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/* 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/. */
import { Weave } from "resource://services-sync/main.sys.mjs";
import { RawCryptoWrapper } from "resource://services-sync/record.sys.mjs";
import { Utils } from "resource://services-sync/util.sys.mjs";
export function FakeFilesystemService(contents) {
this.fakeContents = contents;
let self = this;
// Save away the unmocked versions of the functions we replace here for tests
// that really want the originals. As this may be called many times per test,
// we must be careful to not replace them with ones we previously replaced.
// (And why are we bothering with these mocks in the first place? Is the
// performance of the filesystem *really* such that it outweighs the downside
// of not running our real JSON functions in the tests? Eg, these mocks don't
// always throw exceptions when the real ones do. Anyway...)
for (let name of ["jsonSave", "jsonLoad", "jsonMove", "jsonRemove"]) {
let origName = "_real_" + name;
if (!Utils[origName]) {
Utils[origName] = Utils[name];
}
}
Utils.jsonSave = async function jsonSave(filePath, that, obj) {
let json = typeof obj == "function" ? obj.call(that) : obj;
self.fakeContents["weave/" + filePath + ".json"] = JSON.stringify(json);
};
Utils.jsonLoad = async function jsonLoad(filePath, that) {
let obj;
let json = self.fakeContents["weave/" + filePath + ".json"];
if (json) {
obj = JSON.parse(json);
}
return obj;
};
Utils.jsonMove = function jsonMove(aFrom, aTo, that) {
const fromPath = "weave/" + aFrom + ".json";
self.fakeContents["weave/" + aTo + ".json"] = self.fakeContents[fromPath];
delete self.fakeContents[fromPath];
return Promise.resolve();
};
Utils.jsonRemove = function jsonRemove(filePath, that) {
delete self.fakeContents["weave/" + filePath + ".json"];
return Promise.resolve();
};
}
export function fakeSHA256HMAC(message) {
message = message.substr(0, 64);
while (message.length < 64) {
message += " ";
}
return message;
}
export function FakeGUIDService() {
let latestGUID = 0;
Utils.makeGUID = function makeGUID() {
// ensure that this always returns a unique 12 character string
let nextGUID = "fake-guid-" + String(latestGUID++).padStart(2, "0");
return nextGUID.slice(nextGUID.length - 12, nextGUID.length);
};
}
/*
* Mock implementation of WeaveCrypto. It does not encrypt or
* decrypt, merely returning the input verbatim.
*/
export function FakeCryptoService() {
this.counter = 0;
delete Weave.Crypto; // get rid of the getter first
Weave.Crypto = this;
RawCryptoWrapper.prototype.ciphertextHMAC = function ciphertextHMAC(
keyBundle
) {
return fakeSHA256HMAC(this.ciphertext);
};
}
FakeCryptoService.prototype = {
async encrypt(clearText, symmetricKey, iv) {
return clearText;
},
async decrypt(cipherText, symmetricKey, iv) {
return cipherText;
},
async generateRandomKey() {
return btoa("fake-symmetric-key-" + this.counter++);
},
generateRandomIV: function generateRandomIV() {
// A base64-encoded IV is 24 characters long
return btoa("fake-fake-fake-random-iv");
},
expandData: function expandData(data, len) {
return data;
},
generateRandomBytes: function generateRandomBytes(byteCount) {
return "not-so-random-now-are-we-HA-HA-HA! >:)".slice(byteCount);
},
};
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