dendrite/syncapi/types/types.go
Till eb29a31550
Optimize /sync and history visibility (#2961)
Should fix the following issues or make a lot less worse when using
Postgres:

The main issue behind #2911: The client gives up after a certain time,
causing a cascade of context errors, because the response couldn't be
built up fast enough. This mostly happens on accounts with many rooms,
due to the inefficient way we're getting recent events and current state

For #2777: The queries for getting the membership events for history
visibility were being executed for each room (I think 185?), resulting
in a whooping 2k queries for membership events. (Getting the
statesnapshot -> block nids -> actual wanted membership event)

Both should now be better by:
- Using a LATERAL join to get all recent events for all joined rooms in
one go (TODO: maybe do the same for room summary and current state etc)
- If we're lazy loading on initial syncs, we're now not getting the
whole current state, just to drop the majority of it because we're lazy
loading members - we add a filter to exclude membership events on the
first call to `CurrentState`.
- Using an optimized query to get the membership events needed to
calculate history visibility

---------

Co-authored-by: kegsay <kegan@matrix.org>
2023-02-07 14:31:23 +01:00

631 lines
19 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 types
import (
"encoding/json"
"errors"
"fmt"
"strconv"
"strings"
"github.com/matrix-org/gomatrixserverlib"
"github.com/tidwall/gjson"
"github.com/matrix-org/dendrite/roomserver/api"
)
var (
// This error is returned when parsing sync tokens if the token is invalid. Callers can use this
// error to detect whether to 400 or 401 the client. It is recommended to 401 them to force a
// logout.
ErrMalformedSyncToken = errors.New("malformed sync token")
)
type StateDelta struct {
RoomID string
StateEvents []*gomatrixserverlib.HeaderedEvent
NewlyJoined bool
Membership string
// The PDU stream position of the latest membership event for this user, if applicable.
// Can be 0 if there is no membership event in this delta.
MembershipPos StreamPosition
}
// StreamPosition represents the offset in the sync stream a client is at.
type StreamPosition int64
func NewStreamPositionFromString(s string) (StreamPosition, error) {
n, err := strconv.Atoi(s)
if err != nil {
return 0, err
}
return StreamPosition(n), nil
}
// StreamEvent is the same as gomatrixserverlib.Event but also has the PDU stream position for this event.
type StreamEvent struct {
*gomatrixserverlib.HeaderedEvent
StreamPosition StreamPosition
TransactionID *api.TransactionID
ExcludeFromSync bool
}
type RecentEvents struct {
Limited bool
Events []StreamEvent
}
// Range represents a range between two stream positions.
type Range struct {
// From is the position the client has already received.
From StreamPosition
// To is the position the client is going towards.
To StreamPosition
// True if the client is going backwards
Backwards bool
}
// Low returns the low number of the range.
// This represents the position the client already has and hence is exclusive.
func (r *Range) Low() StreamPosition {
if !r.Backwards {
return r.From
}
return r.To
}
// High returns the high number of the range
// This represents the position the client is going towards and hence is inclusive.
func (r *Range) High() StreamPosition {
if !r.Backwards {
return r.To
}
return r.From
}
// SyncTokenType represents the type of a sync token.
// It can be either "s" (representing a position in the whole stream of events)
// or "t" (representing a position in a room's topology/depth).
type SyncTokenType string
const (
// SyncTokenTypeStream represents a position in the server's whole
// stream of events
SyncTokenTypeStream SyncTokenType = "s"
// SyncTokenTypeTopology represents a position in a room's topology.
SyncTokenTypeTopology SyncTokenType = "t"
)
type StreamingToken struct {
PDUPosition StreamPosition
TypingPosition StreamPosition
ReceiptPosition StreamPosition
SendToDevicePosition StreamPosition
InvitePosition StreamPosition
AccountDataPosition StreamPosition
DeviceListPosition StreamPosition
NotificationDataPosition StreamPosition
PresencePosition StreamPosition
}
// This will be used as a fallback by json.Marshal.
func (s StreamingToken) MarshalText() ([]byte, error) {
return []byte(s.String()), nil
}
// This will be used as a fallback by json.Unmarshal.
func (s *StreamingToken) UnmarshalText(text []byte) (err error) {
*s, err = NewStreamTokenFromString(string(text))
return err
}
func (t StreamingToken) String() string {
posStr := fmt.Sprintf(
"s%d_%d_%d_%d_%d_%d_%d_%d_%d",
t.PDUPosition, t.TypingPosition,
t.ReceiptPosition, t.SendToDevicePosition,
t.InvitePosition, t.AccountDataPosition,
t.DeviceListPosition, t.NotificationDataPosition,
t.PresencePosition,
)
return posStr
}
// IsAfter returns true if ANY position in this token is greater than `other`.
func (t *StreamingToken) IsAfter(other StreamingToken) bool {
switch {
case t.PDUPosition > other.PDUPosition:
return true
case t.TypingPosition > other.TypingPosition:
return true
case t.ReceiptPosition > other.ReceiptPosition:
return true
case t.SendToDevicePosition > other.SendToDevicePosition:
return true
case t.InvitePosition > other.InvitePosition:
return true
case t.AccountDataPosition > other.AccountDataPosition:
return true
case t.DeviceListPosition > other.DeviceListPosition:
return true
case t.NotificationDataPosition > other.NotificationDataPosition:
return true
case t.PresencePosition > other.PresencePosition:
return true
}
return false
}
func (t *StreamingToken) IsEmpty() bool {
return t == nil || t.PDUPosition+t.TypingPosition+t.ReceiptPosition+t.SendToDevicePosition+t.InvitePosition+t.AccountDataPosition+t.DeviceListPosition+t.NotificationDataPosition+t.PresencePosition == 0
}
// WithUpdates returns a copy of the StreamingToken with updates applied from another StreamingToken.
// If the latter StreamingToken contains a field that is not 0, it is considered an update,
// and its value will replace the corresponding value in the StreamingToken on which WithUpdates is called.
// If the other token has a log, they will replace any existing log on this token.
func (t *StreamingToken) WithUpdates(other StreamingToken) StreamingToken {
ret := *t
ret.ApplyUpdates(other)
return ret
}
// ApplyUpdates applies any changes from the supplied StreamingToken. If the supplied
// streaming token contains any positions that are not 0, they are considered updates
// and will overwrite the value in the token.
func (t *StreamingToken) ApplyUpdates(other StreamingToken) {
if other.PDUPosition > t.PDUPosition {
t.PDUPosition = other.PDUPosition
}
if other.TypingPosition > t.TypingPosition {
t.TypingPosition = other.TypingPosition
}
if other.ReceiptPosition > t.ReceiptPosition {
t.ReceiptPosition = other.ReceiptPosition
}
if other.SendToDevicePosition > t.SendToDevicePosition {
t.SendToDevicePosition = other.SendToDevicePosition
}
if other.InvitePosition > t.InvitePosition {
t.InvitePosition = other.InvitePosition
}
if other.AccountDataPosition > t.AccountDataPosition {
t.AccountDataPosition = other.AccountDataPosition
}
if other.DeviceListPosition > t.DeviceListPosition {
t.DeviceListPosition = other.DeviceListPosition
}
if other.NotificationDataPosition > t.NotificationDataPosition {
t.NotificationDataPosition = other.NotificationDataPosition
}
if other.PresencePosition > t.PresencePosition {
t.PresencePosition = other.PresencePosition
}
}
type TopologyToken struct {
Depth StreamPosition
PDUPosition StreamPosition
}
// This will be used as a fallback by json.Marshal.
func (t TopologyToken) MarshalText() ([]byte, error) {
return []byte(t.String()), nil
}
// This will be used as a fallback by json.Unmarshal.
func (t *TopologyToken) UnmarshalText(text []byte) (err error) {
*t, err = NewTopologyTokenFromString(string(text))
return err
}
func (t *TopologyToken) StreamToken() StreamingToken {
return StreamingToken{
PDUPosition: t.PDUPosition,
}
}
func (t TopologyToken) String() string {
if t.Depth <= 0 && t.PDUPosition <= 0 {
return ""
}
return fmt.Sprintf("t%d_%d", t.Depth, t.PDUPosition)
}
// Decrement the topology token to one event earlier.
func (t *TopologyToken) Decrement() {
depth := t.Depth
pduPos := t.PDUPosition
if depth-1 <= 0 {
// nothing can be lower than this
depth = 1
} else {
// this assumes that we will never have 1000 events all with the same
// depth. TODO: work out what the right PDU position is to use, probably needs a db hit.
depth--
pduPos += 1000
}
// The lowest token value is 1, therefore we need to manually set it to that
// value if we're below it.
if depth < 1 {
depth = 1
}
t.Depth = depth
t.PDUPosition = pduPos
}
func NewTopologyTokenFromString(tok string) (token TopologyToken, err error) {
if len(tok) < 1 {
err = fmt.Errorf("empty topology token")
return
}
if tok[0] != SyncTokenTypeTopology[0] {
err = fmt.Errorf("topology token must start with 't'")
return
}
parts := strings.Split(tok[1:], "_")
var positions [2]StreamPosition
for i, p := range parts {
if i > len(positions) {
break
}
var pos int
pos, err = strconv.Atoi(p)
if err != nil {
return
}
positions[i] = StreamPosition(pos)
}
token = TopologyToken{
Depth: positions[0],
PDUPosition: positions[1],
}
return
}
func NewStreamTokenFromString(tok string) (token StreamingToken, err error) {
if len(tok) < 1 {
err = ErrMalformedSyncToken
return
}
if tok[0] != SyncTokenTypeStream[0] {
err = ErrMalformedSyncToken
return
}
// Migration: Remove everything after and including '.' - we previously had tokens like:
// s478_0_0_0_0_13.dl-0-2 but we have now removed partitioned stream positions
tok = strings.Split(tok, ".")[0]
parts := strings.Split(tok[1:], "_")
var positions [9]StreamPosition
for i, p := range parts {
if i >= len(positions) {
break
}
var pos int
pos, err = strconv.Atoi(p)
if err != nil {
err = ErrMalformedSyncToken
return
}
positions[i] = StreamPosition(pos)
}
token = StreamingToken{
PDUPosition: positions[0],
TypingPosition: positions[1],
ReceiptPosition: positions[2],
SendToDevicePosition: positions[3],
InvitePosition: positions[4],
AccountDataPosition: positions[5],
DeviceListPosition: positions[6],
NotificationDataPosition: positions[7],
PresencePosition: positions[8],
}
return token, nil
}
// PrevEventRef represents a reference to a previous event in a state event upgrade
type PrevEventRef struct {
PrevContent json.RawMessage `json:"prev_content"`
ReplacesState string `json:"replaces_state"`
PrevSender string `json:"prev_sender"`
}
type DeviceLists struct {
Changed []string `json:"changed,omitempty"`
Left []string `json:"left,omitempty"`
}
type RoomsResponse struct {
Join map[string]*JoinResponse `json:"join,omitempty"`
Peek map[string]*JoinResponse `json:"peek,omitempty"`
Invite map[string]*InviteResponse `json:"invite,omitempty"`
Leave map[string]*LeaveResponse `json:"leave,omitempty"`
}
type ToDeviceResponse struct {
Events []gomatrixserverlib.SendToDeviceEvent `json:"events,omitempty"`
}
// Response represents a /sync API response. See https://matrix.org/docs/spec/client_server/r0.2.0.html#get-matrix-client-r0-sync
type Response struct {
NextBatch StreamingToken `json:"next_batch"`
AccountData *ClientEvents `json:"account_data,omitempty"`
Presence *ClientEvents `json:"presence,omitempty"`
Rooms *RoomsResponse `json:"rooms,omitempty"`
ToDevice *ToDeviceResponse `json:"to_device,omitempty"`
DeviceLists *DeviceLists `json:"device_lists,omitempty"`
DeviceListsOTKCount map[string]int `json:"device_one_time_keys_count,omitempty"`
}
func (r Response) MarshalJSON() ([]byte, error) {
type alias Response
a := alias(r)
if r.AccountData != nil && len(r.AccountData.Events) == 0 {
a.AccountData = nil
}
if r.Presence != nil && len(r.Presence.Events) == 0 {
a.Presence = nil
}
if r.DeviceLists != nil {
if len(r.DeviceLists.Left) == 0 && len(r.DeviceLists.Changed) == 0 {
a.DeviceLists = nil
}
}
if r.Rooms != nil {
if len(r.Rooms.Join) == 0 && len(r.Rooms.Peek) == 0 &&
len(r.Rooms.Invite) == 0 && len(r.Rooms.Leave) == 0 {
a.Rooms = nil
}
}
if r.ToDevice != nil && len(r.ToDevice.Events) == 0 {
a.ToDevice = nil
}
return json.Marshal(a)
}
func (r *Response) HasUpdates() bool {
// purposefully exclude DeviceListsOTKCount as we always include them
return (len(r.AccountData.Events) > 0 ||
len(r.Presence.Events) > 0 ||
len(r.Rooms.Invite) > 0 ||
len(r.Rooms.Join) > 0 ||
len(r.Rooms.Leave) > 0 ||
len(r.Rooms.Peek) > 0 ||
len(r.ToDevice.Events) > 0 ||
len(r.DeviceLists.Changed) > 0 ||
len(r.DeviceLists.Left) > 0)
}
// NewResponse creates an empty response with initialised maps.
func NewResponse() *Response {
res := Response{}
// Pre-initialise the maps. Synapse will return {} even if there are no rooms under a specific section,
// so let's do the same thing. Bonus: this means we can't get dreaded 'assignment to entry in nil map' errors.
res.Rooms = &RoomsResponse{
Join: map[string]*JoinResponse{},
Peek: map[string]*JoinResponse{},
Invite: map[string]*InviteResponse{},
Leave: map[string]*LeaveResponse{},
}
// Also pre-intialise empty slices or else we'll insert 'null' instead of '[]' for the value.
// TODO: We really shouldn't have to do all this to coerce encoding/json to Do The Right Thing. We should
// really be using our own Marshal/Unmarshal implementations otherwise this may prove to be a CPU bottleneck.
// This also applies to NewJoinResponse, NewInviteResponse and NewLeaveResponse.
res.AccountData = &ClientEvents{}
res.Presence = &ClientEvents{}
res.DeviceLists = &DeviceLists{}
res.ToDevice = &ToDeviceResponse{}
res.DeviceListsOTKCount = map[string]int{}
return &res
}
// IsEmpty returns true if the response is empty, i.e. used to decided whether
// to return the response immediately to the client or to wait for more data.
func (r *Response) IsEmpty() bool {
return len(r.Rooms.Join) == 0 &&
len(r.Rooms.Invite) == 0 &&
len(r.Rooms.Leave) == 0 &&
len(r.AccountData.Events) == 0 &&
len(r.Presence.Events) == 0 &&
len(r.ToDevice.Events) == 0
}
type UnreadNotifications struct {
HighlightCount int `json:"highlight_count"`
NotificationCount int `json:"notification_count"`
}
type ClientEvents struct {
Events []gomatrixserverlib.ClientEvent `json:"events,omitempty"`
}
type Timeline struct {
Events []gomatrixserverlib.ClientEvent `json:"events"`
Limited bool `json:"limited"`
PrevBatch *TopologyToken `json:"prev_batch,omitempty"`
}
type Summary struct {
Heroes []string `json:"m.heroes,omitempty"`
JoinedMemberCount *int `json:"m.joined_member_count,omitempty"`
InvitedMemberCount *int `json:"m.invited_member_count,omitempty"`
}
// JoinResponse represents a /sync response for a room which is under the 'join' or 'peek' key.
type JoinResponse struct {
Summary *Summary `json:"summary,omitempty"`
State *ClientEvents `json:"state,omitempty"`
Timeline *Timeline `json:"timeline,omitempty"`
Ephemeral *ClientEvents `json:"ephemeral,omitempty"`
AccountData *ClientEvents `json:"account_data,omitempty"`
*UnreadNotifications `json:"unread_notifications,omitempty"`
}
func (jr JoinResponse) MarshalJSON() ([]byte, error) {
type alias JoinResponse
a := alias(jr)
if jr.State != nil && len(jr.State.Events) == 0 {
a.State = nil
}
if jr.Ephemeral != nil && len(jr.Ephemeral.Events) == 0 {
a.Ephemeral = nil
}
if jr.Ephemeral != nil {
// Remove the room_id from EDUs, as this seems to cause Element Web
// to trigger notifications - https://github.com/vector-im/element-web/issues/17263
for i := range jr.Ephemeral.Events {
jr.Ephemeral.Events[i].RoomID = ""
}
}
if jr.AccountData != nil && len(jr.AccountData.Events) == 0 {
a.AccountData = nil
}
if jr.Timeline != nil && len(jr.Timeline.Events) == 0 {
a.Timeline = nil
}
if jr.Summary != nil {
var nilPtr int
joinedEmpty := jr.Summary.JoinedMemberCount == nil || jr.Summary.JoinedMemberCount == &nilPtr
invitedEmpty := jr.Summary.InvitedMemberCount == nil || jr.Summary.InvitedMemberCount == &nilPtr
if joinedEmpty && invitedEmpty && len(jr.Summary.Heroes) == 0 {
a.Summary = nil
}
}
if jr.UnreadNotifications != nil {
// if everything else is nil, also remove UnreadNotifications
if a.State == nil && a.Ephemeral == nil && a.AccountData == nil && a.Timeline == nil && a.Summary == nil {
a.UnreadNotifications = nil
}
}
return json.Marshal(a)
}
// NewJoinResponse creates an empty response with initialised arrays.
func NewJoinResponse() *JoinResponse {
return &JoinResponse{
Summary: &Summary{},
State: &ClientEvents{},
Timeline: &Timeline{},
Ephemeral: &ClientEvents{},
AccountData: &ClientEvents{},
UnreadNotifications: &UnreadNotifications{},
}
}
// InviteResponse represents a /sync response for a room which is under the 'invite' key.
type InviteResponse struct {
InviteState struct {
Events []json.RawMessage `json:"events"`
} `json:"invite_state"`
}
// NewInviteResponse creates an empty response with initialised arrays.
func NewInviteResponse(event *gomatrixserverlib.HeaderedEvent) *InviteResponse {
res := InviteResponse{}
res.InviteState.Events = []json.RawMessage{}
// First see if there's invite_room_state in the unsigned key of the invite.
// If there is then unmarshal it into the response. This will contain the
// partial room state such as join rules, room name etc.
if inviteRoomState := gjson.GetBytes(event.Unsigned(), "invite_room_state"); inviteRoomState.Exists() {
_ = json.Unmarshal([]byte(inviteRoomState.Raw), &res.InviteState.Events)
}
// Then we'll see if we can create a partial of the invite event itself.
// This is needed for clients to work out *who* sent the invite.
inviteEvent := gomatrixserverlib.ToClientEvent(event.Unwrap(), gomatrixserverlib.FormatSync)
inviteEvent.Unsigned = nil
if ev, err := json.Marshal(inviteEvent); err == nil {
res.InviteState.Events = append(res.InviteState.Events, ev)
}
return &res
}
// LeaveResponse represents a /sync response for a room which is under the 'leave' key.
type LeaveResponse struct {
State *ClientEvents `json:"state,omitempty"`
Timeline *Timeline `json:"timeline,omitempty"`
}
func (lr LeaveResponse) MarshalJSON() ([]byte, error) {
type alias LeaveResponse
a := alias(lr)
if lr.State != nil && len(lr.State.Events) == 0 {
a.State = nil
}
if lr.Timeline != nil && len(lr.Timeline.Events) == 0 {
a.Timeline = nil
}
return json.Marshal(a)
}
// NewLeaveResponse creates an empty response with initialised arrays.
func NewLeaveResponse() *LeaveResponse {
res := LeaveResponse{
State: &ClientEvents{},
Timeline: &Timeline{},
}
return &res
}
type SendToDeviceEvent struct {
gomatrixserverlib.SendToDeviceEvent
ID StreamPosition
UserID string
DeviceID string
}
type PeekingDevice struct {
UserID string
DeviceID string
}
type Peek struct {
RoomID string
New bool
Deleted bool
}
// OutputReceiptEvent is an entry in the receipt output kafka log
type OutputReceiptEvent struct {
UserID string `json:"user_id"`
RoomID string `json:"room_id"`
EventID string `json:"event_id"`
Type string `json:"type"`
Timestamp gomatrixserverlib.Timestamp `json:"timestamp"`
}
// OutputSendToDeviceEvent is an entry in the send-to-device output kafka log.
// This contains the full event content, along with the user ID and device ID
// to which it is destined.
type OutputSendToDeviceEvent struct {
UserID string `json:"user_id"`
DeviceID string `json:"device_id"`
gomatrixserverlib.SendToDeviceEvent
}
type IgnoredUsers struct {
List map[string]interface{} `json:"ignored_users"`
}
type RelationEntry struct {
Position StreamPosition
EventID string
}