While working on the CA system it is important to be able to run all the
tests related to the system, without having to wait for unrelated tests.
There are many slow and unrelated tests in agent/consul, so we need some
way to filter to only the relevant tests.
This PR renames all the CA system related tests to start with either
`TestCAMananger` for tests of internal operations that don't have RPC
endpoint, or `TestConnectCA` for tests of RPC endpoints. This allows us
to run all the test with:
go test -run 'TestCAMananger|TestConnectCA' ./agent/consul
The test naming follows an undocumented convention of naming tests as
follows:
Test[<struct name>_]<function name>[_<test case description>]
I tried to always keep Primary/Secondary at the end of the description,
and _Vault_ has to be in the middle because of our regex to run those
tests as a separate CI job.
You may notice some of the test names changed quite a bit. I did my best
to identify the underlying method being tested, but I may have been
slightly off in some cases.
As a method on the struct type this would not be safe to call without first checking
c.isIntermediateUsedToSignLeaf.
So for now, move this logic to the CAMananger, so that it is always correct.
We were not adding the local signing cert to the CARoot. This commit
fixes that bug, and also adds support for fixing existing CARoot on
upgrade.
Also update the tests for both primary and secondary to be more strict.
Check the SigningKeyID is correct after initialization and rotation.
This commit uses all our new ways of doing things to Lock Sessions and their interactions with KV and Nodes. This is mostly around are new under-the-hood things, but also I took the opportunity to upgrade some of the CSS to reuse some of our CSS utils that have been made over the past few months (%csv-list and %horizontal-kv-list).
Also added (and worked on existing) documentation for Lock Session related components.
This sounds a bit 'backwards' as the end goal here is to add an improved UX to partitions, not namespaces. The reason for doing it this way is that Namespaces already has a type of 'improved UX' CRUD in that it has one to many relationship in the form when saving your namespaces (the end goal for partitions). In moving Namespaces to use the same approach as partitions we:
- Ensure the new approach works with one-to-many forms.
- Test the new approach without writing a single test (we already have a bunch of tests for namespaces which are now testing the approach used by both namespaces and partitions)
Additionally:
- Fixes issue with missing default nspace in the nspace selector
- In doing when checking to see that things where consistent between the two, I found a few little minor problems with the Admin Partition CRUD so fixed those up here also.
- Removed the old style Nspace notifications
Validation was added on the config entry kind since that is called when
validating config entries to bootstrap via agent configuration and when
applying entries via the config RPC endpoint.
Previously we believe it was necessary for all code that required ports
to use freeport to prevent conflicts.
https://github.com/dnephin/freeport-test shows that it is actually save
to use port 0 (`127.0.0.1:0`) as long as it is passed directly to
`net.Listen`, and the listener holds the port for as long as it is
needed.
This works because freeport explicitly avoids the ephemeral port range,
and port 0 always uses that range. As you can see from the test output
of https://github.com/dnephin/freeport-test, the two systems never use
overlapping ports.
This commit converts all uses of freeport that were being passed
directly to a net.Listen to use port 0 instead. This allows us to remove
a bit of wrapping we had around httptest, in a couple places.
In d2ab767fef21244e9fe3b9887ea70fc177912381 raftApply was changed to handle this check in
a single place, instad of having every caller check it. It looks like these few places
were missed when I did that clean up.
This commit removes the remaining resp.(error) checks, since they are all no-ops now.
This function is only ever called from operations that have already acquired the state lock, so checking
the value of state can never fail.
This change is being made in preparation for splitting out a separate type for the secondary logic. The
state can't easily be shared, so really only the expored top-level functions should acquire the 'state lock'.