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425 lines
11 KiB
Go
425 lines
11 KiB
Go
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// Copyright (C) 2019 Storj Labs, Inc.
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// See LICENSE for copying information.
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package drpcstream
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import (
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"context"
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"fmt"
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"io"
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"sync"
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"github.com/gogo/protobuf/proto"
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"github.com/zeebo/errs"
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"storj.io/drpc"
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"storj.io/drpc/drpcdebug"
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"storj.io/drpc/drpcsignal"
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"storj.io/drpc/drpcwire"
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)
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// Options controls configuration settings for a stream.
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type Options struct {
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// SplitSize controls the default size we split packets into frames.
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SplitSize int
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}
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// Stream represents an rpc actively happening on a transport.
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type Stream struct {
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ctx context.Context
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cancel func()
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opts Options
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writeMu chMutex
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id drpcwire.ID
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wr *drpcwire.Writer
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mu sync.Mutex // protects state transitions
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sigs struct {
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send drpcsignal.Signal // set when done sending messages
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recv drpcsignal.Signal // set when done receiving messages
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term drpcsignal.Signal // set when in terminated state
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finish drpcsignal.Signal // set when all writes are complete
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cancel drpcsignal.Signal // set when externally canceled and transport will be closed
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}
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queue chan drpcwire.Packet
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// avoids allocations of closures
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pollWriteFn func(drpcwire.Frame) error
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}
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var _ drpc.Stream = (*Stream)(nil)
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// New returns a new stream bound to the context with the given stream id and will
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// use the writer to write messages on. It is important use monotonically increasing
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// stream ids within a single transport.
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func New(ctx context.Context, sid uint64, wr *drpcwire.Writer) *Stream {
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return NewWithOptions(ctx, sid, wr, Options{})
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}
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// NewWithOptions returns a new stream bound to the context with the given stream id
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// and will use the writer to write messages on. It is important use monotonically increasing
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// stream ids within a single transport. The options are used to control details of how
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// the Stream operates.
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func NewWithOptions(ctx context.Context, sid uint64, wr *drpcwire.Writer, opts Options) *Stream {
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ctx, cancel := context.WithCancel(ctx)
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s := &Stream{
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ctx: ctx,
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cancel: cancel,
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opts: opts,
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wr: wr,
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id: drpcwire.ID{Stream: sid},
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queue: make(chan drpcwire.Packet),
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}
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s.pollWriteFn = s.pollWrite
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return s
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}
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//
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// monitoring helpers
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//
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// monCtx returns a copy of the context for use with mon.Task so that there aren't
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// races overwriting the stream's context.
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func (s *Stream) monCtx() *context.Context {
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ctx := s.ctx
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return &ctx
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}
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//
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// accessors
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//
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// Context returns the context associated with the stream. It is closed when
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// the Stream will no longer issue any writes or reads.
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func (s *Stream) Context() context.Context { return s.ctx }
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// Terminated returns a channel when the stream has been terminated.
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func (s *Stream) Terminated() <-chan struct{} { return s.sigs.term.Signal() }
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// Finished returns true if the stream is fully finished and will no longer
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// issue any writes or reads.
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func (s *Stream) Finished() bool { return s.sigs.finish.IsSet() }
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//
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// packet handler
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//
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// HandlePacket advances the stream state machine by inspecting the packet. It returns
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// any major errors that should terminate the transport the stream is operating on as
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// well as a boolean indicating if the stream expects more packets.
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func (s *Stream) HandlePacket(pkt drpcwire.Packet) (more bool, err error) {
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defer mon.Task()(s.monCtx())(&err)
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s.mu.Lock()
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defer s.mu.Unlock()
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drpcdebug.Log(func() string { return fmt.Sprintf("STR[%p][%d]: %v", s, s.id.Stream, pkt) })
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if pkt.ID.Stream != s.id.Stream {
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return true, nil
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}
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switch pkt.Kind {
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case drpcwire.KindInvoke:
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err := drpc.ProtocolError.New("invoke on existing stream")
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s.terminate(err)
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return false, err
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case drpcwire.KindMessage:
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if s.sigs.recv.IsSet() || s.sigs.term.IsSet() {
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return true, nil
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}
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// drop the mutex while we either send into the queue or we're told that
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// receiving is done. we don't handle any more packets until the message
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// is delivered, so the only way it can become set is from some of the
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// stream terminating calls, in which case, shutting down the stream is
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// racing with the message being received, so dropping it is valid.
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s.mu.Unlock()
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defer s.mu.Lock()
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select {
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case <-s.sigs.recv.Signal():
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case <-s.sigs.term.Signal():
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case s.queue <- pkt:
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}
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return true, nil
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case drpcwire.KindError:
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err := drpcwire.UnmarshalError(pkt.Data)
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s.sigs.send.Set(io.EOF) // in this state, gRPC returns io.EOF on send.
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s.terminate(err)
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return false, nil
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case drpcwire.KindClose:
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s.sigs.recv.Set(io.EOF)
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s.terminate(drpc.Error.New("remote closed the stream"))
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return false, nil
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case drpcwire.KindCloseSend:
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s.sigs.recv.Set(io.EOF)
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s.terminateIfBothClosed()
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return false, nil
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default:
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err := drpc.InternalError.New("unknown packet kind: %s", pkt.Kind)
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s.terminate(err)
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return false, err
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}
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}
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//
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// helpers
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//
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// checkFinished checks to see if the stream is terminated, and if so, sets the finished
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// flag. This must be called every time right before we release the write mutex.
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func (s *Stream) checkFinished() {
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if s.sigs.term.IsSet() {
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s.sigs.finish.Set(nil)
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}
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}
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// checkCancelError will replace the error with one from the cancel signal if it is
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// set. This is to prevent errors from reads/writes to a transport after it has been
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// asynchronously closed due to context cancelation.
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func (s *Stream) checkCancelError(err error) error {
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if sigErr, ok := s.sigs.cancel.Get(); ok {
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return sigErr
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}
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return err
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}
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// newPackage bumps the internal message id and returns a packet. It must be called
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// under a mutex.
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func (s *Stream) newPacket(kind drpcwire.Kind, data []byte) drpcwire.Packet {
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s.id.Message++
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return drpcwire.Packet{
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Data: data,
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ID: s.id,
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Kind: kind,
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}
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}
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// pollWrite checks for any conditions that should cause a write to not happen and
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// then issues the write of the frame.
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func (s *Stream) pollWrite(fr drpcwire.Frame) (err error) {
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switch {
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case s.sigs.send.IsSet():
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return s.sigs.send.Err()
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case s.sigs.term.IsSet():
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return s.sigs.term.Err()
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}
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return s.checkCancelError(errs.Wrap(s.wr.WriteFrame(fr)))
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}
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// sendPacket sends the packet in a single write and flushes. It does not check for
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// any conditions to stop it from writing and is meant for internal stream use to
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// do things like signal errors or closes to the remote side.
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func (s *Stream) sendPacket(kind drpcwire.Kind, data []byte) (err error) {
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defer mon.Task()(s.monCtx())(&err)
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if err := s.wr.WritePacket(s.newPacket(kind, data)); err != nil {
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return errs.Wrap(err)
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}
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if err := s.wr.Flush(); err != nil {
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return errs.Wrap(err)
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}
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return nil
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}
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// terminateIfBothClosed is a helper to terminate the stream if both sides have
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// issued a CloseSend.
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func (s *Stream) terminateIfBothClosed() {
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if s.sigs.send.IsSet() && s.sigs.recv.IsSet() {
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s.terminate(drpc.Error.New("stream terminated by both issuing close send"))
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}
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}
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// terminate marks the stream as terminated with the given error. It also marks
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// the stream as finished if no writes are happening at the time of the call.
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func (s *Stream) terminate(err error) {
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s.sigs.send.Set(err)
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s.sigs.recv.Set(err)
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s.sigs.term.Set(err)
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s.cancel()
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// if we can acquire the write mutex, then checkFinished. if not, then we know
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// some other write is happening, and it will call checkFinished before it
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// releases the mutex.
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if s.writeMu.TryLock() {
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s.checkFinished()
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s.writeMu.Unlock()
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}
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}
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//
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// raw read/write
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//
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// RawWrite sends the data bytes with the given kind.
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func (s *Stream) RawWrite(kind drpcwire.Kind, data []byte) (err error) {
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defer mon.Task()(s.monCtx())(&err)
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s.writeMu.Lock()
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defer s.writeMu.Unlock()
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defer s.checkFinished()
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return drpcwire.SplitN(s.newPacket(kind, data), s.opts.SplitSize, s.pollWriteFn)
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}
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// RawFlush flushes any buffers of data.
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func (s *Stream) RawFlush() (err error) {
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defer mon.Task()(s.monCtx())(&err)
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s.writeMu.Lock()
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defer s.writeMu.Unlock()
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defer s.checkFinished()
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return s.checkCancelError(errs.Wrap(s.wr.Flush()))
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}
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// RawRecv returns the raw bytes received for a message.
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func (s *Stream) RawRecv() (data []byte, err error) {
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defer mon.Task()(s.monCtx())(&err)
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if s.sigs.recv.IsSet() {
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return nil, s.sigs.recv.Err()
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}
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select {
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case <-s.sigs.recv.Signal():
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return nil, s.sigs.recv.Err()
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case pkt := <-s.queue:
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return pkt.Data, nil
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}
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}
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//
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// msg read/write
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//
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// MsgSend marshals the message with protobuf, writes it, and flushes.
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func (s *Stream) MsgSend(msg drpc.Message) (err error) {
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defer mon.Task()(s.monCtx())(&err)
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data, err := proto.Marshal(msg)
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if err != nil {
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return errs.Wrap(err)
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}
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if err := s.RawWrite(drpcwire.KindMessage, data); err != nil {
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return err
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}
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if err := s.RawFlush(); err != nil {
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return err
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}
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return nil
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}
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// MsgRecv recives some protobuf data and unmarshals it into msg.
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func (s *Stream) MsgRecv(msg drpc.Message) (err error) {
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defer mon.Task()(s.monCtx())(&err)
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data, err := s.RawRecv()
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if err != nil {
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return err
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}
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return proto.Unmarshal(data, msg)
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}
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//
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// terminal messages
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//
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// SendError terminates the stream and sends the error to the remote. It is a no-op if
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// the stream is already terminated.
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func (s *Stream) SendError(serr error) (err error) {
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defer mon.Task()(s.monCtx())(&err)
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s.mu.Lock()
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if s.sigs.term.IsSet() {
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s.mu.Unlock()
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return nil
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}
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s.writeMu.Lock()
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defer s.writeMu.Unlock()
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defer s.checkFinished()
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s.sigs.send.Set(io.EOF) // in this state, gRPC returns io.EOF on send.
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s.terminate(drpc.Error.New("stream terminated by sending error"))
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s.mu.Unlock()
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return s.checkCancelError(s.sendPacket(drpcwire.KindError, drpcwire.MarshalError(serr)))
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}
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// Close terminates the stream and sends that the stream has been closed to the remote.
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// It is a no-op if the stream is already terminated.
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func (s *Stream) Close() (err error) {
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defer mon.Task()(s.monCtx())(&err)
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s.mu.Lock()
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if s.sigs.term.IsSet() {
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s.mu.Unlock()
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return nil
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}
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s.writeMu.Lock()
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defer s.writeMu.Unlock()
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defer s.checkFinished()
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s.terminate(drpc.Error.New("stream terminated by sending close"))
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s.mu.Unlock()
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return s.checkCancelError(s.sendPacket(drpcwire.KindClose, nil))
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}
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// CloseSend informs the remote that no more messages will be sent. If the remote has
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// also already issued a CloseSend, the stream is terminated. It is a no-op if the
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// stream already has sent a CloseSend or if it is terminated.
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func (s *Stream) CloseSend() (err error) {
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defer mon.Task()(s.monCtx())(&err)
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s.mu.Lock()
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if s.sigs.send.IsSet() || s.sigs.term.IsSet() {
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s.mu.Unlock()
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return nil
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}
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s.writeMu.Lock()
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defer s.writeMu.Unlock()
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defer s.checkFinished()
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s.sigs.send.Set(drpc.Error.New("send closed"))
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s.terminateIfBothClosed()
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s.mu.Unlock()
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return s.checkCancelError(s.sendPacket(drpcwire.KindCloseSend, nil))
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}
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// Cancel transitions the stream into a state where all writes to the transport will return
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// the provided error, and terminates the stream. It is a no-op if the stream is already
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// terminated.
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func (s *Stream) Cancel(err error) {
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defer mon.Task()(s.monCtx())(nil)
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s.mu.Lock()
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defer s.mu.Unlock()
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if s.sigs.term.IsSet() {
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return
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}
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s.sigs.cancel.Set(err)
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s.sigs.send.Set(io.EOF) // in this state, gRPC returns io.EOF on send.
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s.terminate(err)
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}
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