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envelope.go
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envelope.go
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// Copyright 2021-2024 The Connect Authors
//
// Licensed under the Apache License, Version 2.0 (the "License");
// you may not use this file except in compliance with the License.
// You may obtain a copy of the License at
//
// http://www.apache.org/licenses/LICENSE-2.0
//
// Unless required by applicable law or agreed to in writing, software
// distributed under the License is distributed on an "AS IS" BASIS,
// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
// See the License for the specific language governing permissions and
// limitations under the License.
package connect
import (
"bytes"
"context"
"encoding/binary"
"errors"
"io"
)
// flagEnvelopeCompressed indicates that the data is compressed. It has the
// same meaning in the gRPC-Web, gRPC-HTTP2, and Connect protocols.
const flagEnvelopeCompressed = 0b00000001
var errSpecialEnvelope = errorf(
CodeUnknown,
"final message has protocol-specific flags: %w",
// User code checks for end of stream with errors.Is(err, io.EOF).
io.EOF,
)
// envelope is a block of arbitrary bytes wrapped in gRPC and Connect's framing
// protocol.
//
// Each message is preceded by a 5-byte prefix. The first byte is a uint8 used
// as a set of bitwise flags, and the remainder is a uint32 indicating the
// message length. gRPC and Connect interpret the bitwise flags differently, so
// envelope leaves their interpretation up to the caller.
type envelope struct {
Data *bytes.Buffer
Flags uint8
offset int64
}
var _ messagePayload = (*envelope)(nil)
func (e *envelope) IsSet(flag uint8) bool {
return e.Flags&flag == flag
}
// Read implements [io.Reader].
func (e *envelope) Read(data []byte) (readN int, err error) {
if e.offset < 5 {
prefix := makeEnvelopePrefix(e.Flags, e.Data.Len())
readN = copy(data, prefix[e.offset:])
e.offset += int64(readN)
if e.offset < 5 {
return readN, nil
}
data = data[readN:]
}
n := copy(data, e.Data.Bytes()[e.offset-5:])
e.offset += int64(n)
readN += n
if readN == 0 && e.offset == int64(e.Data.Len()+5) {
err = io.EOF
}
return readN, err
}
// WriteTo implements [io.WriterTo].
func (e *envelope) WriteTo(dst io.Writer) (wroteN int64, err error) {
if e.offset < 5 {
prefix := makeEnvelopePrefix(e.Flags, e.Data.Len())
prefixN, err := dst.Write(prefix[e.offset:])
e.offset += int64(prefixN)
wroteN += int64(prefixN)
if e.offset < 5 {
return wroteN, err
}
}
n, err := dst.Write(e.Data.Bytes()[e.offset-5:])
e.offset += int64(n)
wroteN += int64(n)
return wroteN, err
}
// Seek implements [io.Seeker]. Based on the implementation of [bytes.Reader].
func (e *envelope) Seek(offset int64, whence int) (int64, error) {
var abs int64
switch whence {
case io.SeekStart:
abs = offset
case io.SeekCurrent:
abs = e.offset + offset
case io.SeekEnd:
abs = int64(e.Data.Len()) + offset
default:
return 0, errors.New("connect.envelope.Seek: invalid whence")
}
if abs < 0 {
return 0, errors.New("connect.envelope.Seek: negative position")
}
e.offset = abs
return abs, nil
}
// Len returns the number of bytes of the unread portion of the envelope.
func (e *envelope) Len() int {
if length := int(int64(e.Data.Len()) + 5 - e.offset); length > 0 {
return length
}
return 0
}
type envelopeWriter struct {
ctx context.Context //nolint:containedctx
sender messageSender
codec Codec
compressMinBytes int
compressionPool *compressionPool
bufferPool *bufferPool
sendMaxBytes int
}
func (w *envelopeWriter) Marshal(message any) *Error {
if message == nil {
// Send no-op message to create the request and send headers.
payload := nopPayload{}
if _, err := w.sender.Send(payload); err != nil {
if connectErr, ok := asError(err); ok {
return connectErr
}
return NewError(CodeUnknown, err)
}
return nil
}
if appender, ok := w.codec.(marshalAppender); ok {
return w.marshalAppend(message, appender)
}
return w.marshal(message)
}
// Write writes the enveloped message, compressing as necessary. It doesn't
// retain any references to the supplied envelope or its underlying data.
func (w *envelopeWriter) Write(env *envelope) *Error {
if env.IsSet(flagEnvelopeCompressed) ||
w.compressionPool == nil ||
env.Data.Len() < w.compressMinBytes {
if w.sendMaxBytes > 0 && env.Data.Len() > w.sendMaxBytes {
return errorf(CodeResourceExhausted, "message size %d exceeds sendMaxBytes %d", env.Data.Len(), w.sendMaxBytes)
}
return w.write(env)
}
data := w.bufferPool.Get()
defer w.bufferPool.Put(data)
if err := w.compressionPool.Compress(data, env.Data); err != nil {
return err
}
if w.sendMaxBytes > 0 && data.Len() > w.sendMaxBytes {
return errorf(CodeResourceExhausted, "compressed message size %d exceeds sendMaxBytes %d", data.Len(), w.sendMaxBytes)
}
return w.write(&envelope{
Data: data,
Flags: env.Flags | flagEnvelopeCompressed,
})
}
func (w *envelopeWriter) marshalAppend(message any, codec marshalAppender) *Error {
// Codec supports MarshalAppend; try to re-use a []byte from the pool.
buffer := w.bufferPool.Get()
defer w.bufferPool.Put(buffer)
raw, err := codec.MarshalAppend(buffer.Bytes(), message)
if err != nil {
return errorf(CodeInternal, "marshal message: %w", err)
}
if cap(raw) > buffer.Cap() {
// The buffer from the pool was too small, so MarshalAppend grew the slice.
// Pessimistically assume that the too-small buffer is insufficient for the
// application workload, so there's no point in keeping it in the pool.
// Instead, replace it with the larger, newly-allocated slice. This
// allocates, but it's a small, constant-size allocation.
*buffer = *bytes.NewBuffer(raw)
} else {
// MarshalAppend didn't allocate, but we need to fix the internal state of
// the buffer. Compared to replacing the buffer (as above), buffer.Write
// copies but avoids allocating.
buffer.Write(raw)
}
envelope := &envelope{Data: buffer}
return w.Write(envelope)
}
func (w *envelopeWriter) marshal(message any) *Error {
// Codec doesn't support MarshalAppend; let Marshal allocate a []byte.
raw, err := w.codec.Marshal(message)
if err != nil {
return errorf(CodeInternal, "marshal message: %w", err)
}
buffer := bytes.NewBuffer(raw)
// Put our new []byte into the pool for later reuse.
defer w.bufferPool.Put(buffer)
envelope := &envelope{Data: buffer}
return w.Write(envelope)
}
func (w *envelopeWriter) write(env *envelope) *Error {
if _, err := w.sender.Send(env); err != nil {
err = wrapIfContextDone(w.ctx, err)
if connectErr, ok := asError(err); ok {
return connectErr
}
return errorf(CodeUnknown, "write envelope: %w", err)
}
return nil
}
type envelopeReader struct {
ctx context.Context //nolint:containedctx
reader io.Reader
bytesRead int64 // detect trailers-only gRPC responses
codec Codec
last envelope
compressionPool *compressionPool
bufferPool *bufferPool
readMaxBytes int
}
func (r *envelopeReader) Unmarshal(message any) *Error {
buffer := r.bufferPool.Get()
var dontRelease *bytes.Buffer
defer func() {
if buffer != dontRelease {
r.bufferPool.Put(buffer)
}
}()
env := &envelope{Data: buffer}
err := r.Read(env)
switch {
case err == nil && env.IsSet(flagEnvelopeCompressed) && r.compressionPool == nil:
return errorf(
CodeInternal,
"protocol error: sent compressed message without compression support",
)
case err == nil &&
(env.Flags == 0 || env.Flags == flagEnvelopeCompressed) &&
env.Data.Len() == 0:
// This is a standard message (because none of the top 7 bits are set) and
// there's no data, so the zero value of the message is correct.
return nil
case err != nil && errors.Is(err, io.EOF):
// The stream has ended. Propagate the EOF to the caller.
return err
case err != nil:
// Something's wrong.
return err
}
data := env.Data
if data.Len() > 0 && env.IsSet(flagEnvelopeCompressed) {
decompressed := r.bufferPool.Get()
defer func() {
if decompressed != dontRelease {
r.bufferPool.Put(decompressed)
}
}()
if err := r.compressionPool.Decompress(decompressed, data, int64(r.readMaxBytes)); err != nil {
return err
}
data = decompressed
}
if env.Flags != 0 && env.Flags != flagEnvelopeCompressed {
// Drain the rest of the stream to ensure there is no extra data.
numBytes, err := discard(r.reader)
r.bytesRead += numBytes
if err != nil {
err = wrapIfContextError(err)
if connErr, ok := asError(err); ok {
return connErr
}
return errorf(CodeInternal, "corrupt response: I/O error after end-stream message: %w", err)
} else if numBytes > 0 {
return errorf(CodeInternal, "corrupt response: %d extra bytes after end of stream", numBytes)
}
// One of the protocol-specific flags are set, so this is the end of the
// stream. Save the message for protocol-specific code to process and
// return a sentinel error. We alias the buffer with dontRelease as a
// way of marking it so above defers don't release it to the pool.
r.last = envelope{
Data: data,
Flags: env.Flags,
}
dontRelease = data
return errSpecialEnvelope
}
if err := r.codec.Unmarshal(data.Bytes(), message); err != nil {
return errorf(CodeInvalidArgument, "unmarshal message: %w", err)
}
return nil
}
func (r *envelopeReader) Read(env *envelope) *Error {
prefixes := [5]byte{}
// io.ReadFull reads the number of bytes requested, or returns an error.
// io.EOF will only be returned if no bytes were read.
n, err := io.ReadFull(r.reader, prefixes[:])
r.bytesRead += int64(n)
if err != nil {
if errors.Is(err, io.EOF) {
// The stream ended cleanly. That's expected, but we need to propagate an EOF
// to the user so that they know that the stream has ended. We shouldn't
// add any alarming text about protocol errors, though.
return NewError(CodeUnknown, err)
}
err = wrapIfMaxBytesError(err, "read 5 byte message prefix")
err = wrapIfContextDone(r.ctx, err)
if connectErr, ok := asError(err); ok {
return connectErr
}
// Something else has gone wrong - the stream didn't end cleanly.
return errorf(
CodeInvalidArgument,
"protocol error: incomplete envelope: %w", err,
)
}
size := int64(binary.BigEndian.Uint32(prefixes[1:5]))
if r.readMaxBytes > 0 && size > int64(r.readMaxBytes) {
n, err := io.CopyN(io.Discard, r.reader, size)
r.bytesRead += n
if err != nil && !errors.Is(err, io.EOF) {
return errorf(CodeResourceExhausted, "message is larger than configured max %d - unable to determine message size: %w", r.readMaxBytes, err)
}
return errorf(CodeResourceExhausted, "message size %d is larger than configured max %d", size, r.readMaxBytes)
}
// We've read the prefix, so we know how many bytes to expect.
// CopyN will return an error if it doesn't read the requested
// number of bytes.
readN, err := io.CopyN(env.Data, r.reader, size)
r.bytesRead += readN
if err != nil {
if errors.Is(err, io.EOF) {
// We've gotten fewer bytes than we expected, so the stream has ended
// unexpectedly.
return errorf(
CodeInvalidArgument,
"protocol error: promised %d bytes in enveloped message, got %d bytes",
size,
readN,
)
}
err = wrapIfMaxBytesError(err, "read %d byte message", size)
err = wrapIfContextDone(r.ctx, err)
if connectErr, ok := asError(err); ok {
return connectErr
}
return errorf(CodeUnknown, "read enveloped message: %w", err)
}
env.Flags = prefixes[0]
return nil
}
func makeEnvelopePrefix(flags uint8, size int) [5]byte {
prefix := [5]byte{}
prefix[0] = flags
binary.BigEndian.PutUint32(prefix[1:5], uint32(size))
return prefix
}