package runner import ( "bufio" "encoding/hex" "errors" "fmt" "io" "net" "strconv" "strings" "sync" ) type flowType int const ( readFlow flowType = iota writeFlow specialFlow ) type flow struct { flowType flowType message string data []byte } // recordingConn is a net.Conn that records the traffic that passes through it. // WriteTo can be used to produce output that can be later be loaded with // ParseTestData. type recordingConn struct { net.Conn sync.Mutex flows []flow isDatagram bool local, peer string } func (r *recordingConn) appendFlow(flowType flowType, message string, data []byte) { r.Lock() defer r.Unlock() if l := len(r.flows); flowType == specialFlow || r.isDatagram || l == 0 || r.flows[l-1].flowType != flowType { buf := make([]byte, len(data)) copy(buf, data) r.flows = append(r.flows, flow{flowType, message, buf}) } else { r.flows[l-1].data = append(r.flows[l-1].data, data...) } } func (r *recordingConn) Read(b []byte) (n int, err error) { if n, err = r.Conn.Read(b); n == 0 { return } r.appendFlow(readFlow, "", b[:n]) return } func (r *recordingConn) Write(b []byte) (n int, err error) { if n, err = r.Conn.Write(b); n == 0 { return } r.appendFlow(writeFlow, "", b[:n]) return } // LogSpecial appends an entry to the record of type 'special'. func (r *recordingConn) LogSpecial(message string, data []byte) { r.appendFlow(specialFlow, message, data) } // WriteTo writes hex dumps to w that contains the recorded traffic. func (r *recordingConn) WriteTo(w io.Writer) { fmt.Fprintf(w, ">>> runner is %s, shim is %s\n", r.local, r.peer) for i, flow := range r.flows { switch flow.flowType { case readFlow: fmt.Fprintf(w, ">>> Flow %d (%s to %s)\n", i+1, r.peer, r.local) case writeFlow: fmt.Fprintf(w, ">>> Flow %d (%s to %s)\n", i+1, r.local, r.peer) case specialFlow: fmt.Fprintf(w, ">>> Flow %d %q\n", i+1, flow.message) } if flow.data != nil { dumper := hex.Dumper(w) dumper.Write(flow.data) dumper.Close() } } } func (r *recordingConn) Transcript() []byte { var ret []byte for _, flow := range r.flows { if flow.flowType != writeFlow { continue } ret = append(ret, flow.data...) } return ret } func parseTestData(r io.Reader) (flows [][]byte, err error) { var currentFlow []byte scanner := bufio.NewScanner(r) for scanner.Scan() { line := scanner.Text() // If the line starts with ">>> " then it marks the beginning // of a new flow. if strings.HasPrefix(line, ">>> ") { if len(currentFlow) > 0 || len(flows) > 0 { flows = append(flows, currentFlow) currentFlow = nil } continue } // Otherwise the line is a line of hex dump that looks like: // 00000170 fc f5 06 bf (...) |.....X{&?......!| // (Some bytes have been omitted from the middle section.) if i := strings.IndexByte(line, ' '); i >= 0 { line = line[i:] } else { return nil, errors.New("invalid test data") } if i := strings.IndexByte(line, '|'); i >= 0 { line = line[:i] } else { return nil, errors.New("invalid test data") } hexBytes := strings.Fields(line) for _, hexByte := range hexBytes { val, err := strconv.ParseUint(hexByte, 16, 8) if err != nil { return nil, errors.New("invalid hex byte in test data: " + err.Error()) } currentFlow = append(currentFlow, byte(val)) } } if len(currentFlow) > 0 { flows = append(flows, currentFlow) } return flows, nil }