[Intel-gfx] [RFC 1/4] drm/i915: Implement a framework for batch buffer pools

Tvrtko Ursulin tvrtko.ursulin at linux.intel.com
Fri Jun 20 15:25:56 CEST 2014


On 06/19/2014 06:35 PM, Volkin, Bradley D wrote:
> On Thu, Jun 19, 2014 at 02:48:29AM -0700, Tvrtko Ursulin wrote:
>>
>> Hi Brad,
>>
>> On 06/18/2014 05:36 PM, bradley.d.volkin at intel.com wrote:
>>> From: Brad Volkin <bradley.d.volkin at intel.com>
>>>
>>> This adds a small module for managing a pool of batch buffers.
>>> The only current use case is for the command parser, as described
>>> in the kerneldoc in the patch. The code is simple, but separating
>>> it out makes it easier to change the underlying algorithms and to
>>> extend to future use cases should they arise.
>>>
>>> The interface is simple: alloc to create an empty pool, free to
>>> clean it up; get to obtain a new buffer, put to return it to the
>>> pool. Note that all buffers must be returned to the pool before
>>> freeing it.
>>>
>>> The pool has a maximum number of buffers allowed due to some tests
>>> (e.g. gem_exec_nop) creating a very large number of buffers (e.g.
>>> ___). Buffers are purgeable while in the pool, but not explicitly
>>> truncated in order to avoid overhead during execbuf.
>>>
>>> Locking is currently based on the caller holding the struct_mutex.
>>> We already do that in the places where we will use the batch pool
>>> for the command parser.
>>>
>>> Signed-off-by: Brad Volkin <bradley.d.volkin at intel.com>
>>> ---
>>>
>>> r.e. pool capacity
>>> My original testing showed something like thousands of buffers in
>>> the pool after a gem_exec_nop run. But when I reran with the max
>>> check disabled just now to get an actual number for the commit
>>> message, the number was more like 130.  I developed and tested the
>>> changes incrementally, and suspect that the original run was before
>>> I implemented the actual copy operation. So I'm inclined to remove
>>> or at least increase the cap in the final version. Thoughts?
>>
>> Some random thoughts:
>>
>> Is it strictly necessary to cap the pool size? I ask because it seems to
>> be introducing a limit where so far there wasn't an explicit one.
>
> No, I only added it because there were a huge number of buffers in the
> pool at one point. But that seems to have been an artifact of my
> development process, so unless someone says they really want to keep
> the cap, I'm going to drop it in the next rev.

Cap or no cap (I am for no cap), but the pool is still "grow only" at 
the moment, no? So one allocation storm and objects on the pool inactive 
list end up wasting memory forever.

Unless my novice eyes are missing something hidden? But it can't be 
since then there would have to be a mechanism letting the pool know that 
some objects got expired.

Regards,

Tvrtko





More information about the Intel-gfx mailing list