866 строки
35 KiB
ReStructuredText
866 строки
35 KiB
ReStructuredText
===============================
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Adjunct Processor (AP) facility
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===============================
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Introduction
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============
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The Adjunct Processor (AP) facility is an IBM Z cryptographic facility comprised
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of three AP instructions and from 1 up to 256 PCIe cryptographic adapter cards.
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The AP devices provide cryptographic functions to all CPUs assigned to a
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linux system running in an IBM Z system LPAR.
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The AP adapter cards are exposed via the AP bus. The motivation for vfio-ap
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is to make AP cards available to KVM guests using the VFIO mediated device
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framework. This implementation relies considerably on the s390 virtualization
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facilities which do most of the hard work of providing direct access to AP
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devices.
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AP Architectural Overview
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=========================
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To facilitate the comprehension of the design, let's start with some
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definitions:
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* AP adapter
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An AP adapter is an IBM Z adapter card that can perform cryptographic
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functions. There can be from 0 to 256 adapters assigned to an LPAR. Adapters
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assigned to the LPAR in which a linux host is running will be available to
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the linux host. Each adapter is identified by a number from 0 to 255; however,
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the maximum adapter number is determined by machine model and/or adapter type.
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When installed, an AP adapter is accessed by AP instructions executed by any
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CPU.
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The AP adapter cards are assigned to a given LPAR via the system's Activation
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Profile which can be edited via the HMC. When the linux host system is IPL'd
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in the LPAR, the AP bus detects the AP adapter cards assigned to the LPAR and
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creates a sysfs device for each assigned adapter. For example, if AP adapters
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4 and 10 (0x0a) are assigned to the LPAR, the AP bus will create the following
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sysfs device entries::
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/sys/devices/ap/card04
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/sys/devices/ap/card0a
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Symbolic links to these devices will also be created in the AP bus devices
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sub-directory::
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/sys/bus/ap/devices/[card04]
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/sys/bus/ap/devices/[card04]
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* AP domain
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An adapter is partitioned into domains. An adapter can hold up to 256 domains
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depending upon the adapter type and hardware configuration. A domain is
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identified by a number from 0 to 255; however, the maximum domain number is
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determined by machine model and/or adapter type.. A domain can be thought of
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as a set of hardware registers and memory used for processing AP commands. A
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domain can be configured with a secure private key used for clear key
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encryption. A domain is classified in one of two ways depending upon how it
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may be accessed:
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* Usage domains are domains that are targeted by an AP instruction to
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process an AP command.
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* Control domains are domains that are changed by an AP command sent to a
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usage domain; for example, to set the secure private key for the control
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domain.
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The AP usage and control domains are assigned to a given LPAR via the system's
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Activation Profile which can be edited via the HMC. When a linux host system
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is IPL'd in the LPAR, the AP bus module detects the AP usage and control
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domains assigned to the LPAR. The domain number of each usage domain and
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adapter number of each AP adapter are combined to create AP queue devices
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(see AP Queue section below). The domain number of each control domain will be
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represented in a bitmask and stored in a sysfs file
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/sys/bus/ap/ap_control_domain_mask. The bits in the mask, from most to least
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significant bit, correspond to domains 0-255.
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* AP Queue
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An AP queue is the means by which an AP command is sent to a usage domain
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inside a specific adapter. An AP queue is identified by a tuple
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comprised of an AP adapter ID (APID) and an AP queue index (APQI). The
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APQI corresponds to a given usage domain number within the adapter. This tuple
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forms an AP Queue Number (APQN) uniquely identifying an AP queue. AP
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instructions include a field containing the APQN to identify the AP queue to
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which the AP command is to be sent for processing.
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The AP bus will create a sysfs device for each APQN that can be derived from
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the cross product of the AP adapter and usage domain numbers detected when the
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AP bus module is loaded. For example, if adapters 4 and 10 (0x0a) and usage
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domains 6 and 71 (0x47) are assigned to the LPAR, the AP bus will create the
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following sysfs entries::
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/sys/devices/ap/card04/04.0006
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/sys/devices/ap/card04/04.0047
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/sys/devices/ap/card0a/0a.0006
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/sys/devices/ap/card0a/0a.0047
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The following symbolic links to these devices will be created in the AP bus
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devices subdirectory::
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/sys/bus/ap/devices/[04.0006]
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/sys/bus/ap/devices/[04.0047]
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/sys/bus/ap/devices/[0a.0006]
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/sys/bus/ap/devices/[0a.0047]
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* AP Instructions:
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There are three AP instructions:
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* NQAP: to enqueue an AP command-request message to a queue
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* DQAP: to dequeue an AP command-reply message from a queue
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* PQAP: to administer the queues
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AP instructions identify the domain that is targeted to process the AP
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command; this must be one of the usage domains. An AP command may modify a
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domain that is not one of the usage domains, but the modified domain
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must be one of the control domains.
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AP and SIE
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==========
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Let's now take a look at how AP instructions executed on a guest are interpreted
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by the hardware.
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A satellite control block called the Crypto Control Block (CRYCB) is attached to
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our main hardware virtualization control block. The CRYCB contains three fields
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to identify the adapters, usage domains and control domains assigned to the KVM
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guest:
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* The AP Mask (APM) field is a bit mask that identifies the AP adapters assigned
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to the KVM guest. Each bit in the mask, from left to right (i.e. from most
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significant to least significant bit in big endian order), corresponds to
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an APID from 0-255. If a bit is set, the corresponding adapter is valid for
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use by the KVM guest.
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* The AP Queue Mask (AQM) field is a bit mask identifying the AP usage domains
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assigned to the KVM guest. Each bit in the mask, from left to right (i.e. from
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most significant to least significant bit in big endian order), corresponds to
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an AP queue index (APQI) from 0-255. If a bit is set, the corresponding queue
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is valid for use by the KVM guest.
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* The AP Domain Mask field is a bit mask that identifies the AP control domains
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assigned to the KVM guest. The ADM bit mask controls which domains can be
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changed by an AP command-request message sent to a usage domain from the
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guest. Each bit in the mask, from left to right (i.e. from most significant to
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least significant bit in big endian order), corresponds to a domain from
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0-255. If a bit is set, the corresponding domain can be modified by an AP
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command-request message sent to a usage domain.
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If you recall from the description of an AP Queue, AP instructions include
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an APQN to identify the AP queue to which an AP command-request message is to be
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sent (NQAP and PQAP instructions), or from which a command-reply message is to
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be received (DQAP instruction). The validity of an APQN is defined by the matrix
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calculated from the APM and AQM; it is the cross product of all assigned adapter
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numbers (APM) with all assigned queue indexes (AQM). For example, if adapters 1
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and 2 and usage domains 5 and 6 are assigned to a guest, the APQNs (1,5), (1,6),
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(2,5) and (2,6) will be valid for the guest.
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The APQNs can provide secure key functionality - i.e., a private key is stored
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on the adapter card for each of its domains - so each APQN must be assigned to
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at most one guest or to the linux host::
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Example 1: Valid configuration:
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------------------------------
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Guest1: adapters 1,2 domains 5,6
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Guest2: adapter 1,2 domain 7
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This is valid because both guests have a unique set of APQNs:
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Guest1 has APQNs (1,5), (1,6), (2,5), (2,6);
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Guest2 has APQNs (1,7), (2,7)
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Example 2: Valid configuration:
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------------------------------
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Guest1: adapters 1,2 domains 5,6
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Guest2: adapters 3,4 domains 5,6
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This is also valid because both guests have a unique set of APQNs:
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Guest1 has APQNs (1,5), (1,6), (2,5), (2,6);
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Guest2 has APQNs (3,5), (3,6), (4,5), (4,6)
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Example 3: Invalid configuration:
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--------------------------------
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Guest1: adapters 1,2 domains 5,6
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Guest2: adapter 1 domains 6,7
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This is an invalid configuration because both guests have access to
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APQN (1,6).
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The Design
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==========
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The design introduces three new objects:
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1. AP matrix device
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2. VFIO AP device driver (vfio_ap.ko)
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3. VFIO AP mediated matrix pass-through device
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The VFIO AP device driver
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-------------------------
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The VFIO AP (vfio_ap) device driver serves the following purposes:
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1. Provides the interfaces to secure APQNs for exclusive use of KVM guests.
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2. Sets up the VFIO mediated device interfaces to manage a mediated matrix
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device and creates the sysfs interfaces for assigning adapters, usage
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domains, and control domains comprising the matrix for a KVM guest.
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3. Configures the APM, AQM and ADM in the CRYCB referenced by a KVM guest's
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SIE state description to grant the guest access to a matrix of AP devices
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Reserve APQNs for exclusive use of KVM guests
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---------------------------------------------
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The following block diagram illustrates the mechanism by which APQNs are
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reserved::
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+------------------+
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7 remove | |
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+--------------------> cex4queue driver |
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| | |
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| +------------------+
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| +------------------+ +----------------+
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| 5 register driver | | 3 create | |
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| +----------------> Device core +----------> matrix device |
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| | | | | |
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| | +--------^---------+ +----------------+
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| | |
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| | +-------------------+
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| | +-----------------------------------+ |
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| | | 4 register AP driver | | 2 register device
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+--------+---+-v---+ +--------+-------+-+
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| ap_bus +--------------------- > vfio_ap driver |
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| | 8 probe | |
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+--------^---------+ +--^--^------------+
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6 edit | | |
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apmask | +-----------------------------+ | 9 mdev create
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aqmask | | 1 modprobe |
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+--------+-----+---+ +----------------+-+ +----------------+
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| | | |8 create | mediated |
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| admin | | VFIO device core |---------> matrix |
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| + | | | device |
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+------+-+---------+ +--------^---------+ +--------^-------+
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| | 9 create vfio_ap-passthrough | |
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| +------------------------------+ |
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+-------------------------------------------------------------+
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10 assign adapter/domain/control domain
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The process for reserving an AP queue for use by a KVM guest is:
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1. The administrator loads the vfio_ap device driver
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2. The vfio-ap driver during its initialization will register a single 'matrix'
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device with the device core. This will serve as the parent device for
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all mediated matrix devices used to configure an AP matrix for a guest.
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3. The /sys/devices/vfio_ap/matrix device is created by the device core
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4. The vfio_ap device driver will register with the AP bus for AP queue devices
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of type 10 and higher (CEX4 and newer). The driver will provide the vfio_ap
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driver's probe and remove callback interfaces. Devices older than CEX4 queues
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are not supported to simplify the implementation by not needlessly
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complicating the design by supporting older devices that will go out of
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service in the relatively near future, and for which there are few older
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systems around on which to test.
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5. The AP bus registers the vfio_ap device driver with the device core
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6. The administrator edits the AP adapter and queue masks to reserve AP queues
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for use by the vfio_ap device driver.
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7. The AP bus removes the AP queues reserved for the vfio_ap driver from the
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default zcrypt cex4queue driver.
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8. The AP bus probes the vfio_ap device driver to bind the queues reserved for
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it.
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9. The administrator creates a passthrough type mediated matrix device to be
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used by a guest
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10. The administrator assigns the adapters, usage domains and control domains
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to be exclusively used by a guest.
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Set up the VFIO mediated device interfaces
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------------------------------------------
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The VFIO AP device driver utilizes the common interface of the VFIO mediated
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device core driver to:
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* Register an AP mediated bus driver to add a mediated matrix device to and
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remove it from a VFIO group.
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* Create and destroy a mediated matrix device
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* Add a mediated matrix device to and remove it from the AP mediated bus driver
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* Add a mediated matrix device to and remove it from an IOMMU group
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The following high-level block diagram shows the main components and interfaces
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of the VFIO AP mediated matrix device driver::
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+-------------+
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| +---------+ | mdev_register_driver() +--------------+
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| | Mdev | +<-----------------------+ |
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| | bus | | | vfio_mdev.ko |
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| | driver | +----------------------->+ |<-> VFIO user
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| +---------+ | probe()/remove() +--------------+ APIs
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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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| |Physical | +<-----------------------+ |
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| | device | | | vfio_ap.ko |<-> matrix
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| |interface| +----------------------->+ | device
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| +---------+ | callback +--------------+
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+-------------+
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During initialization of the vfio_ap module, the matrix device is registered
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with an 'mdev_parent_ops' structure that provides the sysfs attribute
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structures, mdev functions and callback interfaces for managing the mediated
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matrix device.
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* sysfs attribute structures:
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supported_type_groups
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The VFIO mediated device framework supports creation of user-defined
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mediated device types. These mediated device types are specified
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via the 'supported_type_groups' structure when a device is registered
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with the mediated device framework. The registration process creates the
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sysfs structures for each mediated device type specified in the
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'mdev_supported_types' sub-directory of the device being registered. Along
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with the device type, the sysfs attributes of the mediated device type are
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provided.
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The VFIO AP device driver will register one mediated device type for
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passthrough devices:
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/sys/devices/vfio_ap/matrix/mdev_supported_types/vfio_ap-passthrough
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Only the read-only attributes required by the VFIO mdev framework will
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be provided::
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... name
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... device_api
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... available_instances
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... device_api
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Where:
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* name:
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specifies the name of the mediated device type
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* device_api:
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the mediated device type's API
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* available_instances:
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the number of mediated matrix passthrough devices
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that can be created
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* device_api:
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specifies the VFIO API
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mdev_attr_groups
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This attribute group identifies the user-defined sysfs attributes of the
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mediated device. When a device is registered with the VFIO mediated device
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framework, the sysfs attribute files identified in the 'mdev_attr_groups'
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structure will be created in the mediated matrix device's directory. The
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sysfs attributes for a mediated matrix device are:
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assign_adapter / unassign_adapter:
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Write-only attributes for assigning/unassigning an AP adapter to/from the
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mediated matrix device. To assign/unassign an adapter, the APID of the
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adapter is echoed to the respective attribute file.
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assign_domain / unassign_domain:
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Write-only attributes for assigning/unassigning an AP usage domain to/from
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the mediated matrix device. To assign/unassign a domain, the domain
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number of the usage domain is echoed to the respective attribute
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file.
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matrix:
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A read-only file for displaying the APQNs derived from the cross product
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of the adapter and domain numbers assigned to the mediated matrix device.
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assign_control_domain / unassign_control_domain:
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Write-only attributes for assigning/unassigning an AP control domain
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to/from the mediated matrix device. To assign/unassign a control domain,
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the ID of the domain to be assigned/unassigned is echoed to the respective
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attribute file.
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control_domains:
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A read-only file for displaying the control domain numbers assigned to the
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mediated matrix device.
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* functions:
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create:
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allocates the ap_matrix_mdev structure used by the vfio_ap driver to:
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* Store the reference to the KVM structure for the guest using the mdev
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* Store the AP matrix configuration for the adapters, domains, and control
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domains assigned via the corresponding sysfs attributes files
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remove:
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deallocates the mediated matrix device's ap_matrix_mdev structure. This will
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be allowed only if a running guest is not using the mdev.
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* callback interfaces
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open:
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The vfio_ap driver uses this callback to register a
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VFIO_GROUP_NOTIFY_SET_KVM notifier callback function for the mdev matrix
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device. The open is invoked when QEMU connects the VFIO iommu group
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for the mdev matrix device to the MDEV bus. Access to the KVM structure used
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to configure the KVM guest is provided via this callback. The KVM structure,
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is used to configure the guest's access to the AP matrix defined via the
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mediated matrix device's sysfs attribute files.
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release:
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unregisters the VFIO_GROUP_NOTIFY_SET_KVM notifier callback function for the
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mdev matrix device and deconfigures the guest's AP matrix.
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Configure the APM, AQM and ADM in the CRYCB
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-------------------------------------------
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Configuring the AP matrix for a KVM guest will be performed when the
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VFIO_GROUP_NOTIFY_SET_KVM notifier callback is invoked. The notifier
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function is called when QEMU connects to KVM. The guest's AP matrix is
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configured via it's CRYCB by:
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* Setting the bits in the APM corresponding to the APIDs assigned to the
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mediated matrix device via its 'assign_adapter' interface.
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* Setting the bits in the AQM corresponding to the domains assigned to the
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mediated matrix device via its 'assign_domain' interface.
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* Setting the bits in the ADM corresponding to the domain dIDs assigned to the
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mediated matrix device via its 'assign_control_domains' interface.
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The CPU model features for AP
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-----------------------------
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The AP stack relies on the presence of the AP instructions as well as two
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facilities: The AP Facilities Test (APFT) facility; and the AP Query
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Configuration Information (QCI) facility. These features/facilities are made
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available to a KVM guest via the following CPU model features:
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1. ap: Indicates whether the AP instructions are installed on the guest. This
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feature will be enabled by KVM only if the AP instructions are installed
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on the host.
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2. apft: Indicates the APFT facility is available on the guest. This facility
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can be made available to the guest only if it is available on the host (i.e.,
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facility bit 15 is set).
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3. apqci: Indicates the AP QCI facility is available on the guest. This facility
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can be made available to the guest only if it is available on the host (i.e.,
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facility bit 12 is set).
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Note: If the user chooses to specify a CPU model different than the 'host'
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model to QEMU, the CPU model features and facilities need to be turned on
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explicitly; for example::
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/usr/bin/qemu-system-s390x ... -cpu z13,ap=on,apqci=on,apft=on
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A guest can be precluded from using AP features/facilities by turning them off
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explicitly; for example::
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/usr/bin/qemu-system-s390x ... -cpu host,ap=off,apqci=off,apft=off
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Note: If the APFT facility is turned off (apft=off) for the guest, the guest
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will not see any AP devices. The zcrypt device drivers that register for type 10
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and newer AP devices - i.e., the cex4card and cex4queue device drivers - need
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the APFT facility to ascertain the facilities installed on a given AP device. If
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the APFT facility is not installed on the guest, then the probe of device
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drivers will fail since only type 10 and newer devices can be configured for
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guest use.
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Example
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=======
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Let's now provide an example to illustrate how KVM guests may be given
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access to AP facilities. For this example, we will show how to configure
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three guests such that executing the lszcrypt command on the guests would
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look like this:
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Guest1
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------
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=========== ===== ============
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CARD.DOMAIN TYPE MODE
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=========== ===== ============
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05 CEX5C CCA-Coproc
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05.0004 CEX5C CCA-Coproc
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05.00ab CEX5C CCA-Coproc
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06 CEX5A Accelerator
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06.0004 CEX5A Accelerator
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06.00ab CEX5C CCA-Coproc
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=========== ===== ============
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Guest2
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------
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=========== ===== ============
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CARD.DOMAIN TYPE MODE
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=========== ===== ============
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05 CEX5A Accelerator
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05.0047 CEX5A Accelerator
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05.00ff CEX5A Accelerator
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=========== ===== ============
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Guest3
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------
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=========== ===== ============
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CARD.DOMAIN TYPE MODE
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=========== ===== ============
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06 CEX5A Accelerator
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06.0047 CEX5A Accelerator
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06.00ff CEX5A Accelerator
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=========== ===== ============
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These are the steps:
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1. Install the vfio_ap module on the linux host. The dependency chain for the
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vfio_ap module is:
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* iommu
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* s390
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* zcrypt
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* vfio
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* vfio_mdev
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* vfio_mdev_device
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* KVM
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To build the vfio_ap module, the kernel build must be configured with the
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following Kconfig elements selected:
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* IOMMU_SUPPORT
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* S390
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* ZCRYPT
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* S390_AP_IOMMU
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* VFIO
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* VFIO_MDEV
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* KVM
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If using make menuconfig select the following to build the vfio_ap module::
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-> Device Drivers
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-> IOMMU Hardware Support
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select S390 AP IOMMU Support
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-> VFIO Non-Privileged userspace driver framework
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-> Mediated device driver frramework
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-> VFIO driver for Mediated devices
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-> I/O subsystem
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-> VFIO support for AP devices
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2. Secure the AP queues to be used by the three guests so that the host can not
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access them. To secure them, there are two sysfs files that specify
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bitmasks marking a subset of the APQN range as 'usable by the default AP
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queue device drivers' or 'not usable by the default device drivers' and thus
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available for use by the vfio_ap device driver'. The location of the sysfs
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files containing the masks are::
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/sys/bus/ap/apmask
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/sys/bus/ap/aqmask
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The 'apmask' is a 256-bit mask that identifies a set of AP adapter IDs
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(APID). Each bit in the mask, from left to right (i.e., from most significant
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to least significant bit in big endian order), corresponds to an APID from
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0-255. If a bit is set, the APID is marked as usable only by the default AP
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queue device drivers; otherwise, the APID is usable by the vfio_ap
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device driver.
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The 'aqmask' is a 256-bit mask that identifies a set of AP queue indexes
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(APQI). Each bit in the mask, from left to right (i.e., from most significant
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to least significant bit in big endian order), corresponds to an APQI from
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0-255. If a bit is set, the APQI is marked as usable only by the default AP
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queue device drivers; otherwise, the APQI is usable by the vfio_ap device
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driver.
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Take, for example, the following mask::
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0x7dffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffff
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It indicates:
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1, 2, 3, 4, 5, and 7-255 belong to the default drivers' pool, and 0 and 6
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belong to the vfio_ap device driver's pool.
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The APQN of each AP queue device assigned to the linux host is checked by the
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AP bus against the set of APQNs derived from the cross product of APIDs
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and APQIs marked as usable only by the default AP queue device drivers. If a
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match is detected, only the default AP queue device drivers will be probed;
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otherwise, the vfio_ap device driver will be probed.
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By default, the two masks are set to reserve all APQNs for use by the default
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AP queue device drivers. There are two ways the default masks can be changed:
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1. The sysfs mask files can be edited by echoing a string into the
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respective sysfs mask file in one of two formats:
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* An absolute hex string starting with 0x - like "0x12345678" - sets
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the mask. If the given string is shorter than the mask, it is padded
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with 0s on the right; for example, specifying a mask value of 0x41 is
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the same as specifying::
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0x4100000000000000000000000000000000000000000000000000000000000000
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Keep in mind that the mask reads from left to right (i.e., most
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significant to least significant bit in big endian order), so the mask
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above identifies device numbers 1 and 7 (01000001).
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If the string is longer than the mask, the operation is terminated with
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an error (EINVAL).
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* Individual bits in the mask can be switched on and off by specifying
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each bit number to be switched in a comma separated list. Each bit
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number string must be prepended with a ('+') or minus ('-') to indicate
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the corresponding bit is to be switched on ('+') or off ('-'). Some
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valid values are:
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- "+0" switches bit 0 on
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- "-13" switches bit 13 off
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- "+0x41" switches bit 65 on
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- "-0xff" switches bit 255 off
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The following example:
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+0,-6,+0x47,-0xf0
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Switches bits 0 and 71 (0x47) on
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Switches bits 6 and 240 (0xf0) off
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Note that the bits not specified in the list remain as they were before
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the operation.
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2. The masks can also be changed at boot time via parameters on the kernel
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command line like this:
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ap.apmask=0xffff ap.aqmask=0x40
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This would create the following masks::
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apmask:
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0xffff000000000000000000000000000000000000000000000000000000000000
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aqmask:
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0x4000000000000000000000000000000000000000000000000000000000000000
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Resulting in these two pools::
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default drivers pool: adapter 0-15, domain 1
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alternate drivers pool: adapter 16-255, domains 0, 2-255
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Securing the APQNs for our example
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----------------------------------
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To secure the AP queues 05.0004, 05.0047, 05.00ab, 05.00ff, 06.0004, 06.0047,
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06.00ab, and 06.00ff for use by the vfio_ap device driver, the corresponding
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APQNs can either be removed from the default masks::
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echo -5,-6 > /sys/bus/ap/apmask
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echo -4,-0x47,-0xab,-0xff > /sys/bus/ap/aqmask
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Or the masks can be set as follows::
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echo 0xf9ffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffff \
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> apmask
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echo 0xf7fffffffffffffffeffffffffffffffffffffffffeffffffffffffffffffffe \
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> aqmask
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This will result in AP queues 05.0004, 05.0047, 05.00ab, 05.00ff, 06.0004,
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06.0047, 06.00ab, and 06.00ff getting bound to the vfio_ap device driver. The
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sysfs directory for the vfio_ap device driver will now contain symbolic links
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to the AP queue devices bound to it::
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/sys/bus/ap
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... [drivers]
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...... [vfio_ap]
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......... [05.0004]
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......... [05.0047]
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......... [05.00ab]
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......... [05.00ff]
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......... [06.0004]
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......... [06.0047]
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......... [06.00ab]
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......... [06.00ff]
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Keep in mind that only type 10 and newer adapters (i.e., CEX4 and later)
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can be bound to the vfio_ap device driver. The reason for this is to
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simplify the implementation by not needlessly complicating the design by
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supporting older devices that will go out of service in the relatively near
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future and for which there are few older systems on which to test.
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The administrator, therefore, must take care to secure only AP queues that
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can be bound to the vfio_ap device driver. The device type for a given AP
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queue device can be read from the parent card's sysfs directory. For example,
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to see the hardware type of the queue 05.0004:
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cat /sys/bus/ap/devices/card05/hwtype
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The hwtype must be 10 or higher (CEX4 or newer) in order to be bound to the
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vfio_ap device driver.
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3. Create the mediated devices needed to configure the AP matrixes for the
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three guests and to provide an interface to the vfio_ap driver for
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use by the guests::
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/sys/devices/vfio_ap/matrix/
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--- [mdev_supported_types]
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------ [vfio_ap-passthrough] (passthrough mediated matrix device type)
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--------- create
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--------- [devices]
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To create the mediated devices for the three guests::
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uuidgen > create
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uuidgen > create
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uuidgen > create
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or
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echo $uuid1 > create
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echo $uuid2 > create
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echo $uuid3 > create
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This will create three mediated devices in the [devices] subdirectory named
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after the UUID written to the create attribute file. We call them $uuid1,
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$uuid2 and $uuid3 and this is the sysfs directory structure after creation::
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/sys/devices/vfio_ap/matrix/
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--- [mdev_supported_types]
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------ [vfio_ap-passthrough]
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--------- [devices]
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------------ [$uuid1]
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--------------- assign_adapter
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--------------- assign_control_domain
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--------------- assign_domain
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--------------- matrix
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--------------- unassign_adapter
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--------------- unassign_control_domain
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--------------- unassign_domain
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------------ [$uuid2]
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--------------- assign_adapter
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--------------- assign_control_domain
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--------------- assign_domain
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--------------- matrix
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--------------- unassign_adapter
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----------------unassign_control_domain
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----------------unassign_domain
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------------ [$uuid3]
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--------------- assign_adapter
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--------------- assign_control_domain
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--------------- assign_domain
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--------------- matrix
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--------------- unassign_adapter
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----------------unassign_control_domain
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----------------unassign_domain
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4. The administrator now needs to configure the matrixes for the mediated
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devices $uuid1 (for Guest1), $uuid2 (for Guest2) and $uuid3 (for Guest3).
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This is how the matrix is configured for Guest1::
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echo 5 > assign_adapter
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echo 6 > assign_adapter
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echo 4 > assign_domain
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echo 0xab > assign_domain
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Control domains can similarly be assigned using the assign_control_domain
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sysfs file.
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If a mistake is made configuring an adapter, domain or control domain,
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you can use the unassign_xxx files to unassign the adapter, domain or
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control domain.
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To display the matrix configuration for Guest1::
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cat matrix
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This is how the matrix is configured for Guest2::
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echo 5 > assign_adapter
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echo 0x47 > assign_domain
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echo 0xff > assign_domain
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This is how the matrix is configured for Guest3::
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echo 6 > assign_adapter
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echo 0x47 > assign_domain
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echo 0xff > assign_domain
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In order to successfully assign an adapter:
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* The adapter number specified must represent a value from 0 up to the
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maximum adapter number configured for the system. If an adapter number
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higher than the maximum is specified, the operation will terminate with
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an error (ENODEV).
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* All APQNs that can be derived from the adapter ID and the IDs of
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the previously assigned domains must be bound to the vfio_ap device
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driver. If no domains have yet been assigned, then there must be at least
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one APQN with the specified APID bound to the vfio_ap driver. If no such
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APQNs are bound to the driver, the operation will terminate with an
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error (EADDRNOTAVAIL).
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No APQN that can be derived from the adapter ID and the IDs of the
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previously assigned domains can be assigned to another mediated matrix
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device. If an APQN is assigned to another mediated matrix device, the
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operation will terminate with an error (EADDRINUSE).
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In order to successfully assign a domain:
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* The domain number specified must represent a value from 0 up to the
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maximum domain number configured for the system. If a domain number
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higher than the maximum is specified, the operation will terminate with
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an error (ENODEV).
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* All APQNs that can be derived from the domain ID and the IDs of
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the previously assigned adapters must be bound to the vfio_ap device
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driver. If no domains have yet been assigned, then there must be at least
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one APQN with the specified APQI bound to the vfio_ap driver. If no such
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APQNs are bound to the driver, the operation will terminate with an
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error (EADDRNOTAVAIL).
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No APQN that can be derived from the domain ID and the IDs of the
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previously assigned adapters can be assigned to another mediated matrix
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device. If an APQN is assigned to another mediated matrix device, the
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operation will terminate with an error (EADDRINUSE).
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In order to successfully assign a control domain, the domain number
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specified must represent a value from 0 up to the maximum domain number
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configured for the system. If a control domain number higher than the maximum
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is specified, the operation will terminate with an error (ENODEV).
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5. Start Guest1::
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/usr/bin/qemu-system-s390x ... -cpu host,ap=on,apqci=on,apft=on \
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-device vfio-ap,sysfsdev=/sys/devices/vfio_ap/matrix/$uuid1 ...
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7. Start Guest2::
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/usr/bin/qemu-system-s390x ... -cpu host,ap=on,apqci=on,apft=on \
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-device vfio-ap,sysfsdev=/sys/devices/vfio_ap/matrix/$uuid2 ...
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7. Start Guest3::
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/usr/bin/qemu-system-s390x ... -cpu host,ap=on,apqci=on,apft=on \
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-device vfio-ap,sysfsdev=/sys/devices/vfio_ap/matrix/$uuid3 ...
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When the guest is shut down, the mediated matrix devices may be removed.
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Using our example again, to remove the mediated matrix device $uuid1::
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/sys/devices/vfio_ap/matrix/
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--- [mdev_supported_types]
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------ [vfio_ap-passthrough]
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--------- [devices]
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------------ [$uuid1]
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--------------- remove
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::
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echo 1 > remove
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This will remove all of the mdev matrix device's sysfs structures including
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the mdev device itself. To recreate and reconfigure the mdev matrix device,
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all of the steps starting with step 3 will have to be performed again. Note
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that the remove will fail if a guest using the mdev is still running.
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It is not necessary to remove an mdev matrix device, but one may want to
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remove it if no guest will use it during the remaining lifetime of the linux
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host. If the mdev matrix device is removed, one may want to also reconfigure
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the pool of adapters and queues reserved for use by the default drivers.
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Limitations
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===========
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* The KVM/kernel interfaces do not provide a way to prevent restoring an APQN
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to the default drivers pool of a queue that is still assigned to a mediated
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device in use by a guest. It is incumbent upon the administrator to
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ensure there is no mediated device in use by a guest to which the APQN is
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assigned lest the host be given access to the private data of the AP queue
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device such as a private key configured specifically for the guest.
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* Dynamically modifying the AP matrix for a running guest (which would amount to
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hot(un)plug of AP devices for the guest) is currently not supported
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* Live guest migration is not supported for guests using AP devices.
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