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connection_maker.go
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connection_maker.go
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package mesh
import (
"fmt"
"math/rand"
"net"
"time"
"unicode"
)
const (
initialInterval = 2 * time.Second
maxInterval = 6 * time.Minute
resetAfter = 1 * time.Minute
)
type peerAddrs map[string]*net.TCPAddr
// ConnectionMaker initiates and manages connections to peers.
type connectionMaker struct {
ourself *localPeer
peers *Peers
localAddr string
port int
discovery bool
targets map[string]*target
connections map[Connection]struct{}
directPeers peerAddrs
terminationCount int
actionChan chan<- connectionMakerAction
logger Logger
}
// TargetState describes the connection state of a remote target.
type targetState int
const (
targetWaiting targetState = iota
targetAttempting
targetConnected
targetSuspended
)
// Information about an address where we may find a peer.
type target struct {
state targetState
lastError error // reason for disconnection last time
tryAfter time.Time // next time to try this address
tryInterval time.Duration // retry delay on next failure
}
// The actor closure used by ConnectionMaker. If an action returns true, the
// ConnectionMaker will check the state of its targets, and reconnect to
// relevant candidates.
type connectionMakerAction func() bool
// newConnectionMaker returns a usable ConnectionMaker, seeded with
// peers, making outbound connections from localAddr, and listening on
// port. If discovery is true, ConnectionMaker will attempt to
// initiate new connections with peers it's not directly connected to.
func newConnectionMaker(ourself *localPeer, peers *Peers, localAddr string, port int, discovery bool, logger Logger) *connectionMaker {
actionChan := make(chan connectionMakerAction, ChannelSize)
cm := &connectionMaker{
ourself: ourself,
peers: peers,
localAddr: localAddr,
port: port,
discovery: discovery,
directPeers: peerAddrs{},
targets: make(map[string]*target),
connections: make(map[Connection]struct{}),
actionChan: actionChan,
logger: logger,
}
go cm.queryLoop(actionChan)
return cm
}
// InitiateConnections creates new connections to the provided peers,
// specified in host:port format. If replace is true, any existing direct
// peers are forgotten.
//
// TODO(pb): Weave Net invokes router.ConnectionMaker.InitiateConnections;
// it may be better to provide that on Router directly.
func (cm *connectionMaker) InitiateConnections(peers []string, replace bool) []error {
errors := []error{}
addrs := peerAddrs{}
for _, peer := range peers {
host, port, err := net.SplitHostPort(peer)
if err != nil {
host = peer
port = "0" // we use that as an indication that "no port was supplied"
}
if host == "" || !isAlnum(port) {
errors = append(errors, fmt.Errorf("invalid peer name %q, should be host[:port]", peer))
} else if addr, err := net.ResolveTCPAddr("tcp", fmt.Sprintf("%s:%s", host, port)); err != nil {
errors = append(errors, err)
} else {
addrs[peer] = addr
}
}
cm.actionChan <- func() bool {
if replace {
cm.directPeers = peerAddrs{}
}
for peer, addr := range addrs {
cm.directPeers[peer] = addr
// curtail any existing reconnect interval
if target, found := cm.targets[cm.completeAddr(*addr)]; found {
target.nextTryNow()
}
}
return true
}
return errors
}
func isAlnum(s string) bool {
for _, c := range s {
if !unicode.In(c, unicode.Letter, unicode.Digit) {
return false
}
}
return true
}
// ForgetConnections removes direct connections to the provided peers,
// specified in host:port format.
//
// TODO(pb): Weave Net invokes router.ConnectionMaker.ForgetConnections;
// it may be better to provide that on Router directly.
func (cm *connectionMaker) ForgetConnections(peers []string) {
cm.actionChan <- func() bool {
for _, peer := range peers {
delete(cm.directPeers, peer)
}
return true
}
}
// Targets takes a snapshot of the targets (direct peers),
// either just the ones we are still trying, or all of them.
// Note these are the same things that InitiateConnections and ForgetConnections talks about,
// but a method to retrieve 'Connections' would obviously return the current connections.
func (cm *connectionMaker) Targets(activeOnly bool) []string {
resultChan := make(chan []string)
cm.actionChan <- func() bool {
var slice []string
for peer, addr := range cm.directPeers {
if activeOnly {
if target, ok := cm.targets[cm.completeAddr(*addr)]; ok && target.tryAfter.IsZero() {
continue
}
}
slice = append(slice, peer)
}
resultChan <- slice
return false
}
return <-resultChan
}
// connectionAborted marks the target identified by address as broken, and
// puts it in the TargetWaiting state.
func (cm *connectionMaker) connectionAborted(address string, err error) {
cm.actionChan <- func() bool {
target := cm.targets[address]
target.state = targetWaiting
target.lastError = err
target.nextTryLater()
return true
}
}
// connectionCreated registers the passed connection, and marks the target
// identified by conn.RemoteTCPAddr() as established, and puts it in the
// TargetConnected state.
func (cm *connectionMaker) connectionCreated(conn Connection) {
cm.actionChan <- func() bool {
cm.connections[conn] = struct{}{}
if conn.isOutbound() {
target := cm.targets[conn.remoteTCPAddress()]
target.state = targetConnected
}
return false
}
}
// connectionTerminated unregisters the passed connection, and marks the
// target identified by conn.RemoteTCPAddr() as Waiting.
func (cm *connectionMaker) connectionTerminated(conn Connection, err error) {
cm.actionChan <- func() bool {
if err != errConnectToSelf {
cm.terminationCount++
}
delete(cm.connections, conn)
if conn.isOutbound() {
target := cm.targets[conn.remoteTCPAddress()]
target.state = targetWaiting
target.lastError = err
_, peerNameCollision := err.(*peerNameCollisionError)
switch {
case peerNameCollision || err == errConnectToSelf:
target.nextTryNever()
case time.Now().After(target.tryAfter.Add(resetAfter)):
target.nextTryNow()
default:
target.nextTryLater()
}
}
return true
}
}
// refresh sends a no-op action into the ConnectionMaker, purely so that the
// ConnectionMaker will check the state of its targets and reconnect to
// relevant candidates.
func (cm *connectionMaker) refresh() {
cm.actionChan <- func() bool { return true }
}
func (cm *connectionMaker) queryLoop(actionChan <-chan connectionMakerAction) {
timer := time.NewTimer(maxDuration)
run := func() { timer.Reset(cm.checkStateAndAttemptConnections()) }
for {
select {
case action := <-actionChan:
if action() {
run()
}
case <-timer.C:
run()
}
}
}
func (cm *connectionMaker) completeAddr(addr net.TCPAddr) string {
if addr.Port == 0 {
addr.Port = cm.port
}
return addr.String()
}
func (cm *connectionMaker) checkStateAndAttemptConnections() time.Duration {
var (
validTarget = make(map[string]struct{})
directTarget = make(map[string]struct{})
)
ourConnectedPeers, ourConnectedTargets, ourInboundIPs := cm.ourConnections()
addTarget := func(address string) {
if _, connected := ourConnectedTargets[address]; connected {
return
}
validTarget[address] = struct{}{}
if _, found := cm.targets[address]; found {
return
}
tgt := &target{state: targetWaiting}
tgt.nextTryNow()
cm.targets[address] = tgt
}
// Add direct targets that are not connected
for _, addr := range cm.directPeers {
attempt := true
if addr.Port == 0 {
// If a peer was specified w/o a port, then we do not
// attempt to connect to it if we have any inbound
// connections from that IP.
if _, connected := ourInboundIPs[addr.IP.String()]; connected {
attempt = false
}
}
address := cm.completeAddr(*addr)
directTarget[address] = struct{}{}
if attempt {
addTarget(address)
}
}
// Add targets for peers that someone else is connected to, but we
// aren't
if cm.discovery {
cm.addPeerTargets(ourConnectedPeers, addTarget)
}
return cm.connectToTargets(validTarget, directTarget)
}
func (cm *connectionMaker) ourConnections() (peerNameSet, map[string]struct{}, map[string]struct{}) {
var (
ourConnectedPeers = make(peerNameSet)
ourConnectedTargets = make(map[string]struct{})
ourInboundIPs = make(map[string]struct{})
)
for conn := range cm.connections {
address := conn.remoteTCPAddress()
ourConnectedPeers[conn.Remote().Name] = struct{}{}
ourConnectedTargets[address] = struct{}{}
if conn.isOutbound() {
continue
}
if ip, _, err := net.SplitHostPort(address); err == nil { // should always succeed
ourInboundIPs[ip] = struct{}{}
}
}
return ourConnectedPeers, ourConnectedTargets, ourInboundIPs
}
func (cm *connectionMaker) addPeerTargets(ourConnectedPeers peerNameSet, addTarget func(string)) {
cm.peers.forEach(func(peer *Peer) {
if peer == cm.ourself.Peer {
return
}
// Modifying peer.connections requires a write lock on Peers,
// and since we are holding a read lock (due to the ForEach),
// access without locking the peer is safe.
for otherPeer, conn := range peer.connections {
if otherPeer == cm.ourself.Name {
continue
}
if _, connected := ourConnectedPeers[otherPeer]; connected {
continue
}
address := conn.remoteTCPAddress()
if conn.isOutbound() {
addTarget(address)
} else if ip, _, err := net.SplitHostPort(address); err == nil {
// There is no point connecting to the (likely
// ephemeral) remote port of an inbound connection
// that some peer has. Let's try to connect on the
// weave port instead.
addTarget(fmt.Sprintf("%s:%d", ip, cm.port))
}
}
})
}
func (cm *connectionMaker) connectToTargets(validTarget map[string]struct{}, directTarget map[string]struct{}) time.Duration {
now := time.Now() // make sure we catch items just added
after := maxDuration
for address, target := range cm.targets {
if target.state != targetWaiting && target.state != targetSuspended {
continue
}
if _, valid := validTarget[address]; !valid {
// Not valid: suspend reconnects if direct peer,
// otherwise forget this target entirely
if _, direct := directTarget[address]; direct {
target.state = targetSuspended
} else {
delete(cm.targets, address)
}
continue
}
if target.tryAfter.IsZero() {
continue
}
target.state = targetWaiting
switch duration := target.tryAfter.Sub(now); {
case duration <= 0:
target.state = targetAttempting
_, isCmdLineTarget := directTarget[address]
go cm.attemptConnection(address, isCmdLineTarget)
case duration < after:
after = duration
}
}
return after
}
func (cm *connectionMaker) attemptConnection(address string, acceptNewPeer bool) {
cm.logger.Printf("->[%s] attempting connection", address)
if err := cm.ourself.createConnection(cm.localAddr, address, acceptNewPeer, cm.logger); err != nil {
cm.logger.Printf("->[%s] error during connection attempt: %v", address, err)
cm.connectionAborted(address, err)
}
}
func (t *target) nextTryNever() {
t.tryAfter = time.Time{}
t.tryInterval = maxInterval
}
func (t *target) nextTryNow() {
t.tryAfter = time.Now()
t.tryInterval = initialInterval
}
// The delay at the nth retry is a random value in the range
// [i-i/2,i+i/2], where i = InitialInterval * 1.5^(n-1).
func (t *target) nextTryLater() {
t.tryAfter = time.Now().Add(t.tryInterval/2 + time.Duration(rand.Int63n(int64(t.tryInterval))))
t.tryInterval = t.tryInterval * 3 / 2
if t.tryInterval > maxInterval {
t.tryInterval = maxInterval
}
}