On Fri, Jun 07, 2013 at 03:20:20PM +0100, Rob Herring wrote:
On 06/07/2013 05:23 AM, Lorenzo Pieralisi wrote:
Hi James,
On Thu, Jun 06, 2013 at 06:11:25PM +0100, James King wrote:
If CPUs are marked as disabled in the devicetree, make sure they do not exist in the system CPU information and CPU topology information. In this case these CPUs will not be able to be added to the system later using hot-plug. This allows a single chip with many CPUs to be easily used in a variety of hardware devices where they may have different actual processing requirements (eg for thermal/cost reasons).
- Change devicetree.c to ignore any cpu nodes marked as disabled, this effectively limits the number of active cpu cores so no need for the max_cpus=x in the chosen node.
- Change topology.c to ignore any cpu nodes marked as disabled, this is where the scheduler would learn about big/LITTLE cores so this effectively keeps the scheduler in sync.
I have two questions:
- Since with this approach the DT should change anyway if on different hardware devices based on the same chip you want to allow booting a different number of CPUs, why do not we remove the cpu nodes instead of disabling them ? Put it another way: cpu nodes define a cpu as possible (currently), we can simply remove the node if we do not want that cpu to be seen by the kernel.
- If we go for the "status" property, why do not we use it to set present mask ? That way the cpu is possible but not present, you cannot hotplug it in. It is a bit of a stretch, granted, the cpu _is_ present, we just want to disable it, do not know how this is handled in x86 and other archs though.
The meaning of disabled for cpus in ePAPR is that the cpu is offline (i.e. in a spinloop or wfi), not that the cpu is unavailable. This is a bit of a departure and inconsistency from how status for devices are used. That would imply that we should be setting status to disabled for all secondary cores and that possibly the status value should get updated to reflect the state of the cpu.
Yes, that's what I understood from the ePAPR as well. According to the ePAPR, as you say, a cpu with its status property == "disabled" is a possible CPU, since it can be enabled (through a specific enable-method).
I am not sure "status" can be reused for the purpose this patch was developed for without changing the bindings in the ePAPR (ie if DT parsing skips cpu nodes with status == "disabled", this is a significant departure from what ePAPR defines, and it would force us to define an enable-method to enable/online those CPUs which is not what this patch was developed for).
How was PowerPC tackling the problem James set about solving ?
Lorenzo