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channel.go
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channel.go
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// Copyright (c) 2015 Uber Technologies, Inc.
// Permission is hereby granted, free of charge, to any person obtaining a copy
// of this software and associated documentation files (the "Software"), to deal
// in the Software without restriction, including without limitation the rights
// to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
// copies of the Software, and to permit persons to whom the Software is
// furnished to do so, subject to the following conditions:
//
// The above copyright notice and this permission notice shall be included in
// all copies or substantial portions of the Software.
//
// THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
// IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
// FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
// AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
// LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
// OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN
// THE SOFTWARE.
package tchannel
import (
"errors"
"fmt"
"net"
"os"
"path/filepath"
"runtime"
"strings"
"sync"
"time"
"github.com/uber/tchannel-go/tnet"
"github.com/opentracing/opentracing-go"
"go.uber.org/atomic"
"golang.org/x/net/context"
)
var (
errAlreadyListening = errors.New("channel already listening")
errInvalidStateForOp = errors.New("channel is in an invalid state for that method")
errMaxIdleTimeNotSet = errors.New("IdleCheckInterval is set but MaxIdleTime is zero")
// ErrNoServiceName is returned when no service name is provided when
// creating a new channel.
ErrNoServiceName = errors.New("no service name provided")
)
const ephemeralHostPort = "0.0.0.0:0"
// ChannelOptions are used to control parameters on a create a TChannel
type ChannelOptions struct {
// Default Connection options
DefaultConnectionOptions ConnectionOptions
// The name of the process, for logging and reporting to peers
ProcessName string
// OnPeerStatusChanged is an optional callback that receives a notification
// whenever the channel establishes a usable connection to a peer, or loses
// a connection to a peer.
OnPeerStatusChanged func(*Peer)
// The logger to use for this channel
Logger Logger
// The host:port selection implementation to use for relaying. This is an
// unstable API - breaking changes are likely.
RelayHost RelayHost
// The list of service names that should be handled locally by this channel.
// This is an unstable API - breaking changes are likely.
RelayLocalHandlers []string
// The maximum allowable timeout for relayed calls (longer timeouts are
// clamped to this value). Passing zero uses the default of 2m.
// This is an unstable API - breaking changes are likely.
RelayMaxTimeout time.Duration
// If the relay needs to connect while processing a frame, this specifies
// the max connection timeout used.
RelayMaxConnectionTimeout time.Duration
// RelayMaxTombs is the maximum number of timed-out calls that the relay
// will keep track of per-connection to avoid spurious logs
// for late-arriving frames.
// This is an unstable API - breaking changes are likely.
RelayMaxTombs uint64
// RelayTimerVerification will disable pooling of relay timers, and instead
// verify that timers are not used once they are released.
// This is an unstable API - breaking changes are likely.
RelayTimerVerification bool
// The reporter to use for reporting stats for this channel.
StatsReporter StatsReporter
// TimeNow is a variable for overriding time.Now in unit tests.
// Note: This is not a stable part of the API and may change.
TimeNow func() time.Time
// TimeTicker is a variable for overriding time.Ticker in unit tests.
// Note: This is not a stable part of the API and may change.
TimeTicker func(d time.Duration) *time.Ticker
// MaxIdleTime controls how long we allow an idle connection to exist
// before tearing it down. Must be set to non-zero if IdleCheckInterval
// is set.
MaxIdleTime time.Duration
// IdleCheckInterval controls how often the channel runs a sweep over
// all active connections to see if they can be dropped. Connections that
// are idle for longer than MaxIdleTime are disconnected. If this is set to
// zero (the default), idle checking is disabled.
IdleCheckInterval time.Duration
// Tracer is an OpenTracing Tracer used to manage distributed tracing spans.
// If not set, opentracing.GlobalTracer() is used.
Tracer opentracing.Tracer
// Handler is an alternate handler for all inbound requests, overriding the
// default handler that delegates to a subchannel.
Handler Handler
// SkipHandlerMethods allow users to configure TChannel server such that
// requests with specified methods can be ignored by the above passed-in handler
// and handled natively by TChannel.
// Requests with other methods will be handled by passed-in handler.
// Methods should be in the format of Service::Method.
// This is useful for the gradual migration purpose.
SkipHandlerMethods []string
// Dialer is optional factory method which can be used for overriding
// outbound connections for things like TLS handshake
Dialer func(ctx context.Context, network, hostPort string) (net.Conn, error)
// ConnContext runs when a connection is established, which updates
// the per-connection base context. This context is used as the parent context
// for incoming calls.
ConnContext func(ctx context.Context, conn net.Conn) context.Context
}
// ChannelState is the state of a channel.
type ChannelState int
const (
// ChannelClient is a channel that can be used as a client.
ChannelClient ChannelState = iota + 1
// ChannelListening is a channel that is listening for new connnections.
ChannelListening
// ChannelStartClose is a channel that has received a Close request.
// The channel is no longer listening, and all new incoming connections are rejected.
ChannelStartClose
// ChannelInboundClosed is a channel that has drained all incoming connections, but may
// have outgoing connections. All incoming calls and new outgoing calls are rejected.
ChannelInboundClosed
// ChannelClosed is a channel that has closed completely.
ChannelClosed
)
//go:generate stringer -type=ChannelState
// A Channel is a bi-directional connection to the peering and routing network.
// Applications can use a Channel to make service calls to remote peers via
// BeginCall, or to listen for incoming calls from peers. Applications that
// want to receive requests should call one of Serve or ListenAndServe
// TODO(prashant): Shutdown all subchannels + peers when channel is closed.
type Channel struct {
channelConnectionCommon
chID uint32
createdStack string
commonStatsTags map[string]string
connectionOptions ConnectionOptions
peers *PeerList
relayHost RelayHost
relayMaxTimeout time.Duration
relayMaxConnTimeout time.Duration
relayMaxTombs uint64
relayTimerVerify bool
internalHandlers *handlerMap
handler Handler
onPeerStatusChanged func(*Peer)
dialer func(ctx context.Context, hostPort string) (net.Conn, error)
connContext func(ctx context.Context, conn net.Conn) context.Context
closed chan struct{}
// mutable contains all the members of Channel which are mutable.
mutable struct {
sync.RWMutex // protects members of the mutable struct.
state ChannelState
peerInfo LocalPeerInfo // May be ephemeral if this is a client only channel
l net.Listener // May be nil if this is a client only channel
idleSweep *idleSweep
conns map[uint32]*Connection
}
}
// channelConnectionCommon is the list of common objects that both use
// and can be copied directly from the channel to the connection.
type channelConnectionCommon struct {
log Logger
relayLocal map[string]struct{}
statsReporter StatsReporter
tracer opentracing.Tracer
subChannels *subChannelMap
timeNow func() time.Time
timeTicker func(time.Duration) *time.Ticker
}
// _nextChID is used to allocate unique IDs to every channel for debugging purposes.
var _nextChID atomic.Uint32
// Tracer returns the OpenTracing Tracer for this channel. If no tracer was provided
// in the configuration, returns opentracing.GlobalTracer(). Note that this approach
// allows opentracing.GlobalTracer() to be initialized _after_ the channel is created.
func (ccc channelConnectionCommon) Tracer() opentracing.Tracer {
if ccc.tracer != nil {
return ccc.tracer
}
return opentracing.GlobalTracer()
}
// NewChannel creates a new Channel. The new channel can be used to send outbound requests
// to peers, but will not listen or handling incoming requests until one of ListenAndServe
// or Serve is called. The local service name should be passed to serviceName.
func NewChannel(serviceName string, opts *ChannelOptions) (*Channel, error) {
if serviceName == "" {
return nil, ErrNoServiceName
}
if opts == nil {
opts = &ChannelOptions{}
}
processName := opts.ProcessName
if processName == "" {
processName = fmt.Sprintf("%s[%d]", filepath.Base(os.Args[0]), os.Getpid())
}
logger := opts.Logger
if logger == nil {
logger = NullLogger
}
statsReporter := opts.StatsReporter
if statsReporter == nil {
statsReporter = NullStatsReporter
}
timeNow := opts.TimeNow
if timeNow == nil {
timeNow = time.Now
}
timeTicker := opts.TimeTicker
if timeTicker == nil {
timeTicker = time.NewTicker
}
chID := _nextChID.Inc()
logger = logger.WithFields(
LogField{"serviceName", serviceName},
LogField{"process", processName},
LogField{"chID", chID},
)
if err := opts.validateIdleCheck(); err != nil {
return nil, err
}
// Default to dialContext if dialer is not passed in as an option
dialCtx := dialContext
if opts.Dialer != nil {
dialCtx = func(ctx context.Context, hostPort string) (net.Conn, error) {
return opts.Dialer(ctx, "tcp", hostPort)
}
}
if opts.ConnContext == nil {
opts.ConnContext = func(ctx context.Context, conn net.Conn) context.Context {
return ctx
}
}
ch := &Channel{
channelConnectionCommon: channelConnectionCommon{
log: logger,
relayLocal: toStringSet(opts.RelayLocalHandlers),
statsReporter: statsReporter,
subChannels: &subChannelMap{},
timeNow: timeNow,
timeTicker: timeTicker,
tracer: opts.Tracer,
},
chID: chID,
connectionOptions: opts.DefaultConnectionOptions.withDefaults(),
relayHost: opts.RelayHost,
relayMaxTimeout: validateRelayMaxTimeout(opts.RelayMaxTimeout, logger),
relayMaxConnTimeout: opts.RelayMaxConnectionTimeout,
relayMaxTombs: opts.RelayMaxTombs,
relayTimerVerify: opts.RelayTimerVerification,
dialer: dialCtx,
connContext: opts.ConnContext,
closed: make(chan struct{}),
}
ch.peers = newRootPeerList(ch, opts.OnPeerStatusChanged).newChild()
switch {
case len(opts.SkipHandlerMethods) > 0 && opts.Handler != nil:
sm, err := toServiceMethodSet(opts.SkipHandlerMethods)
if err != nil {
return nil, err
}
ch.handler = userHandlerWithSkip{
localHandler: channelHandler{ch},
ignoreUserHandler: sm,
userHandler: opts.Handler,
}
case opts.Handler != nil:
ch.handler = opts.Handler
default:
ch.handler = channelHandler{ch}
}
ch.mutable.peerInfo = LocalPeerInfo{
PeerInfo: PeerInfo{
ProcessName: processName,
HostPort: ephemeralHostPort,
IsEphemeral: true,
Version: PeerVersion{
Language: "go",
LanguageVersion: strings.TrimPrefix(runtime.Version(), "go"),
TChannelVersion: VersionInfo,
},
},
ServiceName: serviceName,
}
ch.mutable.state = ChannelClient
ch.mutable.conns = make(map[uint32]*Connection)
ch.createCommonStats()
ch.internalHandlers = ch.createInternalHandlers()
registerNewChannel(ch)
if opts.RelayHost != nil {
opts.RelayHost.SetChannel(ch)
}
// Start the idle connection timer.
ch.mutable.idleSweep = startIdleSweep(ch, opts)
return ch, nil
}
// ConnectionOptions returns the channel's connection options.
func (ch *Channel) ConnectionOptions() *ConnectionOptions {
return &ch.connectionOptions
}
// Serve serves incoming requests using the provided listener.
// The local peer info is set synchronously, but the actual socket listening is done in
// a separate goroutine.
func (ch *Channel) Serve(l net.Listener) error {
mutable := &ch.mutable
mutable.Lock()
defer mutable.Unlock()
if mutable.l != nil {
return errAlreadyListening
}
mutable.l = tnet.Wrap(l)
if mutable.state != ChannelClient {
return errInvalidStateForOp
}
mutable.state = ChannelListening
mutable.peerInfo.HostPort = l.Addr().String()
mutable.peerInfo.IsEphemeral = false
ch.log = ch.log.WithFields(LogField{"hostPort", mutable.peerInfo.HostPort})
ch.log.Info("Channel is listening.")
go ch.serve()
return nil
}
// ListenAndServe listens on the given address and serves incoming requests.
// The port may be 0, in which case the channel will use an OS assigned port
// This method does not block as the handling of connections is done in a goroutine.
func (ch *Channel) ListenAndServe(hostPort string) error {
mutable := &ch.mutable
mutable.RLock()
if mutable.l != nil {
mutable.RUnlock()
return errAlreadyListening
}
l, err := net.Listen("tcp", hostPort)
if err != nil {
mutable.RUnlock()
return err
}
mutable.RUnlock()
return ch.Serve(l)
}
// Registrar is the base interface for registering handlers on either the base
// Channel or the SubChannel
type Registrar interface {
// ServiceName returns the service name that this Registrar is for.
ServiceName() string
// Register registers a handler for ServiceName and the given method.
Register(h Handler, methodName string)
// Logger returns the logger for this Registrar.
Logger() Logger
// StatsReporter returns the stats reporter for this Registrar
StatsReporter() StatsReporter
// StatsTags returns the tags that should be used.
StatsTags() map[string]string
// Peers returns the peer list for this Registrar.
Peers() *PeerList
}
// Register registers a handler for a method.
//
// The handler is registered with the service name used when the Channel was
// created. To register a handler with a different service name, obtain a
// SubChannel for that service with GetSubChannel, and Register a handler
// under that. You may also use SetHandler on a SubChannel to set up a
// catch-all Handler for that service. See the docs for SetHandler for more
// information.
//
// Register panics if the channel was constructed with an alternate root
// handler that does not support Register.
func (ch *Channel) Register(h Handler, methodName string) {
r, ok := ch.handler.(registrar)
if !ok {
panic("can't register handler when channel configured with alternate root handler without Register method")
}
r.Register(h, methodName)
}
// PeerInfo returns the current peer info for the channel
func (ch *Channel) PeerInfo() LocalPeerInfo {
ch.mutable.RLock()
peerInfo := ch.mutable.peerInfo
ch.mutable.RUnlock()
return peerInfo
}
func (ch *Channel) createCommonStats() {
ch.commonStatsTags = map[string]string{
"app": ch.mutable.peerInfo.ProcessName,
"service": ch.mutable.peerInfo.ServiceName,
}
host, err := os.Hostname()
if err != nil {
ch.log.WithFields(ErrField(err)).Info("Channel creation failed to get host.")
return
}
ch.commonStatsTags["host"] = host
// TODO(prashant): Allow user to pass extra tags (such as cluster, version).
}
// GetSubChannel returns a SubChannel for the given service name. If the subchannel does not
// exist, it is created.
func (ch *Channel) GetSubChannel(serviceName string, opts ...SubChannelOption) *SubChannel {
sub, added := ch.subChannels.getOrAdd(serviceName, ch)
if added {
for _, opt := range opts {
opt(sub)
}
}
return sub
}
// Peers returns the PeerList for the channel.
func (ch *Channel) Peers() *PeerList {
return ch.peers
}
// RootPeers returns the root PeerList for the channel, which is the sole place
// new Peers are created. All children of the root list (including ch.Peers())
// automatically re-use peers from the root list and create new peers in the
// root list.
func (ch *Channel) RootPeers() *RootPeerList {
return ch.peers.parent
}
// BeginCall starts a new call to a remote peer, returning an OutboundCall that can
// be used to write the arguments of the call.
func (ch *Channel) BeginCall(ctx context.Context, hostPort, serviceName, methodName string, callOptions *CallOptions) (*OutboundCall, error) {
p := ch.RootPeers().GetOrAdd(hostPort)
return p.BeginCall(ctx, serviceName, methodName, callOptions)
}
// serve runs the listener to accept and manage new incoming connections, blocking
// until the channel is closed.
func (ch *Channel) serve() {
acceptBackoff := 0 * time.Millisecond
for {
netConn, err := ch.mutable.l.Accept()
if err != nil {
// Backoff from new accepts if this is a temporary error
if ne, ok := err.(net.Error); ok && ne.Temporary() {
if acceptBackoff == 0 {
acceptBackoff = 5 * time.Millisecond
} else {
acceptBackoff *= 2
}
if max := 1 * time.Second; acceptBackoff > max {
acceptBackoff = max
}
ch.log.WithFields(
ErrField(err),
LogField{"backoff", acceptBackoff},
).Warn("Accept error, will wait and retry.")
time.Sleep(acceptBackoff)
continue
} else {
// Only log an error if this didn't happen due to a Close.
if ch.State() >= ChannelStartClose {
return
}
ch.log.WithFields(ErrField(err)).Fatal("Unrecoverable accept error, closing server.")
return
}
}
acceptBackoff = 0
// Perform the connection handshake in a background goroutine.
go func() {
// Register the connection in the peer once the channel is set up.
events := connectionEvents{
OnActive: ch.inboundConnectionActive,
OnCloseStateChange: ch.connectionCloseStateChange,
OnExchangeUpdated: ch.exchangeUpdated,
}
if _, err := ch.inboundHandshake(context.Background(), netConn, events); err != nil {
netConn.Close()
}
}()
}
}
// Ping sends a ping message to the given hostPort and waits for a response.
func (ch *Channel) Ping(ctx context.Context, hostPort string) error {
peer := ch.RootPeers().GetOrAdd(hostPort)
conn, err := peer.GetConnection(ctx)
if err != nil {
return err
}
return conn.ping(ctx)
}
// Logger returns the logger for this channel.
func (ch *Channel) Logger() Logger {
return ch.log
}
// StatsReporter returns the stats reporter for this channel.
func (ch *Channel) StatsReporter() StatsReporter {
return ch.statsReporter
}
// StatsTags returns the common tags that should be used when reporting stats.
// It returns a new map for each call.
func (ch *Channel) StatsTags() map[string]string {
m := make(map[string]string)
for k, v := range ch.commonStatsTags {
m[k] = v
}
return m
}
// ServiceName returns the serviceName that this channel was created for.
func (ch *Channel) ServiceName() string {
return ch.PeerInfo().ServiceName
}
// Connect creates a new outbound connection to hostPort.
func (ch *Channel) Connect(ctx context.Context, hostPort string) (*Connection, error) {
switch state := ch.State(); state {
case ChannelClient, ChannelListening:
break
default:
ch.log.Debugf("Connect rejecting new connection as state is %v", state)
return nil, errInvalidStateForOp
}
// The context timeout applies to the whole call, but users may want a lower
// connect timeout (e.g. for streams).
if params := getTChannelParams(ctx); params != nil && params.connectTimeout > 0 {
var cancel context.CancelFunc
ctx, cancel = context.WithTimeout(ctx, params.connectTimeout)
defer cancel()
}
events := connectionEvents{
OnActive: ch.outboundConnectionActive,
OnCloseStateChange: ch.connectionCloseStateChange,
OnExchangeUpdated: ch.exchangeUpdated,
}
if err := ctx.Err(); err != nil {
return nil, GetContextError(err)
}
timeout := getTimeout(ctx)
tcpConn, err := ch.dialer(ctx, hostPort)
if err != nil {
if ne, ok := err.(net.Error); ok && ne.Timeout() {
ch.log.WithFields(
LogField{"remoteHostPort", hostPort},
LogField{"timeout", timeout},
).Info("Outbound net.Dial timed out.")
err = ErrTimeout
} else if ctx.Err() == context.Canceled {
ch.log.WithFields(
LogField{"remoteHostPort", hostPort},
).Info("Outbound net.Dial was cancelled.")
err = GetContextError(ErrRequestCancelled)
} else {
ch.log.WithFields(
ErrField(err),
LogField{"remoteHostPort", hostPort},
).Info("Outbound net.Dial failed.")
}
return nil, err
}
conn, err := ch.outboundHandshake(ctx, tcpConn, hostPort, events)
if conn != nil {
// It's possible that the connection we just created responds with a host:port
// that is not what we tried to connect to. E.g., we may have connected to
// 127.0.0.1:1234, but the returned host:port may be 10.0.0.1:1234.
// In this case, the connection won't be added to 127.0.0.1:1234 peer
// and so future calls to that peer may end up creating new connections. To
// avoid this issue, and to avoid clients being aware of any TCP relays, we
// add the connection to the intended peer.
if hostPort != conn.remotePeerInfo.HostPort {
conn.log.Debugf("Outbound connection host:port mismatch, adding to peer %v", conn.remotePeerInfo.HostPort)
ch.addConnectionToPeer(hostPort, conn, outbound)
}
}
return conn, err
}
// exchangeUpdated updates the peer heap.
func (ch *Channel) exchangeUpdated(c *Connection) {
if c.remotePeerInfo.HostPort == "" {
// Hostport is unknown until we get init resp.
return
}
p, ok := ch.RootPeers().Get(c.remotePeerInfo.HostPort)
if !ok {
return
}
ch.updatePeer(p)
}
// updatePeer updates the score of the peer and update it's position in heap as well.
func (ch *Channel) updatePeer(p *Peer) {
ch.peers.onPeerChange(p)
ch.subChannels.updatePeer(p)
p.callOnUpdateComplete()
}
// addConnection adds the connection to the channel's list of connection
// if the channel is in a valid state to accept this connection. It returns
// whether the connection was added.
func (ch *Channel) addConnection(c *Connection, direction connectionDirection) bool {
ch.mutable.Lock()
defer ch.mutable.Unlock()
if c.readState() != connectionActive {
return false
}
switch state := ch.mutable.state; state {
case ChannelClient, ChannelListening:
break
default:
return false
}
ch.mutable.conns[c.connID] = c
return true
}
func (ch *Channel) connectionActive(c *Connection, direction connectionDirection) {
c.log.Debugf("New active %v connection for peer %v", direction, c.remotePeerInfo.HostPort)
if added := ch.addConnection(c, direction); !added {
// The channel isn't in a valid state to accept this connection, close the connection.
c.close(LogField{"reason", "new active connection on closing channel"})
return
}
ch.addConnectionToPeer(c.remotePeerInfo.HostPort, c, direction)
}
func (ch *Channel) addConnectionToPeer(hostPort string, c *Connection, direction connectionDirection) {
p := ch.RootPeers().GetOrAdd(hostPort)
if err := p.addConnection(c, direction); err != nil {
c.log.WithFields(
LogField{"remoteHostPort", c.remotePeerInfo.HostPort},
LogField{"direction", direction},
ErrField(err),
).Warn("Failed to add connection to peer.")
}
ch.updatePeer(p)
}
func (ch *Channel) inboundConnectionActive(c *Connection) {
ch.connectionActive(c, inbound)
}
func (ch *Channel) outboundConnectionActive(c *Connection) {
ch.connectionActive(c, outbound)
}
// removeClosedConn removes a connection if it's closed.
// Until a connection is fully closed, the channel must keep track of it.
func (ch *Channel) removeClosedConn(c *Connection) {
if c.readState() != connectionClosed {
return
}
ch.mutable.Lock()
delete(ch.mutable.conns, c.connID)
ch.mutable.Unlock()
}
func (ch *Channel) getMinConnectionState() connectionState {
minState := connectionClosed
for _, c := range ch.mutable.conns {
if s := c.readState(); s < minState {
minState = s
}
}
return minState
}
// connectionCloseStateChange is called when a connection's close state changes.
func (ch *Channel) connectionCloseStateChange(c *Connection) {
ch.removeClosedConn(c)
if peer, ok := ch.RootPeers().Get(c.remotePeerInfo.HostPort); ok {
peer.connectionCloseStateChange(c)
ch.updatePeer(peer)
}
if c.outboundHP != "" && c.outboundHP != c.remotePeerInfo.HostPort {
// Outbound connections may be in multiple peers.
if peer, ok := ch.RootPeers().Get(c.outboundHP); ok {
peer.connectionCloseStateChange(c)
ch.updatePeer(peer)
}
}
chState := ch.State()
if chState != ChannelStartClose && chState != ChannelInboundClosed {
return
}
ch.mutable.RLock()
minState := ch.getMinConnectionState()
ch.mutable.RUnlock()
var updateTo ChannelState
if minState >= connectionClosed {
updateTo = ChannelClosed
} else if minState >= connectionInboundClosed && chState == ChannelStartClose {
updateTo = ChannelInboundClosed
}
var updatedToState ChannelState
if updateTo > 0 {
ch.mutable.Lock()
// Recheck the state as it's possible another goroutine changed the state
// from what we expected, and so we might make a stale change.
if ch.mutable.state == chState {
ch.mutable.state = updateTo
updatedToState = updateTo
}
ch.mutable.Unlock()
chState = updateTo
}
c.log.Debugf("ConnectionCloseStateChange channel state = %v connection minState = %v",
chState, minState)
if updatedToState == ChannelClosed {
ch.onClosed()
}
}
func (ch *Channel) onClosed() {
removeClosedChannel(ch)
close(ch.closed)
ch.log.Infof("Channel closed.")
}
// Closed returns whether this channel has been closed with .Close()
func (ch *Channel) Closed() bool {
return ch.State() == ChannelClosed
}
// ClosedChan returns a channel that will close when the Channel has completely
// closed.
func (ch *Channel) ClosedChan() <-chan struct{} {
return ch.closed
}
// State returns the current channel state.
func (ch *Channel) State() ChannelState {
ch.mutable.RLock()
state := ch.mutable.state
ch.mutable.RUnlock()
return state
}
// Close starts a graceful Close for the channel. This does not happen immediately:
// 1. This call closes the Listener and starts closing connections.
// 2. When all incoming connections are drained, the connection blocks new outgoing calls.
// 3. When all connections are drained, the channel's state is updated to Closed.
func (ch *Channel) Close() {
ch.Logger().Info("Channel.Close called.")
var connections []*Connection
var channelClosed bool
func() {
ch.mutable.Lock()
defer ch.mutable.Unlock()
if ch.mutable.state == ChannelClosed {
ch.Logger().Info("Channel already closed, skipping additional Close() calls")
return
}
if ch.mutable.l != nil {
ch.mutable.l.Close()
}
// Stop the idle connections timer.
ch.mutable.idleSweep.Stop()
ch.mutable.state = ChannelStartClose
if len(ch.mutable.conns) == 0 {
ch.mutable.state = ChannelClosed
channelClosed = true
}
for _, c := range ch.mutable.conns {
connections = append(connections, c)
}
}()
for _, c := range connections {
c.close(LogField{"reason", "channel closing"})
}
if channelClosed {
ch.onClosed()
}
}
// RelayHost returns the channel's RelayHost, if any.
func (ch *Channel) RelayHost() RelayHost {
return ch.relayHost
}
func (o *ChannelOptions) validateIdleCheck() error {
if o.IdleCheckInterval > 0 && o.MaxIdleTime <= 0 {
return errMaxIdleTimeNotSet
}
return nil
}
func toStringSet(ss []string) map[string]struct{} {
set := make(map[string]struct{}, len(ss))
for _, s := range ss {
set[s] = struct{}{}
}
return set
}
// take a list of service::method formatted string and make
// the map[service::method]struct{} set
func toServiceMethodSet(sms []string) (map[string]struct{}, error) {
set := map[string]struct{}{}
for _, sm := range sms {
if len(strings.Split(sm, "::")) != 2 {
return nil, fmt.Errorf("each %q value should be of service::Method format but got %q", "SkipHandlerMethods", sm)
}
set[sm] = struct{}{}
}
return set, nil
}