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peer.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 (
"container/heap"
"errors"
"strings"
"sync"
"time"
"github.com/uber/tchannel-go/trand"
"go.uber.org/atomic"
"golang.org/x/net/context"
)
var (
// ErrInvalidConnectionState indicates that the connection is not in a valid state.
// This may be due to a race between selecting the connection and it closing, so
// it is a network failure that can be retried.
ErrInvalidConnectionState = NewSystemError(ErrCodeNetwork, "connection is in an invalid state")
// ErrNoPeers indicates that there are no peers.
ErrNoPeers = errors.New("no peers available")
// ErrPeerNotFound indicates that the specified peer was not found.
ErrPeerNotFound = errors.New("peer not found")
// ErrNoNewPeers indicates that no previously unselected peer is available.
ErrNoNewPeers = errors.New("no new peer available")
peerRng = trand.NewSeeded()
)
// Connectable is the interface used by peers to create connections.
type Connectable interface {
// Connect tries to connect to the given hostPort.
Connect(ctx context.Context, hostPort string) (*Connection, error)
// Logger returns the logger to use.
Logger() Logger
}
// PeerList maintains a list of Peers.
type PeerList struct {
sync.RWMutex
parent *RootPeerList
peersByHostPort map[string]*peerScore
peerHeap *peerHeap
scoreCalculator ScoreCalculator
lastSelected uint64
}
func newPeerList(root *RootPeerList) *PeerList {
return &PeerList{
parent: root,
peersByHostPort: make(map[string]*peerScore),
scoreCalculator: newPreferIncomingCalculator(),
peerHeap: newPeerHeap(),
}
}
// SetStrategy sets customized peer selection strategy.
func (l *PeerList) SetStrategy(sc ScoreCalculator) {
l.Lock()
defer l.Unlock()
l.scoreCalculator = sc
for _, ps := range l.peersByHostPort {
newScore := l.scoreCalculator.GetScore(ps.Peer)
l.updatePeer(ps, newScore)
}
}
// Siblings don't share peer lists (though they take care not to double-connect
// to the same hosts).
func (l *PeerList) newSibling() *PeerList {
sib := newPeerList(l.parent)
return sib
}
// Add adds a peer to the list if it does not exist, or returns any existing peer.
func (l *PeerList) Add(hostPort string) *Peer {
if ps, ok := l.exists(hostPort); ok {
return ps.Peer
}
l.Lock()
defer l.Unlock()
if p, ok := l.peersByHostPort[hostPort]; ok {
return p.Peer
}
p := l.parent.Add(hostPort)
p.addSC()
ps := newPeerScore(p, l.scoreCalculator.GetScore(p))
l.peersByHostPort[hostPort] = ps
l.peerHeap.addPeer(ps)
return p
}
// GetNew returns a new, previously unselected peer from the peer list, or nil,
// if no new unselected peer can be found.
func (l *PeerList) GetNew(prevSelected map[string]struct{}) (*Peer, error) {
l.Lock()
defer l.Unlock()
if l.peerHeap.Len() == 0 {
return nil, ErrNoPeers
}
// Select a peer, avoiding previously selected peers. If all peers have been previously
// selected, then it's OK to repick them.
peer := l.choosePeer(prevSelected, true /* avoidHost */)
if peer == nil {
peer = l.choosePeer(prevSelected, false /* avoidHost */)
}
if peer == nil {
return nil, ErrNoNewPeers
}
return peer, nil
}
// Get returns a peer from the peer list, or nil if none can be found,
// will avoid previously selected peers if possible.
func (l *PeerList) Get(prevSelected map[string]struct{}) (*Peer, error) {
peer, err := l.GetNew(prevSelected)
if err == ErrNoNewPeers {
l.Lock()
peer = l.choosePeer(nil, false /* avoidHost */)
l.Unlock()
} else if err != nil {
return nil, err
}
if peer == nil {
return nil, ErrNoPeers
}
return peer, nil
}
// Remove removes a peer from the peer list. It returns an error if the peer cannot be found.
// Remove does not affect connections to the peer in any way.
func (l *PeerList) Remove(hostPort string) error {
l.Lock()
defer l.Unlock()
p, ok := l.peersByHostPort[hostPort]
if !ok {
return ErrPeerNotFound
}
p.delSC()
delete(l.peersByHostPort, hostPort)
l.peerHeap.removePeer(p)
return nil
}
func (l *PeerList) choosePeer(prevSelected map[string]struct{}, avoidHost bool) *Peer {
var psPopList []*peerScore
var ps *peerScore
canChoosePeer := func(hostPort string) bool {
if _, ok := prevSelected[hostPort]; ok {
return false
}
if avoidHost {
if _, ok := prevSelected[getHost(hostPort)]; ok {
return false
}
}
return true
}
size := l.peerHeap.Len()
for i := 0; i < size; i++ {
popped := l.peerHeap.popPeer()
if canChoosePeer(popped.HostPort()) {
ps = popped
break
}
psPopList = append(psPopList, popped)
}
for _, p := range psPopList {
heap.Push(l.peerHeap, p)
}
if ps == nil {
return nil
}
l.peerHeap.pushPeer(ps)
ps.chosenCount.Inc()
return ps.Peer
}
// GetOrAdd returns a peer for the given hostPort, creating one if it doesn't yet exist.
func (l *PeerList) GetOrAdd(hostPort string) *Peer {
if ps, ok := l.exists(hostPort); ok {
return ps.Peer
}
return l.Add(hostPort)
}
// Copy returns a copy of the PeerList as a map from hostPort to peer.
func (l *PeerList) Copy() map[string]*Peer {
l.RLock()
defer l.RUnlock()
listCopy := make(map[string]*Peer)
for k, v := range l.peersByHostPort {
listCopy[k] = v.Peer
}
return listCopy
}
// Len returns the length of the PeerList.
func (l *PeerList) Len() int {
l.RLock()
defer l.RUnlock()
return l.peerHeap.Len()
}
// exists checks if a hostport exists in the peer list.
func (l *PeerList) exists(hostPort string) (*peerScore, bool) {
l.RLock()
ps, ok := l.peersByHostPort[hostPort]
l.RUnlock()
return ps, ok
}
// getPeerScore is called to find the peer and its score from a host port key.
// Note that at least a Read lock must be held to call this function.
func (l *PeerList) getPeerScore(hostPort string) (*peerScore, uint64, bool) {
ps, ok := l.peersByHostPort[hostPort]
if !ok {
return nil, 0, false
}
return ps, ps.score, ok
}
// onPeerChange is called when there is a change that may cause the peer's score to change.
// The new score is calculated, and the peer heap is updated with the new score if the score changes.
func (l *PeerList) onPeerChange(p *Peer) {
l.RLock()
ps, psScore, ok := l.getPeerScore(p.hostPort)
sc := l.scoreCalculator
l.RUnlock()
if !ok {
return
}
newScore := sc.GetScore(ps.Peer)
if newScore == psScore {
return
}
l.Lock()
l.updatePeer(ps, newScore)
l.Unlock()
}
// updatePeer is called to update the score of the peer given the existing score.
// Note that a Write lock must be held to call this function.
func (l *PeerList) updatePeer(ps *peerScore, newScore uint64) {
if ps.score == newScore {
return
}
ps.score = newScore
l.peerHeap.updatePeer(ps)
}
// peerScore represents a peer and scoring for the peer heap.
// It is not safe for concurrent access, it should only be used through the PeerList.
type peerScore struct {
*Peer
// score according to the current peer list's ScoreCalculator.
score uint64
// index of the peerScore in the peerHeap. Used to interact with container/heap.
index int
// order is the tiebreaker for when score is equal. It is set when a peer
// is pushed to the heap based on peerHeap.order with jitter.
order uint64
}
func newPeerScore(p *Peer, score uint64) *peerScore {
return &peerScore{
Peer: p,
score: score,
index: -1,
}
}
// Peer represents a single autobahn service or client with a unique host:port.
type Peer struct {
sync.RWMutex
channel Connectable
hostPort string
onStatusChanged func(*Peer)
onClosedConnRemoved func(*Peer)
// scCount is the number of subchannels that this peer is added to.
scCount uint32
// connections are mutable, and are protected by the mutex.
newConnLock sync.Mutex
inboundConnections []*Connection
outboundConnections []*Connection
chosenCount atomic.Uint64
// onUpdate is a test-only hook.
onUpdate func(*Peer)
}
func newPeer(channel Connectable, hostPort string, onStatusChanged func(*Peer), onClosedConnRemoved func(*Peer)) *Peer {
if hostPort == "" {
panic("Cannot create peer with blank hostPort")
}
if onStatusChanged == nil {
onStatusChanged = noopOnStatusChanged
}
return &Peer{
channel: channel,
hostPort: hostPort,
onStatusChanged: onStatusChanged,
onClosedConnRemoved: onClosedConnRemoved,
}
}
// HostPort returns the host:port used to connect to this peer.
func (p *Peer) HostPort() string {
return p.hostPort
}
// getConn treats inbound and outbound connections as a single virtual list
// that can be indexed. The peer must be read-locked.
func (p *Peer) getConn(i int) *Connection {
inboundLen := len(p.inboundConnections)
if i < inboundLen {
return p.inboundConnections[i]
}
return p.outboundConnections[i-inboundLen]
}
func (p *Peer) getActiveConnLocked() (*Connection, bool) {
allConns := len(p.inboundConnections) + len(p.outboundConnections)
if allConns == 0 {
return nil, false
}
// We cycle through the connection list, starting at a random point
// to avoid always choosing the same connection.
var startOffset int
if allConns > 1 {
startOffset = peerRng.Intn(allConns)
}
for i := 0; i < allConns; i++ {
connIndex := (i + startOffset) % allConns
if conn := p.getConn(connIndex); conn.IsActive() {
return conn, true
}
}
return nil, false
}
// getActiveConn will randomly select an active connection.
// TODO(prashant): Should we clear inactive connections?
// TODO(prashant): Do we want some sort of scoring for connections?
func (p *Peer) getActiveConn() (*Connection, bool) {
p.RLock()
conn, ok := p.getActiveConnLocked()
p.RUnlock()
return conn, ok
}
// GetConnection returns an active connection to this peer. If no active connections
// are found, it will create a new outbound connection and return it.
func (p *Peer) GetConnection(ctx context.Context) (*Connection, error) {
if activeConn, ok := p.getActiveConn(); ok {
return activeConn, nil
}
// Lock here to restrict new connection creation attempts to one goroutine
p.newConnLock.Lock()
defer p.newConnLock.Unlock()
// Check active connections again in case someone else got ahead of us.
if activeConn, ok := p.getActiveConn(); ok {
return activeConn, nil
}
// No active connections, make a new outgoing connection.
return p.Connect(ctx)
}
// getConnectionRelay gets a connection, and uses the given timeout to lazily
// create a context if a new connection is required.
func (p *Peer) getConnectionRelay(callTimeout, relayMaxConnTimeout time.Duration) (*Connection, error) {
if conn, ok := p.getActiveConn(); ok {
return conn, nil
}
// Lock here to restrict new connection creation attempts to one goroutine
p.newConnLock.Lock()
defer p.newConnLock.Unlock()
// Check active connections again in case someone else got ahead of us.
if activeConn, ok := p.getActiveConn(); ok {
return activeConn, nil
}
// Use the lower timeout value of the call timeout and the relay connection timeout.
timeout := callTimeout
if timeout > relayMaxConnTimeout && relayMaxConnTimeout > 0 {
timeout = relayMaxConnTimeout
}
// When the relay creates outbound connections, we don't want those services
// to ever connect back to us and send us traffic. We hide the host:port
// so that service instances on remote machines don't try to connect back
// and don't try to send Hyperbahn traffic on this connection.
ctx, cancel := NewContextBuilder(timeout).HideListeningOnOutbound().Build()
defer cancel()
return p.Connect(ctx)
}
// addSC adds a reference to a peer from a subchannel (e.g. peer list).
func (p *Peer) addSC() {
p.Lock()
p.scCount++
p.Unlock()
}
// delSC removes a reference to a peer from a subchannel (e.g. peer list).
func (p *Peer) delSC() {
p.Lock()
p.scCount--
p.Unlock()
}
// canRemove returns whether this peer can be safely removed from the root peer list.
func (p *Peer) canRemove() bool {
p.RLock()
count := len(p.inboundConnections) + len(p.outboundConnections) + int(p.scCount)
p.RUnlock()
return count == 0
}
// addConnection adds an active connection to the peer's connection list.
// If a connection is not active, returns ErrInvalidConnectionState.
func (p *Peer) addConnection(c *Connection, direction connectionDirection) error {
conns := p.connectionsFor(direction)
if c.readState() != connectionActive {
return ErrInvalidConnectionState
}
p.Lock()
*conns = append(*conns, c)
p.Unlock()
// Inform third parties that a peer gained a connection.
p.onStatusChanged(p)
return nil
}
func (p *Peer) connectionsFor(direction connectionDirection) *[]*Connection {
if direction == inbound {
return &p.inboundConnections
}
return &p.outboundConnections
}
// removeConnection will check remove the connection if it exists on connsPtr
// and returns whether it removed the connection.
func (p *Peer) removeConnection(connsPtr *[]*Connection, changed *Connection) bool {
conns := *connsPtr
for i, c := range conns {
if c == changed {
// Remove the connection by moving the last item forward, and slicing the list.
last := len(conns) - 1
conns[i], conns[last] = conns[last], nil
*connsPtr = conns[:last]
return true
}
}
return false
}
// connectionStateChanged is called when one of the peers' connections states changes.
// All non-active connections are removed from the peer. The connection will
// still be tracked by the channel until it's completely closed.
func (p *Peer) connectionCloseStateChange(changed *Connection) {
if changed.IsActive() {
return
}
p.Lock()
found := p.removeConnection(&p.inboundConnections, changed)
if !found {
found = p.removeConnection(&p.outboundConnections, changed)
}
p.Unlock()
if found {
p.onClosedConnRemoved(p)
// Inform third parties that a peer lost a connection.
p.onStatusChanged(p)
}
}
// Connect adds a new outbound connection to the peer.
func (p *Peer) Connect(ctx context.Context) (*Connection, error) {
return p.channel.Connect(ctx, p.hostPort)
}
// BeginCall starts a new call to this specific peer, returning an OutboundCall that can
// be used to write the arguments of the call.
func (p *Peer) BeginCall(ctx context.Context, serviceName, methodName string, callOptions *CallOptions) (*OutboundCall, error) {
if callOptions == nil {
callOptions = defaultCallOptions
}
callOptions.RequestState.AddSelectedPeer(p.HostPort())
if err := validateCall(ctx, serviceName, methodName, callOptions); err != nil {
return nil, err
}
conn, err := p.GetConnection(ctx)
if err != nil {
return nil, err
}
call, err := conn.beginCall(ctx, serviceName, methodName, callOptions)
if err != nil {
return nil, err
}
return call, err
}
// NumConnections returns the number of inbound and outbound connections for this peer.
func (p *Peer) NumConnections() (inbound int, outbound int) {
p.RLock()
inbound = len(p.inboundConnections)
outbound = len(p.outboundConnections)
p.RUnlock()
return inbound, outbound
}
// NumPendingOutbound returns the number of pending outbound calls.
func (p *Peer) NumPendingOutbound() int {
count := 0
p.RLock()
for _, c := range p.outboundConnections {
count += c.outbound.count()
}
for _, c := range p.inboundConnections {
count += c.outbound.count()
}
p.RUnlock()
return count
}
func (p *Peer) runWithConnections(f func(*Connection)) {
p.RLock()
for _, c := range p.inboundConnections {
f(c)
}
for _, c := range p.outboundConnections {
f(c)
}
p.RUnlock()
}
func (p *Peer) callOnUpdateComplete() {
p.RLock()
f := p.onUpdate
p.RUnlock()
if f != nil {
f(p)
}
}
func noopOnStatusChanged(*Peer) {}
// isEphemeralHostPort returns if hostPort is the default ephemeral hostPort.
func isEphemeralHostPort(hostPort string) bool {
return hostPort == "" || hostPort == ephemeralHostPort || strings.HasSuffix(hostPort, ":0")
}