headscale/hscontrol/notifier/notifier.go
greizgh 8571513e3c
reformat code (#2019)
* reformat code

This is mostly an automated change with `make lint`.
I had to manually please golangci-lint in routes_test because of a short
variable name.

* fix start -> strategy which was wrongly corrected by linter
2024-07-22 08:56:00 +02:00

439 lines
12 KiB
Go

package notifier
import (
"context"
"fmt"
"sort"
"strings"
"sync"
"time"
"github.com/juanfont/headscale/hscontrol/types"
"github.com/puzpuzpuz/xsync/v3"
"github.com/rs/zerolog/log"
"github.com/sasha-s/go-deadlock"
"tailscale.com/envknob"
"tailscale.com/tailcfg"
"tailscale.com/util/set"
)
var (
debugDeadlock = envknob.Bool("HEADSCALE_DEBUG_DEADLOCK")
debugDeadlockTimeout = envknob.RegisterDuration("HEADSCALE_DEBUG_DEADLOCK_TIMEOUT")
)
func init() {
deadlock.Opts.Disable = !debugDeadlock
if debugDeadlock {
deadlock.Opts.DeadlockTimeout = debugDeadlockTimeout()
deadlock.Opts.PrintAllCurrentGoroutines = true
}
}
type Notifier struct {
l deadlock.Mutex
nodes map[types.NodeID]chan<- types.StateUpdate
connected *xsync.MapOf[types.NodeID, bool]
b *batcher
cfg *types.Config
}
func NewNotifier(cfg *types.Config) *Notifier {
n := &Notifier{
nodes: make(map[types.NodeID]chan<- types.StateUpdate),
connected: xsync.NewMapOf[types.NodeID, bool](),
cfg: cfg,
}
b := newBatcher(cfg.Tuning.BatchChangeDelay, n)
n.b = b
go b.doWork()
return n
}
// Close stops the batcher inside the notifier.
func (n *Notifier) Close() {
n.b.close()
}
func (n *Notifier) tracef(nID types.NodeID, msg string, args ...any) {
log.Trace().
Uint64("node.id", nID.Uint64()).
Int("open_chans", len(n.nodes)).Msgf(msg, args...)
}
func (n *Notifier) AddNode(nodeID types.NodeID, c chan<- types.StateUpdate) {
start := time.Now()
notifierWaitersForLock.WithLabelValues("lock", "add").Inc()
n.l.Lock()
defer n.l.Unlock()
notifierWaitersForLock.WithLabelValues("lock", "add").Dec()
notifierWaitForLock.WithLabelValues("add").Observe(time.Since(start).Seconds())
// If a channel exists, it means the node has opened a new
// connection. Close the old channel and replace it.
if curr, ok := n.nodes[nodeID]; ok {
n.tracef(nodeID, "channel present, closing and replacing")
close(curr)
}
n.nodes[nodeID] = c
n.connected.Store(nodeID, true)
n.tracef(nodeID, "added new channel")
notifierNodeUpdateChans.Inc()
}
// RemoveNode removes a node and a given channel from the notifier.
// It checks that the channel is the same as currently being updated
// and ignores the removal if it is not.
// RemoveNode reports if the node/chan was removed.
func (n *Notifier) RemoveNode(nodeID types.NodeID, c chan<- types.StateUpdate) bool {
start := time.Now()
notifierWaitersForLock.WithLabelValues("lock", "remove").Inc()
n.l.Lock()
defer n.l.Unlock()
notifierWaitersForLock.WithLabelValues("lock", "remove").Dec()
notifierWaitForLock.WithLabelValues("remove").Observe(time.Since(start).Seconds())
if len(n.nodes) == 0 {
return true
}
// If the channel exist, but it does not belong
// to the caller, ignore.
if curr, ok := n.nodes[nodeID]; ok {
if curr != c {
n.tracef(nodeID, "channel has been replaced, not removing")
return false
}
}
delete(n.nodes, nodeID)
n.connected.Store(nodeID, false)
n.tracef(nodeID, "removed channel")
notifierNodeUpdateChans.Dec()
return true
}
// IsConnected reports if a node is connected to headscale and has a
// poll session open.
func (n *Notifier) IsConnected(nodeID types.NodeID) bool {
notifierWaitersForLock.WithLabelValues("lock", "conncheck").Inc()
n.l.Lock()
defer n.l.Unlock()
notifierWaitersForLock.WithLabelValues("lock", "conncheck").Dec()
if val, ok := n.connected.Load(nodeID); ok {
return val
}
return false
}
// IsLikelyConnected reports if a node is connected to headscale and has a
// poll session open, but doesnt lock, so might be wrong.
func (n *Notifier) IsLikelyConnected(nodeID types.NodeID) bool {
if val, ok := n.connected.Load(nodeID); ok {
return val
}
return false
}
func (n *Notifier) LikelyConnectedMap() *xsync.MapOf[types.NodeID, bool] {
return n.connected
}
func (n *Notifier) NotifyAll(ctx context.Context, update types.StateUpdate) {
n.NotifyWithIgnore(ctx, update)
}
func (n *Notifier) NotifyWithIgnore(
ctx context.Context,
update types.StateUpdate,
ignoreNodeIDs ...types.NodeID,
) {
notifierUpdateReceived.WithLabelValues(update.Type.String(), types.NotifyOriginKey.Value(ctx)).Inc()
n.b.addOrPassthrough(update)
}
func (n *Notifier) NotifyByNodeID(
ctx context.Context,
update types.StateUpdate,
nodeID types.NodeID,
) {
start := time.Now()
notifierWaitersForLock.WithLabelValues("lock", "notify").Inc()
n.l.Lock()
defer n.l.Unlock()
notifierWaitersForLock.WithLabelValues("lock", "notify").Dec()
notifierWaitForLock.WithLabelValues("notify").Observe(time.Since(start).Seconds())
if c, ok := n.nodes[nodeID]; ok {
select {
case <-ctx.Done():
log.Error().
Err(ctx.Err()).
Uint64("node.id", nodeID.Uint64()).
Any("origin", types.NotifyOriginKey.Value(ctx)).
Any("origin-hostname", types.NotifyHostnameKey.Value(ctx)).
Msgf("update not sent, context cancelled")
if debugHighCardinalityMetrics {
notifierUpdateSent.WithLabelValues("cancelled", update.Type.String(), types.NotifyOriginKey.Value(ctx), nodeID.String()).Inc()
} else {
notifierUpdateSent.WithLabelValues("cancelled", update.Type.String(), types.NotifyOriginKey.Value(ctx)).Inc()
}
return
case c <- update:
n.tracef(nodeID, "update successfully sent on chan, origin: %s, origin-hostname: %s", ctx.Value("origin"), ctx.Value("hostname"))
if debugHighCardinalityMetrics {
notifierUpdateSent.WithLabelValues("ok", update.Type.String(), types.NotifyOriginKey.Value(ctx), nodeID.String()).Inc()
} else {
notifierUpdateSent.WithLabelValues("ok", update.Type.String(), types.NotifyOriginKey.Value(ctx)).Inc()
}
}
}
}
func (n *Notifier) sendAll(update types.StateUpdate) {
start := time.Now()
notifierWaitersForLock.WithLabelValues("lock", "send-all").Inc()
n.l.Lock()
defer n.l.Unlock()
notifierWaitersForLock.WithLabelValues("lock", "send-all").Dec()
notifierWaitForLock.WithLabelValues("send-all").Observe(time.Since(start).Seconds())
for id, c := range n.nodes {
// Whenever an update is sent to all nodes, there is a chance that the node
// has disconnected and the goroutine that was supposed to consume the update
// has shut down the channel and is waiting for the lock held here in RemoveNode.
// This means that there is potential for a deadlock which would stop all updates
// going out to clients. This timeout prevents that from happening by moving on to the
// next node if the context is cancelled. Afther sendAll releases the lock, the add/remove
// call will succeed and the update will go to the correct nodes on the next call.
ctx, cancel := context.WithTimeout(context.Background(), n.cfg.Tuning.NotifierSendTimeout)
defer cancel()
select {
case <-ctx.Done():
log.Error().
Err(ctx.Err()).
Uint64("node.id", id.Uint64()).
Msgf("update not sent, context cancelled")
if debugHighCardinalityMetrics {
notifierUpdateSent.WithLabelValues("cancelled", update.Type.String(), "send-all", id.String()).Inc()
} else {
notifierUpdateSent.WithLabelValues("cancelled", update.Type.String(), "send-all").Inc()
}
return
case c <- update:
if debugHighCardinalityMetrics {
notifierUpdateSent.WithLabelValues("ok", update.Type.String(), "send-all", id.String()).Inc()
} else {
notifierUpdateSent.WithLabelValues("ok", update.Type.String(), "send-all").Inc()
}
}
}
}
func (n *Notifier) String() string {
notifierWaitersForLock.WithLabelValues("lock", "string").Inc()
n.l.Lock()
defer n.l.Unlock()
notifierWaitersForLock.WithLabelValues("lock", "string").Dec()
var b strings.Builder
fmt.Fprintf(&b, "chans (%d):\n", len(n.nodes))
var keys []types.NodeID
n.connected.Range(func(key types.NodeID, value bool) bool {
keys = append(keys, key)
return true
})
sort.Slice(keys, func(i, j int) bool {
return keys[i] < keys[j]
})
for _, key := range keys {
fmt.Fprintf(&b, "\t%d: %p\n", key, n.nodes[key])
}
b.WriteString("\n")
fmt.Fprintf(&b, "connected (%d):\n", len(n.nodes))
for _, key := range keys {
val, _ := n.connected.Load(key)
fmt.Fprintf(&b, "\t%d: %t\n", key, val)
}
return b.String()
}
type batcher struct {
tick *time.Ticker
mu sync.Mutex
cancelCh chan struct{}
changedNodeIDs set.Slice[types.NodeID]
nodesChanged bool
patches map[types.NodeID]tailcfg.PeerChange
patchesChanged bool
n *Notifier
}
func newBatcher(batchTime time.Duration, n *Notifier) *batcher {
return &batcher{
tick: time.NewTicker(batchTime),
cancelCh: make(chan struct{}),
patches: make(map[types.NodeID]tailcfg.PeerChange),
n: n,
}
}
func (b *batcher) close() {
b.cancelCh <- struct{}{}
}
// addOrPassthrough adds the update to the batcher, if it is not a
// type that is currently batched, it will be sent immediately.
func (b *batcher) addOrPassthrough(update types.StateUpdate) {
notifierBatcherWaitersForLock.WithLabelValues("lock", "add").Inc()
b.mu.Lock()
defer b.mu.Unlock()
notifierBatcherWaitersForLock.WithLabelValues("lock", "add").Dec()
switch update.Type {
case types.StatePeerChanged:
b.changedNodeIDs.Add(update.ChangeNodes...)
b.nodesChanged = true
notifierBatcherChanges.WithLabelValues().Set(float64(b.changedNodeIDs.Len()))
case types.StatePeerChangedPatch:
for _, newPatch := range update.ChangePatches {
if curr, ok := b.patches[types.NodeID(newPatch.NodeID)]; ok {
overwritePatch(&curr, newPatch)
b.patches[types.NodeID(newPatch.NodeID)] = curr
} else {
b.patches[types.NodeID(newPatch.NodeID)] = *newPatch
}
}
b.patchesChanged = true
notifierBatcherPatches.WithLabelValues().Set(float64(len(b.patches)))
default:
b.n.sendAll(update)
}
}
// flush sends all the accumulated patches to all
// nodes in the notifier.
func (b *batcher) flush() {
notifierBatcherWaitersForLock.WithLabelValues("lock", "flush").Inc()
b.mu.Lock()
defer b.mu.Unlock()
notifierBatcherWaitersForLock.WithLabelValues("lock", "flush").Dec()
if b.nodesChanged || b.patchesChanged {
var patches []*tailcfg.PeerChange
// If a node is getting a full update from a change
// node update, then the patch can be dropped.
for nodeID, patch := range b.patches {
if b.changedNodeIDs.Contains(nodeID) {
delete(b.patches, nodeID)
} else {
patches = append(patches, &patch)
}
}
changedNodes := b.changedNodeIDs.Slice().AsSlice()
sort.Slice(changedNodes, func(i, j int) bool {
return changedNodes[i] < changedNodes[j]
})
if b.changedNodeIDs.Slice().Len() > 0 {
update := types.StateUpdate{
Type: types.StatePeerChanged,
ChangeNodes: changedNodes,
}
b.n.sendAll(update)
}
if len(patches) > 0 {
patchUpdate := types.StateUpdate{
Type: types.StatePeerChangedPatch,
ChangePatches: patches,
}
b.n.sendAll(patchUpdate)
}
b.changedNodeIDs = set.Slice[types.NodeID]{}
notifierBatcherChanges.WithLabelValues().Set(0)
b.nodesChanged = false
b.patches = make(map[types.NodeID]tailcfg.PeerChange, len(b.patches))
notifierBatcherPatches.WithLabelValues().Set(0)
b.patchesChanged = false
}
}
func (b *batcher) doWork() {
for {
select {
case <-b.cancelCh:
return
case <-b.tick.C:
b.flush()
}
}
}
// overwritePatch takes the current patch and a newer patch
// and override any field that has changed.
func overwritePatch(currPatch, newPatch *tailcfg.PeerChange) {
if newPatch.DERPRegion != 0 {
currPatch.DERPRegion = newPatch.DERPRegion
}
if newPatch.Cap != 0 {
currPatch.Cap = newPatch.Cap
}
if newPatch.CapMap != nil {
currPatch.CapMap = newPatch.CapMap
}
if newPatch.Endpoints != nil {
currPatch.Endpoints = newPatch.Endpoints
}
if newPatch.Key != nil {
currPatch.Key = newPatch.Key
}
if newPatch.KeySignature != nil {
currPatch.KeySignature = newPatch.KeySignature
}
if newPatch.DiscoKey != nil {
currPatch.DiscoKey = newPatch.DiscoKey
}
if newPatch.Online != nil {
currPatch.Online = newPatch.Online
}
if newPatch.LastSeen != nil {
currPatch.LastSeen = newPatch.LastSeen
}
if newPatch.KeyExpiry != nil {
currPatch.KeyExpiry = newPatch.KeyExpiry
}
}