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Peer to peer distribution of container content in Kubernetes clusters.

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Peerd

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This project implements peer to peer distribution of content (such as content-addressable files or OCI container images) in a Kubernetes cluster. The source of the content could be another node in the same cluster, an OCI container registry (like Azure Container Registry) or a remote blob store (such as Azure Blob Storage).

cluster-ops

Important Disclaimer

Work in Progress: We are actively working on this project and would love to hear your feedback. Please feel free to open an issue or a pull request.

Usage

Peer Daemon is designed to be deployed as a daemonset on every node in a Kubernetes cluster and acts as a registry mirror.

  • It discovers other nodes in the cluster and establishes a peer-to-peer overlay network in the cluster using the Kademlia DHT protocol.

  • It discovers content such as OCI images in the node's containerd content store as well as streamable container files, such as used in Azure Artifact Streaming, and advertises them to its peers.

  • It can serve discovered/cached content to other nodes in the cluster, acting as a mirror for the content.

This is useful in the following scenarios:

  1. Increased Throughput: For downloading large images or deploying large clusters, the container/artifact registry can become a bottleneck. Peerd can be used to download images from other nodes in the cluster that have already downloaded it, increasing throughput.

  2. Improved Fault Tolerance: If the upstream registry is unavailable, Peerd can still serve images from other nodes in the cluster.

  3. Firewall configuration: Peerd can be used to download images from other nodes in the cluster. This can be useful in scenarios where outbound internet access is restricted on some nodes.

Features

  • Peer to Peer Streaming: Peerd allows a node to act as a mirror for files obtained from any HTTP upstream source (such as an Azure Blob using a SAS URL), and can discover and serve a specified byte range of the file to/from other nodes in the cluster. Peerd will first attempt to discover and serve this range from its peers. If not found, it will fallback to download the range from the upstream URL. Peerd caches downloaded ranges as well as optionally, can prefetch the entire file.

    With this facility, peerd can be used as the p2p proxy for Overlaybd.

    "p2pConfig": {
      "enable": true,
      "address": "localhost:30000/blobs"
    }

    Peerd is compatible with Azure Container Registry's Artifact Streaming feature, and can be used to improve performance further.

    Without Peerd With Peerd
    normal-streaming-summary peerd-streaming-summary
  • Peer to Peer Container Image Pulls: Pulling a container image to a node in Kubernetes is often a time consuming process, especially in scenarios where the registry becomes a bottleneck, such as deploying a large cluster or scaling out in response to bursty traffic. To increase throughput, nodes in the cluster which already have the image can be used as an alternate image source. Peerd subscribes to events in the containerd content store, and advertises local images to peers. When a node needs an image, it can query its peers for the image, and download it from them instead of the registry. Containerd has a mirror facility that can be used to configure Peerd as the mirror for container images.

    Without Peerd With Peerd
    normal-pull-summary peerd-pull-summary

The APIs are described in the swagger.yaml.

Quickstart

To see all available commands, run make help.

Deploy Peerd to Your Cluster Using Helm

If you have a k8s cluster that uses containerd as the runtime, you can use the provided helm chart to deploy Peerd pods on every node. With containerd, Peerd leverages the hosts configuration to act as a mirror for container images.

CLUSTER_CONTEXT=<your-cluster-context> && \
  helm --kube-context=$CLUSTER_CONTEXT install --wait peerd ./build/package/peerd-helm \
    --set peerd.image.ref=ghcr.io/azure/acr/dev/peerd:stable

By default, some well known registries are mirrored, but this is configurable using the values.yml file. Update the peerd.hosts field to include the registries you want to mirror.

On deployment, each Peerd instance will try to connect to its peers in the cluster.

  • When connected successfully, each pod will generate an event P2PConnected. This event is used to signal that the Peerd instance is ready to serve requests to its peers.

  • When an instance serves a request by downloading data from a peer, it will emit an event called P2PActive, signalling that it's actively communicating with a peer and serving data from it.

To see logs from the Peerd pods, run the following.

kubectl --context=$CLUSTER_CONTEXT -n peerd-ns logs -l app=peerd -f

Observe Metrics

Peerd exposes metrics on the /metrics/prometheus endpoint. Metrics are prefixed with peerd_. libp2p metrics are prefixed with libp2p_.

Example

On a 100 nodes AKS cluster of VM size Standard_D2s_v3, sample throughput observed by a single pod is shown below.

peer metrics

Build

See build.md.

Design and Architecture

See design.md.

Contributing

Please read our CONTRIBUTING.md which outlines all of our policies, procedures, and requirements for contributing to this project.

Acknowledgments

The Spegel project has inspired this work; thanks to Philip Laine and Simon Gottschlag at Xenit for generously sharing their insights with us. A hat tip also to the DADI P2P Proxy project for demonstrating the integration with Overlaybd.


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