Log a warning instead and continue with the update. This is useful in cases where
the number of nodes is changing due to autoscaling or updgrades. It is possible
that the nodes picked by service controller don't all exist when gce layer lists
them. Update should still succeed with the nodes in the input that are valid.
This will still return an error if 0 nodes were found, when a non-zero input was passed in.
same
- Due to performance issues, service controller updates are slow
in large clusters, causing failing tests. Tag can be removed once
performance issues are resolved
Currently, some of the E2E test images have Windows support, and one of the goals is for most of
them to have Windows support. For that, the Image Builder is currently building those Windows
container images using a few Windows Server nodes (for 1809, 1903, 1909) with Remote Docker
enabled which are hosted on an azure subscription dedicated for CNCF.
With this, the Windows nodes dependency is removed entirely, as the images can be also built with
docker buildx. One additional benefit to this is that adding new supported Windows OS versions
to the E2E test images manifest lists becomes a lot easier (we wouldn't have to create a new Windows
Server node that matches that new OS version, assign DNS name, update certificates, etc.), and it
also becomes easier for other people to build their own E2E windows test images.
However, some dependencies are still required to run on a Windows machine. To solve this, we can
just pull helper images: e2eteam/powershell-helper:6.2.7 and e2eteam/busybox-helper:1.29.0. Their
Dockerfiles and a Makefile for them has been included in this commit. If any change is required to
them, then a new image will be built and tagged under a different version, but they are pretty
straight-forward and shouldn't require changes.
However, there is a small concern when it comes to the build time: Windows servercore images are
very large (for example, mcr.microsoft.com/windows/servercore:ltsc2019 is 4.99GB uncompressed, and
about ~2 GB compressed - those images are already cached on the Windows Server builder nodes, so
this isn't an issue there), and we currently support 1809, 1903, and 1909 (soon to add 2004).
This can lead to build times that are too big.
We have changed the base image to nanoserver (uncompressed size: 250MB), but some images still
require some DLLs or some other dependencies that can be fetched from a servercore image.
A separate job has been defined that would build a scratch windows-servercore-cache image monthly,
and then we can just get those dependencies from this cache, which will be very small.
This would be preferred, as the Windows images update periodically, and those dependencies
could be updated as well.