[+cc Matt, because I'm out of my depth in this UEFI stuff] On Fri, Apr 29, 2016 at 11:52:47PM +0200, Alexander Graf wrote: > On 29.04.16 23:37, Bjorn Helgaas wrote: > > On Fri, Apr 29, 2016 at 10:51:34PM +0200, Alexander Graf wrote: > >> I think the only thing we can really take as granted is the physical > >> address we receive. Any efi device topology may be as implementation > >> dependent as your firmware vendor wants to it to be. > >> > >> So couldn't we just try to see whether the efifb is within a pci mmio > >> window? We could then go through all devices on it, search for > >> overlapping BAR allocations and know the device. From there it would > >> just be a matter of officially reserving the region - or setting the > >> resource to FIXED, right? > > > > You could do something like a quirk that ran on every device after > > reading the BARs. Then you could see if any of the device's resources > > contain the framebuffer address, and if so, set the FIXED bit for that > > resource. Or you could save the pci_dev and the BAR number and make > > the framebuffer driver actually claim that device. That would have > > the advantage of cleaner ownership and allowing the core to reassign > > it if necessary. > > Unfortunately the framebuffer driver gets initialized after the BARs got > reassigned, so that wouldn't work :). Quirks (fixups) can run at several different times, including before we read the BARs, after we read them but before any reassignment, etc. I'll attach a call graph of the enumeration process (somewhat out of date now, but enough to show the fixup points). If we went this route, a header quirk (DECLARE_PCI_FIXUP_HEADER) would do what we need. > Can you point me to the code that does "read[ing] the BARs"? So far my > impression was that we don't even try to read out the current BAR values > from pci config space, but I can't claim I fully grasp the Linux pci > code quite yet. The efifb.c driver doesn't do anything at all with PCI (it includes linux/pci.h, but probably doesn't need it). That's part of what I'm suggesting -- if it *did* register as a PCI device driver, then it would look at pci_dev->resource[n], which is populated by the PCI core based on the BAR values. > > It would be a lot nicer if UEFI told us which device was the console. > > We can't figure this out from the ConOut variable or the HCDP or PCDP > > table or something? > > I guess you could try to look at the device path for the GOP handle, but > I'm not sure any layout of the device paths is mandated by the spec. For > all I know a valid implementation could just claim the GOP interface > fell from the skies and it'd be legitimate. But I'm happy to stand > corrected if someone points me to the respective part of the spec. Is ConOut what you're after? I.e., is the whole point of this exercise to get a framebuffer driver attached to the device that was the firmware console? I would think the ConOut path should be decodable -- it has to tell you how to navigate the interconnect from the CPU to the device. But I don't know how to do it. It looks like on x86, at least, setup_gop32()/setup_gop64() might be extracting the framebuffer address from the ConOut device and stuffing it into screen_info, which is what efifb.c later looks at (maybe this is what Ard was referring to). > I suppose HCDP and PCDP are ACPI tables? We can't rely on those :). > AArch64 systems can (and some do) boot perfectly fine without any ACPI > tables exposed via uEFI. And the less we have to marry ACPI with uEFI > the happier I am - uEFI seems like a pretty nice path towards > standardized booting while ACPI was quite a nightmare every time I > looked at it so far ;). HCDP/PCDP was from DIG64, originally for ia64, but I can't find a copy of the spec anymore. The http://www.dig64.org/specifications/ pointer in pcdp.h appears broken. So forget I brought this up; this looks dead. Bjorn PCI enumeration call graph: pci_scan_root_bus pci_create_root_bus pci_alloc_host_bridge device_register(pci_host_bridge) device_register(pci_bus) pcibios_add_bus(pci_bus) # pcibios pci_scan_child_bus pci_scan_slot pci_scan_single_device pci_scan_device pci_alloc_dev pci_setup_device printk("[%04x:%04x] type ...") pci_fixup_device(pci_fixup_early) # fixup PCI_HEADER_TYPE_NORMAL: pci_read_irq pci_read_bases # <-- read BARs PCI_HEADER_TYPE_BRIDGE: pci_read_irq pci_read_bases PCI_HEADER_TYPE_CARDBUS: pci_read_irq pci_read_bases pci_device_add pci_fixup_device(pci_fixup_header) # fixup pci_reassigndev_resource_alignment pci_init_capabilities pcibios_add_device # pcibios device_add pcie_aspm_init_link_state for (pass = 0; pass < 2; pass++) list_for_each_entry pci_scan_bridge pci_add_new_bus pci_alloc_child_bus pci_alloc_bus dev_set_name(pci_bus) device_register(pci_bus) pcibios_add_bus # pcibios pci_create_legacy_files pci_scan_child_bus # recursive pci_bus_add_devices list_for_each_entry(dev, &bus->devices, ...) pci_bus_add_device pci_fixup_device(pci_fixup_final) # fixup pci_create_sysfs_dev_files pci_proc_attach_device list_for_each_entry(dev, &bus->devices, ...) pci_bus_add_devices(dev->subordinate) # recursive pci_assign_unassigned_resources # from arch code list_for_each_entry(..., &pci_root_buses, ...) pci_assign_unassigned_root_bus_resources # <-- assignment __pci_bus_size_bridges pci_bridge_check_ranges pci_read_config_word(..., PCI_IO_BASE, ...) pci_read_config_word(..., PCI_PREF_MEMORY_BASE, ...) <driver> pci_enable_device pci_enable_device_flags(MEM | IO) pci_enable_bridge(pci_upstream_bridge) pci_enable_bridge(pci_upstream_bridge) # recursive pci_enable_device pci_set_master do_pci_enable_device pci_set_power_state(D0) pcibios_enable_device # pcibios pci_fixup_device(pci_fixup_enable) # fixup -- To unsubscribe from this list: send the line "unsubscribe linux-pci" in the body of a message to majordomo@xxxxxxxxxxxxxxx More majordomo info at http://vger.kernel.org/majordomo-info.html