dendrite/roomserver/internal/input/input_membership.go

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// 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 input
import (
"context"
"fmt"
"github.com/matrix-org/dendrite/roomserver/api"
"github.com/matrix-org/dendrite/roomserver/internal/helpers"
"github.com/matrix-org/dendrite/roomserver/storage/shared"
"github.com/matrix-org/dendrite/roomserver/types"
"github.com/matrix-org/gomatrixserverlib"
)
// updateMembership updates the current membership and the invites for each
// user affected by a change in the current state of the room.
// Returns a list of output events to write to the kafka log to inform the
// consumers about the invites added or retired by the change in current state.
func (r *Inputer) updateMemberships(
ctx context.Context,
updater *shared.RoomUpdater,
removed, added []types.StateEntry,
) ([]api.OutputEvent, error) {
changes := membershipChanges(removed, added)
var eventNIDs []types.EventNID
for _, change := range changes {
if change.addedEventNID != 0 {
eventNIDs = append(eventNIDs, change.addedEventNID)
}
if change.removedEventNID != 0 {
eventNIDs = append(eventNIDs, change.removedEventNID)
}
}
// Load the event JSON so we can look up the "membership" key.
// TODO: Maybe add a membership key to the events table so we can load that
// key without having to load the entire event JSON?
events, err := r.DB.Events(ctx, eventNIDs)
if err != nil {
return nil, err
}
var updates []api.OutputEvent
for _, change := range changes {
var ae *gomatrixserverlib.Event
var re *gomatrixserverlib.Event
targetUserNID := change.EventStateKeyNID
if change.removedEventNID != 0 {
ev, _ := helpers.EventMap(events).Lookup(change.removedEventNID)
if ev != nil {
re = ev.Event
}
}
if change.addedEventNID != 0 {
ev, _ := helpers.EventMap(events).Lookup(change.addedEventNID)
if ev != nil {
ae = ev.Event
}
}
if updates, err = r.updateMembership(updater, targetUserNID, re, ae, updates); err != nil {
return nil, err
}
}
return updates, nil
}
func (r *Inputer) updateMembership(
updater *shared.RoomUpdater,
targetUserNID types.EventStateKeyNID,
remove, add *gomatrixserverlib.Event,
updates []api.OutputEvent,
) ([]api.OutputEvent, error) {
var err error
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// Default the membership to Leave if no event was added or removed.
oldMembership := gomatrixserverlib.Leave
newMembership := gomatrixserverlib.Leave
if remove != nil {
oldMembership, err = remove.Membership()
if err != nil {
return nil, err
}
}
if add != nil {
newMembership, err = add.Membership()
if err != nil {
return nil, err
}
}
if oldMembership == newMembership && newMembership != gomatrixserverlib.Join {
// If the membership is the same then nothing changed and we can return
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// immediately, unless it's a Join update (e.g. profile update).
return updates, nil
}
// In an ideal world, we shouldn't ever have "add" be nil and "remove" be
// set, as this implies that we're deleting a state event without replacing
// it (a thing that ordinarily shouldn't happen in Matrix). However, state
// resets are sadly a thing occasionally and we have to account for that.
// Beforehand there used to be a check here which stopped dead if we hit
// this scenario, but that meant that the membership table got out of sync
// after a state reset, often thinking that the user was still joined to
// the room even though the room state said otherwise, and this would prevent
// the user from being able to attempt to rejoin the room without modifying
// the database. So instead what we'll do is we'll just update the membership
// table to say that the user is "leave" and we'll use the old event to
// avoid nil pointer exceptions on the code path that follows.
if add == nil {
add = remove
newMembership = gomatrixserverlib.Leave
}
mu, err := updater.MembershipUpdater(targetUserNID, r.isLocalTarget(add))
if err != nil {
return nil, err
}
switch newMembership {
case gomatrixserverlib.Invite:
return helpers.UpdateToInviteMembership(mu, add, updates, updater.RoomVersion())
case gomatrixserverlib.Join:
return updateToJoinMembership(mu, add, updates)
case gomatrixserverlib.Leave, gomatrixserverlib.Ban:
return updateToLeaveMembership(mu, add, newMembership, updates)
case gomatrixserverlib.Knock:
return updateToKnockMembership(mu, add, updates)
default:
panic(fmt.Errorf(
"input: membership %q is not one of the allowed values", newMembership,
))
}
}
func (r *Inputer) isLocalTarget(event *gomatrixserverlib.Event) bool {
isTargetLocalUser := false
if statekey := event.StateKey(); statekey != nil {
_, domain, _ := gomatrixserverlib.SplitID('@', *statekey)
isTargetLocalUser = domain == r.ServerName
}
return isTargetLocalUser
}
func updateToJoinMembership(
mu *shared.MembershipUpdater, add *gomatrixserverlib.Event, updates []api.OutputEvent,
) ([]api.OutputEvent, error) {
// If the user is already marked as being joined, we call SetToJoin to update
// the event ID then we can return immediately. Retired is ignored as there
// is no invite event to retire.
if mu.IsJoin() {
_, err := mu.SetToJoin(add.Sender(), add.EventID(), true)
if err != nil {
return nil, err
}
return updates, nil
}
// When we mark a user as being joined we will invalidate any invites that
// are active for that user. We notify the consumers that the invites have
// been retired using a special event, even though they could infer this
// by studying the state changes in the room event stream.
retired, err := mu.SetToJoin(add.Sender(), add.EventID(), false)
if err != nil {
return nil, err
}
for _, eventID := range retired {
orie := api.OutputRetireInviteEvent{
EventID: eventID,
Membership: gomatrixserverlib.Join,
RetiredByEventID: add.EventID(),
TargetUserID: *add.StateKey(),
}
updates = append(updates, api.OutputEvent{
Type: api.OutputTypeRetireInviteEvent,
RetireInviteEvent: &orie,
})
}
return updates, nil
}
func updateToLeaveMembership(
mu *shared.MembershipUpdater, add *gomatrixserverlib.Event,
newMembership string, updates []api.OutputEvent,
) ([]api.OutputEvent, error) {
// If the user is already neither joined, nor invited to the room then we
// can return immediately.
if mu.IsLeave() {
return updates, nil
}
// When we mark a user as having left we will invalidate any invites that
// are active for that user. We notify the consumers that the invites have
// been retired using a special event, even though they could infer this
// by studying the state changes in the room event stream.
retired, err := mu.SetToLeave(add.Sender(), add.EventID())
if err != nil {
return nil, err
}
for _, eventID := range retired {
orie := api.OutputRetireInviteEvent{
EventID: eventID,
Membership: newMembership,
RetiredByEventID: add.EventID(),
TargetUserID: *add.StateKey(),
}
updates = append(updates, api.OutputEvent{
Type: api.OutputTypeRetireInviteEvent,
RetireInviteEvent: &orie,
})
}
return updates, nil
}
func updateToKnockMembership(
mu *shared.MembershipUpdater, add *gomatrixserverlib.Event, updates []api.OutputEvent,
) ([]api.OutputEvent, error) {
if mu.IsLeave() {
_, err := mu.SetToKnock(add)
if err != nil {
return nil, err
}
}
return updates, nil
}
// membershipChanges pairs up the membership state changes.
func membershipChanges(removed, added []types.StateEntry) []stateChange {
changes := pairUpChanges(removed, added)
var result []stateChange
for _, c := range changes {
if c.EventTypeNID == types.MRoomMemberNID {
result = append(result, c)
}
}
return result
}
type stateChange struct {
types.StateKeyTuple
removedEventNID types.EventNID
addedEventNID types.EventNID
}
// pairUpChanges pairs up the state events added and removed for each type,
// state key tuple.
func pairUpChanges(removed, added []types.StateEntry) []stateChange {
tuples := make(map[types.StateKeyTuple]stateChange)
changes := []stateChange{}
// First, go through the newly added state entries.
for _, add := range added {
if change, ok := tuples[add.StateKeyTuple]; ok {
// If we already have an entry, update it.
change.addedEventNID = add.EventNID
tuples[add.StateKeyTuple] = change
} else {
// Otherwise, create a new entry.
tuples[add.StateKeyTuple] = stateChange{add.StateKeyTuple, 0, add.EventNID}
}
}
// Now go through the removed state entries.
for _, remove := range removed {
if change, ok := tuples[remove.StateKeyTuple]; ok {
// If we already have an entry, update it.
change.removedEventNID = remove.EventNID
tuples[remove.StateKeyTuple] = change
} else {
// Otherwise, create a new entry.
tuples[remove.StateKeyTuple] = stateChange{remove.StateKeyTuple, remove.EventNID, 0}
}
}
// Now return the changes as an array.
for _, change := range tuples {
changes = append(changes, change)
}
return changes
}