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Author	SHA1	Message	Date
Evan Morikawa	14514a3413	fix(specs): change spec scheduler back to setTimeout Summary: Adds a new `npm run test-window` that will launch specs in a window so you can use the debugger The spec window wouldn't close because `onbeforeunload` was unnecessarily preventing close. This circumvents this in spec mode. Most significantly I discovered we can't use the synchronous timer for the promise scheduler anymore. Suppose you do: ``` it('should error', async () => { try { await doSomething() throw new Error("doSomething should have thrown!") } catch (err) { expect(err.message).toMatch(/my message/) } }) ``` The way async/await is transpiled, when `doSomething` throws, the error will propagate all the way back up to the uncaughtPromiseException handler before the `catch` gets called and registered. The transpilation method assumes that when the function gets executed it can synchrously advance beyond the call before the `then` or `catch` resolve. When the promise scheduler is synchronous this doesn't happen. I chose to use `setTimeout` instead of `process.nextTick` or `setImmediate` as the promise scheduler. `setTimeout` seems to work better with Chrome's async function call stacks. `nextTick` and `setImmediate`, being Node methods, skip Chrome's async watchers. Test Plan: I talked with Juan about these changes, in an upcoming diff he will be testing these in the context of our broader test suite. Reviewers: mark, khamidou, halla, spang, juan Reviewed By: juan Differential Revision: https://phab.nylas.com/D3779	2017-01-25 17:43:11 -05:00
Evan Morikawa	487dac31b3	fix(spec): fix asynchronous specs Summary: I believe I discovered why our tests intermittently fail, why those failures cause a cascade of failures, and how to fix it. The bug is subtle and it's helpful to get a quick refresher on how various parts of our testing system work: First a deeper dive into how Promises work: 1. Upon creating a new Promise, the "executor" block (the one that gets passed `resolve` and `reject`), gets synchronously run. 2. You eventually call `resolve()`. 3. The minute you call `resolve()`, Bluebird's `async.js` queues up whatever's downstream (the next `then` block) 4. The queue gets processed on every "tick". 5. Once the "tick" happens, our queue processes and downstream `then` blocks get run. 6. If any more Promises come in before the "tick", they get added to the queue. Nothing gets processed until the "tick" happens. The important takeaway here is this "tick" in step 4. This "tick" is the core of what makes Promises asynchronous. By default, Bluebird in our Node-like environment uses `setImmediate` as the underlying implementation. Our test environment is different. We do NOT use `setImmediate` in our test environment. We use Bluebird's `Promise.setScheduler` API to implement our own "tick". This gives us much greater control over when Promises advance. Node's `setImmediate` puts you at the whim of the underlying event loop. Before today, our test "tick" implementation used `setTimeout` and `advanceClock` triggered by `process.nextTick`. Let me also quickly explain `setTimeout` in our test environment. We globally override `setTimeout` in our test environment to not be based on actual time at all. There are places in our code where we wait for several hundred miliseconds, or have timeouts places. Instead of "sleeping" some amount of time and hoping for the best, we gain absolute control over "time". "Time" is just an integer value that only moves forward when you manually call `advanceClock()` and pass it a certain number of "milliseconds". At the beginning of each test, we reset time back to zero, we record setTimeouts that come in, and as advanceClock gets called, we know if we need to run any of the setTimeout callbacks. Back to the Promise "tick" implementation. Before today, our testing "tick" implementation relied our our stubbed `setTimeout` and our control of time. This almost always works fine. Unfortunately tests would sometimes intermittently fail, and furthermore cause a cascade of failures down the road. We've been plauged with this for as long as I can remember. I think I finally found how all of this comes together to cause these intermittent failures and how to fix it. The issue arises from a test like the one in query-subscription-pool-spec. We have tests here (and subtly in other yet unknown places) that go something like this: ``` it("TEST A", () => { Foo.add(new Thing()) expect(Foo._things.length).toBe(1) }) it("TEST B", () => { expect(true).toBe(true) }) ``` At the surface this test looks straightforward. The problem is that `Foo.add` may down the line call something like `trigger()`, which may have listeners setup, which might try and asynchronously do all kinds of things (like read the fs or read/write to the database). The biggest issue with this is that the test 'finishes' immediately after that `expect` block and immediately moves onto the next test. If `Foo.add` is asynchronous, by the time whatever downstream effects of `Foo.add` take place we may be in a completely different test. Furthremore if those downstream function errors, those errors will be raised, but Jasmine will catch them in the wrong test sending you down a rabbit hole of dispair. It gets worse. At the start of each test, we reset our `setTimeout` stub time back to zero. This is problematic when combined with the last issue. Suppose `Foo.add` ends up queuing a downstream Promsie. Before today, that downstream Promise used `setTimeout(0)` to trigger the `then` block. Suppose TEST A finishes before `process.nextTick` in our custom scheduler can call `advanceClock` and run the downstream Promise. Once Test B starts, it will reset our `setTimeout` stub time back to zero. `process.nextTick` comes back after Test B has started and calls `advanceClock` like it's supposed to. Unfortunately, because our stub time has been reset, advanceClock will NOT find the original callback function that would have resolved `Foo.add`'s downstream Promise!!! This means that Bluebird is now stuck waiting for a "tick" that will never come anymore. Since Bluebird thinks it's waiting for a "tick", all future Promises will get queued, but never called (see Step 6 of the Promise description above). This is why once one test fails, downstream ones never complete and Jasmine times out. The failure is intermittent because `process.nextTick` is racing agianst a test finishing, the next one starting, and how many and how far downstream promises are setup. Okay. So how do we fix this? First I tried to simply not reset the time back to zero again in our stubbed time-override. This doesn't work because it simply exposes the diasterous consequences of downstream Promises resolving after a test has completed. When a test completes we cleanup objects, unmount React components. Those downstream promises and timeouts come back and throw all kinds of errors like: "can't read property x of undefined" and "can't find a match for component X". The fix that works the best is to simply MAKE PROMISES FULLY SYCNRHONOUS. Now if you look at our custom Promise Test Scheduler in time-override, you'll see that it immediately and sychronously calls the function. This means that all downstream promises will run BEFORE the test ends. Note that this is designed as a safeguard. The best way to make a more robust test is to declare that your funtion body is asynchronous. If you call a method that has downstream effects, it's your responsibility to wait for them to finish. I would consider the test example above a very, very subtle bug. Unfortunately it's so subtle that it's unreasonable to expect that we'll always catch them. Making everything in our testing environment synchronous ensures that test setup and cleanup happen when we intuitively expect them to. Addendum: The full Promise call chain looks something like this: -> `Promise::_resolveCallback` -> `Promise::_fulfill` -> `Promise::_async.settlePromises` -> `AsyncSettlePromises` -> `Async::_queueTick` -> CHECK `Async::_isTickUsed` -> `Async::_schedule` -> `TimeOverride.scheduler` -> `setTimeout` -> `process.nextTick` -> `advanceClock` -> `Async::_drainQueues` -> `Async::_drainQueue` -> `THEN BLOCK RUNS` -> `Maybe more things get added to queue` -> `Async::_reset` -> `Async::_queueTick` works again. Test Plan: They now work Reviewers: halla, mark, spang, juan, jackie Reviewed By: juan, jackie Differential Revision: https://phab.nylas.com/D3538	2016-12-20 16:47:26 -08:00
Evan Morikawa	4209255ca6	Move spec runner & deps into `n1-spec-runner` folder	2016-10-16 20:10:19 -07:00

Evan Morikawa

14514a3413

fix(specs): change spec scheduler back to setTimeout

Summary:
Adds a new `npm run test-window` that will launch specs in a window so you
can use the debugger

The spec window wouldn't close because `onbeforeunload` was unnecessarily
preventing close. This circumvents this in spec mode.

Most significantly I discovered we can't use the synchronous timer for the
promise scheduler anymore. Suppose you do:

```
it('should error', async () => {
  try {
    await doSomething()
    throw new Error("doSomething should have thrown!")
  } catch (err) {
    expect(err.message).toMatch(/my message/)
  }
})
```

The way async/await is transpiled, when `doSomething` throws, the error
will propagate all the way back up to the uncaughtPromiseException handler
before the `catch` gets called and registered. The transpilation method
assumes that when the function gets executed it can synchrously advance
beyond the call before the `then` or `catch` resolve. When the promise
scheduler is synchronous this doesn't happen.

I chose to use `setTimeout` instead of `process.nextTick` or
`setImmediate` as the promise scheduler. `setTimeout` seems to work better
with Chrome's async function call stacks. `nextTick` and `setImmediate`,
being Node methods, skip Chrome's async watchers.

Test Plan:
I talked with Juan about these changes, in an upcoming diff he will be
testing these in the context of our broader test suite.

Reviewers: mark, khamidou, halla, spang, juan

Reviewed By: juan

Differential Revision: https://phab.nylas.com/D3779

2017-01-25 17:43:11 -05:00

Evan Morikawa

487dac31b3

fix(spec): fix asynchronous specs

Summary:
I believe I discovered why our tests intermittently fail, why those
failures cause a cascade of failures, and how to fix it.

The bug is subtle and it's helpful to get a quick refresher on how various
parts of our testing system work:

First a deeper dive into how Promises work:

1. Upon creating a new Promise, the "executor" block (the one that gets
   passed `resolve` and `reject`), gets synchronously run.
2. You eventually call `resolve()`.
3. The minute you call `resolve()`, Bluebird's `async.js` queues up
   whatever's downstream (the next `then` block)
4. The queue gets processed on every "tick".
5. Once the "tick" happens, our queue processes and downstream `then`
   blocks get run.
6. If any more Promises come in before the "tick", they get added to the
   queue. Nothing gets processed until the "tick" happens.

The important takeaway here is this "tick" in step 4. This "tick" is the
core of what makes Promises asynchronous. By default, Bluebird in our
Node-like environment uses `setImmediate` as the underlying
implementation.

Our test environment is different. We do NOT use `setImmediate` in our test
environment.

We use Bluebird's `Promise.setScheduler` API to implement our own "tick".  This
gives us much greater control over when Promises advance. Node's `setImmediate`
puts you at the whim of the underlying event loop.

Before today, our test "tick" implementation used `setTimeout` and
`advanceClock` triggered by `process.nextTick`.

Let me also quickly explain `setTimeout` in our test environment.

We globally override `setTimeout` in our test environment to not be based on
actual time at all. There are places in our code where we wait for several
hundred miliseconds, or have timeouts places. Instead of "sleeping" some amount
of time and hoping for the best, we gain absolute control over "time". "Time"
is just an integer value that only moves forward when you manually call
`advanceClock()` and pass it a certain number of "milliseconds".

At the beginning of each test, we reset time back to zero, we record
setTimeouts that come in, and as advanceClock gets called, we know if we need
to run any of the setTimeout callbacks.

Back to the Promise "tick" implementation. Before today, our testing "tick"
implementation relied our our stubbed `setTimeout` and our control of time.

This almost always works fine. Unfortunately tests would sometimes
intermittently fail, and furthermore cause a cascade of failures down the road.

We've been plauged with this for as long as I can remember. I think I finally
found how all of this comes together to cause these intermittent failures and
how to fix it.

The issue arises from a test like the one in query-subscription-pool-spec.  We
have tests here (and subtly in other yet unknown places) that go
something like this:

```
it("TEST A", () => {
  Foo.add(new Thing())
  expect(Foo._things.length).toBe(1)
})

it("TEST B", () => {
  expect(true).toBe(true)
})
```

At the surface this test looks straightforward. The problem is that
`Foo.add` may down the line call something like `trigger()`, which may
have listeners setup, which might try and asynchronously do all kinds of
things (like read the fs or read/write to the database).

The biggest issue with this is that the test 'finishes' immediately after
that `expect` block and immediately moves onto the next test. If `Foo.add`
is asynchronous, by the time whatever downstream effects of `Foo.add` take
place we may be in a completely different test. Furthremore if those
downstream function errors, those errors will be raised, but Jasmine will
catch them in the wrong test sending you down a rabbit hole of dispair.

It gets worse.

At the start of each test, we reset our `setTimeout` stub time back to
zero. This is problematic when combined with the last issue.

Suppose `Foo.add` ends up queuing a downstream Promsie. Before today, that
downstream Promise used `setTimeout(0)` to trigger the `then` block.

Suppose TEST A finishes before `process.nextTick` in our custom scheduler
can call `advanceClock` and run the downstream Promise.

Once Test B starts, it will reset our `setTimeout` stub time back to zero.

`process.nextTick` comes back after Test B has started and calls
`advanceClock` like it's supposed to.

Unfortunately, because our stub time has been reset, advanceClock will NOT
find the original callback function that would have resolved `Foo.add`'s
downstream Promise!!!

This means that Bluebird is now stuck waiting for a "tick" that will never
come anymore.

Since Bluebird thinks it's waiting for a "tick", all future Promises will
get queued, but never called (see Step 6 of the Promise description
above).

This is why once one test fails, downstream ones never complete and
Jasmine times out.

The failure is intermittent because `process.nextTick` is racing agianst a
test finishing, the next one starting, and how many and how far downstream
promises are setup.

Okay. So how do we fix this? First I tried to simply not reset the time back to
zero again in our stubbed time-override. This doesn't work because it simply
exposes the diasterous consequences of downstream Promises resolving after a
test has completed. When a test completes we cleanup objects, unmount React
components. Those downstream promises and timeouts come back and throw all
kinds of errors like: "can't read property x of undefined" and "can't find a
match for component X".

The fix that works the best is to simply MAKE PROMISES FULLY SYCNRHONOUS.
Now if you look at our custom Promise Test Scheduler in time-override,
you'll see that it immediately and sychronously calls the function. This
means that all downstream promises will run BEFORE the test ends.

Note that this is designed as a safeguard. The best way to make a more
robust test is to declare that your funtion body is asynchronous. If you
call a method that has downstream effects, it's your responsibility to
wait for them to finish. I would consider the test example above a very,
very subtle bug. Unfortunately it's so subtle that it's unreasonable to
expect that we'll always catch them. Making everything in our testing
environment synchronous ensures that test setup and cleanup happen when we
intuitively expect them to.

Addendum:

The full Promise call chain looks something like this:

-> `Promise::_resolveCallback`
-> `Promise::_fulfill`
-> `Promise::_async.settlePromises`
-> `AsyncSettlePromises`
-> `Async::_queueTick`
-> CHECK `Async::_isTickUsed`
-> `Async::_schedule`
-> `TimeOverride.scheduler`
-> `setTimeout`
-> `process.nextTick`
-> `advanceClock`
-> `Async::_drainQueues`
-> `Async::_drainQueue`
-> `THEN BLOCK RUNS`
-> `Maybe more things get added to queue`
-> `Async::_reset`
-> `Async::_queueTick` works again.

Test Plan: They now work

Reviewers: halla, mark, spang, juan, jackie

Reviewed By: juan, jackie

Differential Revision: https://phab.nylas.com/D3538

2016-12-20 16:47:26 -08:00

Evan Morikawa

4209255ca6

Move spec runner & deps into n1-spec-runner folder

2016-10-16 20:10:19 -07:00

Renamed from spec/time-override.coffee (Browse further)

3 commits