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net_transport.go
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net_transport.go
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package raft
import (
"bufio"
"context"
"errors"
"fmt"
"github.com/hashicorp/go-hclog"
"io"
"net"
"os"
"sync"
"time"
"github.com/hashicorp/go-msgpack/codec"
)
const (
rpcAppendEntries uint8 = iota
rpcRequestVote
rpcInstallSnapshot
rpcTimeoutNow
// DefaultTimeoutScale is the default TimeoutScale in a NetworkTransport.
DefaultTimeoutScale = 256 * 1024 // 256KB
// rpcMaxPipeline controls the maximum number of outstanding
// AppendEntries RPC calls.
rpcMaxPipeline = 128
)
var (
// ErrTransportShutdown is returned when operations on a transport are
// invoked after it's been terminated.
ErrTransportShutdown = errors.New("transport shutdown")
// ErrPipelineShutdown is returned when the pipeline is closed.
ErrPipelineShutdown = errors.New("append pipeline closed")
)
/*
NetworkTransport provides a network based transport that can be
used to communicate with Raft on remote machines. It requires
an underlying stream layer to provide a stream abstraction, which can
be simple TCP, TLS, etc.
This transport is very simple and lightweight. Each RPC request is
framed by sending a byte that indicates the message type, followed
by the MsgPack encoded request.
The response is an error string followed by the response object,
both are encoded using MsgPack.
InstallSnapshot is special, in that after the RPC request we stream
the entire state. That socket is not re-used as the connection state
is not known if there is an error.
*/
type NetworkTransport struct {
connPool map[ServerAddress][]*netConn
connPoolLock sync.Mutex
consumeCh chan RPC
heartbeatFn func(RPC)
heartbeatFnLock sync.Mutex
logger hclog.Logger
maxPool int
serverAddressProvider ServerAddressProvider
shutdown bool
shutdownCh chan struct{}
shutdownLock sync.Mutex
stream StreamLayer
// streamCtx is used to cancel existing connection handlers.
streamCtx context.Context
streamCancel context.CancelFunc
streamCtxLock sync.RWMutex
timeout time.Duration
TimeoutScale int
}
// NetworkTransportConfig encapsulates configuration for the network transport layer.
type NetworkTransportConfig struct {
// ServerAddressProvider is used to override the target address when establishing a connection to invoke an RPC
ServerAddressProvider ServerAddressProvider
Logger hclog.Logger
// Dialer
Stream StreamLayer
// MaxPool controls how many connections we will pool
MaxPool int
// Timeout is used to apply I/O deadlines. For InstallSnapshot, we multiply
// the timeout by (SnapshotSize / TimeoutScale).
Timeout time.Duration
}
// ServerAddressProvider is a target address to which we invoke an RPC when establishing a connection
type ServerAddressProvider interface {
ServerAddr(id ServerID) (ServerAddress, error)
}
// StreamLayer is used with the NetworkTransport to provide
// the low level stream abstraction.
type StreamLayer interface {
net.Listener
// Dial is used to create a new outgoing connection
Dial(address ServerAddress, timeout time.Duration) (net.Conn, error)
}
type netConn struct {
target ServerAddress
conn net.Conn
r *bufio.Reader
w *bufio.Writer
dec *codec.Decoder
enc *codec.Encoder
}
func (n *netConn) Release() error {
return n.conn.Close()
}
type netPipeline struct {
conn *netConn
trans *NetworkTransport
doneCh chan AppendFuture
inprogressCh chan *appendFuture
shutdown bool
shutdownCh chan struct{}
shutdownLock sync.Mutex
}
// NewNetworkTransportWithConfig creates a new network transport with the given config struct
func NewNetworkTransportWithConfig(
config *NetworkTransportConfig,
) *NetworkTransport {
if config.Logger == nil {
config.Logger = hclog.New(&hclog.LoggerOptions{
Name: "raft-net",
Output: hclog.DefaultOutput,
Level: hclog.DefaultLevel,
})
}
trans := &NetworkTransport{
connPool: make(map[ServerAddress][]*netConn),
consumeCh: make(chan RPC),
logger: config.Logger,
maxPool: config.MaxPool,
shutdownCh: make(chan struct{}),
stream: config.Stream,
timeout: config.Timeout,
TimeoutScale: DefaultTimeoutScale,
serverAddressProvider: config.ServerAddressProvider,
}
// Create the connection context and then start our listener.
trans.setupStreamContext()
go trans.listen()
return trans
}
// NewNetworkTransport creates a new network transport with the given dialer
// and listener. The maxPool controls how many connections we will pool. The
// timeout is used to apply I/O deadlines. For InstallSnapshot, we multiply
// the timeout by (SnapshotSize / TimeoutScale).
func NewNetworkTransport(
stream StreamLayer,
maxPool int,
timeout time.Duration,
logOutput io.Writer,
) *NetworkTransport {
if logOutput == nil {
logOutput = os.Stderr
}
logger := hclog.New(&hclog.LoggerOptions{
Name: "raft-net",
Output: logOutput,
Level: hclog.DefaultLevel,
})
config := &NetworkTransportConfig{Stream: stream, MaxPool: maxPool, Timeout: timeout, Logger: logger}
return NewNetworkTransportWithConfig(config)
}
// NewNetworkTransportWithLogger creates a new network transport with the given logger, dialer
// and listener. The maxPool controls how many connections we will pool. The
// timeout is used to apply I/O deadlines. For InstallSnapshot, we multiply
// the timeout by (SnapshotSize / TimeoutScale).
func NewNetworkTransportWithLogger(
stream StreamLayer,
maxPool int,
timeout time.Duration,
logger hclog.Logger,
) *NetworkTransport {
config := &NetworkTransportConfig{Stream: stream, MaxPool: maxPool, Timeout: timeout, Logger: logger}
return NewNetworkTransportWithConfig(config)
}
// setupStreamContext is used to create a new stream context. This should be
// called with the stream lock held.
func (n *NetworkTransport) setupStreamContext() {
ctx, cancel := context.WithCancel(context.Background())
n.streamCtx = ctx
n.streamCancel = cancel
}
// getStreamContext is used retrieve the current stream context.
func (n *NetworkTransport) getStreamContext() context.Context {
n.streamCtxLock.RLock()
defer n.streamCtxLock.RUnlock()
return n.streamCtx
}
// SetHeartbeatHandler is used to setup a heartbeat handler
// as a fast-pass. This is to avoid head-of-line blocking from
// disk IO.
func (n *NetworkTransport) SetHeartbeatHandler(cb func(rpc RPC)) {
n.heartbeatFnLock.Lock()
defer n.heartbeatFnLock.Unlock()
n.heartbeatFn = cb
}
// CloseStreams closes the current streams.
func (n *NetworkTransport) CloseStreams() {
n.connPoolLock.Lock()
defer n.connPoolLock.Unlock()
// Close all the connections in the connection pool and then remove their
// entry.
for k, e := range n.connPool {
for _, conn := range e {
conn.Release()
}
delete(n.connPool, k)
}
// Cancel the existing connections and create a new context. Both these
// operations must always be done with the lock held otherwise we can create
// connection handlers that are holding a context that will never be
// cancelable.
n.streamCtxLock.Lock()
n.streamCancel()
n.setupStreamContext()
n.streamCtxLock.Unlock()
}
// Close is used to stop the network transport.
func (n *NetworkTransport) Close() error {
n.shutdownLock.Lock()
defer n.shutdownLock.Unlock()
if !n.shutdown {
close(n.shutdownCh)
n.stream.Close()
n.shutdown = true
}
return nil
}
// Consumer implements the Transport interface.
func (n *NetworkTransport) Consumer() <-chan RPC {
return n.consumeCh
}
// LocalAddr implements the Transport interface.
func (n *NetworkTransport) LocalAddr() ServerAddress {
return ServerAddress(n.stream.Addr().String())
}
// IsShutdown is used to check if the transport is shutdown.
func (n *NetworkTransport) IsShutdown() bool {
select {
case <-n.shutdownCh:
return true
default:
return false
}
}
// getExistingConn is used to grab a pooled connection.
func (n *NetworkTransport) getPooledConn(target ServerAddress) *netConn {
n.connPoolLock.Lock()
defer n.connPoolLock.Unlock()
conns, ok := n.connPool[target]
if !ok || len(conns) == 0 {
return nil
}
var conn *netConn
num := len(conns)
conn, conns[num-1] = conns[num-1], nil
n.connPool[target] = conns[:num-1]
return conn
}
// getConnFromAddressProvider returns a connection from the server address provider if available, or defaults to a connection using the target server address
func (n *NetworkTransport) getConnFromAddressProvider(id ServerID, target ServerAddress) (*netConn, error) {
address := n.getProviderAddressOrFallback(id, target)
return n.getConn(address)
}
func (n *NetworkTransport) getProviderAddressOrFallback(id ServerID, target ServerAddress) ServerAddress {
if n.serverAddressProvider != nil {
serverAddressOverride, err := n.serverAddressProvider.ServerAddr(id)
if err != nil {
n.logger.Warn("unable to get address for server, using fallback address", "id", id, "fallback", target, "error", err)
} else {
return serverAddressOverride
}
}
return target
}
// getConn is used to get a connection from the pool.
func (n *NetworkTransport) getConn(target ServerAddress) (*netConn, error) {
// Check for a pooled conn
if conn := n.getPooledConn(target); conn != nil {
return conn, nil
}
// Dial a new connection
conn, err := n.stream.Dial(target, n.timeout)
if err != nil {
return nil, err
}
// Wrap the conn
netConn := &netConn{
target: target,
conn: conn,
r: bufio.NewReader(conn),
w: bufio.NewWriter(conn),
}
// Setup encoder/decoders
netConn.dec = codec.NewDecoder(netConn.r, &codec.MsgpackHandle{})
netConn.enc = codec.NewEncoder(netConn.w, &codec.MsgpackHandle{})
// Done
return netConn, nil
}
// returnConn returns a connection back to the pool.
func (n *NetworkTransport) returnConn(conn *netConn) {
n.connPoolLock.Lock()
defer n.connPoolLock.Unlock()
key := conn.target
conns, _ := n.connPool[key]
if !n.IsShutdown() && len(conns) < n.maxPool {
n.connPool[key] = append(conns, conn)
} else {
conn.Release()
}
}
// AppendEntriesPipeline returns an interface that can be used to pipeline
// AppendEntries requests.
func (n *NetworkTransport) AppendEntriesPipeline(id ServerID, target ServerAddress) (AppendPipeline, error) {
// Get a connection
conn, err := n.getConnFromAddressProvider(id, target)
if err != nil {
return nil, err
}
// Create the pipeline
return newNetPipeline(n, conn), nil
}
// AppendEntries implements the Transport interface.
func (n *NetworkTransport) AppendEntries(id ServerID, target ServerAddress, args *AppendEntriesRequest, resp *AppendEntriesResponse) error {
return n.genericRPC(id, target, rpcAppendEntries, args, resp)
}
// RequestVote implements the Transport interface.
func (n *NetworkTransport) RequestVote(id ServerID, target ServerAddress, args *RequestVoteRequest, resp *RequestVoteResponse) error {
return n.genericRPC(id, target, rpcRequestVote, args, resp)
}
// genericRPC handles a simple request/response RPC.
func (n *NetworkTransport) genericRPC(id ServerID, target ServerAddress, rpcType uint8, args interface{}, resp interface{}) error {
// Get a conn
conn, err := n.getConnFromAddressProvider(id, target)
if err != nil {
return err
}
// Set a deadline
if n.timeout > 0 {
conn.conn.SetDeadline(time.Now().Add(n.timeout))
}
// Send the RPC
if err = sendRPC(conn, rpcType, args); err != nil {
return err
}
// Decode the response
canReturn, err := decodeResponse(conn, resp)
if canReturn {
n.returnConn(conn)
}
return err
}
// InstallSnapshot implements the Transport interface.
func (n *NetworkTransport) InstallSnapshot(id ServerID, target ServerAddress, args *InstallSnapshotRequest, resp *InstallSnapshotResponse, data io.Reader) error {
// Get a conn, always close for InstallSnapshot
conn, err := n.getConnFromAddressProvider(id, target)
if err != nil {
return err
}
defer conn.Release()
// Set a deadline, scaled by request size
if n.timeout > 0 {
timeout := n.timeout * time.Duration(args.Size/int64(n.TimeoutScale))
if timeout < n.timeout {
timeout = n.timeout
}
conn.conn.SetDeadline(time.Now().Add(timeout))
}
// Send the RPC
if err = sendRPC(conn, rpcInstallSnapshot, args); err != nil {
return err
}
// Stream the state
if _, err = io.Copy(conn.w, data); err != nil {
return err
}
// Flush
if err = conn.w.Flush(); err != nil {
return err
}
// Decode the response, do not return conn
_, err = decodeResponse(conn, resp)
return err
}
// EncodePeer implements the Transport interface.
func (n *NetworkTransport) EncodePeer(id ServerID, p ServerAddress) []byte {
address := n.getProviderAddressOrFallback(id, p)
return []byte(address)
}
// DecodePeer implements the Transport interface.
func (n *NetworkTransport) DecodePeer(buf []byte) ServerAddress {
return ServerAddress(buf)
}
// TimeoutNow implements the Transport interface.
func (n *NetworkTransport) TimeoutNow(id ServerID, target ServerAddress, args *TimeoutNowRequest, resp *TimeoutNowResponse) error {
return n.genericRPC(id, target, rpcTimeoutNow, args, resp)
}
// listen is used to handling incoming connections.
func (n *NetworkTransport) listen() {
const baseDelay = 5 * time.Millisecond
const maxDelay = 1 * time.Second
var loopDelay time.Duration
for {
// Accept incoming connections
conn, err := n.stream.Accept()
if err != nil {
if loopDelay == 0 {
loopDelay = baseDelay
} else {
loopDelay *= 2
}
if loopDelay > maxDelay {
loopDelay = maxDelay
}
if !n.IsShutdown() {
n.logger.Error("failed to accept connection", "error", err)
}
select {
case <-n.shutdownCh:
return
case <-time.After(loopDelay):
continue
}
}
// No error, reset loop delay
loopDelay = 0
n.logger.Debug("accepted connection", "local-address", n.LocalAddr(), "remote-address", conn.RemoteAddr().String())
// Handle the connection in dedicated routine
go n.handleConn(n.getStreamContext(), conn)
}
}
// handleConn is used to handle an inbound connection for its lifespan. The
// handler will exit when the passed context is cancelled or the connection is
// closed.
func (n *NetworkTransport) handleConn(connCtx context.Context, conn net.Conn) {
defer conn.Close()
r := bufio.NewReader(conn)
w := bufio.NewWriter(conn)
dec := codec.NewDecoder(r, &codec.MsgpackHandle{})
enc := codec.NewEncoder(w, &codec.MsgpackHandle{})
for {
select {
case <-connCtx.Done():
n.logger.Debug("stream layer is closed")
return
default:
}
if err := n.handleCommand(r, dec, enc); err != nil {
if err != io.EOF {
n.logger.Error("failed to decode incoming command", "error", err)
}
return
}
if err := w.Flush(); err != nil {
n.logger.Error("failed to flush response", "error", err)
return
}
}
}
// handleCommand is used to decode and dispatch a single command.
func (n *NetworkTransport) handleCommand(r *bufio.Reader, dec *codec.Decoder, enc *codec.Encoder) error {
// Get the rpc type
rpcType, err := r.ReadByte()
if err != nil {
return err
}
// Create the RPC object
respCh := make(chan RPCResponse, 1)
rpc := RPC{
RespChan: respCh,
}
// Decode the command
isHeartbeat := false
switch rpcType {
case rpcAppendEntries:
var req AppendEntriesRequest
if err := dec.Decode(&req); err != nil {
return err
}
rpc.Command = &req
// Check if this is a heartbeat
if req.Term != 0 && req.Leader != nil &&
req.PrevLogEntry == 0 && req.PrevLogTerm == 0 &&
len(req.Entries) == 0 && req.LeaderCommitIndex == 0 {
isHeartbeat = true
}
case rpcRequestVote:
var req RequestVoteRequest
if err := dec.Decode(&req); err != nil {
return err
}
rpc.Command = &req
case rpcInstallSnapshot:
var req InstallSnapshotRequest
if err := dec.Decode(&req); err != nil {
return err
}
rpc.Command = &req
rpc.Reader = io.LimitReader(r, req.Size)
case rpcTimeoutNow:
var req TimeoutNowRequest
if err := dec.Decode(&req); err != nil {
return err
}
rpc.Command = &req
default:
return fmt.Errorf("unknown rpc type %d", rpcType)
}
// Check for heartbeat fast-path
if isHeartbeat {
n.heartbeatFnLock.Lock()
fn := n.heartbeatFn
n.heartbeatFnLock.Unlock()
if fn != nil {
fn(rpc)
goto RESP
}
}
// Dispatch the RPC
select {
case n.consumeCh <- rpc:
case <-n.shutdownCh:
return ErrTransportShutdown
}
// Wait for response
RESP:
select {
case resp := <-respCh:
// Send the error first
respErr := ""
if resp.Error != nil {
respErr = resp.Error.Error()
}
if err := enc.Encode(respErr); err != nil {
return err
}
// Send the response
if err := enc.Encode(resp.Response); err != nil {
return err
}
case <-n.shutdownCh:
return ErrTransportShutdown
}
return nil
}
// decodeResponse is used to decode an RPC response and reports whether
// the connection can be reused.
func decodeResponse(conn *netConn, resp interface{}) (bool, error) {
// Decode the error if any
var rpcError string
if err := conn.dec.Decode(&rpcError); err != nil {
conn.Release()
return false, err
}
// Decode the response
if err := conn.dec.Decode(resp); err != nil {
conn.Release()
return false, err
}
// Format an error if any
if rpcError != "" {
return true, fmt.Errorf(rpcError)
}
return true, nil
}
// sendRPC is used to encode and send the RPC.
func sendRPC(conn *netConn, rpcType uint8, args interface{}) error {
// Write the request type
if err := conn.w.WriteByte(rpcType); err != nil {
conn.Release()
return err
}
// Send the request
if err := conn.enc.Encode(args); err != nil {
conn.Release()
return err
}
// Flush
if err := conn.w.Flush(); err != nil {
conn.Release()
return err
}
return nil
}
// newNetPipeline is used to construct a netPipeline from a given
// transport and connection.
func newNetPipeline(trans *NetworkTransport, conn *netConn) *netPipeline {
n := &netPipeline{
conn: conn,
trans: trans,
doneCh: make(chan AppendFuture, rpcMaxPipeline),
inprogressCh: make(chan *appendFuture, rpcMaxPipeline),
shutdownCh: make(chan struct{}),
}
go n.decodeResponses()
return n
}
// decodeResponses is a long running routine that decodes the responses
// sent on the connection.
func (n *netPipeline) decodeResponses() {
timeout := n.trans.timeout
for {
select {
case future := <-n.inprogressCh:
if timeout > 0 {
n.conn.conn.SetReadDeadline(time.Now().Add(timeout))
}
_, err := decodeResponse(n.conn, future.resp)
future.respond(err)
select {
case n.doneCh <- future:
case <-n.shutdownCh:
return
}
case <-n.shutdownCh:
return
}
}
}
// AppendEntries is used to pipeline a new append entries request.
func (n *netPipeline) AppendEntries(args *AppendEntriesRequest, resp *AppendEntriesResponse) (AppendFuture, error) {
// Create a new future
future := &appendFuture{
start: time.Now(),
args: args,
resp: resp,
}
future.init()
// Add a send timeout
if timeout := n.trans.timeout; timeout > 0 {
n.conn.conn.SetWriteDeadline(time.Now().Add(timeout))
}
// Send the RPC
if err := sendRPC(n.conn, rpcAppendEntries, future.args); err != nil {
return nil, err
}
// Hand-off for decoding, this can also cause back-pressure
// to prevent too many inflight requests
select {
case n.inprogressCh <- future:
return future, nil
case <-n.shutdownCh:
return nil, ErrPipelineShutdown
}
}
// Consumer returns a channel that can be used to consume complete futures.
func (n *netPipeline) Consumer() <-chan AppendFuture {
return n.doneCh
}
// Closed is used to shutdown the pipeline connection.
func (n *netPipeline) Close() error {
n.shutdownLock.Lock()
defer n.shutdownLock.Unlock()
if n.shutdown {
return nil
}
// Release the connection
n.conn.Release()
n.shutdown = true
close(n.shutdownCh)
return nil
}