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I would like to understand better a mechanism of locking in postgres.

Let's say that tree can have apples (via foreign key on apple table). It seems that when selecting a tree for update lock is obtained on an apple. However, the operation is not blocked even if someone else already holds a lock on this apple.

Why is it so?

p.s. Please don't suggest to remove "select for update".

Scenario

Transaction 1      Transaction 2
BEGIN              .
update apple;      .
.                  BEGIN
.                  select tree for update;
.                  update apple;
.                  --halts because of the other transaction locking an apple
update apple;      .
-- deadlock        .
                   COMMIT
                   --transaction succeeds

Code

If you want to try it in your postgres - here is a code you can copy/paste.

I have a following db schema

CREATE TABLE trees (
    id       integer primary key
);

create table apples (
    id       integer primary key,
    tree_id  integer references trees(id)
);

and very simple data

insert into trees values(1);
insert into apples values(1,1);

There are two simple transactions. One is updating apples, the second is locking a tree and updating an apple.

BEGIN;
    UPDATE apples SET id = id WHERE id = 1;
    -- run second transaction in paralell
    UPDATE apples SET id = id WHERE id = 1;
COMMIT;

BEGIN;
    SELECT id FROM trees WHERE id = 1 FOR UPDATE;
    UPDATE apples SET id = id WHERE id = 1;
COMMIT;

When I run them - deadlock occurs on the second update of first transaction.

ERROR:  deadlock detected
DETAIL:  Process 81122 waits for ShareLock on transaction 227154; blocked by process 81100.
Process 81100 waits for ShareLock on transaction 227153; blocked by process 81122.
CONTEXT:  SQL statement "SELECT 1 FROM ONLY "public"."trees" x WHERE "id" OPERATOR(pg_catalog.=) $1 FOR SHARE OF x"
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Which version is this? It doesn't look like ShareLock is used in the latest version. Is the UPDATE necessary in the second transaction? –  John Tseng Sep 3 '13 at 0:22
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2 Answers

up vote 1 down vote accepted
+100

It looks like index locks are not held for the whole duration of the transaction. I think the main issue is that transaction 1 is doing the same UPDATE twice, but it needs to acquire more locks to do the second UPDATE.

According to the docs, index locks are only held for a short time. Unlike data locks, they are not held until the transaction completes. Let's look at the timeline in more detail.

Transaction 1 does the first UPDATE. This acquires a row level lock on the row in apples. During the operation, it also acquires a lock on the index in trees. The transaction has not yet committed, so the row level data lock is still held by transation 1. However, the index lock on trees is immediately released. Not sure why Postgres does this for all index types.

Transaction 2 comes along and locks trees for update. This locks both the data and the index. This does not block since Transaction 1 has already released the index lock. This time, both locks are held until the end of the transaction. Not sure why this index lock is held while the other one is released.

Transaction 1 comes back and tries to UPDATE again. The lock on apples is fine, since it already has it. The lock on trees, however, blocks since Transaction 2 has it already.

Adding the UPDATE in Transaction 2 makes it wait on Transaction 1, causing deadlock.

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Just a wild guess: you're running into an issue related to an implementation detail...

Specifically, your select tree for update statement acquires an exclusive lock on the trees. And the update apples statements obtain an exclusive lock on the relevant apples.

When you run the update on apples, Postgres' foreign-key related per row triggers fire, to ensure that the tree_id exists. I don't recall their precise names off the top of my head, but they're in the catalog and there are bits and pieces in the documentation that reference them explicitly or implicitly, e.g.:

create constraint trigger ... on ... from ...

http://www.postgresql.org/docs/current/static/sql-createtrigger.html

At any rate, these triggers will run something that amounts to the following:

select exists (select 1 from trees where id = 1);

And therein lies your problem: the exclusive access due to the select for update makes it wait for transaction 2 to release the lock on trees in order to finalize its update statement on apples, but transaction 2 is waiting for transaction 1 to complete in order to obtain a lock on apples so as to begin its update statement on apples.

As a result, Postgres bails with a deadlock.

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