package web import ( "bytes" "encoding/binary" "encoding/json" "errors" "github.com/lqqyt2423/go-mitmproxy/proxy" uuid "github.com/satori/go.uuid" log "github.com/sirupsen/logrus" ) // message: // type: 1/2/3/4 // messageFlow // version 1 byte + type 1 byte + id 36 byte + waitIntercept 1 byte + content left bytes // type: 11/12/13/14 // messageEdit // version 1 byte + type 1 byte + id 36 byte + header len 4 byte + header content bytes + body len 4 byte + [body content bytes] // type: 21 // messageMeta // version 1 byte + type 1 byte + content left bytes const messageVersion = 1 type messageType byte const ( messageTypeRequest messageType = 1 messageTypeRequestBody messageType = 2 messageTypeResponse messageType = 3 messageTypeResponseBody messageType = 4 messageTypeChangeRequest messageType = 11 messageTypeChangeResponse messageType = 12 messageTypeDropRequest messageType = 13 messageTypeDropResponse messageType = 14 messageTypeChangeBreakPointRules messageType = 21 ) var allMessageTypes = []messageType{ messageTypeRequest, messageTypeRequestBody, messageTypeResponse, messageTypeResponseBody, messageTypeChangeRequest, messageTypeChangeResponse, messageTypeDropRequest, messageTypeDropResponse, messageTypeChangeBreakPointRules, } func validMessageType(t byte) bool { for _, v := range allMessageTypes { if t == byte(v) { return true } } return false } type message interface { bytes() []byte } type messageFlow struct { mType messageType id uuid.UUID waitIntercept byte content []byte } func newMessageFlow(mType messageType, f *proxy.Flow) *messageFlow { var content []byte var err error = nil if mType == messageTypeRequest { content, err = json.Marshal(f.Request) } else if mType == messageTypeRequestBody { content = f.Request.Body } else if mType == messageTypeResponse { content, err = json.Marshal(f.Response) } else if mType == messageTypeResponseBody { content, err = f.Response.DecodedBody() } else { panic(errors.New("invalid message type")) } if err != nil { panic(err) } return &messageFlow{ mType: mType, id: f.Id, content: content, } } func (m *messageFlow) bytes() []byte { buf := bytes.NewBuffer(make([]byte, 0)) buf.WriteByte(byte(messageVersion)) buf.WriteByte(byte(m.mType)) buf.WriteString(m.id.String()) // len: 36 buf.WriteByte(m.waitIntercept) buf.Write(m.content) return buf.Bytes() } type messageEdit struct { mType messageType id uuid.UUID request *proxy.Request response *proxy.Response } func parseMessageEdit(data []byte) *messageEdit { // 2 + 36 if len(data) < 38 { return nil } mType := (messageType)(data[1]) id, err := uuid.FromString(string(data[2:38])) if err != nil { return nil } msg := &messageEdit{ mType: mType, id: id, } if mType == messageTypeDropRequest || mType == messageTypeDropResponse { return msg } // 2 + 36 + 4 + 4 if len(data) < 46 { return nil } hl := (int)(binary.BigEndian.Uint32(data[38:42])) if 42+hl+4 > len(data) { return nil } headerContent := data[42 : 42+hl] bl := (int)(binary.BigEndian.Uint32(data[42+hl : 42+hl+4])) if 42+hl+4+bl != len(data) { return nil } bodyContent := data[42+hl+4:] if mType == messageTypeChangeRequest { req := new(proxy.Request) err := json.Unmarshal(headerContent, req) if err != nil { return nil } req.Body = bodyContent msg.request = req } else if mType == messageTypeChangeResponse { res := new(proxy.Response) err := json.Unmarshal(headerContent, res) if err != nil { return nil } res.Body = bodyContent msg.response = res } else { return nil } return msg } func (m *messageEdit) bytes() []byte { buf := bytes.NewBuffer(make([]byte, 0)) buf.WriteByte(byte(messageVersion)) buf.WriteByte(byte(m.mType)) buf.WriteString(m.id.String()) // len: 36 if m.mType == messageTypeChangeRequest { headerContent, err := json.Marshal(m.request) if err != nil { panic(err) } hl := make([]byte, 4) binary.BigEndian.PutUint32(hl, (uint32)(len(headerContent))) buf.Write(hl) bodyContent := m.request.Body bl := make([]byte, 4) binary.BigEndian.PutUint32(bl, (uint32)(len(bodyContent))) buf.Write(bl) buf.Write(bodyContent) } else if m.mType == messageTypeChangeResponse { headerContent, err := json.Marshal(m.response) if err != nil { panic(err) } hl := make([]byte, 4) binary.BigEndian.PutUint32(hl, (uint32)(len(headerContent))) buf.Write(hl) bodyContent := m.response.Body bl := make([]byte, 4) binary.BigEndian.PutUint32(bl, (uint32)(len(bodyContent))) buf.Write(bl) buf.Write(bodyContent) } return buf.Bytes() } type messageMeta struct { mType messageType breakPointRules []*breakPointRule } func parseMessageMeta(data []byte) *messageMeta { content := data[2:] rules := make([]*breakPointRule, 0) err := json.Unmarshal(content, &rules) if err != nil { return nil } return &messageMeta{ mType: messageType(data[1]), breakPointRules: rules, } } func (m *messageMeta) bytes() []byte { buf := bytes.NewBuffer(make([]byte, 0)) buf.WriteByte(byte(messageVersion)) buf.WriteByte(byte(m.mType)) content, err := json.Marshal(m.breakPointRules) if err != nil { panic(err) } buf.Write(content) return buf.Bytes() } func parseMessage(data []byte) message { if len(data) < 2 { return nil } if data[0] != messageVersion { return nil } if !validMessageType(data[1]) { return nil } mType := (messageType)(data[1]) if mType == messageTypeChangeRequest || mType == messageTypeChangeResponse || mType == messageTypeDropRequest || mType == messageTypeDropResponse { return parseMessageEdit(data) } else if mType == messageTypeChangeBreakPointRules { return parseMessageMeta(data) } else { log.Warnf("invalid message type %v", mType) return nil } }