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docs/migration: Add the dirty limit section
The dirty limit feature has been introduced since the 8.1 QEMU release but has not reflected in the document, add a section for that. Signed-off-by: Hyman Huang <yong.huang@smartx.com> Reviewed-by: Fabiano Rosas <farosas@suse.de> Reviewed-by: Juan Quintela <quintela@redhat.com> Signed-off-by: Juan Quintela <quintela@redhat.com> Message-ID: <0f2b2c63fec22ea23e4926cdeb567b7a0ebd8152.1698847223.git.yong.huang@smartx.com>
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@ -594,6 +594,77 @@ path.
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Return path - opened by main thread, written by main thread AND postcopy
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thread (protected by rp_mutex)
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Dirty limit
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=====================
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The dirty limit, short for dirty page rate upper limit, is a new capability
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introduced in the 8.1 QEMU release that uses a new algorithm based on the KVM
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dirty ring to throttle down the guest during live migration.
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The algorithm framework is as follows:
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::
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------------------------------------------------------------------------------
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main --------------> throttle thread ------------> PREPARE(1) <--------
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thread \ | |
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\ | |
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\ V |
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-\ CALCULATE(2) |
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\ | |
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\ | |
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\ V |
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\ SET PENALTY(3) -----
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-\ |
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\ |
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\ V
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-> virtual CPU thread -------> ACCEPT PENALTY(4)
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------------------------------------------------------------------------------
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When the qmp command qmp_set_vcpu_dirty_limit is called for the first time,
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the QEMU main thread starts the throttle thread. The throttle thread, once
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launched, executes the loop, which consists of three steps:
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- PREPARE (1)
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The entire work of PREPARE (1) is preparation for the second stage,
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CALCULATE(2), as the name implies. It involves preparing the dirty
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page rate value and the corresponding upper limit of the VM:
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The dirty page rate is calculated via the KVM dirty ring mechanism,
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which tells QEMU how many dirty pages a virtual CPU has had since the
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last KVM_EXIT_DIRTY_RING_FULL exception; The dirty page rate upper
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limit is specified by caller, therefore fetch it directly.
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- CALCULATE (2)
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Calculate a suitable sleep period for each virtual CPU, which will be
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used to determine the penalty for the target virtual CPU. The
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computation must be done carefully in order to reduce the dirty page
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rate progressively down to the upper limit without oscillation. To
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achieve this, two strategies are provided: the first is to add or
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subtract sleep time based on the ratio of the current dirty page rate
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to the limit, which is used when the current dirty page rate is far
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from the limit; the second is to add or subtract a fixed time when
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the current dirty page rate is close to the limit.
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- SET PENALTY (3)
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Set the sleep time for each virtual CPU that should be penalized based
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on the results of the calculation supplied by step CALCULATE (2).
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After completing the three above stages, the throttle thread loops back
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to step PREPARE (1) until the dirty limit is reached.
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On the other hand, each virtual CPU thread reads the sleep duration and
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sleeps in the path of the KVM_EXIT_DIRTY_RING_FULL exception handler, that
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is ACCEPT PENALTY (4). Virtual CPUs tied with writing processes will
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obviously exit to the path and get penalized, whereas virtual CPUs involved
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with read processes will not.
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In summary, thanks to the KVM dirty ring technology, the dirty limit
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algorithm will restrict virtual CPUs as needed to keep their dirty page
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rate inside the limit. This leads to more steady reading performance during
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live migration and can aid in improving large guest responsiveness.
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Postcopy
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========
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