice_value.Set(slice_unaddr) for i := uint64(0); i < slice_size; i += 1 { var element_value reflect.Value var err error element_value, data, err = DeserializeValue(ctx, reflect_type.Elem(), data) if err != nil { return reflect.Value{}, nil, err } slice_elem := slice_value.Index(int(i)) slice_elem.Set(element_value) } } return slice_value, data, nil } func SerializeTypeMap(ctx *Context, reflect_type reflect.Type) ([]SerializedType, error) { key_stack, err := SerializeType(ctx, reflect_type.Key()) if err != nil { return nil, err } elem_stack, err := SerializeType(ctx, reflect_type.Elem()) if err != nil { return nil, err } return append(key_stack, elem_stack...), nil } func DeserializeTypeMap(ctx *Context, type_stack []SerializedType) (reflect.Type, []SerializedType, error) { key_type, after_key, err := DeserializeType(ctx, type_stack) if err != nil { return nil, nil, err } elem_type, after_elem, err := DeserializeType(ctx, after_key) if err != nil { return nil, nil, err } map_type := reflect.MapOf(key_type, elem_type) return map_type, after_elem, nil } func SerializeMap(ctx *Context, value reflect.Value) (Chunks, error) { if value.IsZero() == true { return NewChunks([]byte{0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF}), nil } map_chunks := []Chunks{} map_size := uint64(0) map_iter := value.MapRange() for map_iter.Next() { map_size = map_size + 1 key := map_iter.Key() val := map_iter.Value() key_chunks, err := SerializeValue(ctx, key) if err != nil { return Chunks{}, err } val_chunks, err := SerializeValue(ctx, val) if err != nil { return Chunks{}, err } chunks := key_chunks.AddChunksToEnd(val_chunks) map_chunks = append(map_chunks, chunks) } // Sort map_chunks sort.Slice(map_chunks, func(i, j int) bool { return bytes.Compare(map_chunks[i].First.Data, map_chunks[j].First.Data) < 0 }) chunks := Chunks{} for _, chunk := range(map_chunks) { chunks = chunks.AddChunksToEnd(chunk) } size_data := make([]byte, 8) binary.BigEndian.PutUint64(size_data, map_size) return NewChunks(size_data).AddChunksToEnd(chunks), nil } func DeserializeMap(ctx *Context, reflect_type reflect.Type, data []byte) (reflect.Value, []byte, error) { if len(data) < 8 { return reflect.Value{}, nil, fmt.Errorf("Not enough data to deserialize map %d/8", len(data)) } size_bytes := data[:8] data = data[8:] size := binary.BigEndian.Uint64(size_bytes) map_value := reflect.New(reflect_type).Elem() if size == 0xFFFFFFFFFFFFFFFF { return map_value, data, nil } map_unaddr := reflect.MakeMapWithSize(reflect_type, int(size)) map_value.Set(map_unaddr) for i := uint64(0); i < size; i++ { var err error var key_value reflect.Value key_value, data, err = DeserializeValue(ctx, reflect_type.Key(), data) if err != nil { return reflect.Value{}, nil, err } var val_value reflect.Value val_value, data, err = DeserializeValue(ctx, reflect_type.Elem(), data) if err != nil { return reflect.Value{}, nil, err } map_value.SetMapIndex(key_value, val_value) } return map_value, data, nil } func SerializeTypeArray(ctx *Context, reflect_type reflect.Type) ([]SerializedType, error) { size := SerializedType(reflect_type.Len()) elem_stack, err := SerializeType(ctx, reflect_type.Elem()) if err != nil { return nil, err } return append([]SerializedType{size}, elem_stack...), nil } func SerializeUUID(ctx *Context, value reflect.Value) (Chunks, error) { uuid_ser, err := value.Interface().(encoding.BinaryMarshaler).MarshalBinary() if err != nil { return Chunks{}, err } if len(uuid_ser) != 16 { return Chunks{}, fmt.Errorf("Wrong length of uuid: %d/16", len(uuid_ser)) } return NewChunks(uuid_ser), nil } func DeserializeUUID[T ~[16]byte](ctx *Context, reflect_type reflect.Type, data []byte) (reflect.Value, []byte, error) { if len(data) < 16 { return reflect.Value{}, nil, fmt.Errorf("Not enough data to deserialize UUID %d/16", len(data)) } uuid_bytes := data[:16] data = data[16:] uuid_value := reflect.New(reflect_type).Elem() uuid_value.Set(reflect.ValueOf(T(uuid_bytes))) return uuid_value, data, nil } func SerializeArray(ctx *Context, value reflect.Value) (Chunks, error) { data := Chunks{} for i := 0; i < value.Len(); i += 1 { element := value.Index(i) element_chunks, err := SerializeValue(ctx, element) if err != nil { return Chunks{}, err } data = data.AddChunksToEnd(element_chunks) } return data, nil } func DeserializeTypeArray(ctx *Context, type_stack []SerializedType) (reflect.Type, []SerializedType, error) { if len(type_stack) < 1 { return nil, nil, fmt.Errorf("Not enough valued in type stack to deserialize array") } size := int(type_stack[0]) element_type, remaining, err := DeserializeType(ctx, type_stack[1:]) if err != nil { return nil, nil, err } array_type := reflect.ArrayOf(size, element_type) return array_type, remaining, nil } func DeserializeArray(ctx *Context, reflect_type reflect.Type, data []byte) (reflect.Value, []byte, error) { array_value := reflect.New(reflect_type).Elem() for i := 0; i < array_value.Len(); i += 1 { var element_value reflect.Value var err error element_value, data, err = DeserializeValue(ctx, reflect_type.Elem(), data) if err != nil { return reflect.Value{}, nil, err } element := array_value.Index(i) element.Set(element_value) } return array_value, data, nil } func SerializeInterface(ctx *Context, value reflect.Value) (Chunks, error) { if value.IsZero() == true { return NewChunks([]byte{0xFF}), nil } type_stack, err := SerializeType(ctx, value.Elem().Type()) if err != nil { return Chunks{}, err } elem_chunks, err := SerializeValue(ctx, value.Elem()) if err != nil { return Chunks{}, err } data := elem_chunks.Slice() serialized_chunks, err := SerializedValue{type_stack, data}.Chunks() if err != nil { return Chunks{}, err } return NewChunks([]byte{0x00}).AddChunksToEnd(serialized_chunks), nil } func DeserializeInterface(ctx *Context, reflect_type reflect.Type, data []byte) (reflect.Value, []byte, error) { if len(data) < 1 { return reflect.Value{}, nil, fmt.Errorf("Not enough data to deserialize interface %d/1", len(data)) } flags := data[0] data = data[1:] if flags == 0xFF { return reflect.New(reflect_type).Elem(), data, nil } serialized_value, remaining, err := ParseSerializedValue(data) elem_type, types_remaining, err := DeserializeType(ctx, serialized_value.TypeStack) if err != nil { return reflect.Value{}, nil, err } else if len(types_remaining) > 0 { return reflect.Value{}, nil, fmt.Errorf("Types remaining in interface stack after deserializing") } elem_value, data_remaining, err := DeserializeValue(ctx, elem_type, serialized_value.Data) if err != nil { return reflect.Value{}, nil, err } else if len(data_remaining) > 0 { return reflect.Value{}, nil, fmt.Errorf("Data remaining in interface data after deserializing") } interface_value := reflect.New(reflect_type).Elem() interface_value.Set(elem_value) return interface_value, remaining, nil } type SerializedValue struct { TypeStack []SerializedType Data []byte } func SerializeAny[T any](ctx *Context, value T) (SerializedValue, error) { reflect_value := reflect.ValueOf(value) type_stack, err := SerializeType(ctx, reflect_value.Type()) if err != nil { return SerializedValue{}, err } data, err := SerializeValue(ctx, reflect_value) if err != nil { return SerializedValue{}, err } return SerializedValue{type_stack, data.Slice()}, nil } func SerializeType(ctx *Context, reflect_type reflect.Type) ([]SerializedType, error) { ctx.Log.Logf("serialize", "Serializing type %+v", reflect_type) type_info, type_exists := ctx.TypeReflects[reflect_type] var serialize_type TypeSerializeFn = nil var ctx_type SerializedType if type_exists == true { serialize_type = type_info.TypeSerialize ctx_type = type_info.Type } if serialize_type == nil { kind_info, handled := ctx.Kinds[reflect_type.Kind()] if handled == true { if type_exists == false { ctx_type = kind_info.Type } serialize_type = kind_info.TypeSerialize } } type_stack := []SerializedType{ctx_type} if serialize_type != nil { extra_types, err := serialize_type(ctx, reflect_type) if err != nil { return nil, err } return append(type_stack, extra_types...), nil } else { return type_stack, nil } } func SerializeValue(ctx *Context, value reflect.Value) (Chunks, error) { type_info, type_exists := ctx.TypeReflects[value.Type()] var serialize SerializeFn = nil if type_exists == true { if type_info.Serialize != nil { serialize = type_info.Serialize } } if serialize == nil { kind_info, handled := ctx.Kinds[value.Kind()] if handled { serialize = kind_info.Serialize } else { return Chunks{}, fmt.Errorf("Don't know how to serialize %+v", value.Type()) } } return serialize(ctx, value) } func ExtField(ctx *Context, ext Extension, field_name string) (reflect.Value, error) { if ext == nil { return reflect.Value{}, fmt.Errorf("Cannot get fields on nil Extension") } ext_value := reflect.ValueOf(ext).Elem() for _, field := range reflect.VisibleFields(ext_value.Type()) { gv_tag, tagged := field.Tag.Lookup("gv") if tagged == true && gv_tag == field_name { return ext_value.FieldByIndex(field.Index), nil } } return reflect.Value{}, fmt.Errorf("%s is not a field in %+v", field_name, reflect.TypeOf(ext)) } func SerializeField(ctx *Context, ext Extension, field_name string) (SerializedValue, error) { field_value, err := ExtField(ctx, ext, field_name) if err != nil { return SerializedValue{}, err } type_stack, err := SerializeType(ctx, field_value.Type()) if err != nil { return SerializedValue{}, err } data, err := SerializeValue(ctx, field_value) if err != nil { return SerializedValue{}, err } return SerializedValue{type_stack, data.Slice()}, nil } func (value SerializedValue) Chunks() (Chunks, error) { header_data := make([]byte, 16) binary.BigEndian.PutUint64(header_data[0:8], uint64(len(value.TypeStack))) binary.BigEndian.PutUint64(header_data[8:16], uint64(len(value.Data))) type_stack_bytes := make([][]byte, len(value.TypeStack)) for i, ctx_type := range(value.TypeStack) { type_stack_bytes[i] = make([]byte, 8) binary.BigEndian.PutUint64(type_stack_bytes[i], uint64(ctx_type)) } return NewChunks(header_data).AddDataToEnd(type_stack_bytes...).AddDataToEnd(value.Data), nil } func ParseSerializedValue(data []byte) (SerializedValue, []byte, error) { if len(data) < 8 { return SerializedValue{}, nil, fmt.Errorf("SerializedValue required to have at least 8 bytes when serialized") } num_types := int(binary.BigEndian.Uint64(data[0:8])) data_size := int(binary.BigEndian.Uint64(data[8:16])) type_stack := make([]SerializedType, num_types) for i := 0; i < num_types; i += 1 { type_start := (i + 2) * 8 type_end := (i + 3) * 8 type_stack[i] = SerializedType(binary.BigEndian.Uint64(data[type_start:type_end])) } types_end := 8 * (num_types + 2) data_end := types_end + data_size return SerializedValue{ type_stack, data[types_end:data_end], }, data[data_end:], nil } func DeserializeValue(ctx *Context, reflect_type reflect.Type, data []byte) (reflect.Value, []byte, error) { ctx.Log.Logf("serialize", "Deserializing %+v with %d bytes", reflect_type, len(data)) var deserialize DeserializeFn = nil type_info, type_exists := ctx.TypeReflects[reflect_type] if type_exists == true { deserialize = type_info.Deserialize } else { kind_info, exists := ctx.Kinds[reflect_type.Kind()] if exists == false { return reflect.Value{}, nil, fmt.Errorf("Cannot deserialize %+v/%+v: unknown type/kind", reflect_type, reflect_type.Kind()) } deserialize = kind_info.Deserialize } return deserialize(ctx, reflect_type, data) } func DeserializeType(ctx *Context, type_stack []SerializedType) (reflect.Type, []SerializedType, error) { ctx.Log.Logf("deserialize_types", "Deserializing type stack %+v", type_stack) var deserialize_type TypeDeserializeFn = nil var reflect_type reflect.Type = nil if len(type_stack) < 1 { return nil, nil, fmt.Errorf("No elements in type stack to deserialize(DeserializeType)") } ctx_type := type_stack[0] type_stack = type_stack[1:] type_info, type_exists := ctx.Types[SerializedType(ctx_type)] if type_exists == true { deserialize_type = type_info.TypeDeserialize reflect_type = type_info.Reflect } else { kind_info, exists := ctx.KindTypes[SerializedType(ctx_type)] if exists == false { return nil, nil, fmt.Errorf("Cannot deserialize 0x%x: unknown type/kind", ctx_type) } deserialize_type = kind_info.TypeDeserialize reflect_type = kind_info.Base } if deserialize_type == nil { return reflect_type, type_stack, nil } else { return deserialize_type(ctx, type_stack) } }