Hi all,
On Wed, 2020-11-04 at 12:42 -0700, Jakub Kicinski wrote:
On Wed, 04 Nov 2020 18:36:08 +0100 Paolo Abeni wrote:
On Tue, 2020-11-03 at 08:52 -0800, Jakub Kicinski wrote:
On Tue, 03 Nov 2020 16:22:07 +0100 Paolo Abeni wrote:
The relevant use case is an host running containers (with the related orchestration tools) in a RT environment. Virtual devices (veths, ovs ports, etc.) are created by the orchestration tools at run-time. Critical processes are allowed to send packets/generate outgoing network traffic - but any interrupt is moved away from the related cores, so that usual incoming network traffic processing does not happen there.
Still an xmit operation on a virtual devices may be transmitted via ovs or veth, with the relevant forwarding operation happening in a softirq on the same CPU originating the packet.
RPS is configured (even) on such virtual devices to move away the forwarding from the relevant CPUs.
As Saeed noted, such configuration could be possibly performed via some user-space daemon monitoring network devices and network namespaces creation. That will be anyway prone to some race: the orchestation tool may create and enable the netns and virtual devices before the daemon has properly set the RPS mask.
In the latter scenario some packet forwarding could still slip in the relevant CPU, causing measurable latency. In all non RT scenarios the above will be likely irrelevant, but in the RT context that is not acceptable - e.g. it causes in real environments latency above the defined limits, while the proposed patches avoid the issue.
Do you see any other simple way to avoid the above race?
Please let me know if the above answers your doubts,
Thanks, that makes it clearer now.
Depending on how RT-aware your container management is it may or may not be the right place to configure this, as it creates the veth interface. Presumably it's the container management which does the placement of the tasks to cores, why is it not setting other attributes, like RPS?
The container orchestration is quite complex, and I'm unsure isolation and networking configuration are performed (or can be performed) by the same precess (without an heavy refactor).
On the flip hand, the global rps mask knob looked quite straightforward to me.
I understand, but I can't shake the feeling this is a hack.
Whatever sets the CPU isolation should take care of the RPS settings.
Let me try for a moment to revive this old thread.
Tha series proposed a new sysctl know to implement a global/default rps mask applying to all the network devices as a way to simplify some RT setups. It has been rejected as the required task is doable in user- space.
Currently the orchestration infrastructure does that, setting the per device, per queue rps mask and CPU isolation.
The above leads to a side problem: when there are lot of netns/devices with several queues, even a reasonably optimized user-space solution takes a relevant amount of time to traverse the relevant sysfs dirs and do I/O on them. Overall the additional time required is very measurable, easily ranging in seconds.
The default_rps_mask would basically kill that overhead.
Is the above a suitable use case?
Thanks,
Paolo