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3bb96149f2
Signed-off-by: Andrew Jones <drjones@redhat.com> Acked-by: Christoffer Dall <cdall@linaro.org> Signed-off-by: Christoffer Dall <cdall@linaro.org>
308 lines
13 KiB
ReStructuredText
308 lines
13 KiB
ReStructuredText
=================
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KVM VCPU Requests
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=================
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Overview
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========
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KVM supports an internal API enabling threads to request a VCPU thread to
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perform some activity. For example, a thread may request a VCPU to flush
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its TLB with a VCPU request. The API consists of the following functions::
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/* Check if any requests are pending for VCPU @vcpu. */
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bool kvm_request_pending(struct kvm_vcpu *vcpu);
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/* Check if VCPU @vcpu has request @req pending. */
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bool kvm_test_request(int req, struct kvm_vcpu *vcpu);
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/* Clear request @req for VCPU @vcpu. */
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void kvm_clear_request(int req, struct kvm_vcpu *vcpu);
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/*
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* Check if VCPU @vcpu has request @req pending. When the request is
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* pending it will be cleared and a memory barrier, which pairs with
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* another in kvm_make_request(), will be issued.
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*/
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bool kvm_check_request(int req, struct kvm_vcpu *vcpu);
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/*
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* Make request @req of VCPU @vcpu. Issues a memory barrier, which pairs
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* with another in kvm_check_request(), prior to setting the request.
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*/
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void kvm_make_request(int req, struct kvm_vcpu *vcpu);
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/* Make request @req of all VCPUs of the VM with struct kvm @kvm. */
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bool kvm_make_all_cpus_request(struct kvm *kvm, unsigned int req);
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Typically a requester wants the VCPU to perform the activity as soon
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as possible after making the request. This means most requests
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(kvm_make_request() calls) are followed by a call to kvm_vcpu_kick(),
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and kvm_make_all_cpus_request() has the kicking of all VCPUs built
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into it.
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VCPU Kicks
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----------
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The goal of a VCPU kick is to bring a VCPU thread out of guest mode in
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order to perform some KVM maintenance. To do so, an IPI is sent, forcing
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a guest mode exit. However, a VCPU thread may not be in guest mode at the
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time of the kick. Therefore, depending on the mode and state of the VCPU
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thread, there are two other actions a kick may take. All three actions
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are listed below:
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1) Send an IPI. This forces a guest mode exit.
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2) Waking a sleeping VCPU. Sleeping VCPUs are VCPU threads outside guest
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mode that wait on waitqueues. Waking them removes the threads from
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the waitqueues, allowing the threads to run again. This behavior
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may be suppressed, see KVM_REQUEST_NO_WAKEUP below.
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3) Nothing. When the VCPU is not in guest mode and the VCPU thread is not
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sleeping, then there is nothing to do.
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VCPU Mode
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---------
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VCPUs have a mode state, ``vcpu->mode``, that is used to track whether the
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guest is running in guest mode or not, as well as some specific
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outside guest mode states. The architecture may use ``vcpu->mode`` to
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ensure VCPU requests are seen by VCPUs (see "Ensuring Requests Are Seen"),
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as well as to avoid sending unnecessary IPIs (see "IPI Reduction"), and
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even to ensure IPI acknowledgements are waited upon (see "Waiting for
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Acknowledgements"). The following modes are defined:
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OUTSIDE_GUEST_MODE
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The VCPU thread is outside guest mode.
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IN_GUEST_MODE
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The VCPU thread is in guest mode.
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EXITING_GUEST_MODE
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The VCPU thread is transitioning from IN_GUEST_MODE to
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OUTSIDE_GUEST_MODE.
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READING_SHADOW_PAGE_TABLES
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The VCPU thread is outside guest mode, but it wants the sender of
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certain VCPU requests, namely KVM_REQ_TLB_FLUSH, to wait until the VCPU
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thread is done reading the page tables.
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VCPU Request Internals
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======================
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VCPU requests are simply bit indices of the ``vcpu->requests`` bitmap.
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This means general bitops, like those documented in [atomic-ops]_ could
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also be used, e.g. ::
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clear_bit(KVM_REQ_UNHALT & KVM_REQUEST_MASK, &vcpu->requests);
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However, VCPU request users should refrain from doing so, as it would
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break the abstraction. The first 8 bits are reserved for architecture
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independent requests, all additional bits are available for architecture
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dependent requests.
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Architecture Independent Requests
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---------------------------------
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KVM_REQ_TLB_FLUSH
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KVM's common MMU notifier may need to flush all of a guest's TLB
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entries, calling kvm_flush_remote_tlbs() to do so. Architectures that
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choose to use the common kvm_flush_remote_tlbs() implementation will
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need to handle this VCPU request.
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KVM_REQ_MMU_RELOAD
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When shadow page tables are used and memory slots are removed it's
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necessary to inform each VCPU to completely refresh the tables. This
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request is used for that.
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KVM_REQ_PENDING_TIMER
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This request may be made from a timer handler run on the host on behalf
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of a VCPU. It informs the VCPU thread to inject a timer interrupt.
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KVM_REQ_UNHALT
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This request may be made from the KVM common function kvm_vcpu_block(),
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which is used to emulate an instruction that causes a CPU to halt until
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one of an architectural specific set of events and/or interrupts is
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received (determined by checking kvm_arch_vcpu_runnable()). When that
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event or interrupt arrives kvm_vcpu_block() makes the request. This is
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in contrast to when kvm_vcpu_block() returns due to any other reason,
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such as a pending signal, which does not indicate the VCPU's halt
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emulation should stop, and therefore does not make the request.
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KVM_REQUEST_MASK
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----------------
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VCPU requests should be masked by KVM_REQUEST_MASK before using them with
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bitops. This is because only the lower 8 bits are used to represent the
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request's number. The upper bits are used as flags. Currently only two
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flags are defined.
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VCPU Request Flags
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------------------
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KVM_REQUEST_NO_WAKEUP
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This flag is applied to requests that only need immediate attention
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from VCPUs running in guest mode. That is, sleeping VCPUs do not need
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to be awaken for these requests. Sleeping VCPUs will handle the
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requests when they are awaken later for some other reason.
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KVM_REQUEST_WAIT
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When requests with this flag are made with kvm_make_all_cpus_request(),
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then the caller will wait for each VCPU to acknowledge its IPI before
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proceeding. This flag only applies to VCPUs that would receive IPIs.
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If, for example, the VCPU is sleeping, so no IPI is necessary, then
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the requesting thread does not wait. This means that this flag may be
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safely combined with KVM_REQUEST_NO_WAKEUP. See "Waiting for
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Acknowledgements" for more information about requests with
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KVM_REQUEST_WAIT.
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VCPU Requests with Associated State
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===================================
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Requesters that want the receiving VCPU to handle new state need to ensure
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the newly written state is observable to the receiving VCPU thread's CPU
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by the time it observes the request. This means a write memory barrier
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must be inserted after writing the new state and before setting the VCPU
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request bit. Additionally, on the receiving VCPU thread's side, a
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corresponding read barrier must be inserted after reading the request bit
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and before proceeding to read the new state associated with it. See
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scenario 3, Message and Flag, of [lwn-mb]_ and the kernel documentation
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[memory-barriers]_.
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The pair of functions, kvm_check_request() and kvm_make_request(), provide
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the memory barriers, allowing this requirement to be handled internally by
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the API.
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Ensuring Requests Are Seen
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==========================
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When making requests to VCPUs, we want to avoid the receiving VCPU
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executing in guest mode for an arbitrary long time without handling the
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request. We can be sure this won't happen as long as we ensure the VCPU
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thread checks kvm_request_pending() before entering guest mode and that a
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kick will send an IPI to force an exit from guest mode when necessary.
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Extra care must be taken to cover the period after the VCPU thread's last
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kvm_request_pending() check and before it has entered guest mode, as kick
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IPIs will only trigger guest mode exits for VCPU threads that are in guest
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mode or at least have already disabled interrupts in order to prepare to
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enter guest mode. This means that an optimized implementation (see "IPI
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Reduction") must be certain when it's safe to not send the IPI. One
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solution, which all architectures except s390 apply, is to:
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- set ``vcpu->mode`` to IN_GUEST_MODE between disabling the interrupts and
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the last kvm_request_pending() check;
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- enable interrupts atomically when entering the guest.
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This solution also requires memory barriers to be placed carefully in both
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the requesting thread and the receiving VCPU. With the memory barriers we
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can exclude the possibility of a VCPU thread observing
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!kvm_request_pending() on its last check and then not receiving an IPI for
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the next request made of it, even if the request is made immediately after
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the check. This is done by way of the Dekker memory barrier pattern
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(scenario 10 of [lwn-mb]_). As the Dekker pattern requires two variables,
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this solution pairs ``vcpu->mode`` with ``vcpu->requests``. Substituting
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them into the pattern gives::
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CPU1 CPU2
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================= =================
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local_irq_disable();
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WRITE_ONCE(vcpu->mode, IN_GUEST_MODE); kvm_make_request(REQ, vcpu);
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smp_mb(); smp_mb();
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if (kvm_request_pending(vcpu)) { if (READ_ONCE(vcpu->mode) ==
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IN_GUEST_MODE) {
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...abort guest entry... ...send IPI...
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} }
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As stated above, the IPI is only useful for VCPU threads in guest mode or
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that have already disabled interrupts. This is why this specific case of
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the Dekker pattern has been extended to disable interrupts before setting
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``vcpu->mode`` to IN_GUEST_MODE. WRITE_ONCE() and READ_ONCE() are used to
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pedantically implement the memory barrier pattern, guaranteeing the
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compiler doesn't interfere with ``vcpu->mode``'s carefully planned
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accesses.
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IPI Reduction
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-------------
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As only one IPI is needed to get a VCPU to check for any/all requests,
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then they may be coalesced. This is easily done by having the first IPI
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sending kick also change the VCPU mode to something !IN_GUEST_MODE. The
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transitional state, EXITING_GUEST_MODE, is used for this purpose.
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Waiting for Acknowledgements
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----------------------------
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Some requests, those with the KVM_REQUEST_WAIT flag set, require IPIs to
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be sent, and the acknowledgements to be waited upon, even when the target
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VCPU threads are in modes other than IN_GUEST_MODE. For example, one case
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is when a target VCPU thread is in READING_SHADOW_PAGE_TABLES mode, which
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is set after disabling interrupts. To support these cases, the
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KVM_REQUEST_WAIT flag changes the condition for sending an IPI from
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checking that the VCPU is IN_GUEST_MODE to checking that it is not
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OUTSIDE_GUEST_MODE.
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Request-less VCPU Kicks
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-----------------------
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As the determination of whether or not to send an IPI depends on the
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two-variable Dekker memory barrier pattern, then it's clear that
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request-less VCPU kicks are almost never correct. Without the assurance
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that a non-IPI generating kick will still result in an action by the
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receiving VCPU, as the final kvm_request_pending() check does for
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request-accompanying kicks, then the kick may not do anything useful at
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all. If, for instance, a request-less kick was made to a VCPU that was
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just about to set its mode to IN_GUEST_MODE, meaning no IPI is sent, then
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the VCPU thread may continue its entry without actually having done
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whatever it was the kick was meant to initiate.
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One exception is x86's posted interrupt mechanism. In this case, however,
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even the request-less VCPU kick is coupled with the same
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local_irq_disable() + smp_mb() pattern described above; the ON bit
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(Outstanding Notification) in the posted interrupt descriptor takes the
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role of ``vcpu->requests``. When sending a posted interrupt, PIR.ON is
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set before reading ``vcpu->mode``; dually, in the VCPU thread,
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vmx_sync_pir_to_irr() reads PIR after setting ``vcpu->mode`` to
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IN_GUEST_MODE.
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Additional Considerations
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=========================
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Sleeping VCPUs
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--------------
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VCPU threads may need to consider requests before and/or after calling
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functions that may put them to sleep, e.g. kvm_vcpu_block(). Whether they
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do or not, and, if they do, which requests need consideration, is
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architecture dependent. kvm_vcpu_block() calls kvm_arch_vcpu_runnable()
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to check if it should awaken. One reason to do so is to provide
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architectures a function where requests may be checked if necessary.
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Clearing Requests
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-----------------
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Generally it only makes sense for the receiving VCPU thread to clear a
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request. However, in some circumstances, such as when the requesting
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thread and the receiving VCPU thread are executed serially, such as when
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they are the same thread, or when they are using some form of concurrency
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control to temporarily execute synchronously, then it's possible to know
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that the request may be cleared immediately, rather than waiting for the
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receiving VCPU thread to handle the request in VCPU RUN. The only current
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examples of this are kvm_vcpu_block() calls made by VCPUs to block
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themselves. A possible side-effect of that call is to make the
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KVM_REQ_UNHALT request, which may then be cleared immediately when the
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VCPU returns from the call.
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References
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==========
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.. [atomic-ops] Documentation/core-api/atomic_ops.rst
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.. [memory-barriers] Documentation/memory-barriers.txt
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.. [lwn-mb] https://lwn.net/Articles/573436/
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