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When we create an mdev device, we check for duplicates against the parent device and return -EEXIST if found, but the mdev device namespace is global since we'll link all devices from the bus. We do catch this later in sysfs_do_create_link_sd() to return -EEXIST, but with it comes a kernel warning and stack trace for trying to create duplicate sysfs links, which makes it an undesirable response. Therefore we should really be looking for duplicates across all mdev parent devices, or as implemented here, against our mdev device list. Using mdev_list to prevent duplicates means that we can remove mdev_parent.lock, but in order not to serialize mdev device creation and removal globally, we add mdev_device.active which allows UUIDs to be reserved such that we can drop the mdev_list_lock before the mdev device is fully in place. Two behavioral notes; first, mdev_parent.lock had the side-effect of serializing mdev create and remove ops per parent device. This was an implementation detail, not an intentional guarantee provided to the mdev vendor drivers. Vendor drivers can trivially provide this serialization internally if necessary. Second, review comments note the new -EAGAIN behavior when the device, and in particular the remove attribute, becomes visible in sysfs. If a remove is triggered prior to completion of mdev_device_create() the user will see a -EAGAIN error. While the errno is different, receiving an error during this period is not, the previous implementation returned -ENODEV for the same condition. Furthermore, the consistency to the user is improved in the case where mdev_device_remove_ops() returns error. Previously concurrent calls to mdev_device_remove() could see the device disappear with -ENODEV and return in the case of error. Now a user would see -EAGAIN while the device is in this transitory state. Reviewed-by: Kirti Wankhede <kwankhede@nvidia.com> Reviewed-by: Cornelia Huck <cohuck@redhat.com> Acked-by: Halil Pasic <pasic@linux.ibm.com> Acked-by: Zhenyu Wang <zhenyuw@linux.intel.com> Signed-off-by: Alex Williamson <alex.williamson@redhat.com>
415 lines
15 KiB
Plaintext
415 lines
15 KiB
Plaintext
.. include:: <isonum.txt>
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=====================
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VFIO Mediated devices
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=====================
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:Copyright: |copy| 2016, NVIDIA CORPORATION. All rights reserved.
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:Author: Neo Jia <cjia@nvidia.com>
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:Author: Kirti Wankhede <kwankhede@nvidia.com>
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This program is free software; you can redistribute it and/or modify
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it under the terms of the GNU General Public License version 2 as
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published by the Free Software Foundation.
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Virtual Function I/O (VFIO) Mediated devices[1]
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===============================================
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The number of use cases for virtualizing DMA devices that do not have built-in
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SR_IOV capability is increasing. Previously, to virtualize such devices,
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developers had to create their own management interfaces and APIs, and then
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integrate them with user space software. To simplify integration with user space
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software, we have identified common requirements and a unified management
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interface for such devices.
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The VFIO driver framework provides unified APIs for direct device access. It is
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an IOMMU/device-agnostic framework for exposing direct device access to user
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space in a secure, IOMMU-protected environment. This framework is used for
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multiple devices, such as GPUs, network adapters, and compute accelerators. With
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direct device access, virtual machines or user space applications have direct
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access to the physical device. This framework is reused for mediated devices.
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The mediated core driver provides a common interface for mediated device
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management that can be used by drivers of different devices. This module
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provides a generic interface to perform these operations:
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* Create and destroy a mediated device
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* Add a mediated device to and remove it from a mediated bus driver
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* Add a mediated device to and remove it from an IOMMU group
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The mediated core driver also provides an interface to register a bus driver.
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For example, the mediated VFIO mdev driver is designed for mediated devices and
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supports VFIO APIs. The mediated bus driver adds a mediated device to and
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removes it from a VFIO group.
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The following high-level block diagram shows the main components and interfaces
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in the VFIO mediated driver framework. The diagram shows NVIDIA, Intel, and IBM
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devices as examples, as these devices are the first devices to use this module::
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+---------------+
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| |
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| +-----------+ | mdev_register_driver() +--------------+
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| | | +<------------------------+ |
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| | mdev | | | |
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| | bus | +------------------------>+ vfio_mdev.ko |<-> VFIO user
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| | driver | | probe()/remove() | | APIs
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| | | | +--------------+
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| +-----------+ |
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| MDEV CORE |
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| MODULE |
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| mdev.ko |
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| +-----------+ | mdev_register_device() +--------------+
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| | | +<------------------------+ |
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| | | | | nvidia.ko |<-> physical
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| | | +------------------------>+ | device
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| | | | callbacks +--------------+
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| | Physical | |
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| | device | | mdev_register_device() +--------------+
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| | interface | |<------------------------+ |
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| | | | | i915.ko |<-> physical
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| | | +------------------------>+ | device
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| | | | callbacks +--------------+
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| | | |
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| | | | mdev_register_device() +--------------+
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| | | +<------------------------+ |
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| | | | | ccw_device.ko|<-> physical
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| | | +------------------------>+ | device
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| | | | callbacks +--------------+
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| +-----------+ |
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+---------------+
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Registration Interfaces
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=======================
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The mediated core driver provides the following types of registration
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interfaces:
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* Registration interface for a mediated bus driver
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* Physical device driver interface
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Registration Interface for a Mediated Bus Driver
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------------------------------------------------
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The registration interface for a mediated bus driver provides the following
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structure to represent a mediated device's driver::
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/*
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* struct mdev_driver [2] - Mediated device's driver
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* @name: driver name
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* @probe: called when new device created
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* @remove: called when device removed
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* @driver: device driver structure
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*/
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struct mdev_driver {
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const char *name;
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int (*probe) (struct device *dev);
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void (*remove) (struct device *dev);
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struct device_driver driver;
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};
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A mediated bus driver for mdev should use this structure in the function calls
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to register and unregister itself with the core driver:
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* Register::
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extern int mdev_register_driver(struct mdev_driver *drv,
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struct module *owner);
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* Unregister::
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extern void mdev_unregister_driver(struct mdev_driver *drv);
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The mediated bus driver is responsible for adding mediated devices to the VFIO
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group when devices are bound to the driver and removing mediated devices from
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the VFIO when devices are unbound from the driver.
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Physical Device Driver Interface
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--------------------------------
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The physical device driver interface provides the mdev_parent_ops[3] structure
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to define the APIs to manage work in the mediated core driver that is related
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to the physical device.
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The structures in the mdev_parent_ops structure are as follows:
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* dev_attr_groups: attributes of the parent device
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* mdev_attr_groups: attributes of the mediated device
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* supported_config: attributes to define supported configurations
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The functions in the mdev_parent_ops structure are as follows:
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* create: allocate basic resources in a driver for a mediated device
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* remove: free resources in a driver when a mediated device is destroyed
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(Note that mdev-core provides no implicit serialization of create/remove
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callbacks per mdev parent device, per mdev type, or any other categorization.
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Vendor drivers are expected to be fully asynchronous in this respect or
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provide their own internal resource protection.)
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The callbacks in the mdev_parent_ops structure are as follows:
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* open: open callback of mediated device
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* close: close callback of mediated device
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* ioctl: ioctl callback of mediated device
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* read : read emulation callback
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* write: write emulation callback
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* mmap: mmap emulation callback
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A driver should use the mdev_parent_ops structure in the function call to
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register itself with the mdev core driver::
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extern int mdev_register_device(struct device *dev,
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const struct mdev_parent_ops *ops);
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However, the mdev_parent_ops structure is not required in the function call
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that a driver should use to unregister itself with the mdev core driver::
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extern void mdev_unregister_device(struct device *dev);
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Mediated Device Management Interface Through sysfs
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==================================================
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The management interface through sysfs enables user space software, such as
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libvirt, to query and configure mediated devices in a hardware-agnostic fashion.
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This management interface provides flexibility to the underlying physical
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device's driver to support features such as:
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* Mediated device hot plug
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* Multiple mediated devices in a single virtual machine
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* Multiple mediated devices from different physical devices
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Links in the mdev_bus Class Directory
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-------------------------------------
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The /sys/class/mdev_bus/ directory contains links to devices that are registered
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with the mdev core driver.
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Directories and files under the sysfs for Each Physical Device
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--------------------------------------------------------------
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::
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|- [parent physical device]
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|--- Vendor-specific-attributes [optional]
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|--- [mdev_supported_types]
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| |--- [<type-id>]
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| | |--- create
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| | |--- name
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| | |--- available_instances
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| | |--- device_api
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| | |--- description
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| | |--- [devices]
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| |--- [<type-id>]
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| | |--- create
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| | |--- name
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| | |--- available_instances
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| | |--- device_api
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| | |--- description
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| | |--- [devices]
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| |--- [<type-id>]
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| |--- create
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| |--- name
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| |--- available_instances
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| |--- device_api
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| |--- description
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| |--- [devices]
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* [mdev_supported_types]
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The list of currently supported mediated device types and their details.
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[<type-id>], device_api, and available_instances are mandatory attributes
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that should be provided by vendor driver.
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* [<type-id>]
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The [<type-id>] name is created by adding the device driver string as a prefix
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to the string provided by the vendor driver. This format of this name is as
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follows::
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sprintf(buf, "%s-%s", dev_driver_string(parent->dev), group->name);
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(or using mdev_parent_dev(mdev) to arrive at the parent device outside
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of the core mdev code)
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* device_api
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This attribute should show which device API is being created, for example,
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"vfio-pci" for a PCI device.
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* available_instances
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This attribute should show the number of devices of type <type-id> that can be
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created.
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* [device]
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This directory contains links to the devices of type <type-id> that have been
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created.
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* name
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This attribute should show human readable name. This is optional attribute.
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* description
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This attribute should show brief features/description of the type. This is
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optional attribute.
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Directories and Files Under the sysfs for Each mdev Device
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----------------------------------------------------------
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::
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|- [parent phy device]
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|--- [$MDEV_UUID]
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|--- remove
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|--- mdev_type {link to its type}
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|--- vendor-specific-attributes [optional]
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* remove (write only)
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Writing '1' to the 'remove' file destroys the mdev device. The vendor driver can
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fail the remove() callback if that device is active and the vendor driver
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doesn't support hot unplug.
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Example::
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# echo 1 > /sys/bus/mdev/devices/$mdev_UUID/remove
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Mediated device Hot plug
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------------------------
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Mediated devices can be created and assigned at runtime. The procedure to hot
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plug a mediated device is the same as the procedure to hot plug a PCI device.
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Translation APIs for Mediated Devices
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=====================================
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The following APIs are provided for translating user pfn to host pfn in a VFIO
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driver::
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extern int vfio_pin_pages(struct device *dev, unsigned long *user_pfn,
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int npage, int prot, unsigned long *phys_pfn);
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extern int vfio_unpin_pages(struct device *dev, unsigned long *user_pfn,
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int npage);
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These functions call back into the back-end IOMMU module by using the pin_pages
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and unpin_pages callbacks of the struct vfio_iommu_driver_ops[4]. Currently
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these callbacks are supported in the TYPE1 IOMMU module. To enable them for
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other IOMMU backend modules, such as PPC64 sPAPR module, they need to provide
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these two callback functions.
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Using the Sample Code
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=====================
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mtty.c in samples/vfio-mdev/ directory is a sample driver program to
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demonstrate how to use the mediated device framework.
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The sample driver creates an mdev device that simulates a serial port over a PCI
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card.
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1. Build and load the mtty.ko module.
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This step creates a dummy device, /sys/devices/virtual/mtty/mtty/
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Files in this device directory in sysfs are similar to the following::
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# tree /sys/devices/virtual/mtty/mtty/
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/sys/devices/virtual/mtty/mtty/
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|-- mdev_supported_types
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| |-- mtty-1
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| | |-- available_instances
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| | |-- create
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| | |-- device_api
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| | |-- devices
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| | `-- name
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| `-- mtty-2
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| |-- available_instances
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| |-- create
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| |-- device_api
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| |-- devices
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| `-- name
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|-- mtty_dev
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| `-- sample_mtty_dev
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|-- power
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| |-- autosuspend_delay_ms
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| |-- control
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| |-- runtime_active_time
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| |-- runtime_status
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| `-- runtime_suspended_time
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|-- subsystem -> ../../../../class/mtty
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`-- uevent
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2. Create a mediated device by using the dummy device that you created in the
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previous step::
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# echo "83b8f4f2-509f-382f-3c1e-e6bfe0fa1001" > \
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/sys/devices/virtual/mtty/mtty/mdev_supported_types/mtty-2/create
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3. Add parameters to qemu-kvm::
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-device vfio-pci,\
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sysfsdev=/sys/bus/mdev/devices/83b8f4f2-509f-382f-3c1e-e6bfe0fa1001
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4. Boot the VM.
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In the Linux guest VM, with no hardware on the host, the device appears
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as follows::
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# lspci -s 00:05.0 -xxvv
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00:05.0 Serial controller: Device 4348:3253 (rev 10) (prog-if 02 [16550])
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Subsystem: Device 4348:3253
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Physical Slot: 5
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Control: I/O+ Mem- BusMaster- SpecCycle- MemWINV- VGASnoop- ParErr-
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Stepping- SERR- FastB2B- DisINTx-
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Status: Cap- 66MHz- UDF- FastB2B- ParErr- DEVSEL=medium >TAbort-
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<TAbort- <MAbort- >SERR- <PERR- INTx-
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Interrupt: pin A routed to IRQ 10
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Region 0: I/O ports at c150 [size=8]
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Region 1: I/O ports at c158 [size=8]
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Kernel driver in use: serial
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00: 48 43 53 32 01 00 00 02 10 02 00 07 00 00 00 00
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10: 51 c1 00 00 59 c1 00 00 00 00 00 00 00 00 00 00
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20: 00 00 00 00 00 00 00 00 00 00 00 00 48 43 53 32
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30: 00 00 00 00 00 00 00 00 00 00 00 00 0a 01 00 00
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In the Linux guest VM, dmesg output for the device is as follows:
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serial 0000:00:05.0: PCI INT A -> Link[LNKA] -> GSI 10 (level, high) -> IRQ 10
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0000:00:05.0: ttyS1 at I/O 0xc150 (irq = 10) is a 16550A
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0000:00:05.0: ttyS2 at I/O 0xc158 (irq = 10) is a 16550A
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5. In the Linux guest VM, check the serial ports::
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# setserial -g /dev/ttyS*
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/dev/ttyS0, UART: 16550A, Port: 0x03f8, IRQ: 4
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/dev/ttyS1, UART: 16550A, Port: 0xc150, IRQ: 10
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/dev/ttyS2, UART: 16550A, Port: 0xc158, IRQ: 10
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6. Using minicom or any terminal emulation program, open port /dev/ttyS1 or
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/dev/ttyS2 with hardware flow control disabled.
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7. Type data on the minicom terminal or send data to the terminal emulation
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program and read the data.
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Data is loop backed from hosts mtty driver.
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8. Destroy the mediated device that you created::
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# echo 1 > /sys/bus/mdev/devices/83b8f4f2-509f-382f-3c1e-e6bfe0fa1001/remove
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References
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==========
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1. See Documentation/vfio.txt for more information on VFIO.
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2. struct mdev_driver in include/linux/mdev.h
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3. struct mdev_parent_ops in include/linux/mdev.h
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4. struct vfio_iommu_driver_ops in include/linux/vfio.h
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