On 4/3/20 4:59 PM, Alex Kogan wrote: > In CNA, spinning threads are organized in two queues, a primary queue for > threads running on the same node as the current lock holder, and a > secondary queue for threads running on other nodes. After acquiring the > MCS lock and before acquiring the spinlock, the lock holder scans the > primary queue looking for a thread running on the same node (pre-scan). If > found (call it thread T), all threads in the primary queue between the > current lock holder and T are moved to the end of the secondary queue. > If such T is not found, we make another scan of the primary queue when > unlocking the MCS lock (post-scan), starting at the position where > pre-scan stopped. If both scans fail to find such T, the MCS lock is > passed to the first thread in the secondary queue. If the secondary queue > is empty, the lock is passed to the next thread in the primary queue. > For more details, see https://arxiv.org/abs/1810.05600. > > Note that this variant of CNA may introduce starvation by continuously > passing the lock to threads running on the same node. This issue > will be addressed later in the series. > > Enabling CNA is controlled via a new configuration option > (NUMA_AWARE_SPINLOCKS). By default, the CNA variant is patched in at the > boot time only if we run on a multi-node machine in native environment and > the new config is enabled. (For the time being, the patching requires > CONFIG_PARAVIRT_SPINLOCKS to be enabled as well. However, this should be > resolved once static_call() is available.) This default behavior can be > overridden with the new kernel boot command-line option > "numa_spinlock=on/off" (default is "auto"). > > Signed-off-by: Alex Kogan > Reviewed-by: Steve Sistare > Reviewed-by: Waiman Long > --- There is also a concern that the worst case latency for a lock transfer can be close to O(n) which can be quite large for large SMP systems. I have a patch on top that modifies the current behavior to limit the number of node scans after the lock is freed. Cheers, Longman