On Sat, Jul 8, 2023, at 02:41, Erik van Oosten wrote:
Hi Colin,
Thanks for your thoughts and taking the time to reply.
Let me take away your concerns. None of your worries are an issue with
the algorithm described in KIP-944. Here it goes:
> It's not clear ot me that it's safe to access the Kafka consumer or
producer concurrently from different threads.
Concurrent access is /not/ a design goal of KIP-944. In fact, it goes
through great lengths to make sure that this cannot happen.
*The only design goal is to allow callbacks to call the consumer from
another thread.*
To make sure there are no more misunderstandings about this, I have
added this goal to the KIP.
Hi Erik,
Sorry, I spoke imprecisely. My concern is not concurrent access, but
multithreaded access in general. Basically cache line visibility issues.
> This is true even if the accesses happen at different times, because
modern CPUs require memory barriers to guarantee inter-thread visibilty
of loads and stores.
In KIP-944, the callback thread can only delegate to another thread
after reading from and writing to a threadlocal variable, providing the
barriers right there.
I don't see any documentation that accessing thread local variables provides a
total store or load barrier. Do you have such documentation? It seems like if
this were the case, we could eliminate volatile variables from most of the code
base.
> I know that there are at least a few locks in the consumer code now,
due to our need to send heartbeats from a worker thread. I don't think
those would be sufficient to protect a client that is making calls from
random threads.
In the current implementation the consumer is also invoked from random
threads. If it works now, it should continue to work.
I'm not sure what you're referring to. Can you expand on this?
> There has been some discussion of moving to a more traditional model
where people make calls to the client and the clients passes the given
data to a single background worker thread. This would avoid a lot lof
the footguns of the current model and probably better reflect how people
actually use the client.
That is awesome. However, I'd rather not wait for that.
> Another issue is that neither the producer nor the consumer is fully
nonblocking. There are some corner cases where we do in fact block. From
memory, the producer blocks in some "buffer full" cases, and the
consumer blocks sometimes when fetching metadata.
I am aware of that. This is not an issue; all async runtimes can
cooperate with blocking code.
Hmm, not sure what you mean by "cooperate with blocking code." If you have 10 green
threads you're multiplexing on to one CPU thread, and that CPU thread gets blocked because of what
one green thread is doing, the other 9 green threads are blocked too, right? I guess it's
"just" a performance problem, but it still seems like it could be a serious one.
> I suspect it would be more appropriate for Kotlin coroutines, Zio
coroutines and so on to adopt this "pass messages to and from a
background worker thread" model than to try to re-engineer the Kafka
client ot work from random threads.
In both zio-kafka and fs2-kafka this is already the approach we are taking.
Unfortunately, the Kafka consumer forces us to perform some work in
callbacks:
* commit completed callback: register that the callback is complete,
* partition revoked callback: in this callback we need to submit
commits from everything consumed and processed so far, using
timeouts if processing takes to long. In an async runtime, this is
an inherently multi-threaded process. Especially, we cannot do
timeouts without involving multiple threads.
I don't see why this has to be "inherently multi-threaded." Why can't we have
the other threads report back what messages they've processed to the worker thread. Then
it will be able to handle these callbacks without involving the other threads.
regards,
Colin
I have extended the KIP's motivation to explain the major use case.
Please read KIP-944 again. Even though the description is extensive
(this callback from callback stuff is tricky), you will find that my
goals are modest.
Also the implementation is just a few lines. With understanding of the
idea it should not be a lot of work to follow it.
Kind regards,
Erik.
Op 07-07-2023 om 19:57 schreef Colin McCabe:
Hi Erik,
It's not clear ot me that it's safe to access the Kafka consumer or producer
concurrently from different threads. There are data structures that aren't
protected by locks, so I wouldn't necessarily expect accessing and mutating
them in a concurrent way to work. This is true even if the accesses happen at
different times, because modern CPUs require memory barriers to guarantee
inter-thread visibilty of loads and stores.
I am writing this is without doing a detailed dive into the code (I haven't
been into the consumer / producer code in a bit.) Someone who has worked more
on the consumer recently might be able to give specific examples of things that
wouldn't work.
I know that there are at least a few locks in the consumer code now, due to our
need to send heartbeats from a worker thread. I don't think those would be
sufficient to protect a client that is making calls from random threads.
There has been some discussion of moving to a more traditional model where
people make calls to the client and the clients passes the given data to a
single background worker thread. This would avoid a lot lof the footguns of the
current model and probably better reflect how people actually use the client.
Another issue is that neither the producer nor the consumer is fully nonblocking. There
are some corner cases where we do in fact block. From memory, the producer blocks in some
"buffer full" cases, and the consumer blocks sometimes when fetching metadata.
I suspect it would be more appropriate for Kotlin coroutines, Zio coroutines and so on to
adopt this "pass messages to and from a background worker thread" model than
to try to re-engineer the Kafka client ot work from random threads.
There is actually somed good advice about how to handle multiple threads in the KafkaConsumer.java
header file itself. Check the sections "One Consumer Per Thread" and "Decouple
Consumption and Processing." What I'm recommending here is essentially the latter.
I do understand that it's frustrating to not get a quick response. However,
overall I think this one needs a lot more discussion before getting anywhere
near a vote. I will leave a -1 just as a procedural step. Maybe some of the
people working in the client area can also chime in.
best,
Colin
On Thu, Jul 6, 2023, at 12:02, Erik van Oosten wrote:
Dear PMCs,
So far there have been 0 responses to KIP-944. I understand this may not
be something that keeps you busy, but this KIP is important to people
that use async runtimes like Zio, Cats and Kotlin.
Is there anything you need to come to a decision?
Kind regards,
Erik.
Op 05-07-2023 om 11:38 schreef Erik van Oosten:
Hello all,
I'd like to call a vote on KIP-944 Support async runtimes in consumer.
It has has been 'under discussion' for 7 days now. 'Under discussion'
between quotes, because there were 0 comments so far. I hope the KIP
is clear!
KIP description:https://cwiki.apache.org/confluence/x/chw0Dw
Kind regards,
Erik.
--
Erik van Oosten
e.vanoos...@grons.nl
https://day-to-day-stuff.blogspot.com
