It allows term leader to ensure he pulls data from the correct term. Absense of
it wasn't very problematic due to CRC checks, but let's be strict.
walproposer still doesn't use it as we're going to remove recovery completely
from it.
## Problem
The safekeeper advertises the same address specified in `--listen-pg`,
which is problematic when the listening address is different from the
address that the pageserver can use to connect to the safekeeper.
## Summary of changes
Add a new optional flag called `--advertise-pg` for the address to be
advertised. If this flag is not specified, the behavior is the same as
before.
## Problem
During timeline creation we create special mark file which presense
indicates that initialization didnt complete successfully. In case of a
crash restart we can remove such half-initialized timeline and following
retry from control plane side should perform another attempt.
So in case of a possible crash restart during initial loading we have
following picture:
```
timelines
| - <timeline_id>___uninit
| - <timeline_id>
| - | <timeline files>
```
We call `std::fs::read_dir` to walk files in `timelines` directory one
by one. If we see uninit file
we proceed with deletion of both, timeline directory and uninit file. If
we see timeline we check if uninit file exists and do the same cleanup.
But in fact its possible to get both branches to be true at the same
time. Result of readdir doesnt reflect following directory state
modifications. So you can still get "valid" entry on the next iteration
of the loop despite the fact that it was deleted in one of the previous
iterations of the loop.
To see that you can apply the following patch (it disables uninit mark
cleanup on successful timeline creation):
```diff
diff --git a/pageserver/src/tenant.rs b/pageserver/src/tenant.rs
index 4beb2664..b3cdad8f 100644
--- a/pageserver/src/tenant.rs
+++ b/pageserver/src/tenant.rs
@@ -224,11 +224,6 @@ impl UninitializedTimeline<'_> {
)
})?;
}
- uninit_mark.remove_uninit_mark().with_context(|| {
- format!(
- "Failed to remove uninit mark file for timeline {tenant_id}/{timeline_id}"
- )
- })?;
v.insert(Arc::clone(&new_timeline));
new_timeline.maybe_spawn_flush_loop();
```
And perform the following steps:
```bash
neon_local init
neon_local start
neon_local tenant create
neon_local stop
neon_local start
```
The error is:
```log
INFO load{tenant_id=X}:blocking: Found an uninit mark file .neon/tenants/X/timelines/Y.___uninit, removing the timeline and its uninit mark
2023-06-09T18:43:41.664247Z ERROR load{tenant_id=X}: load failed, setting tenant state to Broken: failed to load metadata
Caused by:
0: Failed to read metadata bytes from path .neon/tenants/X/timelines/Y/metadata
1: No such file or directory (os error 2)
```
So uninit mark got deleted together with timeline directory but we still
got directory entry for it and tried to load it.
The bug prevented tenant from being successfully loaded.
## Summary of changes
Ideally I think we shouldnt place uninit marks in the same directory as timeline directories but move them to separate directory and
gather them as an input to actual listing, but that would be sort of an
on-disk format change, so just check whether entries are still valid
before operating on them.
This is a full switch, fs io operations are also tokio ones, working through
thread pool. Similar to pageserver, we have multiple runtimes for easier `top`
usage and isolation.
Notable points:
- Now that guts of safekeeper.rs are full of .await's, we need to be very
careful not to drop task at random point, leaving timeline in unclear
state. Currently the only writer is walreceiver and we don't have top
level cancellation there, so we are good. But to be safe probably we should
add a fuse panicking if task is being dropped while operation on a timeline
is in progress.
- Timeline lock is Tokio one now, as we do disk IO under it.
- Collecting metrics got a crutch: since prometheus Collector is
synchronous, it spawns a thread with current thread runtime collecting data.
- Anything involving closures becomes significantly more complicated, as
async fns are already kinda closures + 'async closures are unstable'.
- Main thread now tracks other main tasks, which got much easier.
- The only sync place left is initial data loading, as otherwise clippy
complains on timeline map lock being held across await points -- which is
not bad here as it happens only in single threaded runtime of main thread.
But having it sync doesn't hurt either.
I'm concerned about performance of thread pool io offloading, async traits and
many await points; but we can try and see how it goes.
fixes https://github.com/neondatabase/neon/issues/3036
fixes https://github.com/neondatabase/neon/issues/3966
It should make remote_consistent_lsn commonly up-to-date on non actively writing
projects, which removes spike or pageserver -> safekeeper reconnections on
storage nodes restart.
Add HTTP endpoint to initialize safekeeper timeline from peer
safekeepers. This is useful for initializing new safekeeper to replace
failed safekeeper. Not fully "correct" in all cases, but should work in
most.
This code is not suitable for production workloads but can be tested on
staging to get started. New endpoint is separated from usual cases and
should not affect anything if no one explicitly uses a new endpoint. We
can rollback this commit in case of issues.
Refactors walsenders out of timeline.rs to makes it less convoluted into
separate WalSenders with its own lock, but otherwise having the same structure.
Tracking of in-memory remote_consistent_lsn is also moved there as it is mainly
received from pageserver.
State of walsender (feedback) is also restructured to be cleaner; now it is
either PageserverFeedback or StandbyFeedback(StandbyReply, HotStandbyFeedback),
but not both.
Otherwise it can lag a lot, preventing WAL segments cleanup. Also max
wal_backup_lsn on update, pulling it down is pointless.
Should help with https://github.com/neondatabase/neon/issues/3957, but
will not fix it completely.
This is the the feedback originating from pageserver, so change previous
confusing names to
s/ReplicationFeedback/PageserverFeedback
s/ps_writelsn/last_receive_lsn
s/ps_flushlsn/disk_consistent_lsn
s/ps_apply_lsn/remote_consistent_lsn
I haven't changed on the wire format to keep compatibility. However,
understanding of new field names is added to compute, so once all computes
receive this patch we can change the wire names as well. Safekeepers/pageservers
are deployed roughly at the same time and it is ok to live without feedbacks
during the short period, so this is not a problem there.
Add a condition to switch walreceiver connection to safekeeper that is
located in the same availability zone. Switch happens when commit_lsn of
a candidate is not less than commit_lsn from the active connection. This
condition is expected not to trigger instantly, because commit_lsn of a
current connection is usually greater than commit_lsn of updates from
the broker. That means that if WAL is written continuously, switch can
take a lot of time, but it should happen eventually.
Now protoc 3.15+ is required for building neon.
Fixes https://github.com/neondatabase/neon/issues/3200
- Add support for splitting async postgres_backend into read and write halfes.
Safekeeper needs this for bidirectional streams. To this end, encapsulate
reading-writing postgres messages to framed.rs with split support without any
additional changes (relying on BufRead for reading and BytesMut out buffer for
writing).
- Use async postgres_backend throughout safekeeper (and in proxy auth link
part).
- In both safekeeper COPY streams, do read-write from the same thread/task with
select! for easier error handling.
- Tidy up finishing CopyBoth streams in safekeeper sending and receiving WAL
-- join split parts back catching errors from them before returning.
Initially I hoped to do that read-write without split at all, through polling
IO:
https://github.com/neondatabase/neon/pull/3522
However that turned out to be more complicated than I initially expected
due to 1) borrow checking and 2) anon Future types. 1) required Rc<Refcell<...>>
which is Send construct just to satisfy the checker; 2) can be workaround with
transmute. But this is so messy that I decided to leave split.
This API is rather pointless, as sane choice anyway requires knowledge of peers
status and leaders lifetime in any case can intersect, which is fine for us --
so manual elections are straightforward. Here, we deterministically choose among
the reasonably caught up safekeepers, shifting by timeline id to spread the
load.
A step towards custom broker https://github.com/neondatabase/neon/issues/2394
With the ability to pass commit_lsn. This allows to perform project WAL recovery
through different (from the original) set of safekeepers (or under different
ttid) by
1) moving WAL files to s3 under proper ttid;
2) explicitly creating timeline on safekeepers, setting commit_lsn to the
latest point;
3) putting the lastest .parital file to the timeline directory on safekeepers, if
desired.
Extend test_s3_wal_replay to exersise this behaviour.
Also extends timeline_status endpoint to return postgres information.
Another preparatory commit for pg15 support:
* generate bindings for both pg14 and pg15;
* update Makefile and CI scripts: now neon build depends on both PostgreSQL versions;
* some code refactoring to decrease version-specific dependencies.
Re-export only things that are used by other modules.
In the future, I'm imagining that we run bindgen twice, for Postgres
v14 and v15. The two sets of bindings would go into separate
'bindings_v14' and 'bindings_v15' modules.
Rearrange postgres_ffi modules.
Move function, to avoid Postgres version dependency in timelines.rs
Move function to generate a logical-message WAL record to postgres_ffi.
To flush inmemory layer eventually when no new data arrives, which helps
safekeepers to suspend activity (stop pushing to the broker). Default 10m should
be ok.
Mitigates latency fee, making push throughput 1-1.5 order of magnitude bigger.
Also make leases per timeline, not per whole safekeeper, avoiding storing
garbage in etcd for deleted timelines while safekeeper is alive.
I made the check at launcher level with the perspective of generally moving
election (decision who offloads) there.
Also log timeline 'active' changes.
Separate task is launched for each timeline and stopped when timeline doesn't
need offloading. Decision who offloads is done through etcd leader election;
currently there is no pre condition for participating, that's a TODO.
neon_local and tests infrastructure for remote storage in safekeepers added,
along with the test itself.
ref #1009
Co-authored-by: Anton Shyrabokau <ahtoxa@Antons-MacBook-Pro.local>
* There is no auth in Safekeeper HTTP at all currently,
so simply calling `check_permission` is not enough.
* There are no checks of Safekeeper still working with the data,
as "still working" is burry now: a timeline may be "active"
while there are no compute nodes and all data is propagated.
* Still, callmemaybe is deactivated, and timeline is removed from the
internal map. It can easily sneak back in case of race conditions
and implicit creations, though.
Make it remember when timeline starts in general and on this safekeeper in
particular (the point might be later on new safekeeper replacing failed one).
Bumps control file and walproposer protocol versions.
While protocol is bumped, also add safekeeper node id to
AcceptorProposerGreeting.
ref #1561
Remove when it is consumed by all of 1) pageserver (remote_consistent_lsn) 2)
safekeeper peers 3) s3 WAL offloading.
In test s3 offloading for now is mocked by directly bumping s3_wal_lsn.
ref #1403