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SubjectRe: [PATCH] Patch to integrate RapidDisk and RapidCache RAM Drive / Caching modules into the kernel
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On 2015-09-28 12:45, Petros Koutoupis wrote:
> Christoph,
>
> See my replies below....
>
> On 9/28/15 11:29 AM, Christoph Hellwig wrote:
>> Hi Petros,
>>
>> On Mon, Sep 28, 2015 at 09:12:13AM -0500, Petros Koutoupis wrote:
>>> 1. Unlike the already mainline ramdisk driver, RapidDisk is designed
>>> to be
>>> managed dynamically. That is, instead of configuring a fixed number of
>>> volumes and volume sizes as compile/boot time variables, RapidDisk will
>>> allow you to add, remove, and resize your RAM drive(s) at runtime.
>>> Besides,
>>> the built in module is designed to work with smaller sizes in mind while
>>> RapidDisk focuses on larger sizes that can reach to the multiple
>>> Gigabytes
>>> or even Terabytes. Much like the built in module, it will allocate
>>> pages as
>>> they are needed which allows for over provisioning (not that it is
>>> advised)
>>> of volume sizes.
>> The ramdisk driver allows to selects sizes and count at module load
>> load. I agree that having runtime control would be even better, but
>> that's best done by adding a runtime interface to the existing driver
>> instead of duplicating it.
> I understand the concern and I will definitely scope out this approach,
> although at the moment, I am not sure how both approaches will play nice
> together. As mentioned above, the current implementation requires the
> predefined number of ram drives with the specified size to be configured
> at boot time (or compiled into the kernel). The only wiggle room I see
> for runtime control is resizing individual volumes.
Just because there is not code currently to do dynamic
allocation/freeing of ramdisks in the current driver doesn't mean that
it isn't possible, it just means that nobody has written code to do it
yet. This functionality would be extremely useful (I often use ramdisks
on a VM host as a small amount of very fast swap space for the virtual
machines). On top of that, the deduplication would be a wonderful
feature, although it may already be indirectly implemented through KSM
(that is, when KSM is on and configured to scan everything, I'm not sure
if it scans memory used by the ramdisks or not).

>>> 2. The majority of RapidDisk code focuses on the use of Volatile memory.
>>> The support for Non-Volatile memory is a bit newer and there may be some
>>> overlap here with the recently integrated pmem code. The only
>>> advantage to
>>> having this code within RapidDisk is to provide the user with the
>>> ability
>>> to manage both technologies simultaneously, through a single interface.
>> Which really doesn't sound like a good enough reason to duplicate it.
> I do not disagree with your comment here. This component does not have
> to be patched into the mainline.
>
>>> 3. The RapidCache component is designed around the Non-Volatile
>>> functionality of RapidDisk (hence the block-level Write-Through
>>> caching).
>>> It is also coded and optimized around the RapidDisk sizes/variables,
>>> out-of-box. It is worth noting that I am in the process of expanding
>>> this
>>> module to add deduplication support. This will leverage RapidDisk's
>>> ability
>>> to allocate pages only when needed and reduce the cache's memory
>>> footprint;
>>> making more out of less.
>> Still needs some code comparism to our existing two caching solutions.
>>
>> I'd love to see you go ahead with the dynamic ramdisk configuration as
>> this is clearly a very useful feature. A caching solution that is
>> optimized for non-volatile memory does sound useful, but we'll still
>> need a patch better explaining how it actually is as useful as it might
>> sound.
> CORRECTION: I meant to say Volatile and NOT Non-Volatile. RapidCache is
> designed around Volatile memory. I guess I was a little to excited in my
> response and I do apologize for that. I will provide a code comparison
> in my next e-mail, after I go through the existing RAM drive code.
To a certain extent, I see that as potentially less useful than
optimized for non-volatile memory. While the current incarnation of the
pagecache in Linux could stand to have some serious performance
improvements (just think how fast things would be if we used ARC instead
of plain LRU), it does still do it's job well for most workloads
(although being able to tell the kernel to reserve some portion of
memory _just_ for the pagecache would be an interesting and probably
very useful feature).

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