aws-ebs-csi-driver
azuredisk-csi-driver
aws-ebs-csi-driver | azuredisk-csi-driver | |
---|---|---|
13 | 2 | |
928 | 133 | |
2.6% | 1.5% | |
9.4 | 0.0 | |
5 days ago | 6 days ago | |
Go | Go | |
Apache License 2.0 | Apache License 2.0 |
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aws-ebs-csi-driver
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AWS EBS CSI driver
The AWS EBS CSI Driver relies on IAM permissions to communicate with Amazon EBS for volume management on behalf of the user. The example policy can be used to define the required permissions. Additionally, AWS provides a managed policy at ARN arn:aws:iam::aws:policy/service-role/AmazonEBSCSIDriverPolicy
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PV/PVC Not working after k8s upgrade to 1.25
I looks like the driver's permissions to invoke the EBS APIs was revoked and/or changed. When you install the EBS CSI addon you can either inherit permissions from the worker node or you can choose an IRSA role (preferred). If you use IRSA, the service account that the EBS CSI driver uses should have an annotation that references the ARN of the IAM role you selected, e.g. eks.amazonaws.com/role-arn: arn:aws:iam::111122223333:role/my-role. You can see an example of the IAM policy the driver needs here, https://github.com/kubernetes-sigs/aws-ebs-csi-driver/blob/fb6d456558fb291b13f855454c1525c7acaf7046/docs/example-iam-policy.json.
- Confused about kubernetes storage
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Unable to Access AWS EKS Cluter after creating using Terraform
I'm know it's possible to write terraform code that exhibits that issue, but that's not the case in my experience. I'm using helm to deploy aws's ebs csi driver in the above setup. As you mentioned, if the eks cluster was destroyed before the helm provider attempted to use its API to destroy the helm deployment, it would cause problems. And I don't run into that issue. It's not luck of timing, either - I also have a CI process that deploys all of this, tests, and deletes it all that has succeeded hundreds of times.
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Introduction to Day 2 Kubernetes
Any Kubernetes cluster requires persistent storage - whether organizations choose to begin with an on-premise Kubernetes cluster and migrate to the public cloud, or provision a Kubernetes cluster using a managed service in the cloud. Kubernetes supports multiple types of persistent storage – from object storage (such as Azure Blob storage or Google Cloud Storage), block storage (such as Amazon EBS, Azure Disk, or Google Persistent Disk), or file sharing storage (such as Amazon EFS, Azure Files or Google Cloud Filestore). The fact that each cloud provider has its implementation of persistent storage adds to the complexity of storage management, not to mention a scenario where an organization is provisioning Kubernetes clusters over several cloud providers. To succeed in managing Kubernetes clusters over a long period, knowing which storage type to use for each scenario, requires storage expertise.
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Dealing with EC2 Instance volume limits in EKS
Lots of info in this issue: https://github.com/kubernetes-sigs/aws-ebs-csi-driver/issues/1163
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Help me understand real use cases of k8s, I can’t wrap my head around it
aws-ebs-csi-driver
- How is a PersistentVolumeClaim consistent?
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EKS PVC <-> EBS volume associations after cluster recreation
Hello, we are running an EKS cluster (1.20) with aws-ebs-csi-driver (1.4.0). After recreating our whole cluster we can observe that the EBS volumes from our PVCs still exist but the "mapping" to the PVCs is gone.
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A PVC Operator which Uploads Data to S3 on Delete and Downloads on Create
OP could probably just layer their own CSI driver on top of an existing one (a la aws-ebs-csi-driver), but there's still several problems:
azuredisk-csi-driver
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Introduction to Day 2 Kubernetes
Any Kubernetes cluster requires persistent storage - whether organizations choose to begin with an on-premise Kubernetes cluster and migrate to the public cloud, or provision a Kubernetes cluster using a managed service in the cloud. Kubernetes supports multiple types of persistent storage – from object storage (such as Azure Blob storage or Google Cloud Storage), block storage (such as Amazon EBS, Azure Disk, or Google Persistent Disk), or file sharing storage (such as Amazon EFS, Azure Files or Google Cloud Filestore). The fact that each cloud provider has its implementation of persistent storage adds to the complexity of storage management, not to mention a scenario where an organization is provisioning Kubernetes clusters over several cloud providers. To succeed in managing Kubernetes clusters over a long period, knowing which storage type to use for each scenario, requires storage expertise.
- Azure Kubernetes Service — Next level persistent storage with Azure Disk CSI driver
What are some alternatives?
autoscaler - Autoscaling components for Kubernetes
azurefile-csi-driver - Azure File CSI Driver
ceph-csi - CSI driver for Ceph
csi-s3 - A Container Storage Interface for S3
aws-efs-csi-driver - CSI Driver for Amazon EFS https://aws.amazon.com/efs/
aws-efs-csi-driver - CSI Driver for Amazon EFS https://aws.amazon.com/efs/ [Moved to: https://github.com/kubernetes-sigs/aws-efs-csi-driver]
aws-load-balancer-controller - A Kubernetes controller for Elastic Load Balancers
gcp-compute-persistent-disk-csi-driver - The Google Compute Engine Persistent Disk (GCE PD) Container Storage Interface (CSI) Storage Plugin.
topolvm - Capacity-aware CSI plugin for Kubernetes
gcp-filestore-csi-driver - The Google Cloud Filestore Container Storage Interface (CSI) Plugin.
descheduler - Descheduler for Kubernetes
csi-gcs - Kubernetes CSI driver for Google Cloud Storage