Various page objects had breadcrumbs and breadcrumbFor within them, this
moves those to the existing Layout page object that contains shared page objects.
Instead of creating recommendations for all the jobs used
across these tests, this creates a specific job with
a higher group count, which reduces the likelihood
of having no recommendations to 0.0001%.
It was incorrect to assume that each task group would always
have recommendations, since there’s a 1% chance that a task
won’t have a recommendation. (10% chance for CPU and memory.)
This uses the number of groups with recommendations instead.
This closes#9495. As detailed in there, the collection query GET
/v1/volumes?type=csi doesn’t return ReadAllocs and WriteAllocs, so the #
Allocs cell was always showing 0 upon first load because it was derived
from the lengths of those arrays. This uses the heretofore-ignored
CurrentReaders and CurrentWriters values to calculate the total instead.
The single-resource query GET /v1/volume/csi%2F:id doesn’t return
CurrentReaders and CurrentWriters that absence doesn’t override the
stored values when visiting an individual item.
Thanks to @apollo13 for reporting this and to @tgross for the API logs
and suggestion.
This adds:
* a script for building and deploying the Ember UI and Storybook to
Vercel
* configuration for that deployment
* a header link to the UI to link to Storybook when built with
STORYBOOK_LINK=true
It also removes a file used to configure Netlify redirects.
The Netlify setup had two “sites”: nomad-storybook and nomad-ui. I
attempted to replicate that here but ran into some platform limitations
with Vercel: two “projects” cannot share the same root directory without
also sharing the same vercel.json that lets us specify configuration
such as the rewrite needed to handle deep linking into the Ember UI. I
tried having Storybook use /ui/storybook as the root directory (and
adding a symbolically-linked package.json to bypass Vercel’s refusal
to build without it) but that produced broken Storybook deployments.
This instead combines the two projects into one
(nomad-storybook-and-ui), defaults to forwarding / to /ui/, and
adds the header link to the UI to navigate to Storybook.
Rather than have a complex build script in the Vercel configuration UI,
this delegates to a script in the repository.
This builds on filtering to allow the optimize page to show recommendations
for the active namespace vs all namespaces. If turning off the toggle causes
the summary from the active card to become excluded from the filtered list,
the active summary changes, as with the facets.
It also includes a fix for this bug:
https://github.com/hashicorp/nomad/pull/9294#pullrequestreview-527748994
The API is missing values for `ReadAllocs` and `WriteAllocs` fields, resulting
in allocation claims not being populated in the web UI. These fields mirror
the fields in `nomad/structs.CSIVolume`. Returning a separate list of stubs
for read and write would be ideal, but this can't be done without either
bloating the API response with repeated full `Allocation` data, or causing a
panic in previous versions of the CLI.
The `nomad/structs` fields are persisted with nil values and are populated
during RPC, so we'll do the same in the HTTP API and populate the `ReadAllocs`
and `WriteAllocs` fields with a map of allocation IDs, but with null
values. The web UI will then create its `ReadAllocations` and
`WriteAllocations` fields by mapping from those IDs to the values in
`Allocations`, instead of flattening the map into a list.
Plugin health for controllers should show "Node Only" in the UI only when both
conditions are true: controllers are not required, and no controllers have
registered themselves (0 expected controllers). This accounts for "monolith"
plugins which might register as both controllers and nodes but not necessarily
have `ControllerRequired = true` because they don't implement the Controller
RPC endpoints we need (this requirement was added in #7844)
This changeset includes the following fixes:
* Update the Plugins tab of the UI so that monolith plugins don't show "Node
Only" once they've registered.
* Add the missing "Node Only" logic to the Volumes tab of the UI.
This is mostly copied from the jobs list. One uncertainty
is what to do when changing a facet causes the currently-
active card to be excluded from the filtered list 🤔
Without this, visiting any job detail page on Nomad OSS would crash with
an error like this:
Error: Ember Data Request GET
/v1/recommendations?job=ping%F0%9F%A5%B3&namespace=default returned a
404 Payload (text/xml)
The problem was twofold.
1. The recommendation ability didn’t include anything about checking
whether the feature was present. This adds a request to
/v1/operator/license on application load to determine which features are
present and store them in the system service. The ability now looks for
'Dynamic Application Sizing' in that feature list.
2. Second, I didn’t check permissions at all in the job-fetching or job
detail templates.
This continues iteration on the DAS UI by adding the ability to directly
navigate to a recommendation summary by (namespaced) slug and a copy
button for the direct navigation link.
It includes a change to CopyButton allowing it to take a block that’s
rendered within the button.
It also changes some instances of multi-relationship traversal to use
in-summary attributes, such as summary.jobNamespace instead of
summary.job.namespace.name.
This returns an array of all icons. As the comment suggests, it's
because the SVGs file can't be imported in stories since it is generated
as part of the Ember project.
Before, we'd show a helpful error message when a task isn't running
instead of erroring in a generic way. Turns out when an alloc is
terminal but reachable, the filesystem is left behind so we were hiding
it.
Now it is always shown and in the event that something errors, it'll
either be generic, or--more commonly--a 404 of the allocation.
Now all data loading happens in the TopoViz component as well as
computation of resource proportions.
Allocation selection state is also managed centrally uses a dedicated
structure indexed by group key (job id and task group name). This way
allocations don't need to be scanned at the node level, which is O(n) at
the best (assuming no ember overhead on recomputes).
- Plot all datacenters
- For each datacenter, plot all nodes
- For each node, plot all allocations by memory and cpu
- For empty nodes, highlight the emptiness
- When hovering over allocations, give them visual focus
The job factory will now accept an array of resourceSpecs that is a shorthand
notation for memory, cpu, disk, and iops requirements.
These specs get passed down to task groups. The task group factory will
split the resource requirements near evenly (there is variance
threshold) across all expected tasks.
Allocations then construct task-resource objects based on the resources
from the matching task.
My suggestion is that this table isn’t sufficiently useful to
keep around with the combinatoric explosion of other lifecycle
phases. The logic was that someone might wonder “why isn’t my
main task starting?” and this table would show that the prestart
tasks hadn’t yet completed. One might wonder the same about
any task that has prerequisites, so should a poststart task have
a table that shows main tasks? And so on.
Since the route hierarchy guarantees that one has already passed
through a template that shows the lifecycle chart before one
can reach the template where this table is displayed, I believe
this table is redundant. It also conveys information in a more
abstract way than the chart, which is dense and more easily
understood, to me.
This continues #8455 by adding accessibility audits to component integration
tests and fixing associated errors. It adds audits to existing tests rather than
adding separate ones to facilitate auditing the various permutations a
component’s rendering can go through.
It also adds linting to ensure audits happen in component tests. This
necessitated consolidating test files that were scattered.
This extracts some common API-idiosyncracy-handling patterns from model serialisers into properties that are processed by the application serialiser:
* arrayNullOverrides converts a null property value to an empty array
* mapToArray converts a map to an array of maps, using the original map keys as Name properties on the array maps
* separateNanos splits nanosecond-containing timestamps into millisecond timestamps and separate nanosecond properties