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SubjectRe: [PATCH v18 17/18] s390/Docs: new doc describing lock usage by the vfio_ap device driver
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On 3/30/22 20:28, Halil Pasic wrote:
> On Mon, 14 Feb 2022 19:50:39 -0500
> Tony Krowiak <akrowiak@linux.ibm.com> wrote:
>
>> Introduces a new document describing the locks used by the vfio_ap device
>> driver and how to use them so as to avoid lockdep reports and deadlock
>> situations.
>>
>> Signed-off-by: Tony Krowiak <akrowiak@linux.ibm.com>
>> ---
>> Documentation/s390/vfio-ap-locking.rst | 389 +++++++++++++++++++++++++
>> 1 file changed, 389 insertions(+)
>> create mode 100644 Documentation/s390/vfio-ap-locking.rst
>>
>> diff --git a/Documentation/s390/vfio-ap-locking.rst b/Documentation/s390/vfio-ap-locking.rst
>> new file mode 100644
>> index 000000000000..10abbb6d6089
>> --- /dev/null
>> +++ b/Documentation/s390/vfio-ap-locking.rst
>> @@ -0,0 +1,389 @@
>> +======================
>> +VFIO AP Locks Overview
>> +======================
>> +This document describes the locks that are pertinent to the secure operation
>> +of the vfio_ap device driver. Throughout this document, the following variables
>> +will be used to denote instances of the structures herein described:
>> +
>> +struct ap_matrix_dev *matrix_dev;
>> +struct ap_matrix_mdev *matrix_mdev;
>> +struct kvm *kvm;
>> +
>> +The Matrix Devices Lock (drivers/s390/crypto/vfio_ap_private.h)
>> +--------------------------------------------------------------
>> +
>> +struct ap_matrix_dev {
>> + ...
>> + struct list_head mdev_list;
>> + struct mutex mdevs_lock;
>> + ...
>> +}
>> +
>> +The Matrix Devices Lock (matrix_dev->mdevs_lock) is implemented as a global
>> +mutex contained within the single instance of struct ap_matrix_dev. This lock
> s/single instance of/singleton object of type/

I don't see the problem with instance, but I'll go ahead and make the
change.

>
>> +controls access to all fields contained within each matrix_mdev instance under
>> +the control of the vfio_ap device driver (matrix_dev->mdev_list).
> Are there matrix_mdev instances not under the control of the vfio_ap
> device driver?

No, but it doesn't make the statement any less true. I'll take it out,
however.

>
> (MARK 1)
>
>> This lock must
>> +be held while reading from, writing to or using the data from a field contained
>> +within a matrix_mdev instance representing one of the vfio_ap device driver's
>> +mediated devices.
> This makes it look like for example struct vfio_ap_queue objects are out
> of scope.

How so? The vfio_ap_queue objects are linked to the ap_matrix_mdev object
to which the APQN is assigned. Other than that, they are contained in
the driver
data of the queue device.

>
>> +
>> +The KVM Lock (include/linux/kvm_host.h)
>> +---------------------------------------
>> +
>> +struct kvm {
>> + ...
>> + struct mutex lock;
>> + ...
>> +}
>> +
>> +The KVM Lock (kvm->lock) controls access to the state data for a KVM guest. This
>> +lock must be held by the vfio_ap device driver while one or more AP adapters,
>> +domains or control domains are being plugged into or unplugged from the guest.
>> +
>> +The vfio_ap device driver registers a function to be notified when the pointer
>> +to the kvm instance has been set. The KVM pointer is passed to the handler by
>> +the notifier and is stored in the in the matrix_mdev instance
>> +(matrix_mdev->kvm = kvm) containing the state of the mediated device that has
>> +been passed through to the KVM guest.
>> +
>> +The Guests Lock (drivers/s390/crypto/vfio_ap_private.h)
>> +-----------------------------------------------------------
>> +
>> +struct ap_matrix_dev {
>> + ...
>> + struct list_head mdev_list;
>> + struct mutex guests_lock;
>> + ...
>> +}
>> +
>> +The Guests Lock (matrix_dev->guests_lock) controls access to the
>> +matrix_mdev instances (matrix_dev->mdev_list) that represent mediated devices
>> +that hold the state for the mediated devices that have been passed through to a
> Didn't say that access to fields of matrix_mdev instances is controlled
> by the matrix_dev->mdevs lock at (MARK 1)? How do the two statements
> mesh?

The matrix_dev->mdevs_lock controls access to all FIELDS contained within each matrix_mdev
and the matrix_dev->guests_lock controls access to matrix_mdev instances; in other words, the
matrix_dev->mdev_list and the matrix_mdev instances for the purposes further described
below.



>
>> +KVM guest. This lock must be held:
>> +
>> +1. To control access to the KVM pointer (matrix_mdev->kvm) while the vfio_ap
>> + device driver is using it to plug/unplug AP devices passed through to the KVM
>> + guest.
>> +
>> +2. To add matrix_mdev instances to or remove them from matrix_dev->mdev_list.
>> + This is necessary to ensure the proper locking order when the list is perused
>> + to find an ap_matrix_mdev instance for the purpose of plugging/unplugging
>> + AP devices passed through to a KVM guest.
>> +
>> + For example, when a queue device is removed from the vfio_ap device driver,
>> + if the adapter is passed through to a KVM guest, it will have to be
>> + unplugged. In order to figure out whether the adapter is passed through,
>> + the matrix_mdev object to which the queue is assigned will have to be
>> + found. The KVM pointer (matrix_mdev->kvm) can then be used to determine if
>> + the mediated device is passed through (matrix_mdev->kvm != NULL) and if so,
>> + to unplug the adapter.
>> +
>> +It is not necessary to take the Guests Lock to access the KVM pointer if the
>> +pointer is not used to plug/unplug devices passed through to the KVM guest;
>> +however, in this case, the Matrix Devices Lock (matrix_dev->mdevs_lock) must be
>> +held in order to access the KVM pointer since it set and cleared under the
>> +protection of the Matrix Devices Lock. A case in point is the function that
>> +handles interception of the PQAP(AQIC) instruction sub-function. This handler
>> +needs to access the KVM pointer only for the purposes of setting or clearing IRQ
>> +resources, so only the matrix_dev->mdevs_lock needs to be held.
>> +
> It is very unclear what this lock is actually protecting, and when does
> it need to be taken.

I don't know how I can make it clearer. In 1 above, it states the it
protects
access to the KVM pointer when it is being used to plug/unplug AP devices.
In other words, if the matrix_mdev->kvm pointer is being accessed just
to verify whether the mdev is attached to a guest or not, it is not
necessary to
take the matrix_dev->guests_lock. On the other hand, whenever the
matrix_mdev->kvm
pointer is being taken to dynamically update the guest's APCB (i.e., hot
plug/unplug AP
devices), the matrix_dev->guests_lock must be held. Maybe if I had said
hot plug/unplug
it would be clearer? I'm open to suggestions.

>
>> +The PQAP Hook Lock (arch/s390/include/asm/kvm_host.h)
>> +-----------------------------------------------------
>> +
>> +typedef int (*crypto_hook)(struct kvm_vcpu *vcpu);
>> +
>> +struct kvm_s390_crypto {
>> + ...
>> + struct rw_semaphore pqap_hook_rwsem;
>> + crypto_hook *pqap_hook;
>> + ...
>> +};
>> +
>> +The PQAP Hook Lock is a r/w semaphore that controls access to the function
>> +pointer of the handler (*kvm->arch.crypto.pqap_hook) to invoke when the
>> +PQAP(AQIC) instruction sub-function is intercepted by the host. The lock must be
>> +held in write mode when pqap_hook value is set, and in read mode when the
>> +pqap_hook function is called.
>> +
>> +Locking Order
>> +-------------
>> +
>> +If the various locks are not taken in the proper order, it could potentially
>> +result in a lockdep splat.
> Just in a lockdep splat or in a deadlock?

I've never actually encountered a deadlock condition while testing,
only a lockdep splat indicating a deadlock could occur. I'll go ahead
and add 'deadlock or lockdep splat'.

>
>> The proper order for taking locks depends upon
>> +the operation taking place,
> That sounds very fishy! The whole point of having a locking order is
> preventing deadlocks if everybody sticks to the locking order. If there
> are exceptions, i.e. if we violate the locking order, we risk deadlocks.

It may sound fishy, but it's a true statement. For example, there
are cases where the mdev is not attached to a KVM guest.
In that case, the matrix_mdev->kvm pointer will be NULL and
the matrix_mdev->kvm->lock will not be taken. Of course, the
matrix_dev->guests_lock will still have to be taken before the
matrix_dev->mdevs_lock. Maybe I should just make that point
clearer here.

After rereading the passage, I think that sentence should be
removed. It can be seen in the examples when the KVM lock
will not be taken.

>
>> but in general the Guests Lock
>> +(matrix_dev->guests_lock) must be taken outside of the KVM Lock (kvm->lock)
>> +which in turn must be taken outside of the Matrix Devices Lock
>> +(matrix_dev->mdevs_lock).
>> +
>> +The following describes the various operations under which the various locks are
>> +taken, the purpose for taking them and the order in which they must be taken.
> It looks a little odd that you describe all the operations here,
> especially in prosa.
>
> But hey the good thing is, none seem to violate the lock order.
>
>
>> +
>> +* Operations: Setting or clearing the KVM pointer (matrix_mdev->kvm):
>> +
>> + 1. PQAP Hook Lock (kvm->arch.crypto.pqap_hook_rwsem):
>> +
>> + This semaphore must be held in write mode while setting or clearing the
>> + reference to the function pointer (kvm->arch.crypt.pqap_hook) to call
>> + when the PQAP(AQIC) instruction sub-function is intercepted by the host.
>> + The function pointer is set when the KVM pointer is being set and
>> + cleared when the KVM pointer is being cleared.
>> +
>> + 2.Guests Lock (matrix_dev->guests_lock):
>> +
>> + This mutex must be held while accessing the KVM pointer
>> + (matrix_mdev->kvm) to plug/unplug AP devices passed through to the
>> + KVM guest
>> +
>> + 3. KVM Lock (kvm->lock):
>> +
>> + This mutex must be held while the AP devices passed through to the KVM
>> + guest are plugged/unplugged.
>> +
>> + 4. Matrix Devices Lock (matrix_dev->mdevs_lock)
>> +
>> + This lock must be held to prevent access to the matrix_mdev state
>> + while writing/reading state values during the operation.
>> +
>> +* Operations: Assign or unassign an adapter, domain or control domain of a
>> + mediated device under the control of the vfio_ap device driver:
>> +
>> + 1. Guests Lock (matrix_dev->guests_lock):
>> +
>> + This mutex must be held while accessing the KVM pointer
>> + (matrix_dev->kvm) to plug/unplug AP devices passed through to the
>> + KVM guest as a result of the assignment/unassignment operation.
>> + Assignment of an AP device may result in additional queue devices
>> + or control domains being plugged into the guest. Similarly, unassignment
>> + may result in unplugging queue devices or control domains from the
>> + guest
>> +
>> + 3. KVM Lock (matrix_mdev->kvm->lock):
>> +
>> + This mutex must be held while the AP devices passed through to the KVM
>> + guest are plugged in or unplugged.
>> +
>> + 4. Matrix Devices Lock (matrix_dev->mdevs_lock)
>> +
>> + This lock must be held to prevent access to the matrix_mdev state
>> + while writing/reading state values during the operation. For example, to
>> + determine which AP devices need to be plugged/unplugged, the lock
>> + must be held to prevent other operations from changing the data used
>> + to construct the guest's AP configuration.
>> +
>> +* Operations: Probe or remove an AP queue device:
>> +
>> + When a queue device is bound to the vfio_ap device driver, the driver's probe
>> + callback is invoked. Similarly, when a queue device is unbound from the
>> + driver it's remove callback is invoked. The probe and remove functions will
>> + take locks in the following order:
>> +
>> + 1. Guests Lock (matrix_dev->guests_lock):
>> +
>> + This mutex must be held for the duration of this operation.
>> +
>> + At the time of the operation, the vfio_ap device driver will only have
>> + the APQN of the queue being probed or removed, so the
>> + matrix_dev->mdevs_list must be perused to locate the matrix_mdev
>> + instance to which the queue is assigned. The Guests Lock must be held
>> + during this time to prevent the list from being changed while processing
>> + the probe/remove.
>> +
>> + Once the matrix_mdev is found, the operation must determine whether the
>> + mediated device is passed through to a guest (matrix_mdev->kvm != NULL),
>> + then use the KVM pointer to perform the plug/unplug operation. Here
>> + again, the lock must be held to prevent other operations from accessing
>> + the KVM pointer for the same purpose.
>> +
>> + 2. KVM Lock (kvm->lock):
>> +
>> + This mutex must be held while the AP devices passed through to the KVM
>> + guest are plugged in or unplugged to prevent other operations from
>> + accessing the guest's state while it is in flux.
>> +
>> + 3. Matrix Devices Lock (matrix_dev->mdevs_lock)
>> +
>> + This lock must be held to prevent access to the matrix_mdev state
>> + while writing/reading state values during the operation, such as the
>> + masks used to construct the KVM guest's AP configuration.
>> +
>> +* Operations: Probe or remove a mediated device:
>> +
>> + 1. Guests Lock (matrix_dev->guests_lock):
>> +
>> + This mutex must be held while adding the matrix_mdev to the
>> + matrix_dev->mdev_list during the probe operation or when removing it
>> + from the list during the remove operation. This is to prevent access by
>> + other functions that must traverse the list to find a matrix_mdev for
>> + the purpose of plugging/unplugging AP devices passed through to a KVM
>> + guest (i.e., probe/remove queue callbacks), while the list is being
>> + modified.
>> +
>> + 2. Matrix Devices Lock (matrix_dev->mdevs_lock)
>> +
>> + This lock must be held to prevent access to the matrix_mdev state
>> + while writing/reading state values during the probe or remove operations
>> + such as initializing the hashtable of queue devices
>> + (matrix_mdev->qtable.queues) assigned to the matrix_mdev.
>> +
>> +* Operation: Handle interception of the PQAP(AQIC) instruction sub-function:
>> +
>> + 1. PQAP Hook Lock (kvm->arch.crypto.pqap_hook_rwsem)
>> +
>> + This semaphore must be held in read mode while retrieving the function
>> + pointer (kvm->arch.crypto.pqap_hook) and executing the function that
>> + handles the interception of the PQAP(AQIC) instruction sub-function by
>> + the host.
>> +
>> + 2. Matrix Devices Lock (matrix_dev->mdevs_lock)
>> +
>> + This lock must be held to prevent access to the matrix_mdev state
>> + while writing/reading state values during the execution of the
>> + PQAP(AQIC) instruction sub-function interception handler. For example,
>> + the handler must iterate over the matrix_mdev->qtable.queues hashtable
>> + to find the vfio_ap_queue object representing the queue for which
>> + interrupts are being enabled or disabled.
>> +
>> + Note: It is not necessary to take the Guests Lock (matrix_dev->guests_lock)
>> + or the KVM Lock (matrix_mdev->kvm->lock) because the KVM pointer
>> + will not be accessed to plug/unplug AP devices passed through to the
>> + guest; it will only be used to allocate or free resources for processing
>> + interrupts.
>> +
>> +* Operation: Handle AP configuration changed notification:
>> +
>> + The vfio_ap device driver registers a callback function to be notified when
>> + the AP bus detects that the host's AP configuration has changed. This can
>> + occur due to the addition or removal of AP adapters, domains or control
>> + domains via an SE or HMC connected to a DPM enabled LPAR. The objective of the
>> + handler is to remove the queues no longer accessible via the host in bulk
>> + rather than one queue at a time via the driver's queue device remove callback.
>> + The locks and the order in which they must be taken by this operation are:
>> +
>> + 1. Guests Lock (matrix_dev->guests_lock):
>> +
>> + This mutex must be held for the duration of the operation to:
>> +
>> + * Iterate over the matrix_dev->mdev_list to find each matrix_mdev from
>> + which a queue device to be removed is assigned and prevent other
>> + operations from modifying the list while processing the affected
>> + matrix_mdev instances.
>> +
>> + * Prevent other operations from acquiring access to the KVM pointer in
>> + each affected matrix_mdev instance (matrix_mdev->kvm) for the purpose
>> + of plugging/unplugging AP devices passed through to the KVM guest via
>> + that instance.
>> +
>> +2. KVM Lock (kvm->lock):
>> +
>> + This mutex must be held for each affected matrix_mdev instance while
>> + the AP devices passed through to the KVM guest are unplugged to prevent
>> + other operations from accessing the guest's state while it is in flux.
>> +
>> + Note: This lock must be re-acquired for each matrix_mdev instance.
>> +
>> + 3. Matrix Devices Lock (matrix_dev->mdevs_lock)
>> +
>> + This lock must be held for each affected matrix_mdev to prevent access
>> + to the matrix_mdev state while writing/reading state values during the
>> + operation, such as the masks used to construct the KVM guest's AP
>> + configuration.
>> +
>> + Note: This lock must be re-acquired for each matrix_mdev instance.
>> +
>> +Operation: Handle AP bus scan complete notification:
>> +
>> + The vfio_ap device driver registers a callback function to be notified when
>> + the AP bus scan completes after detecting the addition or removal of AP
>> + adapters, domains or control domains. The objective of the handler is t
>> + add the new queues accessible via the host in bulk rather than one queue
>> + at a time via the driver's queue device probe callback. The locks and the
>> + order in which they must be taken by this operation are:
>> +
>> + 1. Guests Lock (matrix_dev->guests_lock):
>> +
>> + This mutex must be held for the duration of the operation to:
>> +
>> + * Iterate over the matrix_dev->mdev_list to find each matrix_mdev to
>> + which a queue device added is assigned and prevent other operations
>> + from modifying the list while processing each affected matrix_mdev
>> + object.
>> +
>> + * Prevent other operations from acquiring access to the KVM pointer in
>> + each affected matrix_mdev instance (matrix_mdev->kvm) for the purpose
>> + of plugging/unplugging AP devices passed through to the KVM guest via
>> + that instance.
>> +
>> + 2. KVM Lock (kvm->lock):
>> +
>> + This mutex must be held for each affected matrix_mdev instance while
>> + the AP devices passed through to the KVM guest are plugged in to prevent
>> + other operations from accessing the guest's state while it is in flux.
>> +
>> + Note: This lock must be re-acquired for each matrix_mdev instance.
>> +
>> + 3. Matrix Devices Lock (matrix_dev->mdevs_lock):
>> +
>> + This lock must be held for each affected matrix_mdev to prevent access
>> + to the matrix_mdev state while writing/reading state values during the
>> + operation, such as the masks used to construct the KVM guest's AP
>> + configuration.
>> +
>> + Note: This lock must be re-acquired for each matrix_mdev instance.
>> +
>> +Operation: Handle resource in use query:
>> +
>> + The vfio_ap device driver registers a callback function with the AP bus to be
>> + called when changes to the bus's sysfs /sys/bus/ap/apmask or
>> + /sys/bus/ap/aqmask attributes would result in one or more AP queue devices
>> + getting unbound from the vfio_ap device driver to verify none of them are in
>> + use by the driver (i.e., assigned to a matrix_mdev instance). If this function
>> + is called while an adapter or domain is also being assigned to a mediated
>> + device, this could result in a deadlock; for example:
>> +
>> + 1. A system administrator assigns an adapter to a mediated device under the
>> + control of the vfio_ap device driver. The driver will need to first take
>> + the matrix_dev->guests_lock to potentially hot plug the adapter into
>> + the KVM guest.
>> + 2. At the same time, a system administrator sets a bit in the sysfs
>> + /sys/bus/ap/ap_mask attribute. To complete the operation, the AP bus
>> + must:
>> + a. Take the ap_perms_mutex lock to update the object storing the values
>> + for the /sys/bus/ap/ap_mask attribute.
>> + b. Call the vfio_ap device driver's in-use callback to verify that no
>> + queues now being reserved for the default zcrypt drivers are
>> + in use by the vfio_ap device driver. To do the verification, the in-use
>> + callback function takes the matrix_dev->guests_lock, but has to wait
>> + because it is already held by the operation in 1 above.
>> + 3. The vfio_ap device driver calls an AP bus function to verify that the
>> + new queues resulting from the assignment of the adapter in step 1 are
>> + not reserved for the default zcrypt device driver. This AP bus function
>> + tries to take the ap_perms_mutex lock but gets stuck waiting for the
>> + it due to step 2a above.
>> +
>> + Consequently, we have the following deadlock situation:
>> +
>> + matrix_dev->guests_lock locked (1)
>> + ap_perms_mutex lock locked (2a)
>> + Waiting for matrix_dev->lock (2b) which is currently held (1)
>> + Waiting for ap_perms_mutex lock (3) which is currently held (2a)
>> +
>> + To prevent the deadlock scenario, the in_use operation will take the
>> + required locks using the mutex_trylock() function and if the lock can not be
>> + acquired will terminate and return -EBUSY to indicate the driver is busy
>> + processing another request.
>> +
>> + The locks required to respond to the handle resource in use query and the
>> + order in which they must be taken are:
>> +
>> + 1. Guests Lock (matrix_dev->guests_lock):
>> +
>> + This mutex must be held for the duration of the operation to iterate over the
>> + matrix_dev->mdev_list to determine whether any of the queues to be unbound
>> + are assigned to a matrix_mdev instance.
>> +
>> + 2. Matrix Devices Lock (matrix_dev->mdevs_lock):
>> +
>> + This mutex must be held for the duration of the operation to ensure that the
>> + AP configuration of each matrix_mdev instance does not change while verifying
>> + that none of the queue devices to be removed from the vfio_ap driver are
>> + assigned to it.

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