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diff --git a/services/sync/tests/unit/test_syncengine_sync.js b/services/sync/tests/unit/test_syncengine_sync.js
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+/* Any copyright is dedicated to the Public Domain.
+ * http://creativecommons.org/publicdomain/zero/1.0/ */
+
+const { Weave } = ChromeUtils.import("resource://services-sync/main.js");
+const { WBORecord } = ChromeUtils.import("resource://services-sync/record.js");
+const { Service } = ChromeUtils.import("resource://services-sync/service.js");
+const { RotaryEngine } = ChromeUtils.import(
+ "resource://testing-common/services/sync/rotaryengine.js"
+);
+
+function makeRotaryEngine() {
+ return new RotaryEngine(Service);
+}
+
+async function clean(engine) {
+ Svc.Prefs.resetBranch("");
+ Svc.Prefs.set("log.logger.engine.rotary", "Trace");
+ Service.recordManager.clearCache();
+ await engine._tracker.clearChangedIDs();
+ await engine.finalize();
+}
+
+async function cleanAndGo(engine, server) {
+ await clean(engine);
+ await promiseStopServer(server);
+}
+
+async function promiseClean(engine, server) {
+ await clean(engine);
+ await promiseStopServer(server);
+}
+
+async function createServerAndConfigureClient() {
+ let engine = new RotaryEngine(Service);
+ let syncID = await engine.resetLocalSyncID();
+
+ let contents = {
+ meta: {
+ global: { engines: { rotary: { version: engine.version, syncID } } },
+ },
+ crypto: {},
+ rotary: {},
+ };
+
+ const USER = "foo";
+ let server = new SyncServer();
+ server.registerUser(USER, "password");
+ server.createContents(USER, contents);
+ server.start();
+
+ await SyncTestingInfrastructure(server, USER);
+ Service._updateCachedURLs();
+
+ return [engine, server, USER];
+}
+
+/*
+ * Tests
+ *
+ * SyncEngine._sync() is divided into four rather independent steps:
+ *
+ * - _syncStartup()
+ * - _processIncoming()
+ * - _uploadOutgoing()
+ * - _syncFinish()
+ *
+ * In the spirit of unit testing, these are tested individually for
+ * different scenarios below.
+ */
+
+add_task(async function setup() {
+ await generateNewKeys(Service.collectionKeys);
+ Svc.Prefs.set("log.logger.engine.rotary", "Trace");
+});
+
+add_task(async function test_syncStartup_emptyOrOutdatedGlobalsResetsSync() {
+ _(
+ "SyncEngine._syncStartup resets sync and wipes server data if there's no or an outdated global record"
+ );
+
+ // Some server side data that's going to be wiped
+ let collection = new ServerCollection();
+ collection.insert(
+ "flying",
+ encryptPayload({ id: "flying", denomination: "LNER Class A3 4472" })
+ );
+ collection.insert(
+ "scotsman",
+ encryptPayload({ id: "scotsman", denomination: "Flying Scotsman" })
+ );
+
+ let server = sync_httpd_setup({
+ "/1.1/foo/storage/rotary": collection.handler(),
+ });
+
+ await SyncTestingInfrastructure(server);
+
+ let engine = makeRotaryEngine();
+ engine._store.items = { rekolok: "Rekonstruktionslokomotive" };
+ try {
+ // Confirm initial environment
+ const changes = await engine._tracker.getChangedIDs();
+ Assert.equal(changes.rekolok, undefined);
+ let metaGlobal = await Service.recordManager.get(engine.metaURL);
+ Assert.equal(metaGlobal.payload.engines, undefined);
+ Assert.ok(!!collection.payload("flying"));
+ Assert.ok(!!collection.payload("scotsman"));
+
+ await engine.setLastSync(Date.now() / 1000);
+
+ // Trying to prompt a wipe -- we no longer track CryptoMeta per engine,
+ // so it has nothing to check.
+ await engine._syncStartup();
+
+ // The meta/global WBO has been filled with data about the engine
+ let engineData = metaGlobal.payload.engines.rotary;
+ Assert.equal(engineData.version, engine.version);
+ Assert.equal(engineData.syncID, await engine.getSyncID());
+
+ // Sync was reset and server data was wiped
+ Assert.equal(await engine.getLastSync(), 0);
+ Assert.equal(collection.payload("flying"), undefined);
+ Assert.equal(collection.payload("scotsman"), undefined);
+ } finally {
+ await cleanAndGo(engine, server);
+ }
+});
+
+add_task(async function test_syncStartup_serverHasNewerVersion() {
+ _("SyncEngine._syncStartup ");
+
+ let global = new ServerWBO("global", {
+ engines: { rotary: { version: 23456 } },
+ });
+ let server = httpd_setup({
+ "/1.1/foo/storage/meta/global": global.handler(),
+ });
+
+ await SyncTestingInfrastructure(server);
+
+ let engine = makeRotaryEngine();
+ try {
+ // The server has a newer version of the data and our engine can
+ // handle. That should give us an exception.
+ let error;
+ try {
+ await engine._syncStartup();
+ } catch (ex) {
+ error = ex;
+ }
+ Assert.equal(error.failureCode, VERSION_OUT_OF_DATE);
+ } finally {
+ await cleanAndGo(engine, server);
+ }
+});
+
+add_task(async function test_syncStartup_syncIDMismatchResetsClient() {
+ _("SyncEngine._syncStartup resets sync if syncIDs don't match");
+
+ let server = sync_httpd_setup({});
+
+ await SyncTestingInfrastructure(server);
+
+ // global record with a different syncID than our engine has
+ let engine = makeRotaryEngine();
+ let global = new ServerWBO("global", {
+ engines: { rotary: { version: engine.version, syncID: "foobar" } },
+ });
+ server.registerPathHandler("/1.1/foo/storage/meta/global", global.handler());
+
+ try {
+ // Confirm initial environment
+ Assert.equal(await engine.getSyncID(), "");
+ const changes = await engine._tracker.getChangedIDs();
+ Assert.equal(changes.rekolok, undefined);
+
+ await engine.setLastSync(Date.now() / 1000);
+ await engine._syncStartup();
+
+ // The engine has assumed the server's syncID
+ Assert.equal(await engine.getSyncID(), "foobar");
+
+ // Sync was reset
+ Assert.equal(await engine.getLastSync(), 0);
+ } finally {
+ await cleanAndGo(engine, server);
+ }
+});
+
+add_task(async function test_processIncoming_emptyServer() {
+ _("SyncEngine._processIncoming working with an empty server backend");
+
+ let collection = new ServerCollection();
+ let server = sync_httpd_setup({
+ "/1.1/foo/storage/rotary": collection.handler(),
+ });
+
+ await SyncTestingInfrastructure(server);
+
+ let engine = makeRotaryEngine();
+ try {
+ // Merely ensure that this code path is run without any errors
+ await engine._processIncoming();
+ Assert.equal(await engine.getLastSync(), 0);
+ } finally {
+ await cleanAndGo(engine, server);
+ }
+});
+
+add_task(async function test_processIncoming_createFromServer() {
+ _("SyncEngine._processIncoming creates new records from server data");
+
+ // Some server records that will be downloaded
+ let collection = new ServerCollection();
+ collection.insert(
+ "flying",
+ encryptPayload({ id: "flying", denomination: "LNER Class A3 4472" })
+ );
+ collection.insert(
+ "scotsman",
+ encryptPayload({ id: "scotsman", denomination: "Flying Scotsman" })
+ );
+
+ // Two pathological cases involving relative URIs gone wrong.
+ let pathologicalPayload = encryptPayload({
+ id: "../pathological",
+ denomination: "Pathological Case",
+ });
+ collection.insert("../pathological", pathologicalPayload);
+
+ let server = sync_httpd_setup({
+ "/1.1/foo/storage/rotary": collection.handler(),
+ "/1.1/foo/storage/rotary/flying": collection.wbo("flying").handler(),
+ "/1.1/foo/storage/rotary/scotsman": collection.wbo("scotsman").handler(),
+ });
+
+ await SyncTestingInfrastructure(server);
+
+ await generateNewKeys(Service.collectionKeys);
+
+ let engine = makeRotaryEngine();
+ let syncID = await engine.resetLocalSyncID();
+ let meta_global = Service.recordManager.set(
+ engine.metaURL,
+ new WBORecord(engine.metaURL)
+ );
+ meta_global.payload.engines = { rotary: { version: engine.version, syncID } };
+
+ try {
+ // Confirm initial environment
+ Assert.equal(await engine.getLastSync(), 0);
+ Assert.equal(engine.lastModified, null);
+ Assert.equal(engine._store.items.flying, undefined);
+ Assert.equal(engine._store.items.scotsman, undefined);
+ Assert.equal(engine._store.items["../pathological"], undefined);
+
+ await engine._syncStartup();
+ await engine._processIncoming();
+
+ // Timestamps of last sync and last server modification are set.
+ Assert.ok((await engine.getLastSync()) > 0);
+ Assert.ok(engine.lastModified > 0);
+
+ // Local records have been created from the server data.
+ Assert.equal(engine._store.items.flying, "LNER Class A3 4472");
+ Assert.equal(engine._store.items.scotsman, "Flying Scotsman");
+ Assert.equal(engine._store.items["../pathological"], "Pathological Case");
+ } finally {
+ await cleanAndGo(engine, server);
+ }
+});
+
+add_task(async function test_processIncoming_reconcile() {
+ _("SyncEngine._processIncoming updates local records");
+
+ let collection = new ServerCollection();
+
+ // This server record is newer than the corresponding client one,
+ // so it'll update its data.
+ collection.insert(
+ "newrecord",
+ encryptPayload({ id: "newrecord", denomination: "New stuff..." })
+ );
+
+ // This server record is newer than the corresponding client one,
+ // so it'll update its data.
+ collection.insert(
+ "newerserver",
+ encryptPayload({ id: "newerserver", denomination: "New data!" })
+ );
+
+ // This server record is 2 mins older than the client counterpart
+ // but identical to it, so we're expecting the client record's
+ // changedID to be reset.
+ collection.insert(
+ "olderidentical",
+ encryptPayload({
+ id: "olderidentical",
+ denomination: "Older but identical",
+ })
+ );
+ collection._wbos.olderidentical.modified -= 120;
+
+ // This item simply has different data than the corresponding client
+ // record (which is unmodified), so it will update the client as well
+ collection.insert(
+ "updateclient",
+ encryptPayload({ id: "updateclient", denomination: "Get this!" })
+ );
+
+ // This is a dupe of 'original'.
+ collection.insert(
+ "duplication",
+ encryptPayload({ id: "duplication", denomination: "Original Entry" })
+ );
+
+ // This record is marked as deleted, so we're expecting the client
+ // record to be removed.
+ collection.insert(
+ "nukeme",
+ encryptPayload({ id: "nukeme", denomination: "Nuke me!", deleted: true })
+ );
+
+ let server = sync_httpd_setup({
+ "/1.1/foo/storage/rotary": collection.handler(),
+ });
+
+ await SyncTestingInfrastructure(server);
+
+ let engine = makeRotaryEngine();
+ engine._store.items = {
+ newerserver: "New data, but not as new as server!",
+ olderidentical: "Older but identical",
+ updateclient: "Got data?",
+ original: "Original Entry",
+ long_original: "Long Original Entry",
+ nukeme: "Nuke me!",
+ };
+ // Make this record 1 min old, thus older than the one on the server
+ await engine._tracker.addChangedID("newerserver", Date.now() / 1000 - 60);
+ // This record has been changed 2 mins later than the one on the server
+ await engine._tracker.addChangedID("olderidentical", Date.now() / 1000);
+
+ let syncID = await engine.resetLocalSyncID();
+ let meta_global = Service.recordManager.set(
+ engine.metaURL,
+ new WBORecord(engine.metaURL)
+ );
+ meta_global.payload.engines = { rotary: { version: engine.version, syncID } };
+
+ try {
+ // Confirm initial environment
+ Assert.equal(engine._store.items.newrecord, undefined);
+ Assert.equal(
+ engine._store.items.newerserver,
+ "New data, but not as new as server!"
+ );
+ Assert.equal(engine._store.items.olderidentical, "Older but identical");
+ Assert.equal(engine._store.items.updateclient, "Got data?");
+ Assert.equal(engine._store.items.nukeme, "Nuke me!");
+ let changes = await engine._tracker.getChangedIDs();
+ Assert.ok(changes.olderidentical > 0);
+
+ await engine._syncStartup();
+ await engine._processIncoming();
+
+ // Timestamps of last sync and last server modification are set.
+ Assert.ok((await engine.getLastSync()) > 0);
+ Assert.ok(engine.lastModified > 0);
+
+ // The new record is created.
+ Assert.equal(engine._store.items.newrecord, "New stuff...");
+
+ // The 'newerserver' record is updated since the server data is newer.
+ Assert.equal(engine._store.items.newerserver, "New data!");
+
+ // The data for 'olderidentical' is identical on the server, so
+ // it's no longer marked as changed anymore.
+ Assert.equal(engine._store.items.olderidentical, "Older but identical");
+ changes = await engine._tracker.getChangedIDs();
+ Assert.equal(changes.olderidentical, undefined);
+
+ // Updated with server data.
+ Assert.equal(engine._store.items.updateclient, "Get this!");
+
+ // The incoming ID is preferred.
+ Assert.equal(engine._store.items.original, undefined);
+ Assert.equal(engine._store.items.duplication, "Original Entry");
+ Assert.notEqual(engine._delete.ids.indexOf("original"), -1);
+
+ // The 'nukeme' record marked as deleted is removed.
+ Assert.equal(engine._store.items.nukeme, undefined);
+ } finally {
+ await cleanAndGo(engine, server);
+ }
+});
+
+add_task(async function test_processIncoming_reconcile_local_deleted() {
+ _("Ensure local, duplicate ID is deleted on server.");
+
+ // When a duplicate is resolved, the local ID (which is never taken) should
+ // be deleted on the server.
+ let [engine, server, user] = await createServerAndConfigureClient();
+
+ let now = Date.now() / 1000 - 10;
+ await engine.setLastSync(now);
+ engine.lastModified = now + 1;
+
+ let record = encryptPayload({
+ id: "DUPE_INCOMING",
+ denomination: "incoming",
+ });
+ let wbo = new ServerWBO("DUPE_INCOMING", record, now + 2);
+ server.insertWBO(user, "rotary", wbo);
+
+ record = encryptPayload({ id: "DUPE_LOCAL", denomination: "local" });
+ wbo = new ServerWBO("DUPE_LOCAL", record, now - 1);
+ server.insertWBO(user, "rotary", wbo);
+
+ await engine._store.create({ id: "DUPE_LOCAL", denomination: "local" });
+ Assert.ok(await engine._store.itemExists("DUPE_LOCAL"));
+ Assert.equal("DUPE_LOCAL", await engine._findDupe({ id: "DUPE_INCOMING" }));
+
+ await engine._sync();
+
+ do_check_attribute_count(engine._store.items, 1);
+ Assert.ok("DUPE_INCOMING" in engine._store.items);
+
+ let collection = server.getCollection(user, "rotary");
+ Assert.equal(1, collection.count());
+ Assert.notEqual(undefined, collection.wbo("DUPE_INCOMING"));
+
+ await cleanAndGo(engine, server);
+});
+
+add_task(async function test_processIncoming_reconcile_equivalent() {
+ _("Ensure proper handling of incoming records that match local.");
+
+ let [engine, server, user] = await createServerAndConfigureClient();
+
+ let now = Date.now() / 1000 - 10;
+ await engine.setLastSync(now);
+ engine.lastModified = now + 1;
+
+ let record = encryptPayload({ id: "entry", denomination: "denomination" });
+ let wbo = new ServerWBO("entry", record, now + 2);
+ server.insertWBO(user, "rotary", wbo);
+
+ engine._store.items = { entry: "denomination" };
+ Assert.ok(await engine._store.itemExists("entry"));
+
+ await engine._sync();
+
+ do_check_attribute_count(engine._store.items, 1);
+
+ await cleanAndGo(engine, server);
+});
+
+add_task(
+ async function test_processIncoming_reconcile_locally_deleted_dupe_new() {
+ _(
+ "Ensure locally deleted duplicate record newer than incoming is handled."
+ );
+
+ // This is a somewhat complicated test. It ensures that if a client receives
+ // a modified record for an item that is deleted locally but with a different
+ // ID that the incoming record is ignored. This is a corner case for record
+ // handling, but it needs to be supported.
+ let [engine, server, user] = await createServerAndConfigureClient();
+
+ let now = Date.now() / 1000 - 10;
+ await engine.setLastSync(now);
+ engine.lastModified = now + 1;
+
+ let record = encryptPayload({
+ id: "DUPE_INCOMING",
+ denomination: "incoming",
+ });
+ let wbo = new ServerWBO("DUPE_INCOMING", record, now + 2);
+ server.insertWBO(user, "rotary", wbo);
+
+ // Simulate a locally-deleted item.
+ engine._store.items = {};
+ await engine._tracker.addChangedID("DUPE_LOCAL", now + 3);
+ Assert.equal(false, await engine._store.itemExists("DUPE_LOCAL"));
+ Assert.equal(false, await engine._store.itemExists("DUPE_INCOMING"));
+ Assert.equal("DUPE_LOCAL", await engine._findDupe({ id: "DUPE_INCOMING" }));
+
+ engine.lastModified = server.getCollection(user, engine.name).timestamp;
+ await engine._sync();
+
+ // After the sync, the server's payload for the original ID should be marked
+ // as deleted.
+ do_check_empty(engine._store.items);
+ let collection = server.getCollection(user, "rotary");
+ Assert.equal(1, collection.count());
+ wbo = collection.wbo("DUPE_INCOMING");
+ Assert.notEqual(null, wbo);
+ let payload = wbo.getCleartext();
+ Assert.ok(payload.deleted);
+
+ await cleanAndGo(engine, server);
+ }
+);
+
+add_task(
+ async function test_processIncoming_reconcile_locally_deleted_dupe_old() {
+ _(
+ "Ensure locally deleted duplicate record older than incoming is restored."
+ );
+
+ // This is similar to the above test except it tests the condition where the
+ // incoming record is newer than the local deletion, therefore overriding it.
+
+ let [engine, server, user] = await createServerAndConfigureClient();
+
+ let now = Date.now() / 1000 - 10;
+ await engine.setLastSync(now);
+ engine.lastModified = now + 1;
+
+ let record = encryptPayload({
+ id: "DUPE_INCOMING",
+ denomination: "incoming",
+ });
+ let wbo = new ServerWBO("DUPE_INCOMING", record, now + 2);
+ server.insertWBO(user, "rotary", wbo);
+
+ // Simulate a locally-deleted item.
+ engine._store.items = {};
+ await engine._tracker.addChangedID("DUPE_LOCAL", now + 1);
+ Assert.equal(false, await engine._store.itemExists("DUPE_LOCAL"));
+ Assert.equal(false, await engine._store.itemExists("DUPE_INCOMING"));
+ Assert.equal("DUPE_LOCAL", await engine._findDupe({ id: "DUPE_INCOMING" }));
+
+ await engine._sync();
+
+ // Since the remote change is newer, the incoming item should exist locally.
+ do_check_attribute_count(engine._store.items, 1);
+ Assert.ok("DUPE_INCOMING" in engine._store.items);
+ Assert.equal("incoming", engine._store.items.DUPE_INCOMING);
+
+ let collection = server.getCollection(user, "rotary");
+ Assert.equal(1, collection.count());
+ wbo = collection.wbo("DUPE_INCOMING");
+ let payload = wbo.getCleartext();
+ Assert.equal("incoming", payload.denomination);
+
+ await cleanAndGo(engine, server);
+ }
+);
+
+add_task(async function test_processIncoming_reconcile_changed_dupe() {
+ _("Ensure that locally changed duplicate record is handled properly.");
+
+ let [engine, server, user] = await createServerAndConfigureClient();
+
+ let now = Date.now() / 1000 - 10;
+ await engine.setLastSync(now);
+ engine.lastModified = now + 1;
+
+ // The local record is newer than the incoming one, so it should be retained.
+ let record = encryptPayload({
+ id: "DUPE_INCOMING",
+ denomination: "incoming",
+ });
+ let wbo = new ServerWBO("DUPE_INCOMING", record, now + 2);
+ server.insertWBO(user, "rotary", wbo);
+
+ await engine._store.create({ id: "DUPE_LOCAL", denomination: "local" });
+ await engine._tracker.addChangedID("DUPE_LOCAL", now + 3);
+ Assert.ok(await engine._store.itemExists("DUPE_LOCAL"));
+ Assert.equal("DUPE_LOCAL", await engine._findDupe({ id: "DUPE_INCOMING" }));
+
+ engine.lastModified = server.getCollection(user, engine.name).timestamp;
+ await engine._sync();
+
+ // The ID should have been changed to incoming.
+ do_check_attribute_count(engine._store.items, 1);
+ Assert.ok("DUPE_INCOMING" in engine._store.items);
+
+ // On the server, the local ID should be deleted and the incoming ID should
+ // have its payload set to what was in the local record.
+ let collection = server.getCollection(user, "rotary");
+ Assert.equal(1, collection.count());
+ wbo = collection.wbo("DUPE_INCOMING");
+ Assert.notEqual(undefined, wbo);
+ let payload = wbo.getCleartext();
+ Assert.equal("local", payload.denomination);
+
+ await cleanAndGo(engine, server);
+});
+
+add_task(async function test_processIncoming_reconcile_changed_dupe_new() {
+ _("Ensure locally changed duplicate record older than incoming is ignored.");
+
+ // This test is similar to the above except the incoming record is younger
+ // than the local record. The incoming record should be authoritative.
+ let [engine, server, user] = await createServerAndConfigureClient();
+
+ let now = Date.now() / 1000 - 10;
+ await engine.setLastSync(now);
+ engine.lastModified = now + 1;
+
+ let record = encryptPayload({
+ id: "DUPE_INCOMING",
+ denomination: "incoming",
+ });
+ let wbo = new ServerWBO("DUPE_INCOMING", record, now + 2);
+ server.insertWBO(user, "rotary", wbo);
+
+ await engine._store.create({ id: "DUPE_LOCAL", denomination: "local" });
+ await engine._tracker.addChangedID("DUPE_LOCAL", now + 1);
+ Assert.ok(await engine._store.itemExists("DUPE_LOCAL"));
+ Assert.equal("DUPE_LOCAL", await engine._findDupe({ id: "DUPE_INCOMING" }));
+
+ engine.lastModified = server.getCollection(user, engine.name).timestamp;
+ await engine._sync();
+
+ // The ID should have been changed to incoming.
+ do_check_attribute_count(engine._store.items, 1);
+ Assert.ok("DUPE_INCOMING" in engine._store.items);
+
+ // On the server, the local ID should be deleted and the incoming ID should
+ // have its payload retained.
+ let collection = server.getCollection(user, "rotary");
+ Assert.equal(1, collection.count());
+ wbo = collection.wbo("DUPE_INCOMING");
+ Assert.notEqual(undefined, wbo);
+ let payload = wbo.getCleartext();
+ Assert.equal("incoming", payload.denomination);
+ await cleanAndGo(engine, server);
+});
+
+add_task(async function test_processIncoming_resume_toFetch() {
+ _(
+ "toFetch and previousFailed items left over from previous syncs are fetched on the next sync, along with new items."
+ );
+
+ const LASTSYNC = Date.now() / 1000;
+
+ // Server records that will be downloaded
+ let collection = new ServerCollection();
+ collection.insert(
+ "flying",
+ encryptPayload({ id: "flying", denomination: "LNER Class A3 4472" })
+ );
+ collection.insert(
+ "scotsman",
+ encryptPayload({ id: "scotsman", denomination: "Flying Scotsman" })
+ );
+ collection.insert(
+ "rekolok",
+ encryptPayload({ id: "rekolok", denomination: "Rekonstruktionslokomotive" })
+ );
+ for (let i = 0; i < 3; i++) {
+ let id = "failed" + i;
+ let payload = encryptPayload({ id, denomination: "Record No. " + i });
+ let wbo = new ServerWBO(id, payload);
+ wbo.modified = LASTSYNC - 10;
+ collection.insertWBO(wbo);
+ }
+
+ collection.wbo("flying").modified = collection.wbo("scotsman").modified =
+ LASTSYNC - 10;
+ collection._wbos.rekolok.modified = LASTSYNC + 10;
+
+ // Time travel 10 seconds into the future but still download the above WBOs.
+ let engine = makeRotaryEngine();
+ await engine.setLastSync(LASTSYNC);
+ engine.toFetch = new SerializableSet(["flying", "scotsman"]);
+ engine.previousFailed = new SerializableSet([
+ "failed0",
+ "failed1",
+ "failed2",
+ ]);
+
+ let server = sync_httpd_setup({
+ "/1.1/foo/storage/rotary": collection.handler(),
+ });
+
+ await SyncTestingInfrastructure(server);
+
+ let syncID = await engine.resetLocalSyncID();
+ let meta_global = Service.recordManager.set(
+ engine.metaURL,
+ new WBORecord(engine.metaURL)
+ );
+ meta_global.payload.engines = { rotary: { version: engine.version, syncID } };
+ try {
+ // Confirm initial environment
+ Assert.equal(engine._store.items.flying, undefined);
+ Assert.equal(engine._store.items.scotsman, undefined);
+ Assert.equal(engine._store.items.rekolok, undefined);
+
+ await engine._syncStartup();
+ await engine._processIncoming();
+
+ // Local records have been created from the server data.
+ Assert.equal(engine._store.items.flying, "LNER Class A3 4472");
+ Assert.equal(engine._store.items.scotsman, "Flying Scotsman");
+ Assert.equal(engine._store.items.rekolok, "Rekonstruktionslokomotive");
+ Assert.equal(engine._store.items.failed0, "Record No. 0");
+ Assert.equal(engine._store.items.failed1, "Record No. 1");
+ Assert.equal(engine._store.items.failed2, "Record No. 2");
+ Assert.equal(engine.previousFailed.size, 0);
+ } finally {
+ await cleanAndGo(engine, server);
+ }
+});
+
+add_task(async function test_processIncoming_notify_count() {
+ _("Ensure that failed records are reported only once.");
+
+ const NUMBER_OF_RECORDS = 15;
+
+ // Engine that fails every 5 records.
+ let engine = makeRotaryEngine();
+ engine._store._applyIncomingBatch = engine._store.applyIncomingBatch;
+ engine._store.applyIncomingBatch = async function(records) {
+ let sortedRecords = records.sort((a, b) => (a.id > b.id ? 1 : -1));
+ let recordsToApply = [],
+ recordsToFail = [];
+ for (let i = 0; i < sortedRecords.length; i++) {
+ (i % 5 === 0 ? recordsToFail : recordsToApply).push(sortedRecords[i]);
+ }
+ await engine._store._applyIncomingBatch(recordsToApply);
+ return recordsToFail.map(record => record.id);
+ };
+
+ // Create a batch of server side records.
+ let collection = new ServerCollection();
+ for (var i = 0; i < NUMBER_OF_RECORDS; i++) {
+ let id = "record-no-" + i.toString(10).padStart(2, "0");
+ let payload = encryptPayload({ id, denomination: "Record No. " + id });
+ collection.insert(id, payload);
+ }
+
+ let server = sync_httpd_setup({
+ "/1.1/foo/storage/rotary": collection.handler(),
+ });
+
+ await SyncTestingInfrastructure(server);
+
+ let syncID = await engine.resetLocalSyncID();
+ let meta_global = Service.recordManager.set(
+ engine.metaURL,
+ new WBORecord(engine.metaURL)
+ );
+ meta_global.payload.engines = { rotary: { version: engine.version, syncID } };
+ try {
+ // Confirm initial environment.
+ Assert.equal(await engine.getLastSync(), 0);
+ Assert.equal(engine.toFetch.size, 0);
+ Assert.equal(engine.previousFailed.size, 0);
+ do_check_empty(engine._store.items);
+
+ let called = 0;
+ let counts;
+ function onApplied(count) {
+ _("Called with " + JSON.stringify(counts));
+ counts = count;
+ called++;
+ }
+ Svc.Obs.add("weave:engine:sync:applied", onApplied);
+
+ // Do sync.
+ await engine._syncStartup();
+ await engine._processIncoming();
+
+ // Confirm failures.
+ do_check_attribute_count(engine._store.items, 12);
+ Assert.deepEqual(
+ Array.from(engine.previousFailed).sort(),
+ ["record-no-00", "record-no-05", "record-no-10"].sort()
+ );
+
+ // There are newly failed records and they are reported.
+ Assert.equal(called, 1);
+ Assert.equal(counts.failed, 3);
+ Assert.equal(counts.applied, 15);
+ Assert.equal(counts.newFailed, 3);
+ Assert.equal(counts.succeeded, 12);
+
+ // Sync again, 1 of the failed items are the same, the rest didn't fail.
+ await engine._processIncoming();
+
+ // Confirming removed failures.
+ do_check_attribute_count(engine._store.items, 14);
+ Assert.deepEqual(Array.from(engine.previousFailed), ["record-no-00"]);
+
+ Assert.equal(called, 2);
+ Assert.equal(counts.failed, 1);
+ Assert.equal(counts.applied, 3);
+ Assert.equal(counts.newFailed, 0);
+ Assert.equal(counts.succeeded, 2);
+
+ Svc.Obs.remove("weave:engine:sync:applied", onApplied);
+ } finally {
+ await cleanAndGo(engine, server);
+ }
+});
+
+add_task(async function test_processIncoming_previousFailed() {
+ _("Ensure that failed records are retried.");
+
+ const NUMBER_OF_RECORDS = 14;
+
+ // Engine that alternates between failing and applying every 2 records.
+ let engine = makeRotaryEngine();
+ engine._store._applyIncomingBatch = engine._store.applyIncomingBatch;
+ engine._store.applyIncomingBatch = async function(records) {
+ let sortedRecords = records.sort((a, b) => (a.id > b.id ? 1 : -1));
+ let recordsToApply = [],
+ recordsToFail = [];
+ let chunks = Array.from(PlacesUtils.chunkArray(sortedRecords, 2));
+ for (let i = 0; i < chunks.length; i++) {
+ (i % 2 === 0 ? recordsToFail : recordsToApply).push(...chunks[i]);
+ }
+ await engine._store._applyIncomingBatch(recordsToApply);
+ return recordsToFail.map(record => record.id);
+ };
+
+ // Create a batch of server side records.
+ let collection = new ServerCollection();
+ for (var i = 0; i < NUMBER_OF_RECORDS; i++) {
+ let id = "record-no-" + i.toString(10).padStart(2, "0");
+ let payload = encryptPayload({ id, denomination: "Record No. " + i });
+ collection.insert(id, payload);
+ }
+
+ let server = sync_httpd_setup({
+ "/1.1/foo/storage/rotary": collection.handler(),
+ });
+
+ await SyncTestingInfrastructure(server);
+
+ let syncID = await engine.resetLocalSyncID();
+ let meta_global = Service.recordManager.set(
+ engine.metaURL,
+ new WBORecord(engine.metaURL)
+ );
+ meta_global.payload.engines = { rotary: { version: engine.version, syncID } };
+ try {
+ // Confirm initial environment.
+ Assert.equal(await engine.getLastSync(), 0);
+ Assert.equal(engine.toFetch.size, 0);
+ Assert.equal(engine.previousFailed.size, 0);
+ do_check_empty(engine._store.items);
+
+ // Initial failed items in previousFailed to be reset.
+ let previousFailed = new SerializableSet([
+ Utils.makeGUID(),
+ Utils.makeGUID(),
+ Utils.makeGUID(),
+ ]);
+ engine.previousFailed = previousFailed;
+ Assert.equal(engine.previousFailed, previousFailed);
+
+ // Do sync.
+ await engine._syncStartup();
+ await engine._processIncoming();
+
+ // Expected result: 4 sync batches with 2 failures each => 8 failures
+ do_check_attribute_count(engine._store.items, 6);
+ Assert.deepEqual(
+ Array.from(engine.previousFailed).sort(),
+ [
+ "record-no-00",
+ "record-no-01",
+ "record-no-04",
+ "record-no-05",
+ "record-no-08",
+ "record-no-09",
+ "record-no-12",
+ "record-no-13",
+ ].sort()
+ );
+
+ // Sync again with the same failed items (records 0, 1, 8, 9).
+ await engine._processIncoming();
+
+ // A second sync with the same failed items should not add the same items again.
+ // Items that did not fail a second time should no longer be in previousFailed.
+ do_check_attribute_count(engine._store.items, 10);
+ Assert.deepEqual(
+ Array.from(engine.previousFailed).sort(),
+ ["record-no-00", "record-no-01", "record-no-08", "record-no-09"].sort()
+ );
+
+ // Refetched items that didn't fail the second time are in engine._store.items.
+ Assert.equal(engine._store.items["record-no-04"], "Record No. 4");
+ Assert.equal(engine._store.items["record-no-05"], "Record No. 5");
+ Assert.equal(engine._store.items["record-no-12"], "Record No. 12");
+ Assert.equal(engine._store.items["record-no-13"], "Record No. 13");
+ } finally {
+ await cleanAndGo(engine, server);
+ }
+});
+
+add_task(async function test_processIncoming_failed_records() {
+ _(
+ "Ensure that failed records from _reconcile and applyIncomingBatch are refetched."
+ );
+
+ // Let's create three and a bit batches worth of server side records.
+ let APPLY_BATCH_SIZE = 50;
+ let collection = new ServerCollection();
+ const NUMBER_OF_RECORDS = APPLY_BATCH_SIZE * 3 + 5;
+ for (let i = 0; i < NUMBER_OF_RECORDS; i++) {
+ let id = "record-no-" + i;
+ let payload = encryptPayload({ id, denomination: "Record No. " + id });
+ let wbo = new ServerWBO(id, payload);
+ wbo.modified = Date.now() / 1000 + 60 * (i - APPLY_BATCH_SIZE * 3);
+ collection.insertWBO(wbo);
+ }
+
+ // Engine that batches but likes to throw on a couple of records,
+ // two in each batch: the even ones fail in reconcile, the odd ones
+ // in applyIncoming.
+ const BOGUS_RECORDS = [
+ "record-no-" + 42,
+ "record-no-" + 23,
+ "record-no-" + (42 + APPLY_BATCH_SIZE),
+ "record-no-" + (23 + APPLY_BATCH_SIZE),
+ "record-no-" + (42 + APPLY_BATCH_SIZE * 2),
+ "record-no-" + (23 + APPLY_BATCH_SIZE * 2),
+ "record-no-" + (2 + APPLY_BATCH_SIZE * 3),
+ "record-no-" + (1 + APPLY_BATCH_SIZE * 3),
+ ];
+ let engine = makeRotaryEngine();
+
+ engine.__reconcile = engine._reconcile;
+ engine._reconcile = async function _reconcile(record) {
+ if (BOGUS_RECORDS.indexOf(record.id) % 2 == 0) {
+ throw new Error("I don't like this record! Baaaaaah!");
+ }
+ return this.__reconcile.apply(this, arguments);
+ };
+ engine._store._applyIncoming = engine._store.applyIncoming;
+ engine._store.applyIncoming = async function(record) {
+ if (BOGUS_RECORDS.indexOf(record.id) % 2 == 1) {
+ throw new Error("I don't like this record! Baaaaaah!");
+ }
+ return this._applyIncoming.apply(this, arguments);
+ };
+
+ // Keep track of requests made of a collection.
+ let count = 0;
+ let uris = [];
+ function recording_handler(recordedCollection) {
+ let h = recordedCollection.handler();
+ return function(req, res) {
+ ++count;
+ uris.push(req.path + "?" + req.queryString);
+ return h(req, res);
+ };
+ }
+ let server = sync_httpd_setup({
+ "/1.1/foo/storage/rotary": recording_handler(collection),
+ });
+
+ await SyncTestingInfrastructure(server);
+
+ let syncID = await engine.resetLocalSyncID();
+ let meta_global = Service.recordManager.set(
+ engine.metaURL,
+ new WBORecord(engine.metaURL)
+ );
+ meta_global.payload.engines = { rotary: { version: engine.version, syncID } };
+
+ try {
+ // Confirm initial environment
+ Assert.equal(await engine.getLastSync(), 0);
+ Assert.equal(engine.toFetch.size, 0);
+ Assert.equal(engine.previousFailed.size, 0);
+ do_check_empty(engine._store.items);
+
+ let observerSubject;
+ let observerData;
+ Svc.Obs.add("weave:engine:sync:applied", function onApplied(subject, data) {
+ Svc.Obs.remove("weave:engine:sync:applied", onApplied);
+ observerSubject = subject;
+ observerData = data;
+ });
+
+ await engine._syncStartup();
+ await engine._processIncoming();
+
+ // Ensure that all records but the bogus 4 have been applied.
+ do_check_attribute_count(
+ engine._store.items,
+ NUMBER_OF_RECORDS - BOGUS_RECORDS.length
+ );
+
+ // Ensure that the bogus records will be fetched again on the next sync.
+ Assert.equal(engine.previousFailed.size, BOGUS_RECORDS.length);
+ Assert.deepEqual(
+ Array.from(engine.previousFailed).sort(),
+ BOGUS_RECORDS.sort()
+ );
+
+ // Ensure the observer was notified
+ Assert.equal(observerData, engine.name);
+ Assert.equal(observerSubject.failed, BOGUS_RECORDS.length);
+ Assert.equal(observerSubject.newFailed, BOGUS_RECORDS.length);
+
+ // Testing batching of failed item fetches.
+ // Try to sync again. Ensure that we split the request into chunks to avoid
+ // URI length limitations.
+ async function batchDownload(batchSize) {
+ count = 0;
+ uris = [];
+ engine.guidFetchBatchSize = batchSize;
+ await engine._processIncoming();
+ _("Tried again. Requests: " + count + "; URIs: " + JSON.stringify(uris));
+ return count;
+ }
+
+ // There are 8 bad records, so this needs 3 fetches.
+ _("Test batching with ID batch size 3, normal mobile batch size.");
+ Assert.equal(await batchDownload(3), 3);
+
+ // Now see with a more realistic limit.
+ _("Test batching with sufficient ID batch size.");
+ Assert.equal(await batchDownload(BOGUS_RECORDS.length), 1);
+ } finally {
+ await cleanAndGo(engine, server);
+ }
+});
+
+add_task(async function test_processIncoming_decrypt_failed() {
+ _("Ensure that records failing to decrypt are either replaced or refetched.");
+
+ // Some good and some bogus records. One doesn't contain valid JSON,
+ // the other will throw during decrypt.
+ let collection = new ServerCollection();
+ collection._wbos.flying = new ServerWBO(
+ "flying",
+ encryptPayload({ id: "flying", denomination: "LNER Class A3 4472" })
+ );
+ collection._wbos.nojson = new ServerWBO("nojson", "This is invalid JSON");
+ collection._wbos.nojson2 = new ServerWBO("nojson2", "This is invalid JSON");
+ collection._wbos.scotsman = new ServerWBO(
+ "scotsman",
+ encryptPayload({ id: "scotsman", denomination: "Flying Scotsman" })
+ );
+ collection._wbos.nodecrypt = new ServerWBO("nodecrypt", "Decrypt this!");
+ collection._wbos.nodecrypt2 = new ServerWBO("nodecrypt2", "Decrypt this!");
+
+ // Patch the fake crypto service to throw on the record above.
+ Weave.Crypto._decrypt = Weave.Crypto.decrypt;
+ Weave.Crypto.decrypt = function(ciphertext) {
+ if (ciphertext == "Decrypt this!") {
+ throw new Error(
+ "Derp! Cipher finalized failed. Im ur crypto destroyin ur recordz."
+ );
+ }
+ return this._decrypt.apply(this, arguments);
+ };
+
+ // Some broken records also exist locally.
+ let engine = makeRotaryEngine();
+ engine.enabled = true;
+ engine._store.items = { nojson: "Valid JSON", nodecrypt: "Valid ciphertext" };
+
+ let server = sync_httpd_setup({
+ "/1.1/foo/storage/rotary": collection.handler(),
+ });
+
+ await SyncTestingInfrastructure(server);
+
+ let syncID = await engine.resetLocalSyncID();
+ let meta_global = Service.recordManager.set(
+ engine.metaURL,
+ new WBORecord(engine.metaURL)
+ );
+ meta_global.payload.engines = { rotary: { version: engine.version, syncID } };
+ try {
+ // Confirm initial state
+ Assert.equal(engine.toFetch.size, 0);
+ Assert.equal(engine.previousFailed.size, 0);
+
+ let observerSubject;
+ let observerData;
+ Svc.Obs.add("weave:engine:sync:applied", function onApplied(subject, data) {
+ Svc.Obs.remove("weave:engine:sync:applied", onApplied);
+ observerSubject = subject;
+ observerData = data;
+ });
+
+ await engine.setLastSync(collection.wbo("nojson").modified - 1);
+ let ping = await sync_engine_and_validate_telem(engine, true);
+ Assert.equal(ping.engines[0].incoming.applied, 2);
+ Assert.equal(ping.engines[0].incoming.failed, 4);
+ Assert.equal(ping.engines[0].incoming.newFailed, 4);
+
+ Assert.equal(engine.previousFailed.size, 4);
+ Assert.ok(engine.previousFailed.has("nojson"));
+ Assert.ok(engine.previousFailed.has("nojson2"));
+ Assert.ok(engine.previousFailed.has("nodecrypt"));
+ Assert.ok(engine.previousFailed.has("nodecrypt2"));
+
+ // Ensure the observer was notified
+ Assert.equal(observerData, engine.name);
+ Assert.equal(observerSubject.applied, 2);
+ Assert.equal(observerSubject.failed, 4);
+ } finally {
+ await promiseClean(engine, server);
+ }
+});
+
+add_task(async function test_uploadOutgoing_toEmptyServer() {
+ _("SyncEngine._uploadOutgoing uploads new records to server");
+
+ let collection = new ServerCollection();
+ collection._wbos.flying = new ServerWBO("flying");
+ collection._wbos.scotsman = new ServerWBO("scotsman");
+
+ let server = sync_httpd_setup({
+ "/1.1/foo/storage/rotary": collection.handler(),
+ "/1.1/foo/storage/rotary/flying": collection.wbo("flying").handler(),
+ "/1.1/foo/storage/rotary/scotsman": collection.wbo("scotsman").handler(),
+ });
+
+ await SyncTestingInfrastructure(server);
+ await generateNewKeys(Service.collectionKeys);
+
+ let engine = makeRotaryEngine();
+ engine._store.items = {
+ flying: "LNER Class A3 4472",
+ scotsman: "Flying Scotsman",
+ };
+ // Mark one of these records as changed
+ await engine._tracker.addChangedID("scotsman", 0);
+
+ let syncID = await engine.resetLocalSyncID();
+ let meta_global = Service.recordManager.set(
+ engine.metaURL,
+ new WBORecord(engine.metaURL)
+ );
+ meta_global.payload.engines = { rotary: { version: engine.version, syncID } };
+
+ try {
+ await engine.setLastSync(123); // needs to be non-zero so that tracker is queried
+
+ // Confirm initial environment
+ Assert.equal(collection.payload("flying"), undefined);
+ Assert.equal(collection.payload("scotsman"), undefined);
+
+ await engine._syncStartup();
+ await engine._uploadOutgoing();
+
+ // Ensure the marked record ('scotsman') has been uploaded and is
+ // no longer marked.
+ Assert.equal(collection.payload("flying"), undefined);
+ Assert.ok(!!collection.payload("scotsman"));
+ Assert.equal(collection.cleartext("scotsman").id, "scotsman");
+ const changes = await engine._tracker.getChangedIDs();
+ Assert.equal(changes.scotsman, undefined);
+
+ // The 'flying' record wasn't marked so it wasn't uploaded
+ Assert.equal(collection.payload("flying"), undefined);
+ } finally {
+ await cleanAndGo(engine, server);
+ }
+});
+
+async function test_uploadOutgoing_max_record_payload_bytes(
+ allowSkippedRecord
+) {
+ _(
+ "SyncEngine._uploadOutgoing throws when payload is bigger than max_record_payload_bytes"
+ );
+ let collection = new ServerCollection();
+ collection._wbos.flying = new ServerWBO("flying");
+ collection._wbos.scotsman = new ServerWBO("scotsman");
+
+ let server = sync_httpd_setup({
+ "/1.1/foo/storage/rotary": collection.handler(),
+ "/1.1/foo/storage/rotary/flying": collection.wbo("flying").handler(),
+ "/1.1/foo/storage/rotary/scotsman": collection.wbo("scotsman").handler(),
+ });
+
+ await SyncTestingInfrastructure(server);
+ await generateNewKeys(Service.collectionKeys);
+
+ let engine = makeRotaryEngine();
+ engine.allowSkippedRecord = allowSkippedRecord;
+ engine._store.items = { flying: "a".repeat(1024 * 1024), scotsman: "abcd" };
+
+ await engine._tracker.addChangedID("flying", 1000);
+ await engine._tracker.addChangedID("scotsman", 1000);
+
+ let syncID = await engine.resetLocalSyncID();
+ let meta_global = Service.recordManager.set(
+ engine.metaURL,
+ new WBORecord(engine.metaURL)
+ );
+ meta_global.payload.engines = { rotary: { version: engine.version, syncID } };
+
+ try {
+ await engine.setLastSync(1); // needs to be non-zero so that tracker is queried
+
+ // Confirm initial environment
+ Assert.equal(collection.payload("flying"), undefined);
+ Assert.equal(collection.payload("scotsman"), undefined);
+
+ await engine._syncStartup();
+ await engine._uploadOutgoing();
+
+ if (!allowSkippedRecord) {
+ do_throw("should not get here");
+ }
+
+ await engine.trackRemainingChanges();
+
+ // Check we uploaded the other record to the server
+ Assert.ok(collection.payload("scotsman"));
+ // And that we won't try to upload the huge record next time.
+ const changes = await engine._tracker.getChangedIDs();
+ Assert.equal(changes.flying, undefined);
+ } catch (e) {
+ if (allowSkippedRecord) {
+ do_throw("should not get here");
+ }
+
+ await engine.trackRemainingChanges();
+
+ // Check that we will try to upload the huge record next time
+ const changes = await engine._tracker.getChangedIDs();
+ Assert.equal(changes.flying, 1000);
+ } finally {
+ // Check we didn't upload the oversized record to the server
+ Assert.equal(collection.payload("flying"), undefined);
+ await cleanAndGo(engine, server);
+ }
+}
+
+add_task(
+ async function test_uploadOutgoing_max_record_payload_bytes_disallowSkippedRecords() {
+ return test_uploadOutgoing_max_record_payload_bytes(false);
+ }
+);
+
+add_task(
+ async function test_uploadOutgoing_max_record_payload_bytes_allowSkippedRecords() {
+ return test_uploadOutgoing_max_record_payload_bytes(true);
+ }
+);
+
+add_task(async function test_uploadOutgoing_failed() {
+ _(
+ "SyncEngine._uploadOutgoing doesn't clear the tracker of objects that failed to upload."
+ );
+
+ let collection = new ServerCollection();
+ // We only define the "flying" WBO on the server, not the "scotsman"
+ // and "peppercorn" ones.
+ collection._wbos.flying = new ServerWBO("flying");
+
+ let server = sync_httpd_setup({
+ "/1.1/foo/storage/rotary": collection.handler(),
+ });
+
+ await SyncTestingInfrastructure(server);
+
+ let engine = makeRotaryEngine();
+ engine._store.items = {
+ flying: "LNER Class A3 4472",
+ scotsman: "Flying Scotsman",
+ peppercorn: "Peppercorn Class",
+ };
+ // Mark these records as changed
+ const FLYING_CHANGED = 12345;
+ const SCOTSMAN_CHANGED = 23456;
+ const PEPPERCORN_CHANGED = 34567;
+ await engine._tracker.addChangedID("flying", FLYING_CHANGED);
+ await engine._tracker.addChangedID("scotsman", SCOTSMAN_CHANGED);
+ await engine._tracker.addChangedID("peppercorn", PEPPERCORN_CHANGED);
+
+ let syncID = await engine.resetLocalSyncID();
+ let meta_global = Service.recordManager.set(
+ engine.metaURL,
+ new WBORecord(engine.metaURL)
+ );
+ meta_global.payload.engines = { rotary: { version: engine.version, syncID } };
+
+ try {
+ await engine.setLastSync(123); // needs to be non-zero so that tracker is queried
+
+ // Confirm initial environment
+ Assert.equal(collection.payload("flying"), undefined);
+ let changes = await engine._tracker.getChangedIDs();
+ Assert.equal(changes.flying, FLYING_CHANGED);
+ Assert.equal(changes.scotsman, SCOTSMAN_CHANGED);
+ Assert.equal(changes.peppercorn, PEPPERCORN_CHANGED);
+
+ engine.enabled = true;
+ await sync_engine_and_validate_telem(engine, true);
+
+ // Ensure the 'flying' record has been uploaded and is no longer marked.
+ Assert.ok(!!collection.payload("flying"));
+ changes = await engine._tracker.getChangedIDs();
+ Assert.equal(changes.flying, undefined);
+
+ // The 'scotsman' and 'peppercorn' records couldn't be uploaded so
+ // they weren't cleared from the tracker.
+ Assert.equal(changes.scotsman, SCOTSMAN_CHANGED);
+ Assert.equal(changes.peppercorn, PEPPERCORN_CHANGED);
+ } finally {
+ await promiseClean(engine, server);
+ }
+});
+
+async function createRecordFailTelemetry(allowSkippedRecord) {
+ Services.prefs.setStringPref("services.sync.username", "foo");
+ let collection = new ServerCollection();
+ collection._wbos.flying = new ServerWBO("flying");
+ collection._wbos.scotsman = new ServerWBO("scotsman");
+
+ let server = sync_httpd_setup({
+ "/1.1/foo/storage/rotary": collection.handler(),
+ });
+
+ await SyncTestingInfrastructure(server);
+
+ let engine = makeRotaryEngine();
+ engine.allowSkippedRecord = allowSkippedRecord;
+ let oldCreateRecord = engine._store.createRecord;
+ engine._store.createRecord = async (id, col) => {
+ if (id != "flying") {
+ throw new Error("oops");
+ }
+ return oldCreateRecord.call(engine._store, id, col);
+ };
+ engine._store.items = {
+ flying: "LNER Class A3 4472",
+ scotsman: "Flying Scotsman",
+ };
+ // Mark these records as changed
+ const FLYING_CHANGED = 12345;
+ const SCOTSMAN_CHANGED = 23456;
+ await engine._tracker.addChangedID("flying", FLYING_CHANGED);
+ await engine._tracker.addChangedID("scotsman", SCOTSMAN_CHANGED);
+
+ let syncID = await engine.resetLocalSyncID();
+ let meta_global = Service.recordManager.set(
+ engine.metaURL,
+ new WBORecord(engine.metaURL)
+ );
+ meta_global.payload.engines = { rotary: { version: engine.version, syncID } };
+
+ let ping;
+ try {
+ await engine.setLastSync(123); // needs to be non-zero so that tracker is queried
+
+ // Confirm initial environment
+ Assert.equal(collection.payload("flying"), undefined);
+ let changes = await engine._tracker.getChangedIDs();
+ Assert.equal(changes.flying, FLYING_CHANGED);
+ Assert.equal(changes.scotsman, SCOTSMAN_CHANGED);
+
+ engine.enabled = true;
+ ping = await sync_engine_and_validate_telem(engine, true, onErrorPing => {
+ ping = onErrorPing;
+ });
+
+ if (!allowSkippedRecord) {
+ do_throw("should not get here");
+ }
+
+ // Ensure the 'flying' record has been uploaded and is no longer marked.
+ Assert.ok(!!collection.payload("flying"));
+ changes = await engine._tracker.getChangedIDs();
+ Assert.equal(changes.flying, undefined);
+ } catch (err) {
+ if (allowSkippedRecord) {
+ do_throw("should not get here");
+ }
+
+ // Ensure the 'flying' record has not been uploaded and is still marked
+ Assert.ok(!collection.payload("flying"));
+ const changes = await engine._tracker.getChangedIDs();
+ Assert.ok(changes.flying);
+ } finally {
+ // We reported in telemetry that we failed a record
+ Assert.equal(ping.engines[0].outgoing[0].failed, 1);
+
+ // In any case, the 'scotsman' record couldn't be created so it wasn't
+ // uploaded nor it was not cleared from the tracker.
+ Assert.ok(!collection.payload("scotsman"));
+ const changes = await engine._tracker.getChangedIDs();
+ Assert.equal(changes.scotsman, SCOTSMAN_CHANGED);
+
+ engine._store.createRecord = oldCreateRecord;
+ await promiseClean(engine, server);
+ }
+}
+
+add_task(
+ async function test_uploadOutgoing_createRecord_throws_reported_telemetry() {
+ _(
+ "SyncEngine._uploadOutgoing reports a failed record to telemetry if createRecord throws"
+ );
+ await createRecordFailTelemetry(true);
+ }
+);
+
+add_task(
+ async function test_uploadOutgoing_createRecord_throws_dontAllowSkipRecord() {
+ _(
+ "SyncEngine._uploadOutgoing will throw if createRecord throws and allowSkipRecord is set to false"
+ );
+ await createRecordFailTelemetry(false);
+ }
+);
+
+add_task(async function test_uploadOutgoing_largeRecords() {
+ _(
+ "SyncEngine._uploadOutgoing throws on records larger than the max record payload size"
+ );
+
+ let collection = new ServerCollection();
+
+ let engine = makeRotaryEngine();
+ engine.allowSkippedRecord = false;
+ engine._store.items["large-item"] = "Y".repeat(
+ Service.getMaxRecordPayloadSize() * 2
+ );
+ await engine._tracker.addChangedID("large-item", 0);
+ collection.insert("large-item");
+
+ let syncID = await engine.resetLocalSyncID();
+ let meta_global = Service.recordManager.set(
+ engine.metaURL,
+ new WBORecord(engine.metaURL)
+ );
+ meta_global.payload.engines = { rotary: { version: engine.version, syncID } };
+
+ let server = sync_httpd_setup({
+ "/1.1/foo/storage/rotary": collection.handler(),
+ });
+
+ await SyncTestingInfrastructure(server);
+
+ try {
+ await engine._syncStartup();
+ let error = null;
+ try {
+ await engine._uploadOutgoing();
+ } catch (e) {
+ error = e;
+ }
+ ok(!!error);
+ } finally {
+ await cleanAndGo(engine, server);
+ }
+});
+
+add_task(async function test_syncFinish_deleteByIds() {
+ _(
+ "SyncEngine._syncFinish deletes server records slated for deletion (list of record IDs)."
+ );
+
+ let collection = new ServerCollection();
+ collection._wbos.flying = new ServerWBO(
+ "flying",
+ encryptPayload({ id: "flying", denomination: "LNER Class A3 4472" })
+ );
+ collection._wbos.scotsman = new ServerWBO(
+ "scotsman",
+ encryptPayload({ id: "scotsman", denomination: "Flying Scotsman" })
+ );
+ collection._wbos.rekolok = new ServerWBO(
+ "rekolok",
+ encryptPayload({ id: "rekolok", denomination: "Rekonstruktionslokomotive" })
+ );
+
+ let server = httpd_setup({
+ "/1.1/foo/storage/rotary": collection.handler(),
+ });
+ await SyncTestingInfrastructure(server);
+
+ let engine = makeRotaryEngine();
+ try {
+ engine._delete = { ids: ["flying", "rekolok"] };
+ await engine._syncFinish();
+
+ // The 'flying' and 'rekolok' records were deleted while the
+ // 'scotsman' one wasn't.
+ Assert.equal(collection.payload("flying"), undefined);
+ Assert.ok(!!collection.payload("scotsman"));
+ Assert.equal(collection.payload("rekolok"), undefined);
+
+ // The deletion todo list has been reset.
+ Assert.equal(engine._delete.ids, undefined);
+ } finally {
+ await cleanAndGo(engine, server);
+ }
+});
+
+add_task(async function test_syncFinish_deleteLotsInBatches() {
+ _(
+ "SyncEngine._syncFinish deletes server records in batches of 100 (list of record IDs)."
+ );
+
+ let collection = new ServerCollection();
+
+ // Let's count how many times the client does a DELETE request to the server
+ var noOfUploads = 0;
+ collection.delete = (function(orig) {
+ return function() {
+ noOfUploads++;
+ return orig.apply(this, arguments);
+ };
+ })(collection.delete);
+
+ // Create a bunch of records on the server
+ let now = Date.now();
+ for (var i = 0; i < 234; i++) {
+ let id = "record-no-" + i;
+ let payload = encryptPayload({ id, denomination: "Record No. " + i });
+ let wbo = new ServerWBO(id, payload);
+ wbo.modified = now / 1000 - 60 * (i + 110);
+ collection.insertWBO(wbo);
+ }
+
+ let server = httpd_setup({
+ "/1.1/foo/storage/rotary": collection.handler(),
+ });
+
+ await SyncTestingInfrastructure(server);
+
+ let engine = makeRotaryEngine();
+ try {
+ // Confirm initial environment
+ Assert.equal(noOfUploads, 0);
+
+ // Declare what we want to have deleted: all records no. 100 and
+ // up and all records that are less than 200 mins old (which are
+ // records 0 thru 90).
+ engine._delete = { ids: [], newer: now / 1000 - 60 * 200.5 };
+ for (i = 100; i < 234; i++) {
+ engine._delete.ids.push("record-no-" + i);
+ }
+
+ await engine._syncFinish();
+
+ // Ensure that the appropriate server data has been wiped while
+ // preserving records 90 thru 200.
+ for (i = 0; i < 234; i++) {
+ let id = "record-no-" + i;
+ if (i <= 90 || i >= 100) {
+ Assert.equal(collection.payload(id), undefined);
+ } else {
+ Assert.ok(!!collection.payload(id));
+ }
+ }
+
+ // The deletion was done in batches
+ Assert.equal(noOfUploads, 2 + 1);
+
+ // The deletion todo list has been reset.
+ Assert.equal(engine._delete.ids, undefined);
+ } finally {
+ await cleanAndGo(engine, server);
+ }
+});
+
+add_task(async function test_sync_partialUpload() {
+ _("SyncEngine.sync() keeps changedIDs that couldn't be uploaded.");
+
+ let collection = new ServerCollection();
+ let server = sync_httpd_setup({
+ "/1.1/foo/storage/rotary": collection.handler(),
+ });
+ let oldServerConfiguration = Service.serverConfiguration;
+ Service.serverConfiguration = {
+ max_post_records: 100,
+ };
+ await SyncTestingInfrastructure(server);
+ await generateNewKeys(Service.collectionKeys);
+
+ let engine = makeRotaryEngine();
+
+ // Let the third upload fail completely
+ var noOfUploads = 0;
+ collection.post = (function(orig) {
+ return function() {
+ if (noOfUploads == 2) {
+ throw new Error("FAIL!");
+ }
+ noOfUploads++;
+ return orig.apply(this, arguments);
+ };
+ })(collection.post);
+
+ // Create a bunch of records (and server side handlers)
+ for (let i = 0; i < 234; i++) {
+ let id = "record-no-" + i;
+ engine._store.items[id] = "Record No. " + i;
+ await engine._tracker.addChangedID(id, i);
+ // Let two items in the first upload batch fail.
+ if (i != 23 && i != 42) {
+ collection.insert(id);
+ }
+ }
+
+ let syncID = await engine.resetLocalSyncID();
+ let meta_global = Service.recordManager.set(
+ engine.metaURL,
+ new WBORecord(engine.metaURL)
+ );
+ meta_global.payload.engines = { rotary: { version: engine.version, syncID } };
+
+ try {
+ await engine.setLastSync(123); // needs to be non-zero so that tracker is queried
+
+ engine.enabled = true;
+ let error;
+ try {
+ await sync_engine_and_validate_telem(engine, true);
+ } catch (ex) {
+ error = ex;
+ }
+
+ ok(!!error);
+
+ const changes = await engine._tracker.getChangedIDs();
+ for (let i = 0; i < 234; i++) {
+ let id = "record-no-" + i;
+ // Ensure failed records are back in the tracker:
+ // * records no. 23 and 42 were rejected by the server,
+ // * records after the third batch and higher couldn't be uploaded because
+ // we failed hard on the 3rd upload.
+ if (i == 23 || i == 42 || i >= 200) {
+ Assert.equal(changes[id], i);
+ } else {
+ Assert.equal(false, id in changes);
+ }
+ }
+ } finally {
+ Service.serverConfiguration = oldServerConfiguration;
+ await promiseClean(engine, server);
+ }
+});
+
+add_task(async function test_canDecrypt_noCryptoKeys() {
+ _(
+ "SyncEngine.canDecrypt returns false if the engine fails to decrypt items on the server, e.g. due to a missing crypto key collection."
+ );
+
+ // Wipe collection keys so we can test the desired scenario.
+ Service.collectionKeys.clear();
+
+ let collection = new ServerCollection();
+ collection._wbos.flying = new ServerWBO(
+ "flying",
+ encryptPayload({ id: "flying", denomination: "LNER Class A3 4472" })
+ );
+
+ let server = sync_httpd_setup({
+ "/1.1/foo/storage/rotary": collection.handler(),
+ });
+
+ await SyncTestingInfrastructure(server);
+ let engine = makeRotaryEngine();
+ try {
+ Assert.equal(false, await engine.canDecrypt());
+ } finally {
+ await cleanAndGo(engine, server);
+ }
+});
+
+add_task(async function test_canDecrypt_true() {
+ _(
+ "SyncEngine.canDecrypt returns true if the engine can decrypt the items on the server."
+ );
+
+ await generateNewKeys(Service.collectionKeys);
+
+ let collection = new ServerCollection();
+ collection._wbos.flying = new ServerWBO(
+ "flying",
+ encryptPayload({ id: "flying", denomination: "LNER Class A3 4472" })
+ );
+
+ let server = sync_httpd_setup({
+ "/1.1/foo/storage/rotary": collection.handler(),
+ });
+
+ await SyncTestingInfrastructure(server);
+ let engine = makeRotaryEngine();
+ try {
+ Assert.ok(await engine.canDecrypt());
+ } finally {
+ await cleanAndGo(engine, server);
+ }
+});
+
+add_task(async function test_syncapplied_observer() {
+ const NUMBER_OF_RECORDS = 10;
+
+ let engine = makeRotaryEngine();
+
+ // Create a batch of server side records.
+ let collection = new ServerCollection();
+ for (var i = 0; i < NUMBER_OF_RECORDS; i++) {
+ let id = "record-no-" + i;
+ let payload = encryptPayload({ id, denomination: "Record No. " + id });
+ collection.insert(id, payload);
+ }
+
+ let server = httpd_setup({
+ "/1.1/foo/storage/rotary": collection.handler(),
+ });
+
+ await SyncTestingInfrastructure(server);
+
+ let syncID = await engine.resetLocalSyncID();
+ let meta_global = Service.recordManager.set(
+ engine.metaURL,
+ new WBORecord(engine.metaURL)
+ );
+ meta_global.payload.engines = { rotary: { version: engine.version, syncID } };
+
+ let numApplyCalls = 0;
+ let engine_name;
+ let count;
+ function onApplied(subject, data) {
+ numApplyCalls++;
+ engine_name = data;
+ count = subject;
+ }
+
+ Svc.Obs.add("weave:engine:sync:applied", onApplied);
+
+ try {
+ Service.scheduler.hasIncomingItems = false;
+
+ // Do sync.
+ await engine._syncStartup();
+ await engine._processIncoming();
+
+ do_check_attribute_count(engine._store.items, 10);
+
+ Assert.equal(numApplyCalls, 1);
+ Assert.equal(engine_name, "rotary");
+ Assert.equal(count.applied, 10);
+
+ Assert.ok(Service.scheduler.hasIncomingItems);
+ } finally {
+ await cleanAndGo(engine, server);
+ Service.scheduler.hasIncomingItems = false;
+ Svc.Obs.remove("weave:engine:sync:applied", onApplied);
+ }
+});