package server import ( "bytes" "sync" "github.com/asim/go-micro/v3/codec" raw "github.com/asim/go-micro/v3/codec/bytes" "github.com/asim/go-micro/v3/codec/grpc" "github.com/asim/go-micro/v3/codec/json" "github.com/asim/go-micro/v3/codec/jsonrpc" "github.com/asim/go-micro/v3/codec/proto" "github.com/asim/go-micro/v3/codec/protorpc" "github.com/asim/go-micro/v3/transport" "github.com/oxtoacart/bpool" "github.com/pkg/errors" ) type rpcCodec struct { socket transport.Socket codec codec.Codec protocol string req *transport.Message buf *readWriteCloser // check if we're the first sync.RWMutex first chan bool } type readWriteCloser struct { sync.RWMutex wbuf *bytes.Buffer rbuf *bytes.Buffer } var ( DefaultContentType = "application/protobuf" DefaultCodecs = map[string]codec.NewCodec{ "application/grpc": grpc.NewCodec, "application/grpc+json": grpc.NewCodec, "application/grpc+proto": grpc.NewCodec, "application/json": json.NewCodec, "application/json-rpc": jsonrpc.NewCodec, "application/protobuf": proto.NewCodec, "application/proto-rpc": protorpc.NewCodec, "application/octet-stream": raw.NewCodec, } // TODO: remove legacy codec list defaultCodecs = map[string]codec.NewCodec{ "application/json": jsonrpc.NewCodec, "application/json-rpc": jsonrpc.NewCodec, "application/protobuf": protorpc.NewCodec, "application/proto-rpc": protorpc.NewCodec, "application/octet-stream": protorpc.NewCodec, } // the local buffer pool bufferPool = bpool.NewSizedBufferPool(32, 1) ) func (rwc *readWriteCloser) Read(p []byte) (n int, err error) { rwc.RLock() defer rwc.RUnlock() return rwc.rbuf.Read(p) } func (rwc *readWriteCloser) Write(p []byte) (n int, err error) { rwc.Lock() defer rwc.Unlock() return rwc.wbuf.Write(p) } func (rwc *readWriteCloser) Close() error { return nil } func getHeader(hdr string, md map[string]string) string { if hd := md[hdr]; len(hd) > 0 { return hd } return md["X-"+hdr] } func getHeaders(m *codec.Message) { set := func(v, hdr string) string { if len(v) > 0 { return v } return m.Header[hdr] } m.Id = set(m.Id, "Micro-Id") m.Error = set(m.Error, "Micro-Error") m.Endpoint = set(m.Endpoint, "Micro-Endpoint") m.Method = set(m.Method, "Micro-Method") m.Target = set(m.Target, "Micro-Service") // TODO: remove this cruft if len(m.Endpoint) == 0 { m.Endpoint = m.Method } } func setHeaders(m, r *codec.Message) { set := func(hdr, v string) { if len(v) == 0 { return } m.Header[hdr] = v m.Header["X-"+hdr] = v } // set headers set("Micro-Id", r.Id) set("Micro-Service", r.Target) set("Micro-Method", r.Method) set("Micro-Endpoint", r.Endpoint) set("Micro-Error", r.Error) } // setupProtocol sets up the old protocol func setupProtocol(msg *transport.Message) codec.NewCodec { service := getHeader("Micro-Service", msg.Header) method := getHeader("Micro-Method", msg.Header) endpoint := getHeader("Micro-Endpoint", msg.Header) protocol := getHeader("Micro-Protocol", msg.Header) target := getHeader("Micro-Target", msg.Header) topic := getHeader("Micro-Topic", msg.Header) // if the protocol exists (mucp) do nothing if len(protocol) > 0 { return nil } // newer method of processing messages over transport if len(topic) > 0 { return nil } // if no service/method/endpoint then it's the old protocol if len(service) == 0 && len(method) == 0 && len(endpoint) == 0 { return defaultCodecs[msg.Header["Content-Type"]] } // old target method specified if len(target) > 0 { return defaultCodecs[msg.Header["Content-Type"]] } // no method then set to endpoint if len(method) == 0 { msg.Header["Micro-Method"] = endpoint } // no endpoint then set to method if len(endpoint) == 0 { msg.Header["Micro-Endpoint"] = method } return nil } func newRpcCodec(req *transport.Message, socket transport.Socket, c codec.NewCodec) codec.Codec { rwc := &readWriteCloser{ rbuf: bufferPool.Get(), wbuf: bufferPool.Get(), } r := &rpcCodec{ buf: rwc, codec: c(rwc), req: req, socket: socket, protocol: "mucp", first: make(chan bool), } // if grpc pre-load the buffer // TODO: remove this terrible hack switch r.codec.String() { case "grpc": // write the body rwc.rbuf.Write(req.Body) // set the protocol r.protocol = "grpc" default: // first is not preloaded close(r.first) } return r } func (c *rpcCodec) ReadHeader(r *codec.Message, t codec.MessageType) error { // the initial message m := codec.Message{ Header: c.req.Header, Body: c.req.Body, } // first message could be pre-loaded select { case <-c.first: // not the first var tm transport.Message // read off the socket if err := c.socket.Recv(&tm); err != nil { return err } // reset the read buffer c.buf.rbuf.Reset() // write the body to the buffer if _, err := c.buf.rbuf.Write(tm.Body); err != nil { return err } // set the message header m.Header = tm.Header // set the message body m.Body = tm.Body // set req c.req = &tm default: // we need to lock here to prevent race conditions // and we make use of a channel otherwise because // this does not result in a context switch // locking to check c.first on every call to ReadHeader // would otherwise drastically slow the code execution c.Lock() // recheck before closing because the select statement // above is not thread safe, so thread safety here is // mandatory select { case <-c.first: default: // disable first close(c.first) } // now unlock and we never need this again c.Unlock() } // set some internal things getHeaders(&m) // read header via codec if err := c.codec.ReadHeader(&m, codec.Request); err != nil { return err } // fallback for 0.14 and older if len(m.Endpoint) == 0 { m.Endpoint = m.Method } // set message *r = m return nil } func (c *rpcCodec) ReadBody(b interface{}) error { // don't read empty body if len(c.req.Body) == 0 { return nil } // read raw data if v, ok := b.(*raw.Frame); ok { v.Data = c.req.Body return nil } // decode the usual way return c.codec.ReadBody(b) } func (c *rpcCodec) Write(r *codec.Message, b interface{}) error { c.buf.wbuf.Reset() // create a new message m := &codec.Message{ Target: r.Target, Method: r.Method, Endpoint: r.Endpoint, Id: r.Id, Error: r.Error, Type: r.Type, Header: r.Header, } if m.Header == nil { m.Header = map[string]string{} } setHeaders(m, r) // the body being sent var body []byte // is it a raw frame? if v, ok := b.(*raw.Frame); ok { body = v.Data // if we have encoded data just send it } else if len(r.Body) > 0 { body = r.Body // write the body to codec } else if err := c.codec.Write(m, b); err != nil { c.buf.wbuf.Reset() // write an error if it failed m.Error = errors.Wrapf(err, "Unable to encode body").Error() m.Header["Micro-Error"] = m.Error // no body to write if err := c.codec.Write(m, nil); err != nil { return err } } else { // set the body body = c.buf.wbuf.Bytes() } // Set content type if theres content if len(body) > 0 { m.Header["Content-Type"] = c.req.Header["Content-Type"] } // send on the socket return c.socket.Send(&transport.Message{ Header: m.Header, Body: body, }) } func (c *rpcCodec) Close() error { // close the codec c.codec.Close() // close the socket err := c.socket.Close() // put back the buffers bufferPool.Put(c.buf.rbuf) bufferPool.Put(c.buf.wbuf) // return the error return err } func (c *rpcCodec) String() string { return c.protocol }