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Migrate TimelineEventStore.js to TypeScript

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This commit is contained in:
Danila Fedorin 2021-08-11 13:33:25 -07:00
parent 7de704ef86
commit e3b1d034f0
3 changed files with 121 additions and 63 deletions
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2
src/matrix/storage/idb/Transaction.js
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@ -20,7 +20,7 @@ import {Store} from "./Store";
import {SessionStore} from "./stores/SessionStore"; import {SessionStore} from "./stores/SessionStore";
import {RoomSummaryStore} from "./stores/RoomSummaryStore"; import {RoomSummaryStore} from "./stores/RoomSummaryStore";
import {InviteStore} from "./stores/InviteStore"; import {InviteStore} from "./stores/InviteStore";
import {TimelineEventStore} from "./stores/TimelineEventStore.js"; import {TimelineEventStore} from "./stores/TimelineEventStore";
import {TimelineRelationStore} from "./stores/TimelineRelationStore.js"; import {TimelineRelationStore} from "./stores/TimelineRelationStore.js";
import {RoomStateStore} from "./stores/RoomStateStore.js"; import {RoomStateStore} from "./stores/RoomStateStore.js";
import {RoomMemberStore} from "./stores/RoomMemberStore"; import {RoomMemberStore} from "./stores/RoomMemberStore";

154
src/matrix/storage/idb/stores/TimelineEventStore.js → src/matrix/storage/idb/stores/TimelineEventStore.ts
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@ -18,22 +18,49 @@ import {EventKey} from "../../../room/timeline/EventKey.js";
import { StorageError } from "../../common"; import { StorageError } from "../../common";
import { encodeUint32 } from "../utils"; import { encodeUint32 } from "../utils";
import {KeyLimits} from "../../common"; import {KeyLimits} from "../../common";
import {Store} from "../Store";
import {RoomEvent, StateEvent} from "../../types";
function encodeKey(roomId, fragmentId, eventIndex) { interface Annotation {
count: number;
me: boolean;
firstTimestamp: number;
}
interface StorageEntry {
roomId: string;
fragmentId: number;
eventIndex: number;
event: RoomEvent | StateEvent;
displayName?: string;
avatarUrl?: string;
annotations?: { [key : string]: Annotation };
key: string;
eventIdKey: string;
}
function encodeKey(roomId: string, fragmentId: number, eventIndex: number): string {
return `${roomId}|${encodeUint32(fragmentId)}|${encodeUint32(eventIndex)}`; return `${roomId}|${encodeUint32(fragmentId)}|${encodeUint32(eventIndex)}`;
} }
function encodeEventIdKey(roomId, eventId) { function encodeEventIdKey(roomId: string, eventId: string): string {
return `${roomId}|${eventId}`; return `${roomId}|${eventId}`;
} }
function decodeEventIdKey(eventIdKey) { function decodeEventIdKey(eventIdKey: string): { roomId: string, eventId: string } {
const [roomId, eventId] = eventIdKey.split("|"); const [roomId, eventId] = eventIdKey.split("|");
return {roomId, eventId}; return {roomId, eventId};
} }
class Range { class Range {
constructor(IDBKeyRange, only, lower, upper, lowerOpen, upperOpen) { private _IDBKeyRange: any; // TODO what's the appropriate representation here?
private _only?: EventKey;
private _lower?: EventKey;
private _upper?: EventKey;
private _lowerOpen: boolean;
private _upperOpen: boolean;
constructor(IDBKeyRange: any, only?: EventKey, lower?: EventKey, upper?: EventKey, lowerOpen: boolean = false, upperOpen: boolean = false) {
this._IDBKeyRange = IDBKeyRange; this._IDBKeyRange = IDBKeyRange;
this._only = only; this._only = only;
this._lower = lower; this._lower = lower;
@ -42,7 +69,7 @@ class Range {
this._upperOpen = upperOpen; this._upperOpen = upperOpen;
} }
asIDBKeyRange(roomId) { asIDBKeyRange(roomId: string): IDBKeyRange | undefined {
try { try {
// only // only
if (this._only) { if (this._only) {
@ -99,66 +126,68 @@ class Range {
* @property {?Gap} gap if a gap entry, the gap * @property {?Gap} gap if a gap entry, the gap
*/ */
export class TimelineEventStore { export class TimelineEventStore {
constructor(timelineStore) { private _timelineStore: Store<StorageEntry>;
constructor(timelineStore: Store<StorageEntry>) {
this._timelineStore = timelineStore; this._timelineStore = timelineStore;
} }
/** Creates a range that only includes the given key /** Creates a range that only includes the given key
* @param {EventKey} eventKey the key * @param eventKey the key
* @return {Range} the created range * @return the created range
*/ */
onlyRange(eventKey) { onlyRange(eventKey: EventKey): Range {
return new Range(this._timelineStore.IDBKeyRange, eventKey); return new Range(this._timelineStore.IDBKeyRange, eventKey);
} }
/** Creates a range that includes all keys before eventKey, and optionally also the key itself. /** Creates a range that includes all keys before eventKey, and optionally also the key itself.
* @param {EventKey} eventKey the key * @param eventKey the key
* @param {boolean} [open=false] whether the key is included (false) or excluded (true) from the range at the upper end. * @param [open=false] whether the key is included (false) or excluded (true) from the range at the upper end.
* @return {Range} the created range * @return the created range
*/ */
upperBoundRange(eventKey, open=false) { upperBoundRange(eventKey: EventKey, open=false): Range {
return new Range(this._timelineStore.IDBKeyRange, undefined, undefined, eventKey, undefined, open); return new Range(this._timelineStore.IDBKeyRange, undefined, undefined, eventKey, undefined, open);
} }
/** Creates a range that includes all keys after eventKey, and optionally also the key itself. /** Creates a range that includes all keys after eventKey, and optionally also the key itself.
* @param {EventKey} eventKey the key * @param eventKey the key
* @param {boolean} [open=false] whether the key is included (false) or excluded (true) from the range at the lower end. * @param [open=false] whether the key is included (false) or excluded (true) from the range at the lower end.
* @return {Range} the created range * @return the created range
*/ */
lowerBoundRange(eventKey, open=false) { lowerBoundRange(eventKey: EventKey, open=false): Range {
return new Range(this._timelineStore.IDBKeyRange, undefined, eventKey, undefined, open); return new Range(this._timelineStore.IDBKeyRange, undefined, eventKey, undefined, open);
} }
/** Creates a range that includes all keys between `lower` and `upper`, and optionally the given keys as well. /** Creates a range that includes all keys between `lower` and `upper`, and optionally the given keys as well.
* @param {EventKey} lower the lower key * @param lower the lower key
* @param {EventKey} upper the upper key * @param upper the upper key
* @param {boolean} [lowerOpen=false] whether the lower key is included (false) or excluded (true) from the range. * @param [lowerOpen=false] whether the lower key is included (false) or excluded (true) from the range.
* @param {boolean} [upperOpen=false] whether the upper key is included (false) or excluded (true) from the range. * @param [upperOpen=false] whether the upper key is included (false) or excluded (true) from the range.
* @return {Range} the created range * @return the created range
*/ */
boundRange(lower, upper, lowerOpen=false, upperOpen=false) { boundRange(lower: EventKey, upper: EventKey, lowerOpen=false, upperOpen=false): Range {
return new Range(this._timelineStore.IDBKeyRange, undefined, lower, upper, lowerOpen, upperOpen); return new Range(this._timelineStore.IDBKeyRange, undefined, lower, upper, lowerOpen, upperOpen);
} }
/** Looks up the last `amount` entries in the timeline for `roomId`. /** Looks up the last `amount` entries in the timeline for `roomId`.
* @param {string} roomId * @param roomId
* @param {number} fragmentId * @param fragmentId
* @param {number} amount * @param amount
* @return {Promise<Entry[]>} a promise resolving to an array with 0 or more entries, in ascending order. * @return a promise resolving to an array with 0 or more entries, in ascending order.
*/ */
async lastEvents(roomId, fragmentId, amount) { async lastEvents(roomId: string, fragmentId: number, amount: number): Promise<StorageEntry[]> {
const eventKey = EventKey.maxKey; const eventKey = EventKey.maxKey;
eventKey.fragmentId = fragmentId; eventKey.fragmentId = fragmentId;
return this.eventsBefore(roomId, eventKey, amount); return this.eventsBefore(roomId, eventKey, amount);
} }
/** Looks up the first `amount` entries in the timeline for `roomId`. /** Looks up the first `amount` entries in the timeline for `roomId`.
* @param {string} roomId * @param roomId
* @param {number} fragmentId * @param fragmentId
* @param {number} amount * @param amount
* @return {Promise<Entry[]>} a promise resolving to an array with 0 or more entries, in ascending order. * @return a promise resolving to an array with 0 or more entries, in ascending order.
*/ */
async firstEvents(roomId, fragmentId, amount) { async firstEvents(roomId: string, fragmentId: number, amount: number): Promise<StorageEntry[]> {
const eventKey = EventKey.minKey; const eventKey = EventKey.minKey;
eventKey.fragmentId = fragmentId; eventKey.fragmentId = fragmentId;
return this.eventsAfter(roomId, eventKey, amount); return this.eventsAfter(roomId, eventKey, amount);
@ -166,24 +195,24 @@ export class TimelineEventStore {
/** Looks up `amount` entries after `eventKey` in the timeline for `roomId` within the same fragment. /** Looks up `amount` entries after `eventKey` in the timeline for `roomId` within the same fragment.
* The entry for `eventKey` is not included. * The entry for `eventKey` is not included.
* @param {string} roomId * @param roomId
* @param {EventKey} eventKey * @param eventKey
* @param {number} amount * @param amount
* @return {Promise<Entry[]>} a promise resolving to an array with 0 or more entries, in ascending order. * @return a promise resolving to an array with 0 or more entries, in ascending order.
*/ */
eventsAfter(roomId, eventKey, amount) { eventsAfter(roomId: string, eventKey: EventKey, amount: number): Promise<StorageEntry[]> {
const idbRange = this.lowerBoundRange(eventKey, true).asIDBKeyRange(roomId); const idbRange = this.lowerBoundRange(eventKey, true).asIDBKeyRange(roomId);
return this._timelineStore.selectLimit(idbRange, amount); return this._timelineStore.selectLimit(idbRange, amount);
} }
/** Looks up `amount` entries before `eventKey` in the timeline for `roomId` within the same fragment. /** Looks up `amount` entries before `eventKey` in the timeline for `roomId` within the same fragment.
* The entry for `eventKey` is not included. * The entry for `eventKey` is not included.
* @param {string} roomId * @param roomId
* @param {EventKey} eventKey * @param eventKey
* @param {number} amount * @param amount
* @return {Promise<Entry[]>} a promise resolving to an array with 0 or more entries, in ascending order. * @return a promise resolving to an array with 0 or more entries, in ascending order.
*/ */
async eventsBefore(roomId, eventKey, amount) { async eventsBefore(roomId: string, eventKey: EventKey, amount: number): Promise<StorageEntry[]> {
const range = this.upperBoundRange(eventKey, true).asIDBKeyRange(roomId); const range = this.upperBoundRange(eventKey, true).asIDBKeyRange(roomId);
const events = await this._timelineStore.selectLimitReverse(range, amount); const events = await this._timelineStore.selectLimitReverse(range, amount);
events.reverse(); // because we fetched them backwards events.reverse(); // because we fetched them backwards
@ -195,23 +224,23 @@ export class TimelineEventStore {
* *
* The order in which results are returned might be different than `eventIds`. * The order in which results are returned might be different than `eventIds`.
* Call the return value to obtain the next {id, event} pair. * Call the return value to obtain the next {id, event} pair.
* @param {string} roomId * @param roomId
* @param {string[]} eventIds * @param eventIds
* @return {Function<Promise>} * @return
*/ */
// performance comment from above refers to the fact that there *might* // performance comment from above refers to the fact that there *might*
// be a correlation between event_id sorting order and chronology. // be a correlation between event_id sorting order and chronology.
// In that case we could avoid running over all eventIds, as the reported order by findExistingKeys // In that case we could avoid running over all eventIds, as the reported order by findExistingKeys
// would match the order of eventIds. That's why findLast is also passed as backwards to keysExist. // would match the order of eventIds. That's why findLast is also passed as backwards to keysExist.
// also passing them in chronological order makes sense as that's how we'll receive them almost always. // also passing them in chronological order makes sense as that's how we'll receive them almost always.
async findFirstOccurringEventId(roomId, eventIds) { async findFirstOccurringEventId(roomId: string, eventIds: string[]): Promise<string | undefined> {
const byEventId = this._timelineStore.index("byEventId"); const byEventId = this._timelineStore.index("byEventId");
const keys = eventIds.map(eventId => encodeEventIdKey(roomId, eventId)); const keys = eventIds.map(eventId => encodeEventIdKey(roomId, eventId));
const results = new Array(keys.length); const results = new Array(keys.length);
let firstFoundKey; let firstFoundKey: string | undefined;
// find first result that is found and has no undefined results before it // find first result that is found and has no undefined results before it
function firstFoundAndPrecedingResolved() { function firstFoundAndPrecedingResolved(): string | undefined {
for(let i = 0; i < results.length; ++i) { for(let i = 0; i < results.length; ++i) {
if (results[i] === undefined) { if (results[i] === undefined) {
return; return;
@ -222,7 +251,8 @@ export class TimelineEventStore {
} }
await byEventId.findExistingKeys(keys, false, (key, found) => { await byEventId.findExistingKeys(keys, false, (key, found) => {
const index = keys.indexOf(key); // T[].search(T, number), but we want T[].search(R, number), so cast
const index = (keys as IDBValidKey[]).indexOf(key);
results[index] = found; results[index] = found;
firstFoundKey = firstFoundAndPrecedingResolved(); firstFoundKey = firstFoundAndPrecedingResolved();
return !!firstFoundKey; return !!firstFoundKey;
@ -231,38 +261,38 @@ export class TimelineEventStore {
} }
/** Inserts a new entry into the store. The combination of roomId and eventKey should not exist yet, or an error is thrown. /** Inserts a new entry into the store. The combination of roomId and eventKey should not exist yet, or an error is thrown.
* @param {Entry} entry the entry to insert * @param entry the entry to insert
* @return {Promise<>} a promise resolving to undefined if the operation was successful, or a StorageError if not. * @return a promise resolving to undefined if the operation was successful, or a StorageError if not.
* @throws {StorageError} ... * @throws {StorageError} ...
*/ */
insert(entry) { insert(entry: StorageEntry): Promise<IDBValidKey> {
entry.key = encodeKey(entry.roomId, entry.fragmentId, entry.eventIndex); entry.key = encodeKey(entry.roomId, entry.fragmentId, entry.eventIndex);
entry.eventIdKey = encodeEventIdKey(entry.roomId, entry.event.event_id); entry.eventIdKey = encodeEventIdKey(entry.roomId, entry.event.event_id);
// TODO: map error? or in idb/store? // TODO: map error? or in idb/store?
this._timelineStore.add(entry); return this._timelineStore.add(entry);
} }
/** Updates the entry into the store with the given [roomId, eventKey] combination. /** Updates the entry into the store with the given [roomId, eventKey] combination.
* If not yet present, will insert. Might be slower than add. * If not yet present, will insert. Might be slower than add.
* @param {Entry} entry the entry to update. * @param entry the entry to update.
* @return {Promise<>} a promise resolving to undefined if the operation was successful, or a StorageError if not. * @return a promise resolving to undefined if the operation was successful, or a StorageError if not.
*/ */
update(entry) { update(entry: StorageEntry): Promise<IDBValidKey> {
this._timelineStore.put(entry); return this._timelineStore.put(entry);
} }
get(roomId, eventKey) { get(roomId: string, eventKey: EventKey): Promise<StorageEntry | null> {
return this._timelineStore.get(encodeKey(roomId, eventKey.fragmentId, eventKey.eventIndex)); return this._timelineStore.get(encodeKey(roomId, eventKey.fragmentId, eventKey.eventIndex));
} }
getByEventId(roomId, eventId) { getByEventId(roomId: string, eventId: string): Promise<StorageEntry | null> {
return this._timelineStore.index("byEventId").get(encodeEventIdKey(roomId, eventId)); return this._timelineStore.index("byEventId").get(encodeEventIdKey(roomId, eventId));
} }
removeAllForRoom(roomId) { removeAllForRoom(roomId: string): Promise<undefined> {
const minKey = encodeKey(roomId, KeyLimits.minStorageKey, KeyLimits.minStorageKey); const minKey = encodeKey(roomId, KeyLimits.minStorageKey, KeyLimits.minStorageKey);
const maxKey = encodeKey(roomId, KeyLimits.maxStorageKey, KeyLimits.maxStorageKey); const maxKey = encodeKey(roomId, KeyLimits.maxStorageKey, KeyLimits.maxStorageKey);
const range = this._timelineStore.IDBKeyRange.bound(minKey, maxKey); const range = this._timelineStore.IDBKeyRange.bound(minKey, maxKey);
this._timelineStore.delete(range); return this._timelineStore.delete(range);
} }
} }

28
src/matrix/storage/types.ts Normal file
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@ -0,0 +1,28 @@
/*
Copyright 2021 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.
*/
export type Content = { [key: string]: any }
export interface RoomEvent {
content: Content;
type: string;
event_id: string;
sender: string;
origin_server_ts: number;
unsigned?: Content;
}
export type StateEvent = RoomEvent & { prev_content?: Content, state_key: string }