netbird/management/server/updatechannel.go

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package server
import (
"sync"
"time"
log "github.com/sirupsen/logrus"
"github.com/netbirdio/netbird/management/proto"
"github.com/netbirdio/netbird/management/server/telemetry"
)
const channelBufferSize = 100
type UpdateMessage struct {
Update *proto.SyncResponse
}
type PeersUpdateManager struct {
// peerChannels is an update channel indexed by Peer.ID
peerChannels map[string]chan *UpdateMessage
// channelsMux keeps the mutex to access peerChannels
channelsMux *sync.Mutex
// metrics provides method to collect application metrics
metrics telemetry.AppMetrics
}
// NewPeersUpdateManager returns a new instance of PeersUpdateManager
func NewPeersUpdateManager(metrics telemetry.AppMetrics) *PeersUpdateManager {
return &PeersUpdateManager{
peerChannels: make(map[string]chan *UpdateMessage),
channelsMux: &sync.Mutex{},
metrics: metrics,
}
}
// SendUpdate sends update message to the peer's channel
func (p *PeersUpdateManager) SendUpdate(peerID string, update *UpdateMessage) {
start := time.Now()
var found, dropped bool
p.channelsMux.Lock()
defer func() {
p.channelsMux.Unlock()
if p.metrics != nil {
p.metrics.UpdateChannelMetrics().CountSendUpdateDuration(time.Since(start), found, dropped)
}
}()
if channel, ok := p.peerChannels[peerID]; ok {
found = true
select {
case channel <- update:
log.Debugf("update was sent to channel for peer %s", peerID)
default:
dropped = true
log.Warnf("channel for peer %s is %d full", peerID, len(channel))
}
} else {
log.Debugf("peer %s has no channel", peerID)
}
}
// CreateChannel creates a go channel for a given peer used to deliver updates relevant to the peer.
func (p *PeersUpdateManager) CreateChannel(peerID string) chan *UpdateMessage {
start := time.Now()
closed := false
p.channelsMux.Lock()
defer func() {
p.channelsMux.Unlock()
if p.metrics != nil {
p.metrics.UpdateChannelMetrics().CountCreateChannelDuration(time.Since(start), closed)
}
}()
if channel, ok := p.peerChannels[peerID]; ok {
closed = true
delete(p.peerChannels, peerID)
close(channel)
}
// mbragin: todo shouldn't it be more? or configurable?
channel := make(chan *UpdateMessage, channelBufferSize)
p.peerChannels[peerID] = channel
log.Debugf("opened updates channel for a peer %s", peerID)
return channel
}
func (p *PeersUpdateManager) closeChannel(peerID string) {
if channel, ok := p.peerChannels[peerID]; ok {
delete(p.peerChannels, peerID)
close(channel)
}
log.Debugf("closed updates channel of a peer %s", peerID)
}
// CloseChannels closes updates channel for each given peer
func (p *PeersUpdateManager) CloseChannels(peerIDs []string) {
start := time.Now()
p.channelsMux.Lock()
defer func() {
p.channelsMux.Unlock()
if p.metrics != nil {
p.metrics.UpdateChannelMetrics().CountCloseChannelsDuration(time.Since(start), len(peerIDs))
}
}()
for _, id := range peerIDs {
p.closeChannel(id)
}
}
// CloseChannel closes updates channel of a given peer
func (p *PeersUpdateManager) CloseChannel(peerID string) {
start := time.Now()
p.channelsMux.Lock()
defer func() {
p.channelsMux.Unlock()
if p.metrics != nil {
p.metrics.UpdateChannelMetrics().CountCloseChannelDuration(time.Since(start))
}
}()
p.closeChannel(peerID)
}
// GetAllConnectedPeers returns a copy of the connected peers map
func (p *PeersUpdateManager) GetAllConnectedPeers() map[string]struct{} {
start := time.Now()
p.channelsMux.Lock()
m := make(map[string]struct{})
defer func() {
p.channelsMux.Unlock()
if p.metrics != nil {
p.metrics.UpdateChannelMetrics().CountGetAllConnectedPeersDuration(time.Since(start), len(m))
}
}()
for ID := range p.peerChannels {
m[ID] = struct{}{}
}
return m
}
// HasChannel returns true if peers has channel in update manager, otherwise false
func (p *PeersUpdateManager) HasChannel(peerID string) bool {
start := time.Now()
p.channelsMux.Lock()
defer func() {
p.channelsMux.Unlock()
if p.metrics != nil {
p.metrics.UpdateChannelMetrics().CountHasChannelDuration(time.Since(start))
}
}()
_, ok := p.peerChannels[peerID]
return ok
}