I have situation in which I have to commit a portion of code as transaction of its own.
I have created a table subtransaction_tbl:

CREATE TABLE subtransaction_tbl
  entryval integer

And a function in language plpython3u:

CREATE FUNCTION subtransaction_nested_test_t() RETURNS void
AS $$
plpy.execute("INSERT INTO subtransaction_tbl VALUES (1)")
with plpy.subtransaction():
    plpy.execute("INSERT INTO subtransaction_tbl VALUES (2)")
$$ LANGUAGE plpython3u;

First situation:

INSERT INTO subtransaction_tbl VALUES (4);
select  subtransaction_nested_test_t();

Entries in table are correct: 1,2,4

Second situation:

INSERT INTO subtransaction_tbl VALUES (4);
select  subtransaction_nested_test_t();

Values in the table are not populated

I expected 1 or 2 should be added to table subtransaction_tbl but to my surprise no value was inserted. I imagined a new subtransaction was opened by the function and it should not depend upon the parent transaction. Please let me know if I am right or not.

Are there autonomous transactions in Postgres? Or do I have to modify my plpython3u function?


2 Answers 2


Postgres does support nested transactions, but they differ from the conventional SQL, more like transactions with nested partial points.

On the top level you always have your typical BEGIN/COMMIT/ROLLBACK, and on nested levels you have to use the following commands:

  • SAVEPOINT name - creates a new savepoint, with name unique for the transaction
  • RELEASE SAVEPOINT name - commits the savepoint, though it will only persist if the containing transaction commits
  • ROLLBACK TO SAVEPOINT name - rolls back the savepoint

You would also have to make sure that:

  • The names used for each SAVEPOINT are unique;
  • Failure in one SAVEPOINT is propagated upwards to the top level.

The last bit is a bit tricky, unless you use a library that can do that for you automatically.

When I wrote pg-promise, I made sure that those two provisions are guaranteed:

  • It generates save-point names automatically, as level_1, level_2, and so on, based on the transaction level;
  • It executes containing ROLLBACK TO SAVEPOINT name, plus the top-level ROLLBACK in case a child transaction fails - all built on the standard promise-chaining logic.

See also the limitations of the PostgreSQL nested transactions explained...

  • 10
    That's not a nested transaction, because when you roll back the outer transaction, everything will be rolled back. The common understanding of a nested transaction means that it can be committed even when the "outer" transaction is rolled back. Nov 22, 2015 at 21:30
  • 1
    @a_horse_with_no_name, yes, that's the unconventional part, calling rollback on the top level will revert changes for any nested savepoint, unfortunately. That's that's the difference between proper nested transactions and nested transactions via save points.
    – vitaly-t
    Nov 22, 2015 at 22:23
  • 13
    Could you clarify what you mean by "unconventional" (could you provide me some references?), it is the first time I am researching nested transactions. From a developer point of view, I expect a rollback on a transaction to rollback anything that happened inside it, be it simple queries or child transactions (whether they are committed or not). The behavior you described with the "save-points" seems to make more sense.
    – Demurgos
    Jun 15, 2017 at 8:33
  • @Demurgos I have updated it slightly, to more encompass the difference, but it was there already, through the links I provided.
    – vitaly-t
    Jun 15, 2017 at 9:11
  • 2
    What confuses me is "the result of a successful sub-transaction [...]" because this is a concept that is not defined by the Postgres documentations. BEGIN; Q1; BEGIN; Q2; COMMIT; ROLLBACK; is equivalent to BEGIN; Q1; /* warning; */ Q2; COMMIT; /* warning; */. For me, it isn't "the reference behavior for sub-transactions" but the illustration of silent errors and lack of support for first-class nested transactions. Is this what you call "conventional SQL" or were you referring to other SQL implementations that claim support for nested transactions but still behave as you described?
    – Demurgos
    Jun 15, 2017 at 10:11

There are no autonomous transactions in Postgres before Postgres 11, where SQL procedures were added. Everything that's done in a function is rolled back with the transaction.

Here is a discussion of the feature:

In Postgres 10 or older a workaround could be to (ab-)use dblink:

There is also the related concept of a SAVEPOINT. (Not the same thing!):


plpython has subtransactions (with plpy.subtransaction():), but that's not the same as autonomous transactions. There is no separate COMMIT. All it does, is bundle a couple of statements together to make them atomic. Without that, if an exception occurs somewhere in the middle, and you catch that exception, only the code up to this exception would be executed. If you wrap it into a subtransaction, it's all or nothing. This is like using a SAVEPOINT, not an autonomous transaction. Per documentation:

The subtransaction context manager does not trap errors, it only assures that all database operations executed inside its scope will be atomically committed or rolled back.

  • 1
    does creating dblink have any performence bottelneck ?
    – SarthAk
    Aug 22, 2014 at 4:38
  • 1
    @user3247573: It is pretty fast in my experience. If you call dblink for every single row individually it may be a drag in operations with many rows. Try to run it once for many rows ... Aug 22, 2014 at 5:36

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