package oscar import ( "aim-oscar/util" "bytes" "context" "encoding/binary" "fmt" "io" "log" "net" "strings" ) type HandlerFunc func(context.Context, *FLAP) context.Context type HandleCloseFn func(context.Context, *Session) type Handler struct { handle HandlerFunc handleClose HandleCloseFn } func NewHandler(fn HandlerFunc, handleClose HandleCloseFn) *Handler { return &Handler{ handle: fn, handleClose: handleClose, } } func (h *Handler) Handle(conn net.Conn) { ctx := NewContextWithSession(context.Background(), conn) session, _ := SessionFromContext(ctx) var buf bytes.Buffer for { if !session.GreetedClient { // send a hello hello := NewFLAP(1) hello.Data.Write([]byte{0, 0, 0, 1}) session.Send(hello) session.GreetedClient = true } incoming := make([]byte, 512) n, err := conn.Read(incoming) if err != nil && err != io.EOF { if strings.Contains(err.Error(), "use of closed network connection") { session.Disconnect() h.handleClose(ctx, session) return } log.Println("OSCAR Read Error: ", err.Error()) return } if n == 0 { return } buf.Write(incoming[:n]) // Try to parse all of the FLAPs in the buffer if we have enough bytes to // fill a FLAP header for buf.Len() >= 6 && buf.Bytes()[0] == 0x2a { bufBytes := buf.Bytes() dataLength := binary.BigEndian.Uint16(bufBytes[4:6]) flapLength := int(dataLength) + 6 if len(bufBytes) < flapLength { log.Printf("not enough data, expected %d bytes but have %d bytes\n", flapLength, len(bufBytes)) fmt.Printf("%s\n", util.PrettyBytes(bufBytes)) break } flap := &FLAP{} flapBuf := make([]byte, flapLength) buf.Read(flapBuf) if err := flap.UnmarshalBinary(flapBuf); err != nil { log.Printf("could not unmarshal FLAP: %w", err) // Toss out everything buf.Reset() break } ctx = h.handle(ctx, flap) } } }