76 lines
3.4 KiB
Markdown
76 lines
3.4 KiB
Markdown
# containerd Namespaces and Multi-Tenancy
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containerd offers a fully namespaced API so multiple consumers can all use a single containerd instance without conflicting with one another.
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Namespaces allow multi-tenancy within a single daemon. This removes the need for the common pattern of using nested containers to achieve this separation.
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Consumers are able to have containers with the same names but with settings and/or configurations that vary drastically.
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For example, system or infrastructure level containers can be hidden in one namespace while user level containers are kept in another.
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Underlying image content is still shared via content addresses but image names and metadata are separate per namespace.
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It is important to note that namespaces, as implemented, is an administrative construct that is not meant to be used as a security feature.
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It is trivial for clients to switch namespaces.
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## Who specifies the namespace?
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The client specifies the namespace via the `context`.
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There is a `github.com/containerd/containerd/namespaces` package that allows a user to get and set the namespace on a context.
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```go
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// set a namespace
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ctx := namespaces.WithNamespace(context.Background(), "my-namespace")
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// get the namespace
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ns, ok := namespaces.Namespace(ctx)
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```
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Because the client calls containerd's gRPC API to interact with the daemon, all API calls require a context with a namespace set.
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## How low level is the implementation?
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Namespaces are passed through the containerd API to the underlying plugins providing functionality.
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Plugins must be written to take namespaces into account.
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Filesystem paths, IDs, and other system level resources must be namespaced for a plugin to work properly.
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## How does multi-tenancy work?
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Simply create a new `context` and set your application's namespace on the `context`.
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Make sure to use a unique namespace for applications that does not conflict with existing namespaces. The namespaces
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API, or the `ctr namespaces` client command, can be used to query/list and create new namespaces.
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```go
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ctx := context.Background()
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var (
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docker = namespaces.WithNamespace(ctx, "docker")
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vmware = namespaces.WithNamespace(ctx, "vmware")
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ecs = namespaces.WithNamespace(ctx, "aws-ecs")
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cri = namespaces.WithNamespace(ctx, "cri")
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)
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```
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## Namespace Labels
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Namespaces can have a list of labels associated with the namespace. This can be useful for associating metadata with a particular namespace.
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Labels can also be used to configure the defaults for containerd, for example:
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```bash
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> sudo ctr namespaces label k8s.io containerd.io/defaults/snapshotter=btrfs
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> sudo ctr namespaces label k8s.io containerd.io/defaults/runtime=testRuntime
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```
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This will set the default snapshotter as `btrfs` and runtime as `testRuntime`.
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Note that currently only these two labels are used to configure the defaults and labels of `default` namespace are not considered for the same.
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## Inspecting Namespaces
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If we need to inspect containers, images, or other resources in various namespaces the `ctr` tool allows you to do this.
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Simply set the `--namespace,-n` flag on `ctr` to change the namespace. If you do not provide a namespace, `ctr` client commands
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will all use the default namespace, which is simply named "`default`".
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```bash
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> sudo ctr -n docker tasks
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> sudo ctr -n cri tasks
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```
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You can also use the `CONTAINERD_NAMESPACE` environment variable to specify the default namespace to use for
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any of the `ctr` client commands.
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