On 02/22/22 at 09:44am, Christoph Hellwig wrote: > On Mon, Feb 21, 2022 at 02:57:34PM +0100, Heiko Carstens wrote: > > > 1) Kmalloc(GFP_DMA) in s390 platform, under arch/s390 and drivers/s390; > > > > So, s390 partially requires GFP_DMA allocations for memory areas which > > are required by the hardware to be below 2GB. There is not necessarily > > a device associated when this is required. E.g. some legacy "diagnose" > > calls require buffers to be below 2GB. > > > > How should something like this be handled? I'd guess that the > > dma_alloc API is not the right thing to use in such cases. Of course > > we could say, let's waste memory and use full pages instead, however > > I'm not sure this is a good idea. > > Yeah, I don't think the DMA API is the right thing for that. This > is one of the very rare cases where a raw allocation makes sense. > > That being said being able to drop kmalloc support for GFP_DMA would > be really useful. How much memory would we waste if switching to the > page allocator? > > > s390 drivers could probably converted to dma_alloc API, even though > > that would cause quite some code churn. > > I think that would be a very good thing to have. > > > > For this first patch series, thanks to Hyeonggon for helping > > > reviewing and great suggestions on patch improving. We will work > > > together to continue the next steps of work. > > > > > > Any comment, thought, or suggestoin is welcome and appreciated, > > > including but not limited to: > > > 1) whether we should remove dma-kmalloc support in kernel(); > > > > The question is: what would this buy us? As stated above I'd assume > > this comes with quite some code churn, so there should be a good > > reason to do this. > > There is two steps here. One is to remove GFP_DMA support from > kmalloc, which would help to cleanup the slab allocator(s) very nicely, > as at that point it can stop to be zone aware entirely. > > The long term goal is to remove ZONE_DMA entirely at least for > architectures that only use the small 16MB ISA-style one. It can > then be replaced with for example a CMA area and fall into a movable > zone. I'd have to prototype this first and see how it applies to the > s390 case. It might not be worth it and maybe we should replace > ZONE_DMA and ZONE_DMA32 with a ZONE_LIMITED for those use cases as > the amount covered tends to not be totally out of line for what we > built the zone infrastructure. > > > >From this cover letter I only get that there was a problem with kdump > > on x86, and this has been fixed. So why this extra effort? > > > > > 3) Drop support for allocating DMA memory from slab allocator > > > (as Christoph Hellwig said) and convert them to use DMA32 > > > and see what happens > > > > Can you please clarify what "convert to DMA32" means? I would assume > > this does _not_ mean that passing GFP_DMA32 to slab allocator would > > work then? > > I'm really not sure what this means. Thanks a lot to Heiko for valuable input, it's very helpful. And thanks a lot to Christoph for explaining. I guess this "convert to DMA32" is similar to "replace ZONE_DMA and ZONE_DMA32 with a ZONE_LIMITED". When I use 'git grep "GFP_DMA/>"' to search all places specifying GFP_DMA, I noticed the main usage of kmalloc(GFP_DMA) is to get memory under a memory limitation, but not for DMA buffer allocation. Below is what I got for earlier kdump issue explanation. It can help explain why kmalloc(GFP_DMA) is useful on ARCHes w/o ZONE_DMA32, but doesn't make sense on x86_64 which has both zone DMA and DMA32. The 16M ZONE_DMA is only for very rarely used legacy ISA device, but most pci devices driver supporting 32bit addressing likes to abuse kmalloc(GFP_DMA) to get DMA buffer from the zone DMA. That obviously is unsafe and unreasonable. Like risc-V which doesn't have the burden of legacy ISA devices, it can take only containing DMA32 zone way. ARM64 also adjusts to have only arm64 if not on Raspberry Pi. Using kmalloc(GFP_DMA) makes them no inconvenience. If finally having dma32-kmalloc, the name may need be carefully considerred, it seems to be acceptable. We just need to pick up those ISA device driver and handle their 24bit addressing DMA well. For this patchset, I only find out places in which GPF_DMA is redundant and can be removed directly, and places where kmalloc(GFP_DMA)|dma_map_ pair can be replaced with dma_alloc_xxxx() API and the memory wasting is not so big. I have patches converting kmalloc(GFP_DMA) to alloc_pages(GFP_DMA), but not easy to replace with dma_alloc_xxx(), Hyeonggon suggested not adding them to this series. I will continue investigating the left places, see whether or how we can convert them. ============================= ARCH which has DMA32 ZONE_DMA ZONE_DMA32 arm64 0~X X~4G (X is got from ACPI or DT. Otherwise it's 4G by default, DMA32 is empty) ia64 None 0~4G mips 0 or 0~16M X~4G (zone DMA is empty on SGI_IP22 or SGI_IP28, otherwise 16M by default like i386) riscv None 0~4G x86_64 16M 16M~4G ============================= ARCH which has no DMA32 ZONE_DMA alpha 0~16M or empty if IOMMU enabled arm 0~X (X is reported by fdt, 4G by default) m68k 0~total memory microblaze 0~total low memory powerpc 0~2G s390 0~2G sparc 0~ total low memory i386 0~16M > > > > > btw. there are actually two kmalloc allocations which pass GFP_DMA32; > > I guess this is broken(?): > > > > drivers/hid/intel-ish-hid/ishtp-fw-loader.c: dma_buf = kmalloc(payload_max_size, GFP_KERNEL | GFP_DMA32); > > drivers/media/test-drivers/vivid/vivid-osd.c: dev->video_vbase = kzalloc(dev->video_buffer_size, GFP_KERNEL | GFP_DMA32); > > Yes, this is completely broken. >