dendrite/syncapi/storage/shared/storage_sync.go

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package shared
import (
"context"
"database/sql"
"fmt"
"math"
"github.com/matrix-org/gomatrixserverlib/spec"
"github.com/tidwall/gjson"
"github.com/matrix-org/dendrite/internal/eventutil"
rstypes "github.com/matrix-org/dendrite/roomserver/types"
"github.com/matrix-org/dendrite/syncapi/synctypes"
"github.com/matrix-org/dendrite/syncapi/types"
userapi "github.com/matrix-org/dendrite/userapi/api"
)
type DatabaseTransaction struct {
*Database
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ctx context.Context
txn *sql.Tx
}
func (d *DatabaseTransaction) Commit() error {
if d.txn == nil {
return nil
}
return d.txn.Commit()
}
func (d *DatabaseTransaction) Rollback() error {
if d.txn == nil {
return nil
}
return d.txn.Rollback()
}
func (d *DatabaseTransaction) MaxStreamPositionForPDUs(ctx context.Context) (types.StreamPosition, error) {
id, err := d.OutputEvents.SelectMaxEventID(ctx, d.txn)
if err != nil {
return 0, fmt.Errorf("d.OutputEvents.SelectMaxEventID: %w", err)
}
return types.StreamPosition(id), nil
}
func (d *DatabaseTransaction) MaxStreamPositionForReceipts(ctx context.Context) (types.StreamPosition, error) {
id, err := d.Receipts.SelectMaxReceiptID(ctx, d.txn)
if err != nil {
return 0, fmt.Errorf("d.Receipts.SelectMaxReceiptID: %w", err)
}
return types.StreamPosition(id), nil
}
func (d *DatabaseTransaction) MaxStreamPositionForInvites(ctx context.Context) (types.StreamPosition, error) {
id, err := d.Invites.SelectMaxInviteID(ctx, d.txn)
if err != nil {
return 0, fmt.Errorf("d.Invites.SelectMaxInviteID: %w", err)
}
return types.StreamPosition(id), nil
}
func (d *DatabaseTransaction) MaxStreamPositionForSendToDeviceMessages(ctx context.Context) (types.StreamPosition, error) {
id, err := d.SendToDevice.SelectMaxSendToDeviceMessageID(ctx, d.txn)
if err != nil {
return 0, fmt.Errorf("d.SendToDevice.SelectMaxSendToDeviceMessageID: %w", err)
}
return types.StreamPosition(id), nil
}
func (d *DatabaseTransaction) MaxStreamPositionForAccountData(ctx context.Context) (types.StreamPosition, error) {
id, err := d.AccountData.SelectMaxAccountDataID(ctx, d.txn)
if err != nil {
return 0, fmt.Errorf("d.Invites.SelectMaxAccountDataID: %w", err)
}
return types.StreamPosition(id), nil
}
func (d *DatabaseTransaction) MaxStreamPositionForNotificationData(ctx context.Context) (types.StreamPosition, error) {
id, err := d.NotificationData.SelectMaxID(ctx, d.txn)
if err != nil {
return 0, fmt.Errorf("d.NotificationData.SelectMaxID: %w", err)
}
return types.StreamPosition(id), nil
}
func (d *DatabaseTransaction) CurrentState(ctx context.Context, roomID string, stateFilterPart *synctypes.StateFilter, excludeEventIDs []string) ([]*rstypes.HeaderedEvent, error) {
return d.CurrentRoomState.SelectCurrentState(ctx, d.txn, roomID, stateFilterPart, excludeEventIDs)
}
func (d *DatabaseTransaction) RoomIDsWithMembership(ctx context.Context, userID string, membership string) ([]string, error) {
return d.CurrentRoomState.SelectRoomIDsWithMembership(ctx, d.txn, userID, membership)
}
func (d *DatabaseTransaction) MembershipCount(ctx context.Context, roomID, membership string, pos types.StreamPosition) (int, error) {
return d.Memberships.SelectMembershipCount(ctx, d.txn, roomID, membership, pos)
}
func (d *DatabaseTransaction) GetRoomSummary(ctx context.Context, roomID, userID string) (*types.Summary, error) {
summary := &types.Summary{Heroes: []string{}}
joinCount, err := d.CurrentRoomState.SelectMembershipCount(ctx, d.txn, roomID, spec.Join)
if err != nil {
return summary, err
}
inviteCount, err := d.CurrentRoomState.SelectMembershipCount(ctx, d.txn, roomID, spec.Invite)
if err != nil {
return summary, err
}
summary.InvitedMemberCount = &inviteCount
summary.JoinedMemberCount = &joinCount
// Get the room name and canonical alias, if any
filter := synctypes.DefaultStateFilter()
filterTypes := []string{spec.MRoomName, spec.MRoomCanonicalAlias}
filterRooms := []string{roomID}
filter.Types = &filterTypes
filter.Rooms = &filterRooms
evs, err := d.CurrentRoomState.SelectCurrentState(ctx, d.txn, roomID, &filter, nil)
if err != nil {
return summary, err
}
for _, ev := range evs {
switch ev.Type() {
case spec.MRoomName:
if gjson.GetBytes(ev.Content(), "name").Str != "" {
return summary, nil
}
case spec.MRoomCanonicalAlias:
if gjson.GetBytes(ev.Content(), "alias").Str != "" {
return summary, nil
}
}
}
// If there's no room name or canonical alias, get the room heroes, excluding the user
heroes, err := d.CurrentRoomState.SelectRoomHeroes(ctx, d.txn, roomID, userID, []string{spec.Join, spec.Invite})
if err != nil {
return summary, err
}
// "When no joined or invited members are available, this should consist of the banned and left users"
if len(heroes) == 0 {
heroes, err = d.CurrentRoomState.SelectRoomHeroes(ctx, d.txn, roomID, userID, []string{spec.Leave, spec.Ban})
if err != nil {
return summary, err
}
}
summary.Heroes = heroes
return summary, nil
}
func (d *DatabaseTransaction) RecentEvents(ctx context.Context, roomIDs []string, r types.Range, eventFilter *synctypes.RoomEventFilter, chronologicalOrder bool, onlySyncEvents bool) (map[string]types.RecentEvents, error) {
return d.OutputEvents.SelectRecentEvents(ctx, d.txn, roomIDs, r, eventFilter, chronologicalOrder, onlySyncEvents)
}
func (d *DatabaseTransaction) PositionInTopology(ctx context.Context, eventID string) (pos types.StreamPosition, spos types.StreamPosition, err error) {
return d.Topology.SelectPositionInTopology(ctx, d.txn, eventID)
}
func (d *DatabaseTransaction) InviteEventsInRange(ctx context.Context, targetUserID string, r types.Range) (map[string]*rstypes.HeaderedEvent, map[string]*rstypes.HeaderedEvent, types.StreamPosition, error) {
return d.Invites.SelectInviteEventsInRange(ctx, d.txn, targetUserID, r)
}
func (d *DatabaseTransaction) PeeksInRange(ctx context.Context, userID, deviceID string, r types.Range) (peeks []types.Peek, err error) {
return d.Peeks.SelectPeeksInRange(ctx, d.txn, userID, deviceID, r)
}
func (d *DatabaseTransaction) RoomReceiptsAfter(ctx context.Context, roomIDs []string, streamPos types.StreamPosition) (types.StreamPosition, []types.OutputReceiptEvent, error) {
return d.Receipts.SelectRoomReceiptsAfter(ctx, d.txn, roomIDs, streamPos)
}
// Events lookups a list of event by their event ID.
// Returns a list of events matching the requested IDs found in the database.
// If an event is not found in the database then it will be omitted from the list.
// Returns an error if there was a problem talking with the database.
// Does not include any transaction IDs in the returned events.
func (d *DatabaseTransaction) Events(ctx context.Context, eventIDs []string) ([]*rstypes.HeaderedEvent, error) {
streamEvents, err := d.OutputEvents.SelectEvents(ctx, d.txn, eventIDs, nil, false)
if err != nil {
return nil, err
}
// We don't include a device here as we only include transaction IDs in
// incremental syncs.
return d.StreamEventsToEvents(nil, streamEvents), nil
}
func (d *DatabaseTransaction) AllJoinedUsersInRooms(ctx context.Context) (map[string][]string, error) {
return d.CurrentRoomState.SelectJoinedUsers(ctx, d.txn)
}
func (d *DatabaseTransaction) AllJoinedUsersInRoom(ctx context.Context, roomIDs []string) (map[string][]string, error) {
return d.CurrentRoomState.SelectJoinedUsersInRoom(ctx, d.txn, roomIDs)
}
func (d *DatabaseTransaction) AllPeekingDevicesInRooms(ctx context.Context) (map[string][]types.PeekingDevice, error) {
return d.Peeks.SelectPeekingDevices(ctx, d.txn)
}
func (d *DatabaseTransaction) SharedUsers(ctx context.Context, userID string, otherUserIDs []string) ([]string, error) {
return d.CurrentRoomState.SelectSharedUsers(ctx, d.txn, userID, otherUserIDs)
}
func (d *DatabaseTransaction) GetStateEvent(
ctx context.Context, roomID, evType, stateKey string,
) (*rstypes.HeaderedEvent, error) {
return d.CurrentRoomState.SelectStateEvent(ctx, d.txn, roomID, evType, stateKey)
}
func (d *DatabaseTransaction) GetStateEventsForRoom(
ctx context.Context, roomID string, stateFilter *synctypes.StateFilter,
) (stateEvents []*rstypes.HeaderedEvent, err error) {
stateEvents, err = d.CurrentRoomState.SelectCurrentState(ctx, d.txn, roomID, stateFilter, nil)
return
}
// GetAccountDataInRange returns all account data for a given user inserted or
// updated between two given positions
// Returns a map following the format data[roomID] = []dataTypes
// If no data is retrieved, returns an empty map
// If there was an issue with the retrieval, returns an error
func (d *DatabaseTransaction) GetAccountDataInRange(
ctx context.Context, userID string, r types.Range,
accountDataFilterPart *synctypes.EventFilter,
) (map[string][]string, types.StreamPosition, error) {
return d.AccountData.SelectAccountDataInRange(ctx, d.txn, userID, r, accountDataFilterPart)
}
func (d *DatabaseTransaction) GetEventsInTopologicalRange(
ctx context.Context,
from, to *types.TopologyToken,
roomID string,
filter *synctypes.RoomEventFilter,
backwardOrdering bool,
) (events []types.StreamEvent, err error) {
var minDepth, maxDepth, maxStreamPosForMaxDepth types.StreamPosition
if backwardOrdering {
// Backward ordering means the 'from' token has a higher depth than the 'to' token
minDepth = to.Depth
maxDepth = from.Depth
// for cases where we have say 5 events with the same depth, the TopologyToken needs to
// know which of the 5 the client has seen. This is done by using the PDU position.
// Events with the same maxDepth but less than this PDU position will be returned.
maxStreamPosForMaxDepth = from.PDUPosition
} else {
// Forward ordering means the 'from' token has a lower depth than the 'to' token.
minDepth = from.Depth
maxDepth = to.Depth
}
// Select the event IDs from the defined range.
var eIDs []string
eIDs, err = d.Topology.SelectEventIDsInRange(
ctx, d.txn, roomID, minDepth, maxDepth, maxStreamPosForMaxDepth, filter.Limit, !backwardOrdering,
)
if err != nil {
return
}
// Retrieve the events' contents using their IDs.
events, err = d.OutputEvents.SelectEvents(ctx, d.txn, eIDs, filter, true)
return
}
func (d *DatabaseTransaction) BackwardExtremitiesForRoom(
ctx context.Context, roomID string,
) (backwardExtremities map[string][]string, err error) {
return d.BackwardExtremities.SelectBackwardExtremitiesForRoom(ctx, d.txn, roomID)
}
func (d *DatabaseTransaction) EventPositionInTopology(
ctx context.Context, eventID string,
) (types.TopologyToken, error) {
depth, stream, err := d.Topology.SelectPositionInTopology(ctx, d.txn, eventID)
if err != nil {
return types.TopologyToken{}, err
}
return types.TopologyToken{Depth: depth, PDUPosition: stream}, nil
}
func (d *DatabaseTransaction) StreamToTopologicalPosition(
ctx context.Context, roomID string, streamPos types.StreamPosition, backwardOrdering bool,
) (types.TopologyToken, error) {
topoPos, err := d.Topology.SelectStreamToTopologicalPosition(ctx, d.txn, roomID, streamPos, backwardOrdering)
switch {
case err == sql.ErrNoRows && backwardOrdering: // no events in range, going backward
return types.TopologyToken{PDUPosition: streamPos}, nil
case err == sql.ErrNoRows && !backwardOrdering: // no events in range, going forward
return types.TopologyToken{Depth: math.MaxInt64, PDUPosition: math.MaxInt64}, nil
case err != nil: // some other error happened
return types.TopologyToken{}, fmt.Errorf("d.Topology.SelectStreamToTopologicalPosition: %w", err)
default:
return types.TopologyToken{Depth: topoPos, PDUPosition: streamPos}, nil
}
}
// GetBackwardTopologyPos retrieves the backward topology position, i.e. the position of the
// oldest event in the room's topology.
func (d *DatabaseTransaction) GetBackwardTopologyPos(
ctx context.Context,
events []*rstypes.HeaderedEvent,
) (types.TopologyToken, error) {
zeroToken := types.TopologyToken{}
if len(events) == 0 {
return zeroToken, nil
}
pos, spos, err := d.Topology.SelectPositionInTopology(ctx, d.txn, events[0].EventID())
if err != nil {
return zeroToken, err
}
tok := types.TopologyToken{Depth: pos, PDUPosition: spos}
tok.Decrement()
return tok, nil
}
// GetStateDeltas returns the state deltas between fromPos and toPos,
// exclusive of oldPos, inclusive of newPos, for the rooms in which
// the user has new membership events.
// A list of joined room IDs is also returned in case the caller needs it.
// nolint:gocyclo
func (d *DatabaseTransaction) GetStateDeltas(
ctx context.Context, device *userapi.Device,
r types.Range, userID string,
stateFilter *synctypes.StateFilter,
) (deltas []types.StateDelta, joinedRoomsIDs []string, err error) {
// Implement membership change algorithm: https://github.com/matrix-org/synapse/blob/v0.19.3/synapse/handlers/sync.py#L821
// - Get membership list changes for this user in this sync response
// - For each room which has membership list changes:
// * Check if the room is 'newly joined' (insufficient to just check for a join event because we allow dupe joins TODO).
// If it is, then we need to send the full room state down (and 'limited' is always true).
// * Check if user is still CURRENTLY invited to the room. If so, add room to 'invited' block.
// * Check if the user is CURRENTLY (TODO) left/banned. If so, add room to 'archived' block.
// - Get all CURRENTLY joined rooms, and add them to 'joined' block.
// Look up all memberships for the user. We only care about rooms that a
// user has ever interacted with — joined to, kicked/banned from, left.
memberships, err := d.CurrentRoomState.SelectRoomIDsWithAnyMembership(ctx, d.txn, userID)
if err != nil {
if err == sql.ErrNoRows {
return nil, nil, nil
}
return nil, nil, err
}
allRoomIDs := make([]string, 0, len(memberships))
joinedRoomIDs := make([]string, 0, len(memberships))
for roomID, membership := range memberships {
allRoomIDs = append(allRoomIDs, roomID)
if membership == spec.Join {
joinedRoomIDs = append(joinedRoomIDs, roomID)
}
}
// get all the state events ever (i.e. for all available rooms) between these two positions
stateNeeded, eventMap, err := d.OutputEvents.SelectStateInRange(ctx, d.txn, r, nil, allRoomIDs)
if err != nil {
if err == sql.ErrNoRows {
return nil, nil, nil
}
return nil, nil, err
}
state, err := d.fetchStateEvents(ctx, d.txn, stateNeeded, eventMap)
if err != nil {
if err == sql.ErrNoRows {
return nil, nil, nil
}
return nil, nil, err
}
// get all the state events ever (i.e. for all available rooms) between these two positions
stateFiltered := state
// avoid hitting the database if the result would be the same as above
if !isStatefilterEmpty(stateFilter) {
var stateNeededFiltered map[string]map[string]bool
var eventMapFiltered map[string]types.StreamEvent
stateNeededFiltered, eventMapFiltered, err = d.OutputEvents.SelectStateInRange(ctx, d.txn, r, stateFilter, allRoomIDs)
if err != nil {
if err == sql.ErrNoRows {
return nil, nil, nil
}
return nil, nil, err
}
stateFiltered, err = d.fetchStateEvents(ctx, d.txn, stateNeededFiltered, eventMapFiltered)
if err != nil {
if err == sql.ErrNoRows {
return nil, nil, nil
}
return nil, nil, err
}
}
// find out which rooms this user is peeking, if any.
// We do this before joins so any peeks get overwritten
peeks, err := d.Peeks.SelectPeeksInRange(ctx, d.txn, userID, device.ID, r)
if err != nil && err != sql.ErrNoRows {
return nil, nil, err
}
// add peek blocks
for _, peek := range peeks {
if peek.New {
// send full room state down instead of a delta
var s []types.StreamEvent
s, err = d.currentStateStreamEventsForRoom(ctx, peek.RoomID, stateFilter)
if err != nil {
if err == sql.ErrNoRows {
continue
}
return nil, nil, err
}
state[peek.RoomID] = s
}
if !peek.Deleted {
deltas = append(deltas, types.StateDelta{
Membership: spec.Peek,
StateEvents: d.StreamEventsToEvents(device, state[peek.RoomID]),
RoomID: peek.RoomID,
})
}
}
// handle newly joined rooms and non-joined rooms
newlyJoinedRooms := make(map[string]bool, len(state))
for roomID, stateStreamEvents := range state {
for _, ev := range stateStreamEvents {
// Look for our membership in the state events and skip over any
// membership events that are not related to us.
membership, prevMembership := getMembershipFromEvent(ev.Event, userID)
if membership == "" {
continue
}
if membership == spec.Join {
// If our membership is now join but the previous membership wasn't
// then this is a "join transition", so we'll insert this room.
if prevMembership != membership {
newlyJoinedRooms[roomID] = true
// Get the full room state, as we'll send that down for a newly
// joined room instead of a delta.
var s []types.StreamEvent
if s, err = d.currentStateStreamEventsForRoom(ctx, roomID, stateFilter); err != nil {
if err == sql.ErrNoRows {
continue
}
return nil, nil, err
}
// Add the information for this room into the state so that
// it will get added with all of the rest of the joined rooms.
stateFiltered[roomID] = s
}
// We won't add joined rooms into the delta at this point as they
// are added later on.
continue
}
deltas = append(deltas, types.StateDelta{
Membership: membership,
MembershipPos: ev.StreamPosition,
StateEvents: d.StreamEventsToEvents(device, stateFiltered[roomID]),
RoomID: roomID,
})
break
}
}
// Finally, add in currently joined rooms, including those from the
// join transitions above.
for _, joinedRoomID := range joinedRoomIDs {
deltas = append(deltas, types.StateDelta{
Membership: spec.Join,
StateEvents: d.StreamEventsToEvents(device, stateFiltered[joinedRoomID]),
RoomID: joinedRoomID,
NewlyJoined: newlyJoinedRooms[joinedRoomID],
})
}
return deltas, joinedRoomIDs, nil
}
// GetStateDeltasForFullStateSync is a variant of getStateDeltas used for /sync
// requests with full_state=true.
// Fetches full state for all joined rooms and uses selectStateInRange to get
// updates for other rooms.
func (d *DatabaseTransaction) GetStateDeltasForFullStateSync(
ctx context.Context, device *userapi.Device,
r types.Range, userID string,
stateFilter *synctypes.StateFilter,
) ([]types.StateDelta, []string, error) {
// Look up all memberships for the user. We only care about rooms that a
// user has ever interacted with — joined to, kicked/banned from, left.
memberships, err := d.CurrentRoomState.SelectRoomIDsWithAnyMembership(ctx, d.txn, userID)
if err != nil {
if err == sql.ErrNoRows {
return nil, nil, nil
}
return nil, nil, err
}
allRoomIDs := make([]string, 0, len(memberships))
joinedRoomIDs := make([]string, 0, len(memberships))
for roomID, membership := range memberships {
allRoomIDs = append(allRoomIDs, roomID)
if membership == spec.Join {
joinedRoomIDs = append(joinedRoomIDs, roomID)
}
}
// Use a reasonable initial capacity
deltas := make(map[string]types.StateDelta)
peeks, err := d.Peeks.SelectPeeksInRange(ctx, d.txn, userID, device.ID, r)
if err != nil && err != sql.ErrNoRows {
return nil, nil, err
}
// Add full states for all peeking rooms
for _, peek := range peeks {
if !peek.Deleted {
s, stateErr := d.currentStateStreamEventsForRoom(ctx, peek.RoomID, stateFilter)
if stateErr != nil {
if stateErr == sql.ErrNoRows {
continue
}
return nil, nil, stateErr
}
deltas[peek.RoomID] = types.StateDelta{
Membership: spec.Peek,
StateEvents: d.StreamEventsToEvents(device, s),
RoomID: peek.RoomID,
}
}
}
// Get all the state events ever between these two positions
stateNeeded, eventMap, err := d.OutputEvents.SelectStateInRange(ctx, d.txn, r, stateFilter, allRoomIDs)
if err != nil {
if err == sql.ErrNoRows {
return nil, nil, nil
}
return nil, nil, err
}
state, err := d.fetchStateEvents(ctx, d.txn, stateNeeded, eventMap)
if err != nil {
if err == sql.ErrNoRows {
return nil, nil, nil
}
return nil, nil, err
}
for roomID, stateStreamEvents := range state {
for _, ev := range stateStreamEvents {
if membership, _ := getMembershipFromEvent(ev.Event, userID); membership != "" {
if membership != spec.Join { // We've already added full state for all joined rooms above.
deltas[roomID] = types.StateDelta{
Membership: membership,
MembershipPos: ev.StreamPosition,
StateEvents: d.StreamEventsToEvents(device, stateStreamEvents),
RoomID: roomID,
}
}
break
}
}
}
// Add full states for all joined rooms
for _, joinedRoomID := range joinedRoomIDs {
s, stateErr := d.currentStateStreamEventsForRoom(ctx, joinedRoomID, stateFilter)
if stateErr != nil {
if stateErr == sql.ErrNoRows {
continue
}
return nil, nil, stateErr
}
deltas[joinedRoomID] = types.StateDelta{
Membership: spec.Join,
StateEvents: d.StreamEventsToEvents(device, s),
RoomID: joinedRoomID,
}
}
// Create a response array.
result := make([]types.StateDelta, len(deltas))
i := 0
for _, delta := range deltas {
result[i] = delta
i++
}
return result, joinedRoomIDs, nil
}
func (d *DatabaseTransaction) currentStateStreamEventsForRoom(
ctx context.Context, roomID string,
stateFilter *synctypes.StateFilter,
) ([]types.StreamEvent, error) {
allState, err := d.CurrentRoomState.SelectCurrentState(ctx, d.txn, roomID, stateFilter, nil)
if err != nil {
return nil, err
}
s := make([]types.StreamEvent, len(allState))
for i := 0; i < len(s); i++ {
s[i] = types.StreamEvent{HeaderedEvent: allState[i], StreamPosition: 0}
}
return s, nil
}
func (d *DatabaseTransaction) SendToDeviceUpdatesForSync(
ctx context.Context,
userID, deviceID string,
from, to types.StreamPosition,
) (types.StreamPosition, []types.SendToDeviceEvent, error) {
// First of all, get our send-to-device updates for this user.
lastPos, events, err := d.SendToDevice.SelectSendToDeviceMessages(ctx, d.txn, userID, deviceID, from, to)
if err != nil {
return from, nil, fmt.Errorf("d.SendToDevice.SelectSendToDeviceMessages: %w", err)
}
// If there's nothing to do then stop here.
if len(events) == 0 {
return to, nil, nil
}
return lastPos, events, nil
}
func (d *DatabaseTransaction) GetRoomReceipts(ctx context.Context, roomIDs []string, streamPos types.StreamPosition) ([]types.OutputReceiptEvent, error) {
_, receipts, err := d.Receipts.SelectRoomReceiptsAfter(ctx, d.txn, roomIDs, streamPos)
return receipts, err
}
func (d *DatabaseTransaction) GetUserUnreadNotificationCountsForRooms(ctx context.Context, userID string, rooms map[string]string) (map[string]*eventutil.NotificationData, error) {
roomIDs := make([]string, 0, len(rooms))
for roomID, membership := range rooms {
if membership != spec.Join {
continue
}
roomIDs = append(roomIDs, roomID)
}
return d.NotificationData.SelectUserUnreadCountsForRooms(ctx, d.txn, userID, roomIDs)
}
func (d *DatabaseTransaction) GetPresences(ctx context.Context, userIDs []string) ([]*types.PresenceInternal, error) {
return d.Presence.GetPresenceForUsers(ctx, d.txn, userIDs)
}
func (d *DatabaseTransaction) PresenceAfter(ctx context.Context, after types.StreamPosition, filter synctypes.EventFilter) (map[string]*types.PresenceInternal, error) {
return d.Presence.GetPresenceAfter(ctx, d.txn, after, filter)
}
func (d *DatabaseTransaction) MaxStreamPositionForPresence(ctx context.Context) (types.StreamPosition, error) {
return d.Presence.GetMaxPresenceID(ctx, d.txn)
}
func (d *Database) PurgeRoom(ctx context.Context, roomID string) error {
return d.Writer.Do(d.DB, nil, func(txn *sql.Tx) error {
if err := d.BackwardExtremities.PurgeBackwardExtremities(ctx, txn, roomID); err != nil {
return fmt.Errorf("failed to purge backward extremities: %w", err)
}
if err := d.CurrentRoomState.DeleteRoomStateForRoom(ctx, txn, roomID); err != nil {
return fmt.Errorf("failed to purge current room state: %w", err)
}
if err := d.Invites.PurgeInvites(ctx, txn, roomID); err != nil {
return fmt.Errorf("failed to purge invites: %w", err)
}
if err := d.Memberships.PurgeMemberships(ctx, txn, roomID); err != nil {
return fmt.Errorf("failed to purge memberships: %w", err)
}
if err := d.NotificationData.PurgeNotificationData(ctx, txn, roomID); err != nil {
return fmt.Errorf("failed to purge notification data: %w", err)
}
if err := d.OutputEvents.PurgeEvents(ctx, txn, roomID); err != nil {
return fmt.Errorf("failed to purge events: %w", err)
}
if err := d.Topology.PurgeEventsTopology(ctx, txn, roomID); err != nil {
return fmt.Errorf("failed to purge events topology: %w", err)
}
if err := d.Peeks.PurgePeeks(ctx, txn, roomID); err != nil {
return fmt.Errorf("failed to purge peeks: %w", err)
}
if err := d.Receipts.PurgeReceipts(ctx, txn, roomID); err != nil {
return fmt.Errorf("failed to purge receipts: %w", err)
}
return nil
})
}
func (d *Database) PurgeRoomState(
ctx context.Context, roomID string,
) error {
return d.Writer.Do(d.DB, nil, func(txn *sql.Tx) error {
// If the event is a create event then we'll delete all of the existing
// data for the room. The only reason that a create event would be replayed
// to us in this way is if we're about to receive the entire room state.
if err := d.CurrentRoomState.DeleteRoomStateForRoom(ctx, txn, roomID); err != nil {
return fmt.Errorf("d.CurrentRoomState.DeleteRoomStateForRoom: %w", err)
}
return nil
})
}
func (d *DatabaseTransaction) MaxStreamPositionForRelations(ctx context.Context) (types.StreamPosition, error) {
id, err := d.Relations.SelectMaxRelationID(ctx, d.txn)
return types.StreamPosition(id), err
}
func isStatefilterEmpty(filter *synctypes.StateFilter) bool {
if filter == nil {
return true
}
switch {
case filter.NotTypes != nil && len(*filter.NotTypes) > 0:
return false
case filter.Types != nil && len(*filter.Types) > 0:
return false
case filter.Senders != nil && len(*filter.Senders) > 0:
return false
case filter.NotSenders != nil && len(*filter.NotSenders) > 0:
return false
case filter.NotRooms != nil && len(*filter.NotRooms) > 0:
return false
case filter.ContainsURL != nil:
return false
default:
return true
}
}
func (d *DatabaseTransaction) RelationsFor(ctx context.Context, roomID, eventID, relType, eventType string, from, to types.StreamPosition, backwards bool, limit int) (
events []types.StreamEvent, prevBatch, nextBatch string, err error,
) {
r := types.Range{
From: from,
To: to,
Backwards: backwards,
}
if r.Backwards && r.From == 0 {
// If we're working backwards (dir=b) and there's no ?from= specified then
// we will automatically want to work backwards from the current position,
// so find out what that is.
if r.From, err = d.MaxStreamPositionForRelations(ctx); err != nil {
return nil, "", "", fmt.Errorf("d.MaxStreamPositionForRelations: %w", err)
}
// The result normally isn't inclusive of the event *at* the ?from=
// position, so add 1 here so that we include the most recent relation.
r.From++
} else if !r.Backwards && r.To == 0 {
// If we're working forwards (dir=f) and there's no ?to= specified then
// we will automatically want to work forwards towards the current position,
// so find out what that is.
if r.To, err = d.MaxStreamPositionForRelations(ctx); err != nil {
return nil, "", "", fmt.Errorf("d.MaxStreamPositionForRelations: %w", err)
}
}
// First look up any relations from the database. We add one to the limit here
// so that we can tell if we're overflowing, as we will only set the "next_batch"
// in the response if we are.
relations, _, err := d.Relations.SelectRelationsInRange(ctx, d.txn, roomID, eventID, relType, eventType, r, limit+1)
if err != nil {
return nil, "", "", fmt.Errorf("d.Relations.SelectRelationsInRange: %w", err)
}
// If we specified a relation type then just get those results, otherwise collate
// them from all of the returned relation types.
entries := []types.RelationEntry{}
if relType != "" {
entries = relations[relType]
} else {
for _, e := range relations {
entries = append(entries, e...)
}
}
// If there were no entries returned, there were no relations, so stop at this point.
if len(entries) == 0 {
return nil, "", "", nil
}
// Otherwise, let's try and work out what sensible prev_batch and next_batch values
// could be. We've requested an extra event by adding one to the limit already so
// that we can determine whether or not to provide a "next_batch", so trim off that
// event off the end if needs be.
if len(entries) > limit {
entries = entries[:len(entries)-1]
nextBatch = fmt.Sprintf("%d", entries[len(entries)-1].Position)
}
// TODO: set prevBatch? doesn't seem to affect the tests...
// Extract all of the event IDs from the relation entries so that we can pull the
// events out of the database. Then go and fetch the events.
eventIDs := make([]string, 0, len(entries))
for _, entry := range entries {
eventIDs = append(eventIDs, entry.EventID)
}
events, err = d.OutputEvents.SelectEvents(ctx, d.txn, eventIDs, nil, true)
if err != nil {
return nil, "", "", fmt.Errorf("d.OutputEvents.SelectEvents: %w", err)
}
return events, prevBatch, nextBatch, nil
}