My board has a Cavium Octeon NPU, running Linux kernel 18.104.22.168 that acts as a PCIe Root Complex. It is connected to PCIe switch, as are some other peripheral devices (Endpoints), among which there is Marvell's 9143 PCI-to_SATA controller based SSD.
When PCIe is initially enumerated, PCI driver on Octeon adds up the sizes of all the prefetchable memory resources and programs the PLIMIT and PBASE registers on the upstream switch port accordingly. In my case that address range is 0x80000000 - 0xEFFFFFFF.
After that, I would expect that address range to be inaccessible to kernel memory manager allocating for DMA buffers etc. And yet, I see the kernel, at some point starts sending SCSI requests to the SSD device, where scatter-gather list elements fall within this address range. I confirmed this, by looking at PCI analyzer trace. Naturally, when SSD controller receives such an address, it tries to access it (DMA read or write), and fails, because upstream switch port refuses to forward this request upstream to Root Complex, because it is programmed to think that this address would be downstream from it. (Interestingly enough, it mostly happens when I manipulate large files, I see that kernel allocated buffer addresses grow downward, until they dip below 0xEFFFFFFF)
Hence, the question: shouldn't PCI enumeration/rescan code, tell the kernel - these are PCI devices register addresses and therefore are off-limit for DMA buffer allocation? Or is it responsibility of each individual device driver to reserve its prefetchable memory? Marvell driver I use reserves regular memory BAR, but not the prefetcheable one. Is that a problem?
Thanks in advance and apologies for lengthy description.