This is a cache of https://docs.okd.io/4.10/scalability_and_performance/routing-optimization.html. It is a snapshot of the page at 2024-11-21T22:19:16.919+0000.
Optimizing routing | Scalability and performance | OKD 4.10
×

The OKD HAProxy router can be scaled or configured to optimize performance.

Baseline ingress Controller (router) performance

The OKD ingress Controller, or router, is the ingress point for ingress traffic for applications and services that are configured using routes and ingresses.

When evaluating a single HAProxy router performance in terms of HTTP requests handled per second, the performance varies depending on many factors. In particular:

  • HTTP keep-alive/close mode

  • Route type

  • TLS session resumption client support

  • Number of concurrent connections per target route

  • Number of target routes

  • Back end server page size

  • Underlying infrastructure (network/SDN solution, CPU, and so on)

While performance in your specific environment will vary, Red Hat lab tests on a public cloud instance of size 4 vCPU/16GB RAM. A single HAProxy router handling 100 routes terminated by backends serving 1kB static pages is able to handle the following number of transactions per second.

In HTTP keep-alive mode scenarios:

Encryption LoadBalancerService HostNetwork

none

21515

29622

edge

16743

22913

passthrough

36786

53295

re-encrypt

21583

25198

In HTTP close (no keep-alive) scenarios:

Encryption LoadBalancerService HostNetwork

none

5719

8273

edge

2729

4069

passthrough

4121

5344

re-encrypt

2320

2941

The default ingress Controller configuration was used with the spec.tuningOptions.threadCount field set to 4. Two different endpoint publishing strategies were tested: Load Balancer Service and Host Network. TLS session resumption was used for encrypted routes. With HTTP keep-alive, a single HAProxy router is capable of saturating a 1 Gbit NIC at page sizes as small as 8 kB.

When running on bare metal with modern processors, you can expect roughly twice the performance of the public cloud instance above. This overhead is introduced by the virtualization layer in place on public clouds and holds mostly true for private cloud-based virtualization as well. The following table is a guide to how many applications to use behind the router:

Number of applications Application type

5-10

static file/web server or caching proxy

100-1000

applications generating dynamic content

In general, HAProxy can support routes for up to 1000 applications, depending on the technology in use. ingress Controller performance might be limited by the capabilities and performance of the applications behind it, such as language or static versus dynamic content.

ingress, or router, sharding should be used to serve more routes towards applications and help horizontally scale the routing tier.

For more information on tuningOptions, see ingress Controller configuration parameters.

You can modify the ingress Controller deployment using the information provided in Setting ingress Controller thread count for threads and ingress Controller configuration parameters for timeouts, and other tuning configurations in the ingress Controller specification.