package xdscapacity import ( "context" "math" "time" "github.com/armon/go-metrics" "github.com/armon/go-metrics/prometheus" "github.com/hashicorp/consul/agent/consul/state" "github.com/hashicorp/consul/agent/structs" "github.com/hashicorp/consul/lib/retry" "github.com/hashicorp/go-hclog" "github.com/hashicorp/go-memdb" "golang.org/x/time/rate" ) var StatsGauges = []prometheus.GaugeDefinition{ { Name: []string{"xds", "server", "idealStreamsMax"}, Help: "The maximum number of xDS streams per server, chosen to achieve a roughly even spread of load across servers.", }, } // errorMargin is amount to which we allow a server to be over-occupied, // expressed as a percentage (between 0 and 1). // // We allow 10% more than the ideal number of streams per server. const errorMargin = 0.1 // Controller determines the ideal number of xDS streams for the server to // handle and enforces it using the given SessionLimiter. // // We aim for a roughly even spread of streams between servers in the cluster // and, to that end, limit the number of streams each server can handle to: // // ( / ) + // // Controller receives changes to the number of healthy servers from the // autopilot delegate. It queries the state store's catalog tables to discover // the number of registered proxy (sidecar and gateway) services. type Controller struct { cfg Config serverCh chan uint32 doneCh chan struct{} prevMaxSessions uint32 prevRateLimit rate.Limit } // Config contains the dependencies for Controller. type Config struct { Logger hclog.Logger GetStore func() Store SessionLimiter SessionLimiter } // SessionLimiter is used to enforce the session limit to achieve the ideal // spread of xDS streams between servers. type SessionLimiter interface { SetMaxSessions(maxSessions uint32) SetDrainRateLimit(rateLimit rate.Limit) } // NewController creates a new capacity controller with the given config. // // Call Run to start the control-loop. func NewController(cfg Config) *Controller { return &Controller{ cfg: cfg, serverCh: make(chan uint32), doneCh: make(chan struct{}), } } // Run the control-loop until the given context is canceled or reaches its // deadline. func (c *Controller) Run(ctx context.Context) { defer close(c.doneCh) ws, numProxies, err := c.countProxies(ctx) if err != nil { return } var numServers uint32 for { select { case s := <-c.serverCh: numServers = s c.updateMaxSessions(numServers, numProxies) case <-ws.WatchCh(ctx): ws, numProxies, err = c.countProxies(ctx) if err != nil { return } c.updateDrainRateLimit(numProxies) c.updateMaxSessions(numServers, numProxies) case <-ctx.Done(): return } } } // SetServerCount updates the number of healthy servers that is used when // determining capacity. It is called by the autopilot delegate. func (c *Controller) SetServerCount(count uint32) { select { case c.serverCh <- count: case <-c.doneCh: } } func (c *Controller) updateDrainRateLimit(numProxies uint32) { rateLimit := calcRateLimit(numProxies) if rateLimit == c.prevRateLimit { return } c.cfg.Logger.Debug("updating drain rate limit", "rate_limit", rateLimit) c.cfg.SessionLimiter.SetDrainRateLimit(rateLimit) c.prevRateLimit = rateLimit } // We dynamically scale the rate at which excess sessions will be drained // according to the number of proxies in the catalog. // // The numbers here are pretty arbitrary (change them if you find better ones!) // but the logic is: // // 0-512 proxies: drain 1 per second // 513-2815 proxies: linearly scaled by 1/s for every additional 256 proxies // 2816+ proxies: drain 10 per second // func calcRateLimit(numProxies uint32) rate.Limit { perSecond := math.Floor((float64(numProxies) - 256) / 256) if perSecond < 1 { return 1 } if perSecond > 10 { return 10 } return rate.Limit(perSecond) } func (c *Controller) updateMaxSessions(numServers, numProxies uint32) { if numServers == 0 || numProxies == 0 { return } maxSessions := uint32(math.Ceil((float64(numProxies) / float64(numServers)) * (1 + errorMargin))) if maxSessions == c.prevMaxSessions { return } c.cfg.Logger.Debug( "updating max sessions", "max_sessions", maxSessions, "num_servers", numServers, "num_proxies", numProxies, ) metrics.SetGauge([]string{"xds", "server", "idealStreamsMax"}, float32(maxSessions)) c.cfg.SessionLimiter.SetMaxSessions(maxSessions) c.prevMaxSessions = maxSessions } // countProxies counts the number of registered proxy services, retrying on // error until the given context is cancelled. func (c *Controller) countProxies(ctx context.Context) (memdb.WatchSet, uint32, error) { retryWaiter := &retry.Waiter{ MinFailures: 1, MinWait: 1 * time.Second, MaxWait: 1 * time.Minute, } for { store := c.cfg.GetStore() ws := memdb.NewWatchSet() ws.Add(store.AbandonCh()) var count uint32 _, usage, err := store.ServiceUsage(ws) // Query failed? Wait for a while, and then go to the top of the loop to // retry (unless the context is cancelled). if err != nil { if err := retryWaiter.Wait(ctx); err != nil { return nil, 0, err } continue } for kind, kindCount := range usage.ConnectServiceInstances { if structs.ServiceKind(kind).IsProxy() { count += uint32(kindCount) } } return ws, count, nil } } type Store interface { AbandonCh() <-chan struct{} ServiceUsage(ws memdb.WatchSet) (uint64, state.ServiceUsage, error) }