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Test Info:
- Manifest: services/sync/tests/unit/xpcshell.toml
/* Any copyright is dedicated to the Public Domain.
_(
"Test that node reassignment responses are respected on all kinds of " +
"requests."
);
const { RESTRequest } = ChromeUtils.importESModule(
);
const { Service } = ChromeUtils.importESModule(
);
add_task(async function setup() {
validate_all_future_pings();
});
/**
* Emulate the following Zeus config:
* $draining = data.get($prefix . $host . " draining");
* if ($draining == "drain.") {
* log.warn($log_host_db_status . " migrating=1 (node-reassignment)" .
* $log_suffix);
* http.sendResponse("401 Node reassignment", $content_type,
* '"server request: node reassignment"', "");
* }
*/
const reassignBody = '"server request: node reassignment"';
// API-compatible with SyncServer handler. Bind `handler` to something to use
// as a ServerCollection handler.
function handleReassign(handler, req, resp) {
resp.setStatusLine(req.httpVersion, 401, "Node reassignment");
resp.setHeader("Content-Type", "application/json");
resp.bodyOutputStream.write(reassignBody, reassignBody.length);
}
async function prepareServer() {
let server = new SyncServer();
server.registerUser("johndoe");
server.start();
syncTestLogging();
await configureIdentity({ username: "johndoe" }, server);
return server;
}
function getReassigned() {
try {
return Services.prefs.getBoolPref("services.sync.lastSyncReassigned");
} catch (ex) {
if (ex.result != Cr.NS_ERROR_UNEXPECTED) {
do_throw(
"Got exception retrieving lastSyncReassigned: " + Log.exceptionStr(ex)
);
}
}
return false;
}
/**
* Make a test request to `url`, then watch the result of two syncs
* to ensure that a node request was made.
* Runs `between` between the two. This can be used to undo deliberate failure
* setup, detach observers, etc.
*/
async function syncAndExpectNodeReassignment(
server,
firstNotification,
between,
secondNotification,
url
) {
let deferred = Promise.withResolvers();
let getTokenCount = 0;
let mockTSC = {
// TokenServerClient
async getTokenUsingOAuth() {
getTokenCount++;
return { endpoint: server.baseURI + "1.1/johndoe/" };
},
};
Service.identity._tokenServerClient = mockTSC;
// Make sure that it works!
let request = new RESTRequest(url);
let response = await request.get();
Assert.equal(response.status, 401);
function onFirstSync() {
_("First sync completed.");
Svc.Obs.remove(firstNotification, onFirstSync);
Svc.Obs.add(secondNotification, onSecondSync);
Assert.equal(Service.clusterURL, "");
// Allow for tests to clean up error conditions.
between();
}
function onSecondSync() {
_("Second sync completed.");
Svc.Obs.remove(secondNotification, onSecondSync);
Service.scheduler.clearSyncTriggers();
// Make absolutely sure that any event listeners are done with their work
// before we proceed.
waitForZeroTimer(function () {
_("Second sync nextTick.");
Assert.equal(getTokenCount, 1);
Service.startOver().then(() => {
server.stop(deferred.resolve);
});
});
}
Svc.Obs.add(firstNotification, onFirstSync);
await Service.sync();
await deferred.promise;
}
add_task(async function test_momentary_401_engine() {
enableValidationPrefs();
_("Test a failure for engine URLs that's resolved by reassignment.");
let server = await prepareServer();
let john = server.user("johndoe");
_("Enabling the Rotary engine.");
let { engine, syncID, tracker } = await registerRotaryEngine();
// We need the server to be correctly set up prior to experimenting. Do this
// through a sync.
let global = {
syncID: Service.syncID,
storageVersion: STORAGE_VERSION,
rotary: { version: engine.version, syncID },
};
john.createCollection("meta").insert("global", global);
_("First sync to prepare server contents.");
await Service.sync();
let numResets = 0;
let observeReset = (obs, topic) => {
if (topic == "rotary") {
numResets += 1;
}
};
_("Adding observer that we saw an engine reset.");
Svc.Obs.add("weave:engine:reset-client:finish", observeReset);
_("Setting up Rotary collection to 401.");
let rotary = john.createCollection("rotary");
let oldHandler = rotary.collectionHandler;
rotary.collectionHandler = handleReassign.bind(this, undefined);
// We want to verify that the clusterURL pref has been cleared after a 401
// inside a sync. Flag the Rotary engine to need syncing.
john.collection("rotary").timestamp += 1000;
function between() {
_("Undoing test changes.");
rotary.collectionHandler = oldHandler;
function onLoginStart() {
// lastSyncReassigned shouldn't be cleared until a sync has succeeded.
_("Ensuring that lastSyncReassigned is still set at next sync start.");
Svc.Obs.remove("weave:service:login:start", onLoginStart);
Assert.ok(getReassigned());
}
_("Adding observer that lastSyncReassigned is still set on login.");
Svc.Obs.add("weave:service:login:start", onLoginStart);
}
await syncAndExpectNodeReassignment(
server,
"weave:service:sync:finish",
between,
"weave:service:sync:finish",
Service.storageURL + "rotary"
);
Svc.Obs.remove("weave:engine:reset-client:finish", observeReset);
Assert.equal(numResets, 1);
await tracker.clearChangedIDs();
await Service.engineManager.unregister(engine);
});
// This test ends up being a failing fetch *after we're already logged in*.
add_task(async function test_momentary_401_info_collections() {
enableValidationPrefs();
_("Test a failure for info/collections that's resolved by reassignment.");
let server = await prepareServer();
_("First sync to prepare server contents.");
await Service.sync();
// Return a 401 for info requests, particularly info/collections.
let oldHandler = server.toplevelHandlers.info;
server.toplevelHandlers.info = handleReassign;
function undo() {
_("Undoing test changes.");
server.toplevelHandlers.info = oldHandler;
}
await syncAndExpectNodeReassignment(
server,
"weave:service:sync:error",
undo,
"weave:service:sync:finish",
Service.infoURL
);
});
add_task(async function test_momentary_401_storage_loggedin() {
enableValidationPrefs();
_(
"Test a failure for any storage URL, not just engine parts. " +
"Resolved by reassignment."
);
let server = await prepareServer();
_("Performing initial sync to ensure we are logged in.");
await Service.sync();
// Return a 401 for all storage requests.
let oldHandler = server.toplevelHandlers.storage;
server.toplevelHandlers.storage = handleReassign;
function undo() {
_("Undoing test changes.");
server.toplevelHandlers.storage = oldHandler;
}
Assert.ok(Service.isLoggedIn, "already logged in");
await syncAndExpectNodeReassignment(
server,
"weave:service:sync:error",
undo,
"weave:service:sync:finish",
Service.storageURL + "meta/global"
);
});
add_task(async function test_momentary_401_storage_loggedout() {
enableValidationPrefs();
_(
"Test a failure for any storage URL, not just engine parts. " +
"Resolved by reassignment."
);
let server = await prepareServer();
// Return a 401 for all storage requests.
let oldHandler = server.toplevelHandlers.storage;
server.toplevelHandlers.storage = handleReassign;
function undo() {
_("Undoing test changes.");
server.toplevelHandlers.storage = oldHandler;
}
Assert.ok(!Service.isLoggedIn, "not already logged in");
await syncAndExpectNodeReassignment(
server,
"weave:service:login:error",
undo,
"weave:service:sync:finish",
Service.storageURL + "meta/global"
);
});
add_task(async function test_loop_avoidance_storage() {
enableValidationPrefs();
_(
"Test that a repeated failure doesn't result in a sync loop " +
"if node reassignment cannot resolve the failure."
);
let server = await prepareServer();
// Return a 401 for all storage requests.
let oldHandler = server.toplevelHandlers.storage;
server.toplevelHandlers.storage = handleReassign;
let firstNotification = "weave:service:login:error";
let secondNotification = "weave:service:login:error";
let thirdNotification = "weave:service:sync:finish";
let deferred = Promise.withResolvers();
let getTokenCount = 0;
let mockTSC = {
// TokenServerClient
async getTokenUsingOAuth() {
getTokenCount++;
return { endpoint: server.baseURI + "1.1/johndoe/" };
},
};
Service.identity._tokenServerClient = mockTSC;
// Track the time. We want to make sure the duration between the first and
// second sync is small, and then that the duration between second and third
// is set to be large.
let now;
function onFirstSync() {
_("First sync completed.");
Svc.Obs.remove(firstNotification, onFirstSync);
Svc.Obs.add(secondNotification, onSecondSync);
Assert.equal(Service.clusterURL, "");
// We got a 401 mid-sync, and set the pref accordingly.
Assert.ok(Services.prefs.getBoolPref("services.sync.lastSyncReassigned"));
// Update the timestamp.
now = Date.now();
}
function onSecondSync() {
_("Second sync completed.");
Svc.Obs.remove(secondNotification, onSecondSync);
Svc.Obs.add(thirdNotification, onThirdSync);
// This sync occurred within the backoff interval.
let elapsedTime = Date.now() - now;
Assert.ok(elapsedTime < MINIMUM_BACKOFF_INTERVAL);
// This pref will be true until a sync completes successfully.
Assert.ok(getReassigned());
// The timer will be set for some distant time.
// We store nextSync in prefs, which offers us only limited resolution.
// Include that logic here.
let expectedNextSync =
1000 * Math.floor((now + MINIMUM_BACKOFF_INTERVAL) / 1000);
_("Next sync scheduled for " + Service.scheduler.nextSync);
_("Expected to be slightly greater than " + expectedNextSync);
Assert.ok(Service.scheduler.nextSync >= expectedNextSync);
Assert.ok(!!Service.scheduler.syncTimer);
// Undo our evil scheme.
server.toplevelHandlers.storage = oldHandler;
// Bring the timer forward to kick off a successful sync, so we can watch
// the pref get cleared.
Service.scheduler.scheduleNextSync(0);
}
function onThirdSync() {
Svc.Obs.remove(thirdNotification, onThirdSync);
// That'll do for now; no more syncs.
Service.scheduler.clearSyncTriggers();
// Make absolutely sure that any event listeners are done with their work
// before we proceed.
waitForZeroTimer(function () {
_("Third sync nextTick.");
Assert.ok(!getReassigned());
Assert.equal(getTokenCount, 2);
Service.startOver().then(() => {
server.stop(deferred.resolve);
});
});
}
Svc.Obs.add(firstNotification, onFirstSync);
now = Date.now();
await Service.sync();
await deferred.promise;
});
add_task(async function test_loop_avoidance_engine() {
enableValidationPrefs();
_(
"Test that a repeated 401 in an engine doesn't result in a sync loop " +
"if node reassignment cannot resolve the failure."
);
let server = await prepareServer();
let john = server.user("johndoe");
_("Enabling the Rotary engine.");
let { engine, syncID, tracker } = await registerRotaryEngine();
let deferred = Promise.withResolvers();
let getTokenCount = 0;
let mockTSC = {
// TokenServerClient
async getTokenUsingOAuth() {
getTokenCount++;
return { endpoint: server.baseURI + "1.1/johndoe/" };
},
};
Service.identity._tokenServerClient = mockTSC;
// We need the server to be correctly set up prior to experimenting. Do this
// through a sync.
let global = {
syncID: Service.syncID,
storageVersion: STORAGE_VERSION,
rotary: { version: engine.version, syncID },
};
john.createCollection("meta").insert("global", global);
_("First sync to prepare server contents.");
await Service.sync();
_("Setting up Rotary collection to 401.");
let rotary = john.createCollection("rotary");
let oldHandler = rotary.collectionHandler;
rotary.collectionHandler = handleReassign.bind(this, undefined);
// Flag the Rotary engine to need syncing.
john.collection("rotary").timestamp += 1000;
function onLoginStart() {
// lastSyncReassigned shouldn't be cleared until a sync has succeeded.
_("Ensuring that lastSyncReassigned is still set at next sync start.");
Assert.ok(getReassigned());
}
function beforeSuccessfulSync() {
_("Undoing test changes.");
rotary.collectionHandler = oldHandler;
}
let firstNotification = "weave:service:sync:finish";
let secondNotification = "weave:service:sync:finish";
let thirdNotification = "weave:service:sync:finish";
// Track the time. We want to make sure the duration between the first and
// second sync is small, and then that the duration between second and third
// is set to be large.
let now;
function onFirstSync() {
_("First sync completed.");
Svc.Obs.remove(firstNotification, onFirstSync);
Svc.Obs.add(secondNotification, onSecondSync);
Assert.equal(Service.clusterURL, "");
_("Adding observer that lastSyncReassigned is still set on login.");
Svc.Obs.add("weave:service:login:start", onLoginStart);
// We got a 401 mid-sync, and set the pref accordingly.
Assert.ok(Services.prefs.getBoolPref("services.sync.lastSyncReassigned"));
// Update the timestamp.
now = Date.now();
}
function onSecondSync() {
_("Second sync completed.");
Svc.Obs.remove(secondNotification, onSecondSync);
Svc.Obs.add(thirdNotification, onThirdSync);
// This sync occurred within the backoff interval.
let elapsedTime = Date.now() - now;
Assert.ok(elapsedTime < MINIMUM_BACKOFF_INTERVAL);
// This pref will be true until a sync completes successfully.
Assert.ok(getReassigned());
// The timer will be set for some distant time.
// We store nextSync in prefs, which offers us only limited resolution.
// Include that logic here.
let expectedNextSync =
1000 * Math.floor((now + MINIMUM_BACKOFF_INTERVAL) / 1000);
_("Next sync scheduled for " + Service.scheduler.nextSync);
_("Expected to be slightly greater than " + expectedNextSync);
Assert.ok(Service.scheduler.nextSync >= expectedNextSync);
Assert.ok(!!Service.scheduler.syncTimer);
// Undo our evil scheme.
beforeSuccessfulSync();
// Bring the timer forward to kick off a successful sync, so we can watch
// the pref get cleared.
Service.scheduler.scheduleNextSync(0);
}
function onThirdSync() {
Svc.Obs.remove(thirdNotification, onThirdSync);
// That'll do for now; no more syncs.
Service.scheduler.clearSyncTriggers();
// Make absolutely sure that any event listeners are done with their work
// before we proceed.
waitForZeroTimer(function () {
_("Third sync nextTick.");
Assert.ok(!getReassigned());
Assert.equal(getTokenCount, 2);
Svc.Obs.remove("weave:service:login:start", onLoginStart);
Service.startOver().then(() => {
server.stop(deferred.resolve);
});
});
}
Svc.Obs.add(firstNotification, onFirstSync);
now = Date.now();
await Service.sync();
await deferred.promise;
await tracker.clearChangedIDs();
await Service.engineManager.unregister(engine);
});