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dendrite/federationsender/queue/destinationqueue.go
Kegsay 399b6ae334
Remove federationsender producer, which in fact was not a producer (#1115)
* Remove federationsender producer, which in fact was not a producer

* Set the signing struct
2020-06-10 16:54:43 +01:00

387 lines
14 KiB
Go

// Copyright 2017 Vector Creations Ltd
//
// Licensed under the Apache License, Version 2.0 (the "License");
// you may not use this file except in compliance with the License.
// You may obtain a copy of the License at
//
// http://www.apache.org/licenses/LICENSE-2.0
//
// Unless required by applicable law or agreed to in writing, software
// distributed under the License is distributed on an "AS IS" BASIS,
// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
// See the License for the specific language governing permissions and
// limitations under the License.
package queue
import (
"context"
"encoding/json"
"fmt"
"time"
"github.com/matrix-org/dendrite/federationsender/types"
"github.com/matrix-org/dendrite/roomserver/api"
"github.com/matrix-org/gomatrix"
"github.com/matrix-org/gomatrixserverlib"
"github.com/sirupsen/logrus"
log "github.com/sirupsen/logrus"
"go.uber.org/atomic"
)
// destinationQueue is a queue of events for a single destination.
// It is responsible for sending the events to the destination and
// ensures that only one request is in flight to a given destination
// at a time.
type destinationQueue struct {
signing *SigningInfo
rsAPI api.RoomserverInternalAPI
client *gomatrixserverlib.FederationClient // federation client
origin gomatrixserverlib.ServerName // origin of requests
destination gomatrixserverlib.ServerName // destination of requests
running atomic.Bool // is the queue worker running?
backingOff atomic.Bool // true if we're backing off
statistics *types.ServerStatistics // statistics about this remote server
incomingPDUs chan *gomatrixserverlib.HeaderedEvent // PDUs to send
incomingEDUs chan *gomatrixserverlib.EDU // EDUs to send
incomingInvites chan *gomatrixserverlib.InviteV2Request // invites to send
lastTransactionIDs []gomatrixserverlib.TransactionID // last transaction ID
pendingPDUs []*gomatrixserverlib.HeaderedEvent // owned by backgroundSend
pendingEDUs []*gomatrixserverlib.EDU // owned by backgroundSend
pendingInvites []*gomatrixserverlib.InviteV2Request // owned by backgroundSend
retryServerCh chan bool // interrupts backoff
}
// retry will clear the blacklist state and attempt to send built up events to the server,
// resetting and interrupting any backoff timers.
func (oq *destinationQueue) retry() {
// TODO: We don't send all events in the case where the server has been blacklisted as we
// drop events instead then. This means we will send the oldest N events (chan size, currently 128)
// and then skip ahead a lot which feels non-ideal but equally we can't persist thousands of events
// in-memory to maybe-send it one day. Ideally we would just shove these pending events in a database
// so we can send a lot of events.
//
// Interrupt the backoff. If the federation request that happens as a result of this is successful
// then the counters will be reset there and the backoff will cancel. If the federation request
// fails then we will retry at the current backoff interval, so as to prevent us from spamming
// homeservers which are behaving badly.
// We need to use an atomic bool here to prevent multiple calls to retry() blocking on the channel
// as it is unbuffered.
if oq.backingOff.CAS(true, false) {
oq.retryServerCh <- true
}
if !oq.running.Load() {
log.Infof("Restarting queue for %s", oq.destination)
go oq.backgroundSend()
}
}
// Send event adds the event to the pending queue for the destination.
// If the queue is empty then it starts a background goroutine to
// start sending events to that destination.
func (oq *destinationQueue) sendEvent(ev *gomatrixserverlib.HeaderedEvent) {
if oq.statistics.Blacklisted() {
// If the destination is blacklisted then drop the event.
return
}
if !oq.running.Load() {
go oq.backgroundSend()
}
oq.incomingPDUs <- ev
}
// sendEDU adds the EDU event to the pending queue for the destination.
// If the queue is empty then it starts a background goroutine to
// start sending events to that destination.
func (oq *destinationQueue) sendEDU(ev *gomatrixserverlib.EDU) {
if oq.statistics.Blacklisted() {
// If the destination is blacklisted then drop the event.
return
}
if !oq.running.Load() {
go oq.backgroundSend()
}
oq.incomingEDUs <- ev
}
// sendInvite adds the invite event to the pending queue for the
// destination. If the queue is empty then it starts a background
// goroutine to start sending events to that destination.
func (oq *destinationQueue) sendInvite(ev *gomatrixserverlib.InviteV2Request) {
if oq.statistics.Blacklisted() {
// If the destination is blacklisted then drop the event.
return
}
if !oq.running.Load() {
go oq.backgroundSend()
}
oq.incomingInvites <- ev
}
// backgroundSend is the worker goroutine for sending events.
// nolint:gocyclo
func (oq *destinationQueue) backgroundSend() {
// Check if a worker is already running, and if it isn't, then
// mark it as started.
if !oq.running.CAS(false, true) {
return
}
defer oq.running.Store(false)
for {
// Wait either for incoming events, or until we hit an
// idle timeout.
select {
case pdu := <-oq.incomingPDUs:
// Ordering of PDUs is important so we add them to the end
// of the queue and they will all be added to transactions
// in order.
oq.pendingPDUs = append(oq.pendingPDUs, pdu)
// If there are any more things waiting in the channel queue
// then read them. This is safe because we guarantee only
// having one goroutine per destination queue, so the channel
// isn't being consumed anywhere else.
for len(oq.incomingPDUs) > 0 {
oq.pendingPDUs = append(oq.pendingPDUs, <-oq.incomingPDUs)
}
case edu := <-oq.incomingEDUs:
// Likewise for EDUs, although we should probably not try
// too hard with some EDUs (like typing notifications) after
// a certain amount of time has passed.
// TODO: think about EDU expiry some more
oq.pendingEDUs = append(oq.pendingEDUs, edu)
// If there are any more things waiting in the channel queue
// then read them. This is safe because we guarantee only
// having one goroutine per destination queue, so the channel
// isn't being consumed anywhere else.
for len(oq.incomingEDUs) > 0 {
oq.pendingEDUs = append(oq.pendingEDUs, <-oq.incomingEDUs)
}
case invite := <-oq.incomingInvites:
// There's no strict ordering requirement for invites like
// there is for transactions, so we put the invite onto the
// front of the queue. This means that if an invite that is
// stuck failing already, that it won't block our new invite
// from being sent.
oq.pendingInvites = append(
[]*gomatrixserverlib.InviteV2Request{invite},
oq.pendingInvites...,
)
// If there are any more things waiting in the channel queue
// then read them. This is safe because we guarantee only
// having one goroutine per destination queue, so the channel
// isn't being consumed anywhere else.
for len(oq.incomingInvites) > 0 {
oq.pendingInvites = append(oq.pendingInvites, <-oq.incomingInvites)
}
case <-time.After(time.Second * 30):
// The worker is idle so stop the goroutine. It'll
// get restarted automatically the next time we
// get an event.
return
}
// If we are backing off this server then wait for the
// backoff duration to complete first, or until explicitly
// told to retry.
if backoff, duration := oq.statistics.BackoffDuration(); backoff {
oq.backingOff.Store(true)
select {
case <-time.After(duration):
case <-oq.retryServerCh:
}
oq.backingOff.Store(false)
}
// How many things do we have waiting?
numPDUs := len(oq.pendingPDUs)
numEDUs := len(oq.pendingEDUs)
numInvites := len(oq.pendingInvites)
// If we have pending PDUs or EDUs then construct a transaction.
if numPDUs > 0 || numEDUs > 0 {
// Try sending the next transaction and see what happens.
transaction, terr := oq.nextTransaction(oq.pendingPDUs, oq.pendingEDUs, oq.statistics.SuccessCount())
if terr != nil {
// We failed to send the transaction.
if giveUp := oq.statistics.Failure(); giveUp {
// It's been suggested that we should give up because
// the backoff has exceeded a maximum allowable value.
return
}
} else if transaction {
// If we successfully sent the transaction then clear out
// the pending events and EDUs.
oq.statistics.Success()
// Reallocate so that the underlying arrays can be GC'd, as
// opposed to growing forever.
for i := 0; i < numPDUs; i++ {
oq.pendingPDUs[i] = nil
}
for i := 0; i < numEDUs; i++ {
oq.pendingEDUs[i] = nil
}
oq.pendingPDUs = append(
[]*gomatrixserverlib.HeaderedEvent{},
oq.pendingPDUs[numPDUs:]...,
)
oq.pendingEDUs = append(
[]*gomatrixserverlib.EDU{},
oq.pendingEDUs[numEDUs:]...,
)
}
}
// Try sending the next invite and see what happens.
if numInvites > 0 {
sent, ierr := oq.nextInvites(oq.pendingInvites)
if ierr != nil {
// We failed to send the transaction so increase the
// backoff and give it another go shortly.
if giveUp := oq.statistics.Failure(); giveUp {
// It's been suggested that we should give up because
// the backoff has exceeded a maximum allowable value.
return
}
} else if sent > 0 {
// If we successfully sent the invites then clear out
// the pending invites.
oq.statistics.Success()
// Reallocate so that the underlying array can be GC'd, as
// opposed to growing forever.
oq.pendingInvites = append(
[]*gomatrixserverlib.InviteV2Request{},
oq.pendingInvites[sent:]...,
)
}
}
}
}
// nextTransaction creates a new transaction from the pending event
// queue and sends it. Returns true if a transaction was sent or
// false otherwise.
func (oq *destinationQueue) nextTransaction(
pendingPDUs []*gomatrixserverlib.HeaderedEvent,
pendingEDUs []*gomatrixserverlib.EDU,
sentCounter uint32,
) (bool, error) {
t := gomatrixserverlib.Transaction{
PDUs: []json.RawMessage{},
EDUs: []gomatrixserverlib.EDU{},
}
now := gomatrixserverlib.AsTimestamp(time.Now())
t.TransactionID = gomatrixserverlib.TransactionID(fmt.Sprintf("%d-%d", now, sentCounter))
t.Origin = oq.origin
t.Destination = oq.destination
t.OriginServerTS = now
t.PreviousIDs = oq.lastTransactionIDs
if t.PreviousIDs == nil {
t.PreviousIDs = []gomatrixserverlib.TransactionID{}
}
oq.lastTransactionIDs = []gomatrixserverlib.TransactionID{t.TransactionID}
for _, pdu := range pendingPDUs {
// Append the JSON of the event, since this is a json.RawMessage type in the
// gomatrixserverlib.Transaction struct
t.PDUs = append(t.PDUs, (*pdu).JSON())
}
for _, edu := range pendingEDUs {
t.EDUs = append(t.EDUs, *edu)
}
logrus.WithField("server_name", oq.destination).Infof("Sending transaction %q containing %d PDUs, %d EDUs", t.TransactionID, len(t.PDUs), len(t.EDUs))
// TODO: we should check for 500-ish fails vs 400-ish here,
// since we shouldn't queue things indefinitely in response
// to a 400-ish error
_, err := oq.client.SendTransaction(context.TODO(), t)
switch e := err.(type) {
case nil:
// No error was returned so the transaction looks to have
// been successfully sent.
return true, nil
case gomatrix.HTTPError:
// We received a HTTP error back. In this instance we only
// should report an error if
if e.Code >= 400 && e.Code <= 499 {
// We tried but the remote side has sent back a client error.
// It's no use retrying because it will happen again.
return true, nil
}
// Otherwise, report that we failed to send the transaction
// and we will retry again.
return false, err
default:
log.WithFields(log.Fields{
"destination": oq.destination,
log.ErrorKey: err,
}).Info("problem sending transaction")
return false, err
}
}
// nextInvite takes pending invite events from the queue and sends
// them. Returns true if a transaction was sent or false otherwise.
func (oq *destinationQueue) nextInvites(
pendingInvites []*gomatrixserverlib.InviteV2Request,
) (int, error) {
done := 0
for _, inviteReq := range pendingInvites {
ev, roomVersion := inviteReq.Event(), inviteReq.RoomVersion()
log.WithFields(log.Fields{
"event_id": ev.EventID(),
"room_version": roomVersion,
"destination": oq.destination,
}).Info("sending invite")
inviteRes, err := oq.client.SendInviteV2(
context.TODO(),
oq.destination,
*inviteReq,
)
switch e := err.(type) {
case nil:
done++
case gomatrix.HTTPError:
log.WithFields(log.Fields{
"event_id": ev.EventID(),
"state_key": ev.StateKey(),
"destination": oq.destination,
"status_code": e.Code,
}).WithError(err).Error("failed to send invite due to HTTP error")
// Check whether we should do something about the error or
// just accept it as unavoidable.
if e.Code >= 400 && e.Code <= 499 {
// We tried but the remote side has sent back a client error.
// It's no use retrying because it will happen again.
done++
continue
}
return done, err
default:
log.WithFields(log.Fields{
"event_id": ev.EventID(),
"state_key": ev.StateKey(),
"destination": oq.destination,
}).WithError(err).Error("failed to send invite")
return done, err
}
invEv := inviteRes.Event.Sign(string(oq.signing.ServerName), oq.signing.KeyID, oq.signing.PrivateKey).Headered(roomVersion)
_, err = api.SendEvents(context.TODO(), oq.rsAPI, []gomatrixserverlib.HeaderedEvent{invEv}, oq.signing.ServerName, nil)
if err != nil {
log.WithFields(log.Fields{
"event_id": ev.EventID(),
"state_key": ev.StateKey(),
"destination": oq.destination,
}).WithError(err).Error("failed to return signed invite to roomserver")
return done, err
}
}
return done, nil
}