open-nomad/client/rpc.go

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package client
import (
"errors"
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"io"
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"net"
"net/rpc"
"strings"
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"time"
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metrics "github.com/armon/go-metrics"
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"github.com/hashicorp/consul/lib"
"github.com/hashicorp/go-msgpack/codec"
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"github.com/hashicorp/nomad/client/servers"
inmem "github.com/hashicorp/nomad/helper/codec"
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"github.com/hashicorp/nomad/helper/pool"
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"github.com/hashicorp/nomad/nomad/structs"
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"github.com/hashicorp/yamux"
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)
// rpcEndpoints holds the RPC endpoints
type rpcEndpoints struct {
ClientStats *ClientStats
CSIController *CSIController
FileSystem *FileSystem
Allocations *Allocations
Agent *Agent
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}
// ClientRPC is used to make a local, client only RPC call
func (c *Client) ClientRPC(method string, args interface{}, reply interface{}) error {
codec := &inmem.InmemCodec{
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Method: method,
Args: args,
Reply: reply,
}
if err := c.rpcServer.ServeRequest(codec); err != nil {
return err
}
return codec.Err
}
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// StreamingRpcHandler is used to make a local, client only streaming RPC
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// call.
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func (c *Client) StreamingRpcHandler(method string) (structs.StreamingRpcHandler, error) {
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return c.streamingRpcs.GetHandler(method)
}
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// RPC is used to forward an RPC call to a nomad server, or fail if no servers.
func (c *Client) RPC(method string, args interface{}, reply interface{}) error {
// Invoke the RPCHandler if it exists
if c.config.RPCHandler != nil {
return c.config.RPCHandler.RPC(method, args, reply)
}
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// This is subtle but we start measuring the time on the client side
// right at the time of the first request, vs. on the first retry as
// is done on the server side inside forward(). This is because the
// servers may already be applying the RPCHoldTimeout up there, so by
// starting the timer here we won't potentially double up the delay.
firstCheck := time.Now()
TRY:
server := c.servers.FindServer()
if server == nil {
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return noServersErr
}
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// Make the request.
rpcErr := c.connPool.RPC(c.Region(), server.Addr, c.RPCMajorVersion(), method, args, reply)
if rpcErr == nil {
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c.fireRpcRetryWatcher()
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return nil
}
// If shutting down, exit without logging the error
select {
case <-c.shutdownCh:
return nil
default:
}
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// Move off to another server, and see if we can retry.
c.rpcLogger.Error("error performing RPC to server", "error", rpcErr, "rpc", method, "server", server.Addr)
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c.servers.NotifyFailedServer(server)
if retry := canRetry(args, rpcErr); !retry {
return rpcErr
}
// We can wait a bit and retry!
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if time.Since(firstCheck) < c.config.RPCHoldTimeout {
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jitter := lib.RandomStagger(c.config.RPCHoldTimeout / structs.JitterFraction)
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select {
case <-time.After(jitter):
goto TRY
case <-c.shutdownCh:
}
}
return rpcErr
}
// canRetry returns true if the given situation is safe for a retry.
func canRetry(args interface{}, err error) bool {
// No leader errors are always safe to retry since no state could have
// been changed.
if structs.IsErrNoLeader(err) {
return true
}
// Reads are safe to retry for stream errors, such as if a server was
// being shut down.
info, ok := args.(structs.RPCInfo)
if ok && info.IsRead() && lib.IsErrEOF(err) {
return true
}
return false
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}
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// RemoteStreamingRpcHandler is used to make a streaming RPC call to a remote
// server.
func (c *Client) RemoteStreamingRpcHandler(method string) (structs.StreamingRpcHandler, error) {
server := c.servers.FindServer()
if server == nil {
return nil, noServersErr
}
conn, err := c.streamingRpcConn(server, method)
if err != nil {
// Move off to another server
c.rpcLogger.Error("error performing RPC to server", "error", err, "rpc", method, "server", server.Addr)
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c.servers.NotifyFailedServer(server)
return nil, err
}
return bridgedStreamingRpcHandler(conn), nil
}
// bridgedStreamingRpcHandler creates a bridged streaming RPC handler by copying
// data between the two sides.
func bridgedStreamingRpcHandler(sideA io.ReadWriteCloser) structs.StreamingRpcHandler {
return func(sideB io.ReadWriteCloser) {
defer sideA.Close()
defer sideB.Close()
structs.Bridge(sideA, sideB)
}
}
// streamingRpcConn is used to retrieve a connection to a server to conduct a
// streaming RPC.
func (c *Client) streamingRpcConn(server *servers.Server, method string) (net.Conn, error) {
// Dial the server
conn, err := net.DialTimeout("tcp", server.Addr.String(), 10*time.Second)
if err != nil {
return nil, err
}
// Cast to TCPConn
if tcp, ok := conn.(*net.TCPConn); ok {
tcp.SetKeepAlive(true)
tcp.SetNoDelay(true)
}
// Check if TLS is enabled
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c.tlsWrapLock.RLock()
tlsWrap := c.tlsWrap
c.tlsWrapLock.RUnlock()
if tlsWrap != nil {
// Switch the connection into TLS mode
if _, err := conn.Write([]byte{byte(pool.RpcTLS)}); err != nil {
conn.Close()
return nil, err
}
// Wrap the connection in a TLS client
tlsConn, err := tlsWrap(c.Region(), conn)
if err != nil {
conn.Close()
return nil, err
}
conn = tlsConn
}
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// Write the multiplex byte to set the mode
if _, err := conn.Write([]byte{byte(pool.RpcStreaming)}); err != nil {
conn.Close()
return nil, err
}
// Send the header
encoder := codec.NewEncoder(conn, structs.MsgpackHandle)
decoder := codec.NewDecoder(conn, structs.MsgpackHandle)
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header := structs.StreamingRpcHeader{
Method: method,
}
if err := encoder.Encode(header); err != nil {
conn.Close()
return nil, err
}
// Wait for the acknowledgement
var ack structs.StreamingRpcAck
if err := decoder.Decode(&ack); err != nil {
conn.Close()
return nil, err
}
if ack.Error != "" {
conn.Close()
return nil, errors.New(ack.Error)
}
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return conn, nil
}
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// setupClientRpc is used to setup the Client's RPC endpoints
func (c *Client) setupClientRpc() {
// Initialize the RPC handlers
c.endpoints.ClientStats = &ClientStats{c}
c.endpoints.CSIController = &CSIController{c}
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c.endpoints.FileSystem = NewFileSystemEndpoint(c)
c.endpoints.Allocations = NewAllocationsEndpoint(c)
c.endpoints.Agent = NewAgentEndpoint(c)
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// Create the RPC Server
c.rpcServer = rpc.NewServer()
// Register the endpoints with the RPC server
c.setupClientRpcServer(c.rpcServer)
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go c.rpcConnListener()
}
// setupClientRpcServer is used to populate a client RPC server with endpoints.
func (c *Client) setupClientRpcServer(server *rpc.Server) {
// Register the endpoints
server.Register(c.endpoints.ClientStats)
server.Register(c.endpoints.CSIController)
server.Register(c.endpoints.FileSystem)
server.Register(c.endpoints.Allocations)
server.Register(c.endpoints.Agent)
}
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// rpcConnListener is a long lived function that listens for new connections
// being made on the connection pool and starts an RPC listener for each
// connection.
func (c *Client) rpcConnListener() {
// Make a channel for new connections.
conns := make(chan *yamux.Session, 4)
c.connPool.SetConnListener(conns)
for {
select {
case <-c.shutdownCh:
return
case session, ok := <-conns:
if !ok {
continue
}
go c.listenConn(session)
}
}
}
// listenConn is used to listen for connections being made from the server on
// pre-existing connection. This should be called in a goroutine.
func (c *Client) listenConn(s *yamux.Session) {
for {
conn, err := s.Accept()
if err != nil {
if s.IsClosed() {
return
}
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c.rpcLogger.Error("failed to accept RPC conn", "error", err)
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continue
}
go c.handleConn(conn)
metrics.IncrCounter([]string{"client", "rpc", "accept_conn"}, 1)
}
}
// handleConn is used to determine if this is a RPC or Streaming RPC connection and
// invoke the correct handler
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func (c *Client) handleConn(conn net.Conn) {
// Read a single byte
buf := make([]byte, 1)
if _, err := conn.Read(buf); err != nil {
if err != io.EOF {
c.rpcLogger.Error("error reading byte", "error", err)
}
conn.Close()
return
}
// Switch on the byte
switch pool.RPCType(buf[0]) {
case pool.RpcNomad:
c.handleNomadConn(conn)
case pool.RpcStreaming:
c.handleStreamingConn(conn)
default:
c.rpcLogger.Error("unrecognized RPC byte", "byte", buf[0])
conn.Close()
return
}
}
// handleNomadConn is used to handle a single Nomad RPC connection.
func (c *Client) handleNomadConn(conn net.Conn) {
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defer conn.Close()
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rpcCodec := pool.NewServerCodec(conn)
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for {
select {
case <-c.shutdownCh:
return
default:
}
if err := c.rpcServer.ServeRequest(rpcCodec); err != nil {
if err != io.EOF && !strings.Contains(err.Error(), "closed") {
c.rpcLogger.Error("error performing RPC", "error", err, "addr", conn.RemoteAddr())
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metrics.IncrCounter([]string{"client", "rpc", "request_error"}, 1)
}
return
}
metrics.IncrCounter([]string{"client", "rpc", "request"}, 1)
}
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}
// handleStreamingConn is used to handle a single Streaming Nomad RPC connection.
func (c *Client) handleStreamingConn(conn net.Conn) {
defer conn.Close()
// Decode the header
var header structs.StreamingRpcHeader
decoder := codec.NewDecoder(conn, structs.MsgpackHandle)
if err := decoder.Decode(&header); err != nil {
if err != io.EOF && !strings.Contains(err.Error(), "closed") {
c.rpcLogger.Error("error performing streaming RPC", "error", err, "addr", conn.RemoteAddr())
metrics.IncrCounter([]string{"client", "streaming_rpc", "request_error"}, 1)
}
return
}
ack := structs.StreamingRpcAck{}
handler, err := c.streamingRpcs.GetHandler(header.Method)
if err != nil {
c.rpcLogger.Error("streaming RPC error", "addr", conn.RemoteAddr(), "error", err)
metrics.IncrCounter([]string{"client", "streaming_rpc", "request_error"}, 1)
ack.Error = err.Error()
}
// Send the acknowledgement
encoder := codec.NewEncoder(conn, structs.MsgpackHandle)
if err := encoder.Encode(ack); err != nil {
conn.Close()
return
}
if ack.Error != "" {
return
}
// Invoke the handler
metrics.IncrCounter([]string{"client", "streaming_rpc", "request"}, 1)
handler(conn)
}
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// resolveServer given a sever's address as a string, return it's resolved
// net.Addr or an error.
func resolveServer(s string) (net.Addr, error) {
const defaultClientPort = "4647" // default client RPC port
host, port, err := net.SplitHostPort(s)
if err != nil {
if strings.Contains(err.Error(), "missing port") {
host = s
port = defaultClientPort
} else {
return nil, err
}
}
return net.ResolveTCPAddr("tcp", net.JoinHostPort(host, port))
}
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// Ping is used to ping a particular server and returns whether it is healthy or
// a potential error.
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func (c *Client) Ping(srv net.Addr) error {
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var reply struct{}
err := c.connPool.RPC(c.Region(), srv, c.RPCMajorVersion(), "Status.Ping", struct{}{}, &reply)
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return err
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}
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// rpcRetryWatcher returns a channel that will be closed if an event happens
// such that we expect the next RPC to be successful.
func (c *Client) rpcRetryWatcher() <-chan struct{} {
c.rpcRetryLock.Lock()
defer c.rpcRetryLock.Unlock()
if c.rpcRetryCh == nil {
c.rpcRetryCh = make(chan struct{})
}
return c.rpcRetryCh
}
// fireRpcRetryWatcher causes any RPC retryloops to retry their RPCs because we
// believe the will be successful.
func (c *Client) fireRpcRetryWatcher() {
c.rpcRetryLock.Lock()
defer c.rpcRetryLock.Unlock()
if c.rpcRetryCh != nil {
close(c.rpcRetryCh)
c.rpcRetryCh = nil
}
}