XtraDB Performance Improvements for I/O-Bound Highly-Concurrent Workloads¶
Priority refill for the buffer pool free list¶
In highly-concurrent I/O-bound workloads the following situation may happen:
- Buffer pool free lists are used faster than they are refilled by the LRU cleaner thread.
- Buffer pool free lists become empty and more and more query and utility (i.e. purge) threads stall, checking whether a buffer pool free list has became non-empty, sleeping, performing single-page LRU flushes.
- The number of buffer pool free list mutex waiters increases.
- When the LRU manager thread (or a single page LRU flush by a query thread) finally produces a free page, it is starved from putting it on the buffer pool free list as it must acquire the buffer pool free list mutex too. However, being one thread in up to hundreds, the chances of a prompt acquisition are low.
This is addressed by delegating all the LRU flushes to the to the LRU manager
thread, never attempting to evict a page or perform a LRU single page flush by
a query thread, and introducing a backoff algorithm to reduce buffer pool free
list mutex pressure on empty buffer pool free lists. This is controlled through
a new system variable
Command Line: Yes Config File: Yes Scope: Global Dynamic: Yes Values: legacy, backoff Default Value: legacy
legacy option is set, server will use the upstream algorithm and when
backoff is selected, Percona implementation will be used.
Multi-threaded LRU flusher¶
Percona Server features a true multi-threaded LRU flushing. In this scheme, each buffer pool instance has its own dedicated LRU manager thread that is tasked with performing LRU flushes and evictions to refill the free list of that buffer pool instance. Existing multi-threaded flusher no longer does any LRU flushing and is tasked with flush list flushing only.
- All threads still synchronize on each coordinator thread iteration. If a particular flushing job is stuck on one of the worker threads, the rest will idle until the stuck one completes.
- The coordinator thread heuristics focus on flush list adaptive flushing without considering the state of free lists, which might be in need of urgent refill for a subset of buffer pool instances on a loaded server.
- LRU flushing is serialized with flush list flushing for each buffer pool instance, introducing the risk that the right flushing mode will not happen for a particular instance because it is being flushed in the other mode.
The following InnoDB metrics are no longer accounted, as their semantics do
not make sense under the current LRU flushing design:
The need for InnoDB recovery thread writer threads is also removed, consequently all associated code is deleted.
As of Percona Server 8.0.20-11, the parallel doublewrite buffer is replaced with the MySQL implementation.
Command Line: Yes Scope: Global Dynamic: No Variable Type: String Default Value:
As of Percona Server 8.0.20-11, this variable is considered deprecated and has no effect. You should use innodb_doublewrite_dir.
This variable is used to specify the location of the parallel doublewrite file. It accepts both absolute and relative paths. In the latter case they are treated as relative to the data directory.
Percona Server has introduced several options, only available in builds
UNIV_PERF_DEBUG C preprocessor define.
Command Line: Yes Config File: Yes Scope: Global Dynamic: Yes Variable Type: Boolean
Version Specific Information¶
8.0.12-1Feature ported from Percona Server 5.7