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404 lines
17 KiB
Markdown
# Synapse database schema files
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Synapse's database schema is stored in the `synapse.storage.schema` module.
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## Logical databases
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Synapse supports splitting its datastore across multiple physical databases (which can
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be useful for large installations), and the schema files are therefore split according
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to the logical database they apply to.
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At the time of writing, the following "logical" databases are supported:
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* `state` - used to store Matrix room state (more specifically, `state_groups`,
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their relationships and contents).
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* `main` - stores everything else.
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Additionally, the `common` directory contains schema files for tables which must be
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present on *all* physical databases.
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## Synapse schema versions
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Synapse manages its database schema via "schema versions". These are mainly used to
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help avoid confusion if the Synapse codebase is rolled back after the database is
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updated. They work as follows:
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* The Synapse codebase defines a constant `synapse.storage.schema.SCHEMA_VERSION`
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which represents the expectations made about the database by that version. For
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example, as of Synapse v1.36, this is `59`.
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* The database stores a "compatibility version" in
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`schema_compat_version.compat_version` which defines the `SCHEMA_VERSION` of the
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oldest version of Synapse which will work with the database. On startup, if
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`compat_version` is found to be newer than `SCHEMA_VERSION`, Synapse will refuse to
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start.
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Synapse automatically updates this field from
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`synapse.storage.schema.SCHEMA_COMPAT_VERSION`.
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* Whenever a backwards-incompatible change is made to the database format (normally
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via a `delta` file), `synapse.storage.schema.SCHEMA_COMPAT_VERSION` is also updated
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so that administrators can not accidentally roll back to a too-old version of Synapse.
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Generally, the goal is to maintain compatibility with at least one or two previous
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releases of Synapse, so any substantial change tends to require multiple releases and a
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bit of forward-planning to get right.
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As a worked example: we want to remove the `room_stats_historical` table. Here is how it
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might pan out.
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1. Replace any code that *reads* from `room_stats_historical` with alternative
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implementations, but keep writing to it in case of rollback to an earlier version.
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Also, increase `synapse.storage.schema.SCHEMA_VERSION`. In this
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instance, there is no existing code which reads from `room_stats_historical`, so
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our starting point is:
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v1.36.0: `SCHEMA_VERSION=59`, `SCHEMA_COMPAT_VERSION=59`
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2. Next (say in Synapse v1.37.0): remove the code that *writes* to
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`room_stats_historical`, but don’t yet remove the table in case of rollback to
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v1.36.0. Again, we increase `synapse.storage.schema.SCHEMA_VERSION`, but
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because we have not broken compatibility with v1.36, we do not yet update
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`SCHEMA_COMPAT_VERSION`. We now have:
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v1.37.0: `SCHEMA_VERSION=60`, `SCHEMA_COMPAT_VERSION=59`.
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3. Later (say in Synapse v1.38.0): we can remove the table altogether. This will
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break compatibility with v1.36.0, so we must update `SCHEMA_COMPAT_VERSION` accordingly.
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There is no need to update `synapse.storage.schema.SCHEMA_VERSION`, since there is no
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change to the Synapse codebase here. So we end up with:
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v1.38.0: `SCHEMA_VERSION=60`, `SCHEMA_COMPAT_VERSION=60`.
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If in doubt about whether to update `SCHEMA_VERSION` or not, it is generally best to
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lean towards doing so.
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## Full schema dumps
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In the `full_schemas` directories, only the most recently-numbered snapshot is used
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(`54` at the time of writing). Older snapshots (eg, `16`) are present for historical
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reference only.
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### Building full schema dumps
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If you want to recreate these schemas, they need to be made from a database that
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has had all background updates run.
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To do so, use `scripts-dev/make_full_schema.sh`. This will produce new
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`full.sql.postgres` and `full.sql.sqlite` files.
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Ensure postgres is installed, then run:
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```sh
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./scripts-dev/make_full_schema.sh -p postgres_username -o output_dir/
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```
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NB at the time of writing, this script predates the split into separate `state`/`main`
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databases so will require updates to handle that correctly.
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## Delta files
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Delta files define the steps required to upgrade the database from an earlier version.
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They can be written as either a file containing a series of SQL statements, or a Python
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module.
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Synapse remembers which delta files it has applied to a database (they are stored in the
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`applied_schema_deltas` table) and will not re-apply them (even if a given file is
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subsequently updated).
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Delta files should be placed in a directory named `synapse/storage/schema/<database>/delta/<version>/`.
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They are applied in alphanumeric order, so by convention the first two characters
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of the filename should be an integer such as `01`, to put the file in the right order.
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### SQL delta files
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These should be named `*.sql`, or — for changes which should only be applied for a
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given database engine — `*.sql.posgres` or `*.sql.sqlite`. For example, a delta which
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adds a new column to the `foo` table might be called `01add_bar_to_foo.sql`.
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Note that our SQL parser is a bit simple - it understands comments (`--` and `/*...*/`),
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but complex statements which require a `;` in the middle of them (such as `CREATE
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TRIGGER`) are beyond it and you'll have to use a Python delta file.
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### Python delta files
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For more flexibility, a delta file can take the form of a python module. These should
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be named `*.py`. Note that database-engine-specific modules are not supported here –
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instead you can write `if isinstance(database_engine, PostgresEngine)` or similar.
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A Python delta module should define either or both of the following functions:
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```python
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import synapse.config.homeserver
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import synapse.storage.engines
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import synapse.storage.types
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def run_create(
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cur: synapse.storage.types.Cursor,
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database_engine: synapse.storage.engines.BaseDatabaseEngine,
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) -> None:
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"""Called whenever an existing or new database is to be upgraded"""
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...
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def run_upgrade(
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cur: synapse.storage.types.Cursor,
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database_engine: synapse.storage.engines.BaseDatabaseEngine,
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config: synapse.config.homeserver.HomeServerConfig,
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) -> None:
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"""Called whenever an existing database is to be upgraded."""
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...
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```
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## Background updates
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It is sometimes appropriate to perform database migrations as part of a background
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process (instead of blocking Synapse until the migration is done). In particular,
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this is useful for migrating data when adding new columns or tables.
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Pending background updates stored in the `background_updates` table and are denoted
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by a unique name, the current status (stored in JSON), and some dependency information:
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* Whether the update requires a previous update to be complete.
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* A rough ordering for which to complete updates.
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A new background updates needs to be added to the `background_updates` table:
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```sql
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INSERT INTO background_updates (ordering, update_name, depends_on, progress_json) VALUES
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(7706, 'my_background_update', 'a_previous_background_update' '{}');
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```
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And then needs an associated handler in the appropriate datastore:
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```python
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self.db_pool.updates.register_background_update_handler(
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"my_background_update",
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update_handler=self._my_background_update,
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)
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```
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There are a few types of updates that can be performed, see the `BackgroundUpdater`:
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* `register_background_update_handler`: A generic handler for custom SQL
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* `register_background_index_update`: Create an index in the background
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* `register_background_validate_constraint`: Validate a constraint in the background
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(PostgreSQL-only)
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* `register_background_validate_constraint_and_delete_rows`: Similar to
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`register_background_validate_constraint`, but deletes rows which don't fit
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the constraint.
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For `register_background_update_handler`, the generic handler must track progress
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and then finalize the background update:
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```python
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async def _my_background_update(self, progress: JsonDict, batch_size: int) -> int:
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def _do_something(txn: LoggingTransaction) -> int:
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...
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self.db_pool.updates._background_update_progress_txn(
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txn, "my_background_update", {"last_processed": last_processed}
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)
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return last_processed - prev_last_processed
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num_processed = await self.db_pool.runInteraction("_do_something", _do_something)
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await self.db_pool.updates._end_background_update("my_background_update")
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return num_processed
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```
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Synapse will attempt to rate-limit how often background updates are run via the
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given batch-size and the returned number of processed entries (and how long the
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function took to run). See
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[background update controller callbacks](../modules/background_update_controller_callbacks.md).
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## Boolean columns
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Boolean columns require special treatment, since SQLite treats booleans the
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same as integers.
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Any new boolean column must be added to the `BOOLEAN_COLUMNS` list in
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`synapse/_scripts/synapse_port_db.py`. This tells the port script to cast
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the integer value from SQLite to a boolean before writing the value to the
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postgres database.
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## `event_id` global uniqueness
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`event_id`'s can be considered globally unique although there has been a lot of
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debate on this topic in places like
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[MSC2779](https://github.com/matrix-org/matrix-spec-proposals/issues/2779) and
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[MSC2848](https://github.com/matrix-org/matrix-spec-proposals/pull/2848) which
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has no resolution yet (as of 2022-09-01). There are several places in Synapse
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and even in the Matrix APIs like [`GET
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/_matrix/federation/v1/event/{eventId}`](https://spec.matrix.org/v1.1/server-server-api/#get_matrixfederationv1eventeventid)
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where we assume that event IDs are globally unique.
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When scoping `event_id` in a database schema, it is often nice to accompany it
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with `room_id` (`PRIMARY KEY (room_id, event_id)` and a `FOREIGN KEY(room_id)
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REFERENCES rooms(room_id)`) which makes flexible lookups easy. For example it
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makes it very easy to find and clean up everything in a room when it needs to be
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purged (no need to use sub-`select` query or join from the `events` table).
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A note on collisions: In room versions `1` and `2` it's possible to end up with
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two events with the same `event_id` (in the same or different rooms). After room
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version `3`, that can only happen with a hash collision, which we basically hope
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will never happen (SHA256 has a massive big key space).
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## Worked examples of gradual migrations
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Some migrations need to be performed gradually. A prime example of this is anything
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which would need to do a large table scan — including adding columns, indices or
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`NOT NULL` constraints to non-empty tables — such a migration should be done as a
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background update where possible, at least on Postgres.
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We can afford to be more relaxed about SQLite databases since they are usually
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used on smaller deployments and SQLite does not support the same concurrent
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DDL operations as Postgres.
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We also typically insist on having at least one Synapse version's worth of
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backwards compatibility, so that administrators can roll back Synapse if an upgrade
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did not go smoothly.
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This sometimes results in having to plan a migration across multiple versions
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of Synapse.
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This section includes an example and may include more in the future.
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### Transforming a column into another one, with `NOT NULL` constraints
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This example illustrates how you would introduce a new column, write data into it
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based on data from an old column and then drop the old column.
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We are aiming for semantic equivalence to:
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```sql
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ALTER TABLE mytable ADD COLUMN new_column INTEGER;
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UPDATE mytable SET new_column = old_column * 100;
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ALTER TABLE mytable ALTER COLUMN new_column ADD CONSTRAINT NOT NULL;
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ALTER TABLE mytable DROP COLUMN old_column;
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```
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#### Synapse version `N`
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```python
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SCHEMA_VERSION = S
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SCHEMA_COMPAT_VERSION = ... # unimportant at this stage
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```
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**Invariants:**
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1. `old_column` is read by Synapse and written to by Synapse.
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#### Synapse version `N + 1`
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```python
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SCHEMA_VERSION = S + 1
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SCHEMA_COMPAT_VERSION = ... # unimportant at this stage
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```
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**Changes:**
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1.
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```sql
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ALTER TABLE mytable ADD COLUMN new_column INTEGER;
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```
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**Invariants:**
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1. `old_column` is read by Synapse and written to by Synapse.
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2. `new_column` is written to by Synapse.
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**Notes:**
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1. `new_column` can't have a `NOT NULL NOT VALID` constraint yet, because the previous Synapse version did not write to the new column (since we haven't bumped the `SCHEMA_COMPAT_VERSION` yet, we still need to be compatible with the previous version).
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#### Synapse version `N + 2`
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```python
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SCHEMA_VERSION = S + 2
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SCHEMA_COMPAT_VERSION = S + 1 # this signals that we can't roll back to a time before new_column existed
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```
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**Changes:**
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1. On Postgres, add a `NOT VALID` constraint to ensure new rows are compliant. *SQLite does not have such a construct, but it would be unnecessary anyway since there is no way to concurrently perform this migration on SQLite.*
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```sql
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ALTER TABLE mytable ADD CONSTRAINT CHECK new_column_not_null (new_column IS NOT NULL) NOT VALID;
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```
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2. Start a background update to perform migration: it should gradually run e.g.
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```sql
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UPDATE mytable SET new_column = old_column * 100 WHERE 0 < mytable_id AND mytable_id <= 5;
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```
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This background update is technically pointless on SQLite, but you must schedule it anyway so that the `portdb` script to migrate to Postgres still works.
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3. Upon completion of the background update, you should run `VALIDATE CONSTRAINT` on Postgres to turn the `NOT VALID` constraint into a valid one.
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```sql
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ALTER TABLE mytable VALIDATE CONSTRAINT new_column_not_null;
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```
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This will take some time but does **NOT** hold an exclusive lock over the table.
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**Invariants:**
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1. `old_column` is read by Synapse and written to by Synapse.
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2. `new_column` is written to by Synapse and new rows always have a non-`NULL` value in this field.
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**Notes:**
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1. If you wish, you can convert the `CHECK (new_column IS NOT NULL)` to a `NOT NULL` constraint free of charge in Postgres by adding the `NOT NULL` constraint and then dropping the `CHECK` constraint, because Postgres can statically verify that the `NOT NULL` constraint is implied by the `CHECK` constraint without performing a table scan.
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2. It might be tempting to make version `N + 2` redundant by moving the background update to `N + 1` and delaying adding the `NOT NULL` constraint to `N + 3`, but that would mean the constraint would always be validated in the foreground in `N + 3`. Whereas if the `N + 2` step is kept, the migration in `N + 3` would be fast in the happy case.
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#### Synapse version `N + 3`
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```python
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SCHEMA_VERSION = S + 3
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SCHEMA_COMPAT_VERSION = S + 1 # we can't roll back to a time before new_column existed
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```
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**Changes:**
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1. (Postgres) Update the table to populate values of `new_column` in case the background update had not completed. Additionally, `VALIDATE CONSTRAINT` to make the check fully valid.
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```sql
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-- you ideally want an index on `new_column` or e.g. `(new_column) WHERE new_column IS NULL` first, or perhaps you can find a way to skip this if the `NOT NULL` constraint has already been validated.
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UPDATE mytable SET new_column = old_column * 100 WHERE new_column IS NULL;
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-- this is a no-op if it already ran as part of the background update
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ALTER TABLE mytable VALIDATE CONSTRAINT new_column_not_null;
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```
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2. (SQLite) Recreate the table by precisely following [the 12-step procedure for SQLite table schema changes](https://www.sqlite.org/lang_altertable.html#otheralter).
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During this table rewrite, you should recreate `new_column` as `NOT NULL` and populate any outstanding `NULL` values at the same time.
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Unfortunately, you can't drop `old_column` yet because it must be present for compatibility with the Postgres schema, as needed by `portdb`.
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(Otherwise you could do this all in one go with SQLite!)
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**Invariants:**
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1. `old_column` is written to by Synapse (but no longer read by Synapse!).
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2. `new_column` is read by Synapse and written to by Synapse. Moreover, all rows have a non-`NULL` value in this field, as guaranteed by a schema constraint.
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**Notes:**
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1. We can't drop `old_column` yet, or even stop writing to it, because that would break a rollback to the previous version of Synapse.
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2. Application code can now rely on `new_column` being populated. The remaining steps are only motivated by the wish to clean-up old columns.
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#### Synapse version `N + 4`
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```python
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SCHEMA_VERSION = S + 4
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SCHEMA_COMPAT_VERSION = S + 3 # we can't roll back to a time before new_column was entirely non-NULL
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```
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**Invariants:**
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1. `old_column` exists but is not written to or read from by Synapse.
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2. `new_column` is read by Synapse and written to by Synapse. Moreover, all rows have a non-`NULL` value in this field, as guaranteed by a schema constraint.
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**Notes:**
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1. We can't drop `old_column` yet because that would break a rollback to the previous version of Synapse. \
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**TODO:** It may be possible to relax this and drop the column straight away as long as the previous version of Synapse detected a rollback occurred and stopped attempting to write to the column. This could possibly be done by checking whether the database's schema compatibility version was `S + 3`.
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#### Synapse version `N + 5`
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```python
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SCHEMA_VERSION = S + 5
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SCHEMA_COMPAT_VERSION = S + 4 # we can't roll back to a time before old_column was no longer being touched
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```
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**Changes:**
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1.
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```sql
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ALTER TABLE mytable DROP COLUMN old_column;
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```
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