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SubjectRe: Device address specific mapping of arm,mmu-500
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Hi Marc/Robin/Will,

I did a little more digging myself and I think I now understand what you
meant by identity mapping, i.e., configuring the MMU-500 with 1:1
mapping between the DMA address and the IOVA address.

I think that should work. In the end, due to this MSI write parsing
issue in our PCIe controller, the reason to use IOMMU is to allow the
cache attributes (AxCACHE) of the MSI writes towards GICv3 ITS to be
modified by the IOMMU to be device type, while leaving the rest of
inbound reads/writes from/to DDR with more optimized cache attributes
setting, to allow I/O coherency to be still enabled for the PCIe
controller. In fact, the PCIe controller itself is fully capable of DMA
to/from the full address space of our SoC including both DDR and any
device memory.

The 1:1 mapping will still pose some translation overhead like you
suggested; however, the overhead of allocating page tables and locking
will be gone. This sounds like the best possible option I have currently.

May I ask, how do I start to try to get this identity mapping to work as
an experiment and proof of concept? Any pointer or advise is highly
appreciated as you can see I'm not very experienced with this. I found
Will recently added the IOMMU_DOMAIN_IDENTITY support to the arm-smmu
driver. But I suppose that is to bypass the SMMU completely, instead of
still going through the MMU with 1:1 translation. Is my understanding
correct?

Thanks,

Ray

On 5/30/2017 3:06 PM, Ray Jui wrote:
> Hi Marc/Robin/Will,
>
> On 5/30/17 10:27 AM, Marc Zyngier wrote:
>> On 30/05/17 18:16, Ray Jui wrote:
>>> Hi Marc,
>>>
>>> On 5/30/17 9:59 AM, Marc Zyngier wrote:
>>>> On 30/05/17 17:49, Ray Jui wrote:
>>>>> Hi Will,
>>>>>
>>>>> On 5/30/17 8:14 AM, Will Deacon wrote:
>>>>>> On Mon, May 29, 2017 at 06:18:45PM -0700, Ray Jui wrote:
>>>>>>> I'm writing to check with you to see if the latest arm-smmu.c driver in
>>>>>>> v4.12-rc Linux for smmu-500 can support mapping that is only specific to
>>>>>>> a particular physical address range while leave the rest still to be
>>>>>>> handled by the client device. I believe this can already be supported by
>>>>>>> the device tree binding of the generic IOMMU framework; however, it is
>>>>>>> not clear to me whether or not the arm-smmu.c driver can support it.
>>>>>>>
>>>>>>> To give you some background information:
>>>>>>>
>>>>>>> We have a SoC that has PCIe root complex that has a build-in logic block
>>>>>>> to forward MSI writes to ARM GICv3 ITS. Unfortunately, this logic block
>>>>>>> has a HW bug that causes the MSI writes not parsed properly and can
>>>>>>> potentially corrupt data in the internal FIFO. A workaround is to have
>>>>>>> ARM MMU-500 takes care of all inbound transactions. I found that is
>>>>>>> working after hooking up our PCIe root complex to MMU-500; however, even
>>>>>>> with this optimized arm-smmu driver in v4.12, I'm still seeing a
>>>>>>> significant Ethernet throughput drop in both the TX and RX directions.
>>>>>>> The throughput drop is very significant at around 50% (but is already
>>>>>>> much improved compared to other prior kernel versions at 70~90%).
>>>>>> Did Robin's experiments help at all with this?
>>>>>>
>>>>>> http://www.linux-arm.org/git?p=linux-rm.git;a=shortlog;h=refs/heads/iommu/perf
>>>>>>
>>>>> It looks like these are new optimizations that have not yet been merged
>>>>> in v4.12? I'm going to give it a try.
>>>>>
>>>>>>> One alternative is to only use MMU-500 for MSI writes towards
>>>>>>> GITS_TRANSLATER register in the GICv3, i.e., if I can define a specific
>>>>>>> region of physical address that I want MMU-500 to act on and leave the
>>>>>>> rest of inbound transactions to be handled directly by our PCIe
>>>>>>> controller, it can potentially work around the HW bug we have and at the
>>>>>>> same time achieve optimal throughput.
>>>>>> I don't think you can bypass the SMMU for MSIs unless you give them their
>>>>>> own StreamIDs, which is likely to break things horribly in the kernel. You
>>>>>> could try to create an identity mapping, but you'll still have the
>>>>>> translation overhead and you'd probably end up having to supply your own DMA
>>>>>> ops to manage the address space. I'm assuming that you need to prevent the
>>>>>> physical address of the ITS from being allocated as an IOVA?
>>>>> Will, is that a HW limitation that the SMMU cannot be used, only for MSI
>>>>> writes, in which case, the physical address range is very specific in
>>>>> our ASIC that falls in the device memory region (e.g., below 0x80000000)?
>>>>>
>>>>> In fact, what I need in this case is a static mapping from IOMMU on the
>>>>> physical address of the GITS_TRANSLATER of the GICv3 ITS, which is the
>>>>> address that MSI writes go to. This is to bypass the MSI forwarding
>>>>> logic in our PCIe controller. At the same time, I can leave the rest of
>>>>> inbound transactions to be handled by our PCIe controller without going
>>>>> through the MMU.
>>>> How is that going to work for DMA? I imagine your network interfaces do
>>>> have to access memory, don't they? How can the transactions be
>>>> terminated in the PCIe controller?
>>> Sorry, I may not phrase this properly. These inbound transactions (DMA
>>> write to DDR, from endpoint) do not terminate in the PCIe controller.
>>> They are taken by the PCIe controller as PCIe transactions and will be
>>> carried towards the designated memory on the host.
>> So what is the StreamID used for these transactions? Is that a different
>> StreamID from that of the DMAing device? If you want to avoid the SMMU
>> effect on the transaction, you must make sure if doesn't match anything
>> there.
>>
>> Thanks,
>>
>> M.
>>
> Thanks for the reply. I'm checking with our ASIC team, but from my
> understanding, the stream ID in our ASIC is constructed based on the
> some custom fields that a developer can program + some standard PCIe BDF
> fields. That is, I don't think we can make the stream ID from the same
> PF different between MSI writes and DMA writes, as you have already
> predicted.
>
> It sounds like I do not have much option here...
>
> Thanks,
>
> Ray

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