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"use strict";
Object.defineProperty(exports, "__esModule", {
value: true
});
exports.VERSION = exports.Backend = void 0;
exports.upgradeDatabase = upgradeDatabase;
var _logger = require("../../logger.js");
var _utils = require("../../utils.js");
var _base = require("./base.js");
var _indexeddbCryptoStore = require("./indexeddb-crypto-store.js");
function _defineProperty(e, r, t) { return (r = _toPropertyKey(r)) in e ? Object.defineProperty(e, r, { value: t, enumerable: !0, configurable: !0, writable: !0 }) : e[r] = t, e; }
function _toPropertyKey(t) { var i = _toPrimitive(t, "string"); return "symbol" == typeof i ? i : i + ""; }
function _toPrimitive(t, r) { if ("object" != typeof t || !t) return t; var e = t[Symbol.toPrimitive]; if (void 0 !== e) { var i = e.call(t, r || "default"); if ("object" != typeof i) return i; throw new TypeError("@@toPrimitive must return a primitive value."); } return ("string" === r ? String : Number)(t); } /*
Copyright 2017 - 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
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.
*/
const PROFILE_TRANSACTIONS = false;
/**
* Implementation of a CryptoStore which is backed by an existing
* IndexedDB connection. Generally you want IndexedDBCryptoStore
* which connects to the database and defers to one of these.
*
* @internal
*/
class Backend {
/**
*/
constructor(db) {
this.db = db;
_defineProperty(this, "nextTxnId", 0);
// make sure we close the db on `onversionchange` - otherwise
// attempts to delete the database will block (and subsequent
// attempts to re-create it will also block).
db.onversionchange = () => {
_logger.logger.log(`versionchange for indexeddb ${this.db.name}: closing`);
db.close();
};
}
async containsData() {
throw Error("Not implemented for Backend");
}
async startup() {
// No work to do, as the startup is done by the caller (e.g IndexedDBCryptoStore)
// by passing us a ready IDBDatabase instance
return this;
}
async deleteAllData() {
throw Error("This is not implemented, call IDBFactory::deleteDatabase(dbName) instead.");
}
/**
* Get data on how much of the libolm to Rust Crypto migration has been done.
*
* Implementation of {@link CryptoStore.getMigrationState}.
*/
async getMigrationState() {
let migrationState = _base.MigrationState.NOT_STARTED;
await this.doTxn("readonly", [_indexeddbCryptoStore.IndexedDBCryptoStore.STORE_ACCOUNT], txn => {
const objectStore = txn.objectStore(_indexeddbCryptoStore.IndexedDBCryptoStore.STORE_ACCOUNT);
const getReq = objectStore.get(_base.ACCOUNT_OBJECT_KEY_MIGRATION_STATE);
getReq.onsuccess = () => {
migrationState = getReq.result ?? _base.MigrationState.NOT_STARTED;
};
});
return migrationState;
}
/**
* Set data on how much of the libolm to Rust Crypto migration has been done.
*
* Implementation of {@link CryptoStore.setMigrationState}.
*/
async setMigrationState(migrationState) {
await this.doTxn("readwrite", [_indexeddbCryptoStore.IndexedDBCryptoStore.STORE_ACCOUNT], txn => {
const objectStore = txn.objectStore(_indexeddbCryptoStore.IndexedDBCryptoStore.STORE_ACCOUNT);
objectStore.put(migrationState, _base.ACCOUNT_OBJECT_KEY_MIGRATION_STATE);
});
}
/**
* Look for an existing outgoing room key request, and if none is found,
* add a new one
*
*
* @returns resolves to
* {@link OutgoingRoomKeyRequest}: either the
* same instance as passed in, or the existing one.
*/
getOrAddOutgoingRoomKeyRequest(request) {
const requestBody = request.requestBody;
return new Promise((resolve, reject) => {
const txn = this.db.transaction("outgoingRoomKeyRequests", "readwrite");
txn.onerror = reject;
// first see if we already have an entry for this request.
this._getOutgoingRoomKeyRequest(txn, requestBody, existing => {
if (existing) {
// this entry matches the request - return it.
_logger.logger.log(`already have key request outstanding for ` + `${requestBody.room_id} / ${requestBody.session_id}: ` + `not sending another`);
resolve(existing);
return;
}
// we got to the end of the list without finding a match
// - add the new request.
_logger.logger.log(`enqueueing key request for ${requestBody.room_id} / ` + requestBody.session_id);
txn.oncomplete = () => {
resolve(request);
};
const store = txn.objectStore("outgoingRoomKeyRequests");
store.add(request);
});
});
}
/**
* Look for an existing room key request
*
* @param requestBody - existing request to look for
*
* @returns resolves to the matching
* {@link OutgoingRoomKeyRequest}, or null if
* not found
*/
getOutgoingRoomKeyRequest(requestBody) {
return new Promise((resolve, reject) => {
const txn = this.db.transaction("outgoingRoomKeyRequests", "readonly");
txn.onerror = reject;
this._getOutgoingRoomKeyRequest(txn, requestBody, existing => {
resolve(existing);
});
});
}
/**
* look for an existing room key request in the db
*
* @internal
* @param txn - database transaction
* @param requestBody - existing request to look for
* @param callback - function to call with the results of the
* search. Either passed a matching
* {@link OutgoingRoomKeyRequest}, or null if
* not found.
*/
// eslint-disable-next-line @typescript-eslint/naming-convention
_getOutgoingRoomKeyRequest(txn, requestBody, callback) {
const store = txn.objectStore("outgoingRoomKeyRequests");
const idx = store.index("session");
const cursorReq = idx.openCursor([requestBody.room_id, requestBody.session_id]);
cursorReq.onsuccess = () => {
const cursor = cursorReq.result;
if (!cursor) {
// no match found
callback(null);
return;
}
const existing = cursor.value;
if ((0, _utils.deepCompare)(existing.requestBody, requestBody)) {
// got a match
callback(existing);
return;
}
// look at the next entry in the index
cursor.continue();
};
}
/**
* Look for room key requests by state
*
* @param wantedStates - list of acceptable states
*
* @returns resolves to the a
* {@link OutgoingRoomKeyRequest}, or null if
* there are no pending requests in those states. If there are multiple
* requests in those states, an arbitrary one is chosen.
*/
getOutgoingRoomKeyRequestByState(wantedStates) {
if (wantedStates.length === 0) {
return Promise.resolve(null);
}
// this is a bit tortuous because we need to make sure we do the lookup
// in a single transaction, to avoid having a race with the insertion
// code.
// index into the wantedStates array
let stateIndex = 0;
let result;
function onsuccess() {
const cursor = this.result;
if (cursor) {
// got a match
result = cursor.value;
return;
}
// try the next state in the list
stateIndex++;
if (stateIndex >= wantedStates.length) {
// no matches
return;
}
const wantedState = wantedStates[stateIndex];
const cursorReq = this.source.openCursor(wantedState);
cursorReq.onsuccess = onsuccess;
}
const txn = this.db.transaction("outgoingRoomKeyRequests", "readonly");
const store = txn.objectStore("outgoingRoomKeyRequests");
const wantedState = wantedStates[stateIndex];
const cursorReq = store.index("state").openCursor(wantedState);
cursorReq.onsuccess = onsuccess;
return promiseifyTxn(txn).then(() => result);
}
/**
*
* @returns All elements in a given state
*/
getAllOutgoingRoomKeyRequestsByState(wantedState) {
return new Promise((resolve, reject) => {
const txn = this.db.transaction("outgoingRoomKeyRequests", "readonly");
const store = txn.objectStore("outgoingRoomKeyRequests");
const index = store.index("state");
const request = index.getAll(wantedState);
request.onsuccess = () => resolve(request.result);
request.onerror = () => reject(request.error);
});
}
getOutgoingRoomKeyRequestsByTarget(userId, deviceId, wantedStates) {
let stateIndex = 0;
const results = [];
function onsuccess() {
const cursor = this.result;
if (cursor) {
const keyReq = cursor.value;
if (keyReq.recipients.some(recipient => recipient.userId === userId && recipient.deviceId === deviceId)) {
results.push(keyReq);
}
cursor.continue();
} else {
// try the next state in the list
stateIndex++;
if (stateIndex >= wantedStates.length) {
// no matches
return;
}
const wantedState = wantedStates[stateIndex];
const cursorReq = this.source.openCursor(wantedState);
cursorReq.onsuccess = onsuccess;
}
}
const txn = this.db.transaction("outgoingRoomKeyRequests", "readonly");
const store = txn.objectStore("outgoingRoomKeyRequests");
const wantedState = wantedStates[stateIndex];
const cursorReq = store.index("state").openCursor(wantedState);
cursorReq.onsuccess = onsuccess;
return promiseifyTxn(txn).then(() => results);
}
/**
* Look for an existing room key request by id and state, and update it if
* found
*
* @param requestId - ID of request to update
* @param expectedState - state we expect to find the request in
* @param updates - name/value map of updates to apply
*
* @returns resolves to
* {@link OutgoingRoomKeyRequest}
* updated request, or null if no matching row was found
*/
updateOutgoingRoomKeyRequest(requestId, expectedState, updates) {
let result = null;
function onsuccess() {
const cursor = this.result;
if (!cursor) {
return;
}
const data = cursor.value;
if (data.state != expectedState) {
_logger.logger.warn(`Cannot update room key request from ${expectedState} ` + `as it was already updated to ${data.state}`);
return;
}
Object.assign(data, updates);
cursor.update(data);
result = data;
}
const txn = this.db.transaction("outgoingRoomKeyRequests", "readwrite");
const cursorReq = txn.objectStore("outgoingRoomKeyRequests").openCursor(requestId);
cursorReq.onsuccess = onsuccess;
return promiseifyTxn(txn).then(() => result);
}
/**
* Look for an existing room key request by id and state, and delete it if
* found
*
* @param requestId - ID of request to update
* @param expectedState - state we expect to find the request in
*
* @returns resolves once the operation is completed
*/
deleteOutgoingRoomKeyRequest(requestId, expectedState) {
const txn = this.db.transaction("outgoingRoomKeyRequests", "readwrite");
const cursorReq = txn.objectStore("outgoingRoomKeyRequests").openCursor(requestId);
cursorReq.onsuccess = () => {
const cursor = cursorReq.result;
if (!cursor) {
return;
}
const data = cursor.value;
if (data.state != expectedState) {
_logger.logger.warn(`Cannot delete room key request in state ${data.state} ` + `(expected ${expectedState})`);
return;
}
cursor.delete();
};
return promiseifyTxn(txn);
}
// Olm Account
getAccount(txn, func) {
const objectStore = txn.objectStore("account");
const getReq = objectStore.get("-");
getReq.onsuccess = function () {
try {
func(getReq.result || null);
} catch (e) {
abortWithException(txn, e);
}
};
}
storeAccount(txn, accountPickle) {
const objectStore = txn.objectStore("account");
objectStore.put(accountPickle, "-");
}
getCrossSigningKeys(txn, func) {
const objectStore = txn.objectStore("account");
const getReq = objectStore.get("crossSigningKeys");
getReq.onsuccess = function () {
try {
func(getReq.result || null);
} catch (e) {
abortWithException(txn, e);
}
};
}
getSecretStorePrivateKey(txn, func, type) {
const objectStore = txn.objectStore("account");
const getReq = objectStore.get(`ssss_cache:${type}`);
getReq.onsuccess = function () {
try {
func(getReq.result || null);
} catch (e) {
abortWithException(txn, e);
}
};
}
storeCrossSigningKeys(txn, keys) {
const objectStore = txn.objectStore("account");
objectStore.put(keys, "crossSigningKeys");
}
storeSecretStorePrivateKey(txn, type, key) {
const objectStore = txn.objectStore("account");
objectStore.put(key, `ssss_cache:${type}`);
}
// Olm Sessions
countEndToEndSessions(txn, func) {
const objectStore = txn.objectStore("sessions");
const countReq = objectStore.count();
countReq.onsuccess = function () {
try {
func(countReq.result);
} catch (e) {
abortWithException(txn, e);
}
};
}
getEndToEndSessions(deviceKey, txn, func) {
const objectStore = txn.objectStore("sessions");
const idx = objectStore.index("deviceKey");
const getReq = idx.openCursor(deviceKey);
const results = {};
getReq.onsuccess = function () {
const cursor = getReq.result;
if (cursor) {
results[cursor.value.sessionId] = {
session: cursor.value.session,
lastReceivedMessageTs: cursor.value.lastReceivedMessageTs
};
cursor.continue();
} else {
try {
func(results);
} catch (e) {
abortWithException(txn, e);
}
}
};
}
getEndToEndSession(deviceKey, sessionId, txn, func) {
const objectStore = txn.objectStore("sessions");
const getReq = objectStore.get([deviceKey, sessionId]);
getReq.onsuccess = function () {
try {
if (getReq.result) {
func({
session: getReq.result.session,
lastReceivedMessageTs: getReq.result.lastReceivedMessageTs
});
} else {
func(null);
}
} catch (e) {
abortWithException(txn, e);
}
};
}
getAllEndToEndSessions(txn, func) {
const objectStore = txn.objectStore("sessions");
const getReq = objectStore.openCursor();
getReq.onsuccess = function () {
try {
const cursor = getReq.result;
if (cursor) {
func(cursor.value);
cursor.continue();
} else {
func(null);
}
} catch (e) {
abortWithException(txn, e);
}
};
}
storeEndToEndSession(deviceKey, sessionId, sessionInfo, txn) {
const objectStore = txn.objectStore("sessions");
objectStore.put({
deviceKey,
sessionId,
session: sessionInfo.session,
lastReceivedMessageTs: sessionInfo.lastReceivedMessageTs
});
}
async storeEndToEndSessionProblem(deviceKey, type, fixed) {
const txn = this.db.transaction("session_problems", "readwrite");
const objectStore = txn.objectStore("session_problems");
objectStore.put({
deviceKey,
type,
fixed,
time: Date.now()
});
await promiseifyTxn(txn);
}
async getEndToEndSessionProblem(deviceKey, timestamp) {
let result = null;
const txn = this.db.transaction("session_problems", "readwrite");
const objectStore = txn.objectStore("session_problems");
const index = objectStore.index("deviceKey");
const req = index.getAll(deviceKey);
req.onsuccess = () => {
const problems = req.result;
if (!problems.length) {
result = null;
return;
}
problems.sort((a, b) => {
return a.time - b.time;
});
const lastProblem = problems[problems.length - 1];
for (const problem of problems) {
if (problem.time > timestamp) {
result = Object.assign({}, problem, {
fixed: lastProblem.fixed
});
return;
}
}
if (lastProblem.fixed) {
result = null;
} else {
result = lastProblem;
}
};
await promiseifyTxn(txn);
return result;
}
// FIXME: we should probably prune this when devices get deleted
async filterOutNotifiedErrorDevices(devices) {
const txn = this.db.transaction("notified_error_devices", "readwrite");
const objectStore = txn.objectStore("notified_error_devices");
const ret = [];
await Promise.all(devices.map(device => {
return new Promise(resolve => {
const {
userId,
deviceInfo
} = device;
const getReq = objectStore.get([userId, deviceInfo.deviceId]);
getReq.onsuccess = function () {
if (!getReq.result) {
objectStore.put({
userId,
deviceId: deviceInfo.deviceId
});
ret.push(device);
}
resolve();
};
});
}));
return ret;
}
/**
* Fetch a batch of Olm sessions from the database.
*
* Implementation of {@link CryptoStore.getEndToEndSessionsBatch}.
*/
async getEndToEndSessionsBatch() {
const result = [];
await this.doTxn("readonly", [_indexeddbCryptoStore.IndexedDBCryptoStore.STORE_SESSIONS], txn => {
const objectStore = txn.objectStore(_indexeddbCryptoStore.IndexedDBCryptoStore.STORE_SESSIONS);
const getReq = objectStore.openCursor();
getReq.onsuccess = function () {
try {
const cursor = getReq.result;
if (cursor) {
result.push(cursor.value);
if (result.length < _base.SESSION_BATCH_SIZE) {
cursor.continue();
}
}
} catch (e) {
abortWithException(txn, e);
}
};
});
if (result.length === 0) {
// No sessions left.
return null;
}
return result;
}
/**
* Delete a batch of Olm sessions from the database.
*
* Implementation of {@link CryptoStore.deleteEndToEndSessionsBatch}.
*
* @internal
*/
async deleteEndToEndSessionsBatch(sessions) {
await this.doTxn("readwrite", [_indexeddbCryptoStore.IndexedDBCryptoStore.STORE_SESSIONS], async txn => {
try {
const objectStore = txn.objectStore(_indexeddbCryptoStore.IndexedDBCryptoStore.STORE_SESSIONS);
for (const {
deviceKey,
sessionId
} of sessions) {
const req = objectStore.delete([deviceKey, sessionId]);
await new Promise(resolve => {
req.onsuccess = resolve;
});
}
} catch (e) {
abortWithException(txn, e);
}
});
}
// Inbound group sessions
getEndToEndInboundGroupSession(senderCurve25519Key, sessionId, txn, func) {
let session = false;
let withheld = false;
const objectStore = txn.objectStore("inbound_group_sessions");
const getReq = objectStore.get([senderCurve25519Key, sessionId]);
getReq.onsuccess = function () {
try {
if (getReq.result) {
session = getReq.result.session;
} else {
session = null;
}
if (withheld !== false) {
func(session, withheld);
}
} catch (e) {
abortWithException(txn, e);
}
};
const withheldObjectStore = txn.objectStore("inbound_group_sessions_withheld");
const withheldGetReq = withheldObjectStore.get([senderCurve25519Key, sessionId]);
withheldGetReq.onsuccess = function () {
try {
if (withheldGetReq.result) {
withheld = withheldGetReq.result.session;
} else {
withheld = null;
}
if (session !== false) {
func(session, withheld);
}
} catch (e) {
abortWithException(txn, e);
}
};
}
getAllEndToEndInboundGroupSessions(txn, func) {
const objectStore = txn.objectStore("inbound_group_sessions");
const getReq = objectStore.openCursor();
getReq.onsuccess = function () {
const cursor = getReq.result;
if (cursor) {
try {
func({
senderKey: cursor.value.senderCurve25519Key,
sessionId: cursor.value.sessionId,
sessionData: cursor.value.session
});
} catch (e) {
abortWithException(txn, e);
}
cursor.continue();
} else {
try {
func(null);
} catch (e) {
abortWithException(txn, e);
}
}
};
}
addEndToEndInboundGroupSession(senderCurve25519Key, sessionId, sessionData, txn) {
const objectStore = txn.objectStore("inbound_group_sessions");
const addReq = objectStore.add({
senderCurve25519Key,
sessionId,
session: sessionData
});
addReq.onerror = ev => {
if (addReq.error?.name === "ConstraintError") {
// This stops the error from triggering the txn's onerror
ev.stopPropagation();
// ...and this stops it from aborting the transaction
ev.preventDefault();
_logger.logger.log("Ignoring duplicate inbound group session: " + senderCurve25519Key + " / " + sessionId);
} else {
abortWithException(txn, new Error("Failed to add inbound group session: " + addReq.error));
}
};
}
storeEndToEndInboundGroupSession(senderCurve25519Key, sessionId, sessionData, txn) {
const objectStore = txn.objectStore("inbound_group_sessions");
objectStore.put({
senderCurve25519Key,
sessionId,
session: sessionData
});
}
storeEndToEndInboundGroupSessionWithheld(senderCurve25519Key, sessionId, sessionData, txn) {
const objectStore = txn.objectStore("inbound_group_sessions_withheld");
objectStore.put({
senderCurve25519Key,
sessionId,
session: sessionData
});
}
/**
* Count the number of Megolm sessions in the database.
*
* Implementation of {@link CryptoStore.countEndToEndInboundGroupSessions}.
*
* @internal
*/
async countEndToEndInboundGroupSessions() {
let result = 0;
await this.doTxn("readonly", [_indexeddbCryptoStore.IndexedDBCryptoStore.STORE_INBOUND_GROUP_SESSIONS], txn => {
const sessionStore = txn.objectStore(_indexeddbCryptoStore.IndexedDBCryptoStore.STORE_INBOUND_GROUP_SESSIONS);
const countReq = sessionStore.count();
countReq.onsuccess = () => {
result = countReq.result;
};
});
return result;
}
/**
* Fetch a batch of Megolm sessions from the database.
*
* Implementation of {@link CryptoStore.getEndToEndInboundGroupSessionsBatch}.
*/
async getEndToEndInboundGroupSessionsBatch() {
const result = [];
await this.doTxn("readonly", [_indexeddbCryptoStore.IndexedDBCryptoStore.STORE_INBOUND_GROUP_SESSIONS, _indexeddbCryptoStore.IndexedDBCryptoStore.STORE_BACKUP], txn => {
const sessionStore = txn.objectStore(_indexeddbCryptoStore.IndexedDBCryptoStore.STORE_INBOUND_GROUP_SESSIONS);
const backupStore = txn.objectStore(_indexeddbCryptoStore.IndexedDBCryptoStore.STORE_BACKUP);
const getReq = sessionStore.openCursor();
getReq.onsuccess = function () {
try {
const cursor = getReq.result;
if (cursor) {
const backupGetReq = backupStore.get(cursor.key);
backupGetReq.onsuccess = () => {
result.push({
senderKey: cursor.value.senderCurve25519Key,
sessionId: cursor.value.sessionId,
sessionData: cursor.value.session,
needsBackup: backupGetReq.result !== undefined
});
if (result.length < _base.SESSION_BATCH_SIZE) {
cursor.continue();
}
};
}
} catch (e) {
abortWithException(txn, e);
}
};
});
if (result.length === 0) {
// No sessions left.
return null;
}
return result;
}
/**
* Delete a batch of Megolm sessions from the database.
*
* Implementation of {@link CryptoStore.deleteEndToEndInboundGroupSessionsBatch}.
*
* @internal
*/
async deleteEndToEndInboundGroupSessionsBatch(sessions) {
await this.doTxn("readwrite", [_indexeddbCryptoStore.IndexedDBCryptoStore.STORE_INBOUND_GROUP_SESSIONS], async txn => {
try {
const objectStore = txn.objectStore(_indexeddbCryptoStore.IndexedDBCryptoStore.STORE_INBOUND_GROUP_SESSIONS);
for (const {
senderKey,
sessionId
} of sessions) {
const req = objectStore.delete([senderKey, sessionId]);
await new Promise(resolve => {
req.onsuccess = resolve;
});
}
} catch (e) {
abortWithException(txn, e);
}
});
}
getEndToEndDeviceData(txn, func) {
const objectStore = txn.objectStore("device_data");
const getReq = objectStore.get("-");
getReq.onsuccess = function () {
try {
func(getReq.result || null);
} catch (e) {
abortWithException(txn, e);
}
};
}
storeEndToEndDeviceData(deviceData, txn) {
const objectStore = txn.objectStore("device_data");
objectStore.put(deviceData, "-");
}
storeEndToEndRoom(roomId, roomInfo, txn) {
const objectStore = txn.objectStore("rooms");
objectStore.put(roomInfo, roomId);
}
getEndToEndRooms(txn, func) {
const rooms = {};
const objectStore = txn.objectStore("rooms");
const getReq = objectStore.openCursor();
getReq.onsuccess = function () {
const cursor = getReq.result;
if (cursor) {
rooms[cursor.key] = cursor.value;
cursor.continue();
} else {
try {
func(rooms);
} catch (e) {
abortWithException(txn, e);
}
}
};
}
// session backups
getSessionsNeedingBackup(limit) {
return new Promise((resolve, reject) => {
const sessions = [];
const txn = this.db.transaction(["sessions_needing_backup", "inbound_group_sessions"], "readonly");
txn.onerror = reject;
txn.oncomplete = function () {
resolve(sessions);
};
const objectStore = txn.objectStore("sessions_needing_backup");
const sessionStore = txn.objectStore("inbound_group_sessions");
const getReq = objectStore.openCursor();
getReq.onsuccess = function () {
const cursor = getReq.result;
if (cursor) {
const sessionGetReq = sessionStore.get(cursor.key);
sessionGetReq.onsuccess = function () {
sessions.push({
senderKey: sessionGetReq.result.senderCurve25519Key,
sessionId: sessionGetReq.result.sessionId,
sessionData: sessionGetReq.result.session
});
};
if (!limit || sessions.length < limit) {
cursor.continue();
}
}
};
});
}
countSessionsNeedingBackup(txn) {
if (!txn) {
txn = this.db.transaction("sessions_needing_backup", "readonly");
}
const objectStore = txn.objectStore("sessions_needing_backup");
return new Promise((resolve, reject) => {
const req = objectStore.count();
req.onerror = reject;
req.onsuccess = () => resolve(req.result);
});
}
async unmarkSessionsNeedingBackup(sessions, txn) {
if (!txn) {
txn = this.db.transaction("sessions_needing_backup", "readwrite");
}
const objectStore = txn.objectStore("sessions_needing_backup");
await Promise.all(sessions.map(session => {
return new Promise((resolve, reject) => {
const req = objectStore.delete([session.senderKey, session.sessionId]);
req.onsuccess = resolve;
req.onerror = reject;
});
}));
}
async markSessionsNeedingBackup(sessions, txn) {
if (!txn) {
txn = this.db.transaction("sessions_needing_backup", "readwrite");
}
const objectStore = txn.objectStore("sessions_needing_backup");
await Promise.all(sessions.map(session => {
return new Promise((resolve, reject) => {
const req = objectStore.put({
senderCurve25519Key: session.senderKey,
sessionId: session.sessionId
});
req.onsuccess = resolve;
req.onerror = reject;
});
}));
}
addSharedHistoryInboundGroupSession(roomId, senderKey, sessionId, txn) {
if (!txn) {
txn = this.db.transaction("shared_history_inbound_group_sessions", "readwrite");
}
const objectStore = txn.objectStore("shared_history_inbound_group_sessions");
const req = objectStore.get([roomId]);
req.onsuccess = () => {
const {
sessions
} = req.result || {
sessions: []
};
sessions.push([senderKey, sessionId]);
objectStore.put({
roomId,
sessions
});
};
}
getSharedHistoryInboundGroupSessions(roomId, txn) {
if (!txn) {
txn = this.db.transaction("shared_history_inbound_group_sessions", "readonly");
}
const objectStore = txn.objectStore("shared_history_inbound_group_sessions");
const req = objectStore.get([roomId]);
return new Promise((resolve, reject) => {
req.onsuccess = () => {
const {
sessions
} = req.result || {
sessions: []
};
resolve(sessions);
};
req.onerror = reject;
});
}
addParkedSharedHistory(roomId, parkedData, txn) {
if (!txn) {
txn = this.db.transaction("parked_shared_history", "readwrite");
}
const objectStore = txn.objectStore("parked_shared_history");
const req = objectStore.get([roomId]);
req.onsuccess = () => {
const {
parked
} = req.result || {
parked: []
};
parked.push(parkedData);
objectStore.put({
roomId,
parked
});
};
}
takeParkedSharedHistory(roomId, txn) {
if (!txn) {
txn = this.db.transaction("parked_shared_history", "readwrite");
}
const cursorReq = txn.objectStore("parked_shared_history").openCursor(roomId);
return new Promise((resolve, reject) => {
cursorReq.onsuccess = () => {
const cursor = cursorReq.result;
if (!cursor) {
resolve([]);
return;
}
const data = cursor.value;
cursor.delete();
resolve(data);
};
cursorReq.onerror = reject;
});
}
doTxn(mode, stores, func, log = _logger.logger) {
let startTime;
let description;
if (PROFILE_TRANSACTIONS) {
const txnId = this.nextTxnId++;
startTime = Date.now();
description = `${mode} crypto store transaction ${txnId} in ${stores}`;
log.debug(`Starting ${description}`);
}
const txn = this.db.transaction(stores, mode);
const promise = promiseifyTxn(txn);
const result = func(txn);
if (PROFILE_TRANSACTIONS) {
promise.then(() => {
const elapsedTime = Date.now() - startTime;
log.debug(`Finished ${description}, took ${elapsedTime} ms`);
}, () => {
const elapsedTime = Date.now() - startTime;
log.error(`Failed ${description}, took ${elapsedTime} ms`);
});
}
return promise.then(() => {
return result;
});
}
}
exports.Backend = Backend;
const DB_MIGRATIONS = [db => {
createDatabase(db);
}, db => {
db.createObjectStore("account");
}, db => {
const sessionsStore = db.createObjectStore("sessions", {
keyPath: ["deviceKey", "sessionId"]
});
sessionsStore.createIndex("deviceKey", "deviceKey");
}, db => {
db.createObjectStore("inbound_group_sessions", {
keyPath: ["senderCurve25519Key", "sessionId"]
});
}, db => {
db.createObjectStore("device_data");
}, db => {
db.createObjectStore("rooms");
}, db => {
db.createObjectStore("sessions_needing_backup", {
keyPath: ["senderCurve25519Key", "sessionId"]
});
}, db => {
db.createObjectStore("inbound_group_sessions_withheld", {
keyPath: ["senderCurve25519Key", "sessionId"]
});
}, db => {
const problemsStore = db.createObjectStore("session_problems", {
keyPath: ["deviceKey", "time"]
});
problemsStore.createIndex("deviceKey", "deviceKey");
db.createObjectStore("notified_error_devices", {
keyPath: ["userId", "deviceId"]
});
}, db => {
db.createObjectStore("shared_history_inbound_group_sessions", {
keyPath: ["roomId"]
});
}, db => {
db.createObjectStore("parked_shared_history", {
keyPath: ["roomId"]
});
}
// Expand as needed.
];
const VERSION = exports.VERSION = DB_MIGRATIONS.length;
function upgradeDatabase(db, oldVersion) {
_logger.logger.log(`Upgrading IndexedDBCryptoStore from version ${oldVersion}` + ` to ${VERSION}`);
DB_MIGRATIONS.forEach((migration, index) => {
if (oldVersion <= index) migration(db);
});
}
function createDatabase(db) {
const outgoingRoomKeyRequestsStore = db.createObjectStore("outgoingRoomKeyRequests", {
keyPath: "requestId"
});
// we assume that the RoomKeyRequestBody will have room_id and session_id
// properties, to make the index efficient.
outgoingRoomKeyRequestsStore.createIndex("session", ["requestBody.room_id", "requestBody.session_id"]);
outgoingRoomKeyRequestsStore.createIndex("state", "state");
}
/*
* Aborts a transaction with a given exception
* The transaction promise will be rejected with this exception.
*/
function abortWithException(txn, e) {
// We cheekily stick our exception onto the transaction object here
// We could alternatively make the thing we pass back to the app
// an object containing the transaction and exception.
txn._mx_abortexception = e;
try {
txn.abort();
} catch {
// sometimes we won't be able to abort the transaction
// (ie. if it's aborted or completed)
}
}
function promiseifyTxn(txn) {
return new Promise((resolve, reject) => {
txn.oncomplete = () => {
if (txn._mx_abortexception !== undefined) {
reject(txn._mx_abortexception);
}
resolve(null);
};
txn.onerror = event => {
if (txn._mx_abortexception !== undefined) {
reject(txn._mx_abortexception);
} else {
_logger.logger.log("Error performing indexeddb txn", event);
reject(txn.error);
}
};
txn.onabort = event => {
if (txn._mx_abortexception !== undefined) {
reject(txn._mx_abortexception);
} else {
_logger.logger.log("Error performing indexeddb txn", event);
reject(txn.error);
}
};
});
}