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#pgbouncer#postgres#https#peering#connection#process#com#more#connections#processes

Discussion (54 Comments)Read Original on HackerNews

x4mabout 22 hours ago
Just use https://github.com/yandex/odyssey :) It's a scalable PgBouncer.
sevgabout 22 hours ago
Fun (semi-related) fact, ClickHouse was originally developed by Yandex :)
saisrirampurabout 22 hours ago
We started with the most battle-tested and native option to Postgres, which is PgBouncer and tried tuning it the right way. Also now that long due kinks like support for prepared statements are solved, it’s been working really well. There are many customers scaling well with 10K+ Postgres connections. We will consider other options like odyssey, pgdog in the future!

Side note: I’m not a big fan of having 10K+ connections on Postgres, 100s are more than enough to scale Postgres well. But that’s a story for another day. ;)

nosefrogabout 23 hours ago
Interesting. We run pgbouncer via kubernetes so it was straightforward to make multiple pgbouncer processes on one machine. Also straightforward to get them running on multiple machines, which helps because we run on Azure and they like to cause rolling outages across our fleet via VM maintenance...
saisrirampurabout 22 hours ago
Ack, makes sense. I’m very curious on how this affects throughput due to a potential extra network hop from pgbouncer to Postgres. Expecting it to have a minor difference, but still curious.
ezekiel68about 17 hours ago
> The cancel lands on a process that has never heard of the query, and nothing happens.

> Peering fixes this. The processes are aware of one another, so a cancel that lands on the wrong process is forwarded to the one that actually owns the session.

I understand "peering" as a concept here but have never tried this with PostgreSQL before. May I ask:

A) Does PostgreSQL have a mode/setting for peering that makes this easy? I'm imagining a mechanism that either goes round robin (re-sending the cancel to peers until it doesn't return an error of some kind) or some metadata in the cancel request that enables the wrong-destination process to somehow identify the proper process.

B) And by what mechanism? If all the PostgreSQL processes are listening to clients via so_reuseport, I guess there must be some other IPC method used for the peering chatter.

inigyouabout 17 hours ago
AI clearly wrote TFA. The cancellation thing is apparently a PgBouncer feature - the peering is between bouncer processes, not server processes. It sounds like it should be easy enough to make the bouncer process ID part of the cancel key.
__sabout 14 hours ago
you encode information in the token, this was a motivation for postgres to remove 32 byte cap on tokens: https://www.postgresql.org/message-id/508d0505-8b7a-4864-a68...

See from slide 26 https://www.pgevents.ca/events/pgconfdev2024/sessions/sessio... Jelte's a pgbouncer maintainer, video of a talk on this by him: https://www.youtube.com/watch?v=X-nCHcZ6vQU

ezekiel68about 4 hours ago
Thanks for this!
JustSkyfallabout 22 hours ago
I've been using pgdog (https://github.com/pgdogdev/pgdog) and it has worked really well for my needs!
levkkabout 21 hours ago
Glad you like it. It was built to fix some of PgBouncers shortcomings that we ran into at Instacart many years ago, and to have a stronger foundation for scaling Postgres horizontally (that's sharding)!
saisrirampurabout 22 hours ago
Ack, we will consider offering pgdog in the future! More context on why we chose pgbouncer https://news.ycombinator.com/item?id=48873867
jauntywundrkindabout 21 hours ago
It's been a pong pong back and forth between PG reverse proxy submissions lately! "Why we built [Pgdog]": https://news.ycombinator.com/item?id=48819308
z3ratul163071about 4 hours ago
is this for microservice scenarios where you gate access to the psql server through a connection pool thing? because if there is monolithic backend this is not needed. most decent backend frameworks have built-in connection pooling. that covers 98% of use cases for which microservices are not needed, nor recommended.
didipabout 4 hours ago
if your backend app is one big binary per host? Sure.

But if your backend app is a shared nothing fork of many processes then this is surely needed.

CodesInChaosabout 7 hours ago
Why does PgBouncer need to care about cancellation requests at all? Why can't it just forward the cancellation to postgres, which then responds to the cancelled query with an error instead of a response, and then the bouncer for that connection handles that error?
jkingsmanabout 7 hours ago
Query cancels are out of band from the query connection so PGBouncer has to land it on the right server and the right connection. So PGBouncer serves a bogus-but-tracked cancel PID+secret to the client, which then goes to PGBouncer and PGBouncer figures out the right server/process to send the actual PID+secret to. PGBouncer also has to make sure that the connection/PID is still actually running the query; strictly speaking, a client can believe a query is still running when PGBouncer knows it's already complete and the connection has been reused.
madduciabout 10 hours ago
PgBouncer is a great piece of software. We use that heavily and had made us DB operations pretty easy
DylanSpabout 21 hours ago
First time I've heard of so_reuseport, which is interesting. The important parts of the setup seem to be that + peering; is peering built-in to PgBouncer and simple to set up?
desert3agleabout 14 hours ago
can it work in kubernetes with peering? since there won't be any need to reuse ports there. or separate pods will have separate pools and will act as independent?
bradfitzabout 18 hours ago
I'm 46 now. I remember being shocked at Postgres's heavy connection model when I was 23.

I gather things haven't improved since?

saisrirampurabout 18 hours ago
It improved quite a lot! It scales pretty well to thousands of connections: https://techcommunity.microsoft.com/blog/adforpostgresql/imp....

However, if pooling isn’t used, there’s always an overhead (tens of milliseconds or more) when creating a new connection because Postgres needs to fork a process. And yes, applications can be written without pooling, which isn’t ideal, but happens quite a lot.

Application frameworks have also changed. Serverless architectures can generate tens of thousands of connections, which is where Postgres starts to run into issues. I’m personally not a big fan of using more than a few hundred connections, but it is very realistic in this era.

bradfitzabout 14 hours ago
In other words, it's still super heavy if it's forking a process per connection.

I find it ridiculous that PgBouncer even needs to exist. Postgres should be doing this.

kmeawabout 5 hours ago
Why Postgres should be doing this? Not every client creates a lot of connections and spinning up PgBouncer is easy. On the other hand, debugging async multithreaded complex code is hard.
hinkleyabout 14 hours ago
You were coming into the field just as companies were fielding their first reasonable answers to the Threading Model that Java put forward, which was sort of Windows' but with extra features. Even Solaris choked on Java. HP UX did worse and I can't recall if SGI was worse or better than HP. But getting compatible with Java shook a lot of companies up, in how they handled concurrency.

Postgres and SQLite were being designed at that same time but by industry veterans. People who had been deploying high load systems before any of this threading nonsense was around. And they were supporting people running on old hardware.

bradfitzabout 11 hours ago
Yeah, I remember writing epoll libraries for Perl (https://metacpan.org/pod/Sys::Syscall, first out 2005-08-01) doing raw system calls because libc on the distros of the time (at least Debian) didn't have epoll support yet.

So in 2005 I didn't expect Postgres to do super well here, but it's 21 years later and we're still pgbouncin'. It's just kinda sad.

nzeidabout 23 hours ago
Was there a disadvantage to using HAProxy + multiple PGBouncer instances?
__sabout 22 hours ago
SO_REUSEPORT[1] pretty much does all we want in kernelspace vs unnecessary userspace hop inbetween. These all run on same VM

1: https://lwn.net/Articles/542629

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jauntywundrkindabout 23 hours ago
This was more for fun than real use, but I greatly enjoyed hacking something similar into rqbit bittorrent client. I wanted to run an instance of 'rqbit download' per torrent via so_reuseport. When a peer tries to connect, it gets sent to a random instance. So I built a whole rendezvous system, where instances find each other & either proxy data to each other or fd pass the socket to each other directly to get the peer socket to the instance that needs it. It uses postcard rpc to chat between instances.

Clickhouse's so_reuseport rendezvous needs are obviously for a very different, but fun to see some so_reuseport coordination like this (for a much more practical use)!

It'd be really neat to have some kind of general peering protocol that different apps could use. This whole exercise was gratuitous as heck for my application, I don't even really intend to use this, but it was a fun path to walk down. So I don't really know what the broader protocol would really be for, what we would use it for. But it seems like such a cool idea! A shared Turso database would probably be a bit more practical than the rpc system, honestly. Ha.

https://github.com/rektide/rqbit/tree/peering

odie5533about 23 hours ago
Article should show the config:

[pgbouncer] listen_addr = 0.0.0.0 listen_port = 6432 so_reuseport = 1 peer_id = 1 unix_socket_dir = /tmp/pgbouncer1

[peers] 1 = host=/tmp/pgbouncer1 2 = host=/tmp/pgbouncer2 3 = host=/tmp/pgbouncer3 4 = host=/tmp/pgbouncer4