[PATCH v6 00/15] memory-hotplug: hot-remove physical memory

Fri Feb 1 13:06:43 EST 2013

Hi Jianguo,
On Fri, 2013-02-01 at 09:57 +0800, Jianguo Wu wrote:
> On 2013/2/1 9:36, Simon Jeons wrote:
> 
> > On Fri, 2013-02-01 at 09:32 +0800, Jianguo Wu wrote:
> >> On 2013/1/31 18:38, Simon Jeons wrote:
> >>
> >>> Hi Tang,
> >>> On Thu, 2013-01-31 at 17:44 +0800, Tang Chen wrote:
> >>>> Hi Simon,
> >>>>
> >>>> On 01/31/2013 04:48 PM, Simon Jeons wrote:
> >>>>> Hi Tang,
> >>>>> On Thu, 2013-01-31 at 15:10 +0800, Tang Chen wrote:
> >>>>>
> >>>>> 1. IIUC, there is a button on machine which supports hot-remove memory,
> >>>>> then what's the difference between press button and echo to /sys?
> >>>>
> >>>> No important difference, I think. Since I don't have the machine you are
> >>>> saying, I cannot surely answer you. :)
> >>>> AFAIK, pressing the button means trigger the hotplug from hardware, sysfs
> >>>> is just another entrance. At last, they will run into the same code.
> >>>>
> >>>>> 2. Since kernel memory is linear mapping(I mean direct mapping part),
> >>>>> why can't put kernel direct mapping memory into one memory device, and
> >>>>> other memory into the other devices?
> >>>>
> >>>> We cannot do that because in that way, we will lose NUMA performance.
> >>>>
> >>>> If you know NUMA, you will understand the following example:
> >>>>
> >>>> node0:                    node1:
> >>>>     cpu0~cpu15                cpu16~cpu31
> >>>>     memory0~memory511         memory512~memory1023
> >>>>
> >>>> cpu16~cpu31 access memory16~memory1023 much faster than memory0~memory511.
> >>>> If we set direct mapping area in node0, and movable area in node1, then
> >>>> the kernel code running on cpu16~cpu31 will have to access 
> >>>> memory0~memory511.
> >>>> This is a terrible performance down.
> >>>
> >>> So if config NUMA, kernel memory will not be linear mapping anymore? For
> >>> example, 
> >>>
> >>> Node 0  Node 1 
> >>>
> >>> 0 ~ 10G 11G~14G
> >>>
> >>> kernel memory only at Node 0? Can part of kernel memory also at Node 1?
> >>>
> >>> How big is kernel direct mapping memory in x86_64? Is there max limit?
> >>
> >>
> >> Max kernel direct mapping memory in x86_64 is 64TB.
> > 
> > For example, I have 8G memory, all of them will be direct mapping for
> > kernel? then userspace memory allocated from where?
> 
> Direct mapping memory means you can use __va() and pa(), but not means that them
> can be only used by kernel, them can be used by user-space too, as long as them are free.

IIUC, the benefit of va() and pa() is just for quick get
virtual/physical address, it takes advantage of linear mapping. But mmu
still need to go through pgd/pud/pmd/pte, correct?

> 
> > 
> >>
> >>> It seems that only around 896MB on x86_32. 
> >>>
> >>>>
> >>>>> As you know x86_64 don't need
> >>>>> highmem, IIUC, all kernel memory will linear mapping in this case. Is my
> >>>>> idea available? If is correct, x86_32 can't implement in the same way
> >>>>> since highmem(kmap/kmap_atomic/vmalloc) can map any address, so it's
> >>>>> hard to focus kernel memory on single memory device.
> >>>>
> >>>> Sorry, I'm not quite familiar with x86_32 box.
> >>>>
> >>>>> 3. In current implementation, if memory hotplug just need memory
> >>>>> subsystem and ACPI codes support? Or also needs firmware take part in?
> >>>>> Hope you can explain in details, thanks in advance. :)
> >>>>
> >>>> We need firmware take part in, such as SRAT in ACPI BIOS, or the firmware
> >>>> based memory migration mentioned by Liu Jiang.
> >>>
> >>> Is there any material about firmware based memory migration?
> >>>
> >>>>
> >>>> So far, I only know this. :)
> >>>>
> >>>>> 4. What's the status of memory hotplug? Apart from can't remove kernel
> >>>>> memory, other things are fully implementation?
> >>>>
> >>>> I think the main job is done for now. And there are still bugs to fix.
> >>>> And this functionality is not stable.
> >>>>
> >>>> Thanks. :)
> >>>
> >>>
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> >>> .
> >>>
> >>
> >>
> >>
> > 
> > 
> > 
> > .
> > 
> 
> 
> 