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Document the usage modes, host primary graphics considerations, usage, and fw_cfg ABI required for IGD assignment with vfio. Signed-off-by: Alex Williamson <alex.williamson@redhat.com> Reviewed-by: Gerd Hoffmann <kraxel@redhat.com> Tested-by: Gerd Hoffmann <kraxel@redhat.com>
134 lines
7.1 KiB
Plaintext
134 lines
7.1 KiB
Plaintext
Intel Graphics Device (IGD) assignment with vfio-pci
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====================================================
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IGD has two different modes for assignment using vfio-pci:
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1) Universal Pass-Through (UPT) mode:
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In this mode the IGD device is added as a *secondary* (ie. non-primary)
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graphics device in combination with an emulated primary graphics device.
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This mode *requires* guest driver support to remove the external
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dependencies generally associated with IGD (see below). Those guest
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drivers only support this mode for Broadwell and newer IGD, according to
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Intel. Additionally, this mode by default, and as officially supported
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by Intel, does not support direct video output. The intention is to use
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this mode either to provide hardware acceleration to the emulated graphics
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or to use this mode in combination with guest-based remote access software,
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for example VNC (see below for optional output support). This mode
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theoretically has no device specific handling dependencies on vfio-pci or
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the VM firmware.
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2) "Legacy" mode:
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In this mode the IGD device is intended to be the primary and exclusive
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graphics device in the VM[1], as such QEMU does not facilitate any sort
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of remote graphics to the VM in this mode. A connected physical monitor
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is the intended output device for IGD. This mode includes several
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requirements and restrictions:
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* IGD must be given address 02.0 on the PCI root bus in the VM
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* The host kernel must support vfio extensions for IGD (v4.6)
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* vfio VGA support very likely needs to be enabled in the host kernel
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* The VM firmware must support specific fw_cfg enablers for IGD
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* The VM machine type must support a PCI host bridge at 00.0 (standard)
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* The VM machine type must provide or allow to be created a special
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ISA/LPC bridge device (vfio-pci-igd-lpc-bridge) on the root bus at
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PCI address 1f.0.
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* The IGD device must have a VGA ROM, either provided via the romfile
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option or loaded automatically through vfio (standard). rombar=0
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will disable legacy mode support.
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* Hotplug of the IGD device is not supported.
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* The IGD device must be a SandyBridge or newer model device.
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For either mode, depending on the host kernel, the i915 driver in the host
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may generate faults and errors upon re-binding to an IGD device after it
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has been assigned to a VM. It's therefore generally recommended to prevent
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such driver binding unless the host driver is known to work well for this.
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There are numerous ways to do this, i915 can be blacklisted on the host,
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the driver_override option can be used to ensure that only vfio-pci can bind
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to the device on the host[2], virsh nodedev-detach can be used to bind the
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device to vfio drivers and then managed='no' set in the VM xml to prevent
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re-binding to i915, etc. Also note that IGD is also typically the primary
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graphics in the host and special options may be required beyond simply
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blacklisting i915 or using pci-stub/vfio-pci to take ownership of IGD as a
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PCI class device. Lower level drivers exist that may still claim the device.
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It may therefore be necessary to use kernel boot options video=vesafb:off or
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video=efifb:off (depending on host BIOS/UEFI) or these can be combined to
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a catch-all, video=vesafb:off,efifb:off. Error messages such as:
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Failed to mmap 0000:00:02.0 BAR <>. Performance may be slow
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are a good indicator that such a problem exists. The host files /proc/iomem
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and /proc/ioports are often useful for identifying drivers consuming ranges
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of the device to cause such conflicts.
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Additionally, IGD device are known to generate small numbers of DMAR faults
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when initially assigned. It is believed that this is simply the IGD attempting
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to access the reserved GTT space after reset, which it no longer has access to
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when accessed from userspace. So long as the DMAR faults are small in number
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and most importantly, not ongoing, these are not an indication of an error.
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Additionally++, analog VGA output (as opposed to digital outputs like HDMI,
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DVI, or DisplayPort) may be unsupported in some use cases. In the author's
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experience, even DP to VGA adapters can be troublesome while adapters between
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digital formats work well.
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Usage
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=====
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The intention is for IGD assignment to be transparent for users and thus for
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management tools like libvirt. To make use of legacy mode, simply remove all
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other graphics options and use "-nographic" and either "-vga none" or
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"-nodefaults", along with adding the device using vfio-pci:
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-device vfio-pci,host=00:02.0,id=hostdev0,bus=pci.0,addr=0x2
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For UPT mode, retain the default emulated graphics and simply add the vfio-pci
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device making use of any other bus address other than 02.0. libvirt will
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default to assigning the device a UPT compatible address while legacy mode
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users will need to manually edit the XML if using a tool like virt-manager
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where the VM device address is not expressly specified.
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An experimental vfio-pci option also exists to enable OpRegion, and thus
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external monitor support, for UPT mode. This can be enabled by adding
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"x-igd-opregion=on" to the vfio-pci device options for the IGD device. As
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with legacy mode, this requires the host to support features introduced in
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the v4.6 kernel. If Intel chooses to embrace this support, the option may
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be made non-experimental in the future, opening it to libvirt support.
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Developer ABI
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=============
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Legacy mode IGD support imposes two fw_cfg requirements on the VM firmware:
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1) "etc/igd-opregion"
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This fw_cfg file exposes the OpRegion for the IGD device. A reserved
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region should be created below 4GB (recommended 4KB alignment), sized
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sufficient for the fw_cfg file size, and the content of this file copied
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to it. The dword based address of this reserved memory region must also
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be written to the ASLS register at offset 0xFC on the IGD device. It is
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recommended that firmware should make use of this fw_cfg entry for any
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PCI class VGA device with Intel vendor ID. Multiple of such devices
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within a VM is undefined.
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2) "etc/igd-bdsm-size"
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This fw_cfg file contains an 8-byte, little endian integer indicating
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the size of the reserved memory region required for IGD stolen memory.
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Firmware must allocate a reserved memory below 4GB with required 1MB
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alignment equal to this size. Additionally the base address of this
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reserved region must be written to the dword BDSM register in PCI config
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space of the IGD device at offset 0x5C. As this support is related to
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running the IGD ROM, which has other dependencies on the device appearing
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at guest address 00:02.0, it's expected that this fw_cfg file is only
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relevant to a single PCI class VGA device with Intel vendor ID, appearing
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at PCI bus address 00:02.0.
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Footnotes
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=========
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[1] Nothing precludes adding additional emulated or assigned graphics devices
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as non-primary, other than the combination typically not working. I only
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intend to set user expectations, others are welcome to find working
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combinations or fix whatever issues prevent this from working in the common
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case.
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[2] # echo "vfio-pci" > /sys/bus/pci/devices/0000:00:02.0/driver_override
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