Default distro is jessie, due to the support situation with Ubuntu
distros. Default ubuntu distro is wily.
Update the docs to reflect the recommended distros with kube-up, and to
encourage contributions for other distros.
m3.large for > 150 nodes.
t2.micro often runs out of memory. The t2 class has very
difficult-to-understand behaviour when it runs out of CPU. The
m3.medium is reasonably affordable, and avoids these problems.
Fix#21151
Issue #18975
If we don't use an elastic IP, the IP address will be lost if we lose
the master for any reason, and a replacement master will not have the
same IP. But the master IP is set both in client kubeconfig files and
the master SSL certificate. Hence the default should be to allocate an
elastic IP for the master.
One complication: AWS doesn't allow tags on elastic IPs, so it is hard
to track the elastic IP so we can delete it as part of kube-down.
Instead, we take the master EBS volume with the elastic IP. This is a
little odd, but works because the master volume & the master elastic IP
really need to be assigned to the same machine, so might be thought of
as a pair.
Also, we now delete the master EBS volume as part of kube-down, as
people expect kube-down to clean-up everything it creates.
For AWS EBS, a volume can only be attached to a node in the same AZ.
The scheduler must therefore detect if a volume is being attached to a
pod, and ensure that the pod is scheduled on a node in the same AZ as
the volume.
So that the scheduler need not query the cloud provider every time, and
to support decoupled operation (e.g. bare metal) we tag the volume with
our placement labels. This is done automatically by means of an
admission controller on AWS when a PersistentVolume is created backed by
an EBS volume.
Support for tagging GCE PVs will follow.
Pods that specify a volume directly (i.e. without using a
PersistentVolumeClaim) will not currently be scheduled correctly (i.e.
they will be scheduled without zone-awareness).
Addresses #15968
This patch removes KUBE_ENABLE_EXPERIMENTAL_API and similar calls in
favor of specifying desired features in KUBE_RUNTIME_CONFIG. Changes
have also been made to e2e scripts to re-enable using
KUBE_RUNTIME_CONFIG rather than EXPERIMENTAL_API env vars.
This also introduces KUBE_ENABLE_DAEMONSETS and KUBE_ENABLE_DEPLOYMENTS.
Signed-off-by: Christian Stewart <christian@paral.in>
When KUBE_E2E_STORAGE_TEST_ENVIRONMENT is set to 'true', kube-up.sh script
will:
- Install the right packages for all storage volumes.
- Use devicemapper as docker storage backend. 'aufs', the default one on
Debian, does not support extended attibutes required by Ceph RBD and Gluster
server containers.
Tested on GCE and Vagrant, e2e tests for storage volumes passes without any
additional configuration.
We need this for some tests; not all the options are fully plumbed in,
but should enable experimental/v1alpha1, as needed for jobs tests.
In particular, ENABLE_NODE_AUTOSCALER is not yet actually implemented.
The background for this change is in #9675.
In short, Vivid Vervet gives us a supported/updated image,
that runs Docker with a working storage engine, but doesn't
require a reboot as part of node start.
Fixes#9675.
Docker's v1 registry has gotten slower and slower, and they have no
interest in fixing it. Using a mirror forces v1 mode. Measurements
show that v1 with our mirror is slower than v2 with docker's registry in
just about all metrics.
For parity with GCE, we really want to support aufs.
But we previously supported btrfs, so we want to expose that.
Most of the work here is required for aufs, and we let advanced users choose
devicemapper/btrfs if they have a setup that works for those configurations.
derekwaynecarr