DESCRIPTION: Move pg_dist_object to pg_catalog
Historically `pg_dist_object` had been created in the `citus` schema as an experiment to understand if we could move our catalog tables to a branded schema. We quickly realised that this interfered with the UX on our managed services and other environments, where users connected via a user with the name of `citus`.
By default postgres put the username on the search_path. To be able to read the catalog in the `citus` schema we would need to grant access permissions to the schema. This caused newly created objects like tables etc, to default to this schema for creation. This failed due to the write permissions to that schema.
With this change we move the `pg_dist_object` catalog table to the `pg_catalog` schema, where our other schema's are also located. This makes the catalog table visible and readable by any user, like our other catalog tables, for debugging purposes.
Note: due to the change of schema, we had to disable 1 test that was running into a discrepancy between the schema and binary. Secondly, we needed to make the lookup functions for the `pg_dist_object` relation and their indexes less strict on the fallback of the naming due to an other test that, due to an unfortunate cache invalidation, needed to lookup the relation again. This makes that we won't default to _only_ resolving from `pg_catalog` outside of upgrades.
As of master branch, Citus does all the modifications to replicated tables
(e.g., reference tables and distributed tables with replication factor > 1),
via 2PC and avoids any shardstate=3. As a side-effect of those changes,
handling node failures for replicated tables change.
With this PR, when one (or multiple) node failures happen, the users would
see query errors on modifications. If the problem is intermitant, that's OK,
once the node failure(s) recover by themselves, the modification queries would
succeed. If the node failure(s) are permenant, the users should call
`SELECT citus_disable_node(...)` to disable the node. As soon as the node is
disabled, modification would start to succeed. However, now the old node gets
behind. It means that, when the node is up again, the placements should be
re-created on the node. First, use `SELECT citus_activate_node()`. Then, use
`SELECT replicate_table_shards(...)` to replicate the missing placements on
the re-activated node.
Currently in mx isolation tests the setup is the same except the creation of tables. Isolation framework lets us define multiple `setup` stages, therefore I thought that we can put the `mx_setup` to one file and prepend this prior to running tests.
How the structure works:
- cpp is used before running isolation tests to preprocess spec files. This way we can include any file we want to. Currently this is used to include mx common part.
- spec files are put to `/build/specs` for clear separation between generated files and template files
- a symbolic link is created for `/expected` in `build/expected/`.
- when running isolation tests, as the `inputdir`, `build` is passed so it runs the spec files from `build/specs` and checks the expected output from `build/expected`.
`/specs` is renamed as `/spec` because postgres first look at the `specs` file under current directory, so this is renamed to avoid that since we are running the isolation tests from `build/specs` now.
Note: now we use `//` instead of `#` in comments in spec files, because cpp interprets `#` as a directive and it ignores `//`.
aykut-bozkurt
Halil Ozan Akgul
Marco Slot
Nils Dijk
Ahmet Gedemenli
Onder Kalaci
Hanefi Onaldi
Sait Talha Nisanci
Hadi Moshayedi