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browser-polyfill.js
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browser-polyfill.js
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/* @@package_name - v@@version - @@timestamp */
/* -*- Mode: indent-tabs-mode: nil; js-indent-level: 2 -*- */
/* vim: set sts=2 sw=2 et tw=80: */
/* This Source Code Form is subject to the terms of the Mozilla Public
* License, v. 2.0. If a copy of the MPL was not distributed with this
* file, You can obtain one at http://mozilla.org/MPL/2.0/. */
"use strict";
if (!(globalThis.chrome && globalThis.chrome.runtime && globalThis.chrome.runtime.id)) {
throw new Error("This script should only be loaded in a browser extension.");
}
if (!(globalThis.browser && globalThis.browser.runtime && globalThis.browser.runtime.id)) {
const CHROME_SEND_MESSAGE_CALLBACK_NO_RESPONSE_MESSAGE = "The message port closed before a response was received.";
// Wrapping the bulk of this polyfill in a one-time-use function is a minor
// optimization for Firefox. Since Spidermonkey does not fully parse the
// contents of a function until the first time it's called, and since it will
// never actually need to be called, this allows the polyfill to be included
// in Firefox nearly for free.
const wrapAPIs = extensionAPIs => {
// NOTE: apiMetadata is associated to the content of the api-metadata.json file
// at build time by replacing the following "include" with the content of the
// JSON file.
const apiMetadata = {/* include("api-metadata.json") */};
if (Object.keys(apiMetadata).length === 0) {
throw new Error("api-metadata.json has not been included in browser-polyfill");
}
/**
* A WeakMap subclass which creates and stores a value for any key which does
* not exist when accessed, but behaves exactly as an ordinary WeakMap
* otherwise.
*
* @param {function} createItem
* A function which will be called in order to create the value for any
* key which does not exist, the first time it is accessed. The
* function receives, as its only argument, the key being created.
*/
class DefaultWeakMap extends WeakMap {
constructor(createItem, items = undefined) {
super(items);
this.createItem = createItem;
}
get(key) {
if (!this.has(key)) {
this.set(key, this.createItem(key));
}
return super.get(key);
}
}
/**
* Returns true if the given object is an object with a `then` method, and can
* therefore be assumed to behave as a Promise.
*
* @param {*} value The value to test.
* @returns {boolean} True if the value is thenable.
*/
const isThenable = value => {
return value && typeof value === "object" && typeof value.then === "function";
};
/**
* Creates and returns a function which, when called, will resolve or reject
* the given promise based on how it is called:
*
* - If, when called, `chrome.runtime.lastError` contains a non-null object,
* the promise is rejected with that value.
* - If the function is called with exactly one argument, the promise is
* resolved to that value.
* - Otherwise, the promise is resolved to an array containing all of the
* function's arguments.
*
* @param {object} promise
* An object containing the resolution and rejection functions of a
* promise.
* @param {function} promise.resolve
* The promise's resolution function.
* @param {function} promise.reject
* The promise's rejection function.
* @param {object} metadata
* Metadata about the wrapped method which has created the callback.
* @param {boolean} metadata.singleCallbackArg
* Whether or not the promise is resolved with only the first
* argument of the callback, alternatively an array of all the
* callback arguments is resolved. By default, if the callback
* function is invoked with only a single argument, that will be
* resolved to the promise, while all arguments will be resolved as
* an array if multiple are given.
*
* @returns {function}
* The generated callback function.
*/
const makeCallback = (promise, metadata) => {
return (...callbackArgs) => {
if (extensionAPIs.runtime.lastError) {
promise.reject(new Error(extensionAPIs.runtime.lastError.message));
} else if (metadata.singleCallbackArg ||
(callbackArgs.length <= 1 && metadata.singleCallbackArg !== false)) {
promise.resolve(callbackArgs[0]);
} else {
promise.resolve(callbackArgs);
}
};
};
const pluralizeArguments = (numArgs) => numArgs == 1 ? "argument" : "arguments";
/**
* Creates a wrapper function for a method with the given name and metadata.
*
* @param {string} name
* The name of the method which is being wrapped.
* @param {object} metadata
* Metadata about the method being wrapped.
* @param {integer} metadata.minArgs
* The minimum number of arguments which must be passed to the
* function. If called with fewer than this number of arguments, the
* wrapper will raise an exception.
* @param {integer} metadata.maxArgs
* The maximum number of arguments which may be passed to the
* function. If called with more than this number of arguments, the
* wrapper will raise an exception.
* @param {boolean} metadata.singleCallbackArg
* Whether or not the promise is resolved with only the first
* argument of the callback, alternatively an array of all the
* callback arguments is resolved. By default, if the callback
* function is invoked with only a single argument, that will be
* resolved to the promise, while all arguments will be resolved as
* an array if multiple are given.
*
* @returns {function(object, ...*)}
* The generated wrapper function.
*/
const wrapAsyncFunction = (name, metadata) => {
return function asyncFunctionWrapper(target, ...args) {
if (args.length < metadata.minArgs) {
throw new Error(`Expected at least ${metadata.minArgs} ${pluralizeArguments(metadata.minArgs)} for ${name}(), got ${args.length}`);
}
if (args.length > metadata.maxArgs) {
throw new Error(`Expected at most ${metadata.maxArgs} ${pluralizeArguments(metadata.maxArgs)} for ${name}(), got ${args.length}`);
}
return new Promise((resolve, reject) => {
if (metadata.fallbackToNoCallback) {
// This API method has currently no callback on Chrome, but it return a promise on Firefox,
// and so the polyfill will try to call it with a callback first, and it will fallback
// to not passing the callback if the first call fails.
try {
target[name](...args, makeCallback({resolve, reject}, metadata));
} catch (cbError) {
console.warn(`${name} API method doesn't seem to support the callback parameter, ` +
"falling back to call it without a callback: ", cbError);
target[name](...args);
// Update the API method metadata, so that the next API calls will not try to
// use the unsupported callback anymore.
metadata.fallbackToNoCallback = false;
metadata.noCallback = true;
resolve();
}
} else if (metadata.noCallback) {
target[name](...args);
resolve();
} else {
target[name](...args, makeCallback({resolve, reject}, metadata));
}
});
};
};
/**
* Wraps an existing method of the target object, so that calls to it are
* intercepted by the given wrapper function. The wrapper function receives,
* as its first argument, the original `target` object, followed by each of
* the arguments passed to the original method.
*
* @param {object} target
* The original target object that the wrapped method belongs to.
* @param {function} method
* The method being wrapped. This is used as the target of the Proxy
* object which is created to wrap the method.
* @param {function} wrapper
* The wrapper function which is called in place of a direct invocation
* of the wrapped method.
*
* @returns {Proxy<function>}
* A Proxy object for the given method, which invokes the given wrapper
* method in its place.
*/
const wrapMethod = (target, method, wrapper) => {
return new Proxy(method, {
apply(targetMethod, thisObj, args) {
return wrapper.call(thisObj, target, ...args);
},
});
};
let hasOwnProperty = Function.call.bind(Object.prototype.hasOwnProperty);
/**
* Wraps an object in a Proxy which intercepts and wraps certain methods
* based on the given `wrappers` and `metadata` objects.
*
* @param {object} target
* The target object to wrap.
*
* @param {object} [wrappers = {}]
* An object tree containing wrapper functions for special cases. Any
* function present in this object tree is called in place of the
* method in the same location in the `target` object tree. These
* wrapper methods are invoked as described in {@see wrapMethod}.
*
* @param {object} [metadata = {}]
* An object tree containing metadata used to automatically generate
* Promise-based wrapper functions for asynchronous. Any function in
* the `target` object tree which has a corresponding metadata object
* in the same location in the `metadata` tree is replaced with an
* automatically-generated wrapper function, as described in
* {@see wrapAsyncFunction}
*
* @returns {Proxy<object>}
*/
const wrapObject = (target, wrappers = {}, metadata = {}) => {
let cache = Object.create(null);
let handlers = {
has(proxyTarget, prop) {
return prop in target || prop in cache;
},
get(proxyTarget, prop, receiver) {
if (prop in cache) {
return cache[prop];
}
if (!(prop in target)) {
return undefined;
}
let value = target[prop];
if (typeof value === "function") {
// This is a method on the underlying object. Check if we need to do
// any wrapping.
if (typeof wrappers[prop] === "function") {
// We have a special-case wrapper for this method.
value = wrapMethod(target, target[prop], wrappers[prop]);
} else if (hasOwnProperty(metadata, prop)) {
// This is an async method that we have metadata for. Create a
// Promise wrapper for it.
let wrapper = wrapAsyncFunction(prop, metadata[prop]);
value = wrapMethod(target, target[prop], wrapper);
} else {
// This is a method that we don't know or care about. Return the
// original method, bound to the underlying object.
value = value.bind(target);
}
} else if (typeof value === "object" && value !== null &&
(hasOwnProperty(wrappers, prop) ||
hasOwnProperty(metadata, prop))) {
// This is an object that we need to do some wrapping for the children
// of. Create a sub-object wrapper for it with the appropriate child
// metadata.
value = wrapObject(value, wrappers[prop], metadata[prop]);
} else if (hasOwnProperty(metadata, "*")) {
// Wrap all properties in * namespace.
value = wrapObject(value, wrappers[prop], metadata["*"]);
} else {
// We don't need to do any wrapping for this property,
// so just forward all access to the underlying object.
Object.defineProperty(cache, prop, {
configurable: true,
enumerable: true,
get() {
return target[prop];
},
set(value) {
target[prop] = value;
},
});
return value;
}
cache[prop] = value;
return value;
},
set(proxyTarget, prop, value, receiver) {
if (prop in cache) {
cache[prop] = value;
} else {
target[prop] = value;
}
return true;
},
defineProperty(proxyTarget, prop, desc) {
return Reflect.defineProperty(cache, prop, desc);
},
deleteProperty(proxyTarget, prop) {
return Reflect.deleteProperty(cache, prop);
},
};
// Per contract of the Proxy API, the "get" proxy handler must return the
// original value of the target if that value is declared read-only and
// non-configurable. For this reason, we create an object with the
// prototype set to `target` instead of using `target` directly.
// Otherwise we cannot return a custom object for APIs that
// are declared read-only and non-configurable, such as `chrome.devtools`.
//
// The proxy handlers themselves will still use the original `target`
// instead of the `proxyTarget`, so that the methods and properties are
// dereferenced via the original targets.
let proxyTarget = Object.create(target);
return new Proxy(proxyTarget, handlers);
};
/**
* Creates a set of wrapper functions for an event object, which handles
* wrapping of listener functions that those messages are passed.
*
* A single wrapper is created for each listener function, and stored in a
* map. Subsequent calls to `addListener`, `hasListener`, or `removeListener`
* retrieve the original wrapper, so that attempts to remove a
* previously-added listener work as expected.
*
* @param {DefaultWeakMap<function, function>} wrapperMap
* A DefaultWeakMap object which will create the appropriate wrapper
* for a given listener function when one does not exist, and retrieve
* an existing one when it does.
*
* @returns {object}
*/
const wrapEvent = wrapperMap => ({
addListener(target, listener, ...args) {
target.addListener(wrapperMap.get(listener), ...args);
},
hasListener(target, listener) {
return target.hasListener(wrapperMap.get(listener));
},
removeListener(target, listener) {
target.removeListener(wrapperMap.get(listener));
},
});
const onRequestFinishedWrappers = new DefaultWeakMap(listener => {
if (typeof listener !== "function") {
return listener;
}
/**
* Wraps an onRequestFinished listener function so that it will return a
* `getContent()` property which returns a `Promise` rather than using a
* callback API.
*
* @param {object} req
* The HAR entry object representing the network request.
*/
return function onRequestFinished(req) {
const wrappedReq = wrapObject(req, {} /* wrappers */, {
getContent: {
minArgs: 0,
maxArgs: 0,
},
});
listener(wrappedReq);
};
});
const onMessageWrappers = new DefaultWeakMap(listener => {
if (typeof listener !== "function") {
return listener;
}
/**
* Wraps a message listener function so that it may send responses based on
* its return value, rather than by returning a sentinel value and calling a
* callback. If the listener function returns a Promise, the response is
* sent when the promise either resolves or rejects.
*
* @param {*} message
* The message sent by the other end of the channel.
* @param {object} sender
* Details about the sender of the message.
* @param {function(*)} sendResponse
* A callback which, when called with an arbitrary argument, sends
* that value as a response.
* @returns {boolean}
* True if the wrapped listener returned a Promise, which will later
* yield a response. False otherwise.
*/
return function onMessage(message, sender, sendResponse) {
let didCallSendResponse = false;
let wrappedSendResponse;
let sendResponsePromise = new Promise(resolve => {
wrappedSendResponse = function(response) {
didCallSendResponse = true;
resolve(response);
};
});
let result;
try {
result = listener(message, sender, wrappedSendResponse);
} catch (err) {
result = Promise.reject(err);
}
const isResultThenable = result !== true && isThenable(result);
// If the listener didn't returned true or a Promise, or called
// wrappedSendResponse synchronously, we can exit earlier
// because there will be no response sent from this listener.
if (result !== true && !isResultThenable && !didCallSendResponse) {
return false;
}
// A small helper to send the message if the promise resolves
// and an error if the promise rejects (a wrapped sendMessage has
// to translate the message into a resolved promise or a rejected
// promise).
const sendPromisedResult = (promise) => {
promise.then(msg => {
// send the message value.
sendResponse(msg);
}, error => {
// Send a JSON representation of the error if the rejected value
// is an instance of error, or the object itself otherwise.
let message;
if (error && (error instanceof Error ||
typeof error.message === "string")) {
message = error.message;
} else {
message = "An unexpected error occurred";
}
sendResponse({
__mozWebExtensionPolyfillReject__: true,
message,
});
}).catch(err => {
// Print an error on the console if unable to send the response.
console.error("Failed to send onMessage rejected reply", err);
});
};
// If the listener returned a Promise, send the resolved value as a
// result, otherwise wait the promise related to the wrappedSendResponse
// callback to resolve and send it as a response.
if (isResultThenable) {
sendPromisedResult(result);
} else {
sendPromisedResult(sendResponsePromise);
}
// Let Chrome know that the listener is replying.
return true;
};
});
const wrappedSendMessageCallback = ({reject, resolve}, reply) => {
if (extensionAPIs.runtime.lastError) {
// Detect when none of the listeners replied to the sendMessage call and resolve
// the promise to undefined as in Firefox.
// See https://github.com/mozilla/webextension-polyfill/issues/130
if (extensionAPIs.runtime.lastError.message === CHROME_SEND_MESSAGE_CALLBACK_NO_RESPONSE_MESSAGE) {
resolve();
} else {
reject(new Error(extensionAPIs.runtime.lastError.message));
}
} else if (reply && reply.__mozWebExtensionPolyfillReject__) {
// Convert back the JSON representation of the error into
// an Error instance.
reject(new Error(reply.message));
} else {
resolve(reply);
}
};
const wrappedSendMessage = (name, metadata, apiNamespaceObj, ...args) => {
if (args.length < metadata.minArgs) {
throw new Error(`Expected at least ${metadata.minArgs} ${pluralizeArguments(metadata.minArgs)} for ${name}(), got ${args.length}`);
}
if (args.length > metadata.maxArgs) {
throw new Error(`Expected at most ${metadata.maxArgs} ${pluralizeArguments(metadata.maxArgs)} for ${name}(), got ${args.length}`);
}
return new Promise((resolve, reject) => {
const wrappedCb = wrappedSendMessageCallback.bind(null, {resolve, reject});
args.push(wrappedCb);
apiNamespaceObj.sendMessage(...args);
});
};
const staticWrappers = {
devtools: {
network: {
onRequestFinished: wrapEvent(onRequestFinishedWrappers),
},
},
runtime: {
onMessage: wrapEvent(onMessageWrappers),
onMessageExternal: wrapEvent(onMessageWrappers),
sendMessage: wrappedSendMessage.bind(null, "sendMessage", {minArgs: 1, maxArgs: 3}),
},
tabs: {
sendMessage: wrappedSendMessage.bind(null, "sendMessage", {minArgs: 2, maxArgs: 3}),
},
};
const settingMetadata = {
clear: {minArgs: 1, maxArgs: 1},
get: {minArgs: 1, maxArgs: 1},
set: {minArgs: 1, maxArgs: 1},
};
apiMetadata.privacy = {
network: {"*": settingMetadata},
services: {"*": settingMetadata},
websites: {"*": settingMetadata},
};
return wrapObject(extensionAPIs, staticWrappers, apiMetadata);
};
// The build process adds a UMD wrapper around this file, which makes the
// `module` variable available.
module.exports = wrapAPIs(chrome);
} else {
module.exports = globalThis.browser;
}