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From time to time we are asked which PCI addresses are reserved in QEMU. Let's document them in one place, it's easier than reconstructing the list from the code each time. Signed-off-by: Michal Privoznik <mprivozn@redhat.com> Reviewed-by: Laine Stump <laine@redhat.com>
288 lines
9.5 KiB
ReStructuredText
288 lines
9.5 KiB
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========================================
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PCI addresses in domain XML and guest OS
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========================================
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.. contents::
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Looking at the configuration for a guest, it would be reasonable
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to expect that each PCI device would show up in the guest OS with
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a PCI address that matches the one present in the corresponding
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``<address>`` element of the domain XML, but that's not guaranteed
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to happen and will in fact not be the case in all but the simplest
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scenarios.
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Simple cases
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============
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When the PCI topology of the VM is very simple, the PCI addresses
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will usually match.
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For example, the domain XML snippet
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::
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<controller type='pci' index='0' model='pcie-root'/>
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<controller type='pci' index='1' model='pcie-root-port'>
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<model name='pcie-root-port'/>
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<target chassis='1' port='0x8'/>
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<address type='pci' domain='0x0000' bus='0x00' slot='0x01' function='0x0'/>
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</controller>
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<interface type='network'>
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<source network='default'/>
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<model type='virtio'/>
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<address type='pci' domain='0x0000' bus='0x01' slot='0x00' function='0x0'/>
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</interface>
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will result in the PCI topology
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::
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0000:00:00.0 Host bridge: Intel Corporation 82G33/G31/P35/P31 Express DRAM Controller
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0000:00:01.0 PCI bridge: Red Hat, Inc. QEMU PCIe Root port
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0000:01:00.0 Ethernet controller: Red Hat, Inc. Virtio network device (rev 01)
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showing up in the guest OS.
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The PCI address of the ``virtio-net`` adapter, ``0000:01:00.0``, is
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the same in both cases, so there's no confusion.
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More complex cases
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==================
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In more complex cases, the PCI address visible in the domain XML will
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correlate to the one seen by the guest OS in a less obvious way.
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pcie-expander-bus
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-----------------
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This fairly uncommon device, which can be used with ``x86_64/q35``
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guests, will help illustrate one such scenario.
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For example, the domain XML snippet
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::
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<controller type='pci' index='0' model='pcie-root'/>
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<controller type='pci' index='1' model='pcie-expander-bus'>
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<model name='pxb-pcie'/>
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<target busNr='254'/>
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<address type='pci' domain='0x0000' bus='0x00' slot='0x01' function='0x0'/>
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</controller>
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<controller type='pci' index='2' model='pcie-root-port'>
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<model name='pcie-root-port'/>
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<target chassis='2' port='0x0'/>
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<address type='pci' domain='0x0000' bus='0x01' slot='0x00' function='0x0'/>
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</controller>
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<interface type='network'>
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<source network='default'/>
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<model type='virtio'/>
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<address type='pci' domain='0x0000' bus='0x02' slot='0x00' function='0x0'/>
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</interface>
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will result in the PCI topology
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::
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0000:00:00.0 Host bridge: Intel Corporation 82G33/G31/P35/P31 Express DRAM Controller
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0000:00:01.0 Host bridge: Red Hat, Inc. QEMU PCIe Expander bridge
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0000:fe:00.0 PCI bridge: Red Hat, Inc. QEMU PCIe Root port
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0000:ff:00.0 Ethernet controller: Red Hat, Inc. Virtio network device (rev 01)
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showing up in the guest OS.
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This time the addresses don't match: this is because the ``busNr``
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property for the ``pcie-expander-bus`` controller causes it to show
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up as bus 254 (``0xfe`` in hexadecimal) instead of bus 1 as one might
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expect based on its ``index`` property.
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How can the domain XML shown above work at all, then? Surely the
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``pcie-root-port`` controller and the ``virtio-net`` adapter should
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use ``bus=0xfe`` and ``bus=0xff`` respectively for the configuration
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to be accepted by libvirt?
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As it turns out, that's not the case. The reason for this is that
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QEMU, and consequently libvirt, uses the ``bus`` property of a
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device's PCI address only to match it with the PCI controller that
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has the same ``index`` property, and not to set the actual PCI
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address, which is decided by the guest OS.
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So, by looking at the XML snippet above, we can see that the
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``virtio-net`` adapter plugs into the ``pcie-root-port`` controller,
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which plugs into the ``pcie-expander-bus`` controller, which plugs
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into ``pcie-root``: the guest OS sees the same topology, but assigns
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different PCI addresses to some of its component.
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The takeaway is that the *relationship* between controllers are the
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very same whether you look at the domain XML or at the guest OS, but
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the *actual PCI addresses* are not guaranteed to match and in fact,
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except for the very simplest cases, they usually will not.
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spapr-pci-host-bridge
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---------------------
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This device, which is unique to ``ppc64/pseries`` guests, will help
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illustrate another scenario.
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For example, the domain XML snippet
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::
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<controller type='pci' index='0' model='pci-root'>
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<model name='spapr-pci-host-bridge'/>
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<target index='0'/>
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</controller>
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<controller type='pci' index='1' model='pci-root'>
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<model name='spapr-pci-host-bridge'/>
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<target index='1'/>
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</controller>
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<interface type='network'>
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<source network='default'/>
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<model type='virtio'/>
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<address type='pci' domain='0x0000' bus='0x01' slot='0x01' function='0x0'/>
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</interface>
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will result in the PCI topology
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::
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0001:00:01.0 Ethernet controller: Red Hat, Inc. Virtio network device
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showing up in the guest OS. Note that the two
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``spapr-pci-host-bridge`` controllers are not listed.
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This time, in addition to the bus not matching just like in the
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previous example, the interesting part is that the domain doesn't
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match either: this is because each ``spapr-pci-host-bridge``
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controller creates a separate PCI domain.
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Once again, while the PCI addresses seen in the domain XML and those
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seen by the guest OS do not match, the relationships between the
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various devices are preserved.
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zPCI addresses
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--------------
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For s390x machines, PCI addresses are handled yet differently. No
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topology information is relayed in the PCI addresses; instead, the
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``fid`` and ``uid`` elements of the ``zpci`` device convey information.
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In the simplest case, the following XML snippet
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::
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<controller type='pci' index='0' model='pci-root'/>
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<controller type='pci' index='1' model='pci-bridge'>
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<model name='pci-bridge'/>
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<target chassisNr='1'/>
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<address type='pci' domain='0x0000' bus='0x00' slot='0x01' function='0x0'>
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<zpci uid='0x0001' fid='0x00000000'/>
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</address>
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</controller>
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<interface type='bridge'>
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<source bridge='virbr0'/>
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<model type='virtio'/>
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<address type='pci' domain='0x0000' bus='0x01' slot='0x01' function='0x0'>
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<zpci uid='0x0007' fid='0x00000003'/>
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</address>
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</interface>
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will result in the following in a Linux guest:
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::
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0007:00:00.0 Ethernet controller: Red Hat, Inc. Virtio network device
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Note that the PCI bridge is not visible in the guest; s390x always has a flat
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topology. The PCI address in the guest is generated from the information
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provided via the ``zpci`` element: more specifically, ``uid`` is used as the
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PCI domain. ``fid`` doesn't appear in the PCI address itself, but it will be
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used in sysfs (``/sys/bus/pci/slots/$fid/...``).
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Any changes in the PCI address are not visible in the guest; replacing the PCI
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address for the ``virtio-net`` device with
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::
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<address type='pci' domain='0x0000' bus='0x01' slot='0x06' function='0x4'>
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will result in the exactly same view in the guest, as the ``fid`` and ``uid``
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values in the ``zpci`` element remain unchanged.
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Device assignment
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=================
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When using VFIO to assign host devices to a guest, an additional
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caveat to keep in mind that the guest OS will base its decisions upon
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the *target address* (guest side) rather than the *source address*
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(host side).
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For example, the domain XML snippet
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::
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<hostdev mode='subsystem' type='pci' managed='yes'>
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<driver name='vfio'/>
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<source>
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<address domain='0x0001' bus='0x08' slot='0x00' function='0x0'/>
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</source>
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<address type='pci' domain='0x0000' bus='0x00' slot='0x01' function='0x0'/>
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</hostdev>
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will result in the device showing up as ``0000:00:01.0`` in the
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guest OS rather than as ``0001:08:00.1``, which is the address of the
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device on the host.
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Of course, all the rules and behaviors described above still apply.
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Reserved addresses
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==================
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Due to some historical reasons hypervisors might expect some PCI
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devices to appear at certain addresses instead of 'random' ones.
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For QEMU this is machine type and guest architecture dependant.
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But to give you at least a gist here is list of reserved PCI
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addresses:
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For the x86_64 architecture's ``I440FX``-based machine types the following
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devices are hard coded into QEMU and can't be moved or eliminated:
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============ ======================
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0000:00:00.0 Host bridge
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0000:00:01.0 ISA bridge
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0000:00:01.1 primary IDE controller
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0000:00:01.2 PIIX3 USB controller
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0000:00:01.3 ACPI (power management) and SMBus controller
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============ ======================
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The following addresses will be used as default ones for the corresponding
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devices (if the address is free or a different address wasn't provided for the
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device). It is okay to use this address for any other device.
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============ ==================
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0000:00:02.0 primary video card
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============ ==================
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For the x86_64 architecture's ``Q35``-based machine types the following
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devices are hard coded into QEMU and can't be moved or eliminated:
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============ =======================
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0000:00:00.0 Host bridge
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0000:00:1f.2 primary SATA controller
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0000:00:1f.0 ISA bridge
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0000:00:1f.3 SMBus
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============ =======================
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The following addresses will be used as default ones for the corresponding
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devices (if the address is free or a different address wasn't provided for the
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device) because that's how real ``Q35`` would do it:
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============ ===============
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0000:00:1a.0 USB2 controller
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0000:00:1b.0 ICH9 sound chip
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0000:00:1d.0 USB2 controller
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============ ===============
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