A collection of Python utility functions for ingesting data into SQLAlchemy-defined PostgreSQL tables, automatically migrating them as needed, and minimising locking
Project description
pg-bulk-ingest
A Python utility function for ingesting data into a SQLAlchemy-defined PostgreSQL table, automatically migrating it as needed, and minimising locking.
Installation
pg-bulk-ingest
can be installed from PyPI using pip
. psycopg2
or psycopg
(Psycopg 3) must also be explicitly installed.
pip install pg-bulk-ingest psycopg
Usage
Data ingest to a table is done through the function ingest
. This function:
- creates the table if necessary
- migrates any existing table if necessary, minimising locking
- inserts the incoming data into the table
- if the table has a primary key, performs an "upsert", matching on this primary key
- handles "high-watermarking" to carry on from where a previous ingest finished or errored
- optionally deletes all existing rows before ingestion
For example:
import sqlalchemy as sa
from pg_bulk_ingest import HighWatermark, Visibility, Delete, ingest
# Run postgresql locally should allow the below to run
# docker run --rm -it -e POSTGRES_HOST_AUTH_METHOD=trust -p 5432:5432 postgres
engine = sa.create_engine('postgresql+psycopg://postgres@127.0.0.1:5432/')
# A SQLAlchemy Metadata of a single table definition
metadata = sa.MetaData()
my_table = sa.Table(
"my_table",
metadata,
sa.Column("id", sa.INTEGER, primary_key=True),
sa.Column("value", sa.VARCHAR(16), nullable=False),
schema="my_schema",
)
# A function that yields batches of data, where each is a tuple of of (high watermark, data rows).
# The batches must all be strictly _after_ the high watermark passed into the function
# Each high watermark must be JSON-encodable
# Each row must have the SQLAlchemy table associated with it
def batches(high_watermark):
if high_watermark is None or high_watermark < '2015-01-01':
yield '2015-01-01', (
(my_table, (3, 'a')),
(my_table, (4, 'b')),
(my_table, (5, 'c')),
)
if high_watermark is None or high_watermark < '2015-01-02':
yield '2015-01-02', (
(my_table, (6, 'd')),
(my_table, (7, 'e')),
(my_table, (8, 'f')),
)
with engine.connect() as conn:
ingest(
conn, metadata, batches,
high_watermark=HighWatermark.LATEST, # Carry on from where left off
visibility=Visibility.AFTER_EACH_BATCH, # Changes are visible after each batch
delete=Delete.OFF, # Don't delete any existing rows
)
API
The API is a single function ingest
, together with classes of string constants: HighWatermark
, Visibility
, and Delete
. The constants are known strings rather than opaque identifiers to allow the strings to be easily passed from dynamic/non-Python environments.
ingest
(conn, metadata, batches, high_watermark=HighWatermark.LATEST, visibility=Visibility.AFTER_EACH_BATCH, delete=Delete.OFF)
Ingests data into a table
-
conn
- A SQLAlchemy connection not in a transaction, i.e. started byconnection
rather thanbegin
. -
metadata
- A SQLAlchemy metadata of a single table. -
batches
- A function that takes a high watermark, returning an iterable that yields data batches that are strictly after this high watermark. See Usage above for an example. -
high_watermark
(optional) - A member of theHighWatermark
class, or a JSON-encodable value.If this is
HighWatermark.LATEST
, then the most recent high watermark that been returned from a previous ingest'sbatch
function whose corresponding batch has been succesfully ingested is passed into thebatches
function. If there has been no previous ingest,None
will be passed.If this a JSON-encodable value other than
HighWatermark.LATEST
, then this value is passed directly to thebatches
function. This can be used to override any previous high-watermark. Existing data in the target table is not deleted unless specified by thedelete
parameter. -
visibility
(optional) - A member of theVisibilty
class, controlling when ingests will be visible to other clients, -
delete
(optional) - A member of theDelete
class, controlling if existing rows are to be deleted.
HighWatermark
A class of constants to indicate to the ingest
function how it should use any previously stored high watermark. Its single member is:
LATEST
- use the most recently high watermark, passing it to the batches function. This is the string__LATEST__
.
Visibility
A class of constants to indicate when data changes are visible to other database clients. Schema changes become visible before the first batch.
AFTER_EACH_BATCH
- data changes are visible to other database clients after each batch. This is the string__AFTER_EACH_BATCH__
.
Delete
A class of constants that controls how existing data in the table is deleted
-
OFF
There is no deleting of existing data. This is the string
__OFF__
. -
ALL
All existing data in the table is deleted. This is the string
__ALL__
.
Data types
The SQLAlchemy "CamelCase" data types are not supported in table definitions. Instead, you must use types specified with "UPPERCASE" data types. These are non-abstracted database-level types. This is to support automatic migrations - the real database type is required in order to make a comparison with the live table and the one passed into the ingest
function.
Also not supported is the sqlalchemy.JSON type. Instead use sa.dialects.postgresql.JSON
or sa.dialects.postgresql.JSONB
.
Indexes
Indexes can be added by any of two mechanisms:
-
Setting
index=True
on a column.sa.Table( "my_table", metadata, sa.Column("id", sa.INTEGER, primary_key=True), sa.Column("value", sa.VARCHAR(16), nullable=False, index=True), schema="my_schema", )
-
Passing
sqlalchemy.Index
objects after the column list when defining the table. The name of each index should beNone
, which allows SQLAlchemy to give it a name unlikely to conflict with other indexes.sa.Table( "my_table", metadata, sa.Column("id", sa.INTEGER, primary_key=True), sa.Column("value", sa.VARCHAR(16), nullable=False), sa.Index(None, "value"), schema="my_schema", )
Under the hood
- Ingestion is done exclusively with
COPY FROM
. - Ingestion is transactional, each batch is ingested completely or not at all
- The table is migrated to match the definition, using techniques to avoid exclusively locking the table to allow parallel SELECT queries.
- If the table has a primary key, then an "upsert" is performed. Data is ingested into an intermediate table, and an
INSERT ... ON CONFLICT(...) DO UPDATE
is performed to copy rows from this intermediate table to the existing table. This doesn't involve an ACCESS EXCLUSIVE lock on the live table, so SELECTs can continue in parallel. - Migrations usually require ACCESS EXCLUSIVE lock on the live table. However, if there is no known technique for a migration without a long-running lock, then an intermediate table is created, matching the required definition, existing data is copied into this table, and it replaces the live table before the first batch. This replacement requires an ACCESS EXCLUSIVE lock, but only for a short time. Backends that hold locks that block migrations are forcably terminated after a delay.
- The high watermark is stored on the table as a COMMENT, JSON-encoded. For example if the most recent high watermark is the string
2014-07-31
, then the comment would be{"pg-bulk-ingest": {"high-watermark": "2014-07-31"}}
.
Compatibility
- Python >= 3.7.1 (tested on 3.7.1, 3.8.0, 3.9.0, 3.10.0, and 3.11.0)
- psycopg2 >= 2.9.2 or Psycopg 3 >= 3.1.4
- SQLAlchemy >= 1.4.24 (tested on 1.4.24 and 2.0.0)
- PostgreSQL >= 9.6 (tested on 9.6, 10.0, 11.0, 12.0, 13.0, 14.0, and 15.0)
Note that SQLAlchemy < 2 does not support Psycopg 3, and for SQLAlchemy < 2 future=True
must be passed to create_engine
.
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