syncthing/lib/protocol/protocol.go

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// Copyright (C) 2014 The Protocol Authors.
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package protocol
import (
"crypto/sha256"
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"encoding/binary"
"errors"
"fmt"
"io"
"path"
"strings"
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"sync"
"time"
lz4 "github.com/bkaradzic/go-lz4"
)
const (
// Shifts
KiB = 10
MiB = 20
GiB = 30
)
const (
// MaxMessageLen is the largest message size allowed on the wire. (500 MB)
MaxMessageLen = 500 * 1000 * 1000
// MinBlockSize is the minimum block size allowed
MinBlockSize = 128 << KiB
// MaxBlockSize is the maximum block size allowed
MaxBlockSize = 16 << MiB
// DesiredPerFileBlocks is the number of blocks we aim for per file
DesiredPerFileBlocks = 2000
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)
// BlockSizes is the list of valid block sizes, from min to max
var BlockSizes []int
// For each block size, the hash of a block of all zeroes
var sha256OfEmptyBlock = make(map[int][sha256.Size]byte)
func init() {
for blockSize := MinBlockSize; blockSize <= MaxBlockSize; blockSize *= 2 {
BlockSizes = append(BlockSizes, blockSize)
sha256OfEmptyBlock[blockSize] = sha256.Sum256(make([]byte, blockSize))
}
}
// BlockSize returns the block size to use for the given file size
func BlockSize(fileSize int64) int {
var blockSize int
for _, blockSize = range BlockSizes {
if fileSize < int64(DesiredPerFileBlocks*blockSize) {
break
}
}
return blockSize
}
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const (
stateInitial = iota
stateReady
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)
// Request message flags
const (
FlagFromTemporary uint32 = 1 << iota
)
// ClusterConfigMessage.Folders flags
const (
FlagFolderReadOnly uint32 = 1 << 0
FlagFolderIgnorePerms = 1 << 1
FlagFolderIgnoreDelete = 1 << 2
FlagFolderDisabledTempIndexes = 1 << 3
FlagFolderAll = 1<<4 - 1
)
// ClusterConfigMessage.Folders.Devices flags
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const (
FlagShareTrusted uint32 = 1 << 0
FlagShareReadOnly = 1 << 1
FlagIntroducer = 1 << 2
FlagShareBits = 0x000000ff
)
var (
ErrClosed = errors.New("connection closed")
ErrTimeout = errors.New("read timeout")
ErrSwitchingConnections = errors.New("switching connections")
errUnknownMessage = errors.New("unknown message")
errInvalidFilename = errors.New("filename is invalid")
errUncleanFilename = errors.New("filename not in canonical format")
errDeletedHasBlocks = errors.New("deleted file with non-empty block list")
errDirectoryHasBlocks = errors.New("directory with non-empty block list")
errFileHasNoBlocks = errors.New("file with empty block list")
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)
type Model interface {
// An index was received from the peer device
Index(deviceID DeviceID, folder string, files []FileInfo)
// An index update was received from the peer device
IndexUpdate(deviceID DeviceID, folder string, files []FileInfo)
// A request was made by the peer device
Request(deviceID DeviceID, folder string, name string, offset int64, hash []byte, fromTemporary bool, buf []byte) error
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// A cluster configuration message was received
ClusterConfig(deviceID DeviceID, config ClusterConfig)
// The peer device closed the connection
Closed(conn Connection, err error)
// The peer device sent progress updates for the files it is currently downloading
DownloadProgress(deviceID DeviceID, folder string, updates []FileDownloadProgressUpdate)
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}
type Connection interface {
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Start()
ID() DeviceID
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Name() string
Index(folder string, files []FileInfo) error
IndexUpdate(folder string, files []FileInfo) error
Request(folder string, name string, offset int64, size int, hash []byte, fromTemporary bool) ([]byte, error)
ClusterConfig(config ClusterConfig)
DownloadProgress(folder string, updates []FileDownloadProgressUpdate)
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Statistics() Statistics
Closed() bool
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}
type rawConnection struct {
id DeviceID
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name string
receiver Model
cr *countingReader
cw *countingWriter
awaiting map[int32]chan asyncResult
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awaitingMut sync.Mutex
idxMut sync.Mutex // ensures serialization of Index calls
nextID int32
nextIDMut sync.Mutex
outbox chan asyncMessage
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closed chan struct{}
once sync.Once
pool bufferPool
compression Compression
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}
type asyncResult struct {
val []byte
err error
}
type message interface {
ProtoSize() int
Marshal() ([]byte, error)
MarshalTo([]byte) (int, error)
Unmarshal([]byte) error
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}
type asyncMessage struct {
msg message
done chan struct{} // done closes when we're done marshalling the message and its contents can be reused
}
const (
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// PingSendInterval is how often we make sure to send a message, by
// triggering pings if necessary.
PingSendInterval = 90 * time.Second
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// ReceiveTimeout is the longest we'll wait for a message from the other
// side before closing the connection.
ReceiveTimeout = 300 * time.Second
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)
// A buffer pool for global use. We don't allocate smaller buffers than 64k,
// in the hope of being able to reuse them later.
var buffers = bufferPool{
minSize: 64 << 10,
}
func NewConnection(deviceID DeviceID, reader io.Reader, writer io.Writer, receiver Model, name string, compress Compression) Connection {
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cr := &countingReader{Reader: reader}
cw := &countingWriter{Writer: writer}
c := rawConnection{
id: deviceID,
name: name,
receiver: nativeModel{receiver},
cr: cr,
cw: cw,
awaiting: make(map[int32]chan asyncResult),
outbox: make(chan asyncMessage),
closed: make(chan struct{}),
pool: bufferPool{minSize: MinBlockSize},
compression: compress,
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}
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return wireFormatConnection{&c}
}
// Start creates the goroutines for sending and receiving of messages. It must
// be called exactly once after creating a connection.
func (c *rawConnection) Start() {
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go c.readerLoop()
go c.writerLoop()
go c.pingSender()
go c.pingReceiver()
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}
func (c *rawConnection) ID() DeviceID {
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return c.id
}
func (c *rawConnection) Name() string {
return c.name
}
// Index writes the list of file information to the connected peer device
func (c *rawConnection) Index(folder string, idx []FileInfo) error {
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select {
case <-c.closed:
return ErrClosed
default:
}
c.idxMut.Lock()
c.send(&Index{
Folder: folder,
Files: idx,
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}, nil)
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c.idxMut.Unlock()
return nil
}
// IndexUpdate writes the list of file information to the connected peer device as an update
func (c *rawConnection) IndexUpdate(folder string, idx []FileInfo) error {
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select {
case <-c.closed:
return ErrClosed
default:
}
c.idxMut.Lock()
c.send(&IndexUpdate{
Folder: folder,
Files: idx,
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}, nil)
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c.idxMut.Unlock()
return nil
}
// Request returns the bytes for the specified block after fetching them from the connected peer.
func (c *rawConnection) Request(folder string, name string, offset int64, size int, hash []byte, fromTemporary bool) ([]byte, error) {
c.nextIDMut.Lock()
id := c.nextID
c.nextID++
c.nextIDMut.Unlock()
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c.awaitingMut.Lock()
if _, ok := c.awaiting[id]; ok {
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panic("id taken")
}
rc := make(chan asyncResult, 1)
c.awaiting[id] = rc
c.awaitingMut.Unlock()
ok := c.send(&Request{
ID: id,
Folder: folder,
Name: name,
Offset: offset,
Size: int32(size),
Hash: hash,
FromTemporary: fromTemporary,
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}, nil)
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if !ok {
return nil, ErrClosed
}
res, ok := <-rc
if !ok {
return nil, ErrClosed
}
return res.val, res.err
}
// ClusterConfig send the cluster configuration message to the peer and returns any error
func (c *rawConnection) ClusterConfig(config ClusterConfig) {
c.send(&config, nil)
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}
func (c *rawConnection) Closed() bool {
select {
case <-c.closed:
return true
default:
return false
}
}
// DownloadProgress sends the progress updates for the files that are currently being downloaded.
func (c *rawConnection) DownloadProgress(folder string, updates []FileDownloadProgressUpdate) {
c.send(&DownloadProgress{
Folder: folder,
Updates: updates,
}, nil)
}
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func (c *rawConnection) ping() bool {
return c.send(&Ping{}, nil)
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}
func (c *rawConnection) readerLoop() (err error) {
defer func() {
c.close(err)
}()
state := stateInitial
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for {
select {
case <-c.closed:
return ErrClosed
default:
}
msg, err := c.readMessage()
if err == errUnknownMessage {
// Unknown message types are skipped, for future extensibility.
continue
}
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if err != nil {
return err
}
switch msg := msg.(type) {
case *ClusterConfig:
l.Debugln("read ClusterConfig message")
if state != stateInitial {
return fmt.Errorf("protocol error: cluster config message in state %d", state)
}
c.receiver.ClusterConfig(c.id, *msg)
state = stateReady
case *Index:
l.Debugln("read Index message")
if state != stateReady {
return fmt.Errorf("protocol error: index message in state %d", state)
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}
if err := checkIndexConsistency(msg.Files); err != nil {
return fmt.Errorf("protocol error: index: %v", err)
}
c.handleIndex(*msg)
state = stateReady
case *IndexUpdate:
l.Debugln("read IndexUpdate message")
if state != stateReady {
return fmt.Errorf("protocol error: index update message in state %d", state)
}
if err := checkIndexConsistency(msg.Files); err != nil {
return fmt.Errorf("protocol error: index update: %v", err)
}
c.handleIndexUpdate(*msg)
state = stateReady
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case *Request:
l.Debugln("read Request message")
if state != stateReady {
return fmt.Errorf("protocol error: request message in state %d", state)
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}
if err := checkFilename(msg.Name); err != nil {
return fmt.Errorf("protocol error: request: %q: %v", msg.Name, err)
}
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// Requests are handled asynchronously
go c.handleRequest(*msg)
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case *Response:
l.Debugln("read Response message")
if state != stateReady {
return fmt.Errorf("protocol error: response message in state %d", state)
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}
c.handleResponse(*msg)
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case *DownloadProgress:
l.Debugln("read DownloadProgress message")
if state != stateReady {
return fmt.Errorf("protocol error: response message in state %d", state)
}
c.receiver.DownloadProgress(c.id, msg.Folder, msg.Updates)
case *Ping:
l.Debugln("read Ping message")
if state != stateReady {
return fmt.Errorf("protocol error: ping message in state %d", state)
}
// Nothing
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case *Close:
l.Debugln("read Close message")
return errors.New(msg.Reason)
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default:
l.Debugf("read unknown message: %+T", msg)
return fmt.Errorf("protocol error: %s: unknown or empty message", c.id)
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}
}
}
func (c *rawConnection) readMessage() (message, error) {
hdr, err := c.readHeader()
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if err != nil {
return nil, err
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}
return c.readMessageAfterHeader(hdr)
}
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func (c *rawConnection) readMessageAfterHeader(hdr Header) (message, error) {
// First comes a 4 byte message length
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buf := buffers.get(4)
if _, err := io.ReadFull(c.cr, buf); err != nil {
return nil, fmt.Errorf("reading message length: %v", err)
}
msgLen := int32(binary.BigEndian.Uint32(buf))
if msgLen < 0 {
return nil, fmt.Errorf("negative message length %d", msgLen)
}
// Then comes the message
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buf = buffers.upgrade(buf, int(msgLen))
if _, err := io.ReadFull(c.cr, buf); err != nil {
return nil, fmt.Errorf("reading message: %v", err)
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}
// ... which might be compressed
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switch hdr.Compression {
case MessageCompressionNone:
// Nothing
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case MessageCompressionLZ4:
decomp, err := c.lz4Decompress(buf)
buffers.put(buf)
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if err != nil {
return nil, fmt.Errorf("decompressing message: %v", err)
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}
buf = decomp
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default:
return nil, fmt.Errorf("unknown message compression %d", hdr.Compression)
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}
// ... and is then unmarshalled
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msg, err := c.newMessage(hdr.Type)
if err != nil {
return nil, err
}
if err := msg.Unmarshal(buf); err != nil {
return nil, fmt.Errorf("unmarshalling message: %v", err)
}
buffers.put(buf)
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return msg, nil
}
func (c *rawConnection) readHeader() (Header, error) {
// First comes a 2 byte header length
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buf := buffers.get(2)
if _, err := io.ReadFull(c.cr, buf); err != nil {
return Header{}, fmt.Errorf("reading length: %v", err)
}
hdrLen := int16(binary.BigEndian.Uint16(buf))
if hdrLen < 0 {
return Header{}, fmt.Errorf("negative header length %d", hdrLen)
}
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// Then comes the header
buf = buffers.upgrade(buf, int(hdrLen))
if _, err := io.ReadFull(c.cr, buf); err != nil {
return Header{}, fmt.Errorf("reading header: %v", err)
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}
var hdr Header
if err := hdr.Unmarshal(buf); err != nil {
return Header{}, fmt.Errorf("unmarshalling header: %v", err)
}
buffers.put(buf)
return hdr, nil
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}
func (c *rawConnection) handleIndex(im Index) {
l.Debugf("Index(%v, %v, %d file)", c.id, im.Folder, len(im.Files))
c.receiver.Index(c.id, im.Folder, im.Files)
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}
func (c *rawConnection) handleIndexUpdate(im IndexUpdate) {
l.Debugf("queueing IndexUpdate(%v, %v, %d files)", c.id, im.Folder, len(im.Files))
c.receiver.IndexUpdate(c.id, im.Folder, im.Files)
}
// checkIndexConsistency verifies a number of invariants on FileInfos received in
// index messages.
func checkIndexConsistency(fs []FileInfo) error {
for _, f := range fs {
if err := checkFileInfoConsistency(f); err != nil {
return fmt.Errorf("%q: %v", f.Name, err)
}
}
return nil
}
// checkFileInfoConsistency verifies a number of invariants on the given FileInfo
func checkFileInfoConsistency(f FileInfo) error {
if err := checkFilename(f.Name); err != nil {
return err
}
switch {
case f.Deleted && len(f.Blocks) != 0:
// Deleted files should have no blocks
return errDeletedHasBlocks
case f.Type == FileInfoTypeDirectory && len(f.Blocks) != 0:
// Directories should have no blocks
return errDirectoryHasBlocks
case !f.Deleted && !f.Invalid && f.Type == FileInfoTypeFile && len(f.Blocks) == 0:
// Non-deleted, non-invalid files should have at least one block
return errFileHasNoBlocks
}
return nil
}
// checkFilename verifies that the given filename is valid according to the
// spec on what's allowed over the wire. A filename failing this test is
// grounds for disconnecting the device.
func checkFilename(name string) error {
cleanedName := path.Clean(name)
if cleanedName != name {
// The filename on the wire should be in canonical format. If
// Clean() managed to clean it up, there was something wrong with
// it.
return errUncleanFilename
}
switch name {
case "", ".", "..":
// These names are always invalid.
return errInvalidFilename
}
if strings.HasPrefix(name, "/") {
// Names are folder relative, not absolute.
return errInvalidFilename
}
if strings.HasPrefix(name, "../") {
// Starting with a dotdot is not allowed. Any other dotdots would
// have been handled by the Clean() call at the top.
return errInvalidFilename
}
return nil
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}
func (c *rawConnection) handleRequest(req Request) {
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size := int(req.Size)
usePool := size <= MaxBlockSize
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var buf []byte
var done chan struct{}
if usePool {
buf = c.pool.get(size)
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done = make(chan struct{})
} else {
buf = make([]byte, size)
}
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err := c.receiver.Request(c.id, req.Folder, req.Name, req.Offset, req.Hash, req.FromTemporary, buf)
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if err != nil {
c.send(&Response{
ID: req.ID,
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Data: nil,
Code: errorToCode(err),
}, done)
} else {
c.send(&Response{
ID: req.ID,
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Data: buf,
Code: errorToCode(err),
}, done)
}
if usePool {
<-done
c.pool.put(buf)
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}
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}
func (c *rawConnection) handleResponse(resp Response) {
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c.awaitingMut.Lock()
if rc := c.awaiting[resp.ID]; rc != nil {
delete(c.awaiting, resp.ID)
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rc <- asyncResult{resp.Data, codeToError(resp.Code)}
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close(rc)
}
c.awaitingMut.Unlock()
}
func (c *rawConnection) send(msg message, done chan struct{}) bool {
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select {
case c.outbox <- asyncMessage{msg, done}:
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return true
case <-c.closed:
return false
}
}
func (c *rawConnection) writerLoop() {
for {
select {
case hm := <-c.outbox:
if err := c.writeMessage(hm); err != nil {
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c.close(err)
return
}
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case <-c.closed:
return
}
}
}
func (c *rawConnection) writeMessage(hm asyncMessage) error {
if c.shouldCompressMessage(hm.msg) {
return c.writeCompressedMessage(hm)
}
return c.writeUncompressedMessage(hm)
}
func (c *rawConnection) writeCompressedMessage(hm asyncMessage) error {
size := hm.msg.ProtoSize()
buf := buffers.get(size)
if _, err := hm.msg.MarshalTo(buf); err != nil {
return fmt.Errorf("marshalling message: %v", err)
}
if hm.done != nil {
close(hm.done)
}
compressed, err := c.lz4Compress(buf)
if err != nil {
return fmt.Errorf("compressing message: %v", err)
}
hdr := Header{
Type: c.typeOf(hm.msg),
Compression: MessageCompressionLZ4,
}
hdrSize := hdr.ProtoSize()
if hdrSize > 1<<16-1 {
panic("impossibly large header")
}
totSize := 2 + hdrSize + 4 + len(compressed)
buf = buffers.upgrade(buf, totSize)
// Header length
binary.BigEndian.PutUint16(buf, uint16(hdrSize))
// Header
if _, err := hdr.MarshalTo(buf[2:]); err != nil {
return fmt.Errorf("marshalling header: %v", err)
}
// Message length
binary.BigEndian.PutUint32(buf[2+hdrSize:], uint32(len(compressed)))
// Message
copy(buf[2+hdrSize+4:], compressed)
buffers.put(compressed)
n, err := c.cw.Write(buf)
buffers.put(buf)
l.Debugf("wrote %d bytes on the wire (2 bytes length, %d bytes header, 4 bytes message length, %d bytes message (%d uncompressed)), err=%v", n, hdrSize, len(compressed), size, err)
if err != nil {
return fmt.Errorf("writing message: %v", err)
}
return nil
}
func (c *rawConnection) writeUncompressedMessage(hm asyncMessage) error {
size := hm.msg.ProtoSize()
hdr := Header{
Type: c.typeOf(hm.msg),
}
hdrSize := hdr.ProtoSize()
if hdrSize > 1<<16-1 {
panic("impossibly large header")
}
totSize := 2 + hdrSize + 4 + size
buf := buffers.get(totSize)
// Header length
binary.BigEndian.PutUint16(buf, uint16(hdrSize))
// Header
if _, err := hdr.MarshalTo(buf[2:]); err != nil {
return fmt.Errorf("marshalling header: %v", err)
}
// Message length
binary.BigEndian.PutUint32(buf[2+hdrSize:], uint32(size))
// Message
if _, err := hm.msg.MarshalTo(buf[2+hdrSize+4:]); err != nil {
return fmt.Errorf("marshalling message: %v", err)
}
if hm.done != nil {
close(hm.done)
}
n, err := c.cw.Write(buf[:totSize])
buffers.put(buf)
l.Debugf("wrote %d bytes on the wire (2 bytes length, %d bytes header, 4 bytes message length, %d bytes message), err=%v", n, hdrSize, size, err)
if err != nil {
return fmt.Errorf("writing message: %v", err)
}
return nil
}
func (c *rawConnection) typeOf(msg message) MessageType {
switch msg.(type) {
case *ClusterConfig:
return messageTypeClusterConfig
case *Index:
return messageTypeIndex
case *IndexUpdate:
return messageTypeIndexUpdate
case *Request:
return messageTypeRequest
case *Response:
return messageTypeResponse
case *DownloadProgress:
return messageTypeDownloadProgress
case *Ping:
return messageTypePing
case *Close:
return messageTypeClose
default:
panic("bug: unknown message type")
}
}
func (c *rawConnection) newMessage(t MessageType) (message, error) {
switch t {
case messageTypeClusterConfig:
return new(ClusterConfig), nil
case messageTypeIndex:
return new(Index), nil
case messageTypeIndexUpdate:
return new(IndexUpdate), nil
case messageTypeRequest:
return new(Request), nil
case messageTypeResponse:
return new(Response), nil
case messageTypeDownloadProgress:
return new(DownloadProgress), nil
case messageTypePing:
return new(Ping), nil
case messageTypeClose:
return new(Close), nil
default:
return nil, errUnknownMessage
}
}
func (c *rawConnection) shouldCompressMessage(msg message) bool {
switch c.compression {
case CompressNever:
return false
case CompressAlways:
// Use compression for large enough messages
return msg.ProtoSize() >= compressionThreshold
case CompressMetadata:
_, isResponse := msg.(*Response)
// Compress if it's large enough and not a response message
return !isResponse && msg.ProtoSize() >= compressionThreshold
default:
panic("unknown compression setting")
}
}
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func (c *rawConnection) close(err error) {
c.once.Do(func() {
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l.Debugln("close due to", err)
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close(c.closed)
c.awaitingMut.Lock()
for i, ch := range c.awaiting {
if ch != nil {
close(ch)
delete(c.awaiting, i)
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}
}
c.awaitingMut.Unlock()
c.receiver.Closed(c, err)
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})
}
// The pingSender makes sure that we've sent a message within the last
// PingSendInterval. If we already have something sent in the last
// PingSendInterval/2, we do nothing. Otherwise we send a ping message. This
// results in an effecting ping interval of somewhere between
// PingSendInterval/2 and PingSendInterval.
func (c *rawConnection) pingSender() {
ticker := time.NewTicker(PingSendInterval / 2)
defer ticker.Stop()
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for {
select {
case <-ticker.C:
d := time.Since(c.cw.Last())
if d < PingSendInterval/2 {
Implement facility based logger, debugging via REST API This implements a new debug/trace infrastructure based on a slightly hacked up logger. Instead of the traditional "if debug { ... }" I've rewritten the logger to have no-op Debugln and Debugf, unless debugging has been enabled for a given "facility". The "facility" is just a string, typically a package name. This will be slightly slower than before; but not that much as it's mostly a function call that returns immediately. For the cases where it matters (the Debugln takes a hex.Dump() of something for example, and it's not in a very occasional "if err != nil" branch) there is an l.ShouldDebug(facility) that is fast enough to be used like the old "if debug". The point of all this is that we can now toggle debugging for the various packages on and off at runtime. There's a new method /rest/system/debug that can be POSTed a set of facilities to enable and disable debug for, or GET from to get a list of facilities with descriptions and their current debug status. Similarly a /rest/system/log?since=... can grab the latest log entries, up to 250 of them (hardcoded constant in main.go) plus the initial few. Not implemented in this commit (but planned) is a simple debug GUI available on /debug that shows the current log in an easily pasteable format and has checkboxes to enable the various debug facilities. The debug instructions to a user then becomes "visit this URL, check these boxes, reproduce your problem, copy and paste the log". The actual log viewer on the hypothetical /debug URL can poll regularly for new log entries and this bypass the 250 line limit. The existing STTRACE=foo variable is still obeyed and just sets the start state of the system.
2015-10-03 15:25:21 +00:00
l.Debugln(c.id, "ping skipped after wr", d)
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continue
}
Implement facility based logger, debugging via REST API This implements a new debug/trace infrastructure based on a slightly hacked up logger. Instead of the traditional "if debug { ... }" I've rewritten the logger to have no-op Debugln and Debugf, unless debugging has been enabled for a given "facility". The "facility" is just a string, typically a package name. This will be slightly slower than before; but not that much as it's mostly a function call that returns immediately. For the cases where it matters (the Debugln takes a hex.Dump() of something for example, and it's not in a very occasional "if err != nil" branch) there is an l.ShouldDebug(facility) that is fast enough to be used like the old "if debug". The point of all this is that we can now toggle debugging for the various packages on and off at runtime. There's a new method /rest/system/debug that can be POSTed a set of facilities to enable and disable debug for, or GET from to get a list of facilities with descriptions and their current debug status. Similarly a /rest/system/log?since=... can grab the latest log entries, up to 250 of them (hardcoded constant in main.go) plus the initial few. Not implemented in this commit (but planned) is a simple debug GUI available on /debug that shows the current log in an easily pasteable format and has checkboxes to enable the various debug facilities. The debug instructions to a user then becomes "visit this URL, check these boxes, reproduce your problem, copy and paste the log". The actual log viewer on the hypothetical /debug URL can poll regularly for new log entries and this bypass the 250 line limit. The existing STTRACE=foo variable is still obeyed and just sets the start state of the system.
2015-10-03 15:25:21 +00:00
l.Debugln(c.id, "ping -> after", d)
c.ping()
case <-c.closed:
return
}
}
}
// The pingReceiver checks that we've received a message (any message will do,
// but we expect pings in the absence of other messages) within the last
// ReceiveTimeout. If not, we close the connection with an ErrTimeout.
func (c *rawConnection) pingReceiver() {
ticker := time.NewTicker(ReceiveTimeout / 2)
defer ticker.Stop()
for {
select {
case <-ticker.C:
d := time.Since(c.cr.Last())
if d > ReceiveTimeout {
Implement facility based logger, debugging via REST API This implements a new debug/trace infrastructure based on a slightly hacked up logger. Instead of the traditional "if debug { ... }" I've rewritten the logger to have no-op Debugln and Debugf, unless debugging has been enabled for a given "facility". The "facility" is just a string, typically a package name. This will be slightly slower than before; but not that much as it's mostly a function call that returns immediately. For the cases where it matters (the Debugln takes a hex.Dump() of something for example, and it's not in a very occasional "if err != nil" branch) there is an l.ShouldDebug(facility) that is fast enough to be used like the old "if debug". The point of all this is that we can now toggle debugging for the various packages on and off at runtime. There's a new method /rest/system/debug that can be POSTed a set of facilities to enable and disable debug for, or GET from to get a list of facilities with descriptions and their current debug status. Similarly a /rest/system/log?since=... can grab the latest log entries, up to 250 of them (hardcoded constant in main.go) plus the initial few. Not implemented in this commit (but planned) is a simple debug GUI available on /debug that shows the current log in an easily pasteable format and has checkboxes to enable the various debug facilities. The debug instructions to a user then becomes "visit this URL, check these boxes, reproduce your problem, copy and paste the log". The actual log viewer on the hypothetical /debug URL can poll regularly for new log entries and this bypass the 250 line limit. The existing STTRACE=foo variable is still obeyed and just sets the start state of the system.
2015-10-03 15:25:21 +00:00
l.Debugln(c.id, "ping timeout", d)
c.close(ErrTimeout)
}
Implement facility based logger, debugging via REST API This implements a new debug/trace infrastructure based on a slightly hacked up logger. Instead of the traditional "if debug { ... }" I've rewritten the logger to have no-op Debugln and Debugf, unless debugging has been enabled for a given "facility". The "facility" is just a string, typically a package name. This will be slightly slower than before; but not that much as it's mostly a function call that returns immediately. For the cases where it matters (the Debugln takes a hex.Dump() of something for example, and it's not in a very occasional "if err != nil" branch) there is an l.ShouldDebug(facility) that is fast enough to be used like the old "if debug". The point of all this is that we can now toggle debugging for the various packages on and off at runtime. There's a new method /rest/system/debug that can be POSTed a set of facilities to enable and disable debug for, or GET from to get a list of facilities with descriptions and their current debug status. Similarly a /rest/system/log?since=... can grab the latest log entries, up to 250 of them (hardcoded constant in main.go) plus the initial few. Not implemented in this commit (but planned) is a simple debug GUI available on /debug that shows the current log in an easily pasteable format and has checkboxes to enable the various debug facilities. The debug instructions to a user then becomes "visit this URL, check these boxes, reproduce your problem, copy and paste the log". The actual log viewer on the hypothetical /debug URL can poll regularly for new log entries and this bypass the 250 line limit. The existing STTRACE=foo variable is still obeyed and just sets the start state of the system.
2015-10-03 15:25:21 +00:00
l.Debugln(c.id, "last read within", d)
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case <-c.closed:
return
}
}
}
type Statistics struct {
At time.Time
InBytesTotal int64
OutBytesTotal int64
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}
func (c *rawConnection) Statistics() Statistics {
return Statistics{
At: time.Now(),
InBytesTotal: c.cr.Tot(),
OutBytesTotal: c.cw.Tot(),
}
}
func (c *rawConnection) lz4Compress(src []byte) ([]byte, error) {
var err error
buf := buffers.get(len(src))
buf, err = lz4.Encode(buf, src)
if err != nil {
return nil, err
}
binary.BigEndian.PutUint32(buf, binary.LittleEndian.Uint32(buf))
return buf, nil
}
func (c *rawConnection) lz4Decompress(src []byte) ([]byte, error) {
size := binary.BigEndian.Uint32(src)
binary.LittleEndian.PutUint32(src, size)
var err error
buf := buffers.get(int(size))
buf, err = lz4.Decode(buf, src)
if err != nil {
return nil, err
}
return buf, nil
}