More spec fixes
replace process.nextTick with setTimeout(fn, 0) for specs
Also added an unspy in the afterEach
Temporarily disable specs
fix(spec): start fixing specs
Summary:
This is the WIP fix to our spec runner.
Several tests have been completely commented out that will require
substantially more work to fix. These have been added to our sprint
backlog.
Other tests have been fixed to update to new APIs or to deal with genuine
bugs that were introduced without our knowing!
The most common non-trivial change relates to observing the `NylasAPI` and
`NylasAPIRequest`. We used to observe the arguments to `makeRequest`.
Unfortunately `NylasAPIRequest.run` is argumentless. Instead you can do:
`NylasAPIRequest.prototype.run.mostRecentCall.object.options` to get the
`options` passed into the object. the `.object` property grabs the context
of the spy when it was last called.
Fixing these tests uncovered several concerning issues with our test
runner. I spent a while tracking down why our participant-text-field-spec
was failling every so often. I chose that spec because it was the first
spec to likely fail, thereby requiring looking at the least number of
preceding files. I tried binary searching, turning on and off, several
files beforehand only to realize that the failure rate was not determined
by a particular preceding test, but rather the existing and quantity of
preceding tests, AND the number of console.log statements I had. There is
some processor-dependent race condition going on that needs further
investigation.
I also discovered an issue with the file-download-spec. We were getting
errors about it accessing a file, which was very suspicious given the code
stubs out all fs access. This was caused due to a spec that called an
async function outside ot a `waitsForPromise` block or a `waitsFor` block.
The test completed, the spies were cleaned up, but the downstream async
chain was still running. By the time the async chain finished the runner
was already working on the next spec and the spies had been restored
(causing the real fs access to run).
Juan had an idea to kill the specs once one fails to prevent cascading
failures. I'll implement this in the next diff update
Test Plan: npm test
Reviewers: juan, halla, jackie
Differential Revision: https://phab.nylas.com/D3501
Disable other specs
Disable more broken specs
All specs turned off till passing state
Use async-safe versions of spec functions
Add async test spec
Remove unused package code
Remove canary spec
This reverts commit ee5609bdb0.
Updates to nylas sync worker to support multiple cursors
Convert NylasSyncWorker to es6
Convert NylasSyncWorkerPool to es6
Extract into deltaProcessor
Update names to NylasSyncWorker state
Working on spec fixes
More spec fixes
Delta stream refactor fixes
Summary:
1. **Generic CUD Tasks**: There is now a generic `CreateModelTask`,
`UpdateModelTask`, and `DestroyModelTask`. These can either be used as-is
or trivially overridden to easily update simple objects. Hopefully all of
the boilerplate rollback, error handling, and undo logic won't have to be
re-duplicated on every task. There are also tests for these tasks. We use
them to perform mutating actions on `Metadata` objects.
1. **Failing on Promise Rejects**: Turns out that if a Promise rejected
due to an error or `Promise.reject` we were ignoring it and letting tests
pass. Now, tests will Fail if any unhandled promise rejects. This
uncovered a variety of errors throughout the test suite that had to be
fixed. The most significant one was during the `theme-manager` tests when
all packages (and their stores with async DB requests) was loaded. Long
after the `theme-manager` specs finished, those DB requests were
(somtimes) silently failing.
1. **Globally stub `DatabaseStore._query`**: All tests shouldn't actually
make queries on the database. Furthremore, the `inTransaction` block
doesn't resolve at all unless `_query` is stubbed. Instead of manually
remembering to do this in every test that touches the DB, it's now mocked
in `spec_helper`. This broke a handful of tests that needed to be manually
fixed.
1. **ESLint Fixes**: Some minor fixes to the linter config to prevent
yelling about minor ES6 things and ensuring we have the correct parser.
Test Plan: new tests
Reviewers: bengotow, juan, drew
Differential Revision: https://phab.nylas.com/D2419
Remove cloudState and N1-Send-Later
Summary:
Originally, this was going to be a totally independent package, but
I wasn't able to isolate the functionality and get it tied in to
the delta-stream consumption. Here's how it currently works:
- The preferences package has a new tab which allows you to edit
mail filters. Filters are saved in a new core store, and a new
stock component (ScenarioEditor) renders the editor. The editor
takes a set of templates that define a value space, and outputs
a valid set of values.
- A new MailFilterProcessor takes messages and creates tasks to
apply the actions from the MailFiltersStore.
- The worker-sync package now uses the MailFilterProcessor to
apply filters /before/ it calls didPassivelyReceiveNewModels,
so filtrs are applied before any notifications are created.
- A new task, ReprocessMailFiltersTask allows you to run filters
on all of your existing mail. It leverages the existing TaskQueue
architecture to: a) resume where it left off if you quit midway,
b) be queryable (for status) from all windows and c) cancelable.
The TaskQueue is a bit strange because it runs performLocal and
performRemote very differently, and I had to use `performRemote`.
(todo refactor soon.)
This diff also changes the EditableList a bit to behave like a
controlled component and render focused / unfocused states.
Test Plan: Run tests, only for actual filter processing atm.
Reviewers: juan, evan
Reviewed By: evan
Differential Revision: https://phab.nylas.com/D2379
Summary:
Until now, we've been hiding transactions beneath the surface. When you call persistModel, you're implicitly creating a transaction.
You could explicitly create them with `atomically`..., but there were several critical problems that are fixed in this diff:
- Calling persistModel / unpersistModel within a transaction could cause the DatabaseStore to trigger. This could result in other parts of the app making queries /during/
the transaction, potentially before the COMMIT occurred and saved the changes. The new, explicit inTransaction syntax holds all changes until after COMMIT and then triggers.
- Calling atomically and then calling persistModel inside that resulted in us having to check whether a transaction was present and was gross.
- Many parts of the code ran extensive logic inside a promise chained within `atomically`:
BAD:
```
DatabaseStore.atomically =>
DatabaseStore.persistModel(draft) =>
GoMakeANetworkRequestThatReturnsAPromise
```
OVERWHELMINGLY BETTER:
```
DatabaseStore.inTransaction (t) =>
t.persistModel(draft)
.then =>
GoMakeANetworkRequestThatReturnsAPromise
```
Having explicit transactions also puts us on equal footing with Sequelize and other ORMs. Note that you /have/ to call DatabaseStore.inTransaction (t) =>. There is no other way to access the methods that let you alter the database. :-)
Other changes:
- This diff removes Message.labels and the Message-Labels table. We weren't using Message-level labels anywhere, and the table could grow very large.
- This diff changes the page size during initial sync from 250 => 200 in an effort to make transactions a bit faster.
Test Plan: Run tests!
Reviewers: juan, evan
Reviewed By: juan, evan
Differential Revision: https://phab.nylas.com/D2353
Summary:
Move sync workers and Edgehill token checks to work window
Move the task queue and database setup to the work window
Move ContactStore background refresh to work window
Store the task queue in the database
WIP
The TaskQueue now puts tasks in the database instead of in a file, which also means it can be observed
Move all delta sync and initial sync to a package, make NylasSyncStore which exposes read-only sync state
DraftStore no longer reads task status. Once you set the "sending" bit on a draft, it never gets unset. But that's fine actually.
If your package lists windowTypes, you *only* get loaded in those windowTypes. If you specify no windowTypes, you get loaded in the root window.
This means that onboarding, worker-ui, worker-sync, etc. no longer get loaded into the main window
ActivitySidebar has a special little store that observes the task queue since it's no longer in the window
Move "toggle component regions" / "toggle react remote" to the Developer menu
Move sync worker specs, update draft store specs to not rely on TaskQueue at all
Test Plan: Run existing tests, all pass
Reviewers: dillon, evan
Reviewed By: evan
Differential Revision: https://phab.nylas.com/D1936