On Fri, Apr 29, 2016 at 03:51:49PM +0200, Ard Biesheuvel wrote: > On 29 April 2016 at 15:41, Bjorn Helgaas <helgaas@xxxxxxxxxx> wrote: > > On Thu, Apr 28, 2016 at 11:39:35PM +0200, Alexander Graf wrote: > >> On 28.04.16 20:06, Bjorn Helgaas wrote: > >> > If firmware is giving us a bare address of something, that seems like > >> > a clue that it might depend on that address staying the same. > >> > >> Well, I'd look at it from the other side. It gives us a correct address > >> on entry with the system configured at exactly the state it's in on > >> entry. If Linux changes the system, some guarantees obviously don't work > >> anymore. > > > > Can you point me to the part of the EFI spec that communicates this? > > I'm curious what the intent is and whether there's any indication that > > EFI expects the OS to preserve some configuration. I don't think it's > > reasonable for the OS to preserve this sort of configuration because > > it limits how well we can support hotplug. > > > > I wonder if we're using this frame buffer address as more than what > > EFI intended. For example, maybe it was intended for use by an early > > console driver, but there's some other mechanism we should be using > > after that. > > > > The UEFI spec describes this as follows (UEFIv2.6 section 11.9) > > """ > Graphics output may also be required as part of the startup of an > operating system. There are > potentially times in modern operating systems prior to the loading of > a high performance OS > graphics driver where access to graphics output device is required. > The Graphics Output Protocol > supports this capability by providing the EFI OS loader access to a > hardware frame buffer and > enough information to allow the OS to draw directly to the graphics > output device. > """ > > So the intent is to provide minimal framebuffer services until the > 'real' driver takes over. Makes sense. A 'real' driver for a PCI device would use pci_register_driver() and use pci_resource_start() or similar to locate the framebuffer, which would avoid the problem because the PCI core doesn't change BARs while a driver owns the device. > The GOP protocol only describes the base and size of the framebuffer, > and the pixel format. At boot time, the early UEFI code in the kernel > could potentially figure out which PCI device it is related to, if > necessary, but i am not sure if this would solve the x86 case as well. Does drivers/video/fbdev/efifb.c support only a single framebuffer device? If a system has several, how does it decide which to use? I assume UEFI would provide GOP for all the framebuffers? If we could fix this by making efifb claim a PCI device, I think that would be cleaner. I don't know how to figure out the correct device, but that would solve the "BAR changed" problem, and it would have cleaner ownership semantics, too. It looks like the current situation is that a device-specific driver (radeon, i915, etc.) could claim the device via the usual pci_register_driver() path, and the efifb driver could think it owns the device at the same time. This seems like too obvious a problem, so maybe there's some ad hoc mechanism that resolves this? -- 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