## Problem
The support for sharding in the pageserver was written before
https://github.com/neondatabase/neon/pull/6205 landed, so when it landed
we couldn't directly test sharding.
## Summary of changes
- Add `test_sharding_smoke` which tests the basics of creating a
sharding tenant, creating a timeline within it, checking that data
within it is distributed.
- Add modes to pg_regress tests for running with 4 shards as well as
with 1.
## Problem
To test sharding, we need something to control it. We could write python
code for doing this from the test runner, but this wouldn't be usable
with neon_local run directly, and when we want to write tests with large
number of shards/tenants, Rust is a better fit efficiently handling all
the required state.
This service enables automated tests to easily get a system with
sharding/HA without the test itself having to set this all up by hand:
existing tests can be run against sharded tenants just by setting a
shard count when creating the tenant.
## Summary of changes
Attachment service was previously a map of TenantId->TenantState, where
the principal state stored for each tenant was the generation and the
last attached pageserver. This enabled it to serve the re-attach and
validate requests that the pageserver requires.
In this PR, the scope of the service is extended substantially to do
overall management of tenants in the pageserver, including
tenant/timeline creation, live migration, evacuation of offline
pageservers etc. This is done using synchronous code to make declarative
changes to the tenant's intended state (`TenantState.policy` and
`TenantState.intent`), which are then translated into calls into the
pageserver by the `Reconciler`.
Top level summary of modules within
`control_plane/attachment_service/src`:
- `tenant_state`: structure that represents one tenant shard.
- `service`: implements the main high level such as tenant/timeline
creation, marking a node offline, etc.
- `scheduler`: for operations that need to pick a pageserver for a
tenant, construct a scheduler and call into it.
- `compute_hook`: receive notifications when a tenant shard is attached
somewhere new. Once we have locations for all the shards in a tenant,
emit an update to postgres configuration via the neon_local `LocalEnv`.
- `http`: HTTP stubs. These mostly map to methods on `Service`, but are
separated for readability and so that it'll be easier to adapt if/when
we switch to another RPC layer.
- `node`: structure that describes a pageserver node. The most important
attribute of a node is its availability: marking a node offline causes
tenant shards to reschedule away from it.
This PR is a precursor to implementing the full sharding service for
prod (#6342). What's the difference between this and a production-ready
controller for pageservers?
- JSON file persistence to be replaced with a database
- Limited observability.
- No concurrency limits. Marking a pageserver offline will try and
migrate every tenant to a new pageserver concurrently, even if there are
thousands.
- Very simple scheduler that only knows to pick the pageserver with
fewest tenants, and place secondary locations on a different pageserver
than attached locations: it does not try to place shards for the same
tenant on different pageservers. This matters little in tests, because
picking the least-used pageserver usually results in round-robin
placement.
- Scheduler state is rebuilt exhaustively for each operation that
requires a scheduler.
- Relies on neon_local mechanisms for updating postgres: in production
this would be something that flows through the real control plane.
---------
Co-authored-by: Arpad Müller <arpad-m@users.noreply.github.com>
These tests have been loitering on a branch of mine for a while: they
already provide value even without all the secondary mode bits landed
yet, and the Workload helper is handy for other tests too.
- `Workload` is a re-usable test workload that replaces some of the
arbitrary "write a few rows" SQL that I've found my self repeating, and
adds a systematic way to append data and check that reads properly
reflect the changes. This append+validate stuff is important when doing
migrations, as we want to detect situations where we might be reading
from a pageserver that has not properly seen latest changes.
- test_multi_attach is a validation of how the pageserver handles
attaching the same tenant to multiple pageservers, from a safety point
of view. This is intentionally separate from the larger testing of
migration, to provide an isolated environment for multi-attachment.
- test_location_conf_churn is a pseudo-random walk through the various
states that TenantSlot can be put into, with validation that attached
tenants remain externally readable when they should, and as a side
effect validating that the compute endpoint's online configuration
changes work as expected.
- test_live_migration is the reference implementation of how to drive a
pair of pageservers through a zero-downtime migration of a tenant.
---------
Co-authored-by: Arpad Müller <arpad-m@users.noreply.github.com>
