/* 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/.
*/
/* General Update Timer Manager Tests */
'use strict';
const { classes: Cc, interfaces: Ci, manager: Cm, results: Cr,
utils: Cu } = Components;
Cu.import("resource://gre/modules/XPCOMUtils.jsm");
const CATEGORY_UPDATE_TIMER = "update-timer";
const PREF_APP_UPDATE_TIMERMINIMUMDELAY = "app.update.timerMinimumDelay";
const PREF_APP_UPDATE_TIMERFIRSTINTERVAL = "app.update.timerFirstInterval";
const PREF_APP_UPDATE_LOG_ALL = "app.update.log.all";
const PREF_BRANCH_LAST_UPDATE_TIME = "app.update.lastUpdateTime.";
const MAIN_TIMER_INTERVAL = 1000; // milliseconds
const CONSUMER_TIMER_INTERVAL = 1; // seconds
const TESTS = [ {
desc: "Test Timer Callback 0",
timerID: "test0-update-timer",
defaultInterval: "bogus",
prefInterval: "test0.timer.interval",
contractID: "@mozilla.org/test0/timercallback;1",
method: "createInstance",
classID: Components.ID("9c7ce81f-98bb-4729-adb4-4d0deb0f59e5"),
notified: false
}, {
desc: "Test Timer Callback 1",
timerID: "test1-update-timer",
defaultInterval: 86400,
prefInterval: "test1.timer.interval",
contractID: "@mozilla.org/test2/timercallback;1",
method: "createInstance",
classID: Components.ID("512834f3-05bb-46be-84e0-81d881a140b7"),
notified: false
}, {
desc: "Test Timer Callback 2",
timerID: "test2-update-timer",
defaultInterval: CONSUMER_TIMER_INTERVAL,
prefInterval: "test2.timer.interval",
contractID: "@mozilla.org/test2/timercallback;1",
method: "createInstance",
classID: Components.ID("c8ac5027-8d11-4471-9d7c-fd692501b437"),
notified: false
}, {
desc: "Test Timer Callback 3",
timerID: "test3-update-timer",
defaultInterval: CONSUMER_TIMER_INTERVAL,
prefInterval: "test3.timer.interval",
contractID: "@mozilla.org/test3/timercallback;1",
method: "createInstance",
classID: Components.ID("6b0e79f3-4ab8-414c-8f14-dde10e185727"),
notified: false
}, {
desc: "Test Timer Callback 4",
timerID: "test4-update-timer",
defaultInterval: CONSUMER_TIMER_INTERVAL,
prefInterval: "test4.timer.interval",
contractID: "@mozilla.org/test4/timercallback;1",
method: "createInstance",
classID: Components.ID("2f6b7b92-e40f-4874-bfbb-eeb2412c959d"),
notified: false
}, {
desc: "Test Timer Callback 5",
timerID: "test5-update-timer",
defaultInterval: 86400,
prefInterval: "test5.timer.interval",
contractID: "@mozilla.org/test5/timercallback;1",
method: "createInstance",
classID: Components.ID("8a95f611-b2ac-4c7e-8b73-9748c4839731"),
notified: false
}, {
desc: "Test Timer Callback 6",
timerID: "test6-update-timer",
defaultInterval: CONSUMER_TIMER_INTERVAL,
prefInterval: "test6.timer.interval",
contractID: "@mozilla.org/test6/timercallback;1",
method: "createInstance",
classID: Components.ID("2d091020-e23c-11e2-a28f-0800200c9a66"),
notified: false
}, {
desc: "Test Timer Callback 7",
timerID: "test7-update-timer",
defaultInterval: 86400,
maxInterval: CONSUMER_TIMER_INTERVAL,
prefInterval: "test7.timer.interval",
contractID: "@mozilla.org/test7/timercallback;1",
method: "createInstance",
classID: Components.ID("8e8633ae-1d70-4a7a-8bea-6e1e6c5d7742"),
notified: false
}, {
desc: "Test Timer Callback 8",
timerID: "test8-update-timer",
defaultInterval: CONSUMER_TIMER_INTERVAL,
contractID: "@mozilla.org/test8/timercallback;1",
classID: Components.ID("af878d4b-1d12-41f6-9a90-4e687367ecc1"),
notified: false,
lastUpdateTime: 0
}, {
desc: "Test Timer Callback 9",
timerID: "test9-update-timer",
defaultInterval: CONSUMER_TIMER_INTERVAL,
contractID: "@mozilla.org/test9/timercallback;1",
classID: Components.ID("5136b201-d64c-4328-8cf1-1a63491cc117"),
notified: false,
lastUpdateTime: 0
} ];
var gUTM;
var gNextFunc;
XPCOMUtils.defineLazyServiceGetter(this, "gPref",
"@mozilla.org/preferences-service;1",
"nsIPrefBranch");
XPCOMUtils.defineLazyServiceGetter(this, "gCatMan",
"@mozilla.org/categorymanager;1",
"nsICategoryManager");
XPCOMUtils.defineLazyGetter(this, "gCompReg", function () {
return Cm.QueryInterface(Ci.nsIComponentRegistrar);
});
const gTest0TimerCallback = {
notify: function T0CB_notify(aTimer) {
// This can happen when another notification fails and this timer having
// time to fire so check other timers are successful.
do_throw("gTest0TimerCallback notify method should not have been called");
},
QueryInterface: XPCOMUtils.generateQI([Ci.nsITimerCallback])
};
const gTest0Factory = {
createInstance: function T0F_createInstance(aOuter, aIID) {
if (aOuter == null) {
return gTest0TimerCallback.QueryInterface(aIID);
}
throw Cr.NS_ERROR_NO_AGGREGATION;
}
};
const gTest1TimerCallback = {
notify: function T1CB_notify(aTimer) {
// This can happen when another notification fails and this timer having
// time to fire so check other timers are successful.
do_throw("gTest1TimerCallback notify method should not have been called");
},
QueryInterface: XPCOMUtils.generateQI([Ci.nsITimer])
};
const gTest1Factory = {
createInstance: function T1F_createInstance(aOuter, aIID) {
if (aOuter == null) {
return gTest1TimerCallback.QueryInterface(aIID);
}
throw Cr.NS_ERROR_NO_AGGREGATION;
}
};
const gTest2TimerCallback = {
notify: function T2CB_notify(aTimer) {
// This can happen when another notification fails and this timer having
// time to fire so check other timers are successful.
do_throw("gTest2TimerCallback notify method should not have been called");
},
QueryInterface: XPCOMUtils.generateQI([Ci.nsITimerCallback])
};
const gTest2Factory = {
createInstance: function T2F_createInstance(aOuter, aIID) {
if (aOuter == null) {
return gTest2TimerCallback.QueryInterface(aIID);
}
throw Cr.NS_ERROR_NO_AGGREGATION;
}
};
const gTest3TimerCallback = {
QueryInterface: XPCOMUtils.generateQI([Ci.nsITimerCallback])
};
const gTest3Factory = {
createInstance: function T3F_createInstance(aOuter, aIID) {
if (aOuter == null) {
return gTest3TimerCallback.QueryInterface(aIID);
}
throw Cr.NS_ERROR_NO_AGGREGATION;
}
};
const gTest4TimerCallback = {
notify: function T4CB_notify(aTimer) {
gCatMan.deleteCategoryEntry(CATEGORY_UPDATE_TIMER, TESTS[4].desc, true);
TESTS[4].notified = true;
finished_test0thru7();
},
QueryInterface: XPCOMUtils.generateQI([Ci.nsITimerCallback])
};
const gTest4Factory = {
createInstance: function T4F_createInstance(aOuter, aIID) {
if (aOuter == null) {
return gTest4TimerCallback.QueryInterface(aIID);
}
throw Cr.NS_ERROR_NO_AGGREGATION;
}
};
const gTest5TimerCallback = {
notify: function T5CB_notify(aTimer) {
gCatMan.deleteCategoryEntry(CATEGORY_UPDATE_TIMER, TESTS[5].desc, true);
TESTS[5].notified = true;
finished_test0thru7();
},
QueryInterface: XPCOMUtils.generateQI([Ci.nsITimerCallback])
};
const gTest5Factory = {
createInstance: function T5F_createInstance(aOuter, aIID) {
if (aOuter == null) {
return gTest5TimerCallback.QueryInterface(aIID);
}
throw Cr.NS_ERROR_NO_AGGREGATION;
}
};
const gTest6TimerCallback = {
notify: function T6CB_notify(aTimer) {
gCatMan.deleteCategoryEntry(CATEGORY_UPDATE_TIMER, TESTS[6].desc, true);
TESTS[6].notified = true;
finished_test0thru7();
},
QueryInterface: XPCOMUtils.generateQI([Ci.nsITimerCallback])
};
const gTest6Factory = {
createInstance: function T6F_createInstance(aOuter, aIID) {
if (aOuter == null) {
return gTest6TimerCallback.QueryInterface(aIID);
}
throw Cr.NS_ERROR_NO_AGGREGATION;
}
};
const gTest7TimerCallback = {
notify: function T7CB_notify(aTimer) {
gCatMan.deleteCategoryEntry(CATEGORY_UPDATE_TIMER, TESTS[7].desc, true);
TESTS[7].notified = true;
finished_test0thru7();
},
QueryInterface: XPCOMUtils.generateQI([Ci.nsITimerCallback])
};
const gTest7Factory = {
createInstance: function T7F_createInstance(aOuter, aIID) {
if (aOuter == null) {
return gTest7TimerCallback.QueryInterface(aIID);
}
throw Cr.NS_ERROR_NO_AGGREGATION;
}
};
const gTest8TimerCallback = {
notify: function T8CB_notify(aTimer) {
TESTS[8].notified = true;
TESTS[8].notifyTime = Date.now();
do_execute_soon(function () {
check_test8thru9(gTest8TimerCallback);
});
},
QueryInterface: XPCOMUtils.generateQI([Ci.nsITimerCallback])
};
const gTest8Factory = {
createInstance: function T8F_createInstance(aOuter, aIID) {
if (aOuter == null) {
return gTest8TimerCallback.QueryInterface(aIID);
}
throw Cr.NS_ERROR_NO_AGGREGATION;
}
};
const gTest9TimerCallback = {
notify: function T9CB_notify(aTimer) {
TESTS[9].notified = true;
TESTS[9].notifyTime = Date.now();
do_execute_soon(function () {
check_test8thru9(gTest9TimerCallback);
});
},
QueryInterface: XPCOMUtils.generateQI([Ci.nsITimerCallback])
};
const gTest9Factory = {
createInstance: function T9F_createInstance(aOuter, aIID) {
if (aOuter == null) {
return gTest9TimerCallback.QueryInterface(aIID);
}
throw Cr.NS_ERROR_NO_AGGREGATION;
}
};
function run_test() {
do_test_pending();
// Set the timer to fire every second
gPref.setIntPref(PREF_APP_UPDATE_TIMERMINIMUMDELAY, MAIN_TIMER_INTERVAL / 1000);
gPref.setIntPref(PREF_APP_UPDATE_TIMERFIRSTINTERVAL, MAIN_TIMER_INTERVAL);
gPref.setBoolPref(PREF_APP_UPDATE_LOG_ALL, true);
// Remove existing update timers to prevent them from being notified
let entries = gCatMan.enumerateCategory(CATEGORY_UPDATE_TIMER);
while (entries.hasMoreElements()) {
let entry = entries.getNext().QueryInterface(Ci.nsISupportsCString).data;
gCatMan.deleteCategoryEntry(CATEGORY_UPDATE_TIMER, entry, false);
}
gUTM = Cc["@mozilla.org/updates/timer-manager;1"].
getService(Ci.nsIUpdateTimerManager).
QueryInterface(Ci.nsIObserver);
gUTM.observe(null, "utm-test-init", "");
do_execute_soon(run_test0thru7);
}
function end_test() {
gUTM.observe(null, "xpcom-shutdown", "");
do_test_finished();
}
function run_test0thru7() {
gNextFunc = check_test0thru7;
// bogus default interval
gCompReg.registerFactory(TESTS[0].classID, TESTS[0].desc,
TESTS[0].contractID, gTest0Factory);
gCatMan.addCategoryEntry(CATEGORY_UPDATE_TIMER, TESTS[0].desc,
[TESTS[0].contractID, TESTS[0].method,
TESTS[0].timerID, TESTS[0].prefInterval,
TESTS[0].defaultInterval].join(","), false, true);
// doesn't implement nsITimerCallback
gCompReg.registerFactory(TESTS[1].classID, TESTS[1].desc,
TESTS[1].contractID, gTest1Factory);
gCatMan.addCategoryEntry(CATEGORY_UPDATE_TIMER, TESTS[1].desc,
[TESTS[1].contractID, TESTS[1].method,
TESTS[1].timerID, TESTS[1].prefInterval,
TESTS[1].defaultInterval].join(","), false, true);
// has a last update time of now - 43200 which is half of its interval
let lastUpdateTime = Math.round(Date.now() / 1000) - 43200;
gPref.setIntPref(PREF_BRANCH_LAST_UPDATE_TIME + TESTS[2].timerID, lastUpdateTime);
gCompReg.registerFactory(TESTS[2].classID, TESTS[2].desc,
TESTS[2].contractID, gTest2Factory);
gCatMan.addCategoryEntry(CATEGORY_UPDATE_TIMER, TESTS[2].desc,
[TESTS[2].contractID, TESTS[2].method,
TESTS[2].timerID, TESTS[2].prefInterval,
TESTS[2].defaultInterval].join(","), false, true);
// doesn't have a notify method
gCompReg.registerFactory(TESTS[3].classID, TESTS[3].desc,
TESTS[3].contractID, gTest3Factory);
gCatMan.addCategoryEntry(CATEGORY_UPDATE_TIMER, TESTS[3].desc,
[TESTS[3].contractID, TESTS[3].method,
TESTS[3].timerID, TESTS[3].prefInterval,
TESTS[3].defaultInterval].join(","), false, true);
// already has a last update time
gPref.setIntPref(PREF_BRANCH_LAST_UPDATE_TIME + TESTS[4].timerID, 1);
gCompReg.registerFactory(TESTS[4].classID, TESTS[4].desc,
TESTS[4].contractID, gTest4Factory);
gCatMan.addCategoryEntry(CATEGORY_UPDATE_TIMER, TESTS[4].desc,
[TESTS[4].contractID, TESTS[4].method,
TESTS[4].timerID, TESTS[4].prefInterval,
TESTS[4].defaultInterval].join(","), false, true);
// has an interval preference that overrides the default
gPref.setIntPref(TESTS[5].prefInterval, CONSUMER_TIMER_INTERVAL);
gCompReg.registerFactory(TESTS[5].classID, TESTS[5].desc,
TESTS[5].contractID, gTest5Factory);
gCatMan.addCategoryEntry(CATEGORY_UPDATE_TIMER, TESTS[5].desc,
[TESTS[5].contractID, TESTS[5].method,
TESTS[5].timerID, TESTS[5].prefInterval,
TESTS[5].defaultInterval].join(","), false, true);
// has a next update time 24 hours from now
let nextUpdateTime = Math.round(Date.now() / 1000) + 86400;
gPref.setIntPref(PREF_BRANCH_LAST_UPDATE_TIME + TESTS[6].timerID, nextUpdateTime);
gCompReg.registerFactory(TESTS[6].classID, TESTS[6].desc,
TESTS[6].contractID, gTest6Factory);
gCatMan.addCategoryEntry(CATEGORY_UPDATE_TIMER, TESTS[6].desc,
[TESTS[6].contractID, TESTS[6].method,
TESTS[6].timerID, TESTS[6].prefInterval,
TESTS[6].defaultInterval].join(","), false, true);
// has a maximum interval set by the value of MAIN_TIMER_INTERVAL
gPref.setIntPref(TESTS[7].prefInterval, 86400);
gCompReg.registerFactory(TESTS[7].classID, TESTS[7].desc,
TESTS[7].contractID, gTest7Factory);
gCatMan.addCategoryEntry(CATEGORY_UPDATE_TIMER, TESTS[7].desc,
[TESTS[7].contractID, TESTS[7].method,
TESTS[7].timerID, TESTS[7].prefInterval,
TESTS[7].defaultInterval,
TESTS[7].maxInterval].join(","), false, true);
}
function finished_test0thru7() {
if (TESTS[4].notified && TESTS[5].notified && TESTS[6].notified && TESTS[7].notified) {
do_execute_soon(gNextFunc);
}
}
function check_test0thru7() {
Assert.ok(!TESTS[0].notified,
"a category registered timer didn't fire due to an invalid " +
"default interval");
Assert.ok(!TESTS[1].notified,
"a category registered timer didn't fire due to not implementing " +
"nsITimerCallback");
Assert.ok(!TESTS[2].notified,
"a category registered timer didn't fire due to the next update " +
"time being in the future");
Assert.ok(!TESTS[3].notified,
"a category registered timer didn't fire due to not having a " +
"notify method");
Assert.ok(TESTS[4].notified,
"a category registered timer has fired");
Assert.ok(TESTS[5].notified,
"a category registered timer fired that has an interval " +
"preference that overrides a default that wouldn't have fired yet");
Assert.ok(TESTS[6].notified,
"a category registered timer has fired due to the next update " +
"time being reset due to a future last update time");
Assert.ok(gPref.prefHasUserValue(PREF_BRANCH_LAST_UPDATE_TIME +
TESTS[4].timerID),
"first of two category registered timers last update time has " +
"a user value");
Assert.ok(gPref.prefHasUserValue(PREF_BRANCH_LAST_UPDATE_TIME +
TESTS[5].timerID),
"second of two category registered timers last update time has " +
"a user value");
// Remove the category timers that should have failed
gCatMan.deleteCategoryEntry(CATEGORY_UPDATE_TIMER, TESTS[0].desc, true);
gCatMan.deleteCategoryEntry(CATEGORY_UPDATE_TIMER, TESTS[1].desc, true);
gCatMan.deleteCategoryEntry(CATEGORY_UPDATE_TIMER, TESTS[2].desc, true);
gCatMan.deleteCategoryEntry(CATEGORY_UPDATE_TIMER, TESTS[3].desc, true);
let entries = gCatMan.enumerateCategory(CATEGORY_UPDATE_TIMER);
while (entries.hasMoreElements()) {
let entry = entries.getNext().QueryInterface(Ci.nsISupportsCString).data;
gCatMan.deleteCategoryEntry(CATEGORY_UPDATE_TIMER, entry, false);
}
entries = gCatMan.enumerateCategory(CATEGORY_UPDATE_TIMER);
Assert.ok(!entries.hasMoreElements(),
"no " + CATEGORY_UPDATE_TIMER + " categories should still be " +
"registered");
do_execute_soon(run_test8thru9);
}
function run_test8thru9() {
gPref.setIntPref(PREF_BRANCH_LAST_UPDATE_TIME + TESTS[8].timerID, 1);
gCompReg.registerFactory(TESTS[8].classID, TESTS[8].desc,
TESTS[8].contractID, gTest8Factory);
gUTM.registerTimer(TESTS[8].timerID, gTest8TimerCallback,
TESTS[8].defaultInterval);
gPref.setIntPref(PREF_BRANCH_LAST_UPDATE_TIME + TESTS[9].timerID, 1);
gCompReg.registerFactory(TESTS[9].classID, TESTS[9].desc,
TESTS[9].contractID, gTest9Factory);
gUTM.registerTimer(TESTS[9].timerID, gTest9TimerCallback,
TESTS[9].defaultInterval);
}
function check_test8thru9(aTestTimerCallback) {
aTestTimerCallback.timesCalled = (aTestTimerCallback.timesCalled || 0) + 1;
if (aTestTimerCallback.timesCalled < 2) {
return;
}
Assert.ok(TESTS[8].notified,
"first registerTimer registered timer should have fired");
Assert.ok(TESTS[9].notified,
"second registerTimer registered timer should have fired");
// Check that 'staggering' has happened: even though the two events wanted to fire at
// the same time, we waited a full MAIN_TIMER_INTERVAL between them.
// (to avoid sensitivity to random timing issues, we fudge by a factor of 0.5 here)
Assert.ok(Math.abs(TESTS[8].notifyTime - TESTS[9].notifyTime) >=
MAIN_TIMER_INTERVAL * 0.5,
"staggering between two timers that want to fire at the same " +
"time should have occured");
let time = gPref.getIntPref(PREF_BRANCH_LAST_UPDATE_TIME + TESTS[8].timerID);
Assert.notEqual(time, 1,
"first registerTimer registered timer last update time " +
"should have been updated");
time = gPref.getIntPref(PREF_BRANCH_LAST_UPDATE_TIME + TESTS[9].timerID);
Assert.notEqual(time, 1,
"second registerTimer registered timer last update time " +
"should have been updated");
end_test();
}