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|
// Copyright 2017 Vector Creations Ltd
// Copyright 2017-2018 New Vector Ltd
// Copyright 2019-2020 The Matrix.org Foundation C.I.C.
//
// 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 sync
import (
"context"
"database/sql"
"net"
"net/http"
"strings"
"sync"
"time"
"github.com/matrix-org/gomatrixserverlib/spec"
"github.com/matrix-org/util"
"github.com/prometheus/client_golang/prometheus"
"github.com/sirupsen/logrus"
"github.com/matrix-org/dendrite/internal/sqlutil"
roomserverAPI "github.com/matrix-org/dendrite/roomserver/api"
"github.com/matrix-org/dendrite/setup/config"
"github.com/matrix-org/dendrite/syncapi/internal"
"github.com/matrix-org/dendrite/syncapi/notifier"
"github.com/matrix-org/dendrite/syncapi/storage"
"github.com/matrix-org/dendrite/syncapi/streams"
"github.com/matrix-org/dendrite/syncapi/types"
userapi "github.com/matrix-org/dendrite/userapi/api"
)
// RequestPool manages HTTP long-poll connections for /sync
type RequestPool struct {
db storage.Database
cfg *config.SyncAPI
userAPI userapi.SyncUserAPI
rsAPI roomserverAPI.SyncRoomserverAPI
lastseen *sync.Map
presence *sync.Map
streams *streams.Streams
Notifier *notifier.Notifier
producer PresencePublisher
consumer PresenceConsumer
}
type PresencePublisher interface {
SendPresence(userID string, presence types.Presence, statusMsg *string) error
}
type PresenceConsumer interface {
EmitPresence(ctx context.Context, userID string, presence types.Presence, statusMsg *string, ts spec.Timestamp, fromSync bool)
}
// NewRequestPool makes a new RequestPool
func NewRequestPool(
db storage.Database, cfg *config.SyncAPI,
userAPI userapi.SyncUserAPI,
rsAPI roomserverAPI.SyncRoomserverAPI,
streams *streams.Streams, notifier *notifier.Notifier,
producer PresencePublisher, consumer PresenceConsumer, enableMetrics bool,
) *RequestPool {
if enableMetrics {
prometheus.MustRegister(
activeSyncRequests, waitingSyncRequests,
)
}
rp := &RequestPool{
db: db,
cfg: cfg,
userAPI: userAPI,
rsAPI: rsAPI,
lastseen: &sync.Map{},
presence: &sync.Map{},
streams: streams,
Notifier: notifier,
producer: producer,
consumer: consumer,
}
go rp.cleanLastSeen()
go rp.cleanPresence(db, time.Minute*5)
return rp
}
func (rp *RequestPool) cleanLastSeen() {
for {
rp.lastseen.Range(func(key interface{}, _ interface{}) bool {
rp.lastseen.Delete(key)
return true
})
time.Sleep(time.Minute)
}
}
func (rp *RequestPool) cleanPresence(db storage.Presence, cleanupTime time.Duration) {
if !rp.cfg.Matrix.Presence.EnableOutbound {
return
}
for {
rp.presence.Range(func(key interface{}, v interface{}) bool {
p := v.(types.PresenceInternal)
if time.Since(p.LastActiveTS.Time()) > cleanupTime {
rp.updatePresence(db, types.PresenceUnavailable.String(), p.UserID)
rp.presence.Delete(key)
}
return true
})
time.Sleep(cleanupTime)
}
}
// set a unix timestamp of when it last saw the types
// this way it can filter based on time
type PresenceMap struct {
mu sync.Mutex
seen map[string]map[types.Presence]time.Time
}
var lastPresence PresenceMap
// how long before the online status expires
// should be long enough that any client will have another sync before expiring
const presenceTimeout = time.Second * 10
// updatePresence sends presence updates to the SyncAPI and FederationAPI
func (rp *RequestPool) updatePresence(db storage.Presence, presence string, userID string) {
// allow checking back on presence to set offline if needed
rp.updatePresenceInternal(db, presence, userID, true)
}
func (rp *RequestPool) updatePresenceInternal(db storage.Presence, presence string, userID string, checkAgain bool) {
if !rp.cfg.Matrix.Presence.EnableOutbound {
return
}
// lock the map to this thread
lastPresence.mu.Lock()
defer lastPresence.mu.Unlock()
if presence == "" {
presence = types.PresenceOnline.String()
}
presenceID, ok := types.PresenceFromString(presence)
if !ok { // this should almost never happen
return
}
newPresence := types.PresenceInternal{
Presence: presenceID,
UserID: userID,
LastActiveTS: spec.AsTimestamp(time.Now()),
}
// make sure that the map is defined correctly as needed
if lastPresence.seen == nil {
lastPresence.seen = make(map[string]map[types.Presence]time.Time)
}
if lastPresence.seen[userID] == nil {
lastPresence.seen[userID] = make(map[types.Presence]time.Time)
}
now := time.Now()
// update time for each presence
lastPresence.seen[userID][presenceID] = now
// Default to unknown presence
presenceToSet := types.PresenceUnknown
switch {
case now.Sub(lastPresence.seen[userID][types.PresenceOnline]) < presenceTimeout:
// online will always get priority
presenceToSet = types.PresenceOnline
case now.Sub(lastPresence.seen[userID][types.PresenceUnavailable]) < presenceTimeout:
// idle gets secondary priority because your presence shouldnt be idle if you are on a different device
// kinda copying discord presence
presenceToSet = types.PresenceUnavailable
case now.Sub(lastPresence.seen[userID][types.PresenceOffline]) < presenceTimeout:
// only set offline status if there is no known online devices
// clients may set offline to attempt to not alter the online status of the user
presenceToSet = types.PresenceOffline
if checkAgain {
// after a timeout, check presence again to make sure it gets set as offline sooner or later
time.AfterFunc(presenceTimeout, func() {
rp.updatePresenceInternal(db, types.PresenceOffline.String(), userID, false)
})
}
}
// ensure we also send the current status_msg to federated servers and not nil
dbPresence, err := db.GetPresences(context.Background(), []string{userID})
if err != nil && err != sql.ErrNoRows {
return
}
if len(dbPresence) > 0 && dbPresence[0] != nil {
newPresence.ClientFields = dbPresence[0].ClientFields
}
newPresence.ClientFields.Presence = presenceToSet.String()
defer rp.presence.Store(userID, newPresence)
// avoid spamming presence updates when syncing
existingPresence, ok := rp.presence.LoadOrStore(userID, newPresence)
if ok {
p := existingPresence.(types.PresenceInternal)
if p.ClientFields.Presence == newPresence.ClientFields.Presence {
return
}
}
if err := rp.producer.SendPresence(userID, presenceToSet, newPresence.ClientFields.StatusMsg); err != nil {
logrus.WithError(err).Error("Unable to publish presence message from sync")
return
}
// now synchronously update our view of the world. It's critical we do this before calculating
// the /sync response else we may not return presence: online immediately.
rp.consumer.EmitPresence(
context.Background(), userID, presenceToSet, newPresence.ClientFields.StatusMsg,
spec.AsTimestamp(time.Now()), true,
)
}
func (rp *RequestPool) updateLastSeen(req *http.Request, device *userapi.Device) {
if _, ok := rp.lastseen.LoadOrStore(device.UserID+device.ID, struct{}{}); ok {
return
}
remoteAddr := req.RemoteAddr
if rp.cfg.RealIPHeader != "" {
if header := req.Header.Get(rp.cfg.RealIPHeader); header != "" {
// TODO: Maybe this isn't great but it will satisfy both X-Real-IP
// and X-Forwarded-For (which can be a list where the real client
// address is the first listed address). Make more intelligent?
addresses := strings.Split(header, ",")
if ip := net.ParseIP(addresses[0]); ip != nil {
remoteAddr = addresses[0]
}
}
}
lsreq := &userapi.PerformLastSeenUpdateRequest{
UserID: device.UserID,
DeviceID: device.ID,
RemoteAddr: remoteAddr,
UserAgent: req.UserAgent(),
}
lsres := &userapi.PerformLastSeenUpdateResponse{}
go rp.userAPI.PerformLastSeenUpdate(req.Context(), lsreq, lsres) // nolint:errcheck
rp.lastseen.Store(device.UserID+device.ID, time.Now())
}
var activeSyncRequests = prometheus.NewGauge(
prometheus.GaugeOpts{
Namespace: "dendrite",
Subsystem: "syncapi",
Name: "active_sync_requests",
Help: "The number of sync requests that are active right now",
},
)
var waitingSyncRequests = prometheus.NewGauge(
prometheus.GaugeOpts{
Namespace: "dendrite",
Subsystem: "syncapi",
Name: "waiting_sync_requests",
Help: "The number of sync requests that are waiting to be woken by a notifier",
},
)
// OnIncomingSyncRequest is called when a client makes a /sync request. This function MUST be
// called in a dedicated goroutine for this request. This function will block the goroutine
// until a response is ready, or it times out.
func (rp *RequestPool) OnIncomingSyncRequest(req *http.Request, device *userapi.Device) util.JSONResponse {
// Extract values from request
syncReq, err := newSyncRequest(req, *device, rp.db)
if err != nil {
if err == types.ErrMalformedSyncToken {
return util.JSONResponse{
Code: http.StatusBadRequest,
JSON: spec.InvalidParam(err.Error()),
}
}
return util.JSONResponse{
Code: http.StatusBadRequest,
JSON: spec.Unknown(err.Error()),
}
}
activeSyncRequests.Inc()
defer activeSyncRequests.Dec()
rp.updateLastSeen(req, device)
rp.updatePresence(rp.db, req.FormValue("set_presence"), device.UserID)
waitingSyncRequests.Inc()
defer waitingSyncRequests.Dec()
// Clean up old send-to-device messages from before this stream position.
// This is needed to avoid sending the same message multiple times
if err = rp.db.CleanSendToDeviceUpdates(syncReq.Context, syncReq.Device.UserID, syncReq.Device.ID, syncReq.Since.SendToDevicePosition); err != nil {
syncReq.Log.WithError(err).Error("p.DB.CleanSendToDeviceUpdates failed")
}
// loop until we get some data
for {
startTime := time.Now()
currentPos := rp.Notifier.CurrentPosition()
// if the since token matches the current positions, wait via the notifier
if !rp.shouldReturnImmediately(syncReq, currentPos) {
timer := time.NewTimer(syncReq.Timeout) // case of timeout=0 is handled above
defer timer.Stop()
userStreamListener := rp.Notifier.GetListener(*syncReq)
defer userStreamListener.Close()
giveup := func() util.JSONResponse {
syncReq.Log.Debugln("Responding to sync since client gave up or timeout was reached")
syncReq.Response.NextBatch = syncReq.Since
// We should always try to include OTKs in sync responses, otherwise clients might upload keys
// even if that's not required. See also:
// https://github.com/matrix-org/synapse/blob/29f06704b8871a44926f7c99e73cf4a978fb8e81/synapse/rest/client/sync.py#L276-L281
// Only try to get OTKs if the context isn't already done.
if syncReq.Context.Err() == nil {
err = internal.DeviceOTKCounts(syncReq.Context, rp.userAPI, syncReq.Device.UserID, syncReq.Device.ID, syncReq.Response)
if err != nil && err != context.Canceled {
syncReq.Log.WithError(err).Warn("failed to get OTK counts")
}
}
return util.JSONResponse{
Code: http.StatusOK,
JSON: syncReq.Response,
}
}
select {
case <-syncReq.Context.Done(): // Caller gave up
return giveup()
case <-timer.C: // Timeout reached
return giveup()
case <-userStreamListener.GetNotifyChannel(syncReq.Since):
currentPos.ApplyUpdates(userStreamListener.GetSyncPosition())
syncReq.Log.WithField("currentPos", currentPos).Debugln("Responding to sync after wake-up")
}
} else {
syncReq.Log.WithField("currentPos", currentPos).Debugln("Responding to sync immediately")
}
withTransaction := func(from types.StreamPosition, f func(snapshot storage.DatabaseTransaction) types.StreamPosition) types.StreamPosition {
var succeeded bool
snapshot, err := rp.db.NewDatabaseSnapshot(req.Context())
if err != nil {
logrus.WithError(err).Error("Failed to acquire database snapshot for sync request")
return from
}
defer func() {
succeeded = err == nil
sqlutil.EndTransactionWithCheck(snapshot, &succeeded, &err)
}()
return f(snapshot)
}
if syncReq.Since.IsEmpty() {
// Complete sync
syncReq.Response.NextBatch = types.StreamingToken{
// Get the current DeviceListPosition first, as the currentPosition
// might advance while processing other streams, resulting in flakey
// tests.
DeviceListPosition: withTransaction(
syncReq.Since.DeviceListPosition,
func(txn storage.DatabaseTransaction) types.StreamPosition {
return rp.streams.DeviceListStreamProvider.CompleteSync(
syncReq.Context, txn, syncReq,
)
},
),
PDUPosition: withTransaction(
syncReq.Since.PDUPosition,
func(txn storage.DatabaseTransaction) types.StreamPosition {
return rp.streams.PDUStreamProvider.CompleteSync(
syncReq.Context, txn, syncReq,
)
},
),
TypingPosition: withTransaction(
syncReq.Since.TypingPosition,
func(txn storage.DatabaseTransaction) types.StreamPosition {
return rp.streams.TypingStreamProvider.CompleteSync(
syncReq.Context, txn, syncReq,
)
},
),
ReceiptPosition: withTransaction(
syncReq.Since.ReceiptPosition,
func(txn storage.DatabaseTransaction) types.StreamPosition {
return rp.streams.ReceiptStreamProvider.CompleteSync(
syncReq.Context, txn, syncReq,
)
},
),
InvitePosition: withTransaction(
syncReq.Since.InvitePosition,
func(txn storage.DatabaseTransaction) types.StreamPosition {
return rp.streams.InviteStreamProvider.CompleteSync(
syncReq.Context, txn, syncReq,
)
},
),
SendToDevicePosition: withTransaction(
syncReq.Since.SendToDevicePosition,
func(txn storage.DatabaseTransaction) types.StreamPosition {
return rp.streams.SendToDeviceStreamProvider.CompleteSync(
syncReq.Context, txn, syncReq,
)
},
),
AccountDataPosition: withTransaction(
syncReq.Since.AccountDataPosition,
func(txn storage.DatabaseTransaction) types.StreamPosition {
return rp.streams.AccountDataStreamProvider.CompleteSync(
syncReq.Context, txn, syncReq,
)
},
),
NotificationDataPosition: withTransaction(
syncReq.Since.NotificationDataPosition,
func(txn storage.DatabaseTransaction) types.StreamPosition {
return rp.streams.NotificationDataStreamProvider.CompleteSync(
syncReq.Context, txn, syncReq,
)
},
),
PresencePosition: withTransaction(
syncReq.Since.PresencePosition,
func(txn storage.DatabaseTransaction) types.StreamPosition {
return rp.streams.PresenceStreamProvider.CompleteSync(
syncReq.Context, txn, syncReq,
)
},
),
}
} else {
// Incremental sync
syncReq.Response.NextBatch = types.StreamingToken{
PDUPosition: withTransaction(
syncReq.Since.PDUPosition,
func(txn storage.DatabaseTransaction) types.StreamPosition {
return rp.streams.PDUStreamProvider.IncrementalSync(
syncReq.Context, txn, syncReq,
syncReq.Since.PDUPosition, rp.Notifier.CurrentPosition().PDUPosition,
)
},
),
TypingPosition: withTransaction(
syncReq.Since.TypingPosition,
func(txn storage.DatabaseTransaction) types.StreamPosition {
return rp.streams.TypingStreamProvider.IncrementalSync(
syncReq.Context, txn, syncReq,
syncReq.Since.TypingPosition, rp.Notifier.CurrentPosition().TypingPosition,
)
},
),
ReceiptPosition: withTransaction(
syncReq.Since.ReceiptPosition,
func(txn storage.DatabaseTransaction) types.StreamPosition {
return rp.streams.ReceiptStreamProvider.IncrementalSync(
syncReq.Context, txn, syncReq,
syncReq.Since.ReceiptPosition, rp.Notifier.CurrentPosition().ReceiptPosition,
)
},
),
InvitePosition: withTransaction(
syncReq.Since.InvitePosition,
func(txn storage.DatabaseTransaction) types.StreamPosition {
return rp.streams.InviteStreamProvider.IncrementalSync(
syncReq.Context, txn, syncReq,
syncReq.Since.InvitePosition, rp.Notifier.CurrentPosition().InvitePosition,
)
},
),
SendToDevicePosition: withTransaction(
syncReq.Since.SendToDevicePosition,
func(txn storage.DatabaseTransaction) types.StreamPosition {
return rp.streams.SendToDeviceStreamProvider.IncrementalSync(
syncReq.Context, txn, syncReq,
syncReq.Since.SendToDevicePosition, rp.Notifier.CurrentPosition().SendToDevicePosition,
)
},
),
AccountDataPosition: withTransaction(
syncReq.Since.AccountDataPosition,
func(txn storage.DatabaseTransaction) types.StreamPosition {
return rp.streams.AccountDataStreamProvider.IncrementalSync(
syncReq.Context, txn, syncReq,
syncReq.Since.AccountDataPosition, rp.Notifier.CurrentPosition().AccountDataPosition,
)
},
),
NotificationDataPosition: withTransaction(
syncReq.Since.NotificationDataPosition,
func(txn storage.DatabaseTransaction) types.StreamPosition {
return rp.streams.NotificationDataStreamProvider.IncrementalSync(
syncReq.Context, txn, syncReq,
syncReq.Since.NotificationDataPosition, rp.Notifier.CurrentPosition().NotificationDataPosition,
)
},
),
DeviceListPosition: withTransaction(
syncReq.Since.DeviceListPosition,
func(txn storage.DatabaseTransaction) types.StreamPosition {
return rp.streams.DeviceListStreamProvider.IncrementalSync(
syncReq.Context, txn, syncReq,
syncReq.Since.DeviceListPosition, rp.Notifier.CurrentPosition().DeviceListPosition,
)
},
),
PresencePosition: withTransaction(
syncReq.Since.PresencePosition,
func(txn storage.DatabaseTransaction) types.StreamPosition {
return rp.streams.PresenceStreamProvider.IncrementalSync(
syncReq.Context, txn, syncReq,
syncReq.Since.PresencePosition, rp.Notifier.CurrentPosition().PresencePosition,
)
},
),
}
// it's possible for there to be no updates for this user even though since < current pos,
// e.g busy servers with a quiet user. In this scenario, we don't want to return a no-op
// response immediately, so let's try this again but pretend they bumped their since token.
// If the incremental sync was processed very quickly then we expect the next loop to block
// with a notifier, but if things are slow it's entirely possible that currentPos is no
// longer the current position so we will hit this code path again. We need to do this and
// not return a no-op response because:
// - It's an inefficient use of bandwidth.
// - Some sytests which test 'waking up' sync rely on some sync requests to block, which
// they weren't always doing, resulting in flakey tests.
if !syncReq.Response.HasUpdates() {
syncReq.Since = currentPos
// do not loop again if the ?timeout= is 0 as that means "return immediately"
if syncReq.Timeout > 0 {
syncReq.Timeout = syncReq.Timeout - time.Since(startTime)
if syncReq.Timeout < 0 {
syncReq.Timeout = 0
}
continue
}
}
}
return util.JSONResponse{
Code: http.StatusOK,
JSON: syncReq.Response,
}
}
}
func (rp *RequestPool) OnIncomingKeyChangeRequest(req *http.Request, device *userapi.Device) util.JSONResponse {
from := req.URL.Query().Get("from")
to := req.URL.Query().Get("to")
if from == "" || to == "" {
return util.JSONResponse{
Code: 400,
JSON: spec.InvalidParam("missing ?from= or ?to="),
}
}
fromToken, err := types.NewStreamTokenFromString(from)
if err != nil {
return util.JSONResponse{
Code: 400,
JSON: spec.InvalidParam("bad 'from' value"),
}
}
toToken, err := types.NewStreamTokenFromString(to)
if err != nil {
return util.JSONResponse{
Code: 400,
JSON: spec.InvalidParam("bad 'to' value"),
}
}
syncReq, err := newSyncRequest(req, *device, rp.db)
if err != nil {
util.GetLogger(req.Context()).WithError(err).Error("newSyncRequest failed")
return util.JSONResponse{
Code: http.StatusInternalServerError,
JSON: spec.InternalServerError{},
}
}
snapshot, err := rp.db.NewDatabaseSnapshot(req.Context())
if err != nil {
logrus.WithError(err).Error("Failed to acquire database snapshot for key change")
return util.JSONResponse{
Code: http.StatusInternalServerError,
JSON: spec.InternalServerError{},
}
}
var succeeded bool
defer sqlutil.EndTransactionWithCheck(snapshot, &succeeded, &err)
rp.streams.PDUStreamProvider.IncrementalSync(req.Context(), snapshot, syncReq, fromToken.PDUPosition, toToken.PDUPosition)
_, _, err = internal.DeviceListCatchup(
req.Context(), snapshot, rp.userAPI, rp.rsAPI, syncReq.Device.UserID,
syncReq.Response, fromToken.DeviceListPosition, toToken.DeviceListPosition,
)
if err != nil {
util.GetLogger(req.Context()).WithError(err).Error("Failed to DeviceListCatchup info")
return util.JSONResponse{
Code: http.StatusInternalServerError,
JSON: spec.InternalServerError{},
}
}
succeeded = true
return util.JSONResponse{
Code: 200,
JSON: struct {
Changed []string `json:"changed"`
Left []string `json:"left"`
}{
Changed: syncReq.Response.DeviceLists.Changed,
Left: syncReq.Response.DeviceLists.Left,
},
}
}
// shouldReturnImmediately returns whether the /sync request is an initial sync,
// or timeout=0, or full_state=true, in any of the cases the request should
// return immediately.
func (rp *RequestPool) shouldReturnImmediately(syncReq *types.SyncRequest, currentPos types.StreamingToken) bool {
if currentPos.IsAfter(syncReq.Since) || syncReq.Timeout == 0 || syncReq.WantFullState {
return true
}
return false
}
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