There exist a class of applications in which you never want them to swap. One such class is a database. Databases will use memory as caches and buffers for their disk areas, and it makes absolutely no sense that these are ever put to swap. The particular memory may hold some relevant data that is not needed for a week until one day when a client asks for it. Without the caching/swapping, the database would simply find the relevant record on disk, which would be quite fast; but with swapping, your service might suddenly be taking a long time to respond.
mysqld includes code to use the OS / system call
memlock. On Linux, since at least 2.6.9, this system call will work for non-root processes that have the
CAP_IPC_LOCK capability. When using
memlock(), the process must still work within the bounds of the
LimitMEMLOCK limit. . One of the (few) good things about
systemd is that you can grant the
mysqld process these capabilities, without requiring a special program. If can also set the rlimits as you'd expect with
ulimit. Here is an
override file for
mysqld that does the requisite steps, including a few others that you might need for a process such as a database:
# Prevent mysql from swapping
# Let mysqld lock all memory to core (don't swap)
# do not kills this process if low on memory
# Use higher io scheduling
ExecStart=/usr/sbin/mysqld --memlock $MYSQLD_OPTS
Note The standard community mysql currently ships with
Type=forking and adds
--daemonize in the option to the service on the
ExecStart line. This is inherently less stable than the above method.
UPDATE I am not 100% happy with this solution. After several days of runtime, I noticed the process still had enormous amounts of swap! Examining
/proc/XXXX/smaps, I note the following:
- The largest contributor of swap is from a stack segment! 437 MB and fluctuating. This presents obvious performance issues. It also indicates stack-based memory leak.
- There are zero Locked pages. This indicates the
memlock option in MySQL (or Linux) is broken. In this case, it wouldn't matter much because MySQL can't memlock stack.