gecko/services/sync/tests/unit/head_helpers.js
Gregory Szorc 17660cf146 Bug 753515 - Move json{Load,Save} from services-sync into services-common; r=mconnor
--HG--
rename : services/sync/tests/unit/test_utils_json.js => services/common/tests/unit/test_utils_json.js
2012-05-10 12:21:21 -07:00

406 lines
10 KiB
JavaScript

/* Any copyright is dedicated to the Public Domain.
http://creativecommons.org/publicdomain/zero/1.0/ */
Cu.import("resource://services-common/utils.js");
Cu.import("resource://services-common/async.js");
Cu.import("resource://services-sync/identity.js");
Cu.import("resource://services-sync/util.js");
Cu.import("resource://services-sync/record.js");
Cu.import("resource://services-sync/engines.js");
let btoa;
let atob;
let provider = {
getFile: function(prop, persistent) {
persistent.value = true;
switch (prop) {
case "ExtPrefDL":
return [Services.dirsvc.get("CurProcD", Ci.nsIFile)];
default:
throw Cr.NS_ERROR_FAILURE;
}
},
QueryInterface: XPCOMUtils.generateQI([Ci.nsIDirectoryServiceProvider])
};
Services.dirsvc.QueryInterface(Ci.nsIDirectoryService).registerProvider(provider);
let timer;
function waitForZeroTimer(callback) {
// First wait >100ms (nsITimers can take up to that much time to fire, so
// we can account for the timer in delayedAutoconnect) and then two event
// loop ticks (to account for the Utils.nextTick() in autoConnect).
let ticks = 2;
function wait() {
if (ticks) {
ticks -= 1;
Utils.nextTick(wait);
return;
}
callback();
}
timer = Utils.namedTimer(wait, 150, {}, "timer");
}
btoa = Cu.import("resource://services-common/log4moz.js").btoa;
atob = Cu.import("resource://services-common/log4moz.js").atob;
// This is needed for loadAddonTestFunctions().
let gGlobalScope = this;
function ExtensionsTestPath(path) {
if (path[0] != "/") {
throw Error("Path must begin with '/': " + path);
}
return "../../../../toolkit/mozapps/extensions/test/xpcshell" + path;
}
/**
* Loads the AddonManager test functions by importing its test file.
*
* This should be called in the global scope of any test file needing to
* interface with the AddonManager. It should only be called once, or the
* universe will end.
*/
function loadAddonTestFunctions() {
const path = ExtensionsTestPath("/head_addons.js");
let file = do_get_file(path);
let uri = Services.io.newFileURI(file);
Services.scriptloader.loadSubScript(uri.spec, gGlobalScope);
createAppInfo("xpcshell@tests.mozilla.org", "XPCShell", "1", "1.9.2");
}
function getAddonInstall(name) {
let f = do_get_file(ExtensionsTestPath("/addons/" + name + ".xpi"));
let cb = Async.makeSyncCallback();
AddonManager.getInstallForFile(f, cb);
return Async.waitForSyncCallback(cb);
}
/**
* Obtains an addon from the add-on manager by id.
*
* This is merely a synchronous wrapper.
*
* @param id
* ID of add-on to fetch
* @return addon object on success or undefined or null on failure
*/
function getAddonFromAddonManagerByID(id) {
let cb = Async.makeSyncCallback();
AddonManager.getAddonByID(id, cb);
return Async.waitForSyncCallback(cb);
}
/**
* Installs an add-on synchronously from an addonInstall
*
* @param install addonInstall instance to install
*/
function installAddonFromInstall(install) {
let cb = Async.makeSyncCallback();
let listener = {onInstallEnded: cb};
AddonManager.addInstallListener(listener);
install.install();
Async.waitForSyncCallback(cb);
AddonManager.removeAddonListener(listener);
do_check_neq(null, install.addon);
do_check_neq(null, install.addon.syncGUID);
return install.addon;
}
/**
* Convenience function to install an add-on from the extensions unit tests.
*
* @param name
* String name of add-on to install. e.g. test_install1
* @return addon object that was installed
*/
function installAddon(name) {
let install = getAddonInstall(name);
do_check_neq(null, install);
return installAddonFromInstall(install);
}
/**
* Convenience function to uninstall an add-on synchronously.
*
* @param addon
* Addon instance to uninstall
*/
function uninstallAddon(addon) {
let cb = Async.makeSyncCallback();
let listener = {onUninstalled: function(uninstalled) {
if (uninstalled.id == addon.id) {
AddonManager.removeAddonListener(listener);
cb(uninstalled);
}
}};
AddonManager.addAddonListener(listener);
addon.uninstall();
Async.waitForSyncCallback(cb);
}
function FakeFilesystemService(contents) {
this.fakeContents = contents;
let self = this;
Utils.jsonSave = function jsonSave(filePath, that, obj, callback) {
let json = typeof obj == "function" ? obj.call(that) : obj;
self.fakeContents["weave/" + filePath + ".json"] = JSON.stringify(json);
callback.call(that);
};
Utils.jsonLoad = function jsonLoad(filePath, that, callback) {
let obj;
let json = self.fakeContents["weave/" + filePath + ".json"];
if (json) {
obj = JSON.parse(json);
}
callback.call(that, obj);
};
};
function FakeGUIDService() {
let latestGUID = 0;
Utils.makeGUID = function fake_makeGUID() {
return "fake-guid-" + latestGUID++;
};
}
function fakeSHA256HMAC(message) {
message = message.substr(0, 64);
while (message.length < 64) {
message += " ";
}
return message;
}
/*
* Mock implementation of WeaveCrypto. It does not encrypt or
* decrypt, merely returning the input verbatim.
*/
function FakeCryptoService() {
this.counter = 0;
delete Svc.Crypto; // get rid of the getter first
Svc.Crypto = this;
CryptoWrapper.prototype.ciphertextHMAC = function ciphertextHMAC(keyBundle) {
return fakeSHA256HMAC(this.ciphertext);
};
}
FakeCryptoService.prototype = {
encrypt: function(aClearText, aSymmetricKey, aIV) {
return aClearText;
},
decrypt: function(aCipherText, aSymmetricKey, aIV) {
return aCipherText;
},
generateRandomKey: function() {
return btoa("fake-symmetric-key-" + this.counter++);
},
generateRandomIV: function() {
// A base64-encoded IV is 24 characters long
return btoa("fake-fake-fake-random-iv");
},
expandData : function expandData(data, len) {
return data;
},
deriveKeyFromPassphrase : function (passphrase, salt, keyLength) {
return "some derived key string composed of bytes";
},
generateRandomBytes: function(aByteCount) {
return "not-so-random-now-are-we-HA-HA-HA! >:)".slice(aByteCount);
}
};
function setBasicCredentials(username, password, syncKey) {
let auth = Identity;
auth.username = username;
auth.basicPassword = password;
auth.syncKey = syncKey;
}
function SyncTestingInfrastructure(username, password, syncKey) {
Cu.import("resource://services-sync/service.js");
Identity.account = username || "foo";
Identity.basicPassword = password || "password";
Identity.syncKey = syncKey || "foo";
Service.serverURL = TEST_SERVER_URL;
Service.clusterURL = TEST_CLUSTER_URL;
this.logStats = initTestLogging();
this.fakeFilesystem = new FakeFilesystemService({});
this.fakeGUIDService = new FakeGUIDService();
this.fakeCryptoService = new FakeCryptoService();
}
_("Setting the identity for passphrase");
Cu.import("resource://services-sync/identity.js");
/*
* Test setup helpers.
*/
// Turn WBO cleartext into fake "encrypted" payload as it goes over the wire.
function encryptPayload(cleartext) {
if (typeof cleartext == "object") {
cleartext = JSON.stringify(cleartext);
}
return {ciphertext: cleartext, // ciphertext == cleartext with fake crypto
IV: "irrelevant",
hmac: fakeSHA256HMAC(cleartext, Utils.makeHMACKey(""))};
}
function generateNewKeys(collections) {
let wbo = CollectionKeys.generateNewKeysWBO(collections);
let modified = new_timestamp();
CollectionKeys.setContents(wbo.cleartext, modified);
}
/*
* A fake engine implementation.
* This is used all over the place.
*
* Complete with record, store, and tracker implementations.
*/
function RotaryRecord(collection, id) {
CryptoWrapper.call(this, collection, id);
}
RotaryRecord.prototype = {
__proto__: CryptoWrapper.prototype
};
Utils.deferGetSet(RotaryRecord, "cleartext", ["denomination"]);
function RotaryStore() {
Store.call(this, "Rotary");
this.items = {};
}
RotaryStore.prototype = {
__proto__: Store.prototype,
create: function Store_create(record) {
this.items[record.id] = record.denomination;
},
remove: function Store_remove(record) {
delete this.items[record.id];
},
update: function Store_update(record) {
this.items[record.id] = record.denomination;
},
itemExists: function Store_itemExists(id) {
return (id in this.items);
},
createRecord: function(id, collection) {
let record = new RotaryRecord(collection, id);
if (!(id in this.items)) {
record.deleted = true;
return record;
}
record.denomination = this.items[id] || "Data for new record: " + id;
return record;
},
changeItemID: function(oldID, newID) {
if (oldID in this.items) {
this.items[newID] = this.items[oldID];
}
delete this.items[oldID];
},
getAllIDs: function() {
let ids = {};
for (let id in this.items) {
ids[id] = true;
}
return ids;
},
wipe: function() {
this.items = {};
}
};
function RotaryTracker() {
Tracker.call(this, "Rotary");
}
RotaryTracker.prototype = {
__proto__: Tracker.prototype
};
function RotaryEngine() {
SyncEngine.call(this, "Rotary");
// Ensure that the engine starts with a clean slate.
this.toFetch = [];
this.previousFailed = [];
}
RotaryEngine.prototype = {
__proto__: SyncEngine.prototype,
_storeObj: RotaryStore,
_trackerObj: RotaryTracker,
_recordObj: RotaryRecord,
_findDupe: function(item) {
// This is a semaphore used for testing proper reconciling on dupe
// detection.
if (item.id == "DUPE_INCOMING") {
return "DUPE_LOCAL";
}
for (let [id, value] in Iterator(this._store.items)) {
if (item.denomination == value) {
return id;
}
}
}
};
deepCopy: function deepCopy(thing, noSort) {
if (typeof(thing) != "object" || thing == null){
return thing;
}
let ret;
if (Array.isArray(thing)) {
ret = [];
for (let i = 0; i < thing.length; i++){
ret.push(deepCopy(thing[i], noSort));
}
} else {
ret = {};
let props = [p for (p in thing)];
if (!noSort){
props = props.sort();
}
props.forEach(function(k) ret[k] = deepCopy(thing[k], noSort));
}
return ret;
};