constellation/docs/versioned_docs/version-2.10/overview/performance/io.md
2023-08-28 10:01:15 +02:00

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I/O performance benchmarks

To assess the overall performance of Constellation, this benchmark evaluates Constellation v2.6.0 in terms of storage I/O using fio and network performance using the Kubernetes Network Benchmark.

This benchmark tested Constellation on Azure and GCP and compared the results against the managed Kubernetes offerings AKS and GKE.

Configurations

Constellation

The benchmark was conducted with Constellation v2.6.0, Kubernetes v1.25.7, and Cilium v1.12. It ran on the following infrastructure configurations.

Constellation on Azure:

  • Nodes: 3 (1 Control-plane, 2 Worker)
  • Machines: DC4as_v5: 3rd Generation AMD EPYC 7763v (Milan) processor with 4 Cores, 16 GiB memory
  • CVM: true
  • Region: West US
  • Zone: 2

Constellation on GCP:

  • Nodes: 3 (1 Control-plane, 2 Worker)
  • Machines: n2d-standard-4: 2nd Generation AMD EPYC (Rome) processor with 4 Cores, 16 GiB of memory
  • CVM: true
  • Zone: europe-west3-b

AKS

On AKS, the benchmark used Kubernetes v1.24.9 and nodes with version AKSUbuntu-1804gen2containerd-2023.02.15. AKS ran with the kubenet CNI and the default CSI driver for Azure Disk.

The following infrastructure configurations was used:

  • Nodes: 2 (2 Worker)
  • Machines: D4as_v5: 3rd Generation AMD EPYC 7763v (Milan) processor with 4 Cores, 16 GiB memory
  • CVM: false
  • Region: West US
  • Zone: 2

GKE

On GKE, the benchmark used Kubernetes v1.24.9 and nodes with version 1.24.9-gke.3200. GKE ran with the kubenet CNI and the default CSI driver for Compute Engine persistent disk.

The following infrastructure configurations was used:

  • Nodes: 2 (2 Worker)
  • Machines: n2d-standard-4 2nd Generation AMD EPYC (Rome) processor with 4 Cores, 16 GiB of memory
  • CVM: false
  • Zone: europe-west3-b

Results

Network

This section gives a thorough analysis of the network performance of Constellation, specifically focusing on measuring TCP and UDP bandwidth. The benchmark measured the bandwidth of pod-to-pod and pod-to-service connections between two different nodes using iperf.

GKE and Constellation on GCP had a maximum network bandwidth of 10 Gbps. AKS with Standard_D4as_v5 machines a maximum network bandwidth of 12.5 Gbps. The Confidential VM equivalent Standard_DC4as_v5 currently has a network bandwidth of 1.25 Gbps. Therefore, to make the test comparable, both AKS and Constellation on Azure were running with Standard_DC4as_v5 machines and 1.25 Gbps bandwidth.

Constellation on Azure and AKS used an MTU of 1500. Constellation on GCP used an MTU of 8896. GKE used an MTU of 1450.

The difference in network bandwidth can largely be attributed to two factors.

Pod-to-Pod

In this scenario, the client Pod connects directly to the server pod via its IP address.

flowchart LR
    subgraph Node A
    Client[Client]
    end
    subgraph Node B
    Server[Server]
    end
    Client ==>|traffic| Server

The results for "Pod-to-Pod" on Azure are as follows:

Network Pod2Pod Azure benchmark graph

The results for "Pod-to-Pod" on GCP are as follows:

Network Pod2Pod GCP benchmark graph

Pod-to-Service

In this scenario, the client Pod connects to the server Pod via a ClusterIP service. This is more relevant to real-world use cases.

flowchart LR
    subgraph Node A
    Client[Client] ==>|traffic| Service[Service]
    end
    subgraph Node B
    Server[Server]
    end
    Service ==>|traffic| Server

The results for "Pod-to-Pod" on Azure are as follows:

Network Pod2SVC Azure benchmark graph

The results for "Pod-to-Pod" on GCP are as follows:

Network Pod2SVC GCP benchmark graph

In our recent comparison of Constellation on GCP with GKE, Constellation has 58% less TCP bandwidth. However, UDP bandwidth was slightly better with Constellation, thanks to its higher MTU.

Similarly, when comparing Constellation on Azure with AKS using CVMs, Constellation achieved approximately 10% less TCP and 40% less UDP bandwidth.

Storage I/O

Azure and GCP offer persistent storage for their Kubernetes services AKS and GKE via the Container Storage Interface (CSI). CSI storage in Kubernetes is available via PersistentVolumes (PV) and consumed via PersistentVolumeClaims (PVC). Upon requesting persistent storage through a PVC, GKE and AKS will provision a PV as defined by a default storage class. Constellation provides persistent storage on Azure and GCP that's encrypted on the CSI layer. Similarly, upon a PVC request, Constellation will provision a PV via a default storage class.

For Constellation on Azure and AKS, the benchmark ran with Azure Disk storage Standard SSD of 400 GiB size. The DC4as machine type with four cores provides the following maximum performance:

  • 6400 (20000 burst) IOPS
  • 144 MB/s (600 MB/s burst) throughput

However, the performance is bound by the capabilities of the 512 GiB Standard SSD size (the size class of 400 GiB volumes):

  • 500 (600 burst) IOPS
  • 60 MB/s (150 MB/s burst) throughput

For Constellation on GCP and GKE, the benchmark ran with Compute Engine Persistent Disk Storage pd-balanced of 400 GiB size. The N2D machine type with four cores and pd-balanced provides the following maximum performance:

  • 3,000 read IOPS
  • 15,000 write IOPS
  • 240 MB/s read throughput
  • 240 MB/s write throughput

However, the performance is bound by the capabilities of a Zonal balanced PD with 400 GiB size:

  • 2400 read IOPS
  • 2400 write IOPS
  • 112 MB/s read throughput
  • 112 MB/s write throughput

The fio benchmark consists of several tests. The benchmark used Kubestr to run fio in Kubernetes. The default test performs randomized access patterns that accurately depict worst-case I/O scenarios for most applications.

The following fio settings were used:

  • No Cloud caching
  • No OS caching
  • Single CPU
  • 60 seconds runtime
  • 10 seconds ramp-up time
  • 10 GiB file
  • IOPS: 4 KB blocks and 128 iodepth
  • Bandwidth: 1024 KB blocks and 128 iodepth

For more details, see the fio test configuration.

The results for IOPS on Azure are as follows:

I/O IOPS Azure benchmark graph

The results for IOPS on GCP are as follows:

I/O IOPS GCP benchmark graph

The results for bandwidth on Azure are as follows:

I/O bandwidth Azure benchmark graph

The results for bandwidth on GCP are as follows:

I/O bandwidth GCP benchmark graph

On GCP, the results exceed the maximum performance guarantees of the chosen disk type. There are two possible explanations for this. The first is that there may be cloud caching in place that isn't configurable. Alternatively, the underlying provisioned disk size may be larger than what was requested, resulting in higher performance boundaries.

When comparing Constellation on GCP with GKE, Constellation has similar bandwidth but about 10% less IOPS performance. On Azure, Constellation has similar IOPS performance compared to AKS, where both likely hit the maximum storage performance. However, Constellation has approximately 15% less read and write bandwidth.

Conclusion

Despite the added security benefits that Constellation provides, it only incurs a slight performance overhead when compared to managed Kubernetes offerings such as AKS and GKE. In most compute benchmarks, Constellation is on par with it's alternatives. While it may be slightly slower in certain I/O scenarios due to network and storage encryption, there is ongoing work to reduce this overhead to single digits.

For instance, storage encryption only adds between 10% to 15% overhead in terms of bandwidth and IOPS. Meanwhile, the biggest performance impact that Constellation currently faces is network encryption, which can incur up to 58% overhead on a 10 Gbps network. However, the Cilium team has conducted benchmarks with Cilium using WireGuard encryption on a 100 Gbps network that yielded over 15 Gbps. We're confident that Constellation will provide a similar level of performance with an upcoming release.

Overall, Constellation strikes a great balance between security and performance, and we're continuously working to improve its performance capabilities while maintaining its high level of security.