dendrite/federationsender/types/statistics.go

package types

import (
	"math"
	"sync"
	"time"

	"github.com/matrix-org/gomatrixserverlib"
	"go.uber.org/atomic"
)

const (
	// How many times should we tolerate consecutive failures before we
	// just blacklist the host altogether? Bear in mind that the backoff
	// is exponential, so the max time here to attempt is 2**failures.
	FailuresUntilBlacklist = 16 // 16 equates to roughly 18 hours.
)

// Statistics contains information about all of the remote federated
// hosts that we have interacted with. It is basically a threadsafe
// wrapper.
type Statistics struct {
	servers map[gomatrixserverlib.ServerName]*ServerStatistics
	mutex   sync.RWMutex
}

// ForServer returns server statistics for the given server name. If it
// does not exist, it will create empty statistics and return those.
func (s *Statistics) ForServer(serverName gomatrixserverlib.ServerName) *ServerStatistics {
	// If the map hasn't been initialised yet then do that.
	if s.servers == nil {
		s.mutex.Lock()
		s.servers = make(map[gomatrixserverlib.ServerName]*ServerStatistics)
		s.mutex.Unlock()
	}
	// Look up if we have statistics for this server already.
	s.mutex.RLock()
	server, found := s.servers[serverName]
	s.mutex.RUnlock()
	// If we don't, then make one.
	if !found {
		s.mutex.Lock()
		server = &ServerStatistics{}
		s.servers[serverName] = server
		s.mutex.Unlock()
	}
	return server
}

// ServerStatistics contains information about our interactions with a
// remote federated host, e.g. how many times we were successful, how
// many times we failed etc. It also manages the backoff time and black-
// listing a remote host if it remains uncooperative.
type ServerStatistics struct {
	blacklisted    atomic.Bool   // is the remote side dead?
	backoffUntil   atomic.Value  // time.Time to wait until before sending requests
	failCounter    atomic.Uint32 // how many times have we failed?
	successCounter atomic.Uint32 // how many times have we succeeded?
}

// Success updates the server statistics with a new successful
// attempt, which increases the sent counter and resets the idle and
// failure counters. If a host was blacklisted at this point then
// we will unblacklist it.
func (s *ServerStatistics) Success() {
	s.successCounter.Add(1)
	s.failCounter.Store(0)
	s.blacklisted.Store(false)
}

// Failure marks a failure and works out when to backoff until. It
// returns true if the worker should give up altogether because of
// too many consecutive failures. At this point the host is marked
// as blacklisted.
func (s *ServerStatistics) Failure() bool {
	// Increase the fail counter.
	failCounter := s.failCounter.Add(1)

	// Check that we haven't failed more times than is acceptable.
	if failCounter >= FailuresUntilBlacklist {
		// We've exceeded the maximum amount of times we're willing
		// to back off, which is probably in the region of hours by
		// now. Mark the host as blacklisted and tell the caller to
		// give up.
		s.blacklisted.Store(true)
		return true
	}

	// We're still under the threshold so work out the exponential
	// backoff based on how many times we have failed already. The
	// worker goroutine will wait until this time before processing
	// anything from the queue.
	backoffSeconds := time.Second * time.Duration(math.Exp2(float64(failCounter)))
	s.backoffUntil.Store(
		time.Now().Add(backoffSeconds),
	)
	return false
}

// BackoffDuration returns both a bool stating whether to wait,
// and then if true, a duration to wait for.
func (s *ServerStatistics) BackoffDuration() (bool, time.Duration) {
	backoff, until := false, time.Second
	if b, ok := s.backoffUntil.Load().(time.Time); ok {
		if b.After(time.Now()) {
			backoff, until = true, time.Until(b)
		}
	}
	return backoff, until
}

// Blacklisted returns true if the server is blacklisted and false
// otherwise.
func (s *ServerStatistics) Blacklisted() bool {
	return s.blacklisted.Load()
}

// SuccessCount returns the number of successful requests. This is
// usually useful in constructing transaction IDs.
func (s *ServerStatistics) SuccessCount() uint32 {
	return s.successCounter.Load()
}
Improve federation sender performance, implement backoff and blacklisting, fix up invites a bit (#1007) * Improve federation sender performance and behaviour, add backoff * Tweaks * Tweaks * Tweaks * Take copies of events before passing to destination queues * Don't accidentally drop queued messages * Don't take copies again * Tidy up a bit * Break out statistics (tracked component-wide), report success and failures from Perform actions * Fix comment, use atomic add * Improve logic a bit, don't block on wakeup, move idle check * Don't retry sucessful invites, don't dispatch sendEvent, sendInvite etc * Dedupe destinations, fix other bug hopefully * Dispatch sends again * Federation sender to ignore invites that are destined locally * Loopback invite events * Remodel a bit with channels * Linter * Only loopback invite event if we know the room * We should tell other resident servers about the invite if we know about the room * Correct invite signing * Fix invite loopback * Check HTTP response codes, push new invites to front of queue * Review comments 2020-05-07 13:42:06 +02:00			`package types`

			`import (`
			`"math"`
			`"sync"`
			`"time"`

			`"github.com/matrix-org/gomatrixserverlib"`
			`"go.uber.org/atomic"`
			`)`

			`const (`
			`// How many times should we tolerate consecutive failures before we`
			`// just blacklist the host altogether? Bear in mind that the backoff`
			`// is exponential, so the max time here to attempt is 2**failures.`
			`FailuresUntilBlacklist = 16 // 16 equates to roughly 18 hours.`
			`)`

			`// Statistics contains information about all of the remote federated`
			`// hosts that we have interacted with. It is basically a threadsafe`
			`// wrapper.`
			`type Statistics struct {`
			`servers map[gomatrixserverlib.ServerName]*ServerStatistics`
			`mutex sync.RWMutex`
			`}`

			`// ForServer returns server statistics for the given server name. If it`
			`// does not exist, it will create empty statistics and return those.`
			`func (s Statistics) ForServer(serverName gomatrixserverlib.ServerName) ServerStatistics {`
			`// If the map hasn't been initialised yet then do that.`
			`if s.servers == nil {`
			`s.mutex.Lock()`
			`s.servers = make(map[gomatrixserverlib.ServerName]*ServerStatistics)`
			`s.mutex.Unlock()`
			`}`
			`// Look up if we have statistics for this server already.`
			`s.mutex.RLock()`
			`server, found := s.servers[serverName]`
			`s.mutex.RUnlock()`
			`// If we don't, then make one.`
			`if !found {`
			`s.mutex.Lock()`
			`server = &ServerStatistics{}`
			`s.servers[serverName] = server`
			`s.mutex.Unlock()`
			`}`
			`return server`
			`}`

			`// ServerStatistics contains information about our interactions with a`
			`// remote federated host, e.g. how many times we were successful, how`
			`// many times we failed etc. It also manages the backoff time and black-`
			`// listing a remote host if it remains uncooperative.`
			`type ServerStatistics struct {`
			`blacklisted atomic.Bool // is the remote side dead?`
			`backoffUntil atomic.Value // time.Time to wait until before sending requests`
			`failCounter atomic.Uint32 // how many times have we failed?`
			`successCounter atomic.Uint32 // how many times have we succeeded?`
			`}`

			`// Success updates the server statistics with a new successful`
			`// attempt, which increases the sent counter and resets the idle and`
			`// failure counters. If a host was blacklisted at this point then`
			`// we will unblacklist it.`
			`func (s *ServerStatistics) Success() {`
			`s.successCounter.Add(1)`
			`s.failCounter.Store(0)`
			`s.blacklisted.Store(false)`
			`}`

			`// Failure marks a failure and works out when to backoff until. It`
			`// returns true if the worker should give up altogether because of`
			`// too many consecutive failures. At this point the host is marked`
			`// as blacklisted.`
			`func (s *ServerStatistics) Failure() bool {`
			`// Increase the fail counter.`
			`failCounter := s.failCounter.Add(1)`

			`// Check that we haven't failed more times than is acceptable.`
			`if failCounter >= FailuresUntilBlacklist {`
			`// We've exceeded the maximum amount of times we're willing`
			`// to back off, which is probably in the region of hours by`
			`// now. Mark the host as blacklisted and tell the caller to`
			`// give up.`
			`s.blacklisted.Store(true)`
			`return true`
			`}`

			`// We're still under the threshold so work out the exponential`
			`// backoff based on how many times we have failed already. The`
			`// worker goroutine will wait until this time before processing`
			`// anything from the queue.`
			`backoffSeconds := time.Second * time.Duration(math.Exp2(float64(failCounter)))`
			`s.backoffUntil.Store(`
			`time.Now().Add(backoffSeconds),`
			`)`
			`return false`
			`}`

			`// BackoffDuration returns both a bool stating whether to wait,`
			`// and then if true, a duration to wait for.`
			`func (s *ServerStatistics) BackoffDuration() (bool, time.Duration) {`
			`backoff, until := false, time.Second`
			`if b, ok := s.backoffUntil.Load().(time.Time); ok {`
			`if b.After(time.Now()) {`
			`backoff, until = true, time.Until(b)`
			`}`
			`}`
			`return backoff, until`
			`}`

			`// Blacklisted returns true if the server is blacklisted and false`
			`// otherwise.`
			`func (s *ServerStatistics) Blacklisted() bool {`
			`return s.blacklisted.Load()`
			`}`

			`// SuccessCount returns the number of successful requests. This is`
			`// usually useful in constructing transaction IDs.`
			`func (s *ServerStatistics) SuccessCount() uint32 {`
			`return s.successCounter.Load()`
			`}`