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fix: address flakiness in frame handling (#8688)

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When we attach to a frame, we send a call to get
the page frame tree from CDP. Based on the tree data
we look up the parent frame if parentId is provided.
The problem is that the call to get the page frame
tree could take arbitrary time and the calls for the
parent and child frames might happen at the same time.
So the situation where the frame tree for the child frame
is resolved before the parent frame is known is fairly
common.

This PR addresses the issue by awaiting for the parent
frame id before attempting to register a child frame.
This commit is contained in:
Alex Rudenko 2022-07-25 11:20:38 +02:00 committed by Randolf J
parent 2cbfdeb0ca
commit 6f81b23728
4 changed files with 145 additions and 39 deletions
Show Stats Download Patch File Download Diff File Expand all files Collapse all files

138
src/common/FrameManager.ts
View File

@ -29,7 +29,12 @@ import {Page} from './Page.js';
import {Target} from './Target.js';
import {TimeoutSettings} from './TimeoutSettings.js';
import {EvaluateFunc, HandleFor, NodeFor} from './types.js';
import {debugError, isErrorLike} from './util.js';
import {
createDeferredPromiseWithTimer,
debugError,
DeferredPromise,
isErrorLike,
} from './util.js';
const UTILITY_WORLD_NAME = '__puppeteer_utility_world__';
@ -64,6 +69,15 @@ export class FrameManager extends EventEmitter {
#isolatedWorlds = new Set<string>();
#mainFrame?: Frame;
#client: CDPSession;
/**
* Keeps track of OOPIF targets/frames (target ID == frame ID for OOPIFs)
* that are being initialized.
*/
#framesPendingTargetInit = new Map<string, DeferredPromise<void>>();
/**
* Keeps track of frames that are in the process of being attached in #onFrameAttached.
*/
#framesPendingAttachment = new Map<string, DeferredPromise<void>>();
/**
* @internal
@ -132,8 +146,19 @@ export class FrameManager extends EventEmitter {
});
}
async initialize(client: CDPSession = this.#client): Promise<void> {
async initialize(
targetId: string,
client: CDPSession = this.#client
): Promise<void> {
try {
if (!this.#framesPendingTargetInit.has(targetId)) {
this.#framesPendingTargetInit.set(
targetId,
createDeferredPromiseWithTimer(
`Waiting for target frame ${targetId} failed`
)
);
}
const result = await Promise.all([
client.send('Page.enable'),
client.send('Page.getFrameTree'),
@ -162,6 +187,9 @@ export class FrameManager extends EventEmitter {
}
throw error;
} finally {
this.#framesPendingTargetInit.get(targetId)?.resolve();
this.#framesPendingTargetInit.delete(targetId);
}
}
@ -262,7 +290,7 @@ export class FrameManager extends EventEmitter {
frame._updateClient(target._session()!);
}
this.setupEventListeners(target._session()!);
this.initialize(target._session());
this.initialize(target._getTargetInfo().targetId, target._session());
}
async onDetachedFromTarget(target: Target): Promise<void> {
@ -341,7 +369,7 @@ export class FrameManager extends EventEmitter {
#onFrameAttached(
session: CDPSession,
frameId: string,
parentFrameId?: string
parentFrameId: string
): void {
if (this.#frames.has(frameId)) {
const frame = this.#frames.get(frameId)!;
@ -353,50 +381,84 @@ export class FrameManager extends EventEmitter {
}
return;
}
assert(parentFrameId);
const parentFrame = this.#frames.get(parentFrameId);
assert(parentFrame, `Parent frame ${parentFrameId} not found`);
const frame = new Frame(this, parentFrame, frameId, session);
this.#frames.set(frame._id, frame);
this.emit(FrameManagerEmittedEvents.FrameAttached, frame);
const complete = (parentFrame: Frame) => {
assert(parentFrame, `Parent frame ${parentFrameId} not found`);
const frame = new Frame(this, parentFrame, frameId, session);
this.#frames.set(frame._id, frame);
this.emit(FrameManagerEmittedEvents.FrameAttached, frame);
};
if (parentFrame) {
return complete(parentFrame);
}
if (this.#framesPendingTargetInit.has(parentFrameId)) {
if (!this.#framesPendingAttachment.has(frameId)) {
this.#framesPendingAttachment.set(
frameId,
createDeferredPromiseWithTimer(
`Waiting for frame ${frameId} to attach failed`
)
);
}
this.#framesPendingTargetInit.get(parentFrameId)!.promise.then(() => {
complete(this.#frames.get(parentFrameId)!);
this.#framesPendingAttachment.get(frameId)?.resolve();
this.#framesPendingAttachment.delete(frameId);
});
return;
}
throw new Error(`Parent frame ${parentFrameId} not found`);
}
#onFrameNavigated(framePayload: Protocol.Page.Frame): void {
const frameId = framePayload.id;
const isMainFrame = !framePayload.parentId;
let frame = isMainFrame
? this.#mainFrame
: this.#frames.get(framePayload.id);
assert(
isMainFrame || frame,
'We either navigate top level or have old version of the navigated frame'
);
const frame = isMainFrame ? this.#mainFrame : this.#frames.get(frameId);
// Detach all child frames first.
if (frame) {
for (const child of frame.childFrames()) {
this.#removeFramesRecursively(child);
}
}
const complete = (frame?: Frame) => {
assert(
isMainFrame || frame,
`Missing frame isMainFrame=${isMainFrame}, frameId=${frameId}`
);
// Update or create main frame.
if (isMainFrame) {
// Detach all child frames first.
if (frame) {
// Update frame id to retain frame identity on cross-process navigation.
this.#frames.delete(frame._id);
frame._id = framePayload.id;
} else {
// Initial main frame navigation.
frame = new Frame(this, null, framePayload.id, this.#client);
for (const child of frame.childFrames()) {
this.#removeFramesRecursively(child);
}
}
this.#frames.set(framePayload.id, frame);
this.#mainFrame = frame;
// Update or create main frame.
if (isMainFrame) {
if (frame) {
// Update frame id to retain frame identity on cross-process navigation.
this.#frames.delete(frame._id);
frame._id = frameId;
} else {
// Initial main frame navigation.
frame = new Frame(this, null, frameId, this.#client);
}
this.#frames.set(frameId, frame);
this.#mainFrame = frame;
}
// Update frame payload.
assert(frame);
frame._navigated(framePayload);
this.emit(FrameManagerEmittedEvents.FrameNavigated, frame);
};
if (this.#framesPendingAttachment.has(frameId)) {
this.#framesPendingAttachment.get(frameId)!.promise.then(() => {
complete(isMainFrame ? this.#mainFrame : this.#frames.get(frameId));
});
} else {
complete(frame);
}
// Update frame payload.
assert(frame);
frame._navigated(framePayload);
this.emit(FrameManagerEmittedEvents.FrameNavigated, frame);
}
async _ensureIsolatedWorld(session: CDPSession, name: string): Promise<void> {

2
src/common/Page.ts
View File

@ -630,7 +630,7 @@ export class Page extends EventEmitter {
async #initialize(): Promise<void> {
await Promise.all([
this.#frameManager.initialize(),
this.#frameManager.initialize(this.#target._targetId),
this.#client.send('Performance.enable'),
this.#client.send('Log.enable'),
]);

43
src/common/util.ts
View File

@ -523,3 +523,46 @@ export function isErrnoException(obj: unknown): obj is NodeJS.ErrnoException {
('errno' in obj || 'code' in obj || 'path' in obj || 'syscall' in obj)
);
}
/**
* @internal
*/
export type DeferredPromise<T> = {
promise: Promise<T>;
resolve: (_: T) => void;
reject: (_: Error) => void;
};
/**
* Creates an returns a promise along with the resolve/reject functions.
*
* If the promise has not been resolved/rejected withing the `timeout` period,
* the promise gets rejected with a timeout error.
*
* @internal
*/
export function createDeferredPromiseWithTimer<T>(
timeoutMessage: string,
timeout = 5000
): DeferredPromise<T> {
let resolver = (_: T): void => {};
let rejector = (_: Error) => {};
const taskPromise = new Promise<T>((resolve, reject) => {
resolver = resolve;
rejector = reject;
});
const timeoutId = setTimeout(() => {
rejector(new Error(timeoutMessage));
}, timeout);
return {
promise: taskPromise,
resolve: (value: T) => {
clearTimeout(timeoutId);
resolver(value);
},
reject: (err: Error) => {
clearTimeout(timeoutId);
rejector(err);
},
};
}

1
test/src/oopif.spec.ts
View File

@ -419,6 +419,7 @@ describeChromeOnly('OOPIF', function () {
await target.page();
browser1.disconnect();
});
itFailsFirefox('should support lazy OOP frames', async () => {
const {server} = getTestState();