- cross-posted to:
- lemmyperformance@lemmy.ml
6
- cross-posted to:
- lemmyperformance@lemmy.ml
## Improving Beehaw > BLUF: The operations team at Beehaw has worked to increase
site performance and uptime. This includes proactive monitoring to prevent
problems from escalating and planning for future likely events. — Problem:
Emails only sent to approved users, not denials; denied users can’t reapply with
the same username * Solution: Made it so denied users get emails and their
usernames freed up to re-use #### Details: * Disabled Docker postfix container;
Lemmy runs on a Linux host that can use postfix itself, without any overhead *
Modified various postfix components to accept localhost (same system) email
traffic only * Created two different scripts to: * Check the Lemmy database once
in while, for denied users, send them an email and delete the user from the
database * User can use the same username to register again! * Send out emails
to those users (and also, make the other Lemmy emails look nicer) * Sending so
many emails from our provider caused the emails to end up in spam!! We had to
change a bit of the outgoing flow * DKIM and SPF setup * Changed outgoing emails
to relay through Mailgun instead of through our VPS * Configure Lemmy containers
to use the host postfix as mail transport All is well? — Problem: NO file level
backups, only full image snapshots * Solution: Procured backup storage
(Backblaze B2) and setup system backups, tested restoration (successfully) ####
Details: * Requested Funds from Beehaw org to be spent on purchase of cloud
based storage, B2 - approved (thank you for the donations) * Installed and
configured restic encrypted backups of key system files -> b2 ‘offsite’. This
means, even the data from Beehaw that is saved there, is encrypted and no one
else can read that information * Verified scheduled backups are being run every
day, to b2. Important information such as the Lemmy volumes, pictures,
configurations for various services, and a database dump are included in such *
Verified restoration works! Had a small issue with the pictrs migration to
object storage (b2). Restored the entire pictrs volume from restic b2 backup
successfully. Backups work! sorry for that downtime, but hey… it worked —
Problem: No metrics/monitoring; what do we focus on to fix? * Solution:
Configured external system monitoring via external SNMP, internal monitoring for
services/scripts ##### Details: * Using an existing self-hosted Network
Monitoring Solution (thus, no cost), established monitoring of Beehaw.org
[http://Beehaw.org] systems via SNMP * This gives us important metrics such as
network bandwidth usage, Memory, and CPU usage tracking down to which process
are using the most, parsing system event logs and tracking disk IO/Usage * Host
based monitoring that is configured to perform actions for known error
occurrences and attempts to automatically resolve them. Such as Lemmy app;
crashing; again * Alerting for unexpected events or prolonged outages. Spams the
crap out of @admin and @Lionir. They love me * Database level tracking for
‘expensive’ queries to know where the time and effort is spent for Lemmy. Helps
us to report these issues to the developers and get it fixed. With this
information we’ve determined the areas to focus on are database performance and
storage concerns. We’ll be moving our image storage to a CDN if possible to help
with bandwidth and storage costs. Peace of mind, and let the poor admins sleep!
— Problem: Lemmy is really slow and more resources for it are REALLY expensive *
Solution: Based on metrics (see above), tuned and configured various
applications to improve performance and uptime ##### Details: * I know it
doesn’t seem like it, but really, uptime has been better with a few exceptions *
Modified NGINX (web server) to cache items and load balance between UI instances
(currently running 2 lemmy-ui containers) * Setup frontend varnish cache to
decrease backend (Lemmy/DB) load. Save images and other content before hitting
the webserver; saves on CPU resources and connections, but no savings to
bandwidth cost * Artificially restricting resource usage (memory, CPU) to prove
that Lemmy can run on less hardware without a ton of problems. Need to reduce
the cost of running Beehaw ##### THE DATABASE This gets it’s own section. Look,
the largest issue with Lemmy performance is currently the database. We’ve spent
a lot of time attempting to track down why and what it is, and then fixing what
we reliably can. However, none of us are rust developers or database admins. We
know where Lemmy spends its time in the DB but not why and really don’t know how
to fix it in the code. If you’ve complained about why is Lemmy/Beehaw so slow
this is it; this is the reason. So since I can’t code rust, what do we do? Fix
it where we can! Postgresql server setting tuning and changes. Changed the
following items in postgresql to give better performance based on our load and
hardware: huge_pages = on # requires sysctl.conf changes and a system reboot
shared_buffers = 2GB max_connections = 150 work_mem = 3MB maintenance_work_mem =
256MB temp_file_limit = 4GB min_wal_size = 1GB max_wal_size = 4GB
effective_cache_size = 3GB random_page_cost = 1.2 wal_buffers = 16MB
bgwriter_delay = 100ms bgwriter_lru_maxpages = 150 effective_io_concurrency =
200 max_worker_processes = 4 max_parallel_workers_per_gather = 2
max_parallel_maintenance_workers = 2 max_parallel_workers = 6 synchronous_commit
= off shared_preload_libraries = 'pg_stat_statements' pg_stat_statements.track =
all — Now I’m not saying all of these had an affect, or even a cumulative
affect; just the values we’ve changed. Be sure to use your own system values
[https://pgtune.leopard.in.ua/] and not copy the above. The three largest
changes I’d say are key to do are synchronous_commit = off, huge_pages = on and
work_mem = 3MB. This article
[https://www.enterprisedb.com/postgres-tutorials/introduction-postgresql-performance-tuning-and-optimization]
may help you understand a few of those changes. With these changes, the database
seems to be working a damn sight better even under heavier loads. There are
still a lot of inefficiencies that can be fixed with the Lemmy app for these
queries. A user phiresky [https://github.com/phiresky/lemmy/branches] has made
some huge improvements there and we’re hoping to see those pulled into main
Lemmy on the next full release. — Problem: Lemmy errors aren’t helpful and
sometimes don’t even reach the user (UI) * Solution: Make our own UI with
blackjack and hookers propagation for backend Lemmy errors. Some of these fixes
have been merged into Lemmy main codebase #### Details * Yeah, we did that.
Including some other UI niceties. Main thing is, you need to pull in the
lemmy-ui code make your changes locally, and then use that custom image as your
UI for docker * Made some changes to a custom lemmy-ui image such as handling a
few JSON parsed error better, improving feedback given to the user * Remove
and/or move some elements around, change the CSS spacing * Change the node
server to listen to system signals sent to it, such as a graceful docker restart
* Other minor changes to assist caching, changed the container image to Debian
based instead of Alpine (reducing crashes) — ### The end? No, not by far. But
I am about to hit the character limit for Lemmy posts. There have been many
other changes and additions to Beehaw operations, these are but a few of the key
changes. Sharing with the broader community so those of you also running Lemmy,
can see if these changes help you too. Ask questions and I’ll discuss and answer
what I can; no secret sauce or passwords though; I’m not ChatGPT. Shout out to
@Lionir@beehaw.org [https://beehaw.org/u/Lionir] , @Helix@beehaw.org
[https://beehaw.org/u/Helix] and @admin@beehaw.org [https://beehaw.org/u/admin]
for continuing to work with me to keep Beehaw running smoothly. Thanks all you
Beeple, for being here and putting up with our growing pains!
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