This project implements a Kernel Same-page Merging throttling daemon.
Its goal is to regulate KSM by dynamically modifying the KSM sysfs
entries, in order to minimize memory duplication as fast as possible
while keeping the KSM daemon load low.
KSM is a host Linux* kernel feature for de-duplicating memory pages. Although it was initially designed as a KVM specific feature, it is now part of the generic Linux memory management subsystem and can be leveraged by any userspace component or application looking for memory to save.
A daemon (ksmd
) periodically scans userspace memory, looking for
identical pages that can be replaced by a single, write-protected
page. When a process tries to modify this shared page content, it
gets a private copy into its memory space. KSM only scans and merges
pages that are both anonymous and that have been explicitly tagged as
mergeable by applications calling into the madvise
system call
(int madvice(addr, length, MADV_MERGEABLE)
).
KSM is customizable through a set of Linux kernel sysfs
attributes,
the most interesting ones being:
/sys/kernel/mm/ksm/run
: Turns KSM on (1
) and off (0
)./sys/kernel/mm/ksm/sleep_millisec
: Knob that specifies the KSM scanning period./sys/kernel/mm/ksm/pages_to_scan
: Sets the number of pages KSM will scan per scanning cycle.
The memory density improvements that KSM can provide come at a cost. Depending on the number of anonymous pages it will scan, it can be relatively expensive on CPU utilization.
This project splits that task into 2 pieces:
- The throttling algorithm, implemented as a daemon. The daemon can be asked to throttle KSM up by kicking through its gRPC interface.
- The throttling triggers, implemented as gRPC clients.
The throttling daemon, ksm-throttler
, implements the throttling
algorithm on one hand and listens for throttling triggers on the
other hand.
By default, ksm-throttler
will throttle KSM up and down. Regardless
of the current KSM system settings, ksm-throttler
will move them to
the aggressive
settings as soon as it gets triggered.
With the aggressive
setting, ksmd
will run every millisecond and
will scan 10% of all available anonymous pages during each scanning
cycle.
After switching to the aggressive
KSM settings, ksm-throttler
will
throttle down to the standard
setting if it does not get triggered
for the next 30 seconds.
Then ksm-throttler
will continue throttling down to the slow
KSM
setting if it does not get triggered for the next 2 minutes.
Finally, ksm-throttler
will get back to the initial KSM settings after
two more minutes, unless it gets triggered.
At any point in time, ksm-throttler
will get back to to the
aggressive
setting when getting triggered:
+----------------+
| |
| Initial |
| Settings |<<-------------------------------+
| | |
+-------+--------+ |
| |
| |
trigger | |
| |
v |
+--------------+ |
| Aggressive |<<--------+ |
+--------------+ | |
| | |
No Trigger | | |
(30s) | | New |
| | Trigger | No Trigger
v | | (2mn)
+--------------+ | |
| Standard |----------+ |
+--------------+ | |
| | |
No Trigger | | |
(2mn) | | New |
| | Trigger |
v | |
+--------------+ | |
| Slow |----------+ |
+--------------+ |
| |
| |
+------------------------------------------+
Throttling triggers are gRPC clients to the ksm-throttler
daemon.
Their role is to identify when KSM needs to be throttled up, depending
on which resources they want to monitor.
This project implements a throttling trigger for virtcontainers based containers, see https://github.com/kata-containers/ksm-throttler/blob/master/trigger/virtcontainers.
The current gRPC is very simple, and only consists of a Kick()
method:
service KSMThrottler {
rpc Kick(google.protobuf.Empty) returns (google.protobuf.Empty);
}
A package implements a client API in Go for that interface. For example:
import (
"flag"
"fmt"
"github.com/kata-containers/ksm-throttler/pkg/client"
)
func main() {
uri := flag.String("uri", "/var/run/kata-ksm-throttler/ksm.sock", "KSM throttler gRPC URI")
flag.Parse()
err := client.Kick(*uri)
if err != nil {
fmt.Println(err)
}
}
$ make
$ sudo make install
To run ksm-throttler
with virtcontainers as the throttling trigger:
$ systemctl start kata-vc-throttler
This will start both the ksm-throttler
daemon and the vc
throttling
trigger.