Implement API for cloning a single timeline inside a safekeeper. Also
add API for calculating a sha256 hash of WAL, which is used in tests.
`/copy` API works by copying objects inside S3 for all but the last
segments, and the last segments are copied on-disk. A special temporary
directory is created for a timeline, because copy can take a lot of
time, especially for large timelines. After all files segments have been
prepared, this directory is mounted to the main tree and timeline is
loaded to memory.
Some caveats:
- large timelines can take a lot of time to copy, because we need to
copy many S3 segments
- caller should wait for HTTP call to finish indefinetely and don't
close the HTTP connection, because it will stop the process, which is
not continued in the background
- `until_lsn` must be a valid LSN, otherwise bad things can happen
- API will return 200 if specified `timeline_id` already exists, even if
it's not a copy
- each safekeeper will try to copy S3 segments, so it's better to not
call this API in-parallel on different safekeepers
The tool still needs a lot of work. These are the easiest fix and
feature:
- use similar adaptive config with s3 as remote_storage, use retries
- process only particular tenants
Tenants need to be from the correct region, they are not deduplicated,
but the feature is useful for re-checking small amount of tenants after
a large run.
Otherwise they are left orphaned when compute_ctl is terminated with a
signal. It was invisible most of the time because normally neon_local or k8s
kills postgres directly and then compute_ctl finishes gracefully. However, in
some tests compute_ctl gets stuck waiting for sync-safekeepers which
intentionally never ends because safekeepers are offline, and we want to stop
compute_ctl without leaving orphanes behind.
This is a quite rough approach which doesn't wait for children termination. A
better way would be to convert compute_ctl to async which would make waiting
easy.
- add pgbouncer_settings section to compute spec;
- add pgbouncer-connstr option to compute_ctl.
- add pgbouncer-ini-path option to compute_ctl. Default: /etc/pgbouncer/pgbouncer.ini
Apply pgbouncer config on compute start and respec to override default spec.
Save pgbouncer config updates to pgbouncer.ini to preserve them across pgbouncer restarts.
This PR adds a component-level benchmarking utility for pageserver.
Its name is `pagebench`.
The problem solved by `pagebench` is that we want to put Pageserver
under high load.
This isn't easily achieved with `pgbench` because it needs to go through
a compute, which has signficant performance overhead compared to
accessing Pageserver directly.
Further, compute has its own performance optimizations (most
importantly: caches). Instead of designing a compute-facing workload
that defeats those internal optimizations, `pagebench` simply bypasses
them by accessing pageserver directly.
Supported benchmarks:
* getpage@latest_lsn
* basebackup
* triggering logical size calculation
This code has no automated users yet.
A performance regression test for getpage@latest_lsn will be added in a
later PR.
part of https://github.com/neondatabase/neon/issues/5771
## Problem
https://github.com/neondatabase/neon/security/dependabot/48
```
$ cargo tree -i zerocopy
zerocopy v0.7.3
└── ahash v0.8.5
└── hashbrown v0.13.2
```
ahash doesn't use the affected APIs we we are not vulnerable but best to
update to silence the alert anyway
## Summary of changes
```
$ cargo update -p zerocopy --precise 0.7.31
Updating crates.io index
Updating syn v2.0.28 -> v2.0.32
Updating zerocopy v0.7.3 -> v0.7.31
Updating zerocopy-derive v0.7.3 -> v0.7.31
```
Part of getpage@lsn benchmark epic:
https://github.com/neondatabase/neon/issues/5771
This PR moves the control plane's spread-all-over-the-place client for
the pageserver management API into a separate module within the
pageserver crate.
I need that client to be async in my benchmarking work, so, this PR
switches to the async version of `reqwest`.
That is also the right direction generally IMO.
The switch to async in turn mandated converting most of the
`control_plane/` code to async.
Note that some of the client methods should be taking `TenantShardId`
instead of `TenantId`, but, none of the callers seem to be
sharding-aware.
Leaving that for another time:
https://github.com/neondatabase/neon/issues/6154
This doesn't make the scrubber smart enough to understand that many
shards are part of the same tenants, but it makes it understand paths
well enough to scrub the individual shards without thinking they're
malformed.
This is a prerequisite to being able to run tests with sharding enabled.
Related: #5929
Before any json parsing from the http api only returned errors were per
field errors. Now they are done using `serde_path_to_error`, which at
least helped greatly with the `disk_usage_eviction_run` used for
testing. I don't think this can conflict with anything added in #5310.
Dependency (commits inline):
https://github.com/neondatabase/neon/pull/5842
## Problem
Secondary mode tenants need a manifest of what to download. Ultimately
this will be some kind of heat-scored set of layers, but as a robust
first step we will simply use the set of resident layers: secondary
tenant locations will aim to match the on-disk content of the attached
location.
## Summary of changes
- Add heatmap types representing the remote structure
- Add hooks to Tenant/Timeline for generating these heatmaps
- Create a new `HeatmapUploader` type that is external to `Tenant`, and
responsible for walking the list of attached tenants and scheduling
heatmap uploads.
Notes to reviewers:
- Putting the logic for uploads (and later, secondary mode downloads)
outside of `Tenant` is an opinionated choice, motivated by:
- Enable future smarter scheduling of operations, e.g. uploading the
stalest tenant first, rather than having all tenants compete for a fair
semaphore on a first-come-first-served basis. Similarly for downloads,
we may wish to schedule the tenants with the hottest un-downloaded
layers first.
- Enable accessing upload-related state without synchronization (it
belongs to HeatmapUploader, rather than being some Mutex<>'d part of
Tenant)
- Avoid further expanding the scope of Tenant/Timeline types, which are
already among the largest in the codebase
- You might reasonably wonder how much of the uploader code could be a
generic job manager thing. Probably some of it: but let's defer pulling
that out until we have at least two users (perhaps secondary downloads
will be the second one) to highlight which bits are really generic.
Compromises:
- Later, instead of using digests of heatmaps to decide whether anything
changed, I would prefer to avoid walking the layers in tenants that
don't have changes: tracking that will be a bit invasive, as it needs
input from both remote_timeline_client and Layer.
## Problem
The cancellation code was confusing and error prone (as seen before in
our memory leaks).
## Summary of changes
* Use the new `TaskTracker` primitve instead of JoinSet to gracefully
wait for tasks to shutdown.
* Updated libs/utils/completion to use `TaskTracker`
* Remove `tokio::select` in favour of `futures::future::select` in a
specialised `run_until_cancelled()` helper function
There is double buffering in remote_storage and in pageserver for 8KiB
in using `tokio::io::copy` to read `BufReader<ReaderStream<_>>`.
Switches downloads and uploads to use `Stream<Item =
std::io::Result<Bytes>>`. Caller and only caller now handles setting up
buffering. For reading, `Stream<Item = ...>` is also a `AsyncBufRead`,
so when writing to a file, we now have `tokio::io::copy_buf` reading
full buffers and writing them to `tokio::io::BufWriter` which handles
the buffering before dispatching over to `tokio::fs::File`.
Additionally implements streaming uploads for azure. With azure
downloads are a bit nicer than before, but not much; instead of one huge
vec they just hold on to N allocations we got over the wire.
This PR will also make it trivial to switch reading and writing to
io-uring based methods.
Cc: #5563.
## Problem
no problem
## Summary of changes
replaces boxstr with arcstr as it's cheaper to clone. mild perf
improvement.
probably should look into other smallstring optimsations tbh, they will
likely be even better. The longest endpoint name I was able to construct
is something like `ep-weathered-wildflower-12345678` which is 32 bytes.
Most string optimisations top out at 23 bytes
## Problem
Per-project IP allowlist:
https://github.com/neondatabase/cloud/issues/8116
## Summary of changes
Implemented IP filtering on the proxy side.
To retrieve ip allowlist for all scenarios, added `get_auth_info` call
to the control plane for:
* sql-over-http
* password_hack
* cleartext_hack
Added cache with ttl for sql-over-http path
This might slow down a bit, consider using redis in the future.
---------
Co-authored-by: Conrad Ludgate <conrad@neon.tech>
Remove handcrafted TenantConf deserialization code. Use
`serde_path_to_error` to include the field which failed parsing. Leaves
the duplicated TenantConf in pageserver and models, does not touch
PageserverConf handcrafted deserialization.
Error change:
- before change: "configure option `checkpoint_distance` cannot be
negative"
- after change: "`checkpoint_distance`: invalid value: integer `-1`,
expected u64"
Fixes: #5300
Cc: #3682
---------
Signed-off-by: Rahul Modpur <rmodpur2@gmail.com>
Co-authored-by: Shany Pozin <shany@neon.tech>
Co-authored-by: Joonas Koivunen <joonas@neon.tech>
## Problem
The TenantShardId in API URLs is sufficient to uniquely identify a
tenant shard, but not for it to function: it also needs to know its full
sharding configuration (stripe size, layout version) in order to map
keys to shards.
## Summary of changes
- Introduce ShardIdentity: this is the superset of ShardIndex (#5924 )
that is required for translating keys to shard numbers.
- Include ShardIdentity as an optional attribute of LocationConf
- Extend the public `LocationConfig` API structure with a flat
representation of shard attributes.
The net result is that at the point we construct a `Tenant`, we have a
`ShardIdentity` (inside LocationConf). This enables the next steps to
actually use the ShardIdentity to split WAL and validate that page
service requires are reaching the correct shard.
## Problem
channel binding protects scram from sophisticated MITM attacks where the
attacker is able to produce 'valid' TLS certificates.
## Summary of changes
get the tls-server-end-point channel binding, and verify it is correct
for the SCRAM-SHA-256-PLUS authentication flow
instead of direct S3 request.
Pros:
- simplify code a lot (no need to provide AWS credentials and paths);
- reduce latency of downloading extension data as proxy resides near
computes; -reduce AWS costs as proxy has cache and 1000 computes asking
the same extension will not generate 1000 downloads from S3.
- we can use only one S3 bucket to store extensions (and rid of regional
buckets which were introduced to reduce latency);
Changes:
- deprecate remote-ext-config compute_ctl parameter, use
http://pg-ext-s3-gateway if any old format remote-ext-cofig is provided;
- refactor tests to use mock http server;
## Problem
See #2592
## Summary of changes
Compresses the results of initdb into a .tar.zst file and uploads them
to S3, to enable usage in recovery from lsn.
Generations should not be involved I think because we do this only once
at the very beginning of a timeline.
---------
Co-authored-by: Joonas Koivunen <joonas@neon.tech>
fixes https://github.com/neondatabase/neon/issues/5878
obsoletes https://github.com/neondatabase/neon/issues/5879
Before this PR, it could happen that `load_layer_map` schedules removal
of the future
image layer. Then a later compaction run could re-create the same image
layer, scheduling a PUT.
Due to lack of an upload queue barrier, the PUT and DELETE could be
re-ordered.
The result was IndexPart referencing a non-existent object.
## Summary of changes
* Add support to `pagectl` / Python tests to decode `IndexPart`
* Rust
* new `pagectl` Subcommand
* `IndexPart::{from,to}_s3_bytes()` methods to internalize knowledge
about encoding of `IndexPart`
* Python
* new `NeonCli` subclass
* Add regression test
* Rust
* Ability to force repartitioning; required to ensure image layer
creation at last_record_lsn
* Python
* The regression test.
* Fix the issue
* Insert an `UploadOp::Barrier` after scheduling the deletions.
This way, `cargo update -p tokio-postgres` just works. The `Cargo.toml`
communicates more clearly that we're referring to the `main` branch. And
the git revision is still pinned in `Cargo.lock`.
## Problem
When using TenantId as the key, we are unable to handle multiple tenant
shards attached to the same pageserver for the same tenant ID. This is
an expected scenario if we have e.g. 8 shards and 5 pageservers.
## Summary of changes
- TenantsMap is now a BTreeMap instead of a HashMap: this enables
looking up by range. In future, we will need this for page_service, as
incoming requests will just specify the Key, and we'll have to figure
out which shard to route it to.
- A new key type TenantShardId is introduced, to act as the key in
TenantsMap, and as the id type in external APIs. Its human readable
serialization is backward compatible with TenantId, and also
forward-compatible as long as sharding is not actually used (when we
construct a TenantShardId with ShardCount(0), it serializes to an
old-fashioned TenantId).
- Essential tenant APIs are updated to accept TenantShardIds:
tenant/timeline create, tenant delete, and /location_conf. These are the
APIs that will enable driving sharded tenants. Other apis like /attach
/detach /load /ignore will not work with sharding: those will soon be
deprecated and replaced with /location_conf as part of the live
migration work.
Closes: #5787
`cargo deny` was complaining the version 0.8.3 was yanked (for possible
DoS attack [wiki]), but the latest version (0.8.5) also includes aarch64
fixes which may or may not be relevant. Our usage of ahash limits to
proxy, but I don't think we are at any risk.
[wiki]: https://github.com/tkaitchuck/aHash/wiki/Yanked-versions
## Problem
A user can perform many database connections at the same instant of time
- these will all cache miss and materialise as requests to the control
plane. #5705
## Summary of changes
I am using a `DashMap` (a sharded `RwLock<HashMap>`) of endpoints ->
semaphores to apply a limiter. If the limiter is enabled (permits > 0),
the semaphore will be retrieved per endpoint and a permit will be
awaited before continuing to call the wake_compute endpoint.
### Important details
This dashmap would grow uncontrollably without maintenance. It's not a
cache so I don't think an LRU-based reclamation makes sense. Instead,
I've made use of the sharding functionality of DashMap to lock a single
shard and clear out unused semaphores periodically.
I ran a test in release, using 128 tokio tasks among 12 threads each
pushing 1000 entries into the map per second, clearing a shard every 2
seconds (64 second epoch with 32 shards). The endpoint names were
sampled from a gamma distribution to make sure some overlap would occur,
and each permit was held for 1ms. The histogram for time to clear each
shard settled between 256-512us without any variance in my testing.
Holding a lock for under a millisecond for 1 of the shards does not
concern me as blocking
## Problem
Currently, we aren't doing any explicit slowdown in response to 429
responses. Recently, as we hit remote storage a bit harder (pageserver
does more ListObjectsv2 requests than it used to since #5580 ), we're
seeing storms of 429 responses that may be the result of not just doing
too may requests, but continuing to do those extra requests without
backing off any more than our usual backoff::exponential.
## Summary of changes
Switch from AWS's "Standard" retry policy to "Adaptive" -- docs describe
this as experimental but it has been around for a long time. The main
difference between Standard and Adaptive is that Adaptive rate-limits
the client in response to feedback from the server, which is meant to
avoid scenarios where the client would otherwise repeatedly hit
throttling responses.
neondatabase/autoscaling builds libs/vm-monitor during CI because it's a
necessary component of autoscaling.
workspace_hack includes a lot of crates that are not necessary for
vm-monitor, which artificially inflates the build time on the
autoscaling side, so hopefully removing the dependency should speed
things up.
Co-authored-by: Joonas Koivunen <joonas@neon.tech>
## Problem
For quickly rotating JWT secrets, we want to be able to reload the JWT
public key file in the pageserver, and also support multiple JWT keys.
See #4897.
## Summary of changes
* Allow directories for the `auth_validation_public_key_path` config
param instead of just files. for the safekeepers, all of their config options
also support multiple JWT keys.
* For the pageservers, make the JWT public keys easily globally swappable
by using the `arc-swap` crate.
* Add an endpoint to the pageserver, triggered by a POST to
`/v1/reload_auth_validation_keys`, that reloads the JWT public keys from
the pre-configured path (for security reasons, you cannot upload any
keys yourself).
Fixes#4897
---------
Co-authored-by: Heikki Linnakangas <heikki@neon.tech>
Co-authored-by: Joonas Koivunen <joonas@neon.tech>
Improve the serde impl for several types (`Lsn`, `TenantId`,
`TimelineId`) by making them sensitive to
`Serializer::is_human_readadable` (true for json, false for bincode).
Fixes#3511 by:
- Implement the custom serde for `Lsn`
- Implement the custom serde for `Id`
- Add the helper module `serde_as_u64` in `libs/utils/src/lsn.rs`
- Remove the unnecessary attr `#[serde_as(as = "DisplayFromStr")]` in
all possible structs
Additionally some safekeeper types gained serde tests.
---------
Co-authored-by: Joonas Koivunen <joonas@neon.tech>
## Problem
The scrubber didn't know how to find the latest index_part when
generations were in use.
## Summary of changes
- Teach the scrubber to do the same dance that pageserver does when
finding the latest index_part.json
- Teach the scrubber how to understand layer files with generation
suffixes.
- General improvement to testability: scan_metadata has a machine
readable output that the testing `S3Scrubber` wrapper can read.
- Existing test coverage of scrubber was false-passing because it just
didn't see any data due to prefixing of data in the bucket. Fix that.
This is incremental improvement: the more confidence we can have in the
scrubber, the more we can use it in integration tests to validate the
state of remote storage.
---------
Co-authored-by: Arpad Müller <arpad-m@users.noreply.github.com>
## Problem
Neon doesn't compile on nightly and had numerous clippy complaints.
## Summary of changes
1. Fixed troublesome dependency
2. Fixed or ignored the lints where appropriate
Create Rust bindings for C functions from walproposer. This allows to
write better tests with real walproposer code without spawning multiple
processes and starting up the whole environment.
`make walproposer-lib` stage was added to build static libraries
`libwalproposer.a`, `libpgport.a`, `libpgcommon.a`. These libraries can
be statically linked to any executable to call walproposer functions.
`libs/walproposer/src/walproposer.rs` contains
`test_simple_sync_safekeepers` to test that walproposer can be called
from Rust to emulate sync_safekeepers logic. It can also be used as a
usage example.
