// Package skylab provides CAN packet encoding and decoding information based off // of skylab.yaml. It can convert packets to/from CAN raw bytes and JSON objects. package skylab import ( "encoding/binary" "encoding/json" "fmt" "math" "time" // this is needed so that we can run make_skylab.go // without this, the yaml library will be removed // when we run `go mod tidy` "github.com/kschamplin/gotelem/internal/can" _ "gopkg.in/yaml.v3" ) /* This file provides helpers used for serializing and deserializing skylab packets. It contains common code and interfaces. */ // float32ToBytes is an internal function used to encode a float value to bytes func float32ToBytes(b []byte, f float32, bigEndian bool) { bits := math.Float32bits(f) if bigEndian { binary.BigEndian.PutUint32(b, bits) } else { binary.LittleEndian.PutUint32(b, bits) } } // float32FromBytes is an internal function used to decode float value from bytes func float32FromBytes(b []byte, bigEndian bool) (f float32) { var bits uint32 if bigEndian { bits = binary.BigEndian.Uint32(b) } else { bits = binary.LittleEndian.Uint32(b) } return math.Float32frombits(bits) } // Packet is any Skylab-generated packet. type Packet interface { Marshaler Unmarshaler Ider Sizer fmt.Stringer // to get the name } // Marshaler is a packet that can be marshalled into bytes. type Marshaler interface { MarshalPacket() ([]byte, error) } // Unmarshaler is a packet that can be unmarshalled from bytes. type Unmarshaler interface { UnmarshalPacket(p []byte) error } // Ider is a packet that can get its ID, based on the index of the packet, if any. type Ider interface { CanId() (can.CanID, error) } // Sizer allows for fast allocation. type Sizer interface { Size() uint } // CanSend takes a packet and makes CAN framing data. func ToCanFrame(p Packet) (f can.Frame, err error) { f.Id, err = p.CanId() if err != nil { return } f.Data, err = p.MarshalPacket() f.Kind = can.CanDataFrame return } // ---- other wire encoding business ---- // internal structure for partially decoding json object. type RawJsonEvent struct { Timestamp int64 `json:"ts" db:"ts"` Name string `json:"name"` Data json.RawMessage `json:"data"` } // BusEvent is a timestamped Skylab packet - it contains type BusEvent struct { Timestamp time.Time `json:"ts"` Name string `json:"id"` Data Packet `json:"data"` } func (e BusEvent) MarshalJSON() (b []byte, err error) { // create the underlying raw event j := &RawJsonEvent{ Timestamp: e.Timestamp.UnixMilli(), Name: e.Name, } // now we use the magic Packet -> map[string]interface{} function // FIXME: this uses reflection and isn't good for the economy j.Data, err = json.Marshal(e.Data) if err != nil { return nil, err } return json.Marshal(j) } func (e *BusEvent) UnmarshalJSON(b []byte) error { j := &RawJsonEvent{} err := json.Unmarshal(b, j) if err != nil { return err } e.Timestamp = time.UnixMilli(j.Timestamp) e.Name = j.Name e.Data, err = FromJson(j.Name, j.Data) return err } // we need to be able to parse the JSON as well. this is done using the // generator since we can use the switch/case thing since it's the fastest type UnknownIdError struct { id uint32 } func (e *UnknownIdError) Error() string { return fmt.Sprintf("unknown id: %x", e.id) }