refactor(send): split delivery from sent folder stuffing
Summary:
See explanation in https://phab.nylas.com/D3577
Depends on D3577
Test Plan: manual
Reviewers: jackie, juan, halla
Reviewed By: juan, halla
Differential Revision: https://phab.nylas.com/D3578
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
Summary:
Add ability to undo send. We decided to make undo send completely client side for a couple of reasons. If we rely on send-later for undo-send, we would be giving /all/ send load to our send-later backend. If this increases the send-later load too much, it might cause delays in the regular send-later functionality and potentially other plugins like snooze that run under the same service. We would also need to rely on the network to be able to cancel a send, which would make it unusable offline or hard to debug if that specific request fails for any given reason.
This commit also refactors the way `ComposerExtension.sendActionConfig` works. The method has been renamed and now must return an array of send actions. Also, all of the business logic to handle different send actions registered by extensions has been pieced apart from the SendActionButton and into a new SendActionStore. This also enables undo send to undo custom send actions registered by extensions.
Along the way, this also fixes a pending TODO to show all registered custom send actions in the preferences for choosing the preferred send action for sending.
Undo send works via a task, so in case N1 closes before send goes through, it will still be persisted to the task queue and restored when opened again. Undoing a send means dequeuing this task.
Test Plan: Manual
Reviewers: jackie, bengotow, halla, evan
Reviewed By: bengotow, halla, evan
Differential Revision: https://phab.nylas.com/D3361
Summary: Initial support for inline images. Tests still forthcoming!
Test Plan: WIP
Reviewers: mark, juan
Reviewed By: juan
Differential Revision: https://phab.nylas.com/D3295
Summary:
This diff introduces several updates to mail merge to improve the procedure for sending a list of drafts.
Specifically, sending mass email will now:
- Clear mail merge metadata on the drafts that will actually be sent
- Upload attached files only /once/, and reuse those files on the drafts that will actually be sent
- Minimize database writes for new drafts being created
- Will queue a SendManyDraftsTask that will subsequently queue the necessary SendDraftTasks and keep track of them, and notify of any failed tasks
TODO:
- Add state to MailMerge plugin for failed sends and ability to attempt to re send them
Test Plan: - TODO
Reviewers: evan, bengotow, jackie
Reviewed By: bengotow, jackie
Subscribers: jackie
Differential Revision: https://phab.nylas.com/D2973
Summary:
This diff is designed to dramatically speed up new window load time for
all window types and reduce memory consumption of our hot windows.
Before this diff, windows loaded in ~3 seconds. They now boot in a couple
hundred milliseconds without requiring to keep hot windows around for
each and every type of popout window we want to load quickly.
One of the largest bottlenecks was the `require`ing and initializing of
everything in `NylasExports`.
I changed `NylasExports` to be entirely lazily-loaded. Drafts and tasks
now register their constructors with a `StoreRegistry` and the
`TaskRegistry`. This lets us explicitly choose a time to activate these
stores in the window initalization instead of whenever nylas-exports
happens to be required first.
Before, NylasExports was required first when components were first
rendering. This made initial render extremely slow and made the proposed
time picker popout slow.
By moving require into the very initial window boot, we can create a new
scheme of hot windows that are "half loaded". All of the expensive
require-ing and store initialization is done. All we need to do is
activate the packages for just the one window.
This means that the hot window scheme needs to fundamentally change from
have fully pre-loaded windows, to having half-loaded empty hot windows
that can get their window props overridden again.
This led to a major refactor of the WindowManager to support this new
window scheme.
Along the way the API of WindowManager was significantly simplifed.
Instead of a bunch of special-cased windows, there are now consistent
interfaces to get and `ensure` windows are created and displayed. This
DRYed up a lot of repeated logic around showing or creating core windows.
This also allowed the consolidation of the core window configurations into
one place for much easier reasoning about what's getting booted up.
When a hot window goes "live" and gets populated, we simply change the
`windowType`. This now re-triggers the loading of all of the packages for
the window. All of the loading time is now just for the packages that
window requires since core Nylas is there thanks to the hot window
mechanism.
Unfortunately loading all of the packages for the composer was still
unnaceptably slow. The major issue was that all of the composer plugins
were taking a long time to process and initialize. The solution was to
have the main composer load first, then trigger another window load
settings change to change the `windowType` that loads in all of the
plugins.
Another major bottleneck was the `RetinaImg` name lookup on disk. This
requires traversing the entire static folder synchronously on boot. This
is now done once when the main window loads and saved in a cache in the
browser process. Any secondary windows simply ask the backend for this
cache and save the filesystem access time.
The Paper Doc below is the current set of manual tests I'm doing to make
sure no window interactions (there are a lot of them!) regressed.
Test Plan: https://paper.dropbox.com/doc/Window-Refactor-UYsgvjgdXgVlTw8nXTr9h
Reviewers: juan, bengotow
Reviewed By: bengotow
Differential Revision: https://phab.nylas.com/D2916
Summary:
This diff implements a behavior change described in https://github.com/nylas/N1/issues/1722.
Reply buttons should prefer to focus an existing draft in reply to the same message, if one is pristine, altering it as necessary to switch between reply / reply-all. If no pristine reply is already there, it creates one.
Reply keyboard shortcuts should do the same, but more strictly - the shortcuts should switch between reply / reply-all for an existing draft regardless of whether it's pristine.
This diff also cleans up the DraftStore and moves all the draft creation itself to a new DraftFactory object. This makes it much easier to see what's going on in the DraftStore, and I also refactored away the "newMessageWithContext" method, which was breaking the logic for Reply vs Forward between a bunch of different helper methods and was hard to follow.
Test Plan: They're all wrecked. Will fix after concept is greenlighted
Reviewers: evan, juan
Reviewed By: juan
Differential Revision: https://phab.nylas.com/D2776
