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mjolnir/test/integration/detectFederationLagTest.ts
Gnuxie 77ad40e27a
Refactor protected rooms. (#371) 
* Attempt to factor out protected rooms from Mjolnir.

This is useful to the appservice because it means we don't
have to wrap a Mjolnir that is designed to sync.

It's also useful if we later on want to have specific
settings per space.

It's also just a nice seperation between Mjolnir's needs while
syncing via client-server and the behaviour of syncing policy rooms.

 ### Things that have changed

- `ErrorCache` no longer a static class (phew), gets used by `ProtectedRooms`.
- `ManagementRoomOutput` class gets created to handle logging back to the management room.
- Responsibilities for syncing member bans and server ACL are handled by `ProtectedRooms`.
- Responsibilities for watched lists should be moved to `ProtectedRooms` if they haven't been.
- `EventRedactionQueue` is moved to `ProtectedRooms` since this needs to happen after
  member bans.
- ApplyServerAcls moved to `ProtectedRooms`
- ApplyMemberBans move to `ProtectedRooms`
- `logMessage` and `replaceRoomIdsWithPills` moved to `ManagementRoomOutput`.
- `resyncJoinedRooms` has been made a little more clear, though I am concerned about how often it does run because it does seem expensive.


* ProtectedRooms is not supposed to track joined rooms.

The reason is because it is supposed to represent a specific
set of rooms to protect, not do horrible logic
for working out what rooms mjolnir is supposed to protect.
2022-09-29 14:49:09 +01:00

267 lines
14 KiB
TypeScript
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import { strict as assert } from "assert";
import { UserID } from "matrix-bot-sdk";
import { Suite } from "mocha";
import { Mjolnir } from "../../src/Mjolnir";
import { DetectFederationLag, LAG_STATE_EVENT } from "../../src/protections/DetectFederationLag";
import { getFirstReply } from "./commands/commandUtils";
import { newTestUser } from "./clientHelper";
const LOCAL_HOMESERVER_LAG_ENTER_WARNING_ZONE_MS = 180_000;
const LOCAL_HOMESERVER_LAG_EXIT_WARNING_ZONE_MS = 100_000;
const FEDERATED_HOMESERVER_LAG_ENTER_WARNING_ZONE_MS = 300_000;
const FEDERATED_HOMESERVER_LAG_EXIT_WARNING_ZONE_MS = 200_000;
const BUCKET_DURATION_MS = 100;
const SAMPLE_SIZE = 100;
const NUMBER_OF_LAGGING_FEDERATED_HOMESERVERS_ENTER_WARNING_ZONE = 2;
const RE_STATS = /(\{(:?.|\n)*\})[^}]*$/m;
describe("Test: DetectFederationLag protection", function() {
// In this entire test, we call `handleEvent` directly, injecting
// - events that simulate lag;
// - a progression through time, to make sure that histograms get processed.
beforeEach(async function() {
// Setup an instance of DetectFederationLag
this.detector = new DetectFederationLag();
await this.mjolnir.protectionManager.registerProtection(this.detector);
await this.mjolnir.protectionManager.enableProtection("DetectFederationLag");
// Setup a moderator.
this.moderator = await newTestUser(this.config.homeserverUrl, { name: { contains: "moderator" } });
await this.moderator.joinRoom(this.mjolnir.managementRoomId);
const SETTINGS = {
// The protection should kick in immediately.
initialDelayGrace: 0,
// Make histograms progress quickly.
bucketDuration: BUCKET_DURATION_MS,
// Three homeservers should be sufficient to raise an alert.
numberOfLaggingFederatedHomeserversEnterWarningZone: NUMBER_OF_LAGGING_FEDERATED_HOMESERVERS_ENTER_WARNING_ZONE,
localHomeserverLagEnterWarningZone: LOCAL_HOMESERVER_LAG_ENTER_WARNING_ZONE_MS,
localHomeserverLagExitWarningZone: LOCAL_HOMESERVER_LAG_EXIT_WARNING_ZONE_MS,
federatedHomeserverLagEnterWarningZone: FEDERATED_HOMESERVER_LAG_ENTER_WARNING_ZONE_MS,
federatedHomeserverLagExitWarningZone: FEDERATED_HOMESERVER_LAG_EXIT_WARNING_ZONE_MS,
};
for (let key of Object.keys(SETTINGS)) {
this.detector.settings[key].setValue(SETTINGS[key]);
}
this.localDomain = new UserID(await this.mjolnir.client.getUserId()).domain;
this.protectedRoomId = `!room1:${this.localDomain}`;
this.mjolnir.addProtectedRoom(this.protectedRoomId);
this.simulateLag = async (senders: string[], lag: number, start: Date) => {
const content = {};
const origin_server_ts = start.getTime() - lag;
for (let i = 0; i < SAMPLE_SIZE; ++i) {
// We call directly `this.detector.handleEvent` to be able to forge old values of `origin_server_ts`.
await this.detector.handleEvent(this.mjolnir, this.protectedRoomId, {
sender: senders[i % senders.length],
origin_server_ts,
content,
},
// Make sure that time progresses through histogram buckets.
simulateDate(start, i)
);
}
};
this.getAlertEvent = async () => {
try {
let event = await this.mjolnir.client.getRoomStateEvent(this.mjolnir.managementRoomId, LAG_STATE_EVENT, this.protectedRoomId);
if (Object.keys(event).length == 0) {
// Event was redacted.
return null;
}
return event;
} catch (ex) {
// No such event.
return null;
}
};
this.getCommandStatus = async () => {
const protectedRoomReply = await getFirstReply(this.mjolnir.client, this.mjolnir.managementRoomId, () => {
const command = `!mjolnir status protection DetectFederationLag ${this.protectedRoomId}`;
return this.moderator.sendMessage(this.mjolnir.managementRoomId, { msgtype: 'm.text', body: command });
});
const globalReply = await getFirstReply(this.mjolnir.client, this.mjolnir.managementRoomId, () => {
const command = `!mjolnir status protection DetectFederationLag *`;
return this.moderator.sendMessage(this.mjolnir.managementRoomId, { msgtype: 'm.text', body: command });
});
const protectedRoomStatsStr = protectedRoomReply.content.body.match(RE_STATS)[0];
const globalStatsStr = globalReply.content.body.match(RE_STATS)[0];
return {
protectedRoomStats: protectedRoomStatsStr ? JSON.parse(protectedRoomStatsStr) : null,
globalStats: globalStatsStr ? JSON.parse(globalStatsStr) : null,
}
}
});
afterEach(async function() {
await this.detector.cleanup();
this.detector.dispose();
await this.moderator?.stop();
});
let simulateDate = (start: Date, progress: number = SAMPLE_SIZE) =>
new Date(start.getTime() + 2 * progress * BUCKET_DURATION_MS / SAMPLE_SIZE);
it('DetectFederationLag doesn\'t detect lag when there isn\'t any', async function() {
this.timeout(60000);
const MULTIPLIERS = [0, 0.5, 0.9];
// In this test, all the events we send have a lag < {local, federated}HomeserverLagEnterWarningZoneMS.
const start = new Date();
// Ensure that no alert has been emitted yet.
assert.equal(await this.getAlertEvent(), null, "Initially, there should be no alert");
// First, let's send events from the local homeserver.
const LOCAL_SENDERS = [`@local_user:${this.localDomain}`];
for (let multiplier of MULTIPLIERS) {
const LAG = multiplier * LOCAL_HOMESERVER_LAG_ENTER_WARNING_ZONE_MS;
await this.simulateLag(LOCAL_SENDERS, LAG, start);
assert.equal(await this.getAlertEvent(), null, `We have sent lots of local pseudo-events with a small lag of ${LAG}, there should be NO alert`);
}
// Three distinct remote servers should be sufficient to trigger an alert, if they all lag.
const REMOTE_SENDERS = [
"@user2:left.example.com",
"@user3:right.example.com",
"@user4:middle.example.com",
];
for (let multiplier of MULTIPLIERS) {
const LAG = multiplier * FEDERATED_HOMESERVER_LAG_ENTER_WARNING_ZONE_MS;
await this.simulateLag(REMOTE_SENDERS, LAG, start);
assert.equal(await this.getAlertEvent(), null, `We have sent lots of remote pseudo-events with a small lag of ${LAG}, there should be NO alert`);
}
const {protectedRoomStats, globalStats} = await this.getCommandStatus();
assert.ok(protectedRoomStats, "We should see stats for our room");
assert.ok(protectedRoomStats.min >= 0, `min ${protectedRoomStats.min} >= 0`);
assert.ok(protectedRoomStats.min < protectedRoomStats.max);
assert.ok(protectedRoomStats.mean > 0);
assert.ok(protectedRoomStats.mean < protectedRoomStats.max);
assert.ok(protectedRoomStats.median < protectedRoomStats.max);
assert.ok(protectedRoomStats.median > 0);
assert.ok(protectedRoomStats.max >= MULTIPLIERS[MULTIPLIERS.length - 1] * FEDERATED_HOMESERVER_LAG_ENTER_WARNING_ZONE_MS);
assert.ok(protectedRoomStats.max < FEDERATED_HOMESERVER_LAG_ENTER_WARNING_ZONE_MS);
assert.deepEqual(globalStats, { [this.protectedRoomId]: protectedRoomStats });
});
it('DetectFederationLag detects lag on local homeserver', async function() {
this.timeout(60000);
// In this test, all the events we send have a lag > localHomeserverLagEnterWarningZoneMS.
const start = new Date();
const stop = simulateDate(start);
// Ensure that no alert has been emitted yet.
assert.equal(await this.getAlertEvent(), null, "Initially, there should be no alert");
// Simulate lagging events from the local homeserver. This should trigger an alarm.
const SENDERS = [`@local_user_1:${this.localDomain}`];
await this.simulateLag(SENDERS, 1.5 * LOCAL_HOMESERVER_LAG_ENTER_WARNING_ZONE_MS, start);
let lagEvent = await this.getAlertEvent();
console.debug(lagEvent);
assert(lagEvent, "Local lag should be reported");
assert.equal(JSON.stringify(lagEvent.domains), JSON.stringify([this.localDomain]), "Lag report should mention only the local domain");
assert.equal(lagEvent.roomId, this.protectedRoomId, "Lag report should mention the right room");
assert(new Date(lagEvent.since) >= start, "Lag report should have happened since `now`");
assert(new Date(lagEvent.since) < stop, "Lag should have been detected before the end of the bombardment");
{
const {protectedRoomStats, globalStats} = await this.getCommandStatus();
assert.ok(protectedRoomStats, "We should see stats for our room");
assert.ok(protectedRoomStats.min >= 0, `min ${protectedRoomStats.min} >= 0`);
assert.ok(protectedRoomStats.min < protectedRoomStats.max);
assert.ok(protectedRoomStats.mean > 0);
assert.ok(protectedRoomStats.mean < protectedRoomStats.max);
assert.ok(protectedRoomStats.median < protectedRoomStats.max);
assert.ok(protectedRoomStats.median > 0);
assert.ok(protectedRoomStats.max >= 1.5 * LOCAL_HOMESERVER_LAG_ENTER_WARNING_ZONE_MS);
assert.deepEqual(globalStats, { [this.protectedRoomId]: protectedRoomStats })
}
// Simulate non-lagging events from the local homeserver. After a while, this should rescind the alarm.
// We switch to a new (pseudo-)user to simplify reading logs.
const SENDERS_2 = [`@local_user_2:${this.localDomain}`];
const start2 = new Date(stop.getTime() + 1_000);
await this.simulateLag(SENDERS_2, 0.75 * LOCAL_HOMESERVER_LAG_EXIT_WARNING_ZONE_MS, start2);
assert.equal(await this.getAlertEvent(), null, "The alert should now be rescinded");
{
const {protectedRoomStats, globalStats} = await this.getCommandStatus();
assert.ok(protectedRoomStats, "We should see stats for our room");
assert.ok(protectedRoomStats.min >= 0, `min ${protectedRoomStats.min} >= 0`);
assert.ok(protectedRoomStats.min < protectedRoomStats.max);
assert.ok(protectedRoomStats.mean > 0);
assert.ok(protectedRoomStats.mean < protectedRoomStats.max);
assert.ok(protectedRoomStats.median < protectedRoomStats.max);
assert.ok(protectedRoomStats.median > 0);
assert.ok(protectedRoomStats.max >= 0.75 * LOCAL_HOMESERVER_LAG_EXIT_WARNING_ZONE_MS);
assert.ok(protectedRoomStats.max < FEDERATED_HOMESERVER_LAG_EXIT_WARNING_ZONE_MS);
assert.deepEqual(globalStats, { [this.protectedRoomId]: protectedRoomStats })
}
});
it('DetectFederationLag doesn\'t report lag when only one federated homeserver lags', async function() {
this.timeout(60000);
// In this test, all the events we send have a lag > federatedHomeserverLagEnterWarningZoneMS.
const start = new Date();
// Ensure that no alert has been emitted yet.
assert.equal(await this.getAlertEvent(), null, "Initially, there should be no alert");
// First, let's send events from the local homeserver.
const SENDERS = ["@left:left.example.com"];
await this.simulateLag(SENDERS, 1.5 * FEDERATED_HOMESERVER_LAG_ENTER_WARNING_ZONE_MS, start);
let lagEvent = await this.getAlertEvent();
assert.equal(lagEvent, null, "With only one federated homeserver lagging, we shouldn't report any lag");
});
it('DetectFederationLag reports lag when three federated homeservers lag', async function() {
this.timeout(60000);
// In this test, all the events we send have a lag > federatedHomeserverLagEnterWarningZoneMS.
const start = new Date();
const stop = simulateDate(start);
// Ensure that no alert has been emitted yet.
assert.equal(await this.getAlertEvent(), null, "Initially, there should be no alert");
// Simulate lagging events from remote homeservers. This should trigger an alarm.
const SENDERS = [
"@left:left.example.com",
"@middle:middle.example.com",
"@right:right.example.com",
];
await this.simulateLag(SENDERS, 1.5 * FEDERATED_HOMESERVER_LAG_ENTER_WARNING_ZONE_MS, start);
let lagEvent = await this.getAlertEvent();
console.debug(lagEvent);
assert(lagEvent, "Local lag should be reported");
assert.equal(JSON.stringify(lagEvent.domains.sort()), JSON.stringify(["left.example.com", "middle.example.com", "right.example.com"]), "Lag report should mention only the local domain");
assert.equal(lagEvent.roomId, this.protectedRoomId, "Lag report should mention the right room");
assert(new Date(lagEvent.since) >= start, "Lag report should have happened since `now`");
assert(new Date(lagEvent.since) < stop, "Lag should have been detected before the end of the bombardment");
// Simulate non-lagging events from remote homeservers. After a while, this should rescind the alarm.
// We switch to new (pseudo-)users to simplify reading logs.
const SENDERS_2 = [
"@left_2:left.example.com",
"@middle_2:middle.example.com",
"@right_2:right.example.com",
];
const start2 = new Date(stop.getTime() + 1_000);
await this.simulateLag(SENDERS_2, 0.75 * FEDERATED_HOMESERVER_LAG_EXIT_WARNING_ZONE_MS, start2);
assert.equal(await this.getAlertEvent(), null, "The alert should now be rescinded");
});
});
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