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The existing ByteStreamRPC requires writing RPC stub + server code for each RPC endpoint. Does not scale well. Goal: adding a new RPC call should - not require writing an RPC stub / handler - not require modifications to the RPC lib The wire format is inspired by HTTP2, the API by net/rpc. Frames are used for framing messages, i.e. a message is made of multiple frames which are glued together using a frame-bridging reader / writer. This roughly corresponds to HTTP2 streams, although we're happy with just one stream at any time and the resulting non-need for flow control, etc. Frames are typed using a header. The two most important types are 'Header' and 'Data'. The RPC protocol is built on top of this: - Client sends a header => multiple frames of type 'header' - Client sends request body => mulitiple frames of type 'data' - Server reads a header => multiple frames of type 'header' - Server reads request body => mulitiple frames of type 'data' - Server sends response header => ... - Server sends response body => ... An RPC header is serialized JSON and always the same structure. The body is of the type specified in the header. The RPC server and client use some semi-fancy reflection tequniques to automatically infer the data type of the request/response body based on the method signature of the server handler; or the client parameters, respectively. This boils down to a special-case for io.Reader, which are just dumped into a series of data frames as efficiently as possible. All other types are (de)serialized using encoding/json. The RPC layer and Frame Layer log some arbitrary messages that proved useful during debugging. By default, they log to a non-logger, which should not have a big impact on performance. pprof analysis shows the implementation spends its CPU time 60% waiting for syscalls 30% in memmove 10% ... On a Intel(R) Core(TM) i7-6600U CPU @ 2.60GHz CPU, Linux 4.12, the implementation achieved ~3.6GiB/s. Future optimization may include spice(2) / vmspice(2) on Linux, although this doesn't fit so well with the heavy use of io.Reader / io.Writer throughout the codebase. The existing hackaround for local calls was re-implemented to fit the new interface of PRCServer and RPCClient. The 'R'PC method invocation is a bit slower because reflection is involved inbetween, but otherwise performance should be no different. The RPC code currently does not support multipart requests and thus does not support the equivalent of a POST. Thus, the switch to the new rpc code had the following fallout: - Move request objects + constants from rpc package to main app code - Sacrifice the hacky 'push = pull me' way of doing push -> need to further extend RPC to support multipart requests or something to implement this properly with additional interfaces -> should be done after replication is abstracted better than separate algorithms for doPull() and doPush()
227 lines
5.0 KiB
Go
227 lines
5.0 KiB
Go
package rpc
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import (
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"bytes"
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"encoding/json"
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"io"
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"reflect"
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"github.com/pkg/errors"
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)
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type Server struct {
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ml *MessageLayer
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logger Logger
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endpoints map[string]endpointDescr
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}
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type typeMap struct {
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local reflect.Type
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proto DataType
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}
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type endpointDescr struct {
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inType typeMap
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outType typeMap
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handler reflect.Value
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}
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type MarshaledJSONEndpoint func(bodyJSON interface{})
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func NewServer(rwc io.ReadWriteCloser) *Server {
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ml := NewMessageLayer(rwc)
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return &Server{
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ml, noLogger{}, make(map[string]endpointDescr),
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}
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}
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func (s *Server) SetLogger(logger Logger, logMessageLayer bool) {
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s.logger = logger
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if logMessageLayer {
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s.ml.logger = logger
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} else {
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s.ml.logger = noLogger{}
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}
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}
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func (s *Server) RegisterEndpoint(name string, handler interface{}) (err error) {
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_, ok := s.endpoints[name]
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if ok {
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return errors.Errorf("already set up an endpoint for '%s'", name)
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}
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s.endpoints[name], err = makeEndpointDescr(handler)
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return
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}
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func checkResponseHeader(h *Header) (err error) {
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var statusNotSet Status
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if h.Error == statusNotSet {
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return errors.Errorf("status has zero-value")
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}
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return nil
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}
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func (s *Server) writeResponse(h *Header) (err error) {
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// TODO validate
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return s.ml.WriteHeader(h)
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}
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func (s *Server) recvRequest() (h *Header, err error) {
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h, err = s.ml.ReadHeader()
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if err != nil {
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s.logger.Printf("error reading header: %s", err)
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return nil, err
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}
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s.logger.Printf("validating request")
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err = nil // TODO validate
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if err == nil {
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return h, nil
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}
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s.logger.Printf("request validation error: %s", err)
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r := NewErrorHeader(StatusRequestError, "%s", err)
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return nil, s.writeResponse(r)
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}
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var doneServeNext error = errors.New("this should not cause a HangUp() in the server")
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var ProtocolError error = errors.New("protocol error, server should hang up")
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// Serve the connection until failure or the client hangs up
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func (s *Server) Serve() (err error) {
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for {
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err = s.ServeRequest()
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if err == nil {
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continue
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}
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if err == doneServeNext {
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s.logger.Printf("subroutine returned pseudo-error indicating early-exit")
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continue
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}
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s.logger.Printf("hanging up after ServeRequest returned error: %s", err)
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s.ml.HangUp()
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return err
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}
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}
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// Serve a single request
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// * wait for request to come in
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// * call handler
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// * reply
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//
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// The connection is left open, the next bytes on the conn should be
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// the next request header.
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//
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// Returns an err != nil if the error is bad enough to hang up on the client.
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// Examples: protocol version mismatches, protocol errors in general, ...
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// Non-Examples: a handler error
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func (s *Server) ServeRequest() (err error) {
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ml := s.ml
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s.logger.Printf("reading header")
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h, err := s.recvRequest()
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if err != nil {
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return err
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}
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ep, ok := s.endpoints[h.Endpoint]
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if !ok {
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r := NewErrorHeader(StatusRequestError, "unregistered endpoint %s", h.Endpoint)
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return s.writeResponse(r)
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}
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if ep.inType.proto != h.DataType {
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r := NewErrorHeader(StatusRequestError, "wrong DataType for endpoint %s (has %s, you provided %s)", h.Endpoint, ep.inType.proto, h.DataType)
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return s.writeResponse(r)
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}
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if ep.outType.proto != h.Accept {
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r := NewErrorHeader(StatusRequestError, "wrong Accept for endpoint %s (has %s, you provided %s)", h.Endpoint, ep.outType.proto, h.Accept)
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return s.writeResponse(r)
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}
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dr := ml.ReadData()
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// Determine inval
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var inval reflect.Value
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switch ep.inType.proto {
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case DataTypeMarshaledJSON:
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// Unmarshal input
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inval = reflect.New(ep.inType.local.Elem())
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invalIface := inval.Interface()
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err = json.NewDecoder(dr).Decode(invalIface)
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if err != nil {
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r := NewErrorHeader(StatusRequestError, "cannot decode marshaled JSON: %s", err)
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return s.writeResponse(r)
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}
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case DataTypeOctets:
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// Take data as is
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inval = reflect.ValueOf(dr)
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default:
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panic("not implemented")
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}
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outval := reflect.New(ep.outType.local.Elem()) // outval is a double pointer
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s.logger.Printf("before handler, inval=%v outval=%v", inval, outval)
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// Call the handler
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errs := ep.handler.Call([]reflect.Value{inval, outval})
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if !errs[0].IsNil() {
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he := errs[0].Interface().(error) // we checked that before...
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s.logger.Printf("handler returned error: %s", err)
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r := NewErrorHeader(StatusError, "%s", he.Error())
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return s.writeResponse(r)
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}
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switch ep.outType.proto {
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case DataTypeMarshaledJSON:
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var dataBuf bytes.Buffer
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// Marshal output
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err = json.NewEncoder(&dataBuf).Encode(outval.Interface())
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if err != nil {
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r := NewErrorHeader(StatusServerError, "cannot marshal response: %s", err)
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return s.writeResponse(r)
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}
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replyHeader := Header{
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Error: StatusOK,
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DataType: ep.outType.proto,
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}
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if err = s.writeResponse(&replyHeader); err != nil {
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return err
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}
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if err = ml.WriteData(&dataBuf); err != nil {
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return
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}
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case DataTypeOctets:
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h := Header{
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Error: StatusOK,
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DataType: DataTypeOctets,
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}
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if err = s.writeResponse(&h); err != nil {
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return
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}
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reader := outval.Interface().(*io.Reader) // we checked that when adding the endpoint
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err = ml.WriteData(*reader)
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if err != nil {
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return err
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}
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}
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return nil
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}
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