[PATCH v4] irqchip/gicv3-its: Avoid memory over allocation for ITEs

Marc Zyngier marc.zyngier at arm.com
Wed Jun 21 00:30:43 PDT 2017


On 21/06/17 02:22, Shanker Donthineni wrote:
> Hi Marc,
> 
> On 05/06/2017 06:25 AM, Marc Zyngier wrote:
>> On Fri, May 05 2017 at 11:04:22 pm BST, Shanker Donthineni <shankerd at codeaurora.org> wrote:
>>> Hi Marc,
>>>
>>>
>>> On 05/02/2017 11:16 AM, Marc Zyngier wrote:
>>>> On Sun, Apr 30 2017 at  3:36:15 pm BST, Shanker Donthineni <shankerd at codeaurora.org> wrote:
>>>>> We are always allocating extra 255Bytes of memory to handle ITE
>>>>> physical address alignment requirement. The kmalloc() satisfies
>>>>> the ITE alignment since the ITS driver is requesting a minimum
>>>>> size of ITS_ITT_ALIGN bytes.
>>>>>
>>>>> Let's try to allocate the exact amount of memory that is required
>>>>> for ITEs to avoid wastage.
>>>>>
>>>>> Signed-off-by: Shanker Donthineni <shankerd at codeaurora.org>
>>>>> ---
>>>>> Changes:
>>>>> v2: removed 'Change-Id: Ia8084189833f2081ff13c392deb5070c46a64038' from commit.
>>>>> v3: changed from IITE to ITE.
>>>>> v3: removed fallback since kmalloc() guarantees the right alignment.
>>>>>
>>>>>  drivers/irqchip/irq-gic-v3-its.c | 6 +++---
>>>>>  1 file changed, 3 insertions(+), 3 deletions(-)
>>>>>
>>>>> diff --git a/drivers/irqchip/irq-gic-v3-its.c b/drivers/irqchip/irq-gic-v3-its.c
>>>>> index 45ea1933..72e56f03 100644
>>>>> --- a/drivers/irqchip/irq-gic-v3-its.c
>>>>> +++ b/drivers/irqchip/irq-gic-v3-its.c
>>>>> @@ -261,7 +261,6 @@ static struct its_collection *its_build_mapd_cmd(struct its_cmd_block *cmd,
>>>>>  	u8 size = ilog2(desc->its_mapd_cmd.dev->nr_ites);
>>>>>  
>>>>>  	itt_addr = virt_to_phys(desc->its_mapd_cmd.dev->itt);
>>>>> -	itt_addr = ALIGN(itt_addr, ITS_ITT_ALIGN);
>>>>>  
>>>>>  	its_encode_cmd(cmd, GITS_CMD_MAPD);
>>>>>  	its_encode_devid(cmd, desc->its_mapd_cmd.dev->device_id);
>>>>> @@ -1329,13 +1328,14 @@ static struct its_device *its_create_device(struct its_node *its, u32 dev_id,
>>>>>  	 */
>>>>>  	nr_ites = max(2UL, roundup_pow_of_two(nvecs));
>>>>>  	sz = nr_ites * its->ite_size;
>>>>> -	sz = max(sz, ITS_ITT_ALIGN) + ITS_ITT_ALIGN - 1;
>>>>> +	sz = max(sz, ITS_ITT_ALIGN);
>>>>>  	itt = kzalloc(sz, GFP_KERNEL);
>>>>>  	lpi_map = its_lpi_alloc_chunks(nvecs, &lpi_base, &nr_lpis);
>>>>>  	if (lpi_map)
>>>>>  		col_map = kzalloc(sizeof(*col_map) * nr_lpis, GFP_KERNEL);
>>>>>  
>>>>> -	if (!dev || !itt || !lpi_map || !col_map) {
>>>>> +	if (!dev || !itt || !lpi_map || !col_map ||
>>>>> +	    !IS_ALIGNED(virt_to_phys(itt), ITS_ITT_ALIGN)) {
>>>>>  		kfree(dev);
>>>>>  		kfree(itt);
>>>>>  		kfree(lpi_map);
>>>> I'm confused. Either the alignment is guaranteed (and you should
>>>> document why it is so), or it is not, and we need to handle the
>>>> non-alignment (instead of failing).
>>>
>>> Sorry for confusion, alignment is guaranteed by kmalloc(), added a
>>> check for readability purpose only can be removed.
>>
>> My question still remains. Where exactly is that alignment guarantee
>> documented and enforced? I can't see anything giving that certainty.
>>
> 
> The internal implementation of kmalloc() uses the slab/slub feature
> to allocate memory from 2^N size pool. Linux kernel maintains the
> fixed size of kmem_cache pools to serve the kmalloc(), It allocates
> minimum size of 128Bytes and maximum size depends on the system
> configuration and memory availability. In fact SMMUv3 driver has a
> similar requirement and absolutely there no problem using kmalloc()
> to meet the address alignment requirement.
> 
> Call trace:
>     kmalloc()
>       kmalloc_slab() --> convert size to kmem_cache
>       slab_alloc()   ---> allocate 2^N size kmem_cache object
>    
> root at null-8cfdf006971f:~# cat /proc/slabinfo | grep kmall
> dma-kmalloc-131072     0      0 131072    4    8 : tunables    0    0    0 : slabdata      0      0      0
> dma-kmalloc-65536      0      0  65536    8    8 : tunables    0    0    0 : slabdata      0      0      0
> dma-kmalloc-32768      0      0  32768   16    8 : tunables    0    0    0 : slabdata      0      0      0
> dma-kmalloc-16384      0      0  16384   32    8 : tunables    0    0    0 : slabdata      0      0      0
> dma-kmalloc-8192       0      0   8192   32    4 : tunables    0    0    0 : slabdata      0      0      0
> dma-kmalloc-4096       0      0   4096   32    2 : tunables    0    0    0 : slabdata      0      0      0
> dma-kmalloc-2048       0      0   2048   32    1 : tunables    0    0    0 : slabdata      0      0      0
> dma-kmalloc-1024       0      0   1024   64    1 : tunables    0    0    0 : slabdata      0      0      0
> dma-kmalloc-512      128    128    512  128    1 : tunables    0    0    0 : slabdata      1      1      0
> dma-kmalloc-256        0      0    256  256    1 : tunables    0    0    0 : slabdata      0      0      0
> dma-kmalloc-128      512    512    128  512    1 : tunables    0    0    0 : slabdata      1      1      0
> kmalloc-131072         4      4 131072    4    8 : tunables    0    0    0 : slabdata      1      1      0
> kmalloc-65536        376    376  65536    8    8 : tunables    0    0    0 : slabdata     47     47      0
> kmalloc-32768        320    320  32768   16    8 : tunables    0    0    0 : slabdata     20     20      0
> kmalloc-16384       5248   5248  16384   32    8 : tunables    0    0    0 : slabdata    164    164      0
> kmalloc-8192        2176   2176   8192   32    4 : tunables    0    0    0 : slabdata     68     68      0
> kmalloc-4096        4452   4576   4096   32    2 : tunables    0    0    0 : slabdata    143    143      0
> kmalloc-2048        4416   4416   2048   32    1 : tunables    0    0    0 : slabdata    138    138      0
> kmalloc-1024       10048  10176   1024   64    1 : tunables    0    0    0 : slabdata    159    159      0
> kmalloc-512        19071  19584    512  128    1 : tunables    0    0    0 : slabdata    153    153      0
> kmalloc-256        75873  77312    256  256    1 : tunables    0    0    0 : slabdata    302    302      0
> kmalloc-128        82078  85504    128  512    1 : tunables    0    0    0 : slabdata    167    167      0
>              
> 
>> I would expect kmalloc to give you something that is cache-line aligned,
>> but probably nothing more than that. Now, I'd happily be proven wrong,
>> but so far, all I can see is that:
>>
>> - ARCH_KMALLOC_MINALIGN is defined as ARCH_DMA_MINALIGN
>> - ARCH_DMA_MINALIGN is defined as L1_CACHE_BYTES
>> - L1_CACHE_BYTES is 128 on arm64, and either 32, 64, or 128 on arm.
>>
> 
> Kmalloc always allocates memory with size=roundup_pow_of_two(size)
> and address alignment roundup_pow_of_two(size).

Again, where is that enforced? The slob allocator explicitly uses
ARCH_KMALLOC_MINALIGN to compute its alignment. How does that match your
description above? Where is this roundup_pow_of_two(size) you're
quoting? Does it actually apply to all 3 allocators we have in the kernel?

Please don't give me any of this "it works for me". Show me the code ;-)

Thanks,

	M.
-- 
Jazz is not dead. It just smells funny...



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