146 lines
5.2 KiB
ReStructuredText
146 lines
5.2 KiB
ReStructuredText
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.. SPDX-License-Identifier: GPL-2.0
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.. _virtio:
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===============
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Virtio on Linux
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===============
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Introduction
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============
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Virtio is an open standard that defines a protocol for communication
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between drivers and devices of different types, see Chapter 5 ("Device
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Types") of the virtio spec (`[1]`_). Originally developed as a standard
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for paravirtualized devices implemented by a hypervisor, it can be used
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to interface any compliant device (real or emulated) with a driver.
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For illustrative purposes, this document will focus on the common case
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of a Linux kernel running in a virtual machine and using paravirtualized
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devices provided by the hypervisor, which exposes them as virtio devices
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via standard mechanisms such as PCI.
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Device - Driver communication: virtqueues
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=========================================
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Although the virtio devices are really an abstraction layer in the
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hypervisor, they're exposed to the guest as if they are physical devices
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using a specific transport method -- PCI, MMIO or CCW -- that is
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orthogonal to the device itself. The virtio spec defines these transport
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methods in detail, including device discovery, capabilities and
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interrupt handling.
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The communication between the driver in the guest OS and the device in
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the hypervisor is done through shared memory (that's what makes virtio
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devices so efficient) using specialized data structures called
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virtqueues, which are actually ring buffers [#f1]_ of buffer descriptors
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similar to the ones used in a network device:
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.. kernel-doc:: include/uapi/linux/virtio_ring.h
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:identifiers: struct vring_desc
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All the buffers the descriptors point to are allocated by the guest and
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used by the host either for reading or for writing but not for both.
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Refer to Chapter 2.5 ("Virtqueues") of the virtio spec (`[1]`_) for the
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reference definitions of virtqueues and "Virtqueues and virtio ring: How
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the data travels" blog post (`[2]`_) for an illustrated overview of how
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the host device and the guest driver communicate.
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The :c:type:`vring_virtqueue` struct models a virtqueue, including the
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ring buffers and management data. Embedded in this struct is the
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:c:type:`virtqueue` struct, which is the data structure that's
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ultimately used by virtio drivers:
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.. kernel-doc:: include/linux/virtio.h
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:identifiers: struct virtqueue
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The callback function pointed by this struct is triggered when the
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device has consumed the buffers provided by the driver. More
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specifically, the trigger will be an interrupt issued by the hypervisor
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(see vring_interrupt()). Interrupt request handlers are registered for
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a virtqueue during the virtqueue setup process (transport-specific).
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.. kernel-doc:: drivers/virtio/virtio_ring.c
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:identifiers: vring_interrupt
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Device discovery and probing
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============================
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In the kernel, the virtio core contains the virtio bus driver and
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transport-specific drivers like `virtio-pci` and `virtio-mmio`. Then
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there are individual virtio drivers for specific device types that are
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registered to the virtio bus driver.
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How a virtio device is found and configured by the kernel depends on how
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the hypervisor defines it. Taking the `QEMU virtio-console
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<https://gitlab.com/qemu-project/qemu/-/blob/master/hw/char/virtio-console.c>`__
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device as an example. When using PCI as a transport method, the device
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will present itself on the PCI bus with vendor 0x1af4 (Red Hat, Inc.)
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and device id 0x1003 (virtio console), as defined in the spec, so the
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kernel will detect it as it would do with any other PCI device.
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During the PCI enumeration process, if a device is found to match the
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virtio-pci driver (according to the virtio-pci device table, any PCI
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device with vendor id = 0x1af4)::
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/* Qumranet donated their vendor ID for devices 0x1000 thru 0x10FF. */
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static const struct pci_device_id virtio_pci_id_table[] = {
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{ PCI_DEVICE(PCI_VENDOR_ID_REDHAT_QUMRANET, PCI_ANY_ID) },
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{ 0 }
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};
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then the virtio-pci driver is probed and, if the probing goes well, the
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device is registered to the virtio bus::
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static int virtio_pci_probe(struct pci_dev *pci_dev,
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const struct pci_device_id *id)
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{
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...
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if (force_legacy) {
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rc = virtio_pci_legacy_probe(vp_dev);
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/* Also try modern mode if we can't map BAR0 (no IO space). */
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if (rc == -ENODEV || rc == -ENOMEM)
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rc = virtio_pci_modern_probe(vp_dev);
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if (rc)
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goto err_probe;
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} else {
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rc = virtio_pci_modern_probe(vp_dev);
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if (rc == -ENODEV)
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rc = virtio_pci_legacy_probe(vp_dev);
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if (rc)
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goto err_probe;
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}
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...
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rc = register_virtio_device(&vp_dev->vdev);
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When the device is registered to the virtio bus the kernel will look
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for a driver in the bus that can handle the device and call that
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driver's ``probe`` method.
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At this point, the virtqueues will be allocated and configured by
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calling the appropriate ``virtio_find`` helper function, such as
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virtio_find_single_vq() or virtio_find_vqs(), which will end up calling
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a transport-specific ``find_vqs`` method.
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References
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==========
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_`[1]` Virtio Spec v1.2:
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https://docs.oasis-open.org/virtio/virtio/v1.2/virtio-v1.2.html
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.. Check for later versions of the spec as well.
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_`[2]` Virtqueues and virtio ring: How the data travels
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https://www.redhat.com/en/blog/virtqueues-and-virtio-ring-how-data-travels
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.. rubric:: Footnotes
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.. [#f1] that's why they may be also referred to as virtrings.
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