On 4/5/22 11:24, Daniel Vetter wrote: > On Tue, 5 Apr 2022 at 11:19, Javier Martinez Canillas [snip] >> >> This is how I think that work, please let me know if you see something >> wrong in my logic: >> >> 1) A PCI device of OF device is registered for the GPU, this attempt to >> match a registered driver but no driver was registered that match yet. >> >> 2) The efifb driver is built-in, will be initialized according to the link >> order of the objects under drivers/video and the fbdev driver is registered. >> >> There is no platform device or PCI/OF device registered that matches. >> >> 3) The DRM driver is built-in, will be initialized according to the link >> order of the objects under drivers/gpu and the DRM driver is registered. >> >> This matches the device registered in (1) and the DRM driver probes. >> >> 4) The DRM driver .probe kicks out any conflicting DRM drivers and pdev >> before registering the DRM device. >> >> There are no conflicting drivers or platform device at this point. >> >> 5) Latter at some point the drivers/firmware/sysfb.c init function is >> executed, and this registers a platform device for the generic fb. >> >> This device matches the efifb driver registered in (2) and the fbdev >> driver probes. >> >> Since that happens *after* the DRM driver already matched, probed >> and registered the DRM device, that is a bug and what the reverted >> patch worked around. >> >> So we need to prevent (5) if (1) and (3) already happened. Having a flag >> set in the fbdev core somewhere when remove_conflicting_framebuffers() >> is called could be a solution indeed. >> >> That is, the fbdev core needs to know that a DRM driver already probed >> and make register_framebuffer() fail if info->flag & FBINFO_MISC_FIRMWARE >> >> I can attempt to write a patch for that. > > Ah yeah that could be an issue. I think the right fix is to replace > the platform dev unregister with a sysfb_unregister() function in > sysfb.c, which is synced with a common lock with the sysfb_init > function and a small boolean. I think I can type that up quickly for > v3. It's more complicated than that since sysfb is just *one* of the several places where platform devices can be registered for video devices. For instance, the vga16fb driver registers its own platform device in its module_init() function so that can also happen after the conflicting framebuffers (and associated devices) were removed by a DRM driver probe. I tried to minimize the issue for that particular driver with commit: https://git.kernel.org/pub/scm/linux/kernel/git/torvalds/linux.git/commit/?id=0499f419b76f But the point stands, it all boils down to the fact that you have two different subsystems registering video drivers and they don't know all about each other to take a proper decision. Right now the drm_aperture_remove_conflicting_framebuffers() call signals in one direction from DRM to fbdev but there isn't a communication in the other direction, from fbdev to DRM. I believe the correct fix would be for the fbdev core to keep a list of the apertures struct that are passed to remove_conflicting_framebuffers(), that way it will know what apertures are not available anymore and prevent to register any fbdev framebuffer that conflicts with one already present. Let me know if you think that makes sense and I can attempt to write a fix. -- Best regards, Javier Martinez Canillas Linux Engineering Red Hat