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From Sijie Guo <si...@apache.org>
Subject Re: Proxy Client - Batch Ordering / Commit
Date Tue, 01 Nov 2016 10:05:33 GMT
I created https://issues.apache.org/jira/browse/DL-63 for tracking the
proposed idea here.



On Wed, Oct 26, 2016 at 4:53 PM, Sijie Guo <sijieg@twitter.com.invalid>
wrote:

> On Tue, Oct 25, 2016 at 11:30 AM, Cameron Hatfield <kinguy@gmail.com>
> wrote:
>
> > Yes, we are reading the HBase WAL (from their replication plugin
> support),
> > and writing that into DL.
> >
>
> Gotcha.
>
>
> >
> > From the sounds of it, yes, it would. Only thing I would say is make the
> > epoch requirement optional, so that if I client doesn't care about dupes
> > they don't have to deal with the process of getting a new epoch.
> >
>
> Yup. This should be optional. I can start a wiki page on how we want to
> implement this. Are you interested in contributing to this?
>
>
> >
> > -Cameron
> >
> > On Wed, Oct 19, 2016 at 7:43 PM, Sijie Guo <sijieg@twitter.com.invalid>
> > wrote:
> >
> > > On Wed, Oct 19, 2016 at 7:17 PM, Sijie Guo <sijieg@twitter.com> wrote:
> > >
> > > >
> > > >
> > > > On Monday, October 17, 2016, Cameron Hatfield <kinguy@gmail.com>
> > wrote:
> > > >
> > > >> Answer inline:
> > > >>
> > > >> On Mon, Oct 17, 2016 at 11:46 AM, Sijie Guo <sijie@apache.org>
> wrote:
> > > >>
> > > >> > Cameron,
> > > >> >
> > > >> > Thank you for your summary. I liked the discussion here. I also
> > liked
> > > >> the
> > > >> > summary of your requirement - 'single-writer-per-key,
> > > >> > multiple-writers-per-log'. If I understand correctly, the core
> > concern
> > > >> here
> > > >> > is almost 'exact-once' write (or a way to explicit tell if a
write
> > can
> > > >> be
> > > >> > retried or not).
> > > >> >
> > > >> > Comments inline.
> > > >> >
> > > >> > On Fri, Oct 14, 2016 at 11:17 AM, Cameron Hatfield <
> > kinguy@gmail.com>
> > > >> > wrote:
> > > >> >
> > > >> > > > Ah- yes good point (to be clear we're not using the
proxy this
> > way
> > > >> > > today).
> > > >> > >
> > > >> > > > > Due to the source of the
> > > >> > > > > data (HBase Replication), we cannot guarantee
that a single
> > > >> partition
> > > >> > > will
> > > >> > > > > be owned for writes by the same client.
> > > >> > >
> > > >> > > > Do you mean you *need* to support multiple writers
issuing
> > > >> interleaved
> > > >> > > > writes or is it just that they might sometimes interleave
> writes
> > > and
> > > >> > you
> > > >> > > >don't care?
> > > >> > > How HBase partitions the keys being written wouldn't have
a
> > one->one
> > > >> > > mapping with the partitions we would have in HBase. Even
if we
> did
> > > >> have
> > > >> > > that alignment when the cluster first started, HBase will
> > rebalance
> > > >> what
> > > >> > > servers own what partitions, as well as split and merge
> partitions
> > > >> that
> > > >> > > already exist, causing eventual drift from one log per
> partition.
> > > >> > > Because we want ordering guarantees per key (row in hbase),
we
> > > >> partition
> > > >> > > the logs by the key. Since multiple writers are possible
per
> range
> > > of
> > > >> > keys
> > > >> > > (due to the aforementioned rebalancing / splitting / etc
of
> > hbase),
> > > we
> > > >> > > cannot use the core library due to requiring a single writer
for
> > > >> > ordering.
> > > >> > >
> > > >> > > But, for a single log, we don't really care about ordering
aside
> > > from
> > > >> at
> > > >> > > the per-key level. So all we really need to be able to handle
is
> > > >> > preventing
> > > >> > > duplicates when a failure occurs, and ordering consistency
> across
> > > >> > requests
> > > >> > > from a single client.
> > > >> > >
> > > >> > > So our general requirements are:
> > > >> > > Write A, Write B
> > > >> > > Timeline: A -> B
> > > >> > > Request B is only made after A has successfully returned
> (possibly
> > > >> after
> > > >> > > retries)
> > > >> > >
> > > >> > > 1) If the write succeeds, it will be durably exposed to
clients
> > > within
> > > >> > some
> > > >> > > bounded time frame
> > > >> > >
> > > >> >
> > > >> > Guaranteed.
> > > >> >
> > > >>
> > > >> > > 2) If A succeeds and B succeeds, the ordering for the log
will
> be
> > A
> > > >> and
> > > >> > > then B
> > > >> > >
> > > >> >
> > > >> > If I understand correctly here, B is only sent after A is
> returned,
> > > >> right?
> > > >> > If that's the case, It is guaranteed.
> > > >>
> > > >>
> > > >>
> > > >> >
> > > >> >
> > > >> >
> > > >> > > 3) If A fails due to an error that can be relied on to *not*
be
> a
> > > lost
> > > >> > ack
> > > >> > > problem, it will never be exposed to the client, so it may
> > > (depending
> > > >> on
> > > >> > > the error) be retried immediately
> > > >> > >
> > > >> >
> > > >> > If it is not a lost-ack problem, the entry will be exposed. it
is
> > > >> > guaranteed.
> > > >>
> > > >> Let me try rephrasing the questions, to make sure I'm understanding
> > > >> correctly:
> > > >> If A fails, with an error such as "Unable to create connection to
> > > >> bookkeeper server", that would be the type of error we would expect
> to
> > > be
> > > >> able to retry immediately, as that result means no action was taken
> on
> > > any
> > > >> log / etc, so no entry could have been created. This is different
> > then a
> > > >> "Connection Timeout" exception, as we just might not have gotten a
> > > >> response
> > > >> in time.
> > > >>
> > > >>
> > > > Gotcha.
> > > >
> > > > The response code returned from proxy can tell if a failure can be
> > > retried
> > > > safely or not. (We might need to make them well documented)
> > > >
> > > >
> > > >
> > > >>
> > > >> >
> > > >> >
> > > >> > > 4) If A fails due to an error that could be a lost ack problem
> > > >> (network
> > > >> > > connectivity / etc), within a bounded time frame it should
be
> > > >> possible to
> > > >> > > find out if the write succeed or failed. Either by reading
from
> > some
> > > >> > > checkpoint of the log for the changes that should have been
made
> > or
> > > >> some
> > > >> > > other possible server-side support.
> > > >> > >
> > > >> >
> > > >> > If I understand this correctly, it is a duplication issue, right?
> > > >> >
> > > >> > Can a de-duplication solution work here? Either DL or your client
> > does
> > > >> the
> > > >> > de-duplication?
> > > >> >
> > > >>
> > > >> The requirements I'm mentioning are the ones needed for client-side
> > > >> dedupping. Since if I can guarantee writes being exposed within some
> > > time
> > > >> frame, and I can never get into an inconsistently ordered state when
> > > >> successes happen, when an error occurs, I can always wait for max
> time
> > > >> frame, read the latest writes, and then dedup locally against the
> > > request
> > > >> I
> > > >> just made.
> > > >>
> > > >> The main thing about that timeframe is that its basically the
> addition
> > > of
> > > >> every timeout, all the way down in the system, combined with
> whatever
> > > >> flushing / caching / etc times are at the bookkeeper / client level
> > for
> > > >> when values are exposed
> > > >
> > > >
> > > > Gotcha.
> > > >
> > > >>
> > > >>
> > > >> >
> > > >> > Is there any ways to identify your write?
> > > >> >
> > > >> > I can think of a case as follow - I want to know what is your
> > expected
> > > >> > behavior from the log.
> > > >> >
> > > >> > a)
> > > >> >
> > > >> > If a hbase region server A writes a change of key K to the log,
> the
> > > >> change
> > > >> > is successfully made to the log;
> > > >> > but server A is down before receiving the change.
> > > >> > region server B took over the region that contains K, what will
B
> > do?
> > > >> >
> > > >>
> > > >> HBase writes in large chunks (WAL Logs), which its replication
> system
> > > then
> > > >> handles by replaying in the case of failure. If I'm in a middle of
a
> > > log,
> > > >> and the whole region goes down and gets rescheduled elsewhere, I
> will
> > > >> start
> > > >> back up from the beginning of the log I was in the middle of. Using
> > > >> checkpointing + deduping, we should be able to find out where we
> left
> > > off
> > > >> in the log.
> > > >
> > > >
> > > >> >
> > > >> >
> > > >> > b) same as a). but server A was just network partitioned. will
> both
> > A
> > > >> and B
> > > >> > write the change of key K?
> > > >> >
> > > >>
> > > >> HBase gives us some guarantees around network partitions
> (Consistency
> > > over
> > > >> availability for HBase). HBase is a single-master failover recovery
> > type
> > > >> of
> > > >> system, with zookeeper-based guarantees for single owners (writers)
> > of a
> > > >> range of data.
> > > >>
> > > >> >
> > > >> >
> > > >> >
> > > >> > > 5) If A is turned into multiple batches (one large request
gets
> > > split
> > > >> > into
> > > >> > > multiple smaller ones to the bookkeeper backend, due to
log
> > rolling
> > > /
> > > >> > size
> > > >> > > / etc):
> > > >> > >   a) The ordering of entries within batches have ordering
> > > consistence
> > > >> > with
> > > >> > > the original request, when exposed in the log (though they
may
> be
> > > >> > > interleaved with other requests)
> > > >> > >   b) The ordering across batches have ordering consistence
with
> > the
> > > >> > > original request, when exposed in the log (though they may
be
> > > >> interleaved
> > > >> > > with other requests)
> > > >> > >   c) If a batch fails, and cannot be retried / is unsuccessfully
> > > >> retried,
> > > >> > > all batches after the failed batch should not be exposed
in the
> > log.
> > > >> > Note:
> > > >> > > The batches before and including the failed batch, that
ended up
> > > >> > > succeeding, can show up in the log, again within some bounded
> time
> > > >> range
> > > >> > > for reads by a client.
> > > >> > >
> > > >> >
> > > >> > There is a method 'writeBulk' in DistributedLogClient can achieve
> > this
> > > >> > guarantee.
> > > >> >
> > > >> > However, I am not very sure about how will you turn A into
> batches.
> > If
> > > >> you
> > > >> > are dividing A into batches,
> > > >> > you can simply control the application write sequence to achieve
> the
> > > >> > guarantee here.
> > > >> >
> > > >> > Can you explain more about this?
> > > >> >
> > > >>
> > > >> In this case, by batches I mean what the proxy does with the single
> > > >> request
> > > >> that I send it. If the proxy decides it needs to turn my single
> > request
> > > >> into multiple batches of requests, due to log rolling, size
> > limitations,
> > > >> etc, those would be the guarantees I need to be able to reduplicate
> on
> > > the
> > > >> client side.
> > > >
> > > >
> > > > A single record written by #write and A record set (set of records)
> > > > written by #writeRecordSet are atomic - they will not be broken down
> > into
> > > > entries (batches). With the correct response code, you would be able
> to
> > > > tell if it is a lost-ack failure or not. However there is a size
> > > limitation
> > > > for this - it can't not go beyond 1MB for current implementation.
> > > >
> > > > What is your expected record size?
> > > >
> > > >
> > > >>
> > > >> >
> > > >> >
> > > >> > >
> > > >> > > Since we can guarantee per-key ordering on the client side,
we
> > > >> guarantee
> > > >> > > that there is a single writer per-key, just not per log.
> > > >> >
> > > >> >
> > > >> > Do you need fencing guarantee in the case of network partition
> > causing
> > > >> > two-writers?
> > > >> >
> > > >> >
> > > >> > > So if there was a
> > > >> > > way to guarantee a single write request as being written
or not,
> > > >> within a
> > > >> > > certain time frame (since failures should be rare anyways,
this
> is
> > > >> fine
> > > >> > if
> > > >> > > it is expensive), we can then have the client guarantee
the
> > ordering
> > > >> it
> > > >> > > needs.
> > > >> > >
> > > >> >
> > > >> > This sounds an 'exact-once' write (regarding retries) requirement
> to
> > > me,
> > > >> > right?
> > > >> >
> > > >> Yes. I'm curious of how this issue is handled by Manhattan, since
> you
> > > can
> > > >> imagine a data store that ends up getting multiple writes for the
> same
> > > put
> > > >> / get / etc, would be harder to use, and we are basically trying to
> > > create
> > > >> a log like that for HBase.
> > > >
> > > >
> > > > Are you guys replacing HBase WAL?
> > > >
> > > > In Manhattan case, the request will be first written to DL streams by
> > > > Manhattan coordinator. The Manhattan replica then will read from the
> DL
> > > > streams and apply the change. In the lost-ack case, the MH
> coordinator
> > > will
> > > > just fail the request to client.
> > > >
> > > > My feeling here is your usage for HBase is a bit different from how
> we
> > > use
> > > > DL in Manhattan. It sounds like you read from a source (HBase WAL)
> and
> > > > write to DL. But I might be wrong.
> > > >
> > > >
> > > >>
> > > >> >
> > > >> >
> > > >> > >
> > > >> > >
> > > >> > > > Cameron:
> > > >> > > > Another thing we've discussed but haven't really thought
> > through -
> > > >> > > > We might be able to support some kind of epoch write
request,
> > > where
> > > >> the
> > > >> > > > epoch is guaranteed to have changed if the writer has
changed
> or
> > > the
> > > >> > > ledger
> > > >> > > > was ever fenced off. Writes include an epoch and are
rejected
> if
> > > the
> > > >> > > epoch
> > > >> > > > has changed.
> > > >> > > > With a mechanism like this, fencing the ledger off
after a
> > failure
> > > >> > would
> > > >> > > > ensure any pending writes had either been written or
would be
> > > >> rejected.
> > > >> > >
> > > >> > > The issue would be how I guarantee the write I wrote to
the
> server
> > > was
> > > >> > > written. Since a network issue could happen on the send
of the
> > > >> request,
> > > >> > or
> > > >> > > on the receive of the success response, an epoch wouldn't
tell
> me
> > > if I
> > > >> > can
> > > >> > > successfully retry, as it could be successfully written
but AWS
> > > >> dropped
> > > >> > the
> > > >> > > connection for the success response. Since the epoch would
be
> the
> > > same
> > > >> > > (same ledger), I could write duplicates.
> > > >> > >
> > > >> > >
> > > >> > > > We are currently proposing adding a transaction semantic
to dl
> > to
> > > >> get
> > > >> > rid
> > > >> > > > of the size limitation and the unaware-ness in the
proxy
> client.
> > > >> Here
> > > >> > is
> > > >> > > > our idea -
> > > >> > > > http://mail-archives.apache.org/mod_mbox/incubator-
> > distributedlog
> > > >> > > -dev/201609.mbox/%3cCAAC6BxP5YyEHwG0ZCF5soh42X=xuYwYm
> > > >> > > <http://mail-archives.apache.org/mod_mbox/incubator-
> > > >> > distributedlog%0A-dev/201609.mbox/%3cCAAC6BxP5YyEHwG0ZCF5soh
> > > 42X=xuYwYm>
> > > >> > > L4nXsYBYiofzxpVk6g@mail.gmail.com%3e
> > > >> > >
> > > >> > > > I am not sure if your idea is similar as ours. but
we'd like
> to
> > > >> > > collaborate
> > > >> > > > with the community if anyone has the similar idea.
> > > >> > >
> > > >> > > Our use case would be covered by transaction support, but
I'm
> > unsure
> > > >> if
> > > >> > we
> > > >> > > would need something that heavy weight for the guarantees
we
> need.
> > > >> > >
> > > >> >
> > > >> > >
> > > >> > > Basically, the high level requirement here is "Support
> consistent
> > > >> write
> > > >> > > ordering for single-writer-per-key, multi-writer-per-log".
My
> > hunch
> > > is
> > > >> > > that, with some added guarantees to the proxy (if it isn't
> already
> > > >> > > supported), and some custom client code on our side for
removing
> > the
> > > >> > > entries that actually succeed to write to DistributedLog
from
> the
> > > >> request
> > > >> > > that failed, it should be a relatively easy thing to support.
> > > >> > >
> > > >> >
> > > >> > Yup. I think it should not be very difficult to support. There
> might
> > > be
> > > >> > some changes in the server side.
> > > >> > Let's figure out what will the changes be. Are you guys interested
> > in
> > > >> > contributing?
> > > >> >
> > > >> > Yes, we would be.
> > > >>
> > > >> As a note, the one thing that we see as an issue with the client
> side
> > > >> dedupping is how to bound the range of data that needs to be looked
> at
> > > for
> > > >> deduplication. As you can imagine, it is pretty easy to bound the
> > bottom
> > > >> of
> > > >> the range, as that it just regular checkpointing of the DSLN that
is
> > > >> returned. I'm still not sure if there is any nice way to time bound
> > the
> > > >> top
> > > >> end of the range, especially since the proxy owns sequence numbers
> > > (which
> > > >> makes sense). I am curious if there is more that can be done if
> > > >> deduplication is on the server side. However the main minus I see
of
> > > >> server
> > > >> side deduplication is that instead of running contingent on there
> > being
> > > a
> > > >> failed client request, instead it would have to run every time a
> write
> > > >> happens.
> > > >
> > > >
> > > > For a reliable dedup, we probably need fence-then-getLastDLSN
> > operation -
> > > > so it would guarantee that any non-completed requests issued
> (lost-ack
> > > > requests) before this fence-then-getLastDLSN operation will be failed
> > and
> > > > they will never land at the log.
> > > >
> > > > the pseudo code would look like below -
> > > >
> > > > write(request) onFailure { t =>
> > > >
> > > > if (t is timeout exception) {
> > > >
> > > > DLSN lastDLSN = fenceThenGetLastDLSN()
> > > > DLSN lastCheckpointedDLSN = ...;
> > > > // find if the request lands between [lastDLSN,
> lastCheckpointedDLSN].
> > > > // if it exists, the write succeed; otherwise retry.
> > > >
> > > > }
> > > >
> > > >
> > > > }
> > > >
> > >
> > >
> > > Just realized the idea is same as what Leigh raised in the previous
> email
> > > about 'epoch write'. Let me explain more about this idea (Leigh, feel
> > free
> > > to jump in to fill up your idea).
> > >
> > > - when a log stream is owned,  the proxy use the last transaction id as
> > the
> > > epoch
> > > - when a client connects (handshake with the proxy), it will get the
> > epoch
> > > for the stream.
> > > - the writes issued by this client will carry the epoch to the proxy.
> > > - add a new rpc - fenceThenGetLastDLSN - it would force the proxy to
> bump
> > > the epoch.
> > > - if fenceThenGetLastDLSN happened, all the outstanding writes with old
> > > epoch will be rejected with exceptions (e.g. EpochFenced).
> > > - The DLSN returned from fenceThenGetLastDLSN can be used as the bound
> > for
> > > deduplications on failures.
> > >
> > > Cameron, does this sound a solution to your use case?
> > >
> > >
> > >
> > > >
> > > >
> > > >>
> > > >> Maybe something that could fit a similar need that Kafka does (the
> > last
> > > >> store value for a particular key in a log), such that on a per key
> > basis
> > > >> there could be a sequence number that support deduplication? Cost
> > seems
> > > >> like it would be high however, and I'm not even sure if bookkeeper
> > > >> supports
> > > >> it.
> > > >
> > > >
> > > >> Cheers,
> > > >> Cameron
> > > >>
> > > >> >
> > > >> > >
> > > >> > > Thanks,
> > > >> > > Cameron
> > > >> > >
> > > >> > >
> > > >> > > On Sat, Oct 8, 2016 at 7:35 AM, Leigh Stewart
> > > >> > <lstewart@twitter.com.invalid
> > > >> > > >
> > > >> > > wrote:
> > > >> > >
> > > >> > > > Cameron:
> > > >> > > > Another thing we've discussed but haven't really thought
> > through -
> > > >> > > > We might be able to support some kind of epoch write
request,
> > > where
> > > >> the
> > > >> > > > epoch is guaranteed to have changed if the writer has
changed
> or
> > > the
> > > >> > > ledger
> > > >> > > > was ever fenced off. Writes include an epoch and are
rejected
> if
> > > the
> > > >> > > epoch
> > > >> > > > has changed.
> > > >> > > > With a mechanism like this, fencing the ledger off
after a
> > failure
> > > >> > would
> > > >> > > > ensure any pending writes had either been written or
would be
> > > >> rejected.
> > > >> > > >
> > > >> > > >
> > > >> > > > On Sat, Oct 8, 2016 at 7:10 AM, Sijie Guo <sijie@apache.org>
> > > wrote:
> > > >> > > >
> > > >> > > > > Cameron,
> > > >> > > > >
> > > >> > > > > I think both Leigh and Xi had made a few good
points about
> > your
> > > >> > > question.
> > > >> > > > >
> > > >> > > > > To add one more point to your question - "but
I am not
> > > >> > > > > 100% of how all of the futures in the code handle
failures.
> > > >> > > > > If not, where in the code would be the relevant
places to
> add
> > > the
> > > >> > > ability
> > > >> > > > > to do this, and would the project be interested
in a pull
> > > >> request?"
> > > >> > > > >
> > > >> > > > > The current proxy and client logic doesn't do
perfectly on
> > > >> handling
> > > >> > > > > failures (duplicates) - the strategy now is the
client will
> > > retry
> > > >> as
> > > >> > > best
> > > >> > > > > at it can before throwing exceptions to users.
The code you
> > are
> > > >> > looking
> > > >> > > > for
> > > >> > > > > - it is on BKLogSegmentWriter for the proxy handling
writes
> > and
> > > >> it is
> > > >> > > on
> > > >> > > > > DistributedLogClientImpl for the proxy client
handling
> > responses
> > > >> from
> > > >> > > > > proxies. Does this help you?
> > > >> > > > >
> > > >> > > > > And also, you are welcome to contribute the pull
requests.
> > > >> > > > >
> > > >> > > > > - Sijie
> > > >> > > > >
> > > >> > > > >
> > > >> > > > >
> > > >> > > > > On Tue, Oct 4, 2016 at 3:39 PM, Cameron Hatfield
<
> > > >> kinguy@gmail.com>
> > > >> > > > wrote:
> > > >> > > > >
> > > >> > > > > > I have a question about the Proxy Client.
Basically, for
> our
> > > use
> > > >> > > cases,
> > > >> > > > > we
> > > >> > > > > > want to guarantee ordering at the key level,
irrespective
> of
> > > the
> > > >> > > > ordering
> > > >> > > > > > of the partition it may be assigned to as
a whole. Due to
> > the
> > > >> > source
> > > >> > > of
> > > >> > > > > the
> > > >> > > > > > data (HBase Replication), we cannot guarantee
that a
> single
> > > >> > partition
> > > >> > > > > will
> > > >> > > > > > be owned for writes by the same client. This
means the
> proxy
> > > >> client
> > > >> > > > works
> > > >> > > > > > well (since we don't care which proxy owns
the partition
> we
> > > are
> > > >> > > writing
> > > >> > > > > > to).
> > > >> > > > > >
> > > >> > > > > >
> > > >> > > > > > However, the guarantees we need when writing
a batch
> > consists
> > > >> of:
> > > >> > > > > > Definition of a Batch: The set of records
sent to the
> > > writeBatch
> > > >> > > > endpoint
> > > >> > > > > > on the proxy
> > > >> > > > > >
> > > >> > > > > > 1. Batch success: If the client receives
a success from
> the
> > > >> proxy,
> > > >> > > then
> > > >> > > > > > that batch is successfully written
> > > >> > > > > >
> > > >> > > > > > 2. Inter-Batch ordering : Once a batch has
been written
> > > >> > successfully
> > > >> > > by
> > > >> > > > > the
> > > >> > > > > > client, when another batch is written, it
will be
> guaranteed
> > > to
> > > >> be
> > > >> > > > > ordered
> > > >> > > > > > after the last batch (if it is the same stream).
> > > >> > > > > >
> > > >> > > > > > 3. Intra-Batch ordering: Within a batch of
writes, the
> > records
> > > >> will
> > > >> > > be
> > > >> > > > > > committed in order
> > > >> > > > > >
> > > >> > > > > > 4. Intra-Batch failure ordering: If an individual
record
> > fails
> > > >> to
> > > >> > > write
> > > >> > > > > > within a batch, all records after that record
will not be
> > > >> written.
> > > >> > > > > >
> > > >> > > > > > 5. Batch Commit: Guarantee that if a batch
returns a
> > success,
> > > it
> > > >> > will
> > > >> > > > be
> > > >> > > > > > written
> > > >> > > > > >
> > > >> > > > > > 6. Read-after-write: Once a batch is committed,
within a
> > > limited
> > > >> > > > > time-frame
> > > >> > > > > > it will be able to be read. This is required
in the case
> of
> > > >> > failure,
> > > >> > > so
> > > >> > > > > > that the client can see what actually got
committed. I
> > believe
> > > >> the
> > > >> > > > > > time-frame part could be removed if the client
can send in
> > the
> > > >> same
> > > >> > > > > > sequence number that was written previously,
since it
> would
> > > then
> > > >> > fail
> > > >> > > > and
> > > >> > > > > > we would know that a read needs to occur.
> > > >> > > > > >
> > > >> > > > > >
> > > >> > > > > > So, my basic question is if this is currently
possible in
> > the
> > > >> > proxy?
> > > >> > > I
> > > >> > > > > > don't believe it gives these guarantees as
it stands
> today,
> > > but
> > > >> I
> > > >> > am
> > > >> > > > not
> > > >> > > > > > 100% of how all of the futures in the code
handle
> failures.
> > > >> > > > > > If not, where in the code would be the relevant
places to
> > add
> > > >> the
> > > >> > > > ability
> > > >> > > > > > to do this, and would the project be interested
in a pull
> > > >> request?
> > > >> > > > > >
> > > >> > > > > >
> > > >> > > > > > Thanks,
> > > >> > > > > > Cameron
> > > >> > > > > >
> > > >> > > > >
> > > >> > > >
> > > >> > >
> > > >> >
> > > >>
> > > >
> > >
> >
>

Mime
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