On Tuesday 19 July 2022 12:16:34 Arnd Bergmann wrote: > On Tue, Jul 19, 2022 at 11:46 AM Pali Rohár <pali@xxxxxxxxxx> wrote: > > On Tuesday 19 July 2022 10:05:28 Arnd Bergmann wrote: > > > > +/* Relevant only for Orion-1/Orion-NAS */ > > > > +#define ORION5X_PCIE_WA_PHYS_BASE 0xf0000000 > > > > +#define ORION5X_PCIE_WA_VIRT_BASE IOMEM(0xfd000000) > > > > > > You should not need to hardcode these here. The ORION5X_PCIE_WA_PHYS_BASE > > > should already be part of the DT binding. > > > > Of course! But the issue is that we do not know how to do this DT > > binding. I have already wrote email with asking for help in which > > property and which format should be this config range defined, but no > > answer yet: https://lore.kernel.org/linux-pci/20220710225108.bgedria6igtqpz5l@pali/ > > Ah, I had not seen that email. Quoting from there: > > > So my question is: How to properly define config space range in device > > tree file? In which device tree property and in which format? Please > > note that this memory range of config space is PCIe root port specific > > and it requires its own MBUS_ID() like memory range of PCIe MEM and PCIe > > IO mapping. Please look e.g. at armada-385.dtsi how are MBUS_ID() used: > > https://git.kernel.org/pub/scm/linux/kernel/git/torvalds/linux.git/tree/arch/arm/boot/dts/armada-385.dtsi > > This is probably a question for Rob as the mvebu driver is a rather special > case. Normally this would just be a 'reg' property of the host bridge, > but I think > in your case the root device is imaginary, and the ports under it are the > actual hardware devices yes > so you'll probably have to do the same thing as > the armada-385, translating the mbus ranges for the config space in the > "ranges" property of the parent Problem is that "ranges" in PCIe are used for specifying MEM and IO mappings and kernel PCI code does not allow any other type. > and then referring to them by PCI > MMIO addresses using the assigned-addresses property to pass the > config-space registers as a second set of registers in addition to the > first set. It is more complicated. PCIe MEM and IO memory ranges are defined in "soc" node in "pcie-mem-aperture" and "pcie-io-aperture" properties. These ranges are shared across all PCIe controllers and assigning slices of these ranges to specific devices is done later by dynamic allocation. "soc" node is bind to mbus driver (which parse these properties) and provides API for other kernel drivers for dynamic allocation of memory from pcie aperture. In pcie node is just indirect reference to PCIe MEM and IO via MBUS_ID() macro and it is pci-mvebu.c driver who ask mbus driver for PCIe MEM and IO dynamic allocation. So because PCIe config space is not of type PCIe MEM nor PCIe IO (obviously) it cannot use "ranges" property. Because DT pcie nodes use "reg" property for specifying BDF address, we cannot use neither "reg" property for specifying memory range of PCIe config space. And here I'm lost. My guess is that proper way is to define "pcie-cfg-aperture" in "soc" node where would be defined physical address range without any binding to controller, then extend mbus driver to export API also for PCIe CFG and add code which dynamically assign slice of this range to some controller. And then use this new API by pci-mvebu.c to access config space. But pci-mvebu.c needs to know MBUS_ID() attributes which needs to be defined somewhere in pcie DT node... > > > There is little practical difference > > > here, but I see no value in taking the shortcut here either. > > > > > > For the ORION5X_PCIE_WA_VIRT_BASE, you rely on this to match the > > > definition in arch/arm/mach-orion5x/common.c, and this is rather fragile. > > > > > > Instead, please use ioremap() to create a mapping at runtime. The ioremap() > > > implementation on ARM is smart enough to reuse the address from the static > > > mapping in common.c, but will also keep working if that should go away. > > > > I'm planning to work with Mauri on this, but current blocker is DT. > > Ok. It should not be hard to do this first, as you just need to pass the > same physical address that you pass in the mbus setup, but I agree > it's easier to do this afterwards to avoid having to rewrite it again. > > > > This is probably good enough here, though I think you could also use > > > the trick from drivers/pci/ecam.c and map each bus at a time. > > > > > Yes, there are also helper functions like map bus and etc. which could > > simplify this code. I'm planning to do cleanups once we have fully > > working driver for Orion. > > Ok. This is probably not worth the effort if the old driver doesn't already > do provide access to the high registers. > > Arnd If we have free 256MB in physical address space, then we can implement it easily. It is just changing _size_ argument. I'm not sure how much DDR RAM has Orion, but if only 2GB then we should be fine (remaining 2GB should be enough for all peripherals + 256MB for PCIe config space). Main issue is that there is no Orion documentation which would describe how direct mapping of PCIe config space is working. (see also https://lore.kernel.org/linux-doc/20220719080807.16729-1-pali@xxxxxxxxxx/) So we can only set "size" of the physical config space mapping and if we choose smaller size then we cannot access upper registers. I do not see any option how to specify "offset" for physical config space to allow mapping just one PCI bus. What we have under full control is virtual address space mapping, so we can just map only one PCI bus to virtual address space from large 256MB physical config address space.