On Sun, Feb 02, 2020 at 11:46:44PM -0800, Matthew Wilcox wrote: > > gives the hardware access to completely unrelated memory.) Instead, > > they get pages from the page allocator, and these pages may e.g. be > > allocated from the DMA, DMA32 or NORMAL zones depending on the > > restrictions imposed by hardware. So I think the usercopy restriction > > only affects a few oddball drivers (like this s390 stuff), which is > > why you're not seeing more bug reports caused by this. > > Getting pages from the page allocator is true for dma_alloc_coherent() > and friends. dma_alloc_coherent also has a few other memory sources than the page allocator.. > But it's not true for streaming DMA mappings (dma_map_*) > for which the memory usually comes from kmalloc(). If this is something > we want to fix (and I have an awful feeling we're going to regret it > if we say "no, we trust the hardware"), we're going to have to come up > with a new memory allocation API for these cases. Or bounce bugger the > memory for devices we don't trust. There aren't too many places that use slab allocations for streaming mappings, and then do usercopies into them. But I vaguely remember some usb code getting the annotations for that a while ago. But if you don't trust your hardware you will need to use IOMMUs and page aligned memory, or IOMMUs plus bounce buffering for the kmalloc allocations (we've recently grown code to do that for the intel-iommu driver, which needs to be lifted into the generic IOMMU code).