This patch is to reduce the performance degradation of guest workload during
dirty logging on ARM64. A fast path is added to handle permission relaxation
during dirty logging. The MMU lock is replaced with rwlock, by which all
permision relaxations on leaf pte can be performed under the read lock. This
greatly reduces the MMU lock contention during dirty logging. With this
solution, the source guest workload performance degradation can be improved
by more than 60%.
Problem:
* A Google internal live migration test shows that the source guest workload
performance has >99% degradation for about 105 seconds, >50% degradation
for about 112 seconds, >10% degradation for about 112 seconds on ARM64.
This shows that most of the time, the guest workload degradtion is above
99%, which obviously needs some improvement compared to the test result
on x86 (>99% for 6s, >50% for 9s, >10% for 27s).
* Tested H/W: Ampere Altra 3GHz, #CPU: 64, #Mem: 256GB
* VM spec: #vCPU: 48, #Mem/vCPU: 4GB
Analysis:
* We enabled CONFIG_LOCK_STAT in kernel and used dirty_log_perf_test to get
the number of contentions of MMU lock and the "dirty memory time" on
various VM spec.
By using test command
./dirty_log_perf_test -b 2G -m 2 -i 2 -s anonymous_hugetlb_2mb -v [#vCPU]
Below are the results:
+-------+------------------------+-----------------------+
| #vCPU | dirty memory time (ms) | number of contentions |
+-------+------------------------+-----------------------+
| 1 | 926 | 0 |
+-------+------------------------+-----------------------+
| 2 | 1189 | 4732558 |
+-------+------------------------+-----------------------+
| 4 | 2503 | 11527185 |
+-------+------------------------+-----------------------+
| 8 | 5069 | 24881677 |
+-------+------------------------+-----------------------+
| 16 | 10340 | 50347956 |
+-------+------------------------+-----------------------+
| 32 | 20351 | 100605720 |
+-------+------------------------+-----------------------+
| 64 | 40994 | 201442478 |
+-------+------------------------+-----------------------+
* From the test results above, the "dirty memory time" and the number of
MMU lock contention scale with the number of vCPUs. That means all the
dirty memory operations from all vCPU threads have been serialized by
the MMU lock. Further analysis also shows that the permission relaxation
during dirty logging is where vCPU threads get serialized.
Solution:
* On ARM64, there is no mechanism as PML (Page Modification Logging) and
the dirty-bit solution for dirty logging is much complicated compared to
the write-protection solution. The straight way to reduce the guest
performance degradation is to enhance the concurrency for the permission
fault path during dirty logging.
* In this patch, we only put leaf PTE permission relaxation for dirty
logging under read lock, all others would go under write lock.
Below are the results based on the solution:
+-------+------------------------+
| #vCPU | dirty memory time (ms) |
+-------+------------------------+
| 1 | 803 |
+-------+------------------------+
| 2 | 843 |
+-------+------------------------+
| 4 | 942 |
+-------+------------------------+
| 8 | 1458 |
+-------+------------------------+
| 16 | 2853 |
+-------+------------------------+
| 32 | 5886 |
+-------+------------------------+
| 64 | 12190 |
+-------+------------------------+
All "dirty memory time" have been reduced by more than 60% when the
number of vCPU grows.
---
Jing Zhang (3):
KVM: arm64: Use read/write spin lock for MMU protection
KVM: arm64: Add fast path to handle permission relaxation during dirty
logging
KVM: selftests: Add vgic initialization for dirty log perf test for
ARM
arch/arm64/include/asm/kvm_host.h | 2 +
arch/arm64/kvm/mmu.c | 86 +++++++++++++++----
.../selftests/kvm/dirty_log_perf_test.c | 10 +++
3 files changed, 80 insertions(+), 18 deletions(-)
base-commit: fea31d1690945e6dd6c3e89ec5591490857bc3d4
--
2.34.1.575.g55b058a8bb-goog
