> While investigating issues like KAFKA-17754, we also encountered unseen writes in Kafka. Owing to time constraints we have not investigated this behavior, but unseen writes could be a sign of hanging transactions, stuck consumers, or even data loss. We are curious whether a delayed Produce message could slide into a future transaction, violating transactional guarantees. We also suspect that the Kafka Java Client may reuse a sequence number when a request times out, causing writes to be acknowledged but silently discarded. More Kafka testing is warranted.
Seems like Jepsen should do another Kafka deep-dive. Last time was in 2013 (https://aphyr.com/posts/293-call-me-maybe-kafka, Kafka version 0.8 beta) and seems like they're on the verge of discovering a lot of issues in Kafka itself. Things like "causing writes to be acknowledged but silently discarded" sounds very scary.
aphyr 7 days ago [-]
I would love to do a Kafka analysis. :-)
diggan 7 days ago [-]
Not that I'm a Kafka user, but I greatly appreciate your posts, so thank you :)
Maybe Kafka users should do a crowdfund for it if the companies aren't willing. Realistically, what would the goal of the crowdfund have to be for you to consider it?
jwr 7 days ago [-]
I'm still hoping Apple (or Snowflake) will pay you to do an analysis of FoundationDB…
tptacek 7 days ago [-]
I do too, but doesn't FDB already do a lot of the same kind of testing?
kasey_junk 7 days ago [-]
They are famous for doing simulation testing. https://antithesis.com/ Have recently brought to market a simulation testing product.
SahAssar 7 days ago [-]
I think they do similar testing, and therefore it might be even more interesting to read what Kyle thinks of their different approaches to it.
jwr 7 days ago [-]
Yes. But going through Jepsen and surviving is different. Gives an entirely new reputation to a database.
kasey_junk 7 days ago [-]
I don’t think ayphr would disagree with me when I say that FDB’s testing regime is the gold standard and Jepsen is trying to get there, not the other way around.
aphyr 7 days ago [-]
I'm not sure. I've worked on a few projects now which employed simulation testing and passed, only to discover serious bugs using Jepsen. State space exploration and oracle design are hard problems, and I'm not convinced there's a single, ideal path for DB testing that subsumes all others. I prefer more of a "complete breakfast" approach.
On another axis: Jepsen isn't "trying to get there [to FDB's testing]" because Jepsen and FDB's tests are solving different problems. Jepsen exists to test arbitrary, third-party databases without their cooperation, or even access to the source. FoundationDB's test suite is designed to test FoundationDB, and they have political and engineering buy-in to design the database from the ground up to cooperate with a deterministic (and, I suspect, protocol-aware) simulation framework.
To some extent Antithesis may be able to bridge the gap by rendering arbitrary distributed binaries deterministic. Something I'd like to explore!
tptacek 7 days ago [-]
This is a super interesting distinction and I'm glad I wrote my superficial drive-by comment about FDB's testing to prompt you to make it. :)
kasey_junk 7 days ago [-]
Has your opinion changed on that in the last few years? I could have sworn you were on record as saying this about foundation in the past but I couldn’t find it in my links.
aphyr 7 days ago [-]
I don't think so, but I've said a lot about databases in the last fifteen years haha.
Sometimes I look at what people say about FDB and it feels like... folks are putting words in my mouth that I don't recognize. I was very impressed by a short phone conversation with their engineers ~12 years ago. That's good, but that's not, like, a substantive experimental evaluation. That's "I focus my unpaid efforts on databases which seem more likely to yield fun, interesting results".
jwr 6 days ago [-]
So, will we get an evaluation of FDB one day? Pretty please? :-)
aphyr 6 days ago [-]
Apple is positively swimming in money! They could pay me! (Hi, Apple ;-))
Hey mate, think we interacted briefly on the Confluent Slack while you were working on this, something about outstanding TXes potentially interfering with consumption in the same process IIRC?
This isn't the first time you've discussed how parlous the Kafka tx spec is - not that that's even really a spec as such. I think this came up in your Redpanda analysis.
(And totally agree with you btw, some of the worst ever customer Kafka issues I dealt with at RH involved transactions.)
So was wondering what your ideal spec would look like, because I'd be interested in trying to capture the tx semantics in something like TLA+ as a learning experience - and because it would only help FOSS Kafka and FOSS clients improve, especially now that Confluent has withdrawn so much from Apache Kafka development.
aphyr 7 days ago [-]
I'm not really sure how to answer this question, but even a few chapters worth of clear prose would go a long way. We lay out a bunch of questions in the discussion section that would be really helpful in firming up intended txn semantics.
EdwardDiego 6 days ago [-]
Cheers, good place for me to start digging :)
monksy 7 days ago [-]
I would love to read your Kafka analysis
williamdclt 7 days ago [-]
I'm very surprised by this:
> [with the default enable.auto.commit=true] Kafka consumers may automatically mark offsets as committed, regardless of whether they have actually been processed by the application. This means that a consumer can poll a series of records, mark them as committed, then crash—effectively causing those records to be lost
That's never been my understanding of auto-commit, that would be a crazy default wouldn't it?
The docs say this:
> when auto-commit is enabled, every time the poll method is called and data is fetched, the consumer is ready to automatically commit the offsets of messages that have been returned by the poll. If the processing of these messages is not completed before the next auto-commit interval, there’s a risk of losing the message’s progress if the consumer crashes or is otherwise restarted. In this case, when the consumer restarts, it will begin consuming from the last committed offset. When this happens, the last committed position can be as old as the auto-commit interval. Any messages that have arrived since the last commit are read again. If you want to reduce the window for duplicates, you can reduce the auto-commit interval
I don't find it amazingly clear, but overall my understanding from this is that offsets are committed _only_ if the processing finishes. Tuning the auto-commit interval helps with duplicate processing, not with lost messages, as you'd expect for at-least-once processing.
aphyr 7 days ago [-]
It is a little surprising, and I agree, the docs here are not doing a particularly good job of explaining it. It might help to ask: if you don't explicitly commit, how does Kafka know when you've processed the messages it gave you? It doesn't! It assumes any message it hands you is instantaneously processed.
Auto-commit is a bit like handing someone an ice cream cone, then immediately walking away and assuming they ate it. Sometimes people drop their ice cream immediately after you hand it to them, and never get a bite.
justinsaccount 7 days ago [-]
Weird, I would have guessed that it auto commits the previous batch when it polls for the next batch, meaning it would be like
loop:
messages = poll() # poll returns new messages and commits previous batch
process(messages)
but it sounds like it "poll returns new messages and immediately commits them."
williamdclt 7 days ago [-]
Information on the internet about this seems unreliable, confusing and contradictory... It's crazy for something so critical, especially when it's enabled by default.
frant-hartm 6 days ago [-]
> how does Kafka know when you've processed the messages it gave you?
By calling `poll()` again. It doesn't commit the records returned from poll until auto commit interval expires AND you call poll again.
Note: Using automatic offset commits can also give you "at-least-once" delivery, but the requirement is that you must consume all data returned from each call to poll(Duration) before any subsequent calls, or before closing the consumer.
E.g. the following commits every 10s - on each call to `poll`, it doesn't automagically commit every 5 s.
Properties props = new Properties();
props.setProperty("bootstrap.servers", "localhost:9092");
props.setProperty("group.id", "test");
props.setProperty("enable.auto.commit", "true");
props.setProperty("auto.commit.interval.ms", "5000");
props.setProperty("key.deserializer", "org.apache.kafka.common.serialization.StringDeserializer");
props.setProperty("value.deserializer", "org.apache.kafka.common.serialization.StringDeserializer");
KafkaConsumer<String, String> consumer = new KafkaConsumer<>(props);
consumer.subscribe(Arrays.asList("my-topic"));
while (true) {
ConsumerRecords<String, String> records = consumer.poll(Duration.ofMillis(100));
for (ConsumerRecord<String, String> record : records) {
System.out.printf("offset = %d, key = %s, value = %s%n", record.offset(), record.key(), record.value());
}
Thread.sleep(10_000);
}
frant-hartm 6 days ago [-]
Just a note: I am not claiming it is working correctly, only saying there is a clear and documented way how the client knows when to commit, and that it works as expected in a simple scenario.
dangoodmanUT 7 days ago [-]
This, it has no idea that you processed the message. It assumes processing is successful by default which is cosmically stupid.
williamdclt 7 days ago [-]
> if you don't explicitly commit, how does Kafka know when you've processed the messages it gave you?
I did expect that auto-commit still involved an explicit commit. I expected that it meant that the consumer side would commit _after_ processing a message/batch _if_ it had been >= autocommit_interval since the last commit. In other words, that it was a functionality baked into the Kafka client library (which does know when a message has been processed by the application). I don't know if it really makes sense, I never really thought hard about it before!
I'm still a bit skeptical... I'm pretty sure (although not positive) that I've seen consumers with autocommit being stuck because of timeouts that were much greater than the autocommit interval, and yet retrying the same message in a loop
lein run test --enable-auto-commit --bin bufstream-0.1.3-rc.12 --time-limit 30 --txn --final-time-limit 1/10000
7 days ago [-]
jakewins 7 days ago [-]
Auto commit has always seemed super shady. Manual commit I have assumed is safe though - something something vector clocks - and it’d be really interesting to know if that trust is misplaced.
What is the process and cost for having you do a Jepsen test for something like that?
I (and apparently the Confluent docs?) may be wrong about this. I've added an update to the report.
kevstev 7 days ago [-]
It is a bit of splitting hairs in some sense, but the key concept here is just because the message was delivered to the Kafka client successfully, does not mean it was processed by the application.
You will have to explicitly ack if you want that guarantee. For a concrete example, lets say all you do with a message is write it to a database. As soon as that message is in your client handler callback, that message is ack'ed. But you probably only want that ack to happen after a successful insert into the DB. The most likely scenario here to cause unprocessed messages is that the DB is down for whatever reason (maybe a network link is down, or k8s or even a firewall config now prevents you from accessing), and at some point during this your client goes down, maybe by an eng attempting a restart to see if the problem goes away.
th0ma5 7 days ago [-]
It is my understanding that the reason why this is is high performance situations. You have some other system that can figure out if something fail, but with this feature you can move the high water mark so that you don't have to redo as much. But if you got the timing right and there is a failure you can go ahead and assume that when you restart again you'll be getting some stuff that you already processed. The problem is when you don't have this for mailing before the auto commit. It is meant to be done far after processing in my reading of it, but it does certainly seem like there's a contradiction that it should auto commit but only stuff so many milliseconds before the auto commit time?
necubi 7 days ago [-]
I can maybe give some justification for why this feature exists. It's designed for synchronous, single-threaded consumers which do something like this:
loop {
1. Call poll
2. Durably process the messages
}
I think a point of confusion here is that the auto-commit check happens on the next call to poll—not asynchronously after the timeout. So you should only be able to drop writes if you are storing the messages without durably processing them (which includes any kind of async/defer/queues/etc.) before calling poll again.
(I should say—this is the documented behavior for the Java client library[0]—it's possible that it's not actually the behavior that's implemented today.)
The Kafka protocol is torn between being high-level and low-level, and as a result it does neither particularly well. Auto commit is a high-level feature that aims to make it easier to build simple applications without needing to really understand all of the moving pieces, but obviously can fail if you don't use it as expected.
I'd argue that today end users shouldn't be using the Kafka client directly—use a proper high level implementation that will get the details right for you (for data use cases this is probably a stream processing engine, for application use cases it's something like a duration execution engine).
I’m looking at the product page [0] and wondering how those two statements are compatible:
> Bufstream runs fully within your AWS or GCP VPC, giving you complete control over your data, metadata, and uptime. Unlike the alternatives, Bufstream never phones home.
> Bufstream pricing is simple: just $0.002 per uncompressed GiB written (about $2 per TiB). We don't charge any per-core, per-agent, or per-call fees.
Surely they wouldn’t run their entire business on the honor system?
> As of October 2024, Bufstream was deployed only with select customers.
my assumption would be an honor system might be doable. They are exposing themselves to risk of abuse of course but it might be a worthy trade off for getting certain clients on board.
perezd 7 days ago [-]
That's correct. We hop onto Zoom calls with our customers on an agreed cadence, and they share a billing report with us to confirm usage/metering. For enterprise customers specifically, it works great. They don't want to violate contracts, and it also gives us a natural check-in point to ensure things are going smoothly with their deployment.
When we say fully air-gapped, we mean it!
mathfailure 7 days ago [-]
A program is either opensourced or not. When its sources aren't available - one should never trust "it doesn't phone home" claims.
kentonv 7 days ago [-]
If a company makes unambiguous claims in their advertising which turn out to be false, they will get sued and maybe even fined by regulators. Much of the world does in fact operate on this kind of trust.
bobnamob 7 days ago [-]
If you can stick it in a vpc with zero egress and have it run, it doesn’t matter. It won’t be phoning home even if it wants to
igetspam 6 days ago [-]
Firewalls solve problems like this. Relying on a secret callback mechanism to run your business is high risk, when you have sophisticated customers. A number of industries have low risk tolerance and default deny traffic, which would make those industries inaccessible to a company that tried to operate that way.
refset 7 days ago [-]
> The Kafka transaction protocol is fundamentally broken and must be revised.
Ouch. Great investigation work and write-up, as ever!
didip 7 days ago [-]
Has Kyle reviewed NATS Jetstream? I wonder what he thinks of it.
aphyr 7 days ago [-]
I have not yet, though you're not the first to ask. Some folks have suggested it might be... how do you say... fun? :-)
speedgoose 7 days ago [-]
If you are looking for fun targets, may I suggest KubeMQ too? Its author claims that it’s better than Kafka, Redis and RabbitMQ. It’s also "kubernetes native" but the open source version refuses to start if it detects kubernetes.
SahAssar 7 days ago [-]
> It’s also "kubernetes native" but the open source version refuses to start if it detects kubernetes.
They seem to have pivoted from protobuf tools to kafka alternatives. I don't think bufstream is OSS (yet). Or at least, they have very much de-emphasized their original offering on their site.
perezd 7 days ago [-]
Nope! We're still heavily investing in scaling Protobuf. In fact, our data quality guarantees built into Bufstream are powered by Protobuf! This is simply an extension of what we do...Connect RPC, Buf CLI, etc.
Don't read too much into the website :)
bpicolo 7 days ago [-]
Good to know. Good proto tooling is still high value :)
mdaniel 7 days ago [-]
I don't think bufstream itself is open source but there's https://github.com/bufbuild/bufstream-demo which may be close to what you want (but is also unlicensed, bizarrely)
perezd 7 days ago [-]
That's correct. Bufstream is not open source, but we do have a demo that you can try. I've asked the team to include a proper LICENSE file as well. Thanks for catching that!
kiitos 7 days ago [-]
Great work as always.
After reading thru the relevant blog posts and docs, my understanding is that Kafka defines "exactly-once delivery" as a property of what they call a "read-process-write operation", where workers read-from topic 1, and write-to topic 2, where both topics are in the same logical Kafka system. Is that correct? If so, isn't that better described as a transaction?
aphyr 7 days ago [-]
Kafka actually does call these transactions! However (and this is a loooong discussion I can't really dig into right now) there's sort of two ways to look at "exactly once". One is in the sense that DB transactions are "exactly once"; a transaction's effects shouldn't be duplicated or lost. But in another sense "exactly once" is a sort of dataflow graph property that relates messages across topic-partitions. That's a little more akin to ACID "consistency".
You can use transactions to get to that dataflow property, in the same sort of way that Serializable transaction systems guarantee certain kinds of domain-level consistency. For example, Serializability guarantees that any invariant preserved by a set of transactions, considered purely in isolation, is also preserved by concurrent histories of those transactions. I think you can argue Kafka intends to reach "exactly-once semantics" through transactions in that way.
Correct. WarpStream doesn't even support transactions.
jcgrillo 7 days ago [-]
Neither does any other Kafka protocol implementation, evidently ;)
akshayshah 7 days ago [-]
Zing! Can’t lose if you don’t play ;)
jcgrillo 5 days ago [-]
This cuts both ways, choosing to not implement flawed portions of the spec could be seen as a good thing. I've always been a bit suspicious of the value of "bug for bug compatibility". You don't actually need transactions in Kafka in normal operation IME. I've never tried to use "streams" before and have never encountered a case where I thought they were a good trade. Better to implement that kind of stuff in a way I can control.
zbentley 7 days ago [-]
Erratum:
> Transactions may observe none, part, or all
Should, I think, read:
> Consumets may observe none, part, or all
aphyr 7 days ago [-]
Both are true, but we use "transactions" for clarity, since the semantics of consumers outside transactions is even murkier. Every read in this workload takes place in the context of a transaction, and goes through the transactional offset commit path.
zbentley 7 days ago [-]
Ah, got it; I was assuming that “transactions” was referring to the transactions mentioned as the subject of the previous sentence, not the transactions active in consumers observing those. My mistake!
pmdulaney 7 days ago [-]
What is this software used for? Instrumentation? Black boxes?
baq 7 days ago [-]
Jepsen is for making you cry if you didn't know they're testing the database you develop. Of course, those are tears of joy, because having jepsen's attention is an achievement in itself.
SahAssar 7 days ago [-]
You describe jepsen as if it's BDSM for databases, which might not be too far off.
smw 7 days ago [-]
It's a kafka clone. Kafka is a durable queue, mostly.
7 days ago [-]
sureglymop 7 days ago [-]
What is a durable queue and why is it needed (instead of a traditional relational db)?
toast0 7 days ago [-]
Traditional relational dbs can be good at durability (if properly configured), but it a queue might be designed differently than a table.
You might want to be more specific about how messages are assigned to clients than what would be convenient in a relational database.
cyberax 7 days ago [-]
RDBs suck for many-to-many high-availability messaging.
rad_gruchalski 6 days ago [-]
Kafka is an append-only log, not a queue.
zbentley 5 days ago [-]
Assuming successful implementation of KIP-932, it will soon be a queue as well.
> We would like to combine Jepsen’s workload generation and history checking with Antithesis’ deterministic and replayable environment to make our tests more reproducible.
A Jepsen + Antithesis team up is something the world needs right now, specifically on the back of the Horizon Post Office scandal.
Thanks for all your work highlighting the importance of db safety Aphyr
bobnamob 7 days ago [-]
Furthermore, I'm aware of multiple banks currently using Kafka. One would hope that they're not using it in their core banking system given Kyle's findings
Maybe they'd be interested in funding a Jepsen ~attack~ experiment on Kafka
kevstev 7 days ago [-]
As someone who was very deep into Kafka in the not too distant past, I am surprised I have no idea what you are referring to- can you enlighten me?
diggan 7 days ago [-]
Read the "Future Work" section in the bottom of the post for the gist, and also section 5.3.
kevstev 7 days ago [-]
I see. I never trusted transactions and advised our app teams to not rely on them, at least without outside verification of them.
The situation is actually far worse with any client relying on librdkafka. Some of this has been fixed, but my company found at least a half dozen bugs/uncompleted features in librdkafka, mostly around retryable errors that were sometimes ignored, sometimes caused exceptions, and other times just straight hung clients.
Despite our company leaning heavily on Confluent to force librdkafka to get to parity with the Java client, it was always behind, and in general we started adopting a stance of not implementing any business critical functions on any feature implemented in the past year or major release.
EdwardDiego 7 days ago [-]
Yeah, Confluent has really dropped the ball on librdkafka dev of late. :(
tacticus 7 days ago [-]
Can't bill consultant hours when maintaining the library.
7 days ago [-]
bayareacommie 7 days ago [-]
[dead]
Rendered at 18:39:13 GMT+0000 (Coordinated Universal Time) with Vercel.
Seems like Jepsen should do another Kafka deep-dive. Last time was in 2013 (https://aphyr.com/posts/293-call-me-maybe-kafka, Kafka version 0.8 beta) and seems like they're on the verge of discovering a lot of issues in Kafka itself. Things like "causing writes to be acknowledged but silently discarded" sounds very scary.
Maybe Kafka users should do a crowdfund for it if the companies aren't willing. Realistically, what would the goal of the crowdfund have to be for you to consider it?
On another axis: Jepsen isn't "trying to get there [to FDB's testing]" because Jepsen and FDB's tests are solving different problems. Jepsen exists to test arbitrary, third-party databases without their cooperation, or even access to the source. FoundationDB's test suite is designed to test FoundationDB, and they have political and engineering buy-in to design the database from the ground up to cooperate with a deterministic (and, I suspect, protocol-aware) simulation framework.
To some extent Antithesis may be able to bridge the gap by rendering arbitrary distributed binaries deterministic. Something I'd like to explore!
Sometimes I look at what people say about FDB and it feels like... folks are putting words in my mouth that I don't recognize. I was very impressed by a short phone conversation with their engineers ~12 years ago. That's good, but that's not, like, a substantive experimental evaluation. That's "I focus my unpaid efforts on databases which seem more likely to yield fun, interesting results".
This isn't the first time you've discussed how parlous the Kafka tx spec is - not that that's even really a spec as such. I think this came up in your Redpanda analysis.
(And totally agree with you btw, some of the worst ever customer Kafka issues I dealt with at RH involved transactions.)
So was wondering what your ideal spec would look like, because I'd be interested in trying to capture the tx semantics in something like TLA+ as a learning experience - and because it would only help FOSS Kafka and FOSS clients improve, especially now that Confluent has withdrawn so much from Apache Kafka development.
> [with the default enable.auto.commit=true] Kafka consumers may automatically mark offsets as committed, regardless of whether they have actually been processed by the application. This means that a consumer can poll a series of records, mark them as committed, then crash—effectively causing those records to be lost
That's never been my understanding of auto-commit, that would be a crazy default wouldn't it?
The docs say this:
> when auto-commit is enabled, every time the poll method is called and data is fetched, the consumer is ready to automatically commit the offsets of messages that have been returned by the poll. If the processing of these messages is not completed before the next auto-commit interval, there’s a risk of losing the message’s progress if the consumer crashes or is otherwise restarted. In this case, when the consumer restarts, it will begin consuming from the last committed offset. When this happens, the last committed position can be as old as the auto-commit interval. Any messages that have arrived since the last commit are read again. If you want to reduce the window for duplicates, you can reduce the auto-commit interval
I don't find it amazingly clear, but overall my understanding from this is that offsets are committed _only_ if the processing finishes. Tuning the auto-commit interval helps with duplicate processing, not with lost messages, as you'd expect for at-least-once processing.
Auto-commit is a bit like handing someone an ice cream cone, then immediately walking away and assuming they ate it. Sometimes people drop their ice cream immediately after you hand it to them, and never get a bite.
By calling `poll()` again. It doesn't commit the records returned from poll until auto commit interval expires AND you call poll again.
At least this is what the javadoc says quite clearly: https://kafka.apache.org/39/javadoc/org/apache/kafka/clients...
Note: Using automatic offset commits can also give you "at-least-once" delivery, but the requirement is that you must consume all data returned from each call to poll(Duration) before any subsequent calls, or before closing the consumer.
E.g. the following commits every 10s - on each call to `poll`, it doesn't automagically commit every 5 s.
I did expect that auto-commit still involved an explicit commit. I expected that it meant that the consumer side would commit _after_ processing a message/batch _if_ it had been >= autocommit_interval since the last commit. In other words, that it was a functionality baked into the Kafka client library (which does know when a message has been processed by the application). I don't know if it really makes sense, I never really thought hard about it before!
I'm still a bit skeptical... I'm pretty sure (although not positive) that I've seen consumers with autocommit being stuck because of timeouts that were much greater than the autocommit interval, and yet retrying the same message in a loop
Or here, you can reproduce it yourself using the Bufstream or Redpanda/Kafka test suite. Here's a real quick run I just dashed off. You can watch it skip over writes: https://gist.github.com/aphyr/1af2c4eef9aacde7f08f1582304908...
lein run test --enable-auto-commit --bin bufstream-0.1.3-rc.12 --time-limit 30 --txn --final-time-limit 1/10000
What is the process and cost for having you do a Jepsen test for something like that?
You will have to explicitly ack if you want that guarantee. For a concrete example, lets say all you do with a message is write it to a database. As soon as that message is in your client handler callback, that message is ack'ed. But you probably only want that ack to happen after a successful insert into the DB. The most likely scenario here to cause unprocessed messages is that the DB is down for whatever reason (maybe a network link is down, or k8s or even a firewall config now prevents you from accessing), and at some point during this your client goes down, maybe by an eng attempting a restart to see if the problem goes away.
(I should say—this is the documented behavior for the Java client library[0]—it's possible that it's not actually the behavior that's implemented today.)
The Kafka protocol is torn between being high-level and low-level, and as a result it does neither particularly well. Auto commit is a high-level feature that aims to make it easier to build simple applications without needing to really understand all of the moving pieces, but obviously can fail if you don't use it as expected.
I'd argue that today end users shouldn't be using the Kafka client directly—use a proper high level implementation that will get the details right for you (for data use cases this is probably a stream processing engine, for application use cases it's something like a duration execution engine).
[0] https://kafka.apache.org/32/javadoc/org/apache/kafka/clients... —
> Bufstream runs fully within your AWS or GCP VPC, giving you complete control over your data, metadata, and uptime. Unlike the alternatives, Bufstream never phones home.
> Bufstream pricing is simple: just $0.002 per uncompressed GiB written (about $2 per TiB). We don't charge any per-core, per-agent, or per-call fees.
Surely they wouldn’t run their entire business on the honor system?
[0] https://buf.build/product/bufstream
> As of October 2024, Bufstream was deployed only with select customers.
my assumption would be an honor system might be doable. They are exposing themselves to risk of abuse of course but it might be a worthy trade off for getting certain clients on board.
When we say fully air-gapped, we mean it!
Ouch. Great investigation work and write-up, as ever!
I thought you were kidding, but this is crazy. https://github.com/kubemq-io/kubemq-community/issues/32
And it seems like you cannot even see pricing without signing up or contacting their sales: https://kubemq.io/product-pricing/
Don't read too much into the website :)
After reading thru the relevant blog posts and docs, my understanding is that Kafka defines "exactly-once delivery" as a property of what they call a "read-process-write operation", where workers read-from topic 1, and write-to topic 2, where both topics are in the same logical Kafka system. Is that correct? If so, isn't that better described as a transaction?
You can use transactions to get to that dataflow property, in the same sort of way that Serializable transaction systems guarantee certain kinds of domain-level consistency. For example, Serializability guarantees that any invariant preserved by a set of transactions, considered purely in isolation, is also preserved by concurrent histories of those transactions. I think you can argue Kafka intends to reach "exactly-once semantics" through transactions in that way.
> Transactions may observe none, part, or all
Should, I think, read:
> Consumets may observe none, part, or all
You might want to be more specific about how messages are assigned to clients than what would be convenient in a relational database.
https://cwiki.apache.org/confluence/display/KAFKA/KIP-932%3A...
For those unaware, Antithesis was founded by some of the folks who worked on FoundationDB - see https://youtu.be/4fFDFbi3toc?si=wY_mrD63fH2osiU- for some of their handiwork.
A Jepsen + Antithesis team up is something the world needs right now, specifically on the back of the Horizon Post Office scandal.
Thanks for all your work highlighting the importance of db safety Aphyr
Maybe they'd be interested in funding a Jepsen ~attack~ experiment on Kafka
The situation is actually far worse with any client relying on librdkafka. Some of this has been fixed, but my company found at least a half dozen bugs/uncompleted features in librdkafka, mostly around retryable errors that were sometimes ignored, sometimes caused exceptions, and other times just straight hung clients.
Despite our company leaning heavily on Confluent to force librdkafka to get to parity with the Java client, it was always behind, and in general we started adopting a stance of not implementing any business critical functions on any feature implemented in the past year or major release.