Re: [EXTERNAL] Re: [PATCH V2 net-next] net: mana: Assigning IRQ affinity on HT cores

From: Yury Norov
Date: Wed Nov 29 2023 - 21:18:38 EST


On Mon, Nov 27, 2023 at 09:36:38AM +0000, Souradeep Chakrabarti wrote:
>
>
> >-----Original Message-----
> >From: Jakub Kicinski <kuba@xxxxxxxxxx>
> >Sent: Wednesday, November 22, 2023 5:19 AM
> >To: Souradeep Chakrabarti <schakrabarti@xxxxxxxxxxxxxxxxxxx>
> >Cc: KY Srinivasan <kys@xxxxxxxxxxxxx>; Haiyang Zhang
> ><haiyangz@xxxxxxxxxxxxx>; wei.liu@xxxxxxxxxx; Dexuan Cui
> ><decui@xxxxxxxxxxxxx>; davem@xxxxxxxxxxxxx; edumazet@xxxxxxxxxx;
> >pabeni@xxxxxxxxxx; Long Li <longli@xxxxxxxxxxxxx>;
> >sharmaajay@xxxxxxxxxxxxx; leon@xxxxxxxxxx; cai.huoqing@xxxxxxxxx;
> >ssengar@xxxxxxxxxxxxxxxxxxx; vkuznets@xxxxxxxxxx; tglx@xxxxxxxxxxxxx; linux-
> >hyperv@xxxxxxxxxxxxxxx; netdev@xxxxxxxxxxxxxxx; linux-kernel@xxxxxxxxxxxxxxx;
> >linux-rdma@xxxxxxxxxxxxxxx; Souradeep Chakrabarti
> ><schakrabarti@xxxxxxxxxxxxx>; Paul Rosswurm <paulros@xxxxxxxxxxxxx>
> >Subject: [EXTERNAL] Re: [PATCH V2 net-next] net: mana: Assigning IRQ affinity on
> >HT cores
> >
> >On Tue, 21 Nov 2023 05:54:37 -0800 Souradeep Chakrabarti wrote:
> >> Existing MANA design assigns IRQ to every CPUs, including sibling
> >> hyper-threads in a core. This causes multiple IRQs to work on same CPU
> >> and may reduce the network performance with RSS.
> >>
> >> Improve the performance by adhering the configuration for RSS, which
> >> assigns IRQ on HT cores.
> >
> >Drivers should not have to carry 120 LoC for something as basic as spreading IRQs.
> >Please take a look at include/linux/topology.h and if there's nothing that fits your
> >needs there - add it. That way other drivers can reuse it.
> Because of the current design idea, it is easier to keep things inside
> the mana driver code here. As the idea of IRQ distribution here is :
> 1)Loop through interrupts to assign CPU
> 2)Find non sibling online CPU from local NUMA and assign the IRQs
> on them.
> 3)If number of IRQs is more than number of non-sibling CPU in that
> NUMA node, then assign on sibling CPU of that node.
> 4)Keep doing it till all the online CPUs are used or no more IRQs.
> 5)If all CPUs in that node are used, goto next NUMA node with CPU.
> Keep doing 2 and 3.
> 6) If all CPUs in all NUMA nodes are used, but still there are IRQs
> then wrap over from first local NUMA node and continue
> doing 2, 3 4 till all IRQs are assigned.

Hi Souradeep,

(Thanks Jakub for sharing this thread with me)

If I understand your intention right, you can leverage the existing
cpumask_local_spread().

But I think I've got something better for you. The below series adds
a for_each_numa_cpu() iterator, which may help you doing most of the
job without messing with nodes internals.

https://lore.kernel.org/netdev/ZD3l6FBnUh9vTIGc@yury-ThinkPad/T/

By using it, the pseudocode implementing your algorithm may look
like this:

unsigned int cpu, hop;
unsigned int irq = 0;

again:
cpu = get_cpu();
node = cpu_to_node(cpu);
cpumask_copy(cpus, cpu_online_mask);

for_each_numa_cpu(cpu, hop, node, cpus) {
/* All siblings are the same for IRQ spreading purpose */
irq_set_affinity_and_hint(irq, topology_sibling_cpumask());

/* One IRQ per sibling group */
cpumask_andnot(cpus, cpus, topology_sibling_cpumask());

if (++irq == num_irqs)
break;
}

if (irq < num_irqs)
goto again;

(Completely not tested, just an idea.)

Thanks,
Yury